+2011-08-22 Nick Clifton <nickc@redhat.com>
+
+ * fr30.cpu: Newly contributed file.
+ * fr30.opc: Likewise.
+ * ip2k.cpu: Likewise.
+ * ip2k.opc: Likewise.
+ * mep-avc.cpu: Likewise.
+ * mep-avc2.cpu: Likewise.
+ * mep-c5.cpu: Likewise.
+ * mep-core.cpu: Likewise.
+ * mep-default.cpu: Likewise.
+ * mep-ext-cop.cpu: Likewise.
+ * mep-fmax.cpu: Likewise.
+ * mep-h1.cpu: Likewise.
+ * mep-ivc2.cpu: Likewise.
+ * mep-rhcop.cpu: Likewise.
+ * mep-sample-ucidsp.cpu: Likewise.
+ * mep.cpu: Likewise.
+ * mep.opc: Likewise.
+ * openrisc.cpu: Likewise.
+ * openrisc.opc: Likewise.
+ * xstormy16.cpu: Likewise.
+ * xstormy16.opc: Likewise.
+
2010-10-08 Pierre Muller <muller@ics.u-strasbg.fr>
* frv.opc: #undef DEBUG.
--- /dev/null
+; Fujitsu FR30 CPU description. -*- Scheme -*-
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+(define-rtl-version 0 8)
+
+(include "simplify.inc")
+
+; define-arch must appear first
+
+(define-arch
+ (name fr30) ; name of cpu family
+ (comment "Fujitsu FR30")
+ (default-alignment forced)
+ (insn-lsb0? #f)
+ (machs fr30)
+ (isas fr30)
+)
+
+(define-isa
+ (name fr30)
+ (base-insn-bitsize 16)
+ (decode-assist (0 1 2 3 4 5 6 7)) ; Initial bitnumbers to decode insns by.
+ (liw-insns 1) ; The fr30 fetches 1 insn at a time.
+ (parallel-insns 1) ; The fr30 executes 1 insn at a time.
+)
+
+(define-cpu
+ ; cpu names must be distinct from the architecture name and machine names.
+ ; The "b" suffix stands for "base" and is the convention.
+ ; The "f" suffix stands for "family" and is the convention.
+ (name fr30bf)
+ (comment "Fujitsu FR30 base family")
+ (endian big)
+ (word-bitsize 32)
+)
+
+(define-mach
+ (name fr30)
+ (comment "Generic FR30 cpu")
+ (cpu fr30bf)
+)
+\f
+; Model descriptions.
+;
+(define-model
+ (name fr30-1) (comment "fr30-1") (attrs)
+ (mach fr30)
+
+ (pipeline all "" () ((fetch) (decode) (execute) (writeback)))
+
+ ; `state' is a list of variables for recording model state
+ (state
+ ; bit mask of h-gr registers loaded from memory by previous insn
+ (load-regs UINT)
+ ; bit mask of h-gr registers loaded from memory by current insn
+ (load-regs-pending UINT)
+ )
+
+ (unit u-exec "Execution Unit" ()
+ 1 1 ; issue done
+ () ; state
+ ((Ri INT -1) (Rj INT -1)) ; inputs
+ ((Ri INT -1)) ; outputs
+ () ; profile action (default)
+ )
+ (unit u-cti "Branch Unit" ()
+ 1 1 ; issue done
+ () ; state
+ ((Ri INT -1)) ; inputs
+ ((pc)) ; outputs
+ () ; profile action (default)
+ )
+ (unit u-load "Memory Load Unit" ()
+ 1 1 ; issue done
+ () ; state
+ ((Rj INT -1)
+ ;(ld-mem AI)
+ ) ; inputs
+ ((Ri INT -1)) ; outputs
+ () ; profile action (default)
+ )
+ (unit u-store "Memory Store Unit" ()
+ 1 1 ; issue done
+ () ; state
+ ((Ri INT -1) (Rj INT -1)) ; inputs
+ () ; ((st-mem AI)) ; outputs
+ () ; profile action (default)
+ )
+ (unit u-ldm "LDM Memory Load Unit" ()
+ 1 1 ; issue done
+ () ; state
+ ((reglist INT)) ; inputs
+ () ; outputs
+ () ; profile action (default)
+ )
+ (unit u-stm "STM Memory Store Unit" ()
+ 1 1 ; issue done
+ () ; state
+ ((reglist INT)) ; inputs
+ () ; outputs
+ () ; profile action (default)
+ )
+)
+\f
+; The instruction fetch/execute cycle.
+;
+; This is how to fetch and decode an instruction.
+; Leave it out for now
+
+; (define-extract (const SI 0))
+
+; This is how to execute a decoded instruction.
+; Leave it out for now
+
+; (define-execute (const SI 0))
+\f
+; Instruction fields.
+;
+; Attributes:
+; PCREL-ADDR: pc relative value (for reloc and disassembly purposes)
+; ABS-ADDR: absolute address (for reloc and disassembly purposes?)
+; RESERVED: bits are not used to decode insn, must be all 0
+
+(dnf f-op1 "1st 4 bits of opcode" () 0 4)
+(dnf f-op2 "2nd 4 bits of opcode" () 4 4)
+(dnf f-op3 "3rd 4 bits of opcode" () 8 4)
+(dnf f-op4 "4th 4 bits of opcode" () 12 4)
+(dnf f-op5 "5th bit of opcode" () 4 1)
+(dnf f-cc "condition code" () 4 4)
+(dnf f-ccc "coprocessor calc code" () 16 8)
+(dnf f-Rj "register Rj" () 8 4)
+(dnf f-Ri "register Ri" () 12 4)
+(dnf f-Rs1 "register Rs" () 8 4)
+(dnf f-Rs2 "register Rs" () 12 4)
+(dnf f-Rjc "register Rj" () 24 4)
+(dnf f-Ric "register Ri" () 28 4)
+(dnf f-CRj "coprocessor register" () 24 4)
+(dnf f-CRi "coprocessor register" () 28 4)
+(dnf f-u4 "4 bit 0 extended" () 8 4)
+(dnf f-u4c "4 bit 0 extended" () 12 4)
+(df f-i4 "4 bit sign extended" () 8 4 INT #f #f)
+(df f-m4 "4 bit minus extended" () 8 4 UINT
+ ((value pc) (and WI value (const #xf)))
+ ; ??? On a 64 bit host this doesn't get completely sign extended
+ ; if the value is recorded in a long, as it is during extraction.
+ ; Various fixes exist, pick one.
+ ((value pc) (or WI value (sll WI (const -1) (const 4))))
+)
+(dnf f-u8 "8 bit unsigned" () 8 8)
+(dnf f-i8 "8 bit unsigned" () 4 8)
+
+(dnf f-i20-4 "upper 4 bits of i20" () 8 4)
+(dnf f-i20-16 "lower 16 bits of i20" () 16 16)
+(dnmf f-i20 "20 bit unsigned" () UINT
+ (f-i20-4 f-i20-16)
+ (sequence () ; insert
+ (set (ifield f-i20-4) (srl (ifield f-i20) (const 16)))
+ (set (ifield f-i20-16) (and (ifield f-i20) (const #xffff)))
+ )
+ (sequence () ; extract
+ (set (ifield f-i20) (or (sll (ifield f-i20-4) (const 16))
+ (ifield f-i20-16)))
+ )
+)
+
+(dnf f-i32 "32 bit immediate" (SIGN-OPT) 16 32)
+
+(df f-udisp6 "6 bit unsigned offset" () 8 4 UINT
+ ((value pc) (srl UWI value (const 2)))
+ ((value pc) (sll UWI value (const 2)))
+)
+(df f-disp8 "8 bit signed offset" () 4 8 INT #f #f)
+(df f-disp9 "9 bit signed offset" () 4 8 INT
+ ((value pc) (sra WI value (const 1)))
+ ((value pc) (sll WI value (const 1)))
+)
+(df f-disp10 "10 bit signed offset" () 4 8 INT
+ ((value pc) (sra WI value (const 2)))
+ ((value pc) (sll WI value (const 2)))
+)
+(df f-s10 "10 bit signed offset" () 8 8 INT
+ ((value pc) (sra WI value (const 2)))
+ ((value pc) (sll WI value (const 2)))
+)
+(df f-u10 "10 bit unsigned offset" () 8 8 UINT
+ ((value pc) (srl UWI value (const 2)))
+ ((value pc) (sll UWI value (const 2)))
+)
+(df f-rel9 "9 pc relative signed offset" (PCREL-ADDR) 8 8 INT
+ ((value pc) (sra WI (sub WI value (add WI pc (const 2))) (const 1)))
+ ((value pc) (add WI (sll WI value (const 1)) (add WI pc (const 2))))
+)
+(dnf f-dir8 "8 bit direct address" () 8 8)
+(df f-dir9 "9 bit direct address" () 8 8 UINT
+ ((value pc) (srl UWI value (const 1)))
+ ((value pc) (sll UWI value (const 1)))
+)
+(df f-dir10 "10 bit direct address" () 8 8 UINT
+ ((value pc) (srl UWI value (const 2)))
+ ((value pc) (sll UWI value (const 2)))
+)
+(df f-rel12 "12 bit pc relative signed offset" (PCREL-ADDR) 5 11 INT
+ ((value pc) (sra WI (sub WI value (add WI pc (const 2))) (const 1)))
+ ((value pc) (add WI (sll WI value (const 1)) (add WI pc (const 2))))
+)
+
+(dnf f-reglist_hi_st "8 bit register mask for stm" () 8 8)
+(dnf f-reglist_low_st "8 bit register mask for stm" () 8 8)
+(dnf f-reglist_hi_ld "8 bit register mask for ldm" () 8 8)
+(dnf f-reglist_low_ld "8 bit register mask for ldm" () 8 8)
+\f
+; Enums.
+
+; insn-op1: bits 0-3
+; FIXME: should use die macro or some such
+(define-normal-insn-enum insn-op1 "insn op1 enums" () OP1_ f-op1
+ ("0" "1" "2" "3" "4" "5" "6" "7"
+ "8" "9" "A" "B" "C" "D" "E" "F")
+)
+
+; insn-op2: bits 4-7
+; FIXME: should use die macro or some such
+(define-normal-insn-enum insn-op2 "insn op2 enums" () OP2_ f-op2
+ ("0" "1" "2" "3" "4" "5" "6" "7"
+ "8" "9" "A" "B" "C" "D" "E" "F")
+)
+
+; insn-op3: bits 8-11
+; FIXME: should use die macro or some such
+(define-normal-insn-enum insn-op3 "insn op3 enums" () OP3_ f-op3
+ ("0" "1" "2" "3" "4" "5" "6" "7"
+ "8" "9" "A" "B" "C" "D" "E" "F")
+)
+
+; insn-op4: bits 12-15
+; FIXME: should use die macro or some such
+(define-normal-insn-enum insn-op4 "insn op4 enums" () OP4_ f-op4
+ ("0")
+)
+
+; insn-op5: bit 4 (5th bit origin 0)
+; FIXME: should use die macro or some such
+(define-normal-insn-enum insn-op5 "insn op5 enums" () OP5_ f-op5
+ ("0" "1")
+)
+
+; insn-cc: condition codes
+; FIXME: should use die macro or some such
+(define-normal-insn-enum insn-cc "insn cc enums" () CC_ f-cc
+ ("ra" "no" "eq" "ne" "c" "nc" "n" "p" "v" "nv" "lt" "ge" "le" "gt" "ls" "hi")
+)
+\f
+; Hardware pieces.
+; These entries list the elements of the raw hardware.
+; They're also used to provide tables and other elements of the assembly
+; language.
+
+(dnh h-pc "program counter" (PC PROFILE) (pc) () () ())
+
+(define-keyword
+ (name gr-names)
+ (enum-prefix H-GR-)
+ (values (r0 0) (r1 1) (r2 2) (r3 3) (r4 4) (r5 5) (r6 6) (r7 7)
+ (r8 8) (r9 9) (r10 10) (r11 11) (r12 12) (r13 13) (r14 14) (r15 15)
+ (ac 13) (fp 14) (sp 15))
+)
+
+(define-hardware
+ (name h-gr)
+ (comment "general registers")
+ (attrs PROFILE CACHE-ADDR)
+ (type register WI (16))
+ (indices extern-keyword gr-names)
+)
+
+(define-keyword
+ (name cr-names)
+ (enum-prefix H-CR-)
+ (values (cr0 0) (cr1 1) (cr2 2) (cr3 3)
+ (cr4 4) (cr5 5) (cr6 6) (cr7 7)
+ (cr8 8) (cr9 9) (cr10 10) (cr11 11)
+ (cr12 12) (cr13 13) (cr14 14) (cr15 15))
+)
+
+(define-hardware
+ (name h-cr)
+ (comment "coprocessor registers")
+ (attrs)
+ (type register WI (16))
+ (indices extern-keyword cr-names)
+)
+
+(define-keyword
+ (name dr-names)
+ (enum-prefix H-DR-)
+ (values (tbr 0) (rp 1) (ssp 2) (usp 3) (mdh 4) (mdl 5))
+)
+
+(define-hardware
+ (name h-dr)
+ (comment "dedicated registers")
+ (type register WI (6))
+ (indices extern-keyword dr-names)
+ (get (index) (c-call WI "@cpu@_h_dr_get_handler" index))
+ (set (index newval) (c-call VOID "@cpu@_h_dr_set_handler" index newval))
+)
+
+(define-hardware
+ (name h-ps)
+ (comment "processor status")
+ (type register UWI)
+ (indices keyword "" ((ps 0)))
+ (get () (c-call UWI "@cpu@_h_ps_get_handler"))
+ (set (newval) (c-call VOID "@cpu@_h_ps_set_handler" newval))
+)
+
+(dnh h-r13 "General Register 13 explicitly required"
+ ()
+ (register WI)
+ (keyword "" ((r13 0)))
+ () ()
+)
+
+(dnh h-r14 "General Register 14 explicitly required"
+ ()
+ (register WI)
+ (keyword "" ((r14 0)))
+ () ()
+)
+
+(dnh h-r15 "General Register 15 explicitly required"
+ ()
+ (register WI)
+ (keyword "" ((r15 0)))
+ () ()
+)
+
+; These bits are actually part of the PS register but are accessed more
+; often than the entire register, so define them directly. We can assemble
+; the PS register from its components when necessary.
+
+(dsh h-nbit "negative bit" () (register BI))
+(dsh h-zbit "zero bit" () (register BI))
+(dsh h-vbit "overflow bit" () (register BI))
+(dsh h-cbit "carry bit" () (register BI))
+(dsh h-ibit "interrupt enable bit" () (register BI))
+(define-hardware
+ (name h-sbit)
+ (comment "stack bit")
+ (type register BI)
+ (get () (c-call BI "@cpu@_h_sbit_get_handler"))
+ (set (newval) (c-call VOID "@cpu@_h_sbit_set_handler" newval))
+)
+(dsh h-tbit "trace trap bit" () (register BI))
+(dsh h-d0bit "division 0 bit" () (register BI))
+(dsh h-d1bit "division 1 bit" () (register BI))
+
+; These represent sub-registers within the program status register
+
+(define-hardware
+ (name h-ccr)
+ (comment "condition code bits")
+ (type register UQI)
+ (get () (c-call UQI "@cpu@_h_ccr_get_handler"))
+ (set (newval) (c-call VOID "@cpu@_h_ccr_set_handler" newval))
+)
+(define-hardware
+ (name h-scr)
+ (comment "system condition bits")
+ (type register UQI)
+ (get () (c-call UQI "@cpu@_h_scr_get_handler"))
+ (set (newval) (c-call VOID "@cpu@_h_scr_set_handler" newval))
+)
+(define-hardware
+ (name h-ilm)
+ (comment "interrupt level mask")
+ (type register UQI)
+ (get () (c-call UQI "@cpu@_h_ilm_get_handler"))
+ (set (newval) (c-call VOID "@cpu@_h_ilm_set_handler" newval))
+)
+\f
+; Instruction Operands.
+; These entries provide a layer between the assembler and the raw hardware
+; description, and are used to refer to hardware elements in the semantic
+; code. Usually there's a bit of over-specification, but in more complicated
+; instruction sets there isn't.
+
+; FR30 specific operand attributes:
+
+(define-attr
+ (for operand)
+ (type boolean)
+ (name HASH-PREFIX)
+ (comment "immediates have an optional '#' prefix")
+)
+
+; ??? Convention says this should be o-sr, but then the insn definitions
+; should refer to o-sr which is clumsy. The "o-" could be implicit, but
+; then it should be implicit for all the symbols here, but then there would
+; be confusion between (f-)simm8 and (h-)simm8.
+; So for now the rule is exactly as it appears here.
+
+(dnop Ri "destination register" () h-gr f-Ri)
+(dnop Rj "source register" () h-gr f-Rj)
+(dnop Ric "target register coproc insn" () h-gr f-Ric)
+(dnop Rjc "source register coproc insn" () h-gr f-Rjc)
+(dnop CRi "coprocessor register" () h-cr f-CRi)
+(dnop CRj "coprocessor register" () h-cr f-CRj)
+(dnop Rs1 "dedicated register" () h-dr f-Rs1)
+(dnop Rs2 "dedicated register" () h-dr f-Rs2)
+(dnop R13 "General Register 13" () h-r13 f-nil)
+(dnop R14 "General Register 14" () h-r14 f-nil)
+(dnop R15 "General Register 15" () h-r15 f-nil)
+(dnop ps "Program Status register" () h-ps f-nil)
+(dnop u4 "4 bit unsigned immediate" (HASH-PREFIX) h-uint f-u4)
+(dnop u4c "4 bit unsigned immediate" (HASH-PREFIX) h-uint f-u4c)
+(dnop u8 "8 bit unsigned immediate" (HASH-PREFIX) h-uint f-u8)
+(dnop i8 "8 bit unsigned immediate" (HASH-PREFIX) h-uint f-i8)
+(dnop udisp6 "6 bit unsigned immediate" (HASH-PREFIX) h-uint f-udisp6)
+(dnop disp8 "8 bit signed immediate" (HASH-PREFIX) h-sint f-disp8)
+(dnop disp9 "9 bit signed immediate" (HASH-PREFIX) h-sint f-disp9)
+(dnop disp10 "10 bit signed immediate" (HASH-PREFIX) h-sint f-disp10)
+
+(dnop s10 "10 bit signed immediate" (HASH-PREFIX) h-sint f-s10)
+(dnop u10 "10 bit unsigned immediate" (HASH-PREFIX) h-uint f-u10)
+(dnop i32 "32 bit immediate" (HASH-PREFIX) h-uint f-i32)
+
+(define-operand
+ (name m4)
+ (comment "4 bit negative immediate")
+ (attrs HASH-PREFIX)
+ (type h-sint)
+ (index f-m4)
+ (handlers (print "m4"))
+)
+
+(define-operand
+ (name i20)
+ (comment "20 bit immediate")
+ (attrs HASH-PREFIX)
+ (type h-uint)
+ (index f-i20)
+)
+
+(dnop dir8 "8 bit direct address" () h-uint f-dir8)
+(dnop dir9 "9 bit direct address" () h-uint f-dir9)
+(dnop dir10 "10 bit direct address" () h-uint f-dir10)
+
+(dnop label9 "9 bit pc relative address" () h-iaddr f-rel9)
+(dnop label12 "12 bit pc relative address" () h-iaddr f-rel12)
+
+(define-operand
+ (name reglist_low_ld)
+ (comment "8 bit low register mask for ldm")
+ (attrs)
+ (type h-uint)
+ (index f-reglist_low_ld)
+ (handlers (parse "low_register_list_ld")
+ (print "low_register_list_ld"))
+)
+
+(define-operand
+ (name reglist_hi_ld)
+ (comment "8 bit high register mask for ldm")
+ (attrs)
+ (type h-uint)
+ (index f-reglist_hi_ld)
+ (handlers (parse "hi_register_list_ld")
+ (print "hi_register_list_ld"))
+)
+
+(define-operand
+ (name reglist_low_st)
+ (comment "8 bit low register mask for stm")
+ (attrs)
+ (type h-uint)
+ (index f-reglist_low_st)
+ (handlers (parse "low_register_list_st")
+ (print "low_register_list_st"))
+)
+
+(define-operand
+ (name reglist_hi_st)
+ (comment "8 bit high register mask for stm")
+ (attrs)
+ (type h-uint)
+ (index f-reglist_hi_st)
+ (handlers (parse "hi_register_list_st")
+ (print "hi_register_list_st"))
+)
+
+(dnop cc "condition codes" () h-uint f-cc)
+(dnop ccc "coprocessor calc" (HASH-PREFIX) h-uint f-ccc)
+
+(dnop nbit "negative bit" (SEM-ONLY) h-nbit f-nil)
+(dnop vbit "overflow bit" (SEM-ONLY) h-vbit f-nil)
+(dnop zbit "zero bit" (SEM-ONLY) h-zbit f-nil)
+(dnop cbit "carry bit" (SEM-ONLY) h-cbit f-nil)
+(dnop ibit "interrupt bit" (SEM-ONLY) h-ibit f-nil)
+(dnop sbit "stack bit" (SEM-ONLY) h-sbit f-nil)
+(dnop tbit "trace trap bit" (SEM-ONLY) h-tbit f-nil)
+(dnop d0bit "division 0 bit" (SEM-ONLY) h-d0bit f-nil)
+(dnop d1bit "division 1 bit" (SEM-ONLY) h-d1bit f-nil)
+
+(dnop ccr "condition code bits" (SEM-ONLY) h-ccr f-nil)
+(dnop scr "system condition bits" (SEM-ONLY) h-scr f-nil)
+(dnop ilm "interrupt level mask" (SEM-ONLY) h-ilm f-nil)
+\f
+; Instruction definitions.
+;
+; Notes:
+; - dni is short for "define-normal-instruction"
+
+; FR30 specific insn attributes:
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name NOT-IN-DELAY-SLOT)
+ (comment "insn can't go in delay slot")
+)
+
+; Sets zbit and nbit based on the value of x
+;
+(define-pmacro (set-z-and-n x)
+ (sequence ()
+ (set zbit (eq x (const 0)))
+ (set nbit (lt x (const 0))))
+)
+
+; Binary integer instruction which sets status bits
+;
+(define-pmacro (binary-int-op name insn comment opc1 opc2 op arg1 arg2)
+ (dni name
+ (.str insn " " comment)
+ ()
+ (.str insn " $" arg1 ",$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (sequence ()
+ (set vbit ((.sym op -oflag) arg2 arg1 (const 0)))
+ (set cbit ((.sym op -cflag) arg2 arg1 (const 0)))
+ (set arg2 (op arg2 arg1))
+ (set-z-and-n arg2))
+ ()
+ )
+)
+
+; Binary integer instruction which does *not* set status bits
+;
+(define-pmacro (binary-int-op-n name insn comment opc1 opc2 op arg1 arg2)
+ (dni name
+ (.str insn " " comment)
+ ()
+ (.str insn " $" arg1 ",$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (set arg2 (op arg2 arg1))
+ ()
+ )
+)
+
+; Binary integer instruction with carry which sets status bits
+;
+(define-pmacro (binary-int-op-c name insn comment opc1 opc2 op arg1 arg2)
+ (dni name
+ (.str insn " " comment)
+ ()
+ (.str insn " $" arg1 ",$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (sequence ((WI tmp))
+ (set tmp ((.sym op c) arg2 arg1 cbit))
+ (set vbit ((.sym op -oflag) arg2 arg1 cbit))
+ (set cbit ((.sym op -cflag) arg2 arg1 cbit))
+ (set arg2 tmp)
+ (set-z-and-n arg2))
+ ()
+ )
+)
+
+(binary-int-op add add "reg/reg" OP1_A OP2_6 add Rj Ri)
+(binary-int-op addi add "immed/reg" OP1_A OP2_4 add u4 Ri)
+(binary-int-op add2 add2 "immed/reg" OP1_A OP2_5 add m4 Ri)
+(binary-int-op-c addc addc "reg/reg" OP1_A OP2_7 add Rj Ri)
+(binary-int-op-n addn addn "reg/reg" OP1_A OP2_2 add Rj Ri)
+(binary-int-op-n addni addn "immed/reg" OP1_A OP2_0 add u4 Ri)
+(binary-int-op-n addn2 addn2 "immed/reg" OP1_A OP2_1 add m4 Ri)
+
+(binary-int-op sub sub "reg/reg" OP1_A OP2_C sub Rj Ri)
+(binary-int-op-c subc subc "reg/reg" OP1_A OP2_D sub Rj Ri)
+(binary-int-op-n subn subn "reg/reg" OP1_A OP2_E sub Rj Ri)
+
+; Integer compare instruction
+;
+(define-pmacro (int-cmp name insn comment opc1 opc2 arg1 arg2)
+ (dni name
+ (.str insn " " comment)
+ ()
+ (.str insn " $" arg1 ",$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (sequence ((WI tmp1))
+ (set vbit (sub-oflag arg2 arg1 (const 0)))
+ (set cbit (sub-cflag arg2 arg1 (const 0)))
+ (set tmp1 (sub arg2 arg1))
+ (set-z-and-n tmp1)
+ )
+ ()
+ )
+)
+
+(int-cmp cmp cmp "reg/reg" OP1_A OP2_A Rj Ri)
+(int-cmp cmpi cmp "immed/reg" OP1_A OP2_8 u4 Ri)
+(int-cmp cmp2 cmp2 "immed/reg" OP1_A OP2_9 m4 Ri)
+
+; Binary logical instruction
+;
+(define-pmacro (binary-logical-op name insn comment opc1 opc2 op arg1 arg2)
+ (dni name
+ (.str insn " " comment)
+ ()
+ (.str insn " $" arg1 ",$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (sequence ()
+ (set arg2 (op arg2 arg1))
+ (set-z-and-n arg2))
+ ()
+ )
+)
+
+(binary-logical-op and and "reg/reg" OP1_8 OP2_2 and Rj Ri)
+(binary-logical-op or or "reg/reg" OP1_9 OP2_2 or Rj Ri)
+(binary-logical-op eor eor "reg/reg" OP1_9 OP2_A xor Rj Ri)
+
+(define-pmacro (les-units model) ; les: load-exec-store
+ (model (unit u-exec) (unit u-load) (unit u-store))
+)
+
+; Binary logical instruction to memory
+;
+(define-pmacro (binary-logical-op-m name insn comment opc1 opc2 mode op arg1 arg2)
+ (dni name
+ (.str insn " " comment)
+ (NOT-IN-DELAY-SLOT)
+ (.str insn " $" arg1 ",@$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (sequence ((mode tmp))
+ (set mode tmp (op mode (mem mode arg2) arg1))
+ (set-z-and-n tmp)
+ (set mode (mem mode arg2) tmp))
+ ((les-units fr30-1))
+ )
+)
+
+(binary-logical-op-m andm and "reg/mem" OP1_8 OP2_4 WI and Rj Ri)
+(binary-logical-op-m andh andh "reg/mem" OP1_8 OP2_5 HI and Rj Ri)
+(binary-logical-op-m andb andb "reg/mem" OP1_8 OP2_6 QI and Rj Ri)
+(binary-logical-op-m orm or "reg/mem" OP1_9 OP2_4 WI or Rj Ri)
+(binary-logical-op-m orh orh "reg/mem" OP1_9 OP2_5 HI or Rj Ri)
+(binary-logical-op-m orb orb "reg/mem" OP1_9 OP2_6 QI or Rj Ri)
+(binary-logical-op-m eorm eor "reg/mem" OP1_9 OP2_C WI xor Rj Ri)
+(binary-logical-op-m eorh eorh "reg/mem" OP1_9 OP2_D HI xor Rj Ri)
+(binary-logical-op-m eorb eorb "reg/mem" OP1_9 OP2_E QI xor Rj Ri)
+
+; Binary logical instruction to low half of byte in memory
+;
+(dni bandl
+ "bandl #u4,@Ri"
+ (NOT-IN-DELAY-SLOT)
+ "bandl $u4,@$Ri"
+ (+ OP1_8 OP2_0 u4 Ri)
+ (set QI (mem QI Ri)
+ (and QI
+ (or QI u4 (const #xf0))
+ (mem QI Ri)))
+ ((les-units fr30-1))
+)
+
+(dni borl
+ "borl #u4,@Ri"
+ (NOT-IN-DELAY-SLOT)
+ "borl $u4,@$Ri"
+ (+ OP1_9 OP2_0 u4 Ri)
+ (set QI (mem QI Ri) (or QI u4 (mem QI Ri)))
+ ((les-units fr30-1))
+)
+
+(dni beorl
+ "beorl #u4,@Ri"
+ (NOT-IN-DELAY-SLOT)
+ "beorl $u4,@$Ri"
+ (+ OP1_9 OP2_8 u4 Ri)
+ (set QI (mem QI Ri) (xor QI u4 (mem QI Ri)))
+ ((les-units fr30-1))
+)
+
+; Binary logical instruction to high half of byte in memory
+;
+(dni bandh
+ "bandh #u4,@Ri"
+ (NOT-IN-DELAY-SLOT)
+ "bandh $u4,@$Ri"
+ (+ OP1_8 OP2_1 u4 Ri)
+ (set QI (mem QI Ri)
+ (and QI
+ (or QI (sll QI u4 (const 4)) (const #x0f))
+ (mem QI Ri)))
+ ((les-units fr30-1))
+)
+
+(define-pmacro (binary-or-op-mh name insn opc1 opc2 op arg1 arg2)
+ (dni name
+ (.str name " #" arg1 ",@" args)
+ (NOT-IN-DELAY-SLOT)
+ (.str name " $" arg1 ",@$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (set QI (mem QI arg2)
+ (insn QI
+ (sll QI arg1 (const 4))
+ (mem QI arg2)))
+ ((les-units fr30-1))
+ )
+)
+
+(binary-or-op-mh borh or OP1_9 OP2_1 or u4 Ri)
+(binary-or-op-mh beorh xor OP1_9 OP2_9 xor u4 Ri)
+
+(dni btstl
+ "btstl #u4,@Ri"
+ (NOT-IN-DELAY-SLOT)
+ "btstl $u4,@$Ri"
+ (+ OP1_8 OP2_8 u4 Ri)
+ (sequence ((QI tmp))
+ (set tmp (and QI u4 (mem QI Ri)))
+ (set zbit (eq tmp (const 0)))
+ (set nbit (const 0)))
+ ((fr30-1 (unit u-load) (unit u-exec (cycles 2))))
+)
+
+(dni btsth
+ "btsth #u4,@Ri"
+ (NOT-IN-DELAY-SLOT)
+ "btsth $u4,@$Ri"
+ (+ OP1_8 OP2_9 u4 Ri)
+ (sequence ((QI tmp))
+ (set tmp (and QI (sll QI u4 (const 4)) (mem QI Ri)))
+ (set zbit (eq tmp (const 0)))
+ (set nbit (lt tmp (const 0))))
+ ((fr30-1 (unit u-load) (unit u-exec (cycles 2))))
+)
+
+(dni mul
+ "mul Rj,Ri"
+ (NOT-IN-DELAY-SLOT)
+ "mul $Rj,$Ri"
+ (+ OP1_A OP2_F Rj Ri)
+ (sequence ((DI tmp))
+ (set tmp (mul DI (ext DI Rj) (ext DI Ri)))
+ (set (reg h-dr 5) (trunc WI tmp))
+ (set (reg h-dr 4) (trunc WI (srl tmp (const 32))))
+ (set nbit (lt (reg h-dr 5) (const 0)))
+ (set zbit (eq tmp (const DI 0)))
+ (set vbit (orif
+ (gt tmp (const DI #x7fffffff))
+ (lt tmp (neg (const DI #x80000000))))))
+ ((fr30-1 (unit u-exec (cycles 5))))
+)
+
+(dni mulu
+ "mulu Rj,Ri"
+ (NOT-IN-DELAY-SLOT)
+ "mulu $Rj,$Ri"
+ (+ OP1_A OP2_B Rj Ri)
+ (sequence ((DI tmp))
+ (set tmp (mul DI (zext DI Rj) (zext DI Ri)))
+ (set (reg h-dr 5) (trunc WI tmp))
+ (set (reg h-dr 4) (trunc WI (srl tmp (const 32))))
+ (set nbit (lt (reg h-dr 4) (const 0)))
+ (set zbit (eq (reg h-dr 5) (const 0)))
+ (set vbit (ne (reg h-dr 4) (const 0))))
+ ((fr30-1 (unit u-exec (cycles 5))))
+)
+
+(dni mulh
+ "mulh Rj,Ri"
+ (NOT-IN-DELAY-SLOT)
+ "mulh $Rj,$Ri"
+ (+ OP1_B OP2_F Rj Ri)
+ (sequence ()
+ (set (reg h-dr 5) (mul (trunc HI Rj) (trunc HI Ri)))
+ (set nbit (lt (reg h-dr 5) (const 0)))
+ (set zbit (ge (reg h-dr 5) (const 0))))
+ ((fr30-1 (unit u-exec (cycles 3))))
+)
+
+(dni muluh
+ "muluh Rj,Ri"
+ (NOT-IN-DELAY-SLOT)
+ "muluh $Rj,$Ri"
+ (+ OP1_B OP2_B Rj Ri)
+ (sequence ()
+ (set (reg h-dr 5) (mul (and Rj (const #xffff))
+ (and Ri (const #xffff))))
+ (set nbit (lt (reg h-dr 5) (const 0)))
+ (set zbit (ge (reg h-dr 5) (const 0))))
+ ((fr30-1 (unit u-exec (cycles 3))))
+)
+
+(dni div0s
+ "div0s Ri"
+ ()
+ "div0s $Ri"
+ (+ OP1_9 OP2_7 OP3_4 Ri)
+ (sequence ()
+ (set d0bit (lt (reg h-dr 5) (const 0)))
+ (set d1bit (xor d0bit (lt Ri (const 0))))
+ (if (ne d0bit (const 0))
+ (set (reg h-dr 4) (const #xffffffff))
+ (set (reg h-dr 4) (const 0))))
+ ()
+)
+
+(dni div0u
+ "div0u Ri"
+ ()
+ "div0u $Ri"
+ (+ OP1_9 OP2_7 OP3_5 Ri)
+ (sequence ()
+ (set d0bit (const 0))
+ (set d1bit (const 0))
+ (set (reg h-dr 4) (const 0)))
+ ()
+)
+
+(dni div1
+ "div1 Ri"
+ ()
+ "div1 $Ri"
+ (+ OP1_9 OP2_7 OP3_6 Ri)
+ (sequence ((WI tmp))
+ (set (reg h-dr 4) (sll (reg h-dr 4) (const 1)))
+ (if (lt (reg h-dr 5) (const 0))
+ (set (reg h-dr 4) (add (reg h-dr 4) (const 1))))
+ (set (reg h-dr 5) (sll (reg h-dr 5) (const 1)))
+ (if (eq d1bit (const 1))
+ (sequence ()
+ (set tmp (add (reg h-dr 4) Ri))
+ (set cbit (add-cflag (reg h-dr 4) Ri (const 0))))
+ (sequence ()
+ (set tmp (sub (reg h-dr 4) Ri))
+ (set cbit (sub-cflag (reg h-dr 4) Ri (const 0)))))
+ (if (not (xor (xor d0bit d1bit) cbit))
+ (sequence ()
+ (set (reg h-dr 4) tmp)
+ (set (reg h-dr 5) (or (reg h-dr 5) (const 1)))))
+ (set zbit (eq (reg h-dr 4) (const 0))))
+ ()
+)
+
+(dni div2
+ "div2 Ri"
+ ()
+ "div2 $Ri"
+ (+ OP1_9 OP2_7 OP3_7 Ri)
+ (sequence ((WI tmp))
+ (if (eq d1bit (const 1))
+ (sequence ()
+ (set tmp (add (reg h-dr 4) Ri))
+ (set cbit (add-cflag (reg h-dr 4) Ri (const 0))))
+ (sequence ()
+ (set tmp (sub (reg h-dr 4) Ri))
+ (set cbit (sub-cflag (reg h-dr 4) Ri (const 0)))))
+ (if (eq tmp (const 0))
+ (sequence ()
+ (set zbit (const 1))
+ (set (reg h-dr 4) (const 0)))
+ (set zbit (const 0))))
+ ()
+)
+
+(dni div3
+ "div3"
+ ()
+ "div3"
+ (+ OP1_9 OP2_F OP3_6 OP4_0)
+ (if (eq zbit (const 1))
+ (set (reg h-dr 5) (add (reg h-dr 5) (const 1))))
+ ()
+)
+
+(dni div4s
+ "div4s"
+ ()
+ "div4s"
+ (+ OP1_9 OP2_F OP3_7 OP4_0)
+ (if (eq d1bit (const 1))
+ (set (reg h-dr 5) (neg (reg h-dr 5))))
+ ()
+)
+
+(define-pmacro (leftshift-op name insn opc1 opc2 arg1 arg2 shift-expr)
+ (dni name
+ (.str insn " " arg1 "," arg2)
+ ()
+ (.str insn " $" arg1 ",$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (sequence ((WI shift))
+ (set shift shift-expr)
+ (if (ne shift (const 0))
+ (sequence ()
+ (set cbit (ne (and arg2
+ (sll (const 1)
+ (sub (const 32) shift)))
+ (const 0)))
+ (set arg2 (sll arg2 shift)))
+ (set cbit (const 0)))
+ (set nbit (lt arg2 (const 0)))
+ (set zbit (eq arg2 (const 0))))
+ ()
+ )
+)
+(leftshift-op lsl lsl OP1_B OP2_6 Rj Ri (and Rj (const #x1f)))
+(leftshift-op lsli lsl OP1_B OP2_4 u4 Ri u4)
+(leftshift-op lsl2 lsl2 OP1_B OP2_5 u4 Ri (add u4 (const #x10)))
+
+(define-pmacro (rightshift-op name insn opc1 opc2 op arg1 arg2 shift-expr)
+ (dni name
+ (.str insn " " arg1 "," arg2)
+ ()
+ (.str insn " $" arg1 ",$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (sequence ((WI shift))
+ (set shift shift-expr)
+ (if (ne shift (const 0))
+ (sequence ()
+ (set cbit (ne (and arg2
+ (sll (const 1)
+ (sub shift (const 1))))
+ (const 0)))
+ (set arg2 (op arg2 shift)))
+ (set cbit (const 0)))
+ (set nbit (lt arg2 (const 0)))
+ (set zbit (eq arg2 (const 0))))
+ ()
+ )
+)
+(rightshift-op lsr lsr OP1_B OP2_2 srl Rj Ri (and Rj (const #x1f)))
+(rightshift-op lsri lsr OP1_B OP2_0 srl u4 Ri u4)
+(rightshift-op lsr2 lsr2 OP1_B OP2_1 srl u4 Ri (add u4 (const #x10)))
+(rightshift-op asr asr OP1_B OP2_A sra Rj Ri (and Rj (const #x1f)))
+(rightshift-op asri asr OP1_B OP2_8 sra u4 Ri u4)
+(rightshift-op asr2 asr2 OP1_B OP2_9 sra u4 Ri (add u4 (const #x10)))
+
+(dni ldi8
+ "load 8 bit unsigned immediate"
+ ()
+ "ldi:8 $i8,$Ri"
+ (+ OP1_C i8 Ri)
+ (set Ri i8)
+ ()
+)
+
+; Typing ldi:8 in in emacs is a pain.
+(dnmi ldi8m "ldi:8 without the colon"
+ (NO-DIS)
+ "ldi8 $i8,$Ri"
+ (emit ldi8 i8 Ri)
+)
+
+(dni ldi20
+ "load 20 bit unsigned immediate"
+ (NOT-IN-DELAY-SLOT)
+ "ldi:20 $i20,$Ri"
+ (+ OP1_9 OP2_B Ri i20)
+ (set Ri i20)
+ ((fr30-1 (unit u-exec (cycles 2))))
+)
+
+; Typing ldi:20 in in emacs is a pain.
+(dnmi ldi20m "ldi:20 without the colon"
+ (NO-DIS)
+ "ldi20 $i20,$Ri"
+ (emit ldi20 i20 Ri)
+)
+
+(dni ldi32
+ "load 32 bit immediate"
+ (NOT-IN-DELAY-SLOT)
+ "ldi:32 $i32,$Ri"
+ (+ OP1_9 OP2_F OP3_8 Ri i32)
+ (set Ri i32)
+ ((fr30-1 (unit u-exec (cycles 3))))
+)
+
+; Typing ldi:32 in in emacs is a pain.
+(dnmi ldi32m "ldi:32 without the colon"
+ (NO-DIS)
+ "ldi32 $i32,$Ri"
+ (emit ldi32 i32 Ri)
+)
+
+(define-pmacro (basic-ld name insn opc1 opc2 mode arg1 arg2)
+ (dni name
+ (.str name " @" arg1 "," arg2)
+ ()
+ (.str name " @$" arg1 ",$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (set arg2 (mem mode arg1))
+ ((fr30-1 (unit u-load)))
+ )
+)
+
+(basic-ld ld ld OP1_0 OP2_4 WI Rj Ri)
+(basic-ld lduh lduh OP1_0 OP2_5 UHI Rj Ri)
+(basic-ld ldub ldub OP1_0 OP2_6 UQI Rj Ri)
+
+(define-pmacro (r13base-ld name insn opc1 opc2 mode arg1 arg2)
+ (dni name
+ (.str insn " @(R13," arg1 ")," arg2)
+ ()
+ (.str insn " @($R13,$" arg1 "),$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (set arg2 (mem mode (add arg1 (reg h-gr 13))))
+ ((fr30-1 (unit u-load)))
+ )
+)
+
+(r13base-ld ldr13 ld OP1_0 OP2_0 WI Rj Ri)
+(r13base-ld ldr13uh lduh OP1_0 OP2_1 UHI Rj Ri)
+(r13base-ld ldr13ub ldub OP1_0 OP2_2 UQI Rj Ri)
+
+(define-pmacro (r14base-ld name insn opc1 mode arg1 arg2)
+ (dni name
+ (.str insn " @(R14," arg1 ")," arg2)
+ ()
+ (.str insn " @($R14,$" arg1 "),$" arg2)
+ (+ opc1 arg1 arg2)
+ (set arg2 (mem mode (add arg1 (reg h-gr 14))))
+ ((fr30-1 (unit u-load)))
+ )
+)
+
+(r14base-ld ldr14 ld OP1_2 WI disp10 Ri)
+(r14base-ld ldr14uh lduh OP1_4 UHI disp9 Ri)
+(r14base-ld ldr14ub ldub OP1_6 UQI disp8 Ri)
+
+(dni ldr15
+ "ld @(R15,udisp6),Ri mem/reg"
+ ()
+ "ld @($R15,$udisp6),$Ri"
+ (+ OP1_0 OP2_3 udisp6 Ri)
+ (set Ri (mem WI (add udisp6 (reg h-gr 15))))
+ ((fr30-1 (unit u-load)))
+)
+
+(dni ldr15gr
+ "ld @R15+,Ri"
+ ()
+ "ld @$R15+,$Ri"
+ (+ OP1_0 OP2_7 OP3_0 Ri)
+ (sequence ()
+ (set Ri (mem WI (reg h-gr 15)))
+ (if (ne (ifield f-Ri) (const 15))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ ((fr30-1 (unit u-load)))
+)
+
+; This insn loads a value from where r15 points into the target register and
+; then increments r15. If the target register is also r15, then the post
+; increment is not performed.
+;
+(dni ldr15dr
+ "ld @R15+,Rs2"
+ ()
+ "ld @$R15+,$Rs2"
+ (+ OP1_0 OP2_7 OP3_8 Rs2)
+; This seems more straight forward, but doesn't work due to a problem in
+; cgen. We're trying to not increment r15 if it is the target register.
+; (sequence ()
+; (set Rs2 (mem WI (reg h-gr 15)))
+; (if (not (or (and (eq (ifield f-Rs2) (const 2))
+; (eq sbit (const 0)))
+; (and (eq (ifield f-Rs2) (const 3))
+; (eq sbit (const 1)))))
+; (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))
+; )
+; )
+ (sequence ((WI tmp))
+ (set tmp (mem WI (reg h-gr 15))) ; save in case target is r15
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))
+ (set Rs2 tmp))
+ ((fr30-1 (unit u-load)))
+)
+
+(dni ldr15ps
+ "ld @R15+,ps mem/reg"
+ (NOT-IN-DELAY-SLOT)
+ "ld @$R15+,$ps"
+ (+ OP1_0 OP2_7 OP3_9 OP4_0)
+ (sequence ()
+ (set ps (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4))))
+ ((fr30-1 (unit u-load)))
+)
+
+(define-pmacro (basic-st name insn opc1 opc2 mode arg1 arg2)
+ (dni name
+ (.str name " " arg1 ",@" arg2)
+ ()
+ (.str name " $" arg1 ",@$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (set (mem mode arg2) arg1)
+ ((fr30-1 (unit u-store)))
+ )
+)
+
+(basic-st st st OP1_1 OP2_4 WI Ri Rj)
+(basic-st sth sth OP1_1 OP2_5 HI Ri Rj)
+(basic-st stb stb OP1_1 OP2_6 QI Ri Rj)
+
+(define-pmacro (r13base-st name insn opc1 opc2 mode arg1 arg2)
+ (dni name
+ (.str insn " " arg1 ",@(R13," arg2 ")")
+ ()
+ (.str insn " $" arg1 ",@($R13,$" arg2 ")")
+ (+ opc1 opc2 arg1 arg2)
+ (set (mem mode (add arg2 (reg h-gr 13))) arg1)
+ ((fr30-1 (unit u-store)))
+ )
+)
+
+(r13base-st str13 st OP1_1 OP2_0 WI Ri Rj)
+(r13base-st str13h sth OP1_1 OP2_1 HI Ri Rj)
+(r13base-st str13b stb OP1_1 OP2_2 QI Ri Rj)
+
+(define-pmacro (r14base-st name insn opc1 mode arg1 arg2)
+ (dni name
+ (.str insn " " arg1 ",@(R14," arg2 ")")
+ ()
+ (.str insn " $" arg1 ",@($R14,$" arg2 ")")
+ (+ opc1 arg1 arg2)
+ (set (mem mode (add arg2 (reg h-gr 14))) arg1)
+ ((fr30-1 (unit u-store)))
+ )
+)
+
+(r14base-st str14 st OP1_3 WI Ri disp10)
+(r14base-st str14h sth OP1_5 HI Ri disp9)
+(r14base-st str14b stb OP1_7 QI Ri disp8)
+
+(dni str15
+ "st Ri,@(R15,udisp6) reg/mem"
+ ()
+ "st $Ri,@($R15,$udisp6)"
+ (+ OP1_1 OP2_3 udisp6 Ri)
+ (set (mem WI (add (reg h-gr 15) udisp6)) Ri)
+ ((fr30-1 (unit u-store)))
+)
+
+; These store insns predecrement r15 and then store the contents of the source
+; register where r15 then points. If the source register is also r15, then the
+; original value of r15 is stored.
+;
+(dni str15gr
+ "st Ri,@-R15 reg/mem"
+ ()
+ "st $Ri,@-$R15"
+ (+ OP1_1 OP2_7 OP3_0 Ri)
+ (sequence ((WI tmp))
+ (set tmp Ri) ; save in case it's r15
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) tmp))
+ ((fr30-1 (unit u-store)))
+)
+
+(dni str15dr
+ "st Rs,@-R15 reg/mem"
+ ()
+ "st $Rs2,@-$R15"
+ (+ OP1_1 OP2_7 OP3_8 Rs2)
+ (sequence ((WI tmp))
+ (set tmp Rs2) ; save in case it's r15
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) tmp))
+ ((fr30-1 (unit u-store)))
+)
+
+(dni str15ps
+ "st ps,@-R15 reg/mem"
+ ()
+ "st $ps,@-$R15"
+ (+ OP1_1 OP2_7 OP3_9 OP4_0)
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) ps))
+ ((fr30-1 (unit u-store)))
+)
+
+(define-pmacro (mov2gr name opc1 opc2 arg1 arg2)
+ (dni name
+ (.str "mov " arg1 "," arg2)
+ ()
+ (.str "mov $" arg1 ",$" arg2)
+ (+ opc1 opc2 arg1 arg2)
+ (set arg2 arg1)
+ ()
+ )
+)
+
+(mov2gr mov OP1_8 OP2_B Rj Ri)
+(mov2gr movdr OP1_B OP2_7 Rs1 Ri)
+
+(dni movps
+ "mov ps,Ri reg/reg"
+ ()
+ "mov $ps,$Ri"
+ (+ OP1_1 OP2_7 OP3_1 Ri)
+ (set Ri ps)
+ ()
+)
+
+(dni mov2dr
+ "mov Ri,Rs reg/reg"
+ ()
+ "mov $Ri,$Rs1"
+ (+ OP1_B OP2_3 Rs1 Ri)
+ (set Rs1 Ri)
+ ()
+)
+
+(dni mov2ps
+ "mov Ri,ps reg/reg"
+ ()
+ "mov $Ri,$ps"
+ (+ OP1_0 OP2_7 OP3_1 Ri)
+ (set ps Ri)
+ ()
+)
+
+(dni jmp
+ "jmp with no delay slot"
+ (NOT-IN-DELAY-SLOT)
+ "jmp @$Ri"
+ (+ OP1_9 OP2_7 OP3_0 Ri)
+ (set pc Ri)
+ ((fr30-1 (unit u-cti)))
+)
+
+(dni jmpd "jmp with delay slot"
+ (NOT-IN-DELAY-SLOT)
+ "jmp:d @$Ri"
+ (+ OP1_9 OP2_F OP3_0 Ri)
+ (delay (const 1)
+ (set pc Ri))
+ ((fr30-1 (unit u-cti)))
+)
+
+; These versions which use registers must appear before the other
+; versions which use relative addresses due to a problem in cgen
+; - DB.
+(dni callr
+ "call @Ri"
+ (NOT-IN-DELAY-SLOT)
+ "call @$Ri"
+ (+ OP1_9 OP2_7 OP3_1 Ri)
+ (sequence ()
+ (set (reg h-dr 1) (add pc (const 2)))
+ (set pc Ri))
+ ((fr30-1 (unit u-cti)))
+)
+(dni callrd
+ "call:d @Ri"
+ (NOT-IN-DELAY-SLOT)
+ "call:d @$Ri"
+ (+ OP1_9 OP2_F OP3_1 Ri)
+ (delay (const 1)
+ (sequence ()
+ (set (reg h-dr 1) (add pc (const 4)))
+ (set pc Ri)))
+ ((fr30-1 (unit u-cti)))
+)
+; end of reordered insns
+
+(dni call
+ "call relative to pc"
+ (NOT-IN-DELAY-SLOT)
+ "call $label12"
+ (+ OP1_D OP5_0 label12)
+ (sequence ()
+ (set (reg h-dr 1) (add pc (const 2)))
+ (set pc label12))
+ ((fr30-1 (unit u-cti)))
+)
+(dni calld
+ "call relative to pc"
+ (NOT-IN-DELAY-SLOT)
+ "call:d $label12"
+ (+ OP1_D OP5_1 label12)
+ (delay (const 1)
+ (sequence ()
+ (set (reg h-dr 1) (add pc (const 4)))
+ (set pc label12)))
+ ((fr30-1 (unit u-cti)))
+)
+
+(dni ret
+ "return from subroutine"
+ (NOT-IN-DELAY-SLOT)
+ "ret"
+ (+ OP1_9 OP2_7 OP3_2 OP4_0)
+ (set pc (reg h-dr 1))
+ ((fr30-1 (unit u-cti)))
+)
+
+(dni ret:d
+ "return from subroutine with delay slot"
+ (NOT-IN-DELAY-SLOT)
+ "ret:d"
+ (+ OP1_9 OP2_F OP3_2 OP4_0)
+ (delay (const 1)
+ (set pc (reg h-dr 1)))
+ ((fr30-1 (unit u-cti)))
+)
+
+(dni int
+ "interrupt"
+ (NOT-IN-DELAY-SLOT)
+ "int $u8"
+ (+ OP1_1 OP2_F u8)
+ (sequence ()
+ ; This is defered to fr30_int because for the breakpoint case
+ ; we want to change as little of the machine state as possible.
+ ; Push PS onto the system stack
+ ;(set (reg h-dr 2) (sub (reg h-dr 2) (const 4)))
+ ;(set UWI (mem UWI (reg h-dr 2)) ps)
+ ; Push the return address onto the system stack
+ ;(set (reg h-dr 2) (sub (reg h-dr 2) (const 4)))
+ ;(set UWI (mem UWI (reg h-dr 2)) (add pc (const 2)))
+ ; Set status bits
+ ;(set ibit (const 0))
+ ;(set sbit (const 0))
+
+ ; We still should indicate what is modified by this insn.
+ (clobber (reg h-dr 2))
+ (clobber ibit)
+ (clobber sbit)
+ ; ??? (clobber memory)?
+
+ ; fr30_int handles operating vs user mode
+ (set WI pc (c-call WI "fr30_int" pc u8))
+ )
+ ; This is more properly a cti, but branch stall calculation is different.
+ ((fr30-1 (unit u-exec (cycles 6))))
+)
+
+(dni inte
+ "interrupt for emulator"
+ (NOT-IN-DELAY-SLOT)
+ "inte"
+ (+ OP1_9 OP2_F OP3_3 OP4_0)
+ (sequence ()
+ ; This is defered to fr30_inte because for the breakpoint case
+ ; we want to change as little of the machine state as possible.
+ ; Push PS onto the system stack
+ ;(set (reg h-dr 2) (sub (reg h-dr 2) (const 4)))
+ ;(set UWI (mem UWI (reg h-dr 2)) ps)
+ ; Push the return address onto the system stack
+ ;(set (reg h-dr 2) (sub (reg h-dr 2) (const 4)))
+ ;(set UWI (mem UWI (reg h-dr 2)) (add pc (const 2)))
+ ; Set status bits
+ ;(set ibit (const 0))
+ ;(set ilm (const 4))
+
+ ; We still should indicate what is modified by this insn.
+ (clobber (reg h-dr 2))
+ (clobber ibit)
+ (clobber ilm)
+ ; ??? (clobber memory)?
+
+ ; fr30_int handles operating vs user mode
+ (set WI pc (c-call WI "fr30_inte" pc))
+ )
+ ; This is more properly a cti, but branch stall calculation is different.
+ ((fr30-1 (unit u-exec (cycles 6))))
+)
+
+(dni reti
+ "return from interrupt"
+ (NOT-IN-DELAY-SLOT)
+ "reti"
+ (+ OP1_9 OP2_7 OP3_3 OP4_0)
+ (if (eq sbit (const 0))
+ (sequence ()
+ ; Pop the return address from the system stack
+ (set UWI pc (mem UWI (reg h-dr 2)))
+ (set (reg h-dr 2) (add (reg h-dr 2) (const 4)))
+ ; Pop PS from the system stack
+ (set UWI ps (mem UWI (reg h-dr 2)))
+ (set (reg h-dr 2) (add (reg h-dr 2) (const 4)))
+ )
+ (sequence ()
+ ; Pop the return address from the user stack
+ (set UWI pc (mem UWI (reg h-dr 3)))
+ (set (reg h-dr 3) (add (reg h-dr 3) (const 4)))
+ ; Pop PS from the user stack
+ (set UWI ps (mem UWI (reg h-dr 3)))
+ (set (reg h-dr 3) (add (reg h-dr 3) (const 4)))
+ )
+ )
+ ; This is more properly a cti, but branch stall calculation is different.
+ ((fr30-1 (unit u-exec (cycles 4))))
+)
+
+; Conditional branches with and without delay slots
+;
+(define-pmacro (cond-branch cc condition)
+ (begin
+ (dni (.sym b cc d)
+ (.str (.sym b cc :d) " label9")
+ (NOT-IN-DELAY-SLOT)
+ (.str (.sym b cc :d) " $label9")
+ (+ OP1_F (.sym CC_ cc) label9)
+ (delay (const 1)
+ (if condition (set pc label9)))
+ ((fr30-1 (unit u-cti)))
+ )
+ (dni (.sym b cc)
+ (.str (.sym b cc) " label9")
+ (NOT-IN-DELAY-SLOT)
+ (.str (.sym b cc) " $label9")
+ (+ OP1_E (.sym CC_ cc) label9)
+ (if condition (set pc label9))
+ ((fr30-1 (unit u-cti)))
+ )
+ )
+)
+
+(cond-branch ra (const BI 1))
+(cond-branch no (const BI 0))
+(cond-branch eq zbit)
+(cond-branch ne (not zbit))
+(cond-branch c cbit)
+(cond-branch nc (not cbit))
+(cond-branch n nbit)
+(cond-branch p (not nbit))
+(cond-branch v vbit)
+(cond-branch nv (not vbit))
+(cond-branch lt (xor vbit nbit))
+(cond-branch ge (not (xor vbit nbit)))
+(cond-branch le (or (xor vbit nbit) zbit))
+(cond-branch gt (not (or (xor vbit nbit) zbit)))
+(cond-branch ls (or cbit zbit))
+(cond-branch hi (not (or cbit zbit)))
+
+(define-pmacro (dir2r13 name insn opc1 opc2 mode arg1)
+ (dni name
+ (.str insn " @" arg1 ",R13")
+ ()
+ (.str insn " @$" arg1 ",$R13")
+ (+ opc1 opc2 arg1)
+ (set (reg h-gr 13) (mem mode arg1))
+ ((fr30-1 (unit u-load)))
+ )
+)
+
+(define-pmacro (dir2r13-postinc name insn opc1 opc2 mode arg1 incr)
+ (dni name
+ (.str insn " @" arg1 ",@R13+")
+ (NOT-IN-DELAY-SLOT)
+ (.str insn " @$" arg1 ",@$R13+")
+ (+ opc1 opc2 arg1)
+ (sequence ()
+ (set (mem mode (reg h-gr 13)) (mem mode arg1))
+ (set (reg h-gr 13) (add (reg h-gr 13) incr)))
+ ((fr30-1 (unit u-load) (unit u-store)))
+ )
+)
+
+(define-pmacro (r132dir name insn opc1 opc2 mode arg1)
+ (dni name
+ (.str insn " R13,@" arg1)
+ ()
+ (.str insn " $R13,@$" arg1)
+ (+ opc1 opc2 arg1)
+ (set (mem mode arg1) (reg h-gr 13))
+ ((fr30-1 (unit u-store)))
+ )
+)
+
+(define-pmacro (r13-postinc2dir name insn opc1 opc2 mode arg1 incr)
+ (dni name
+ (.str insn " @R13+,@" arg1)
+ (NOT-IN-DELAY-SLOT)
+ (.str insn " @$R13+,@$" arg1)
+ (+ opc1 opc2 arg1)
+ (sequence ()
+ (set (mem mode arg1) (mem mode (reg h-gr 13)))
+ (set (reg h-gr 13) (add (reg h-gr 13) incr)))
+ ((fr30-1 (unit u-load) (unit u-store)))
+ )
+)
+
+; These versions which move from reg to mem must appear before the other
+; versions which use immediate addresses due to a problem in cgen
+; - DB.
+(r132dir dmovr13 dmov OP1_1 OP2_8 WI dir10)
+(r132dir dmovr13h dmovh OP1_1 OP2_9 HI dir9)
+(r132dir dmovr13b dmovb OP1_1 OP2_A QI dir8)
+
+(r13-postinc2dir dmovr13pi dmov OP1_1 OP2_C WI dir10 (const 4))
+(r13-postinc2dir dmovr13pih dmovh OP1_1 OP2_D HI dir9 (const 2))
+(r13-postinc2dir dmovr13pib dmovb OP1_1 OP2_E QI dir8 (const 1))
+
+(dni dmovr15pi
+ "dmov @R15+,@dir10"
+ (NOT-IN-DELAY-SLOT)
+ "dmov @$R15+,@$dir10"
+ (+ OP1_1 OP2_B dir10)
+ (sequence ()
+ (set (mem WI dir10) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4))))
+ ((fr30-1 (unit u-load) (unit u-store)))
+)
+; End of reordered insns.
+
+(dir2r13 dmov2r13 dmov OP1_0 OP2_8 WI dir10)
+(dir2r13 dmov2r13h dmovh OP1_0 OP2_9 HI dir9)
+(dir2r13 dmov2r13b dmovb OP1_0 OP2_A QI dir8)
+
+(dir2r13-postinc dmov2r13pi dmov OP1_0 OP2_C WI dir10 (const 4))
+(dir2r13-postinc dmov2r13pih dmovh OP1_0 OP2_D HI dir9 (const 2))
+(dir2r13-postinc dmov2r13pib dmovb OP1_0 OP2_E QI dir8 (const 1))
+
+(dni dmov2r15pd
+ "dmov @dir10,@-R15"
+ (NOT-IN-DELAY-SLOT)
+ "dmov @$dir10,@-$R15"
+ (+ OP1_0 OP2_B dir10)
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (mem WI dir10)))
+ ((fr30-1 (unit u-load) (unit u-store)))
+)
+
+; Leave these insns as stubs for now, except for the increment of $Ri
+;
+(dni ldres
+ "ldres @Ri+,#u4"
+ ()
+ "ldres @$Ri+,$u4"
+ (+ OP1_B OP2_C u4 Ri)
+ (set Ri (add Ri (const 4)))
+ ()
+)
+
+(dni stres
+ "stres #u4,@Ri+"
+ ()
+ "stres $u4,@$Ri+"
+ (+ OP1_B OP2_D u4 Ri)
+ (set Ri (add Ri (const 4)))
+ ()
+)
+
+; Leave the coprocessor insns as stubs for now.
+;
+(define-pmacro (cop-stub name insn opc1 opc2 opc3 arg1 arg2)
+ (dni name
+ (.str insn " u4c,ccc,CRj," arg1 "," arg2)
+ (NOT-IN-DELAY-SLOT)
+ (.str insn " $u4c,$ccc,$" arg1 ",$" arg2)
+ (+ opc1 opc2 opc3 u4c ccc arg1 arg2)
+ (nop) ; STUB
+ ()
+ )
+)
+
+(cop-stub copop copop OP1_9 OP2_F OP3_C CRj CRi)
+(cop-stub copld copld OP1_9 OP2_F OP3_D Rjc CRi)
+(cop-stub copst copst OP1_9 OP2_F OP3_E CRj Ric)
+(cop-stub copsv copsv OP1_9 OP2_F OP3_F CRj Ric)
+
+(dni nop
+ "nop"
+ ()
+ "nop"
+ (+ OP1_9 OP2_F OP3_A OP4_0)
+ (nop)
+ ()
+)
+
+(dni andccr
+ "andccr #u8"
+ ()
+ "andccr $u8"
+ (+ OP1_8 OP2_3 u8)
+ (set ccr (and ccr u8))
+ ()
+)
+
+(dni orccr
+ "orccr #u8"
+ ()
+ "orccr $u8"
+ (+ OP1_9 OP2_3 u8)
+ (set ccr (or ccr u8))
+ ()
+)
+
+(dni stilm
+ "stilm #u8"
+ ()
+ "stilm $u8"
+ (+ OP1_8 OP2_7 u8)
+ (set ilm (and u8 (const #x1f)))
+ ()
+)
+
+(dni addsp
+ "addsp #s10"
+ ()
+ "addsp $s10"
+ (+ OP1_A OP2_3 s10)
+ (set (reg h-gr 15) (add (reg h-gr 15) s10))
+ ()
+)
+
+(define-pmacro (ext-op name opc1 opc2 opc3 op mode mask)
+ (dni name
+ (.str name " Ri")
+ ()
+ (.str name " $Ri")
+ (+ opc1 opc2 opc3 Ri)
+ (set Ri (op WI (and mode Ri mask)))
+ ()
+ )
+)
+
+(ext-op extsb OP1_9 OP2_7 OP3_8 ext QI (const #xff))
+(ext-op extub OP1_9 OP2_7 OP3_9 zext UQI (const #xff))
+(ext-op extsh OP1_9 OP2_7 OP3_A ext HI (const #xffff))
+(ext-op extuh OP1_9 OP2_7 OP3_B zext UHI (const #xffff))
+
+(dni ldm0
+ "ldm0 (reglist_low_ld)"
+ (NOT-IN-DELAY-SLOT)
+ "ldm0 ($reglist_low_ld)"
+ (+ OP1_8 OP2_C reglist_low_ld)
+ (sequence ()
+ (if (and reglist_low_ld (const #x1))
+ (sequence ()
+ (set (reg h-gr 0) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_low_ld (const #x2))
+ (sequence ()
+ (set (reg h-gr 1) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_low_ld (const #x4))
+ (sequence ()
+ (set (reg h-gr 2) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_low_ld (const #x8))
+ (sequence ()
+ (set (reg h-gr 3) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_low_ld (const #x10))
+ (sequence ()
+ (set (reg h-gr 4) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_low_ld (const #x20))
+ (sequence ()
+ (set (reg h-gr 5) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_low_ld (const #x40))
+ (sequence ()
+ (set (reg h-gr 6) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_low_ld (const #x80))
+ (sequence ()
+ (set (reg h-gr 7) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ )
+ ((fr30-1 (unit u-ldm)))
+)
+
+(dni ldm1
+ "ldm1 (reglist_hi_ld)"
+ (NOT-IN-DELAY-SLOT)
+ "ldm1 ($reglist_hi_ld)"
+ (+ OP1_8 OP2_D reglist_hi_ld)
+ (sequence ()
+ (if (and reglist_hi_ld (const #x1))
+ (sequence ()
+ (set (reg h-gr 8) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_hi_ld (const #x2))
+ (sequence ()
+ (set (reg h-gr 9) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_hi_ld (const #x4))
+ (sequence ()
+ (set (reg h-gr 10) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_hi_ld (const #x8))
+ (sequence ()
+ (set (reg h-gr 11) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_hi_ld (const #x10))
+ (sequence ()
+ (set (reg h-gr 12) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_hi_ld (const #x20))
+ (sequence ()
+ (set (reg h-gr 13) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_hi_ld (const #x40))
+ (sequence ()
+ (set (reg h-gr 14) (mem WI (reg h-gr 15)))
+ (set (reg h-gr 15) (add (reg h-gr 15) (const 4)))))
+ (if (and reglist_hi_ld (const #x80))
+ (set (reg h-gr 15) (mem WI (reg h-gr 15))))
+ )
+ ((fr30-1 (unit u-ldm)))
+)
+
+(dni stm0
+ "stm0 (reglist_low_st)"
+ (NOT-IN-DELAY-SLOT)
+ "stm0 ($reglist_low_st)"
+ (+ OP1_8 OP2_E reglist_low_st)
+ (sequence ()
+ (if (and reglist_low_st (const #x1))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 7))))
+ (if (and reglist_low_st (const #x2))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 6))))
+ (if (and reglist_low_st (const #x4))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 5))))
+ (if (and reglist_low_st (const #x8))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 4))))
+ (if (and reglist_low_st (const #x10))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 3))))
+ (if (and reglist_low_st (const #x20))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 2))))
+ (if (and reglist_low_st (const #x40))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 1))))
+ (if (and reglist_low_st (const #x80))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 0))))
+ )
+ ((fr30-1 (unit u-stm)))
+)
+
+(dni stm1
+ "stm1 (reglist_hi_st)"
+ (NOT-IN-DELAY-SLOT)
+ "stm1 ($reglist_hi_st)"
+ (+ OP1_8 OP2_F reglist_hi_st)
+ (sequence ()
+ (if (and reglist_hi_st (const #x1))
+ (sequence ((WI save-r15))
+ (set save-r15 (reg h-gr 15))
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) save-r15)))
+ (if (and reglist_hi_st (const #x2))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 14))))
+ (if (and reglist_hi_st (const #x4))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 13))))
+ (if (and reglist_hi_st (const #x8))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 12))))
+ (if (and reglist_hi_st (const #x10))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 11))))
+ (if (and reglist_hi_st (const #x20))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 10))))
+ (if (and reglist_hi_st (const #x40))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 9))))
+ (if (and reglist_hi_st (const #x80))
+ (sequence ()
+ (set (reg h-gr 15) (sub (reg h-gr 15) (const 4)))
+ (set (mem WI (reg h-gr 15)) (reg h-gr 8))))
+ )
+ ((fr30-1 (unit u-stm)))
+)
+
+(dni enter
+ "enter #u10"
+ (NOT-IN-DELAY-SLOT)
+ "enter $u10"
+ (+ OP1_0 OP2_F u10)
+ (sequence ((WI tmp))
+ (set tmp (sub (reg h-gr 15) (const 4)))
+ (set (mem WI tmp) (reg h-gr 14))
+ (set (reg h-gr 14) tmp)
+ (set (reg h-gr 15) (sub (reg h-gr 15) u10)))
+ ((fr30-1 (unit u-exec (cycles 2))))
+)
+
+(dni leave
+ "leave"
+ ()
+ "leave"
+ (+ OP1_9 OP2_F OP3_9 OP4_0)
+ (sequence ()
+ (set (reg h-gr 15) (add (reg h-gr 14) (const 4)))
+ (set (reg h-gr 14) (mem WI (sub (reg h-gr 15) (const 4)))))
+ ()
+)
+
+(dni xchb
+ "xchb @Rj,Ri"
+ (NOT-IN-DELAY-SLOT)
+ "xchb @$Rj,$Ri"
+ (+ OP1_8 OP2_A Rj Ri)
+ (sequence ((WI tmp))
+ (set tmp Ri)
+ (set Ri (mem UQI Rj))
+ (set (mem UQI Rj) tmp))
+ ((fr30-1 (unit u-load) (unit u-store)))
+)
--- /dev/null
+/* FR30 opcode support. -*- C -*-
+ Copyright 2011 Free Software Foundation, Inc.
+
+ Contributed by Red Hat Inc;
+
+ This file is part of the GNU Binutils.
+
+ This program is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 3 of the License, or
+ (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+ MA 02110-1301, USA. */
+
+/* This file is an addendum to fr30.cpu. Heavy use of C code isn't
+ appropriate in .cpu files, so it resides here. This especially applies
+ to assembly/disassembly where parsing/printing can be quite involved.
+ Such things aren't really part of the specification of the cpu, per se,
+ so .cpu files provide the general framework and .opc files handle the
+ nitty-gritty details as necessary.
+
+ Each section is delimited with start and end markers.
+
+ <arch>-opc.h additions use: "-- opc.h"
+ <arch>-opc.c additions use: "-- opc.c"
+ <arch>-asm.c additions use: "-- asm.c"
+ <arch>-dis.c additions use: "-- dis.c"
+ <arch>-ibd.h additions use: "-- ibd.h". */
+\f
+/* -- opc.h */
+
+/* ??? This can be improved upon. */
+#undef CGEN_DIS_HASH_SIZE
+#define CGEN_DIS_HASH_SIZE 16
+#undef CGEN_DIS_HASH
+#define CGEN_DIS_HASH(buffer, value) (((unsigned char *) (buffer))[0] >> 4)
+
+/* -- */
+\f
+/* -- asm.c */
+/* Handle register lists for LDMx and STMx. */
+
+static int
+parse_register_number (const char **strp)
+{
+ int regno;
+
+ if (**strp < '0' || **strp > '9')
+ return -1; /* Error. */
+ regno = **strp - '0';
+ ++*strp;
+
+ if (**strp >= '0' && **strp <= '9')
+ {
+ regno = regno * 10 + (**strp - '0');
+ ++*strp;
+ }
+
+ return regno;
+}
+
+static const char *
+parse_register_list (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ const char **strp,
+ int opindex ATTRIBUTE_UNUSED,
+ unsigned long *valuep,
+ int high_low, /* 0 == high, 1 == low. */
+ int load_store) /* 0 == load, 1 == store. */
+{
+ *valuep = 0;
+ while (**strp && **strp != ')')
+ {
+ int regno;
+
+ if (**strp != 'R' && **strp != 'r')
+ break;
+ ++*strp;
+
+ regno = parse_register_number (strp);
+ if (regno == -1)
+ return _("Register number is not valid");
+ if (regno > 7 && !high_low)
+ return _("Register must be between r0 and r7");
+ if (regno < 8 && high_low)
+ return _("Register must be between r8 and r15");
+
+ if (high_low)
+ regno -= 8;
+
+ if (load_store) /* Mask is reversed for store. */
+ *valuep |= 0x80 >> regno;
+ else
+ *valuep |= 1 << regno;
+
+ if (**strp == ',')
+ {
+ if (*(*strp + 1) == ')')
+ break;
+ ++*strp;
+ }
+ }
+
+ if (!*strp || **strp != ')')
+ return _("Register list is not valid");
+
+ return NULL;
+}
+
+static const char *
+parse_low_register_list_ld (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ return parse_register_list (cd, strp, opindex, valuep,
+ 0 /* Low. */, 0 /* Load. */);
+}
+
+static const char *
+parse_hi_register_list_ld (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ return parse_register_list (cd, strp, opindex, valuep,
+ 1 /* High. */, 0 /* Load. */);
+}
+
+static const char *
+parse_low_register_list_st (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ return parse_register_list (cd, strp, opindex, valuep,
+ 0 /* Low. */, 1 /* Store. */);
+}
+
+static const char *
+parse_hi_register_list_st (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ return parse_register_list (cd, strp, opindex, valuep,
+ 1 /* High. */, 1 /* Store. */);
+}
+
+/* -- */
+
+/* -- dis.c */
+static void
+print_register_list (void * dis_info,
+ long value,
+ long offset,
+ int load_store) /* 0 == load, 1 == store. */
+{
+ disassemble_info *info = dis_info;
+ int mask;
+ int reg_index = 0;
+ char * comma = "";
+
+ if (load_store)
+ mask = 0x80;
+ else
+ mask = 1;
+
+ if (value & mask)
+ {
+ (*info->fprintf_func) (info->stream, "r%li", reg_index + offset);
+ comma = ",";
+ }
+
+ for (reg_index = 1; reg_index <= 7; ++reg_index)
+ {
+ if (load_store)
+ mask >>= 1;
+ else
+ mask <<= 1;
+
+ if (value & mask)
+ {
+ (*info->fprintf_func) (info->stream, "%sr%li", comma, reg_index + offset);
+ comma = ",";
+ }
+ }
+}
+
+static void
+print_hi_register_list_ld (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ print_register_list (dis_info, value, 8, 0 /* Load. */);
+}
+
+static void
+print_low_register_list_ld (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ print_register_list (dis_info, value, 0, 0 /* Load. */);
+}
+
+static void
+print_hi_register_list_st (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ print_register_list (dis_info, value, 8, 1 /* Store. */);
+}
+
+static void
+print_low_register_list_st (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ print_register_list (dis_info, value, 0, 1 /* Store. */);
+}
+
+static void
+print_m4 (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+
+ (*info->fprintf_func) (info->stream, "%ld", value);
+}
+/* -- */
--- /dev/null
+; Ubicom IP2K CPU description. -*- Scheme -*-
+; Copyright (C) 2002, 2009, 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+(define-rtl-version 0 8)
+
+(include "simplify.inc")
+
+; define-arch must appear first
+
+(define-arch
+ (name ip2k) ; name of cpu family
+ (comment "Ubicom IP2000 family")
+ (default-alignment aligned)
+ (insn-lsb0? #t)
+ (machs ip2022 ip2022ext)
+ (isas ip2k)
+)
+
+; Attributes.
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name EXT-SKIP-INSN)
+ (comment "instruction is a PAGE, LOADL, LOADH or BREAKX instruction")
+)
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name SKIPA)
+ (comment "instruction is a SKIP instruction")
+)
+
+; Instruction set parameters.
+
+(define-isa
+ (name ip2k)
+ (comment "Ubicom IP2000 ISA")
+
+ (default-insn-word-bitsize 16)
+ (default-insn-bitsize 16)
+ (base-insn-bitsize 16)
+)
+\f
+; Cpu family definitions.
+
+
+(define-cpu
+ ; cpu names must be distinct from the architecture name and machine names.
+ (name ip2kbf)
+ (comment "Ubicom IP2000 Family")
+ (endian big)
+ (word-bitsize 16)
+)
+
+(define-mach
+ (name ip2022)
+ (comment "Ubicom IP2022")
+ (cpu ip2kbf)
+)
+
+(define-mach
+ (name ip2022ext)
+ (comment "Ubicom IP2022 extended")
+ (cpu ip2kbf)
+)
+
+\f
+; Model descriptions.
+
+(define-model
+ (name ip2k) (comment "VPE 2xxx") (attrs)
+ (mach ip2022ext)
+
+ (unit u-exec "Execution Unit" ()
+ 1 1 ; issue done
+ () ; state
+ () ; inputs
+ () ; outputs
+ () ; profile action (default)
+ )
+)
+
+
+; FIXME: It might simplify things to separate the execute process from the
+; one that updates the PC.
+\f
+; Instruction fields.
+;
+; Attributes:
+; XXX: what VPE attrs
+; PCREL-ADDR: pc relative value (for reloc and disassembly purposes)
+; ABS-ADDR: absolute address (for reloc and disassembly purposes?)
+; RESERVED: bits are not used to decode insn, must be all 0
+; RELOC: there is a relocation associated with this field (experiment)
+
+
+(dnf f-imm8 "imm8" () 7 8)
+(dnf f-reg "reg" (ABS-ADDR) 8 9)
+(dnf f-addr16cjp "addr16cjp" (ABS-ADDR) 12 13)
+(dnf f-dir "dir" () 9 1)
+(dnf f-bitno "bit number" () 11 3)
+(dnf f-op3 "op3" () 15 3)
+(dnf f-op4 "op4" () 15 4)
+(dnf f-op4mid "op4mid" () 11 4)
+(dnf f-op6 "op6" () 15 6)
+(dnf f-op8 "op8" () 15 8)
+(dnf f-op6-10low "op6-10low" () 9 10)
+(dnf f-op6-7low "op6-7low" () 9 7)
+(dnf f-reti3 "reti3" () 2 3)
+(dnf f-skipb "sb/snb" (ABS-ADDR) 12 1)
+(dnf f-page3 "page3" () 2 3)
+;(define-ifield (name f-page3) (comment "page3") (attrs) (start 2) (length 3)
+; (encode (value pc) (srl WI value 13))
+; (decode (value pc) (sll WI value 13))
+;)
+; To fix the page/call asymmetry
+;(define-ifield (name f-page3) (comment "page3") (attrs) (start 2) (length 3)
+; (encode (value pc) (srl WI value 13))
+; (decode (value pc) (sll WI value 13))
+;)
+
+
+\f
+; Enums.
+
+; insn-op6: bits 15-10
+(define-normal-insn-enum insn-op6 "op6 enums" () OP6_ f-op6
+ (OTHER1 OTHER2 SUB DEC OR AND XOR ADD
+ TEST NOT INC DECSZ RR RL SWAP INCSZ
+ CSE POP SUBC DECSNZ MULU MULS INCSNZ ADDC
+ - - - - - - - -
+ - - - - - - - -
+ - - - - - - - -
+ - - - - - - - -
+ - - - - - - - -
+ )
+)
+
+; insn-dir: bit 9
+(define-normal-insn-enum insn-dir "dir enums" () DIR_ f-dir
+ ; This bit specifies the polarity of many two-operand instructions:
+ ; TO_W writes result to W regiser (eg. ADDC W,$fr)
+ ; NOTTO_W writes result in general register (eg. ADDC $fr,W)
+ (TO_W NOTTO_W)
+)
+
+
+; insn-op4: bits 15-12
+(define-normal-insn-enum insn-op4 "op4 enums" () OP4_ f-op4
+ (- - - - - - - LITERAL
+ CLRB SETB SNB SB - - - -
+ )
+)
+
+; insn-op4mid: bits 11-8
+; used for f-op4=LITERAL
+(define-normal-insn-enum insn-op4mid "op4mid enums" () OP4MID_ f-op4mid
+ (LOADH_L LOADL_L MULU_L MULS_L PUSH_L - CSNE_L CSE_L
+ RETW_L CMP_L SUB_L ADD_L MOV_L OR_L AND_L XOR_L)
+)
+
+; insn-op3: bits 15-13
+(define-normal-insn-enum insn-op3 "op3 enums" () OP3_ f-op3
+ (- - - - - - CALL JMP)
+)
+
+
+
+; Hardware pieces.
+
+; Bank-relative general purpose registers
+
+; (define-pmacro (build-reg-name n) (.splice (.str "$" n) n))
+
+(define-keyword
+ (name register-names)
+ (enum-prefix H-REGISTERS-)
+ (values
+ ; These are the "Special Purpose Registers" that are not reserved
+ ("ADDRSEL" #x2) ("ADDRX" #x3)
+ ("IPH" #x4) ("IPL" #x5) ("SPH" #x6) ("SPL" #x7)
+ ("PCH" #x8) ("PCL" #x9) ("WREG" #xA) ("STATUS" #xB)
+ ("DPH" #xC) ("DPL" #xD) ("SPDREG" #xE) ("MULH" #xF)
+ ("ADDRH" #x10) ("ADDRL" #x11) ("DATAH" #x12) ("DATAL" #x13)
+ ("INTVECH" #x14) ("INTVECL" #x15) ("INTSPD" #x16) ("INTF" #x17)
+ ("INTE" #x18) ("INTED" #x19) ("FCFG" #x1A) ("TCTRL" #x1B)
+ ("XCFG" #x1C) ("EMCFG" #x1D) ("IPCH" #x1E) ("IPCL" #x1F)
+ ("RAIN" #x20) ("RAOUT" #x21) ("RADIR" #x22) ("LFSRH" #x23)
+ ("RBIN" #x24) ("RBOUT" #x25) ("RBDIR" #x26) ("LFSRL" #x27)
+ ("RCIN" #x28) ("RCOUT" #x29) ("RCDIR" #x2A) ("LFSRA" #x2B)
+ ("RDIN" #x2C) ("RDOUT" #x2D) ("RDDIR" #x2E)
+ ("REIN" #x30) ("REOUT" #x31) ("REDIR" #x32)
+ ("RFIN" #x34) ("RFOUT" #x35) ("RFDIR" #x36)
+ ("RGOUT" #x39) ("RGDIR" #x3A)
+ ("RTTMR" #x40) ("RTCFG" #x41) ("T0TMR" #x42) ("T0CFG" #x43)
+ ("T1CNTH" #x44) ("T1CNTL" #x45) ("T1CAP1H" #x46) ("T1CAP1L" #x47)
+ ("T1CAP2H" #x48) ("T1CMP2H" #x48) ("T1CAP2L" #x49) ("T1CMP2L" #x49) ; note aliases
+ ("T1CMP1H" #x4A) ("T1CMP1L" #x4B)
+ ("T1CFG1H" #x4C) ("T1CFG1L" #x4D) ("T1CFG2H" #x4E) ("T1CFG2L" #x4F)
+ ("ADCH" #x50) ("ADCL" #x51) ("ADCCFG" #x52) ("ADCTMR" #x53)
+ ("T2CNTH" #x54) ("T2CNTL" #x55) ("T2CAP1H" #x56) ("T2CAP1L" #x57)
+ ("T2CAP2H" #x58) ("T2CMP2H" #x58) ("T2CAP2L" #x59) ("T2CMP2L" #x59) ; note aliases
+ ("T2CMP1H" #x5A) ("T2CMP1L" #x5B)
+ ("T2CFG1H" #x5C) ("T2CFG1L" #x5D) ("T2CFG2H" #x5E) ("T2CFG2L" #x5F)
+ ("S1TMRH" #x60) ("S1TMRL" #x61) ("S1TBUFH" #x62) ("S1TBUFL" #x63)
+ ("S1TCFG" #x64) ("S1RCNT" #x65) ("S1RBUFH" #x66) ("S1RBUFL" #x67)
+ ("S1RCFG" #x68) ("S1RSYNC" #x69) ("S1INTF" #x6A) ("S1INTE" #x6B)
+ ("S1MODE" #x6C) ("S1SMASK" #x6D) ("PSPCFG" #x6E) ("CMPCFG" #x6F)
+ ("S2TMRH" #x70) ("S2TMRL" #x71) ("S2TBUFH" #x72) ("S2TBUFL" #x73)
+ ("S2TCFG" #x74) ("S2RCNT" #x75) ("S2RBUFH" #x76) ("S2RBUFL" #x77)
+ ("S2RCFG" #x78) ("S2RSYNC" #x79) ("S2INTF" #x7A) ("S2INTE" #x7B)
+ ("S2MODE" #x7C) ("S2SMASK" #x7D) ("CALLH" #x7E) ("CALLL" #x7F))
+ )
+
+(define-hardware
+ (name h-spr)
+ (comment "special-purpose registers")
+ (type register QI (128))
+ (get (index) (c-call QI "get_spr" index ))
+ (set (index newval) (c-call VOID "set_spr" index newval ))
+)
+
+
+;;(define-hardware
+;; (name h-gpr-global)
+;; (comment "gpr registers - global")
+;; (type register QI (128))
+;;)
+
+; The general register
+
+(define-hardware
+ (name h-registers)
+ (comment "all addressable registers")
+ (attrs VIRTUAL)
+ (type register QI (512))
+ (get (index) (c-call QI "get_h_registers" index ))
+ (set (index newval) (c-call VOID "set_h_registers" index newval ))
+)
+
+; The hardware stack.
+; Use {push,pop}_pc_stack c-calls to operate on this hardware element.
+
+(define-hardware
+ (name h-stack)
+ (comment "hardware stack")
+ (type register UHI (16))
+)
+
+(dsh h-pabits "page bits" () (register QI))
+(dsh h-zbit "zero bit" () (register BI))
+(dsh h-cbit "carry bit" () (register BI))
+(dsh h-dcbit "digit-carry bit" () (register BI))
+(dnh h-pc "program counter" (PC PROFILE) (pc) () () ())
+
+
+; Operands
+
+(define-operand (name addr16cjp) (comment "13-bit address") (attrs)
+ (type h-uint) (index f-addr16cjp) (handlers (parse "addr16_cjp") (print "dollarhex_cj"))) ; overload lit8 printer
+(define-operand (name fr) (comment "register") (attrs)
+ (type h-registers) (index f-reg) (handlers (parse "fr") (print "fr")))
+(define-operand (name lit8) (comment "8-bit signed literal") (attrs)
+ (type h-sint) (index f-imm8) (handlers (parse "lit8") (print "dollarhex8")))
+(define-operand (name bitno) (comment "bit number") (attrs)
+ (type h-uint) (index f-bitno) (handlers (parse "bit3")(print "decimal")))
+(define-operand (name addr16p) (comment "page number") (attrs)
+ (type h-uint) (index f-page3) (handlers (parse "addr16_cjp") (print "dollarhex_p")))
+(define-operand (name addr16h) (comment "high 8 bits of address") (attrs)
+ (type h-uint) (index f-imm8) (handlers (parse "addr16") (print "dollarhex_addr16h")))
+(define-operand (name addr16l) (comment "low 8 bits of address") (attrs)
+ (type h-uint) (index f-imm8) (handlers (parse "addr16") (print "dollarhex_addr16l")))
+(define-operand (name reti3) (comment "reti flags") (attrs)
+ (type h-uint) (index f-reti3) (handlers (print "dollarhex")))
+(dnop pabits "page bits" () h-pabits f-nil)
+(dnop zbit "zero bit" () h-zbit f-nil)
+(dnop cbit "carry bit" () h-cbit f-nil)
+(dnop dcbit "digit carry bit" () h-dcbit f-nil)
+;;(dnop bank "bank register" () h-bank-no f-nil)
+
+(define-pmacro w (reg h-spr #x0A))
+(define-pmacro mulh (reg h-spr #x0F))
+(define-pmacro dph (reg h-spr #x0C))
+(define-pmacro dpl (reg h-spr #x0D))
+(define-pmacro sph (reg h-spr #x06))
+(define-pmacro spl (reg h-spr #x07))
+(define-pmacro iph (reg h-spr #x04))
+(define-pmacro ipl (reg h-spr #x05))
+(define-pmacro addrh (reg h-spr #x10))
+(define-pmacro addrl (reg h-spr #x11))
+
+
+
+; Pseudo-RTL for DC flag calculations
+; "DC" = "digit carry", ie carry between nibbles
+(define-pmacro (add-dcflag a b c)
+ (add-cflag (sll QI a 4) (sll QI b 4) c)
+)
+
+(define-pmacro (sub-dcflag a b c)
+ (sub-cflag (sll QI a 4) (sll QI b 4) c)
+)
+
+; Check to see if an fr is one of IPL, SPL, DPL, ADDRL, PCL.
+(define-pmacro (LregCheck isLreg fr9bit)
+ (sequence()
+ (set isLreg #x0) ;; Assume it's not an Lreg
+ (if (or (or (eq fr9bit #x5) (eq fr9bit #x7))
+ (or (eq fr9bit #x9)
+ (or (eq fr9bit #xd) (eq fr9bit #x11))))
+ (set isLreg #x1)
+ )
+ )
+)
+
+
+; Instructions, in order of the "Instruction Set Map" table on
+; pp 19-20 of IP2022 spec V1.09
+
+(dni jmp "Jump"
+ ()
+ "jmp $addr16cjp"
+ (+ OP3_JMP addr16cjp)
+ (set pc (or (sll pabits 13) addr16cjp))
+ ()
+)
+
+; note that in call, we push pc instead of pc + 1 because the ip2k increments
+; the pc prior to execution of the instruction
+(dni call "Call"
+ ()
+ "call $addr16cjp"
+ (+ OP3_CALL addr16cjp)
+ (sequence ()
+ (c-call "push_pc_stack" pc)
+ (set pc (or (sll pabits 13) addr16cjp)))
+ ()
+)
+
+(dni sb "Skip if bit set"
+ ()
+ "sb $fr,$bitno"
+ (+ OP4_SB bitno fr)
+ (if (and fr (sll 1 bitno))
+ (skip 1))
+ ()
+)
+
+(dni snb "Skip if bit clear"
+ ()
+ "snb $fr,$bitno"
+ (+ OP4_SNB bitno fr)
+ (if (not (and fr (sll 1 bitno)))
+ (skip 1))
+ ()
+)
+
+(dni setb "Set bit"
+ ()
+ "setb $fr,$bitno"
+ (+ OP4_SETB bitno fr)
+ (set fr (or fr (sll 1 bitno)))
+ ()
+)
+
+(dni clrb "Clear bit"
+ ()
+ "clrb $fr,$bitno"
+ (+ OP4_CLRB bitno fr)
+ (set fr (and fr (inv (sll 1 bitno))))
+ ()
+)
+
+(dni xorw_l "XOR W,literal"
+ ()
+ "xor W,#$lit8"
+ (+ OP4_LITERAL OP4MID_XOR_L lit8)
+ (sequence ()
+ (set w (xor w lit8))
+ (set zbit (zflag w)))
+ ()
+)
+
+(dni andw_l "AND W,literal"
+ ()
+ "and W,#$lit8"
+ (+ OP4_LITERAL OP4MID_AND_L lit8)
+ (sequence ()
+ (set w (and w lit8))
+ (set zbit (zflag w)))
+ ()
+)
+
+(dni orw_l "OR W,literal"
+ ()
+ "or W,#$lit8"
+ (+ OP4_LITERAL OP4MID_OR_L lit8)
+ (sequence ()
+ (set w (or w lit8))
+ (set zbit (zflag w)))
+ ()
+)
+
+(dni addw_l "ADD W,literal"
+ ()
+ "add W,#$lit8"
+ (+ OP4_LITERAL OP4MID_ADD_L lit8)
+ (sequence ()
+ (set cbit (add-cflag w lit8 0))
+ (set dcbit (add-dcflag w lit8 0))
+ (set w (add w lit8))
+ (set zbit (zflag w)))
+ ()
+)
+
+(dni subw_l "SUB W,literal"
+ ()
+ "sub W,#$lit8"
+ (+ OP4_LITERAL OP4MID_SUB_L lit8)
+ (sequence ()
+ (set cbit (not (sub-cflag lit8 w 0)))
+ (set dcbit (not (sub-dcflag lit8 w 0)))
+ (set zbit (zflag (sub w lit8)))
+ (set w (sub lit8 w)))
+ ()
+)
+
+(dni cmpw_l "CMP W,literal"
+ ()
+ "cmp W,#$lit8"
+ (+ OP4_LITERAL OP4MID_CMP_L lit8)
+ (sequence ()
+ (set cbit (not (sub-cflag lit8 w 0)))
+ (set dcbit (not (sub-dcflag lit8 w 0)))
+ (set zbit (zflag (sub w lit8))))
+ ()
+)
+
+(dni retw_l "RETW literal"
+ ()
+ "retw #$lit8"
+ (+ OP4_LITERAL OP4MID_RETW_L lit8)
+ (sequence ((USI new_pc))
+ (set w lit8)
+ (set new_pc (c-call UHI "pop_pc_stack"))
+ (set pabits (srl new_pc 13))
+ (set pc new_pc))
+ ()
+)
+
+(dni csew_l "CSE W,literal"
+ ()
+ "cse W,#$lit8"
+ (+ OP4_LITERAL OP4MID_CSE_L lit8)
+ (if (eq w lit8)
+ (skip 1))
+ ()
+)
+
+(dni csnew_l "CSNE W,literal"
+ ()
+ "csne W,#$lit8"
+ (+ OP4_LITERAL OP4MID_CSNE_L lit8)
+ (if (not (eq w lit8))
+ (skip 1))
+ ()
+)
+
+(dni push_l "Push #lit8"
+ ()
+ "push #$lit8"
+ (+ OP4_LITERAL OP4MID_PUSH_L lit8)
+ (sequence ()
+ (c-call "push" lit8)
+ (c-call VOID "adjuststackptr" (const -1))
+
+ )
+ ()
+)
+
+(dni mulsw_l "Multiply W,literal (signed)"
+ ()
+ "muls W,#$lit8"
+ (+ OP4_LITERAL OP4MID_MULS_L lit8)
+ (sequence ((SI tmp))
+ (set tmp (mul (ext SI w) (ext SI (and UQI #xff lit8))))
+ (set w (and tmp #xFF))
+ (set mulh (srl tmp 8)))
+ ()
+)
+
+(dni muluw_l "Multiply W,literal (unsigned)"
+ ()
+ "mulu W,#$lit8"
+ (+ OP4_LITERAL OP4MID_MULU_L lit8)
+ (sequence ((USI tmp))
+ (set tmp (and #xFFFF (mul (zext USI w) (zext USI lit8))))
+ (set w (and tmp #xFF))
+ (set mulh (srl tmp 8)))
+ ()
+)
+
+(dni loadl_l "LoadL literal"
+ (EXT-SKIP-INSN)
+ "loadl #$lit8"
+ (+ OP4_LITERAL OP4MID_LOADL_L lit8)
+ (set dpl (and lit8 #x00FF))
+ ()
+)
+
+(dni loadh_l "LoadH literal"
+ (EXT-SKIP-INSN)
+ "loadh #$lit8"
+ (+ OP4_LITERAL OP4MID_LOADH_L lit8)
+ (set dph (and lit8 #x00FF))
+ ()
+)
+
+(dni loadl_a "LoadL addr16l"
+ (EXT-SKIP-INSN)
+ "loadl $addr16l"
+ (+ OP4_LITERAL OP4MID_LOADL_L addr16l)
+ (set dpl (and addr16l #x00FF))
+ ()
+)
+
+(dni loadh_a "LoadH addr16h"
+ (EXT-SKIP-INSN)
+ "loadh $addr16h"
+ (+ OP4_LITERAL OP4MID_LOADH_L addr16h)
+ (set dph (and addr16l #x0FF00))
+ ()
+)
+
+;; THIS NO LONGER EXISTS -> Now LOADL
+;;(dni bank_l "Bank literal"
+;; ()
+;; "bank #$lit8"
+;; (+ OP4_LITERAL OP4MID_BANK_L lit8)
+;; (set bank lit8)
+;; ()
+;;)
+
+(dni addcfr_w "Add w/carry fr,W"
+ ()
+ "addc $fr,W"
+ (+ OP6_ADDC DIR_NOTTO_W fr)
+ (sequence ((QI result) (BI newcbit) (QI isLreg) (HI 16bval))
+ (set newcbit (add-cflag w fr cbit))
+ (set dcbit (add-dcflag w fr cbit))
+ ;; If fr is an Lreg, then we have to do 16-bit arithmetic.
+ ;; We can take advantage of the fact that by a lucky
+ ;; coincidence, the address of register xxxH is always
+ ;; one lower than the address of register xxxL.
+ (LregCheck isLreg (ifield f-reg))
+ (if (eq isLreg #x1)
+ (sequence()
+ (set 16bval (reg h-spr (sub (ifield f-reg) 1)))
+ (set 16bval (sll 16bval 8))
+ (set 16bval (or 16bval (and (reg h-spr (ifield f-reg)) #xFF)))
+ (set 16bval (addc HI 16bval w cbit))
+ (set (reg h-spr (ifield f-reg)) (and 16bval #xFF))
+ (set (reg h-spr (sub (ifield f-reg) 1))
+ (and (srl 16bval 8) #xFF))
+ (set result (reg h-spr (ifield f-reg)))
+ )
+ (set result (addc w fr cbit)) ;; else part
+ )
+
+ (set zbit (zflag result))
+ (set cbit newcbit)
+ (set fr result))
+ ()
+)
+
+(dni addcw_fr "Add w/carry W,fr"
+ ()
+ "addc W,$fr"
+ (+ OP6_ADDC DIR_TO_W fr)
+ (sequence ((QI result) (BI newcbit))
+ (set newcbit (add-cflag w fr cbit))
+ (set dcbit (add-dcflag w fr cbit))
+ (set result (addc w fr cbit))
+ (set zbit (zflag result))
+ (set cbit newcbit)
+ (set w result))
+ ()
+)
+
+
+(dni incsnz_fr "Skip if fr++ not zero"
+ ()
+ "incsnz $fr"
+ (+ OP6_INCSNZ DIR_NOTTO_W fr)
+ (sequence ((QI isLreg) (HI 16bval))
+ (LregCheck isLreg (ifield f-reg))
+ ;; If fr is an Lreg, then we have to do 16-bit arithmetic.
+ ;; We can take advantage of the fact that by a lucky
+ ;; coincidence, the address of register xxxH is always
+ ;; one lower than the address of register xxxL.
+ (if (eq isLreg #x1)
+ (sequence()
+ ; Create the 16 bit value
+ (set 16bval (reg h-spr (sub (ifield f-reg) 1)))
+ (set 16bval (sll 16bval 8))
+ (set 16bval (or 16bval (and (reg h-spr (ifield f-reg)) #xFF)))
+ ; Do 16 bit arithmetic.
+ (set 16bval (add HI 16bval 1))
+ ; Separate the 16 bit values into the H and L regs
+ (set (reg h-spr (ifield f-reg)) (and 16bval #xFF))
+ (set (reg h-spr (sub (ifield f-reg) 1))
+ (and (srl 16bval 8) #xFF))
+ (set fr (reg h-spr (ifield f-reg)))
+ )
+ (set fr (add fr 1)) ; Do 8 bit arithmetic.
+ )
+ (if (not (zflag fr))
+ (skip 1)))
+ ()
+)
+
+(dni incsnzw_fr "Skip if W=fr+1 not zero"
+ ()
+ "incsnz W,$fr"
+ (+ OP6_INCSNZ DIR_TO_W fr)
+ (sequence ()
+ (set w (add fr 1))
+ (if (not (zflag w))
+ (skip 1)))
+ ()
+)
+
+(dni mulsw_fr "Multiply W,fr (signed)"
+ ()
+ "muls W,$fr"
+ (+ OP6_MULS DIR_TO_W fr)
+ (sequence ((SI tmp))
+ (set tmp (mul (ext SI w) (ext SI fr)))
+ (set w (and tmp #xFF))
+ (set mulh (srl tmp 8)))
+ ()
+)
+
+(dni muluw_fr "Multiply W,fr (unsigned)"
+ ()
+ "mulu W,$fr"
+ (+ OP6_MULU DIR_TO_W fr)
+ (sequence ((USI tmp))
+ (set tmp (and #xFFFF (mul (zext USI w) (zext USI fr))))
+ (set w (and tmp #xFF))
+ (set mulh (srl tmp 8)))
+ ()
+)
+
+(dni decsnz_fr "Skip if fr-- not zero"
+ ()
+ "decsnz $fr"
+ (+ OP6_DECSNZ DIR_NOTTO_W fr)
+ (sequence ((QI isLreg) (HI 16bval))
+ (LregCheck isLreg (ifield f-reg))
+ ;; If fr is an Lreg, then we have to do 16-bit arithmetic.
+ ;; We can take advantage of the fact that by a lucky
+ ;; coincidence, the address of register xxxH is always
+ ;; one lower than the address of register xxxL.
+ (if (eq isLreg #x1)
+ (sequence()
+ ; Create the 16 bit value
+ (set 16bval (reg h-spr (sub (ifield f-reg) 1)))
+ (set 16bval (sll 16bval 8))
+ (set 16bval (or 16bval (and (reg h-spr (ifield f-reg)) #xFF)))
+ ; New 16 bit instruction
+ (set 16bval (sub HI 16bval 1))
+ ; Separate the 16 bit values into the H and L regs
+ (set (reg h-spr (ifield f-reg)) (and 16bval #xFF))
+ (set (reg h-spr (sub (ifield f-reg) 1))
+ (and (srl 16bval 8) #xFF))
+ (set fr (reg h-spr (ifield f-reg)))
+ )
+ ; Original instruction
+ (set fr (sub fr 1))
+ )
+ (if (not (zflag fr))
+ (skip 1)))
+ ()
+)
+
+(dni decsnzw_fr "Skip if W=fr-1 not zero"
+ ()
+ "decsnz W,$fr"
+ (+ OP6_DECSNZ DIR_TO_W fr)
+ (sequence ()
+ (set w (sub fr 1))
+ (if (not (zflag w))
+ (skip 1)))
+ ()
+)
+
+(dni subcw_fr "Subract w/carry W,fr"
+ ()
+ "subc W,$fr"
+ (+ OP6_SUBC DIR_TO_W fr)
+ (sequence ((QI result) (BI newcbit))
+ (set newcbit (not (sub-cflag fr w (not cbit))))
+ (set dcbit (not (sub-dcflag fr w (not cbit))))
+ (set result (subc fr w (not cbit)))
+ (set zbit (zflag result))
+ (set cbit newcbit)
+ (set w result))
+ ()
+)
+
+(dni subcfr_w "Subtract w/carry fr,W"
+ ()
+ "subc $fr,W"
+ (+ OP6_SUBC DIR_NOTTO_W fr)
+ (sequence ((QI result) (BI newcbit) (QI isLreg) (HI 16bval))
+ (set newcbit (not (sub-cflag fr w (not cbit))))
+ (set dcbit (not (sub-dcflag fr w (not cbit))))
+ (LregCheck isLreg (ifield f-reg))
+ ;; If fr is an Lreg, then we have to do 16-bit arithmetic.
+ ;; We can take advantage of the fact that by a lucky
+ ;; coincidence, the address of register xxxH is always
+ ;; one lower than the address of register xxxL.
+ (if (eq isLreg #x1)
+ (sequence()
+ ; Create the 16 bit value
+ (set 16bval (reg h-spr (sub (ifield f-reg) 1)))
+ (set 16bval (sll 16bval 8))
+ (set 16bval (or 16bval (and (reg h-spr (ifield f-reg)) #xFF)))
+ ; New 16 bit instruction
+ (set 16bval (subc HI 16bval w (not cbit)))
+ ; Separate the 16 bit values into the H and L regs
+ (set (reg h-spr (ifield f-reg)) (and 16bval #xFF))
+ (set (reg h-spr (sub (ifield f-reg) 1))
+ (and (srl 16bval 8) #xFF))
+ (set result (reg h-spr (ifield f-reg)))
+ )
+ ; Original instruction
+ (set result (subc fr w (not cbit)))
+ )
+
+
+ (set zbit (zflag result))
+ (set cbit newcbit)
+ (set fr result))
+ ()
+)
+
+
+(dni pop_fr "Pop fr"
+ ()
+ "pop $fr"
+ (+ OP6_POP (f-dir 1) fr)
+ (sequence()
+ (set fr (c-call QI "pop"))
+ (c-call VOID "adjuststackptr" (const 1))
+ )
+ ()
+)
+
+(dni push_fr "Push fr"
+ ()
+ "push $fr"
+ (+ OP6_POP (f-dir 0) fr)
+ (sequence()
+ (c-call "push" fr)
+ (c-call VOID "adjuststackptr" (const -1))
+ )
+ ()
+)
+
+(dni csew_fr "Skip if equal W,fr"
+ ()
+ "cse W,$fr"
+ (+ OP6_CSE (f-dir 1) fr)
+ (if (eq w fr)
+ (skip 1))
+ ()
+)
+
+(dni csnew_fr "Skip if not-equal W,fr"
+ ()
+ "csne W,$fr"
+ (+ OP6_CSE (f-dir 0) fr)
+ (if (not (eq w fr))
+ (skip 1))
+ ()
+)
+
+;;(dni csaw_fr "Skip if W above fr"
+;; ((MACH ip2022ext))
+;; "csa W,$fr"
+;; (+ OP6_CSAB (f-dir 1) fr)
+;; (if (gt w fr)
+;; (skip 1))
+;; ()
+;;)
+
+;;(dni csbw_fr "Skip if W below fr"
+;; ((MACH ip2022ext))
+;; "csb W,$fr"
+;; (+ OP6_CSAB (f-dir 0) fr)
+;; (if (lt w fr)
+;; (skip 1))
+;; ()
+;;)
+
+(dni incsz_fr "Skip if fr++ zero"
+ ()
+ "incsz $fr"
+ (+ OP6_INCSZ DIR_NOTTO_W fr)
+ (sequence ((QI isLreg) (HI 16bval))
+ (LregCheck isLreg (ifield f-reg))
+ ;; If fr is an Lreg, then we have to do 16-bit arithmetic.
+ ;; We can take advantage of the fact that by a lucky
+ ;; coincidence, the address of register xxxH is always
+ ;; one lower than the address of register xxxL.
+ (if (eq isLreg #x1)
+ (sequence()
+ ; Create the 16 bit value
+ (set 16bval (reg h-spr (sub (ifield f-reg) 1)))
+ (set 16bval (sll 16bval 8))
+ (set 16bval (or 16bval (and (reg h-spr (ifield f-reg)) #xFF)))
+ ; New 16 bit instruction
+ (set 16bval (add HI 16bval 1))
+ ; Separate the 16 bit values into the H and L regs
+ (set (reg h-spr (ifield f-reg)) (and 16bval #xFF))
+ (set (reg h-spr (sub (ifield f-reg) 1))
+ (and (srl 16bval 8) #xFF))
+ (set fr (reg h-spr (ifield f-reg)))
+ )
+ ; Original instruction
+ (set fr (add fr 1))
+ )
+ (if (zflag fr)
+ (skip 1)))
+ ()
+)
+
+(dni incszw_fr "Skip if W=fr+1 zero"
+ ()
+ "incsz W,$fr"
+ (+ OP6_INCSZ DIR_TO_W fr)
+ (sequence ()
+ (set w (add fr 1))
+ (if (zflag w)
+ (skip 1)))
+ ()
+)
+
+(dni swap_fr "Swap fr nibbles"
+ ()
+ "swap $fr"
+ (+ OP6_SWAP DIR_NOTTO_W fr)
+ (set fr (or (and (sll fr 4) #xf0)
+ (and (srl fr 4) #x0f)))
+ ()
+)
+
+(dni swapw_fr "Swap fr nibbles into W"
+ ()
+ "swap W,$fr"
+ (+ OP6_SWAP DIR_TO_W fr)
+ (set w (or (and (sll fr 4) #xf0)
+ (and (srl fr 4) #x0f)))
+ ()
+)
+
+(dni rl_fr "Rotate fr left with carry"
+ ()
+ "rl $fr"
+ (+ OP6_RL DIR_NOTTO_W fr)
+ (sequence ((QI newfr) (BI newc))
+ (set newc (and fr #x80))
+ (set newfr (or (sll fr 1) (if QI cbit 1 0)))
+ (set cbit (if QI newc 1 0))
+ (set fr newfr))
+ ()
+)
+
+(dni rlw_fr "Rotate fr left with carry into W"
+ ()
+ "rl W,$fr"
+ (+ OP6_RL DIR_TO_W fr)
+ (sequence ((QI newfr) (BI newc))
+ (set newc (and fr #x80))
+ (set newfr (or (sll fr 1) (if QI cbit 1 0)))
+ (set cbit (if QI newc 1 0))
+ (set w newfr))
+ ()
+)
+
+(dni rr_fr "Rotate fr right with carry"
+ ()
+ "rr $fr"
+ (+ OP6_RR DIR_NOTTO_W fr)
+ (sequence ((QI newfr) (BI newc))
+ (set newc (and fr #x01))
+ (set newfr (or (srl fr 1) (if QI cbit #x80 #x00)))
+ (set cbit (if QI newc 1 0))
+ (set fr newfr))
+ ()
+)
+
+(dni rrw_fr "Rotate fr right with carry into W"
+ ()
+ "rr W,$fr"
+ (+ OP6_RR DIR_TO_W fr)
+ (sequence ((QI newfr) (BI newc))
+ (set newc (and fr #x01))
+ (set newfr (or (srl fr 1) (if QI cbit #x80 #x00)))
+ (set cbit (if QI newc 1 0))
+ (set w newfr))
+ ()
+)
+
+(dni decsz_fr "Skip if fr-- zero"
+ ()
+ "decsz $fr"
+ (+ OP6_DECSZ DIR_NOTTO_W fr)
+ (sequence ((QI isLreg) (HI 16bval))
+ (LregCheck isLreg (ifield f-reg))
+ ;; If fr is an Lreg, then we have to do 16-bit arithmetic.
+ ;; We can take advantage of the fact that by a lucky
+ ;; coincidence, the address of register xxxH is always
+ ;; one lower than the address of register xxxL.
+ (if (eq isLreg #x1)
+ (sequence()
+ ; Create the 16 bit value
+ (set 16bval (reg h-spr (sub (ifield f-reg) 1)))
+ (set 16bval (sll 16bval 8))
+ (set 16bval (or 16bval (and (reg h-spr (ifield f-reg)) #xFF)))
+ ; New 16 bit instruction
+ (set 16bval (sub HI 16bval 1))
+ ; Separate the 16 bit values into the H and L regs
+ (set (reg h-spr (ifield f-reg)) (and 16bval #xFF))
+ (set (reg h-spr (sub (ifield f-reg) 1))
+ (and (srl 16bval 8) #xFF))
+ (set fr (reg h-spr (ifield f-reg)))
+ )
+ ; Original instruction
+ (set fr (sub fr 1))
+ )
+ (if (zflag fr)
+ (skip 1)))
+ ()
+)
+
+(dni decszw_fr "Skip if W=fr-1 zero"
+ ()
+ "decsz W,$fr"
+ (+ OP6_DECSZ DIR_TO_W fr)
+ (sequence ()
+ (set w (sub fr 1))
+ (if (zflag w)
+ (skip 1)))
+ ()
+)
+
+(dni inc_fr "Increment fr"
+ ()
+ "inc $fr"
+ (+ OP6_INC DIR_NOTTO_W fr)
+ (sequence ((QI isLreg) (HI 16bval))
+ (LregCheck isLreg (ifield f-reg))
+ ;; If fr is an Lreg, then we have to do 16-bit arithmetic.
+ ;; We can take advantage of the fact that by a lucky
+ ;; coincidence, the address of register xxxH is always
+ ;; one lower than the address of register xxxL.
+ (if (eq isLreg #x1)
+ (sequence()
+ ; Create the 16 bit value
+ (set 16bval (reg h-spr (sub (ifield f-reg) 1)))
+ (set 16bval (sll 16bval 8))
+ (set 16bval (or 16bval (and (reg h-spr (ifield f-reg)) #xFF)))
+ ; New 16 bit instruction
+ (set 16bval (add HI 16bval 1))
+ ; Separate the 16 bit values into the H and L regs
+ (set (reg h-spr (ifield f-reg)) (and 16bval #xFF))
+ (set (reg h-spr (sub (ifield f-reg) 1))
+ (and (srl 16bval 8) #xFF))
+ (set fr (reg h-spr (ifield f-reg)))
+ )
+ ; Original instruction
+ (set fr (add fr 1))
+ )
+ (set zbit (zflag fr)))
+ ()
+)
+
+(dni incw_fr "Increment fr into w"
+ ()
+ "inc W,$fr"
+ (+ OP6_INC DIR_TO_W fr)
+ (sequence ()
+ (set w (add fr 1))
+ (set zbit (zflag w)))
+ ()
+)
+
+(dni not_fr "Invert fr"
+ ()
+ "not $fr"
+ (+ OP6_NOT DIR_NOTTO_W fr)
+ (sequence ()
+ (set fr (inv fr))
+ (set zbit (zflag fr)))
+ ()
+)
+
+(dni notw_fr "Invert fr into w"
+ ()
+ "not W,$fr"
+ (+ OP6_NOT DIR_TO_W fr)
+ (sequence ()
+ (set w (inv fr))
+ (set zbit (zflag w)))
+ ()
+)
+
+(dni test_fr "Test fr"
+ ()
+ "test $fr"
+ (+ OP6_TEST DIR_NOTTO_W fr)
+ (sequence ()
+ (set zbit (zflag fr)))
+ ()
+)
+
+(dni movw_l "MOV W,literal"
+ ()
+ "mov W,#$lit8"
+ (+ OP4_LITERAL OP4MID_MOV_L lit8)
+ (set w lit8)
+ ()
+)
+
+(dni movfr_w "Move/test w into fr"
+ ()
+ "mov $fr,W"
+ (+ OP6_OTHER1 DIR_NOTTO_W fr)
+ (set fr w)
+ ()
+)
+
+(dni movw_fr "Move/test fr into w"
+ ()
+ "mov W,$fr"
+ (+ OP6_TEST DIR_TO_W fr)
+ (sequence ()
+ (set w fr)
+ (set zbit (zflag w)))
+ ()
+)
+
+
+(dni addfr_w "Add fr,W"
+ ()
+ "add $fr,W"
+ (+ OP6_ADD DIR_NOTTO_W fr)
+ (sequence ((QI result) (QI isLreg) (HI 16bval))
+ (set cbit (add-cflag w fr 0))
+ (set dcbit (add-dcflag w fr 0))
+ (LregCheck isLreg (ifield f-reg))
+
+ ;; If fr is an Lreg, then we have to do 16-bit arithmetic.
+ ;; We can take advantage of the fact that by a lucky
+ ;; coincidence, the address of register xxxH is always
+ ;; one lower than the address of register xxxL.
+ (if (eq isLreg #x1)
+ (sequence()
+ (set 16bval (reg h-spr (sub (ifield f-reg) 1)))
+ (set 16bval (sll 16bval 8))
+ (set 16bval (or 16bval (and (reg h-spr (ifield f-reg)) #xFF)))
+ (set 16bval (add HI (and w #xFF) 16bval))
+ (set (reg h-spr (ifield f-reg)) (and 16bval #xFF))
+ (set (reg h-spr (sub (ifield f-reg) 1))
+ (and (srl 16bval 8) #xFF))
+ (set result (reg h-spr (ifield f-reg)))
+ )
+ (set result (addc w fr 0)) ;; else part
+ )
+ (set zbit (zflag result))
+ (set fr result))
+ ()
+)
+
+(dni addw_fr "Add W,fr"
+ ()
+ "add W,$fr"
+ (+ OP6_ADD DIR_TO_W fr)
+ (sequence ((QI result))
+ (set cbit (add-cflag w fr 0))
+ (set dcbit (add-dcflag w fr 0))
+ (set result (addc w fr 0))
+ (set zbit (zflag result))
+ (set w result))
+ ()
+)
+
+(dni xorfr_w "XOR fr,W"
+ ()
+ "xor $fr,W"
+ (+ OP6_XOR DIR_NOTTO_W fr)
+ (sequence ()
+ (set fr (xor w fr))
+ (set zbit (zflag fr)))
+ ()
+)
+
+(dni xorw_fr "XOR W,fr"
+ ()
+ "xor W,$fr"
+ (+ OP6_XOR DIR_TO_W fr)
+ (sequence ()
+ (set w (xor fr w))
+ (set zbit (zflag w)))
+ ()
+)
+
+(dni andfr_w "AND fr,W"
+ ()
+ "and $fr,W"
+ (+ OP6_AND DIR_NOTTO_W fr)
+ (sequence ()
+ (set fr (and w fr))
+ (set zbit (zflag fr)))
+ ()
+)
+
+(dni andw_fr "AND W,fr"
+ ()
+ "and W,$fr"
+ (+ OP6_AND DIR_TO_W fr)
+ (sequence ()
+ (set w (and fr w))
+ (set zbit (zflag w)))
+ ()
+)
+
+(dni orfr_w "OR fr,W"
+ ()
+ "or $fr,W"
+ (+ OP6_OR DIR_NOTTO_W fr)
+ (sequence ()
+ (set fr (or w fr))
+ (set zbit (zflag fr)))
+ ()
+)
+
+(dni orw_fr "OR W,fr"
+ ()
+ "or W,$fr"
+ (+ OP6_OR DIR_TO_W fr)
+ (sequence ()
+ (set w (or fr w))
+ (set zbit (zflag w)))
+ ()
+)
+
+(dni dec_fr "Decrement fr"
+ ()
+ "dec $fr"
+ (+ OP6_DEC DIR_NOTTO_W fr)
+ (sequence ((QI isLreg) (HI 16bval))
+ (LregCheck isLreg (ifield f-reg))
+ ;; If fr is an Lreg, then we have to do 16-bit arithmetic.
+ ;; We can take advantage of the fact that by a lucky
+ ;; coincidence, the address of register xxxH is always
+ ;; one lower than the address of register xxxL.
+ (if (eq isLreg #x1)
+ (sequence()
+ ; Create the 16 bit value
+ (set 16bval (reg h-spr (sub (ifield f-reg) 1)))
+ (set 16bval (sll 16bval 8))
+ (set 16bval (or 16bval (and (reg h-spr (ifield f-reg)) #xFF)))
+ ; New 16 bit instruction
+ (set 16bval (sub HI 16bval 1))
+ ; Separate the 16 bit values into the H and L regs
+ (set (reg h-spr (ifield f-reg)) (and 16bval #xFF))
+ (set (reg h-spr (sub (ifield f-reg) 1))
+ (and (srl 16bval 8) #xFF))
+ (set fr (reg h-spr (ifield f-reg)))
+ )
+ ; Original instruction
+ (set fr (sub fr 1))
+ )
+ (set zbit (zflag fr)))
+ ()
+)
+
+(dni decw_fr "Decrement fr into w"
+ ()
+ "dec W,$fr"
+ (+ OP6_DEC DIR_TO_W fr)
+ (sequence ()
+ (set w (sub fr 1))
+ (set zbit (zflag w)))
+ ()
+)
+
+(dni subfr_w "Sub fr,W"
+ ()
+ "sub $fr,W"
+ (+ OP6_SUB DIR_NOTTO_W fr)
+ (sequence ((QI result) (QI isLreg) (HI 16bval))
+ (set cbit (not (sub-cflag fr w 0)))
+ (set dcbit (not (sub-dcflag fr w 0)))
+ (LregCheck isLreg (ifield f-reg))
+ ;; If fr is an Lreg, then we have to do 16-bit arithmetic.
+ ;; We can take advantage of the fact that by a lucky
+ ;; coincidence, the address of register xxxH is always
+ ;; one lower than the address of register xxxL.
+ (if (eq isLreg #x1)
+ (sequence()
+ ; Create the 16 bit value
+ (set 16bval (reg h-spr (sub (ifield f-reg) 1)))
+ (set 16bval (sll 16bval 8))
+ (set 16bval (or 16bval (and (reg h-spr (ifield f-reg)) #xFF)))
+ ; New 16 bit instruction
+ (set 16bval (sub HI 16bval (and w #xFF)))
+ ; Separate the 16 bit values into the H and L regs
+ (set (reg h-spr (ifield f-reg)) (and 16bval #xFF))
+ (set (reg h-spr (sub (ifield f-reg) 1))
+ (and (srl 16bval 8) #xFF))
+ (set result (reg h-spr (ifield f-reg)))
+ )
+ ; Original instruction
+ (set result (subc fr w 0))
+ )
+ (set zbit (zflag result))
+ (set fr result))
+ ()
+)
+
+(dni subw_fr "Sub W,fr"
+ ()
+ "sub W,$fr"
+ (+ OP6_SUB DIR_TO_W fr)
+ (sequence ((QI result))
+ (set cbit (not (sub-cflag fr w 0)))
+ (set dcbit (not (sub-dcflag fr w 0)))
+ (set result (subc fr w 0))
+ (set zbit (zflag result))
+ (set w result))
+ ()
+)
+
+(dni clr_fr "Clear fr"
+ ()
+ "clr $fr"
+ (+ OP6_OTHER2 (f-dir 1) fr)
+ (sequence ()
+ (set fr 0)
+ (set zbit (zflag fr)))
+ ()
+)
+
+(dni cmpw_fr "CMP W,fr"
+ ()
+ "cmp W,$fr"
+ (+ OP6_OTHER2 (f-dir 0) fr)
+ (sequence ()
+ (set cbit (not (sub-cflag fr w 0)))
+ (set dcbit (not (sub-dcflag fr w 0)))
+ (set zbit (zflag (sub w fr))))
+ ()
+)
+
+(dni speed "Set speed"
+ ()
+ "speed #$lit8"
+ (+ (f-op8 1) lit8)
+ (set (reg h-registers #x0E) lit8)
+ ()
+)
+
+(dni ireadi "Insn memory read with increment"
+ ()
+ "ireadi"
+ (+ OP6_OTHER1 (f-op6-10low #x1D))
+ (c-call "do_insn_read")
+ ()
+)
+
+(dni iwritei "Insn memory write with increment"
+ ()
+ "iwritei"
+ (+ OP6_OTHER1 (f-op6-10low #x1C))
+ (c-call "do_insn_write")
+ ()
+)
+
+(dni fread "Flash read"
+ ()
+ "fread"
+ (+ OP6_OTHER1 (f-op6-10low #x1B))
+ (c-call "do_flash_read")
+ ()
+)
+
+(dni fwrite "Flash write"
+ ()
+ "fwrite"
+ (+ OP6_OTHER1 (f-op6-10low #x1A))
+ (c-call "do_flash_write")
+ ()
+)
+
+(dni iread "Insn memory read"
+ ()
+ "iread"
+ (+ OP6_OTHER1 (f-op6-10low #x19))
+ (c-call "do_insn_read")
+ ()
+)
+
+(dni iwrite "Insn memory write"
+ ()
+ "iwrite"
+ (+ OP6_OTHER1 (f-op6-10low #x18))
+ (c-call "do_insn_write")
+ ()
+)
+
+(dni page "Set insn page"
+ (EXT-SKIP-INSN)
+ ;"page $page3"
+ "page $addr16p"
+ ;(+ OP6_OTHER1 (f-op6-7low #x2) page3)
+ ;(set pabits (srl page3 13))
+ (+ OP6_OTHER1 (f-op6-7low #x2) addr16p)
+ (set pabits addr16p)
+ ()
+)
+
+(dni system "System call"
+ ()
+ "system"
+ (+ OP6_OTHER1 (f-op6-10low #xff))
+ (c-call "do_system")
+ ()
+)
+
+(dni reti "Return from interrupt"
+ ()
+ "reti #$reti3"
+ (+ OP6_OTHER1 (f-op6-7low #x1) reti3)
+ (c-call "do_reti" reti3)
+ ()
+)
+
+(dni ret "Return"
+ ()
+ "ret"
+ (+ OP6_OTHER1 (f-op6-10low #x07))
+ (sequence ((USI new_pc))
+ (set new_pc (c-call UHI "pop_pc_stack"))
+ (set pabits (srl new_pc 13))
+ (set pc new_pc))
+ ()
+)
+
+(dni int "Software interrupt"
+ ()
+ "int"
+ (+ OP6_OTHER1 (f-op6-10low #x6))
+ (nop)
+ ()
+)
+
+(dni breakx "Breakpoint with extended skip"
+ (EXT-SKIP-INSN)
+ "breakx"
+ (+ OP6_OTHER1 (f-op6-10low #x5))
+ (c-call "do_break" pc)
+ ()
+)
+
+(dni cwdt "Clear watchdog timer"
+ ()
+ "cwdt"
+ (+ OP6_OTHER1 (f-op6-10low #x4))
+ (c-call "do_clear_wdt")
+ ()
+)
+
+(dni ferase "Flash erase"
+ ()
+ "ferase"
+ (+ OP6_OTHER1 (f-op6-10low #x3))
+ (c-call "do_flash_erase")
+ ()
+)
+
+(dni retnp "Return, no page"
+ ()
+ "retnp"
+ (+ OP6_OTHER1 (f-op6-10low #x2))
+ (sequence ((USI new_pc))
+ (set new_pc (c-call UHI "pop_pc_stack"))
+ (set pc new_pc))
+ ()
+)
+
+(dni break "Breakpoint"
+ ()
+ "break"
+ (+ OP6_OTHER1 (f-op6-10low #x1))
+ (c-call "do_break" pc)
+ ()
+)
+
+(dni nop "No operation"
+ ()
+ "nop"
+ (+ OP6_OTHER1 (f-op6-10low #x0))
+ (nop)
+ ()
+)
+
+
+; Macro instructions
+(dnmi sc "Skip on carry"
+ ()
+ "sc"
+ (emit sb (bitno 0) (fr #xB)) ; sb status.0
+)
+
+(dnmi snc "Skip on no carry"
+ ()
+ "snc"
+ (emit snb (bitno 0) (fr #xB)) ; snb status.0
+)
+
+(dnmi sz "Skip on zero"
+ ()
+ "sz"
+ (emit sb (bitno 2) (fr #xB)) ; sb status.2
+)
+
+(dnmi snz "Skip on no zero"
+ ()
+ "snz"
+ (emit snb (bitno 2) (fr #xB)) ; snb status.2
+)
+
+(dnmi skip "Skip always"
+ (SKIPA)
+ "skip"
+ (emit snb (bitno 0) (fr 9)) ; snb pcl.0 | (pcl&1)<<12
+)
+
+(dnmi skipb "Skip always"
+ (SKIPA)
+ "skip"
+ (emit sb (bitno 0) (fr 9)) ; sb pcl.0 | (pcl&1)<<12
+)
+
--- /dev/null
+/* IP2K opcode support. -*- C -*-
+ Copyright 2002, 2005, 2011 Free Software Foundation, Inc.
+
+ Contributed by Red Hat Inc;
+
+ This file is part of the GNU Binutils.
+
+ This program is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 3 of the License, or
+ (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+ MA 02110-1301, USA. */
+
+/*
+ Each section is delimited with start and end markers.
+
+ <arch>-opc.h additions use: "-- opc.h"
+ <arch>-opc.c additions use: "-- opc.c"
+ <arch>-asm.c additions use: "-- asm.c"
+ <arch>-dis.c additions use: "-- dis.c"
+ <arch>-ibd.h additions use: "-- ibd.h". */
+\f
+/* -- opc.h */
+
+/* Check applicability of instructions against machines. */
+#define CGEN_VALIDATE_INSN_SUPPORTED
+
+/* Allows reason codes to be output when assembler errors occur. */
+#define CGEN_VERBOSE_ASSEMBLER_ERRORS
+
+/* Override disassembly hashing - there are variable bits in the top
+ byte of these instructions. */
+#define CGEN_DIS_HASH_SIZE 8
+#define CGEN_DIS_HASH(buf, value) \
+ (((* (unsigned char*) (buf)) >> 5) % CGEN_DIS_HASH_SIZE)
+
+#define CGEN_ASM_HASH_SIZE 127
+#define CGEN_ASM_HASH(insn) ip2k_asm_hash (insn)
+
+extern unsigned int ip2k_asm_hash (const char *);
+extern int ip2k_cgen_insn_supported (CGEN_CPU_DESC, const CGEN_INSN *);
+\f
+/* -- opc.c */
+
+#include "safe-ctype.h"
+
+/* A better hash function for instruction mnemonics. */
+unsigned int
+ip2k_asm_hash (const char* insn)
+{
+ unsigned int hash;
+ const char* m = insn;
+
+ for (hash = 0; *m && ! ISSPACE (*m); m++)
+ hash = (hash * 23) ^ (0x1F & TOLOWER (*m));
+
+ /* printf ("%s %d\n", insn, (hash % CGEN_ASM_HASH_SIZE)); */
+
+ return hash % CGEN_ASM_HASH_SIZE;
+}
+
+
+/* Special check to ensure that instruction exists for given machine. */
+
+int
+ip2k_cgen_insn_supported (CGEN_CPU_DESC cd, const CGEN_INSN *insn)
+{
+ int machs = CGEN_INSN_ATTR_VALUE (insn, CGEN_INSN_MACH);
+
+ /* No mach attribute? Assume it's supported for all machs. */
+ if (machs == 0)
+ return 1;
+
+ return (machs & cd->machs) != 0;
+}
+
+\f
+/* -- asm.c */
+
+static const char *
+parse_fr (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ const char *errmsg;
+ const char *old_strp;
+ char *afteroffset;
+ enum cgen_parse_operand_result result_type;
+ bfd_vma value;
+ extern CGEN_KEYWORD ip2k_cgen_opval_register_names;
+ bfd_vma tempvalue;
+
+ old_strp = *strp;
+ afteroffset = NULL;
+
+ /* Check here to see if you're about to try parsing a w as the first arg
+ and return an error if you are. */
+ if ((strncmp (*strp, "w", 1) == 0) || (strncmp (*strp, "W", 1) == 0))
+ {
+ (*strp)++;
+
+ if ((strncmp (*strp, ",", 1) == 0) || ISSPACE (**strp))
+ {
+ /* We've been passed a w. Return with an error message so that
+ cgen will try the next parsing option. */
+ errmsg = _("W keyword invalid in FR operand slot.");
+ return errmsg;
+ }
+ *strp = old_strp;
+ }
+
+ /* Attempt parse as register keyword. */
+ errmsg = cgen_parse_keyword (cd, strp, & ip2k_cgen_opval_register_names,
+ (long *) valuep);
+ if (*strp != NULL
+ && errmsg == NULL)
+ return errmsg;
+
+ /* Attempt to parse for "(IP)". */
+ afteroffset = strstr (*strp, "(IP)");
+
+ if (afteroffset == NULL)
+ /* Make sure it's not in lower case. */
+ afteroffset = strstr (*strp, "(ip)");
+
+ if (afteroffset != NULL)
+ {
+ if (afteroffset != *strp)
+ {
+ /* Invalid offset present. */
+ errmsg = _("offset(IP) is not a valid form");
+ return errmsg;
+ }
+ else
+ {
+ *strp += 4;
+ *valuep = 0;
+ errmsg = NULL;
+ return errmsg;
+ }
+ }
+
+ /* Attempt to parse for DP. ex: mov w, offset(DP)
+ mov offset(DP),w */
+
+ /* Try parsing it as an address and see what comes back. */
+ afteroffset = strstr (*strp, "(DP)");
+
+ if (afteroffset == NULL)
+ /* Maybe it's in lower case. */
+ afteroffset = strstr (*strp, "(dp)");
+
+ if (afteroffset != NULL)
+ {
+ if (afteroffset == *strp)
+ {
+ /* No offset present. Use 0 by default. */
+ tempvalue = 0;
+ errmsg = NULL;
+ }
+ else
+ errmsg = cgen_parse_address (cd, strp, opindex,
+ BFD_RELOC_IP2K_FR_OFFSET,
+ & result_type, & tempvalue);
+
+ if (errmsg == NULL)
+ {
+ if (tempvalue <= 127)
+ {
+ /* Value is ok. Fix up the first 2 bits and return. */
+ *valuep = 0x0100 | tempvalue;
+ *strp += 4; /* Skip over the (DP) in *strp. */
+ return errmsg;
+ }
+ else
+ {
+ /* Found something there in front of (DP) but it's out
+ of range. */
+ errmsg = _("(DP) offset out of range.");
+ return errmsg;
+ }
+ }
+ }
+
+
+ /* Attempt to parse for SP. ex: mov w, offset(SP)
+ mov offset(SP), w. */
+ afteroffset = strstr (*strp, "(SP)");
+
+ if (afteroffset == NULL)
+ /* Maybe it's in lower case. */
+ afteroffset = strstr (*strp, "(sp)");
+
+ if (afteroffset != NULL)
+ {
+ if (afteroffset == *strp)
+ {
+ /* No offset present. Use 0 by default. */
+ tempvalue = 0;
+ errmsg = NULL;
+ }
+ else
+ errmsg = cgen_parse_address (cd, strp, opindex,
+ BFD_RELOC_IP2K_FR_OFFSET,
+ & result_type, & tempvalue);
+
+ if (errmsg == NULL)
+ {
+ if (tempvalue <= 127)
+ {
+ /* Value is ok. Fix up the first 2 bits and return. */
+ *valuep = 0x0180 | tempvalue;
+ *strp += 4; /* Skip over the (SP) in *strp. */
+ return errmsg;
+ }
+ else
+ {
+ /* Found something there in front of (SP) but it's out
+ of range. */
+ errmsg = _("(SP) offset out of range.");
+ return errmsg;
+ }
+ }
+ }
+
+ /* Attempt to parse as an address. */
+ *strp = old_strp;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_IP2K_FR9,
+ & result_type, & value);
+ if (errmsg == NULL)
+ {
+ *valuep = value;
+
+ /* If a parenthesis is found, warn about invalid form. */
+ if (**strp == '(')
+ errmsg = _("illegal use of parentheses");
+
+ /* If a numeric value is specified, ensure that it is between
+ 1 and 255. */
+ else if (result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER)
+ {
+ if (value < 0x1 || value > 0xff)
+ errmsg = _("operand out of range (not between 1 and 255)");
+ }
+ }
+ return errmsg;
+}
+
+static const char *
+parse_addr16 (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ const char *errmsg;
+ enum cgen_parse_operand_result result_type;
+ bfd_reloc_code_real_type code = BFD_RELOC_NONE;
+ bfd_vma value;
+
+ if (opindex == (CGEN_OPERAND_TYPE) IP2K_OPERAND_ADDR16H)
+ code = BFD_RELOC_IP2K_HI8DATA;
+ else if (opindex == (CGEN_OPERAND_TYPE) IP2K_OPERAND_ADDR16L)
+ code = BFD_RELOC_IP2K_LO8DATA;
+ else
+ {
+ /* Something is very wrong. opindex has to be one of the above. */
+ errmsg = _("parse_addr16: invalid opindex.");
+ return errmsg;
+ }
+
+ errmsg = cgen_parse_address (cd, strp, opindex, code,
+ & result_type, & value);
+ if (errmsg == NULL)
+ {
+ /* We either have a relocation or a number now. */
+ if (result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER)
+ {
+ /* We got a number back. */
+ if (code == BFD_RELOC_IP2K_HI8DATA)
+ value >>= 8;
+ else
+ /* code = BFD_RELOC_IP2K_LOW8DATA. */
+ value &= 0x00FF;
+ }
+ *valuep = value;
+ }
+
+ return errmsg;
+}
+
+static const char *
+parse_addr16_cjp (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ const char *errmsg;
+ enum cgen_parse_operand_result result_type;
+ bfd_reloc_code_real_type code = BFD_RELOC_NONE;
+ bfd_vma value;
+
+ if (opindex == (CGEN_OPERAND_TYPE) IP2K_OPERAND_ADDR16CJP)
+ code = BFD_RELOC_IP2K_ADDR16CJP;
+ else if (opindex == (CGEN_OPERAND_TYPE) IP2K_OPERAND_ADDR16P)
+ code = BFD_RELOC_IP2K_PAGE3;
+
+ errmsg = cgen_parse_address (cd, strp, opindex, code,
+ & result_type, & value);
+ if (errmsg == NULL)
+ {
+ if (result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER)
+ {
+ if ((value & 0x1) == 0) /* If the address is even .... */
+ {
+ if (opindex == (CGEN_OPERAND_TYPE) IP2K_OPERAND_ADDR16CJP)
+ *valuep = (value >> 1) & 0x1FFF; /* Should mask be 1FFF? */
+ else if (opindex == (CGEN_OPERAND_TYPE) IP2K_OPERAND_ADDR16P)
+ *valuep = (value >> 14) & 0x7;
+ }
+ else
+ errmsg = _("Byte address required. - must be even.");
+ }
+ else if (result_type == CGEN_PARSE_OPERAND_RESULT_QUEUED)
+ {
+ /* This will happen for things like (s2-s1) where s2 and s1
+ are labels. */
+ *valuep = value;
+ }
+ else
+ errmsg = _("cgen_parse_address returned a symbol. Literal required.");
+ }
+ return errmsg;
+}
+
+static const char *
+parse_lit8 (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ long *valuep)
+{
+ const char *errmsg;
+ enum cgen_parse_operand_result result_type;
+ bfd_reloc_code_real_type code = BFD_RELOC_NONE;
+ bfd_vma value;
+
+ /* Parse %OP relocating operators. */
+ if (strncmp (*strp, "%bank", 5) == 0)
+ {
+ *strp += 5;
+ code = BFD_RELOC_IP2K_BANK;
+ }
+ else if (strncmp (*strp, "%lo8data", 8) == 0)
+ {
+ *strp += 8;
+ code = BFD_RELOC_IP2K_LO8DATA;
+ }
+ else if (strncmp (*strp, "%hi8data", 8) == 0)
+ {
+ *strp += 8;
+ code = BFD_RELOC_IP2K_HI8DATA;
+ }
+ else if (strncmp (*strp, "%ex8data", 8) == 0)
+ {
+ *strp += 8;
+ code = BFD_RELOC_IP2K_EX8DATA;
+ }
+ else if (strncmp (*strp, "%lo8insn", 8) == 0)
+ {
+ *strp += 8;
+ code = BFD_RELOC_IP2K_LO8INSN;
+ }
+ else if (strncmp (*strp, "%hi8insn", 8) == 0)
+ {
+ *strp += 8;
+ code = BFD_RELOC_IP2K_HI8INSN;
+ }
+
+ /* Parse %op operand. */
+ if (code != BFD_RELOC_NONE)
+ {
+ errmsg = cgen_parse_address (cd, strp, opindex, code,
+ & result_type, & value);
+ if ((errmsg == NULL) &&
+ (result_type != CGEN_PARSE_OPERAND_RESULT_QUEUED))
+ errmsg = _("percent-operator operand is not a symbol");
+
+ *valuep = value;
+ }
+ /* Parse as a number. */
+ else
+ {
+ errmsg = cgen_parse_signed_integer (cd, strp, opindex, valuep);
+
+ /* Truncate to eight bits to accept both signed and unsigned input. */
+ if (errmsg == NULL)
+ *valuep &= 0xFF;
+ }
+
+ return errmsg;
+}
+
+static const char *
+parse_bit3 (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ const char *errmsg;
+ char mode = 0;
+ long count = 0;
+ unsigned long value;
+
+ if (strncmp (*strp, "%bit", 4) == 0)
+ {
+ *strp += 4;
+ mode = 1;
+ }
+ else if (strncmp (*strp, "%msbbit", 7) == 0)
+ {
+ *strp += 7;
+ mode = 1;
+ }
+ else if (strncmp (*strp, "%lsbbit", 7) == 0)
+ {
+ *strp += 7;
+ mode = 2;
+ }
+
+ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, valuep);
+ if (errmsg)
+ return errmsg;
+
+ if (mode)
+ {
+ value = * valuep;
+ if (value == 0)
+ {
+ errmsg = _("Attempt to find bit index of 0");
+ return errmsg;
+ }
+
+ if (mode == 1)
+ {
+ count = 31;
+ while ((value & 0x80000000) == 0)
+ {
+ count--;
+ value <<= 1;
+ }
+ }
+ else if (mode == 2)
+ {
+ count = 0;
+ while ((value & 0x00000001) == 0)
+ {
+ count++;
+ value >>= 1;
+ }
+ }
+
+ *valuep = count;
+ }
+
+ return errmsg;
+}
+
+/* -- dis.c */
+
+static void
+print_fr (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+ const CGEN_KEYWORD_ENTRY *ke;
+ extern CGEN_KEYWORD ip2k_cgen_opval_register_names;
+ long offsettest;
+ long offsetvalue;
+
+ if (value == 0) /* This is (IP). */
+ {
+ (*info->fprintf_func) (info->stream, "%s", "(IP)");
+ return;
+ }
+
+ offsettest = value >> 7;
+ offsetvalue = value & 0x7F;
+
+ /* Check to see if first two bits are 10 -> (DP). */
+ if (offsettest == 2)
+ {
+ if (offsetvalue == 0)
+ (*info->fprintf_func) (info->stream, "%s","(DP)");
+ else
+ (*info->fprintf_func) (info->stream, "$%lx%s", offsetvalue, "(DP)");
+ return;
+ }
+
+ /* Check to see if first two bits are 11 -> (SP). */
+ if (offsettest == 3)
+ {
+ if (offsetvalue == 0)
+ (*info->fprintf_func) (info->stream, "%s", "(SP)");
+ else
+ (*info->fprintf_func) (info->stream, "$%lx%s", offsetvalue,"(SP)");
+ return;
+ }
+
+ /* Attempt to print as a register keyword. */
+ ke = cgen_keyword_lookup_value (& ip2k_cgen_opval_register_names, value);
+
+ if (ke != NULL)
+ (*info->fprintf_func) (info->stream, "%s", ke->name);
+ else
+ /* Print as an address literal. */
+ (*info->fprintf_func) (info->stream, "$%02lx", value);
+}
+
+static void
+print_dollarhex (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+
+ (*info->fprintf_func) (info->stream, "$%lx", value);
+}
+
+static void
+print_dollarhex8 (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+
+ (*info->fprintf_func) (info->stream, "$%02lx", value);
+}
+
+static void
+print_dollarhex_addr16h (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+
+ /* This is a loadh instruction. Shift the value to the left
+ by 8 bits so that disassembled code will reassemble properly. */
+ value = ((value << 8) & 0xFF00);
+
+ (*info->fprintf_func) (info->stream, "$%04lx", value);
+}
+
+static void
+print_dollarhex_addr16l (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+
+ (*info->fprintf_func) (info->stream, "$%04lx", value);
+}
+
+static void
+print_dollarhex_p (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+
+ value = ((value << 14) & 0x1C000);
+ ;value = (value & 0x1FFFF);
+ (*info->fprintf_func) (info->stream, "$%05lx", value);
+}
+
+static void
+print_dollarhex_cj (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+
+ value = ((value << 1) & 0x1FFFF);
+ (*info->fprintf_func) (info->stream, "$%05lx", value);
+}
+
+static void
+print_decimal (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED,
+ void * dis_info,
+ long value,
+ unsigned int attrs ATTRIBUTE_UNUSED,
+ bfd_vma pc ATTRIBUTE_UNUSED,
+ int length ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+
+ (*info->fprintf_func) (info->stream, "%ld", value);
+}
+
+
+
+/* -- */
+
--- /dev/null
+; Toshiba MeP AVC Coprocessor description. -*- Scheme -*-
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+; This file was customized based upon the output of a2cgen 0.42
+
+;------------------------------------------------------------------------------
+; MeP-Integrator will redefine the isa pmacros below to allow the bit widths
+; specified below for each ME_MODULE using this coprocessor.
+; This coprocessor requires 16 and 32 bit insns.
+;------------------------------------------------------------------------------
+; begin-isas
+(define-pmacro avc-core-isa () (ISA ext_core1))
+(define-pmacro avc-16-isa () (ISA ext_cop1_16))
+(define-pmacro avc-32-isa () (ISA ext_cop1_32))
+(define-pmacro all-avc-isas () (ISA ext_core1,ext_cop1_16,ext_cop1_32))
+; end-isas
+
+(define-pmacro (dncpi xname xcomment xattrs xsyntax xformat xsemantics xtiming)
+ (dni xname xcomment (.splice (.unsplice xattrs) avc-core-isa) xsyntax xformat xsemantics xtiming))
+(define-pmacro (dn16i xname xcomment xattrs xsyntax xformat xsemantics xtiming)
+ (dni xname xcomment (.splice (.unsplice xattrs) avc-16-isa) xsyntax xformat xsemantics xtiming))
+(define-pmacro (dn32i xname xcomment xattrs xsyntax xformat xsemantics xtiming)
+ (dni xname xcomment (.splice (.unsplice xattrs) avc-32-isa) xsyntax xformat xsemantics xtiming))
+
+; register definitions
+; ---------------------
+; NOTE: This exists solely for the purpose of providing the proper register names for this coprocessor.
+; GDB will use the hardware table generated from this declaration. The operands use h-cr
+; from mep-core.cpu so that SID's semantic trace will be consistent between
+; the core and the coprocessor but use parse/print handlers which reference the hardware table
+; generated from this declarations
+(define-hardware
+ (name h-cr-avc)
+ (comment "32-bit coprocessor registers for avc coprocessor")
+ (attrs VIRTUAL all-avc-isas)
+ (type register SI (32))
+ (set (index newval) (c-call VOID "h_cr64_set" index (ext DI newval)))
+ (get (index) (trunc SI (c-call DI "h_cr64_get" index)))
+ (indices keyword "$c" (.map -reg-pair (.iota 8)))
+)
+; NOTE: This exists solely for the purpose of providing the proper register names for this coprocessor.
+; GDB will use the hardware table generated from this declaration. The operands use h-ccr
+; from mep-core.cpu so that SID's semantic trace will be consistent between
+; the core and the coprocessor but use parse/print handlers which reference the hardware table
+; generated from this declarations
+(define-hardware
+ (name h-ccr-avc)
+ (comment "Coprocessor control registers for avc coprocessor")
+ (attrs VIRTUAL all-avc-isas)
+ (type register SI (64))
+ (set (index newval) (c-call VOID "h_ccr_set" index newval))
+ (get (index) (c-call SI "h_ccr_get" index))
+ (indices keyword ""
+ (.splice
+ ($accl1 5) ($acch1 4) ($accl0 3) ($acch0 2) ($CBCR 1) ($csar 0)
+ ($cbcr 1)
+ (.unsplice (.map -ccr-reg-pair (.iota 6)))
+ )
+ )
+)
+(dnop avccopCCR5 "Audio Copro Accumulator" (all-avc-isas) h-ccr 5)
+(dnop avccopCCR4 "Audio Copro Accumulator" (all-avc-isas) h-ccr 4)
+(dnop avccopCCR3 "Audio Copro Accumulator" (all-avc-isas) h-ccr 3)
+(dnop avccopCCR2 "Audio Copro Accumulator" (all-avc-isas) h-ccr 2)
+(dnop avccopCCR1 "Audio Copro Branch Condition Register" (all-avc-isas) h-ccr 1)
+(dnop avccopCCR0 "Audio Copro Shift-Amount Register" (all-avc-isas) h-ccr 0)
+
+; instruction field and operand definitions
+(dnf f-avc-v3sub4u0 "sub opecode field" (avc-32-isa) 0 4)
+(dnf f-avc-v1sub4u0 "sub opecode field" (avc-16-isa) 0 4)
+(dnf f-avc-v3Rn "register field" (avc-32-isa) 4 4)
+(dnop avcv3Rn "the operand definition" (avc-32-isa) h-gpr f-avc-v3Rn)
+(dnf f-avc-v3CCRn "register field" (avc-32-isa) 4 4)
+(define-full-operand avcv3CCRn "the operand definition" (avc-32-isa (CDATA REGNUM)) h-ccr DFLT f-avc-v3CCRn ( (parse "avc_ccr") (print "avc_ccr")) () ())
+(df f-avc-v3Imm16s4x24e32-hi "split immediate field hi" (avc-32-isa) 4 8 INT #f #f)
+(df f-avc-v3Imm16s4x24e32-lo "split immediate field lo" (avc-32-isa) 24 8 UINT #f #f)
+(define-multi-ifield
+ (name f-avc-v3Imm16s4x24e32)
+ (comment "split immediate field")
+ (attrs avc-32-isa)
+ (mode INT)
+ (subfields f-avc-v3Imm16s4x24e32-hi f-avc-v3Imm16s4x24e32-lo)
+ (insert (sequence ()
+ (set (ifield f-avc-v3Imm16s4x24e32-hi) (sra INT (ifield f-avc-v3Imm16s4x24e32) 8))
+ (set (ifield f-avc-v3Imm16s4x24e32-lo) (and (ifield f-avc-v3Imm16s4x24e32) #xff))))
+ (extract (set (ifield f-avc-v3Imm16s4x24e32)
+ (or (sll (ifield f-avc-v3Imm16s4x24e32-hi) 8) (ifield f-avc-v3Imm16s4x24e32-lo))))
+ )
+(dnop avcv3Imm16s4x24e32 "the operand definition" (avc-32-isa) h-sint f-avc-v3Imm16s4x24e32)
+(dnf f-avc-v3CRn "register field" (avc-32-isa) 4 4)
+(define-full-operand avcv3CRn "the operand definition" (avc-32-isa) h-cr DFLT f-avc-v3CRn ((parse "avc_cr") (print "avc_cr")) () ())
+(dnf f-avc-v1CRq "register field" (avc-16-isa) 4 4)
+(define-full-operand avcv1CRq "the operand definition" (avc-16-isa) h-cr DFLT f-avc-v1CRq ((parse "avc_cr") (print "avc_cr")) () ())
+(dnf f-avc-v1sub4u4 "sub opecode field" (avc-16-isa) 4 4)
+(dnf f-avc-c3Rn "register field" (avc-core-isa) 4 4)
+(dnop avcc3Rn "the operand definition" (avc-core-isa) h-gpr f-avc-c3Rn)
+(dnf f-avc-c3CCRn "register field" (avc-core-isa) 4 4)
+(define-full-operand avcc3CCRn "the operand definition" (avc-core-isa (CDATA REGNUM)) h-ccr DFLT f-avc-c3CCRn ( (parse "avc_ccr") (print "avc_ccr")) () ())
+(df f-avc-c3Imm16s4x24e32-hi "split immediate field hi" (avc-core-isa) 4 8 INT #f #f)
+(df f-avc-c3Imm16s4x24e32-lo "split immediate field lo" (avc-core-isa) 24 8 UINT #f #f)
+(define-multi-ifield
+ (name f-avc-c3Imm16s4x24e32)
+ (comment "split immediate field")
+ (attrs avc-core-isa)
+ (mode INT)
+ (subfields f-avc-c3Imm16s4x24e32-hi f-avc-c3Imm16s4x24e32-lo)
+ (insert (sequence ()
+ (set (ifield f-avc-c3Imm16s4x24e32-hi) (sra INT (ifield f-avc-c3Imm16s4x24e32) 8))
+ (set (ifield f-avc-c3Imm16s4x24e32-lo) (and (ifield f-avc-c3Imm16s4x24e32) #xff))))
+ (extract (set (ifield f-avc-c3Imm16s4x24e32)
+ (or (sll (ifield f-avc-c3Imm16s4x24e32-hi) 8) (ifield f-avc-c3Imm16s4x24e32-lo))))
+ )
+(dnop avcc3Imm16s4x24e32 "the operand definition" (avc-core-isa) h-sint f-avc-c3Imm16s4x24e32)
+(dnf f-avc-c3CRn "register field" (avc-core-isa) 4 4)
+(define-full-operand avcc3CRn "the operand definition" (avc-core-isa) h-cr DFLT f-avc-c3CRn ((parse "avc_cr") (print "avc_cr")) () ())
+(dnf f-avc-c3sub4u4 "sub opecode field" (avc-core-isa) 4 4)
+(dnf f-avc-v3Rm "register field" (avc-32-isa) 8 4)
+(dnop avcv3Rm "the operand definition" (avc-32-isa) h-gpr f-avc-v3Rm)
+(df f-avc-v1Imm5u8 "immediate field" (avc-16-isa) 8 5 UINT #f #f)
+(dnop avcv1Imm5u8 "the operand definition" (avc-16-isa) h-uint f-avc-v1Imm5u8)
+(df f-avc-v1Imm6s8 "immediate field" (avc-16-isa) 8 6 INT #f #f)
+(dnop avcv1Imm6s8 "the operand definition" (avc-16-isa) h-sint f-avc-v1Imm6s8)
+(df f-avc-v1Imm8s8 "immediate field" (avc-16-isa) 8 8 INT #f #f)
+(dnop avcv1Imm8s8 "the operand definition" (avc-16-isa) h-sint f-avc-v1Imm8s8)
+(dnf f-avc-v1CRp "register field" (avc-16-isa) 8 4)
+(define-full-operand avcv1CRp "the operand definition" (avc-16-isa) h-cr DFLT f-avc-v1CRp ((parse "avc_cr") (print "avc_cr")) () ())
+(dnf f-avc-v1sub4u8 "sub opecode field" (avc-16-isa) 8 4)
+(dnf f-avc-c3Rm "register field" (avc-core-isa) 8 4)
+(dnop avcc3Rm "the operand definition" (avc-core-isa) h-gpr f-avc-c3Rm)
+(dnf f-avc-c3sub4u8 "sub opecode field" (avc-core-isa) 8 4)
+(dnf f-avc-v3sub4u12 "sub opecode field" (avc-32-isa) 12 4)
+(dnf f-avc-v1CRo "register field" (avc-16-isa) 12 4)
+(define-full-operand avcv1CRo "the operand definition" (avc-16-isa) h-cr DFLT f-avc-v1CRo ((parse "avc_cr") (print "avc_cr")) () ())
+(dnf f-avc-v1sub4u12 "sub opecode field" (avc-16-isa) 12 4)
+(dnf f-avc-v1sub3u13 "sub opecode field" (avc-16-isa) 13 3)
+(dnf f-avc-v1sub2u14 "sub opecode field" (avc-16-isa) 14 2)
+(dnf f-avc-v3sub4u16 "sub opecode field" (avc-32-isa) 16 4)
+(dnf f-avc-c3sub4u16 "sub opecode field" (avc-core-isa) 16 4)
+(dnf f-avc-v3CRq "register field" (avc-32-isa) 20 4)
+(define-full-operand avcv3CRq "the operand definition" (avc-32-isa) h-cr DFLT f-avc-v3CRq ((parse "avc_cr") (print "avc_cr")) () ())
+(dnf f-avc-v3sub4u20 "sub opecode field" (avc-32-isa) 20 4)
+(dnf f-avc-c3CRq "register field" (avc-core-isa) 20 4)
+(define-full-operand avcc3CRq "the operand definition" (avc-core-isa) h-cr DFLT f-avc-c3CRq ((parse "avc_cr") (print "avc_cr")) () ())
+(dnf f-avc-c3sub4u20 "sub opecode field" (avc-core-isa) 20 4)
+(dnf f-avc-v3sub4u24 "sub opecode field" (avc-32-isa) 24 4)
+(df f-avc-c3Imm5u24 "immediate field" (avc-core-isa) 24 5 UINT #f #f)
+(dnop avcc3Imm5u24 "the operand definition" (avc-core-isa) h-uint f-avc-c3Imm5u24)
+(df f-avc-c3Imm6s24 "immediate field" (avc-core-isa) 24 6 INT #f #f)
+(dnop avcc3Imm6s24 "the operand definition" (avc-core-isa) h-sint f-avc-c3Imm6s24)
+(dnf f-avc-c3CRp "register field" (avc-core-isa) 24 4)
+(define-full-operand avcc3CRp "the operand definition" (avc-core-isa) h-cr DFLT f-avc-c3CRp ((parse "avc_cr") (print "avc_cr")) () ())
+(dnf f-avc-c3sub4u24 "sub opecode field" (avc-core-isa) 24 4)
+(dnf f-avc-v3sub4u28 "sub opecode field" (avc-32-isa) 28 4)
+(dnf f-avc-c3CRo "register field" (avc-core-isa) 28 4)
+(define-full-operand avcc3CRo "the operand definition" (avc-core-isa) h-cr DFLT f-avc-c3CRo ((parse "avc_cr") (print "avc_cr")) () ())
+(dnf f-avc-c3sub4u28 "sub opecode field" (avc-core-isa) 28 4)
+(dnf f-avc-c3sub3u29 "sub opecode field" (avc-core-isa) 29 3)
+(dnf f-avc-c3sub2u30 "sub opecode field" (avc-core-isa) 30 2)
+
+; instruction definitions
+(dncpi cnop_avc_c3 "cnop" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cnop"))
+ "cnop"
+(+ MAJ_15 (f-sub4 7) (f-avc-c3sub4u28 #x0) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(c-call "check_option_cp" pc)
+ ())
+(dncpi cmov1_avc_c3 "cmov1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmov1"))
+ "cmov $avcc3CRn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3CRn avcc3Rm (f-avc-c3sub4u28 #x0) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRn avcc3Rm)
+)
+ ())
+(dncpi cmov2_avc_c3 "cmov2" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmov2"))
+ "cmov $avcc3Rm,$avcc3CRn"
+(+ MAJ_15 (f-sub4 7) avcc3Rm avcc3CRn (f-avc-c3sub4u28 #x1) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3Rm avcc3CRn)
+)
+ ())
+(dncpi cmovi_avc_c3 "cmovi" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmovi"))
+ "cmovi $avcc3CRq,$avcc3Imm16s4x24e32"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3Imm16s4x24e32 (f-avc-c3sub4u16 #xe))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (ext SI avcc3Imm16s4x24e32))
+)
+ ())
+(dncpi cmovc1_avc_c3 "cmovc1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmovc1"))
+ "cmovc $avcc3CCRn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3CCRn avcc3Rm (f-avc-c3sub4u28 #x2) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CCRn avcc3Rm)
+)
+ ())
+(dncpi cmovc2_avc_c3 "cmovc2" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmovc2"))
+ "cmovc $avcc3Rm,$avcc3CCRn"
+(+ MAJ_15 (f-sub4 7) avcc3Rm avcc3CCRn (f-avc-c3sub4u28 #x3) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3Rm avcc3CCRn)
+)
+ ())
+(dncpi cmov_avc_c3 "cmov" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmov"))
+ "cmov $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x3) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq avcc3CRp)
+)
+ ())
+(dncpi cadd3_avc_c3 "cadd3" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cadd3"))
+ "cadd3 $avcc3CRo,$avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRo avcc3CRq avcc3CRp (f-avc-c3sub4u16 #x3) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRo (add avcc3CRq avcc3CRp))
+)
+ ())
+(dncpi caddi_avc_c3 "caddi" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "caddi"))
+ "caddi $avcc3CRq,$avcc3Imm6s24"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3Imm6s24 (f-avc-c3sub2u30 #x0) (f-avc-c3sub4u16 #x1) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (add avcc3CRq (ext SI avcc3Imm6s24)))
+)
+ ())
+(dncpi csub_avc_c3 "csub" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csub"))
+ "csub $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x2) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (sub avcc3CRq avcc3CRp))
+)
+ ())
+(dncpi cneg_avc_c3 "cneg" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cneg"))
+ "cneg $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x1) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (neg avcc3CRp))
+)
+ ())
+(dncpi cextb_avc_c3 "cextb" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cextb"))
+ "cextb $avcc3CRq"
+(+ MAJ_15 (f-sub4 7) avcc3CRq (f-avc-c3sub4u28 #x9) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (ext SI (and QI (srl avcc3CRq 0) #xff)))
+)
+ ())
+(dncpi cexth_avc_c3 "cexth" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cexth"))
+ "cexth $avcc3CRq"
+(+ MAJ_15 (f-sub4 7) avcc3CRq (f-avc-c3sub4u28 #x9) (f-avc-c3sub4u24 #x2) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (ext SI (and HI (srl avcc3CRq 0) #xffff)))
+)
+ ())
+(dncpi cextub_avc_c3 "cextub" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cextub"))
+ "cextub $avcc3CRq"
+(+ MAJ_15 (f-sub4 7) avcc3CRq (f-avc-c3sub4u28 #x9) (f-avc-c3sub4u24 #x8) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (zext SI (and QI (srl avcc3CRq 0) #xff)))
+)
+ ())
+(dncpi cextuh_avc_c3 "cextuh" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cextuh"))
+ "cextuh $avcc3CRq"
+(+ MAJ_15 (f-sub4 7) avcc3CRq (f-avc-c3sub4u28 #x9) (f-avc-c3sub4u24 #xa) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (zext SI (and HI (srl avcc3CRq 0) #xffff)))
+)
+ ())
+(dncpi cscltz_avc_c3 "cscltz" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cscltz"))
+ "cscltz $avcc3CRq"
+(+ MAJ_15 (f-sub4 7) avcc3CRq (f-avc-c3sub4u28 #xa) (f-avc-c3sub4u24 #xa) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (lt (ext SI avcc3CRq) (ext SI 0)) (set avccopCCR1 (or (sll (srl avccopCCR1 1) 1) (srl (sll (zext SI 1) 31) 31)))
+(set avccopCCR1 (or (sll (srl avccopCCR1 1) 1) (srl (sll (zext SI 0) 31) 31)))
+)
+)
+ ())
+(dncpi cldz_avc_c3 "cldz" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cldz"))
+ "cldz $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x0) (f-avc-c3sub4u16 #x5) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (and avcc3CRp #x80000000) (set avcc3CRq 0)
+(if (and avcc3CRp #x40000000) (set avcc3CRq 1)
+(if (and avcc3CRp #x20000000) (set avcc3CRq 2)
+(if (and avcc3CRp #x10000000) (set avcc3CRq 3)
+(if (and avcc3CRp #x8000000) (set avcc3CRq 4)
+(if (and avcc3CRp #x4000000) (set avcc3CRq 5)
+(if (and avcc3CRp #x2000000) (set avcc3CRq 6)
+(if (and avcc3CRp #x1000000) (set avcc3CRq 7)
+(if (and avcc3CRp #x800000) (set avcc3CRq 8)
+(if (and avcc3CRp #x400000) (set avcc3CRq 9)
+(if (and avcc3CRp #x200000) (set avcc3CRq 10)
+(if (and avcc3CRp #x100000) (set avcc3CRq 11)
+(if (and avcc3CRp #x80000) (set avcc3CRq 12)
+(if (and avcc3CRp #x40000) (set avcc3CRq 13)
+(if (and avcc3CRp #x20000) (set avcc3CRq 14)
+(if (and avcc3CRp #x10000) (set avcc3CRq 15)
+(if (and avcc3CRp #x8000) (set avcc3CRq 16)
+(if (and avcc3CRp #x4000) (set avcc3CRq 17)
+(if (and avcc3CRp #x2000) (set avcc3CRq 18)
+(if (and avcc3CRp #x1000) (set avcc3CRq 19)
+(if (and avcc3CRp #x800) (set avcc3CRq 20)
+(if (and avcc3CRp #x400) (set avcc3CRq 21)
+(if (and avcc3CRp #x200) (set avcc3CRq 22)
+(if (and avcc3CRp #x100) (set avcc3CRq 23)
+(if (and avcc3CRp #x80) (set avcc3CRq 24)
+(if (and avcc3CRp #x40) (set avcc3CRq 25)
+(if (and avcc3CRp #x20) (set avcc3CRq 26)
+(if (and avcc3CRp #x10) (set avcc3CRq 27)
+(if (and avcc3CRp #x8) (set avcc3CRq 28)
+(if (and avcc3CRp #x4) (set avcc3CRq 29)
+(if (and avcc3CRp #x2) (set avcc3CRq 30)
+(if (and avcc3CRp #x1) (set avcc3CRq 31)
+(set avcc3CRq 32)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+ ())
+(dncpi cabs_avc_c3 "cabs" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cabs"))
+ "cabs $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x3) (f-avc-c3sub4u16 #x5) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (abs (ext SI (subword SI (sub avcc3CRq avcc3CRp) 1))))
+)
+ ())
+(dncpi cad1s_avc_c3 "cad1s" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cad1s"))
+ "cad1s $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x1) (f-avc-c3sub4u16 #x5) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI tmp0)) (c-call "check_option_cp" pc)
+(set tmp0 (ext SI (subword SI (add avcc3CRq avcc3CRp) 1)))
+(set avcc3CRq (subword SI (sra tmp0 1) 1))
+)
+ ())
+(dncpi csb1s_avc_c3 "csb1s" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csb1s"))
+ "csb1s $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x2) (f-avc-c3sub4u16 #x5) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI tmp0)) (c-call "check_option_cp" pc)
+(set tmp0 (ext SI (subword SI (sub avcc3CRq avcc3CRp) 1)))
+(set avcc3CRq (subword SI (sra tmp0 1) 1))
+)
+ ())
+(dncpi cmin_avc_c3 "cmin" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmin"))
+ "cmin $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x8) (f-avc-c3sub4u16 #x5) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (lt (ext SI avcc3CRq) (ext SI avcc3CRp)) (set avcc3CRq avcc3CRq)
+(set avcc3CRq avcc3CRp)
+)
+)
+ ())
+(dncpi cmax_avc_c3 "cmax" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmax"))
+ "cmax $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x9) (f-avc-c3sub4u16 #x5) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (gt (ext SI avcc3CRq) (ext SI avcc3CRp)) (set avcc3CRq avcc3CRq)
+(set avcc3CRq avcc3CRp)
+)
+)
+ ())
+(dncpi cminu_avc_c3 "cminu" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cminu"))
+ "cminu $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xa) (f-avc-c3sub4u16 #x5) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (ltu (zext SI avcc3CRq) (zext SI avcc3CRp)) (set avcc3CRq avcc3CRq)
+(set avcc3CRq avcc3CRp)
+)
+)
+ ())
+(dncpi cmaxu_avc_c3 "cmaxu" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmaxu"))
+ "cmaxu $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xb) (f-avc-c3sub4u16 #x5) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (gtu (zext SI avcc3CRq) (zext SI avcc3CRp)) (set avcc3CRq avcc3CRq)
+(set avcc3CRq avcc3CRp)
+)
+)
+ ())
+(dncpi cclipi_avc_c3 "cclipi" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cclipi"))
+ "cclipi $avcc3CRq,$avcc3Imm5u24"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3Imm5u24 (f-avc-c3sub3u29 #x4) (f-avc-c3sub4u16 #x5) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI tmp1)(DI tmp0)) (c-call "check_option_cp" pc)
+(if (eq (zext SI avcc3Imm5u24) (ext SI 0)) (set avcc3CRq 0)
+(sequence() (set tmp0 (sll 1 (sub avcc3Imm5u24 1)))
+(set tmp1 (sub (subword SI tmp0 1) 1))
+(if (gt (ext SI avcc3CRq) (ext SI (subword SI tmp1 1))) (set avcc3CRq (subword SI tmp1 1))
+(if (lt (ext SI avcc3CRq) (ext SI (neg (subword SI tmp0 1)))) (set avcc3CRq (neg (subword SI tmp0 1)))
+(set avcc3CRq avcc3CRq)
+)
+)
+)
+)
+)
+ ())
+(dncpi cclipiu_avc_c3 "cclipiu" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cclipiu"))
+ "cclipiu $avcc3CRq,$avcc3Imm5u24"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3Imm5u24 (f-avc-c3sub3u29 #x5) (f-avc-c3sub4u16 #x5) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI tmp1)(DI tmp0)) (c-call "check_option_cp" pc)
+(if (eq (zext SI avcc3Imm5u24) (ext SI 0)) (set avcc3CRq 0)
+(sequence() (set tmp0 (sub (sll 1 avcc3Imm5u24) 1))
+(if (gt (ext SI avcc3CRq) (ext SI (subword SI tmp0 1))) (set avcc3CRq (subword SI tmp0 1))
+(if (lt (ext SI avcc3CRq) (ext SI 0)) (set avcc3CRq 0)
+(set avcc3CRq avcc3CRq)
+)
+)
+)
+)
+)
+ ())
+(dncpi cor_avc_c3 "cor" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cor"))
+ "cor $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x4) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (or avcc3CRq avcc3CRp))
+)
+ ())
+(dncpi cand_avc_c3 "cand" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cand"))
+ "cand $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x5) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (and avcc3CRq avcc3CRp))
+)
+ ())
+(dncpi cxor_avc_c3 "cxor" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cxor"))
+ "cxor $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x6) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (xor avcc3CRq avcc3CRp))
+)
+ ())
+(dncpi cnor_avc_c3 "cnor" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cnor"))
+ "cnor $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x7) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (inv (or avcc3CRq avcc3CRp)))
+)
+ ())
+(dncpi csra_avc_c3 "csra" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csra"))
+ "csra $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xc) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (sra avcc3CRq (and QI (srl avcc3CRp 0) #x1f)))
+)
+ ())
+(dncpi csrl_avc_c3 "csrl" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csrl"))
+ "csrl $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xd) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (srl avcc3CRq (and QI (srl avcc3CRp 0) #x1f)))
+)
+ ())
+(dncpi csll_avc_c3 "csll" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csll"))
+ "csll $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xe) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (sll avcc3CRq (and QI (srl avcc3CRp 0) #x1f)))
+)
+ ())
+(dncpi csrai_avc_c3 "csrai" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csrai"))
+ "csrai $avcc3CRq,$avcc3Imm5u24"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3Imm5u24 (f-avc-c3sub3u29 #x2) (f-avc-c3sub4u16 #x1) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (sra avcc3CRq avcc3Imm5u24))
+)
+ ())
+(dncpi csrli_avc_c3 "csrli" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csrli"))
+ "csrli $avcc3CRq,$avcc3Imm5u24"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3Imm5u24 (f-avc-c3sub3u29 #x3) (f-avc-c3sub4u16 #x1) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (srl avcc3CRq avcc3Imm5u24))
+)
+ ())
+(dncpi cslli_avc_c3 "cslli" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cslli"))
+ "cslli $avcc3CRq,$avcc3Imm5u24"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3Imm5u24 (f-avc-c3sub3u29 #x6) (f-avc-c3sub4u16 #x1) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (sll avcc3CRq avcc3Imm5u24))
+)
+ ())
+(dncpi cfsft_avc_c3 "cfsft" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cfsft"))
+ "cfsft $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xf) (f-avc-c3sub4u16 #x0) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (subword SI (sll (or (sll (zext DI (zext SI avcc3CRq)) 32) (zext DI avcc3CRp)) (and QI (srl avccopCCR0 0) #x3f)) 0))
+)
+ ())
+(dncpi cfsfta0_avc_c3 "cfsfta0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cfsfta0"))
+ "cfsfta0 $avcc3CRq"
+(+ MAJ_15 (f-sub4 7) avcc3CRq (f-avc-c3sub4u28 #x7) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u16 #x1) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (subword SI (sll (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (and QI (srl avccopCCR0 0) #x3f)) 0))
+)
+ ())
+(dncpi cfsfta1_avc_c3 "cfsfta1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cfsfta1"))
+ "cfsfta1 $avcc3CRq"
+(+ MAJ_15 (f-sub4 7) avcc3CRq (f-avc-c3sub4u28 #xf) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u16 #x1) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcc3CRq (subword SI (sll (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (and QI (srl avccopCCR0 0) #x3f)) 0))
+)
+ ())
+(dncpi cmula0_avc_c3 "cmula0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmula0"))
+ "cmula0 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x0) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat0)) (c-call "check_option_cp" pc)
+(set concat0 (mul (ext DI avcc3CRq) (ext DI avcc3CRp)))
+(set avccopCCR2 (subword SI concat0 0))
+(set avccopCCR3 (subword SI concat0 1))
+)
+ ())
+(dncpi cmulua0_avc_c3 "cmulua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmulua0"))
+ "cmulua0 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x1) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat1)) (c-call "check_option_cp" pc)
+(set concat1 (mul (zext DI avcc3CRq) (zext DI avcc3CRp)))
+(set avccopCCR2 (subword SI concat1 0))
+(set avccopCCR3 (subword SI concat1 1))
+)
+ ())
+(dncpi cnmula0_avc_c3 "cnmula0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cnmula0"))
+ "cnmula0 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x2) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat2)) (c-call "check_option_cp" pc)
+(set concat2 (neg (mul (ext DI avcc3CRq) (ext DI avcc3CRp))))
+(set avccopCCR2 (subword SI concat2 0))
+(set avccopCCR3 (subword SI concat2 1))
+)
+ ())
+(dncpi cmada0_avc_c3 "cmada0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmada0"))
+ "cmada0 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x4) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat3)) (c-call "check_option_cp" pc)
+(set concat3 (add (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (ext DI avcc3CRq) (ext DI avcc3CRp))))
+(set avccopCCR2 (subword SI concat3 0))
+(set avccopCCR3 (subword SI concat3 1))
+)
+ ())
+(dncpi cmadua0_avc_c3 "cmadua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmadua0"))
+ "cmadua0 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x5) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat4)) (c-call "check_option_cp" pc)
+(set concat4 (add (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (zext DI avcc3CRq) (zext DI avcc3CRp))))
+(set avccopCCR2 (subword SI concat4 0))
+(set avccopCCR3 (subword SI concat4 1))
+)
+ ())
+(dncpi cmsba0_avc_c3 "cmsba0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmsba0"))
+ "cmsba0 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x6) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat5)) (c-call "check_option_cp" pc)
+(set concat5 (sub (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (ext DI avcc3CRq) (ext DI avcc3CRp))))
+(set avccopCCR2 (subword SI concat5 0))
+(set avccopCCR3 (subword SI concat5 1))
+)
+ ())
+(dncpi cmsbua0_avc_c3 "cmsbua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmsbua0"))
+ "cmsbua0 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x7) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat6)) (c-call "check_option_cp" pc)
+(set concat6 (sub (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (zext DI avcc3CRq) (zext DI avcc3CRp))))
+(set avccopCCR2 (subword SI concat6 0))
+(set avccopCCR3 (subword SI concat6 1))
+)
+ ())
+(dncpi cmula1_avc_c3 "cmula1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmula1"))
+ "cmula1 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x8) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat7)) (c-call "check_option_cp" pc)
+(set concat7 (mul (ext DI avcc3CRq) (ext DI avcc3CRp)))
+(set avccopCCR4 (subword SI concat7 0))
+(set avccopCCR5 (subword SI concat7 1))
+)
+ ())
+(dncpi cmulua1_avc_c3 "cmulua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmulua1"))
+ "cmulua1 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #x9) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat8)) (c-call "check_option_cp" pc)
+(set concat8 (mul (zext DI avcc3CRq) (zext DI avcc3CRp)))
+(set avccopCCR4 (subword SI concat8 0))
+(set avccopCCR5 (subword SI concat8 1))
+)
+ ())
+(dncpi cnmula1_avc_c3 "cnmula1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cnmula1"))
+ "cnmula1 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xa) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat9)) (c-call "check_option_cp" pc)
+(set concat9 (neg (mul (ext DI avcc3CRq) (ext DI avcc3CRp))))
+(set avccopCCR4 (subword SI concat9 0))
+(set avccopCCR5 (subword SI concat9 1))
+)
+ ())
+(dncpi cmada1_avc_c3 "cmada1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmada1"))
+ "cmada1 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xc) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat10)) (c-call "check_option_cp" pc)
+(set concat10 (add (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (ext DI avcc3CRq) (ext DI avcc3CRp))))
+(set avccopCCR4 (subword SI concat10 0))
+(set avccopCCR5 (subword SI concat10 1))
+)
+ ())
+(dncpi cmadua1_avc_c3 "cmadua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmadua1"))
+ "cmadua1 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xd) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat11)) (c-call "check_option_cp" pc)
+(set concat11 (add (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (zext DI avcc3CRq) (zext DI avcc3CRp))))
+(set avccopCCR4 (subword SI concat11 0))
+(set avccopCCR5 (subword SI concat11 1))
+)
+ ())
+(dncpi cmsba1_avc_c3 "cmsba1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmsba1"))
+ "cmsba1 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xe) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat12)) (c-call "check_option_cp" pc)
+(set concat12 (sub (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (ext DI avcc3CRq) (ext DI avcc3CRp))))
+(set avccopCCR4 (subword SI concat12 0))
+(set avccopCCR5 (subword SI concat12 1))
+)
+ ())
+(dncpi cmsbua1_avc_c3 "cmsbua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmsbua1"))
+ "cmsbua1 $avcc3CRq,$avcc3CRp"
+(+ MAJ_15 (f-sub4 7) avcc3CRq avcc3CRp (f-avc-c3sub4u28 #xf) (f-avc-c3sub4u16 #x4) (f-avc-c3sub4u8 #x0) (f-avc-c3sub4u4 #x0))
+(sequence((DI concat13)) (c-call "check_option_cp" pc)
+(set concat13 (sub (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (zext DI avcc3CRq) (zext DI avcc3CRp))))
+(set avccopCCR4 (subword SI concat13 0))
+(set avccopCCR5 (subword SI concat13 1))
+)
+ ())
+(dncpi xmula0_avc_c3 "xmula0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmula0"))
+ "xmula0 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #x0) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat14)) (c-call "check_option_cp" pc)
+(set concat14 (mul (ext DI avcc3Rn) (ext DI avcc3Rm)))
+(set avccopCCR2 (subword SI concat14 0))
+(set avccopCCR3 (subword SI concat14 1))
+)
+ ())
+(dncpi xmulua0_avc_c3 "xmulua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmulua0"))
+ "xmulua0 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #x1) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat15)) (c-call "check_option_cp" pc)
+(set concat15 (mul (zext DI avcc3Rn) (zext DI avcc3Rm)))
+(set avccopCCR2 (subword SI concat15 0))
+(set avccopCCR3 (subword SI concat15 1))
+)
+ ())
+(dncpi xnmula0_avc_c3 "xnmula0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xnmula0"))
+ "xnmula0 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #x2) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat16)) (c-call "check_option_cp" pc)
+(set concat16 (neg (mul (ext DI avcc3Rn) (ext DI avcc3Rm))))
+(set avccopCCR2 (subword SI concat16 0))
+(set avccopCCR3 (subword SI concat16 1))
+)
+ ())
+(dncpi xmada0_avc_c3 "xmada0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmada0"))
+ "xmada0 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #x4) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat17)) (c-call "check_option_cp" pc)
+(set concat17 (add (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (ext DI avcc3Rn) (ext DI avcc3Rm))))
+(set avccopCCR2 (subword SI concat17 0))
+(set avccopCCR3 (subword SI concat17 1))
+)
+ ())
+(dncpi xmadua0_avc_c3 "xmadua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmadua0"))
+ "xmadua0 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #x5) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat18)) (c-call "check_option_cp" pc)
+(set concat18 (add (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (zext DI avcc3Rn) (zext DI avcc3Rm))))
+(set avccopCCR2 (subword SI concat18 0))
+(set avccopCCR3 (subword SI concat18 1))
+)
+ ())
+(dncpi xmsba0_avc_c3 "xmsba0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmsba0"))
+ "xmsba0 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #x6) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat19)) (c-call "check_option_cp" pc)
+(set concat19 (sub (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (ext DI avcc3Rn) (ext DI avcc3Rm))))
+(set avccopCCR2 (subword SI concat19 0))
+(set avccopCCR3 (subword SI concat19 1))
+)
+ ())
+(dncpi xmsbua0_avc_c3 "xmsbua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmsbua0"))
+ "xmsbua0 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #x7) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat20)) (c-call "check_option_cp" pc)
+(set concat20 (sub (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (zext DI avcc3Rn) (zext DI avcc3Rm))))
+(set avccopCCR2 (subword SI concat20 0))
+(set avccopCCR3 (subword SI concat20 1))
+)
+ ())
+(dncpi xmula1_avc_c3 "xmula1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmula1"))
+ "xmula1 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #x8) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat21)) (c-call "check_option_cp" pc)
+(set concat21 (mul (ext DI avcc3Rn) (ext DI avcc3Rm)))
+(set avccopCCR4 (subword SI concat21 0))
+(set avccopCCR5 (subword SI concat21 1))
+)
+ ())
+(dncpi xmulua1_avc_c3 "xmulua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmulua1"))
+ "xmulua1 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #x9) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat22)) (c-call "check_option_cp" pc)
+(set concat22 (mul (zext DI avcc3Rn) (zext DI avcc3Rm)))
+(set avccopCCR4 (subword SI concat22 0))
+(set avccopCCR5 (subword SI concat22 1))
+)
+ ())
+(dncpi xnmula1_avc_c3 "xnmula1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xnmula1"))
+ "xnmula1 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #xa) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat23)) (c-call "check_option_cp" pc)
+(set concat23 (neg (mul (ext DI avcc3Rn) (ext DI avcc3Rm))))
+(set avccopCCR4 (subword SI concat23 0))
+(set avccopCCR5 (subword SI concat23 1))
+)
+ ())
+(dncpi xmada1_avc_c3 "xmada1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmada1"))
+ "xmada1 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #xc) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat24)) (c-call "check_option_cp" pc)
+(set concat24 (add (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (ext DI avcc3Rn) (ext DI avcc3Rm))))
+(set avccopCCR4 (subword SI concat24 0))
+(set avccopCCR5 (subword SI concat24 1))
+)
+ ())
+(dncpi xmadua1_avc_c3 "xmadua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmadua1"))
+ "xmadua1 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #xd) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat25)) (c-call "check_option_cp" pc)
+(set concat25 (add (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (zext DI avcc3Rn) (zext DI avcc3Rm))))
+(set avccopCCR4 (subword SI concat25 0))
+(set avccopCCR5 (subword SI concat25 1))
+)
+ ())
+(dncpi xmsba1_avc_c3 "xmsba1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmsba1"))
+ "xmsba1 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #xe) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat26)) (c-call "check_option_cp" pc)
+(set concat26 (sub (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (ext DI avcc3Rn) (ext DI avcc3Rm))))
+(set avccopCCR4 (subword SI concat26 0))
+(set avccopCCR5 (subword SI concat26 1))
+)
+ ())
+(dncpi xmsbua1_avc_c3 "xmsbua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmsbua1"))
+ "xmsbua1 $avcc3Rn,$avcc3Rm"
+(+ MAJ_15 (f-sub4 7) avcc3Rn avcc3Rm (f-avc-c3sub4u28 #xf) (f-avc-c3sub4u24 #x0) (f-avc-c3sub4u20 #x0) (f-avc-c3sub4u16 #xc))
+(sequence((DI concat27)) (c-call "check_option_cp" pc)
+(set concat27 (sub (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (zext DI avcc3Rn) (zext DI avcc3Rm))))
+(set avccopCCR4 (subword SI concat27 0))
+(set avccopCCR5 (subword SI concat27 1))
+)
+ ())
+(dn16i cnop_avc_v1 "cnop" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cnop"))
+ "cnop"
+(+ (f-avc-v1sub4u12 #x0) (f-avc-v1sub4u8 #x0) (f-avc-v1sub4u4 #x0) (f-avc-v1sub4u0 #x0))
+(c-call "check_option_cp" pc)
+ ())
+(dnmi cpnop16_avc_v1 "cpnop16"
+(avc-16-isa NO-DIS)
+"cpnop16"
+(emit cnop_avc_v1)
+)
+(dn16i cmov_avc_v1 "cmov" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmov"))
+ "cmov $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x3) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq avcv1CRp)
+)
+ ())
+(dn16i cmovi_avc_v1 "cmovi" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmovi"))
+ "cmovi $avcv1CRq,$avcv1Imm8s8"
+(+ avcv1CRq avcv1Imm8s8 (f-avc-v1sub4u0 #x2))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (ext SI avcv1Imm8s8))
+)
+ ())
+(dn16i cadd3_avc_v1 "cadd3" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cadd3"))
+ "cadd3 $avcv1CRo,$avcv1CRq,$avcv1CRp"
+(+ avcv1CRo avcv1CRq avcv1CRp (f-avc-v1sub4u0 #x3))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRo (add avcv1CRq avcv1CRp))
+)
+ ())
+(dn16i caddi_avc_v1 "caddi" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "caddi"))
+ "caddi $avcv1CRq,$avcv1Imm6s8"
+(+ avcv1CRq avcv1Imm6s8 (f-avc-v1sub2u14 #x0) (f-avc-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (add avcv1CRq (ext SI avcv1Imm6s8)))
+)
+ ())
+(dn16i csub_avc_v1 "csub" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csub"))
+ "csub $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x2) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (sub avcv1CRq avcv1CRp))
+)
+ ())
+(dn16i cneg_avc_v1 "cneg" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cneg"))
+ "cneg $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x1) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (neg avcv1CRp))
+)
+ ())
+(dn16i cextb_avc_v1 "cextb" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cextb"))
+ "cextb $avcv1CRq"
+(+ avcv1CRq (f-avc-v1sub4u12 #x9) (f-avc-v1sub4u8 #x0) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (ext SI (and QI (srl avcv1CRq 0) #xff)))
+)
+ ())
+(dn16i cexth_avc_v1 "cexth" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cexth"))
+ "cexth $avcv1CRq"
+(+ avcv1CRq (f-avc-v1sub4u12 #x9) (f-avc-v1sub4u8 #x2) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (ext SI (and HI (srl avcv1CRq 0) #xffff)))
+)
+ ())
+(dn16i cextub_avc_v1 "cextub" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cextub"))
+ "cextub $avcv1CRq"
+(+ avcv1CRq (f-avc-v1sub4u12 #x9) (f-avc-v1sub4u8 #x8) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (zext SI (and QI (srl avcv1CRq 0) #xff)))
+)
+ ())
+(dn16i cextuh_avc_v1 "cextuh" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cextuh"))
+ "cextuh $avcv1CRq"
+(+ avcv1CRq (f-avc-v1sub4u12 #x9) (f-avc-v1sub4u8 #xa) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (zext SI (and HI (srl avcv1CRq 0) #xffff)))
+)
+ ())
+(dn16i cscltz_avc_v1 "cscltz" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cscltz"))
+ "cscltz $avcv1CRq"
+(+ avcv1CRq (f-avc-v1sub4u12 #xa) (f-avc-v1sub4u8 #xa) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (lt (ext SI avcv1CRq) (ext SI 0)) (set avccopCCR1 (or (sll (srl avccopCCR1 1) 1) (srl (sll (zext SI 1) 31) 31)))
+(set avccopCCR1 (or (sll (srl avccopCCR1 1) 1) (srl (sll (zext SI 0) 31) 31)))
+)
+)
+ ())
+(dn16i cldz_avc_v1 "cldz" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cldz"))
+ "cldz $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x0) (f-avc-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(if (and avcv1CRp #x80000000) (set avcv1CRq 0)
+(if (and avcv1CRp #x40000000) (set avcv1CRq 1)
+(if (and avcv1CRp #x20000000) (set avcv1CRq 2)
+(if (and avcv1CRp #x10000000) (set avcv1CRq 3)
+(if (and avcv1CRp #x8000000) (set avcv1CRq 4)
+(if (and avcv1CRp #x4000000) (set avcv1CRq 5)
+(if (and avcv1CRp #x2000000) (set avcv1CRq 6)
+(if (and avcv1CRp #x1000000) (set avcv1CRq 7)
+(if (and avcv1CRp #x800000) (set avcv1CRq 8)
+(if (and avcv1CRp #x400000) (set avcv1CRq 9)
+(if (and avcv1CRp #x200000) (set avcv1CRq 10)
+(if (and avcv1CRp #x100000) (set avcv1CRq 11)
+(if (and avcv1CRp #x80000) (set avcv1CRq 12)
+(if (and avcv1CRp #x40000) (set avcv1CRq 13)
+(if (and avcv1CRp #x20000) (set avcv1CRq 14)
+(if (and avcv1CRp #x10000) (set avcv1CRq 15)
+(if (and avcv1CRp #x8000) (set avcv1CRq 16)
+(if (and avcv1CRp #x4000) (set avcv1CRq 17)
+(if (and avcv1CRp #x2000) (set avcv1CRq 18)
+(if (and avcv1CRp #x1000) (set avcv1CRq 19)
+(if (and avcv1CRp #x800) (set avcv1CRq 20)
+(if (and avcv1CRp #x400) (set avcv1CRq 21)
+(if (and avcv1CRp #x200) (set avcv1CRq 22)
+(if (and avcv1CRp #x100) (set avcv1CRq 23)
+(if (and avcv1CRp #x80) (set avcv1CRq 24)
+(if (and avcv1CRp #x40) (set avcv1CRq 25)
+(if (and avcv1CRp #x20) (set avcv1CRq 26)
+(if (and avcv1CRp #x10) (set avcv1CRq 27)
+(if (and avcv1CRp #x8) (set avcv1CRq 28)
+(if (and avcv1CRp #x4) (set avcv1CRq 29)
+(if (and avcv1CRp #x2) (set avcv1CRq 30)
+(if (and avcv1CRp #x1) (set avcv1CRq 31)
+(set avcv1CRq 32)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+ ())
+(dn16i cabs_avc_v1 "cabs" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cabs"))
+ "cabs $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x3) (f-avc-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (abs (ext SI (subword SI (sub avcv1CRq avcv1CRp) 1))))
+)
+ ())
+(dn16i cad1s_avc_v1 "cad1s" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cad1s"))
+ "cad1s $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x1) (f-avc-v1sub4u0 #x5))
+(sequence((DI tmp0)) (c-call "check_option_cp" pc)
+(set tmp0 (ext SI (subword SI (add avcv1CRq avcv1CRp) 1)))
+(set avcv1CRq (subword SI (sra tmp0 1) 1))
+)
+ ())
+(dn16i csb1s_avc_v1 "csb1s" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csb1s"))
+ "csb1s $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x2) (f-avc-v1sub4u0 #x5))
+(sequence((DI tmp0)) (c-call "check_option_cp" pc)
+(set tmp0 (ext SI (subword SI (sub avcv1CRq avcv1CRp) 1)))
+(set avcv1CRq (subword SI (sra tmp0 1) 1))
+)
+ ())
+(dn16i cmin_avc_v1 "cmin" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmin"))
+ "cmin $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x8) (f-avc-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(if (lt (ext SI avcv1CRq) (ext SI avcv1CRp)) (set avcv1CRq avcv1CRq)
+(set avcv1CRq avcv1CRp)
+)
+)
+ ())
+(dn16i cmax_avc_v1 "cmax" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmax"))
+ "cmax $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x9) (f-avc-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(if (gt (ext SI avcv1CRq) (ext SI avcv1CRp)) (set avcv1CRq avcv1CRq)
+(set avcv1CRq avcv1CRp)
+)
+)
+ ())
+(dn16i cminu_avc_v1 "cminu" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cminu"))
+ "cminu $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xa) (f-avc-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(if (ltu (zext SI avcv1CRq) (zext SI avcv1CRp)) (set avcv1CRq avcv1CRq)
+(set avcv1CRq avcv1CRp)
+)
+)
+ ())
+(dn16i cmaxu_avc_v1 "cmaxu" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmaxu"))
+ "cmaxu $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xb) (f-avc-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(if (gtu (zext SI avcv1CRq) (zext SI avcv1CRp)) (set avcv1CRq avcv1CRq)
+(set avcv1CRq avcv1CRp)
+)
+)
+ ())
+(dn16i cclipi_avc_v1 "cclipi" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cclipi"))
+ "cclipi $avcv1CRq,$avcv1Imm5u8"
+(+ avcv1CRq avcv1Imm5u8 (f-avc-v1sub3u13 #x4) (f-avc-v1sub4u0 #x5))
+(sequence((DI tmp1)(DI tmp0)) (c-call "check_option_cp" pc)
+(if (eq (zext SI avcv1Imm5u8) (ext SI 0)) (set avcv1CRq 0)
+(sequence() (set tmp0 (sll 1 (sub avcv1Imm5u8 1)))
+(set tmp1 (sub (subword SI tmp0 1) 1))
+(if (gt (ext SI avcv1CRq) (ext SI (subword SI tmp1 1))) (set avcv1CRq (subword SI tmp1 1))
+(if (lt (ext SI avcv1CRq) (ext SI (neg (subword SI tmp0 1)))) (set avcv1CRq (neg (subword SI tmp0 1)))
+(set avcv1CRq avcv1CRq)
+)
+)
+)
+)
+)
+ ())
+(dn16i cclipiu_avc_v1 "cclipiu" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cclipiu"))
+ "cclipiu $avcv1CRq,$avcv1Imm5u8"
+(+ avcv1CRq avcv1Imm5u8 (f-avc-v1sub3u13 #x5) (f-avc-v1sub4u0 #x5))
+(sequence((DI tmp0)) (c-call "check_option_cp" pc)
+(if (eq (zext SI avcv1Imm5u8) (ext SI 0)) (set avcv1CRq 0)
+(sequence() (set tmp0 (sub (sll 1 avcv1Imm5u8) 1))
+(if (gt (ext SI avcv1CRq) (ext SI (subword SI tmp0 1))) (set avcv1CRq (subword SI tmp0 1))
+(if (lt (ext SI avcv1CRq) (ext SI 0)) (set avcv1CRq 0)
+(set avcv1CRq avcv1CRq)
+)
+)
+)
+)
+)
+ ())
+(dn16i cor_avc_v1 "cor" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cor"))
+ "cor $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x4) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (or avcv1CRq avcv1CRp))
+)
+ ())
+(dn16i cand_avc_v1 "cand" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cand"))
+ "cand $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x5) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (and avcv1CRq avcv1CRp))
+)
+ ())
+(dn16i cxor_avc_v1 "cxor" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cxor"))
+ "cxor $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x6) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (xor avcv1CRq avcv1CRp))
+)
+ ())
+(dn16i cnor_avc_v1 "cnor" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cnor"))
+ "cnor $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x7) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (inv (or avcv1CRq avcv1CRp)))
+)
+ ())
+(dn16i csra_avc_v1 "csra" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csra"))
+ "csra $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xc) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (sra avcv1CRq (and QI (srl avcv1CRp 0) #x1f)))
+)
+ ())
+(dn16i csrl_avc_v1 "csrl" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csrl"))
+ "csrl $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xd) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (srl avcv1CRq (and QI (srl avcv1CRp 0) #x1f)))
+)
+ ())
+(dn16i csll_avc_v1 "csll" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csll"))
+ "csll $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xe) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (sll avcv1CRq (and QI (srl avcv1CRp 0) #x1f)))
+)
+ ())
+(dn16i csrai_avc_v1 "csrai" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csrai"))
+ "csrai $avcv1CRq,$avcv1Imm5u8"
+(+ avcv1CRq avcv1Imm5u8 (f-avc-v1sub3u13 #x2) (f-avc-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (sra avcv1CRq avcv1Imm5u8))
+)
+ ())
+(dn16i csrli_avc_v1 "csrli" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csrli"))
+ "csrli $avcv1CRq,$avcv1Imm5u8"
+(+ avcv1CRq avcv1Imm5u8 (f-avc-v1sub3u13 #x3) (f-avc-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (srl avcv1CRq avcv1Imm5u8))
+)
+ ())
+(dn16i cslli_avc_v1 "cslli" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cslli"))
+ "cslli $avcv1CRq,$avcv1Imm5u8"
+(+ avcv1CRq avcv1Imm5u8 (f-avc-v1sub3u13 #x6) (f-avc-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (sll avcv1CRq avcv1Imm5u8))
+)
+ ())
+(dn16i cfsft_avc_v1 "cfsft" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cfsft"))
+ "cfsft $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xf) (f-avc-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (subword SI (sll (or (sll (zext DI (zext SI avcv1CRq)) 32) (zext DI avcv1CRp)) (and QI (srl avccopCCR0 0) #x3f)) 0))
+)
+ ())
+(dn16i cfsfta0_avc_v1 "cfsfta0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cfsfta0"))
+ "cfsfta0 $avcv1CRq"
+(+ avcv1CRq (f-avc-v1sub4u12 #x7) (f-avc-v1sub4u8 #x0) (f-avc-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (subword SI (sll (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (and QI (srl avccopCCR0 0) #x3f)) 0))
+)
+ ())
+(dn16i cfsfta1_avc_v1 "cfsfta1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cfsfta1"))
+ "cfsfta1 $avcv1CRq"
+(+ avcv1CRq (f-avc-v1sub4u12 #xf) (f-avc-v1sub4u8 #x0) (f-avc-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv1CRq (subword SI (sll (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (and QI (srl avccopCCR0 0) #x3f)) 0))
+)
+ ())
+(dn16i cmula0_avc_v1 "cmula0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmula0"))
+ "cmula0 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x0) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat28)) (c-call "check_option_cp" pc)
+(set concat28 (mul (ext DI avcv1CRq) (ext DI avcv1CRp)))
+(set avccopCCR2 (subword SI concat28 0))
+(set avccopCCR3 (subword SI concat28 1))
+)
+ ())
+(dn16i cmulua0_avc_v1 "cmulua0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmulua0"))
+ "cmulua0 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x1) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat29)) (c-call "check_option_cp" pc)
+(set concat29 (mul (zext DI avcv1CRq) (zext DI avcv1CRp)))
+(set avccopCCR2 (subword SI concat29 0))
+(set avccopCCR3 (subword SI concat29 1))
+)
+ ())
+(dn16i cnmula0_avc_v1 "cnmula0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cnmula0"))
+ "cnmula0 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x2) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat30)) (c-call "check_option_cp" pc)
+(set concat30 (neg (mul (ext DI avcv1CRq) (ext DI avcv1CRp))))
+(set avccopCCR2 (subword SI concat30 0))
+(set avccopCCR3 (subword SI concat30 1))
+)
+ ())
+(dn16i cmada0_avc_v1 "cmada0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmada0"))
+ "cmada0 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x4) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat31)) (c-call "check_option_cp" pc)
+(set concat31 (add (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (ext DI avcv1CRq) (ext DI avcv1CRp))))
+(set avccopCCR2 (subword SI concat31 0))
+(set avccopCCR3 (subword SI concat31 1))
+)
+ ())
+(dn16i cmadua0_avc_v1 "cmadua0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmadua0"))
+ "cmadua0 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x5) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat32)) (c-call "check_option_cp" pc)
+(set concat32 (add (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (zext DI avcv1CRq) (zext DI avcv1CRp))))
+(set avccopCCR2 (subword SI concat32 0))
+(set avccopCCR3 (subword SI concat32 1))
+)
+ ())
+(dn16i cmsba0_avc_v1 "cmsba0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmsba0"))
+ "cmsba0 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x6) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat33)) (c-call "check_option_cp" pc)
+(set concat33 (sub (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (ext DI avcv1CRq) (ext DI avcv1CRp))))
+(set avccopCCR2 (subword SI concat33 0))
+(set avccopCCR3 (subword SI concat33 1))
+)
+ ())
+(dn16i cmsbua0_avc_v1 "cmsbua0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmsbua0"))
+ "cmsbua0 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x7) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat34)) (c-call "check_option_cp" pc)
+(set concat34 (sub (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (zext DI avcv1CRq) (zext DI avcv1CRp))))
+(set avccopCCR2 (subword SI concat34 0))
+(set avccopCCR3 (subword SI concat34 1))
+)
+ ())
+(dn16i cmula1_avc_v1 "cmula1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmula1"))
+ "cmula1 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x8) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat35)) (c-call "check_option_cp" pc)
+(set concat35 (mul (ext DI avcv1CRq) (ext DI avcv1CRp)))
+(set avccopCCR4 (subword SI concat35 0))
+(set avccopCCR5 (subword SI concat35 1))
+)
+ ())
+(dn16i cmulua1_avc_v1 "cmulua1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmulua1"))
+ "cmulua1 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #x9) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat36)) (c-call "check_option_cp" pc)
+(set concat36 (mul (zext DI avcv1CRq) (zext DI avcv1CRp)))
+(set avccopCCR4 (subword SI concat36 0))
+(set avccopCCR5 (subword SI concat36 1))
+)
+ ())
+(dn16i cnmula1_avc_v1 "cnmula1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cnmula1"))
+ "cnmula1 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xa) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat37)) (c-call "check_option_cp" pc)
+(set concat37 (neg (mul (ext DI avcv1CRq) (ext DI avcv1CRp))))
+(set avccopCCR4 (subword SI concat37 0))
+(set avccopCCR5 (subword SI concat37 1))
+)
+ ())
+(dn16i cmada1_avc_v1 "cmada1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmada1"))
+ "cmada1 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xc) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat38)) (c-call "check_option_cp" pc)
+(set concat38 (add (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (ext DI avcv1CRq) (ext DI avcv1CRp))))
+(set avccopCCR4 (subword SI concat38 0))
+(set avccopCCR5 (subword SI concat38 1))
+)
+ ())
+(dn16i cmadua1_avc_v1 "cmadua1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmadua1"))
+ "cmadua1 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xd) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat39)) (c-call "check_option_cp" pc)
+(set concat39 (add (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (zext DI avcv1CRq) (zext DI avcv1CRp))))
+(set avccopCCR4 (subword SI concat39 0))
+(set avccopCCR5 (subword SI concat39 1))
+)
+ ())
+(dn16i cmsba1_avc_v1 "cmsba1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmsba1"))
+ "cmsba1 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xe) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat40)) (c-call "check_option_cp" pc)
+(set concat40 (sub (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (ext DI avcv1CRq) (ext DI avcv1CRp))))
+(set avccopCCR4 (subword SI concat40 0))
+(set avccopCCR5 (subword SI concat40 1))
+)
+ ())
+(dn16i cmsbua1_avc_v1 "cmsbua1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmsbua1"))
+ "cmsbua1 $avcv1CRq,$avcv1CRp"
+(+ avcv1CRq avcv1CRp (f-avc-v1sub4u12 #xf) (f-avc-v1sub4u0 #x4))
+(sequence((DI concat41)) (c-call "check_option_cp" pc)
+(set concat41 (sub (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (zext DI avcv1CRq) (zext DI avcv1CRp))))
+(set avccopCCR4 (subword SI concat41 0))
+(set avccopCCR5 (subword SI concat41 1))
+)
+ ())
+(dn32i cmov1_avc_v3 "cmov1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "cmov1"))
+ "cmov $avcv3CRn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3CRn avcv3Rm (f-avc-v3sub4u28 #x0) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv3CRn avcv3Rm)
+)
+ ())
+(dn32i cmov2_avc_v3 "cmov2" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "cmov2"))
+ "cmov $avcv3Rm,$avcv3CRn"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rm avcv3CRn (f-avc-v3sub4u28 #x1) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv3Rm avcv3CRn)
+)
+ ())
+(dn32i cmovi_avc_v3 "cmovi" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "cmovi"))
+ "cmovi $avcv3CRq,$avcv3Imm16s4x24e32"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3CRq avcv3Imm16s4x24e32 (f-avc-v3sub4u16 #xe))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv3CRq (ext SI avcv3Imm16s4x24e32))
+)
+ ())
+(dn32i cmovc1_avc_v3 "cmovc1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "cmovc1"))
+ "cmovc $avcv3CCRn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3CCRn avcv3Rm (f-avc-v3sub4u28 #x2) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv3CCRn avcv3Rm)
+)
+ ())
+(dn32i cmovc2_avc_v3 "cmovc2" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "cmovc2"))
+ "cmovc $avcv3Rm,$avcv3CCRn"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rm avcv3CCRn (f-avc-v3sub4u28 #x3) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avcv3Rm avcv3CCRn)
+)
+ ())
+(dn32i xmula0_avc_v3 "xmula0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmula0"))
+ "xmula0 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #x0) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat42)) (c-call "check_option_cp" pc)
+(set concat42 (mul (ext DI avcv3Rn) (ext DI avcv3Rm)))
+(set avccopCCR2 (subword SI concat42 0))
+(set avccopCCR3 (subword SI concat42 1))
+)
+ ())
+(dn32i xmulua0_avc_v3 "xmulua0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmulua0"))
+ "xmulua0 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #x1) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat43)) (c-call "check_option_cp" pc)
+(set concat43 (mul (zext DI avcv3Rn) (zext DI avcv3Rm)))
+(set avccopCCR2 (subword SI concat43 0))
+(set avccopCCR3 (subword SI concat43 1))
+)
+ ())
+(dn32i xnmula0_avc_v3 "xnmula0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xnmula0"))
+ "xnmula0 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #x2) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat44)) (c-call "check_option_cp" pc)
+(set concat44 (neg (mul (ext DI avcv3Rn) (ext DI avcv3Rm))))
+(set avccopCCR2 (subword SI concat44 0))
+(set avccopCCR3 (subword SI concat44 1))
+)
+ ())
+(dn32i xmada0_avc_v3 "xmada0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmada0"))
+ "xmada0 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #x4) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat45)) (c-call "check_option_cp" pc)
+(set concat45 (add (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (ext DI avcv3Rn) (ext DI avcv3Rm))))
+(set avccopCCR2 (subword SI concat45 0))
+(set avccopCCR3 (subword SI concat45 1))
+)
+ ())
+(dn32i xmadua0_avc_v3 "xmadua0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmadua0"))
+ "xmadua0 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #x5) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat46)) (c-call "check_option_cp" pc)
+(set concat46 (add (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (zext DI avcv3Rn) (zext DI avcv3Rm))))
+(set avccopCCR2 (subword SI concat46 0))
+(set avccopCCR3 (subword SI concat46 1))
+)
+ ())
+(dn32i xmsba0_avc_v3 "xmsba0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmsba0"))
+ "xmsba0 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #x6) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat47)) (c-call "check_option_cp" pc)
+(set concat47 (sub (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (ext DI avcv3Rn) (ext DI avcv3Rm))))
+(set avccopCCR2 (subword SI concat47 0))
+(set avccopCCR3 (subword SI concat47 1))
+)
+ ())
+(dn32i xmsbua0_avc_v3 "xmsbua0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmsbua0"))
+ "xmsbua0 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #x7) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat48)) (c-call "check_option_cp" pc)
+(set concat48 (sub (or (sll (zext DI (zext SI avccopCCR2)) 32) (zext DI avccopCCR3)) (mul (zext DI avcv3Rn) (zext DI avcv3Rm))))
+(set avccopCCR2 (subword SI concat48 0))
+(set avccopCCR3 (subword SI concat48 1))
+)
+ ())
+(dn32i xmula1_avc_v3 "xmula1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmula1"))
+ "xmula1 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #x8) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat49)) (c-call "check_option_cp" pc)
+(set concat49 (mul (ext DI avcv3Rn) (ext DI avcv3Rm)))
+(set avccopCCR4 (subword SI concat49 0))
+(set avccopCCR5 (subword SI concat49 1))
+)
+ ())
+(dn32i xmulua1_avc_v3 "xmulua1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmulua1"))
+ "xmulua1 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #x9) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat50)) (c-call "check_option_cp" pc)
+(set concat50 (mul (zext DI avcv3Rn) (zext DI avcv3Rm)))
+(set avccopCCR4 (subword SI concat50 0))
+(set avccopCCR5 (subword SI concat50 1))
+)
+ ())
+(dn32i xnmula1_avc_v3 "xnmula1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xnmula1"))
+ "xnmula1 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #xa) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat51)) (c-call "check_option_cp" pc)
+(set concat51 (neg (mul (ext DI avcv3Rn) (ext DI avcv3Rm))))
+(set avccopCCR4 (subword SI concat51 0))
+(set avccopCCR5 (subword SI concat51 1))
+)
+ ())
+(dn32i xmada1_avc_v3 "xmada1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmada1"))
+ "xmada1 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #xc) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat52)) (c-call "check_option_cp" pc)
+(set concat52 (add (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (ext DI avcv3Rn) (ext DI avcv3Rm))))
+(set avccopCCR4 (subword SI concat52 0))
+(set avccopCCR5 (subword SI concat52 1))
+)
+ ())
+(dn32i xmadua1_avc_v3 "xmadua1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmadua1"))
+ "xmadua1 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #xd) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat53)) (c-call "check_option_cp" pc)
+(set concat53 (add (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (zext DI avcv3Rn) (zext DI avcv3Rm))))
+(set avccopCCR4 (subword SI concat53 0))
+(set avccopCCR5 (subword SI concat53 1))
+)
+ ())
+(dn32i xmsba1_avc_v3 "xmsba1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmsba1"))
+ "xmsba1 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #xe) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat54)) (c-call "check_option_cp" pc)
+(set concat54 (sub (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (ext DI avcv3Rn) (ext DI avcv3Rm))))
+(set avccopCCR4 (subword SI concat54 0))
+(set avccopCCR5 (subword SI concat54 1))
+)
+ ())
+(dn32i xmsbua1_avc_v3 "xmsbua1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmsbua1"))
+ "xmsbua1 $avcv3Rn,$avcv3Rm"
+(+ (f-avc-v3sub4u0 #xf) (f-avc-v3sub4u12 #x7) avcv3Rn avcv3Rm (f-avc-v3sub4u28 #xf) (f-avc-v3sub4u24 #x0) (f-avc-v3sub4u20 #x0) (f-avc-v3sub4u16 #xc))
+(sequence((DI concat55)) (c-call "check_option_cp" pc)
+(set concat55 (sub (or (sll (zext DI (zext SI avccopCCR4)) 32) (zext DI avccopCCR5)) (mul (zext DI avcv3Rn) (zext DI avcv3Rm))))
+(set avccopCCR4 (subword SI concat55 0))
+(set avccopCCR5 (subword SI concat55 1))
+)
+ ())
--- /dev/null
+; Toshiba MeP AVC2 Coprocessor description. -*- Scheme -*-
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+; This file was customized based upon the output of a2cgen 0.42
+
+;------------------------------------------------------------------------------
+; MeP-Integrator will redefine the isa pmacros below to allow the bit widths
+; specified below for each ME_MODULE using this coprocessor.
+; This coprocessor requires 16 and 32 bit insns.
+;------------------------------------------------------------------------------
+; begin-isas
+(define-pmacro avc2-core-isa () (ISA ext_core1))
+(define-pmacro avc2-16-isa () (ISA ext_cop1_16))
+(define-pmacro avc2-32-isa () (ISA ext_cop1_32))
+(define-pmacro all-avc2-isas () (ISA ext_core1,ext_cop1_16,ext_cop1_32))
+; end-isas
+
+(define-pmacro (dncpi xname xcomment xattrs xsyntax xformat xsemantics xtiming)
+ (dni xname xcomment (.splice (.unsplice xattrs) avc2-core-isa) xsyntax xformat xsemantics xtiming))
+(define-pmacro (dn16i xname xcomment xattrs xsyntax xformat xsemantics xtiming)
+ (dni xname xcomment (.splice (.unsplice xattrs) avc2-16-isa) xsyntax xformat xsemantics xtiming))
+(define-pmacro (dn32i xname xcomment xattrs xsyntax xformat xsemantics xtiming)
+ (dni xname xcomment (.splice (.unsplice xattrs) avc2-32-isa) xsyntax xformat xsemantics xtiming))
+
+; register definitions
+; ---------------------
+; NOTE: This exists solely for the purpose of providing the proper register names for this coprocessor.
+; GDB will use the hardware table generated from this declaration. The operands use h-cr
+; from mep-core.cpu so that SID's semantic trace will be consistent between
+; the core and the coprocessor but use parse/print handlers which reference the hardware table
+; generated from this declarations
+(define-hardware
+ (name h-cr-avc2)
+ (comment "32-bit coprocessor registers for avc2 coprocessor")
+ (attrs VIRTUAL all-avc2-isas)
+ (type register SI (32))
+ (set (index newval) (c-call VOID "h_cr64_set" index (ext DI newval)))
+ (get (index) (trunc SI (c-call DI "h_cr64_get" index)))
+ (indices keyword "$c" (.map -reg-pair (.iota 8)))
+)
+; NOTE: This exists solely for the purpose of providing the proper register names for this coprocessor.
+; GDB will use the hardware table generated from this declaration. The operands use h-ccr
+; from mep-core.cpu so that SID's semantic trace will be consistent between
+; the core and the coprocessor but use parse/print handlers which reference the hardware table
+; generated from this declarations
+(define-hardware
+ (name h-ccr-avc2)
+ (comment "Coprocessor control registers for avc2 coprocessor")
+ (attrs VIRTUAL all-avc2-isas)
+ (type register SI (64))
+ (set (index newval) (c-call VOID "h_ccr_set" index newval))
+ (get (index) (c-call SI "h_ccr_get" index))
+ (indices keyword ""
+ (.splice
+ ($accl1 5) ($acch1 4) ($accl0 3) ($acch0 2) ($CBCR 1) ($csar 0)
+ ($cbcr 1)
+ (.unsplice (.map -ccr-reg-pair (.iota 6)))
+ )
+ )
+)
+(dnop avc2copCCR5 "Audio Copro Accumulator" (all-avc2-isas) h-ccr 5)
+(dnop avc2copCCR4 "Audio Copro Accumulator" (all-avc2-isas) h-ccr 4)
+(dnop avc2copCCR3 "Audio Copro Accumulator" (all-avc2-isas) h-ccr 3)
+(dnop avc2copCCR2 "Audio Copro Accumulator" (all-avc2-isas) h-ccr 2)
+(dnop avc2copCCR1 "Audio Copro Branch Condition Register" (all-avc2-isas) h-ccr 1)
+(dnop avc2copCCR0 "Audio Copro Shift-Amount Register" (all-avc2-isas) h-ccr 0)
+
+; instruction field and operand definitions
+(dnf f-avc2-v3sub4u0 "sub opecode field" (avc2-32-isa) 0 4)
+(dnf f-avc2-v1sub4u0 "sub opecode field" (avc2-16-isa) 0 4)
+(dnf f-avc2-v3Rn "register field" (avc2-32-isa) 4 4)
+(dnop avc2v3Rn "the operand definition" (avc2-32-isa) h-gpr f-avc2-v3Rn)
+(dnf f-avc2-v3CCRn "register field" (avc2-32-isa) 4 4)
+(define-full-operand avc2v3CCRn "the operand definition" (avc2-32-isa (CDATA REGNUM)) h-ccr DFLT f-avc2-v3CCRn ((parse "avc2_ccr") (print "avc2_ccr")) () ())
+(df f-avc2-v3Imm16s4x24e32-hi "split immediate field hi" (avc2-32-isa) 4 8 INT #f #f)
+(df f-avc2-v3Imm16s4x24e32-lo "split immediate field lo" (avc2-32-isa) 24 8 UINT #f #f)
+(define-multi-ifield
+ (name f-avc2-v3Imm16s4x24e32)
+ (comment "split immediate field")
+ (attrs avc2-32-isa)
+ (mode INT)
+ (subfields f-avc2-v3Imm16s4x24e32-hi f-avc2-v3Imm16s4x24e32-lo)
+ (insert (sequence ()
+ (set (ifield f-avc2-v3Imm16s4x24e32-hi) (sra INT (ifield f-avc2-v3Imm16s4x24e32) 8))
+ (set (ifield f-avc2-v3Imm16s4x24e32-lo) (and (ifield f-avc2-v3Imm16s4x24e32) #xff))))
+ (extract (set (ifield f-avc2-v3Imm16s4x24e32)
+ (or (sll (ifield f-avc2-v3Imm16s4x24e32-hi) 8) (ifield f-avc2-v3Imm16s4x24e32-lo))))
+ )
+(dnop avc2v3Imm16s4x24e32 "the operand definition" (avc2-32-isa) h-sint f-avc2-v3Imm16s4x24e32)
+(dnf f-avc2-v3CRn "register field" (avc2-32-isa) 4 4)
+(define-full-operand avc2v3CRn "the operand definition" (avc2-32-isa) h-cr DFLT f-avc2-v3CRn ((parse "avc2_cr") (print "avc2_cr")) () ())
+(dnf f-avc2-v1CRq "register field" (avc2-16-isa) 4 4)
+(define-full-operand avc2v1CRq "the operand definition" (avc2-16-isa) h-cr DFLT f-avc2-v1CRq ((parse "avc2_cr") (print "avc2_cr")) () ())
+(dnf f-avc2-v1sub4u4 "sub opecode field" (avc2-16-isa) 4 4)
+(dnf f-avc2-c3Rn "register field" (avc2-core-isa) 4 4)
+(dnop avc2c3Rn "the operand definition" (avc2-core-isa) h-gpr f-avc2-c3Rn)
+(dnf f-avc2-c3CCRn "register field" (avc2-core-isa) 4 4)
+(define-full-operand avc2c3CCRn "the operand definition" (avc2-core-isa (CDATA REGNUM)) h-ccr DFLT f-avc2-c3CCRn ((parse "avc2_ccr") (print "avc2_ccr")) () ())
+(df f-avc2-c3Imm16s4x24e32-hi "split immediate field hi" (avc2-core-isa) 4 8 INT #f #f)
+(df f-avc2-c3Imm16s4x24e32-lo "split immediate field lo" (avc2-core-isa) 24 8 UINT #f #f)
+(define-multi-ifield
+ (name f-avc2-c3Imm16s4x24e32)
+ (comment "split immediate field")
+ (attrs avc2-core-isa)
+ (mode INT)
+ (subfields f-avc2-c3Imm16s4x24e32-hi f-avc2-c3Imm16s4x24e32-lo)
+ (insert (sequence ()
+ (set (ifield f-avc2-c3Imm16s4x24e32-hi) (sra INT (ifield f-avc2-c3Imm16s4x24e32) 8))
+ (set (ifield f-avc2-c3Imm16s4x24e32-lo) (and (ifield f-avc2-c3Imm16s4x24e32) #xff))))
+ (extract (set (ifield f-avc2-c3Imm16s4x24e32)
+ (or (sll (ifield f-avc2-c3Imm16s4x24e32-hi) 8) (ifield f-avc2-c3Imm16s4x24e32-lo))))
+ )
+(dnop avc2c3Imm16s4x24e32 "the operand definition" (avc2-core-isa) h-sint f-avc2-c3Imm16s4x24e32)
+(dnf f-avc2-c3CRn "register field" (avc2-core-isa) 4 4)
+(define-full-operand avc2c3CRn "the operand definition" (avc2-core-isa) h-cr DFLT f-avc2-c3CRn ((parse "avc2_cr") (print "avc2_cr")) () ())
+(dnf f-avc2-c3sub4u4 "sub opecode field" (avc2-core-isa) 4 4)
+(dnf f-avc2-v3Rm "register field" (avc2-32-isa) 8 4)
+(dnop avc2v3Rm "the operand definition" (avc2-32-isa) h-gpr f-avc2-v3Rm)
+(df f-avc2-v1Imm6u8 "immediate field" (avc2-16-isa) 8 6 UINT #f #f)
+(dnop avc2v1Imm6u8 "the operand definition" (avc2-16-isa) h-uint f-avc2-v1Imm6u8)
+(df f-avc2-v1Imm5u8 "immediate field" (avc2-16-isa) 8 5 UINT #f #f)
+(dnop avc2v1Imm5u8 "the operand definition" (avc2-16-isa) h-uint f-avc2-v1Imm5u8)
+(df f-avc2-v1Imm6s8 "immediate field" (avc2-16-isa) 8 6 INT #f #f)
+(dnop avc2v1Imm6s8 "the operand definition" (avc2-16-isa) h-sint f-avc2-v1Imm6s8)
+(df f-avc2-v1Imm8s8 "immediate field" (avc2-16-isa) 8 8 INT #f #f)
+(dnop avc2v1Imm8s8 "the operand definition" (avc2-16-isa) h-sint f-avc2-v1Imm8s8)
+(dnf f-avc2-v1CRp "register field" (avc2-16-isa) 8 4)
+(define-full-operand avc2v1CRp "the operand definition" (avc2-16-isa) h-cr DFLT f-avc2-v1CRp ((parse "avc2_cr") (print "avc2_cr")) () ())
+(dnf f-avc2-v1sub4u8 "sub opecode field" (avc2-16-isa) 8 4)
+(dnf f-avc2-c3Rm "register field" (avc2-core-isa) 8 4)
+(dnop avc2c3Rm "the operand definition" (avc2-core-isa) h-gpr f-avc2-c3Rm)
+(dnf f-avc2-c3sub4u8 "sub opecode field" (avc2-core-isa) 8 4)
+(dnf f-avc2-v3sub4u12 "sub opecode field" (avc2-32-isa) 12 4)
+(dnf f-avc2-v1CRo "register field" (avc2-16-isa) 12 4)
+(define-full-operand avc2v1CRo "the operand definition" (avc2-16-isa) h-cr DFLT f-avc2-v1CRo ((parse "avc2_cr") (print "avc2_cr")) () ())
+(dnf f-avc2-v1sub4u12 "sub opecode field" (avc2-16-isa) 12 4)
+(dnf f-avc2-v1sub3u13 "sub opecode field" (avc2-16-isa) 13 3)
+(dnf f-avc2-v1sub2u14 "sub opecode field" (avc2-16-isa) 14 2)
+(dnf f-avc2-v3sub4u16 "sub opecode field" (avc2-32-isa) 16 4)
+(dnf f-avc2-c3sub4u16 "sub opecode field" (avc2-core-isa) 16 4)
+(dnf f-avc2-v3CRq "register field" (avc2-32-isa) 20 4)
+(define-full-operand avc2v3CRq "the operand definition" (avc2-32-isa) h-cr DFLT f-avc2-v3CRq ((parse "avc2_cr") (print "avc2_cr")) () ())
+(dnf f-avc2-v3sub4u20 "sub opecode field" (avc2-32-isa) 20 4)
+(dnf f-avc2-c3CRq "register field" (avc2-core-isa) 20 4)
+(define-full-operand avc2c3CRq "the operand definition" (avc2-core-isa) h-cr DFLT f-avc2-c3CRq ((parse "avc2_cr") (print "avc2_cr")) () ())
+(dnf f-avc2-c3sub4u20 "sub opecode field" (avc2-core-isa) 20 4)
+(dnf f-avc2-v3sub4u24 "sub opecode field" (avc2-32-isa) 24 4)
+(df f-avc2-c3Imm6u24 "immediate field" (avc2-core-isa) 24 6 UINT #f #f)
+(dnop avc2c3Imm6u24 "the operand definition" (avc2-core-isa) h-uint f-avc2-c3Imm6u24)
+(df f-avc2-c3Imm5u24 "immediate field" (avc2-core-isa) 24 5 UINT #f #f)
+(dnop avc2c3Imm5u24 "the operand definition" (avc2-core-isa) h-uint f-avc2-c3Imm5u24)
+(df f-avc2-c3Imm6s24 "immediate field" (avc2-core-isa) 24 6 INT #f #f)
+(dnop avc2c3Imm6s24 "the operand definition" (avc2-core-isa) h-sint f-avc2-c3Imm6s24)
+(dnf f-avc2-c3CRp "register field" (avc2-core-isa) 24 4)
+(define-full-operand avc2c3CRp "the operand definition" (avc2-core-isa) h-cr DFLT f-avc2-c3CRp ((parse "avc2_cr") (print "avc2_cr")) () ())
+(dnf f-avc2-c3sub4u24 "sub opecode field" (avc2-core-isa) 24 4)
+(dnf f-avc2-v3sub4u28 "sub opecode field" (avc2-32-isa) 28 4)
+(dnf f-avc2-c3CRo "register field" (avc2-core-isa) 28 4)
+(define-full-operand avc2c3CRo "the operand definition" (avc2-core-isa) h-cr DFLT f-avc2-c3CRo ((parse "avc2_cr") (print "avc2_cr")) () ())
+(dnf f-avc2-c3sub4u28 "sub opecode field" (avc2-core-isa) 28 4)
+(dnf f-avc2-c3sub3u29 "sub opecode field" (avc2-core-isa) 29 3)
+(dnf f-avc2-c3sub2u30 "sub opecode field" (avc2-core-isa) 30 2)
+
+; instruction definitions
+(dncpi cnop_avc2_c3 "cnop" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cnop"))
+ "cnop"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(c-call "check_option_cp" pc)
+ ())
+(dncpi cmov1_avc2_c3 "cmov1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmov1"))
+ "cmov $avc2c3CRn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3CRn avc2c3Rm (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRn avc2c3Rm)
+)
+ ())
+(dncpi cmov2_avc2_c3 "cmov2" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmov2"))
+ "cmov $avc2c3Rm,$avc2c3CRn"
+(+ MAJ_15 (f-sub4 7) avc2c3Rm avc2c3CRn (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3Rm avc2c3CRn)
+)
+ ())
+(dncpi cmovi_avc2_c3 "cmovi" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmovi"))
+ "cmovi $avc2c3CRq,$avc2c3Imm16s4x24e32"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm16s4x24e32 (f-avc2-c3sub4u16 #xe))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (ext SI avc2c3Imm16s4x24e32))
+)
+ ())
+(dncpi cmovc1_avc2_c3 "cmovc1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmovc1"))
+ "cmovc $avc2c3CCRn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3CCRn avc2c3Rm (f-avc2-c3sub4u28 #x2) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CCRn avc2c3Rm)
+)
+ ())
+(dncpi cmovc2_avc2_c3 "cmovc2" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmovc2"))
+ "cmovc $avc2c3Rm,$avc2c3CCRn"
+(+ MAJ_15 (f-sub4 7) avc2c3Rm avc2c3CCRn (f-avc2-c3sub4u28 #x3) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3Rm avc2c3CCRn)
+)
+ ())
+(dncpi cmov_avc2_c3 "cmov" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmov"))
+ "cmov $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x3) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq avc2c3CRp)
+)
+ ())
+(dncpi cadd3_avc2_c3 "cadd3" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cadd3"))
+ "cadd3 $avc2c3CRo,$avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRo avc2c3CRq avc2c3CRp (f-avc2-c3sub4u16 #x3) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRo (add avc2c3CRq avc2c3CRp))
+)
+ ())
+(dncpi caddi_avc2_c3 "caddi" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "caddi"))
+ "caddi $avc2c3CRq,$avc2c3Imm6s24"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm6s24 (f-avc2-c3sub2u30 #x0) (f-avc2-c3sub4u16 #x1) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (add avc2c3CRq (ext SI avc2c3Imm6s24)))
+)
+ ())
+(dncpi csub_avc2_c3 "csub" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csub"))
+ "csub $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x2) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (sub avc2c3CRq avc2c3CRp))
+)
+ ())
+(dncpi cneg_avc2_c3 "cneg" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cneg"))
+ "cneg $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (neg avc2c3CRp))
+)
+ ())
+(dncpi cextb_avc2_c3 "cextb" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cextb"))
+ "cextb $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x9) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (ext SI (and QI (srl avc2c3CRq 0) #xff)))
+)
+ ())
+(dncpi cexth_avc2_c3 "cexth" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cexth"))
+ "cexth $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x9) (f-avc2-c3sub4u24 #x2) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (ext SI (and HI (srl avc2c3CRq 0) #xffff)))
+)
+ ())
+(dncpi cextub_avc2_c3 "cextub" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cextub"))
+ "cextub $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x9) (f-avc2-c3sub4u24 #x8) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (zext SI (and QI (srl avc2c3CRq 0) #xff)))
+)
+ ())
+(dncpi cextuh_avc2_c3 "cextuh" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cextuh"))
+ "cextuh $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x9) (f-avc2-c3sub4u24 #xa) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (zext SI (and HI (srl avc2c3CRq 0) #xffff)))
+)
+ ())
+(dncpi cscltz_avc2_c3 "cscltz" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cscltz"))
+ "cscltz $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #xa) (f-avc2-c3sub4u24 #xa) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (lt (ext SI avc2c3CRq) (ext SI 0)) (set avc2copCCR1 (or (sll (srl avc2copCCR1 1) 1) (srl (sll (zext SI 1) 31) 31)))
+(set avc2copCCR1 (or (sll (srl avc2copCCR1 1) 1) (srl (sll (zext SI 0) 31) 31)))
+)
+)
+ ())
+(dncpi cldz_avc2_c3 "cldz" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cldz"))
+ "cldz $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u16 #x5) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (and avc2c3CRp #x80000000) (set avc2c3CRq 0)
+(if (and avc2c3CRp #x40000000) (set avc2c3CRq 1)
+(if (and avc2c3CRp #x20000000) (set avc2c3CRq 2)
+(if (and avc2c3CRp #x10000000) (set avc2c3CRq 3)
+(if (and avc2c3CRp #x8000000) (set avc2c3CRq 4)
+(if (and avc2c3CRp #x4000000) (set avc2c3CRq 5)
+(if (and avc2c3CRp #x2000000) (set avc2c3CRq 6)
+(if (and avc2c3CRp #x1000000) (set avc2c3CRq 7)
+(if (and avc2c3CRp #x800000) (set avc2c3CRq 8)
+(if (and avc2c3CRp #x400000) (set avc2c3CRq 9)
+(if (and avc2c3CRp #x200000) (set avc2c3CRq 10)
+(if (and avc2c3CRp #x100000) (set avc2c3CRq 11)
+(if (and avc2c3CRp #x80000) (set avc2c3CRq 12)
+(if (and avc2c3CRp #x40000) (set avc2c3CRq 13)
+(if (and avc2c3CRp #x20000) (set avc2c3CRq 14)
+(if (and avc2c3CRp #x10000) (set avc2c3CRq 15)
+(if (and avc2c3CRp #x8000) (set avc2c3CRq 16)
+(if (and avc2c3CRp #x4000) (set avc2c3CRq 17)
+(if (and avc2c3CRp #x2000) (set avc2c3CRq 18)
+(if (and avc2c3CRp #x1000) (set avc2c3CRq 19)
+(if (and avc2c3CRp #x800) (set avc2c3CRq 20)
+(if (and avc2c3CRp #x400) (set avc2c3CRq 21)
+(if (and avc2c3CRp #x200) (set avc2c3CRq 22)
+(if (and avc2c3CRp #x100) (set avc2c3CRq 23)
+(if (and avc2c3CRp #x80) (set avc2c3CRq 24)
+(if (and avc2c3CRp #x40) (set avc2c3CRq 25)
+(if (and avc2c3CRp #x20) (set avc2c3CRq 26)
+(if (and avc2c3CRp #x10) (set avc2c3CRq 27)
+(if (and avc2c3CRp #x8) (set avc2c3CRq 28)
+(if (and avc2c3CRp #x4) (set avc2c3CRq 29)
+(if (and avc2c3CRp #x2) (set avc2c3CRq 30)
+(if (and avc2c3CRp #x1) (set avc2c3CRq 31)
+(set avc2c3CRq 32)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+ ())
+(dncpi cabs_avc2_c3 "cabs" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cabs"))
+ "cabs $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x3) (f-avc2-c3sub4u16 #x5) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (abs (ext SI (subword SI (sub avc2c3CRq avc2c3CRp) 1))))
+)
+ ())
+(dncpi cad1s_avc2_c3 "cad1s" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cad1s"))
+ "cad1s $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u16 #x5) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((SI tmp0)) (c-call "check_option_cp" pc)
+(set tmp0 (subword SI (add avc2c3CRq avc2c3CRp) 1))
+(set avc2c3CRq (sra tmp0 1))
+)
+ ())
+(dncpi csb1s_avc2_c3 "csb1s" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csb1s"))
+ "csb1s $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x2) (f-avc2-c3sub4u16 #x5) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((SI tmp0)) (c-call "check_option_cp" pc)
+(set tmp0 (subword SI (sub avc2c3CRq avc2c3CRp) 1))
+(set avc2c3CRq (sra tmp0 1))
+)
+ ())
+(dncpi cmin_avc2_c3 "cmin" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmin"))
+ "cmin $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x8) (f-avc2-c3sub4u16 #x5) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (lt (ext SI avc2c3CRq) (ext SI avc2c3CRp)) (set avc2c3CRq avc2c3CRq)
+(set avc2c3CRq avc2c3CRp)
+)
+)
+ ())
+(dncpi cmax_avc2_c3 "cmax" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmax"))
+ "cmax $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x9) (f-avc2-c3sub4u16 #x5) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (gt (ext SI avc2c3CRq) (ext SI avc2c3CRp)) (set avc2c3CRq avc2c3CRq)
+(set avc2c3CRq avc2c3CRp)
+)
+)
+ ())
+(dncpi cminu_avc2_c3 "cminu" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cminu"))
+ "cminu $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xa) (f-avc2-c3sub4u16 #x5) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (ltu (zext SI avc2c3CRq) (zext SI avc2c3CRp)) (set avc2c3CRq avc2c3CRq)
+(set avc2c3CRq avc2c3CRp)
+)
+)
+ ())
+(dncpi cmaxu_avc2_c3 "cmaxu" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmaxu"))
+ "cmaxu $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xb) (f-avc2-c3sub4u16 #x5) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (gtu (zext SI avc2c3CRq) (zext SI avc2c3CRp)) (set avc2c3CRq avc2c3CRq)
+(set avc2c3CRq avc2c3CRp)
+)
+)
+ ())
+(dncpi cclipi_avc2_c3 "cclipi" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cclipi"))
+ "cclipi $avc2c3CRq,$avc2c3Imm5u24"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm5u24 (f-avc2-c3sub3u29 #x4) (f-avc2-c3sub4u16 #x5) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((SI tmp1)(SI tmp0)) (c-call "check_option_cp" pc)
+(if (eq (zext SI avc2c3Imm5u24) (ext SI 0)) (set avc2c3CRq 0)
+(sequence() (set tmp0 (sll 1 (sub avc2c3Imm5u24 1)))
+(set tmp1 (sub tmp0 1))
+(if (gt (ext SI avc2c3CRq) (ext SI tmp1)) (set avc2c3CRq tmp1)
+(if (lt (ext SI avc2c3CRq) (ext SI (neg tmp0))) (set avc2c3CRq (neg tmp0))
+(set avc2c3CRq avc2c3CRq)
+)
+)
+)
+)
+)
+ ())
+(dncpi cclipiu_avc2_c3 "cclipiu" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cclipiu"))
+ "cclipiu $avc2c3CRq,$avc2c3Imm5u24"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm5u24 (f-avc2-c3sub3u29 #x5) (f-avc2-c3sub4u16 #x5) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((SI tmp0)(SI tmp1)) (c-call "check_option_cp" pc)
+(if (eq (zext SI avc2c3Imm5u24) (ext SI 0)) (set avc2c3CRq 0)
+(sequence() (set tmp0 (sub (sll 1 avc2c3Imm5u24) 1))
+(if (gtu (ext SI avc2c3CRq) (zext SI tmp0)) (set avc2c3CRq tmp0)
+(if (lt (ext SI avc2c3CRq) (ext SI 0)) (set avc2c3CRq 0)
+(set avc2c3CRq avc2c3CRq)
+)
+)
+)
+)
+)
+ ())
+(dncpi cor_avc2_c3 "cor" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cor"))
+ "cor $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x4) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (or avc2c3CRq avc2c3CRp))
+)
+ ())
+(dncpi cand_avc2_c3 "cand" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cand"))
+ "cand $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x5) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (and avc2c3CRq avc2c3CRp))
+)
+ ())
+(dncpi cxor_avc2_c3 "cxor" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cxor"))
+ "cxor $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x6) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (xor avc2c3CRq avc2c3CRp))
+)
+ ())
+(dncpi cnor_avc2_c3 "cnor" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cnor"))
+ "cnor $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x7) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (inv (or avc2c3CRq avc2c3CRp)))
+)
+ ())
+(dncpi csra_avc2_c3 "csra" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csra"))
+ "csra $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xc) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (sra avc2c3CRq (and QI (srl avc2c3CRp 0) #x1f)))
+)
+ ())
+(dncpi csrl_avc2_c3 "csrl" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csrl"))
+ "csrl $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xd) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (srl avc2c3CRq (and QI (srl avc2c3CRp 0) #x1f)))
+)
+ ())
+(dncpi csll_avc2_c3 "csll" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csll"))
+ "csll $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xe) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (sll avc2c3CRq (and QI (srl avc2c3CRp 0) #x1f)))
+)
+ ())
+(dncpi csrai_avc2_c3 "csrai" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csrai"))
+ "csrai $avc2c3CRq,$avc2c3Imm5u24"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm5u24 (f-avc2-c3sub3u29 #x2) (f-avc2-c3sub4u16 #x1) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (sra avc2c3CRq avc2c3Imm5u24))
+)
+ ())
+(dncpi csrli_avc2_c3 "csrli" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csrli"))
+ "csrli $avc2c3CRq,$avc2c3Imm5u24"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm5u24 (f-avc2-c3sub3u29 #x3) (f-avc2-c3sub4u16 #x1) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (srl avc2c3CRq avc2c3Imm5u24))
+)
+ ())
+(dncpi cslli_avc2_c3 "cslli" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cslli"))
+ "cslli $avc2c3CRq,$avc2c3Imm5u24"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm5u24 (f-avc2-c3sub3u29 #x6) (f-avc2-c3sub4u16 #x1) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (sll avc2c3CRq avc2c3Imm5u24))
+)
+ ())
+(dncpi cfsft_avc2_c3 "cfsft" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cfsft"))
+ "cfsft $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xf) (f-avc2-c3sub4u16 #x0) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (subword SI (sll (or (sll (zext DI avc2c3CRq) 32) (zext DI avc2c3CRp)) (and QI (srl avc2copCCR0 0) #x3f)) 0))
+)
+ ())
+(dncpi cfsfta0_avc2_c3 "cfsfta0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cfsfta0"))
+ "cfsfta0 $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x7) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u16 #x1) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (subword SI (sll (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (and QI (srl avc2copCCR0 0) #x3f)) 0))
+)
+ ())
+(dncpi cfsfta1_avc2_c3 "cfsfta1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cfsfta1"))
+ "cfsfta1 $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #xf) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u16 #x1) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2c3CRq (subword SI (sll (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (and QI (srl avc2copCCR0 0) #x3f)) 0))
+)
+ ())
+(dncpi cmula0_avc2_c3 "cmula0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmula0"))
+ "cmula0 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat0)) (c-call "check_option_cp" pc)
+(set concat0 (mul (ext DI avc2c3CRq) (ext DI avc2c3CRp)))
+(set avc2copCCR2 (subword SI concat0 0))
+(set avc2copCCR3 (subword SI concat0 1))
+)
+ ())
+(dncpi cmulua0_avc2_c3 "cmulua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmulua0"))
+ "cmulua0 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat1)) (c-call "check_option_cp" pc)
+(set concat1 (mul (zext DI avc2c3CRq) (zext DI avc2c3CRp)))
+(set avc2copCCR2 (subword SI concat1 0))
+(set avc2copCCR3 (subword SI concat1 1))
+)
+ ())
+(dncpi cnmula0_avc2_c3 "cnmula0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cnmula0"))
+ "cnmula0 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x2) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat2)) (c-call "check_option_cp" pc)
+(set concat2 (neg (mul (ext DI avc2c3CRq) (ext DI avc2c3CRp))))
+(set avc2copCCR2 (subword SI concat2 0))
+(set avc2copCCR3 (subword SI concat2 1))
+)
+ ())
+(dncpi cmada0_avc2_c3 "cmada0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmada0"))
+ "cmada0 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x4) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat3)) (c-call "check_option_cp" pc)
+(set concat3 (add (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (ext DI avc2c3CRq) (ext DI avc2c3CRp))))
+(set avc2copCCR2 (subword SI concat3 0))
+(set avc2copCCR3 (subword SI concat3 1))
+)
+ ())
+(dncpi cmadua0_avc2_c3 "cmadua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmadua0"))
+ "cmadua0 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x5) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat4)) (c-call "check_option_cp" pc)
+(set concat4 (add (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (zext DI avc2c3CRq) (zext DI avc2c3CRp))))
+(set avc2copCCR2 (subword SI concat4 0))
+(set avc2copCCR3 (subword SI concat4 1))
+)
+ ())
+(dncpi cmsba0_avc2_c3 "cmsba0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmsba0"))
+ "cmsba0 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x6) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat5)) (c-call "check_option_cp" pc)
+(set concat5 (sub (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (ext DI avc2c3CRq) (ext DI avc2c3CRp))))
+(set avc2copCCR2 (subword SI concat5 0))
+(set avc2copCCR3 (subword SI concat5 1))
+)
+ ())
+(dncpi cmsbua0_avc2_c3 "cmsbua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmsbua0"))
+ "cmsbua0 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x7) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat6)) (c-call "check_option_cp" pc)
+(set concat6 (sub (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (zext DI avc2c3CRq) (zext DI avc2c3CRp))))
+(set avc2copCCR2 (subword SI concat6 0))
+(set avc2copCCR3 (subword SI concat6 1))
+)
+ ())
+(dncpi cmula1_avc2_c3 "cmula1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmula1"))
+ "cmula1 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x8) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat7)) (c-call "check_option_cp" pc)
+(set concat7 (mul (ext DI avc2c3CRq) (ext DI avc2c3CRp)))
+(set avc2copCCR4 (subword SI concat7 0))
+(set avc2copCCR5 (subword SI concat7 1))
+)
+ ())
+(dncpi cmulua1_avc2_c3 "cmulua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmulua1"))
+ "cmulua1 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x9) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat8)) (c-call "check_option_cp" pc)
+(set concat8 (mul (zext DI avc2c3CRq) (zext DI avc2c3CRp)))
+(set avc2copCCR4 (subword SI concat8 0))
+(set avc2copCCR5 (subword SI concat8 1))
+)
+ ())
+(dncpi cnmula1_avc2_c3 "cnmula1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cnmula1"))
+ "cnmula1 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xa) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat9)) (c-call "check_option_cp" pc)
+(set concat9 (neg (mul (ext DI avc2c3CRq) (ext DI avc2c3CRp))))
+(set avc2copCCR4 (subword SI concat9 0))
+(set avc2copCCR5 (subword SI concat9 1))
+)
+ ())
+(dncpi cmada1_avc2_c3 "cmada1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmada1"))
+ "cmada1 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xc) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat10)) (c-call "check_option_cp" pc)
+(set concat10 (add (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (ext DI avc2c3CRq) (ext DI avc2c3CRp))))
+(set avc2copCCR4 (subword SI concat10 0))
+(set avc2copCCR5 (subword SI concat10 1))
+)
+ ())
+(dncpi cmadua1_avc2_c3 "cmadua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmadua1"))
+ "cmadua1 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xd) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat11)) (c-call "check_option_cp" pc)
+(set concat11 (add (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (zext DI avc2c3CRq) (zext DI avc2c3CRp))))
+(set avc2copCCR4 (subword SI concat11 0))
+(set avc2copCCR5 (subword SI concat11 1))
+)
+ ())
+(dncpi cmsba1_avc2_c3 "cmsba1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmsba1"))
+ "cmsba1 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xe) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat12)) (c-call "check_option_cp" pc)
+(set concat12 (sub (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (ext DI avc2c3CRq) (ext DI avc2c3CRp))))
+(set avc2copCCR4 (subword SI concat12 0))
+(set avc2copCCR5 (subword SI concat12 1))
+)
+ ())
+(dncpi cmsbua1_avc2_c3 "cmsbua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmsbua1"))
+ "cmsbua1 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xf) (f-avc2-c3sub4u16 #x4) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat13)) (c-call "check_option_cp" pc)
+(set concat13 (sub (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (zext DI avc2c3CRq) (zext DI avc2c3CRp))))
+(set avc2copCCR4 (subword SI concat13 0))
+(set avc2copCCR5 (subword SI concat13 1))
+)
+ ())
+(dncpi xmula0_avc2_c3 "xmula0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmula0"))
+ "xmula0 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat14)) (c-call "check_option_cp" pc)
+(set concat14 (mul (ext DI avc2c3Rn) (ext DI avc2c3Rm)))
+(set avc2copCCR2 (subword SI concat14 0))
+(set avc2copCCR3 (subword SI concat14 1))
+)
+ ())
+(dncpi xmulua0_avc2_c3 "xmulua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmulua0"))
+ "xmulua0 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat15)) (c-call "check_option_cp" pc)
+(set concat15 (mul (zext DI avc2c3Rn) (zext DI avc2c3Rm)))
+(set avc2copCCR2 (subword SI concat15 0))
+(set avc2copCCR3 (subword SI concat15 1))
+)
+ ())
+(dncpi xnmula0_avc2_c3 "xnmula0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xnmula0"))
+ "xnmula0 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #x2) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat16)) (c-call "check_option_cp" pc)
+(set concat16 (neg (mul (ext DI avc2c3Rn) (ext DI avc2c3Rm))))
+(set avc2copCCR2 (subword SI concat16 0))
+(set avc2copCCR3 (subword SI concat16 1))
+)
+ ())
+(dncpi xmada0_avc2_c3 "xmada0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmada0"))
+ "xmada0 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #x4) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat17)) (c-call "check_option_cp" pc)
+(set concat17 (add (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (ext DI avc2c3Rn) (ext DI avc2c3Rm))))
+(set avc2copCCR2 (subword SI concat17 0))
+(set avc2copCCR3 (subword SI concat17 1))
+)
+ ())
+(dncpi xmadua0_avc2_c3 "xmadua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmadua0"))
+ "xmadua0 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #x5) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat18)) (c-call "check_option_cp" pc)
+(set concat18 (add (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (zext DI avc2c3Rn) (zext DI avc2c3Rm))))
+(set avc2copCCR2 (subword SI concat18 0))
+(set avc2copCCR3 (subword SI concat18 1))
+)
+ ())
+(dncpi xmsba0_avc2_c3 "xmsba0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmsba0"))
+ "xmsba0 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #x6) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat19)) (c-call "check_option_cp" pc)
+(set concat19 (sub (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (ext DI avc2c3Rn) (ext DI avc2c3Rm))))
+(set avc2copCCR2 (subword SI concat19 0))
+(set avc2copCCR3 (subword SI concat19 1))
+)
+ ())
+(dncpi xmsbua0_avc2_c3 "xmsbua0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmsbua0"))
+ "xmsbua0 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #x7) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat20)) (c-call "check_option_cp" pc)
+(set concat20 (sub (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (zext DI avc2c3Rn) (zext DI avc2c3Rm))))
+(set avc2copCCR2 (subword SI concat20 0))
+(set avc2copCCR3 (subword SI concat20 1))
+)
+ ())
+(dncpi xmula1_avc2_c3 "xmula1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmula1"))
+ "xmula1 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #x8) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat21)) (c-call "check_option_cp" pc)
+(set concat21 (mul (ext DI avc2c3Rn) (ext DI avc2c3Rm)))
+(set avc2copCCR4 (subword SI concat21 0))
+(set avc2copCCR5 (subword SI concat21 1))
+)
+ ())
+(dncpi xmulua1_avc2_c3 "xmulua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmulua1"))
+ "xmulua1 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #x9) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat22)) (c-call "check_option_cp" pc)
+(set concat22 (mul (zext DI avc2c3Rn) (zext DI avc2c3Rm)))
+(set avc2copCCR4 (subword SI concat22 0))
+(set avc2copCCR5 (subword SI concat22 1))
+)
+ ())
+(dncpi xnmula1_avc2_c3 "xnmula1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xnmula1"))
+ "xnmula1 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #xa) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat23)) (c-call "check_option_cp" pc)
+(set concat23 (neg (mul (ext DI avc2c3Rn) (ext DI avc2c3Rm))))
+(set avc2copCCR4 (subword SI concat23 0))
+(set avc2copCCR5 (subword SI concat23 1))
+)
+ ())
+(dncpi xmada1_avc2_c3 "xmada1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmada1"))
+ "xmada1 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #xc) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat24)) (c-call "check_option_cp" pc)
+(set concat24 (add (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (ext DI avc2c3Rn) (ext DI avc2c3Rm))))
+(set avc2copCCR4 (subword SI concat24 0))
+(set avc2copCCR5 (subword SI concat24 1))
+)
+ ())
+(dncpi xmadua1_avc2_c3 "xmadua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmadua1"))
+ "xmadua1 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #xd) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat25)) (c-call "check_option_cp" pc)
+(set concat25 (add (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (zext DI avc2c3Rn) (zext DI avc2c3Rm))))
+(set avc2copCCR4 (subword SI concat25 0))
+(set avc2copCCR5 (subword SI concat25 1))
+)
+ ())
+(dncpi xmsba1_avc2_c3 "xmsba1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmsba1"))
+ "xmsba1 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #xe) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat26)) (c-call "check_option_cp" pc)
+(set concat26 (sub (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (ext DI avc2c3Rn) (ext DI avc2c3Rm))))
+(set avc2copCCR4 (subword SI concat26 0))
+(set avc2copCCR5 (subword SI concat26 1))
+)
+ ())
+(dncpi xmsbua1_avc2_c3 "xmsbua1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "xmsbua1"))
+ "xmsbua1 $avc2c3Rn,$avc2c3Rm"
+(+ MAJ_15 (f-sub4 7) avc2c3Rn avc2c3Rm (f-avc2-c3sub4u28 #xf) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xc))
+(sequence((DI concat27)) (c-call "check_option_cp" pc)
+(set concat27 (sub (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (zext DI avc2c3Rn) (zext DI avc2c3Rm))))
+(set avc2copCCR4 (subword SI concat27 0))
+(set avc2copCCR5 (subword SI concat27 1))
+)
+ ())
+(dncpi cclipa0_avc2_c3 "cclipa0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cclipa0"))
+ "cclipa0 $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u16 #x6) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI tmp_rslt)(DI min)(DI max)) (c-call "check_option_cp" pc)
+(set max #x000000007FFFFFFF)
+(set min #xFFFFFFFF80000000)
+(if (gt (ext DI (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))) (ext DI max)) (set tmp_rslt max)
+(if (lt (ext DI (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))) (ext DI min)) (set tmp_rslt min)
+(set tmp_rslt (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)))
+)
+)
+(set avc2c3CRq (subword SI tmp_rslt 1))
+)
+ ())
+(dncpi cclipa1_avc2_c3 "cclipa1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cclipa1"))
+ "cclipa1 $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u16 #x6) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI tmp_rslt)(DI min)(DI max)) (c-call "check_option_cp" pc)
+(set max #x000000007FFFFFFF)
+(set min #xFFFFFFFF80000000)
+(if (gt (ext DI (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5))) (ext DI max)) (set tmp_rslt max)
+(if (lt (ext DI (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5))) (ext DI min)) (set tmp_rslt min)
+(set tmp_rslt (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)))
+)
+)
+(set avc2c3CRq (subword SI tmp_rslt 1))
+)
+ ())
+(dncpi cmvsla0i_avc2_c3 "cmvsla0i" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmvsla0i"))
+ "cmvsla0i $avc2c3CRq,$avc2c3Imm6u24"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm6u24 (f-avc2-c3sub2u30 #x2) (f-avc2-c3sub4u16 #xb) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat28)) (c-call "check_option_cp" pc)
+(set concat28 (sll (ext DI avc2c3CRq) avc2c3Imm6u24))
+(set avc2copCCR2 (subword SI concat28 0))
+(set avc2copCCR3 (subword SI concat28 1))
+)
+ ())
+(dncpi cmvsra0i_avc2_c3 "cmvsra0i" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmvsra0i"))
+ "cmvsra0i $avc2c3CRq,$avc2c3Imm6u24"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm6u24 (f-avc2-c3sub2u30 #x0) (f-avc2-c3sub4u16 #xb) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat29)) (c-call "check_option_cp" pc)
+(set concat29 (sra (ext DI avc2c3CRq) avc2c3Imm6u24))
+(set avc2copCCR2 (subword SI concat29 0))
+(set avc2copCCR3 (subword SI concat29 1))
+)
+ ())
+(dncpi cmvsla1i_avc2_c3 "cmvsla1i" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmvsla1i"))
+ "cmvsla1i $avc2c3CRq,$avc2c3Imm6u24"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm6u24 (f-avc2-c3sub2u30 #x3) (f-avc2-c3sub4u16 #xb) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat30)) (c-call "check_option_cp" pc)
+(set concat30 (sll (ext DI avc2c3CRq) avc2c3Imm6u24))
+(set avc2copCCR4 (subword SI concat30 0))
+(set avc2copCCR5 (subword SI concat30 1))
+)
+ ())
+(dncpi cmvsra1i_avc2_c3 "cmvsra1i" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cmvsra1i"))
+ "cmvsra1i $avc2c3CRq,$avc2c3Imm6u24"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3Imm6u24 (f-avc2-c3sub2u30 #x1) (f-avc2-c3sub4u16 #xb) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat31)) (c-call "check_option_cp" pc)
+(set concat31 (sra (ext DI avc2c3CRq) avc2c3Imm6u24))
+(set avc2copCCR4 (subword SI concat31 0))
+(set avc2copCCR5 (subword SI concat31 1))
+)
+ ())
+(dncpi csraa0i_avc2_c3 "csraa0i" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csraa0i"))
+ "csraa0i $avc2c3Imm6u24"
+(+ MAJ_15 (f-sub4 7) avc2c3Imm6u24 (f-avc2-c3sub2u30 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat32)) (c-call "check_option_cp" pc)
+(set concat32 (sra (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) avc2c3Imm6u24))
+(set avc2copCCR2 (subword SI concat32 0))
+(set avc2copCCR3 (subword SI concat32 1))
+)
+ ())
+(dncpi csraa1i_avc2_c3 "csraa1i" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csraa1i"))
+ "csraa1i $avc2c3Imm6u24"
+(+ MAJ_15 (f-sub4 7) avc2c3Imm6u24 (f-avc2-c3sub2u30 #x1) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat33)) (c-call "check_option_cp" pc)
+(set concat33 (sra (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) avc2c3Imm6u24))
+(set avc2copCCR4 (subword SI concat33 0))
+(set avc2copCCR5 (subword SI concat33 1))
+)
+ ())
+(dncpi csrla0i_avc2_c3 "csrla0i" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csrla0i"))
+ "csrla0i $avc2c3Imm6u24"
+(+ MAJ_15 (f-sub4 7) avc2c3Imm6u24 (f-avc2-c3sub2u30 #x0) (f-avc2-c3sub4u20 #x1) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat34)) (c-call "check_option_cp" pc)
+(set concat34 (srl (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) avc2c3Imm6u24))
+(set avc2copCCR2 (subword SI concat34 0))
+(set avc2copCCR3 (subword SI concat34 1))
+)
+ ())
+(dncpi csrla1i_avc2_c3 "csrla1i" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csrla1i"))
+ "csrla1i $avc2c3Imm6u24"
+(+ MAJ_15 (f-sub4 7) avc2c3Imm6u24 (f-avc2-c3sub2u30 #x1) (f-avc2-c3sub4u20 #x1) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat35)) (c-call "check_option_cp" pc)
+(set concat35 (srl (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) avc2c3Imm6u24))
+(set avc2copCCR4 (subword SI concat35 0))
+(set avc2copCCR5 (subword SI concat35 1))
+)
+ ())
+(dncpi cslla0i_avc2_c3 "cslla0i" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cslla0i"))
+ "cslla0i $avc2c3Imm6u24"
+(+ MAJ_15 (f-sub4 7) avc2c3Imm6u24 (f-avc2-c3sub2u30 #x0) (f-avc2-c3sub4u20 #x3) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat36)) (c-call "check_option_cp" pc)
+(set concat36 (sll (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) avc2c3Imm6u24))
+(set avc2copCCR2 (subword SI concat36 0))
+(set avc2copCCR3 (subword SI concat36 1))
+)
+ ())
+(dncpi cslla1i_avc2_c3 "cslla1i" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cslla1i"))
+ "cslla1i $avc2c3Imm6u24"
+(+ MAJ_15 (f-sub4 7) avc2c3Imm6u24 (f-avc2-c3sub2u30 #x1) (f-avc2-c3sub4u20 #x3) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat37)) (c-call "check_option_cp" pc)
+(set concat37 (sll (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) avc2c3Imm6u24))
+(set avc2copCCR4 (subword SI concat37 0))
+(set avc2copCCR5 (subword SI concat37 1))
+)
+ ())
+(dncpi csraa0_avc2_c3 "csraa0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csraa0"))
+ "csraa0"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #xc) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat38)) (c-call "check_option_cp" pc)
+(set concat38 (sra (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR2 (subword SI concat38 0))
+(set avc2copCCR3 (subword SI concat38 1))
+)
+ ())
+(dncpi csraa1_avc2_c3 "csraa1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csraa1"))
+ "csraa1"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #xc) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat39)) (c-call "check_option_cp" pc)
+(set concat39 (sra (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR4 (subword SI concat39 0))
+(set avc2copCCR5 (subword SI concat39 1))
+)
+ ())
+(dncpi csrla0_avc2_c3 "csrla0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csrla0"))
+ "csrla0"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #xd) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat40)) (c-call "check_option_cp" pc)
+(set concat40 (srl (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR2 (subword SI concat40 0))
+(set avc2copCCR3 (subword SI concat40 1))
+)
+ ())
+(dncpi csrla1_avc2_c3 "csrla1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csrla1"))
+ "csrla1"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #xd) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat41)) (c-call "check_option_cp" pc)
+(set concat41 (srl (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR4 (subword SI concat41 0))
+(set avc2copCCR5 (subword SI concat41 1))
+)
+ ())
+(dncpi cslla0_avc2_c3 "cslla0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cslla0"))
+ "cslla0"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #xf) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat42)) (c-call "check_option_cp" pc)
+(set concat42 (sll (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR2 (subword SI concat42 0))
+(set avc2copCCR3 (subword SI concat42 1))
+)
+ ())
+(dncpi cslla1_avc2_c3 "cslla1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cslla1"))
+ "cslla1"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #xf) (f-avc2-c3sub4u16 #x9) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat43)) (c-call "check_option_cp" pc)
+(set concat43 (sll (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR4 (subword SI concat43 0))
+(set avc2copCCR5 (subword SI concat43 1))
+)
+ ())
+(dncpi cadda0_avc2_c3 "cadda0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cadda0"))
+ "cadda0 $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u16 #x8) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat44)) (c-call "check_option_cp" pc)
+(set concat44 (add (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) (ext DI avc2c3CRq)))
+(set avc2copCCR2 (subword SI concat44 0))
+(set avc2copCCR3 (subword SI concat44 1))
+)
+ ())
+(dncpi cadda1_avc2_c3 "cadda1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cadda1"))
+ "cadda1 $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u16 #x8) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat45)) (c-call "check_option_cp" pc)
+(set concat45 (add (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (ext DI avc2c3CRq)))
+(set avc2copCCR4 (subword SI concat45 0))
+(set avc2copCCR5 (subword SI concat45 1))
+)
+ ())
+(dncpi csuba0_avc2_c3 "csuba0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csuba0"))
+ "csuba0 $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x2) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u16 #x8) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat46)) (c-call "check_option_cp" pc)
+(set concat46 (sub (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) (ext DI avc2c3CRq)))
+(set avc2copCCR2 (subword SI concat46 0))
+(set avc2copCCR3 (subword SI concat46 1))
+)
+ ())
+(dncpi csuba1_avc2_c3 "csuba1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csuba1"))
+ "csuba1 $avc2c3CRq"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq (f-avc2-c3sub4u28 #x3) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u16 #x8) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat47)) (c-call "check_option_cp" pc)
+(set concat47 (sub (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (ext DI avc2c3CRq)))
+(set avc2copCCR4 (subword SI concat47 0))
+(set avc2copCCR5 (subword SI concat47 1))
+)
+ ())
+(dncpi cadd2a0_avc2_c3 "cadd2a0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cadd2a0"))
+ "cadd2a0 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x8) (f-avc2-c3sub4u16 #x8) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat48)) (c-call "check_option_cp" pc)
+(set concat48 (add (ext DI avc2c3CRq) (ext DI avc2c3CRp)))
+(set avc2copCCR2 (subword SI concat48 0))
+(set avc2copCCR3 (subword SI concat48 1))
+)
+ ())
+(dncpi cadd2a1_avc2_c3 "cadd2a1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "cadd2a1"))
+ "cadd2a1 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #x9) (f-avc2-c3sub4u16 #x8) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat49)) (c-call "check_option_cp" pc)
+(set concat49 (add (ext DI avc2c3CRq) (ext DI avc2c3CRp)))
+(set avc2copCCR4 (subword SI concat49 0))
+(set avc2copCCR5 (subword SI concat49 1))
+)
+ ())
+(dncpi csub2a0_avc2_c3 "csub2a0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csub2a0"))
+ "csub2a0 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xa) (f-avc2-c3sub4u16 #x8) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat50)) (c-call "check_option_cp" pc)
+(set concat50 (sub (ext DI avc2c3CRq) (ext DI avc2c3CRp)))
+(set avc2copCCR2 (subword SI concat50 0))
+(set avc2copCCR3 (subword SI concat50 1))
+)
+ ())
+(dncpi csub2a1_avc2_c3 "csub2a1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csub2a1"))
+ "csub2a1 $avc2c3CRq,$avc2c3CRp"
+(+ MAJ_15 (f-sub4 7) avc2c3CRq avc2c3CRp (f-avc2-c3sub4u28 #xb) (f-avc2-c3sub4u16 #x8) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat51)) (c-call "check_option_cp" pc)
+(set concat51 (sub (ext DI avc2c3CRq) (ext DI avc2c3CRp)))
+(set avc2copCCR4 (subword SI concat51 0))
+(set avc2copCCR5 (subword SI concat51 1))
+)
+ ())
+(dncpi caddaa0_avc2_c3 "caddaa0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "caddaa0"))
+ "caddaa0"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x0) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xa) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat52)) (c-call "check_option_cp" pc)
+(set concat52 (add (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))))
+(set avc2copCCR2 (subword SI concat52 0))
+(set avc2copCCR3 (subword SI concat52 1))
+)
+ ())
+(dncpi caddaa1_avc2_c3 "caddaa1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "caddaa1"))
+ "caddaa1"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x1) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xa) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat53)) (c-call "check_option_cp" pc)
+(set concat53 (add (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))))
+(set avc2copCCR4 (subword SI concat53 0))
+(set avc2copCCR5 (subword SI concat53 1))
+)
+ ())
+(dncpi csubaa0_avc2_c3 "csubaa0" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csubaa0"))
+ "csubaa0"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x2) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xa) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat54)) (c-call "check_option_cp" pc)
+(set concat54 (sub (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))))
+(set avc2copCCR2 (subword SI concat54 0))
+(set avc2copCCR3 (subword SI concat54 1))
+)
+ ())
+(dncpi csubaa1_avc2_c3 "csubaa1" (OPTIONAL_CP_INSN (SLOT C3) (INTRINSIC "csubaa1"))
+ "csubaa1"
+(+ MAJ_15 (f-sub4 7) (f-avc2-c3sub4u28 #x3) (f-avc2-c3sub4u24 #x0) (f-avc2-c3sub4u20 #x0) (f-avc2-c3sub4u16 #xa) (f-avc2-c3sub4u8 #x0) (f-avc2-c3sub4u4 #x0))
+(sequence((DI concat55)) (c-call "check_option_cp" pc)
+(set concat55 (sub (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))))
+(set avc2copCCR4 (subword SI concat55 0))
+(set avc2copCCR5 (subword SI concat55 1))
+)
+ ())
+(dn16i cnop_avc2_v1 "cnop" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cnop"))
+ "cnop"
+(+ (f-avc2-v1sub4u12 #x0) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #x0) (f-avc2-v1sub4u0 #x0))
+(c-call "check_option_cp" pc)
+ ())
+(dnmi cpnop16_avc2_v1 "cpnop16"
+(avc2-16-isa NO-DIS)
+"cpnop16"
+(emit cnop_avc2_v1)
+)
+(dn16i cmov_avc2_v1 "cmov" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmov"))
+ "cmov $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x3) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq avc2v1CRp)
+)
+ ())
+(dn16i cmovi_avc2_v1 "cmovi" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmovi"))
+ "cmovi $avc2v1CRq,$avc2v1Imm8s8"
+(+ avc2v1CRq avc2v1Imm8s8 (f-avc2-v1sub4u0 #x2))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (ext SI avc2v1Imm8s8))
+)
+ ())
+(dn16i cadd3_avc2_v1 "cadd3" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cadd3"))
+ "cadd3 $avc2v1CRo,$avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRo avc2v1CRq avc2v1CRp (f-avc2-v1sub4u0 #x3))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRo (add avc2v1CRq avc2v1CRp))
+)
+ ())
+(dn16i caddi_avc2_v1 "caddi" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "caddi"))
+ "caddi $avc2v1CRq,$avc2v1Imm6s8"
+(+ avc2v1CRq avc2v1Imm6s8 (f-avc2-v1sub2u14 #x0) (f-avc2-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (add avc2v1CRq (ext SI avc2v1Imm6s8)))
+)
+ ())
+(dn16i csub_avc2_v1 "csub" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csub"))
+ "csub $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x2) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (sub avc2v1CRq avc2v1CRp))
+)
+ ())
+(dn16i cneg_avc2_v1 "cneg" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cneg"))
+ "cneg $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x1) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (neg avc2v1CRp))
+)
+ ())
+(dn16i cextb_avc2_v1 "cextb" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cextb"))
+ "cextb $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x9) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (ext SI (and QI (srl avc2v1CRq 0) #xff)))
+)
+ ())
+(dn16i cexth_avc2_v1 "cexth" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cexth"))
+ "cexth $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x9) (f-avc2-v1sub4u8 #x2) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (ext SI (and HI (srl avc2v1CRq 0) #xffff)))
+)
+ ())
+(dn16i cextub_avc2_v1 "cextub" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cextub"))
+ "cextub $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x9) (f-avc2-v1sub4u8 #x8) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (zext SI (and QI (srl avc2v1CRq 0) #xff)))
+)
+ ())
+(dn16i cextuh_avc2_v1 "cextuh" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cextuh"))
+ "cextuh $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x9) (f-avc2-v1sub4u8 #xa) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (zext SI (and HI (srl avc2v1CRq 0) #xffff)))
+)
+ ())
+(dn16i cscltz_avc2_v1 "cscltz" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cscltz"))
+ "cscltz $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #xa) (f-avc2-v1sub4u8 #xa) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(if (lt (ext SI avc2v1CRq) (ext SI 0)) (set avc2copCCR1 (or (sll (srl avc2copCCR1 1) 1) (srl (sll (zext SI 1) 31) 31)))
+(set avc2copCCR1 (or (sll (srl avc2copCCR1 1) 1) (srl (sll (zext SI 0) 31) 31)))
+)
+)
+ ())
+(dn16i cldz_avc2_v1 "cldz" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cldz"))
+ "cldz $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x0) (f-avc2-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(if (and avc2v1CRp #x80000000) (set avc2v1CRq 0)
+(if (and avc2v1CRp #x40000000) (set avc2v1CRq 1)
+(if (and avc2v1CRp #x20000000) (set avc2v1CRq 2)
+(if (and avc2v1CRp #x10000000) (set avc2v1CRq 3)
+(if (and avc2v1CRp #x8000000) (set avc2v1CRq 4)
+(if (and avc2v1CRp #x4000000) (set avc2v1CRq 5)
+(if (and avc2v1CRp #x2000000) (set avc2v1CRq 6)
+(if (and avc2v1CRp #x1000000) (set avc2v1CRq 7)
+(if (and avc2v1CRp #x800000) (set avc2v1CRq 8)
+(if (and avc2v1CRp #x400000) (set avc2v1CRq 9)
+(if (and avc2v1CRp #x200000) (set avc2v1CRq 10)
+(if (and avc2v1CRp #x100000) (set avc2v1CRq 11)
+(if (and avc2v1CRp #x80000) (set avc2v1CRq 12)
+(if (and avc2v1CRp #x40000) (set avc2v1CRq 13)
+(if (and avc2v1CRp #x20000) (set avc2v1CRq 14)
+(if (and avc2v1CRp #x10000) (set avc2v1CRq 15)
+(if (and avc2v1CRp #x8000) (set avc2v1CRq 16)
+(if (and avc2v1CRp #x4000) (set avc2v1CRq 17)
+(if (and avc2v1CRp #x2000) (set avc2v1CRq 18)
+(if (and avc2v1CRp #x1000) (set avc2v1CRq 19)
+(if (and avc2v1CRp #x800) (set avc2v1CRq 20)
+(if (and avc2v1CRp #x400) (set avc2v1CRq 21)
+(if (and avc2v1CRp #x200) (set avc2v1CRq 22)
+(if (and avc2v1CRp #x100) (set avc2v1CRq 23)
+(if (and avc2v1CRp #x80) (set avc2v1CRq 24)
+(if (and avc2v1CRp #x40) (set avc2v1CRq 25)
+(if (and avc2v1CRp #x20) (set avc2v1CRq 26)
+(if (and avc2v1CRp #x10) (set avc2v1CRq 27)
+(if (and avc2v1CRp #x8) (set avc2v1CRq 28)
+(if (and avc2v1CRp #x4) (set avc2v1CRq 29)
+(if (and avc2v1CRp #x2) (set avc2v1CRq 30)
+(if (and avc2v1CRp #x1) (set avc2v1CRq 31)
+(set avc2v1CRq 32)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+)
+ ())
+(dn16i cabs_avc2_v1 "cabs" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cabs"))
+ "cabs $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x3) (f-avc2-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (abs (ext SI (subword SI (sub avc2v1CRq avc2v1CRp) 1))))
+)
+ ())
+(dn16i cad1s_avc2_v1 "cad1s" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cad1s"))
+ "cad1s $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x1) (f-avc2-v1sub4u0 #x5))
+(sequence((SI tmp0)) (c-call "check_option_cp" pc)
+(set tmp0 (subword SI (add avc2v1CRq avc2v1CRp) 1))
+(set avc2v1CRq (sra tmp0 1))
+)
+ ())
+(dn16i csb1s_avc2_v1 "csb1s" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csb1s"))
+ "csb1s $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x2) (f-avc2-v1sub4u0 #x5))
+(sequence((SI tmp0)) (c-call "check_option_cp" pc)
+(set tmp0 (subword SI (sub avc2v1CRq avc2v1CRp) 1))
+(set avc2v1CRq (sra tmp0 1))
+)
+ ())
+(dn16i cmin_avc2_v1 "cmin" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmin"))
+ "cmin $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x8) (f-avc2-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(if (lt (ext SI avc2v1CRq) (ext SI avc2v1CRp)) (set avc2v1CRq avc2v1CRq)
+(set avc2v1CRq avc2v1CRp)
+)
+)
+ ())
+(dn16i cmax_avc2_v1 "cmax" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmax"))
+ "cmax $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x9) (f-avc2-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(if (gt (ext SI avc2v1CRq) (ext SI avc2v1CRp)) (set avc2v1CRq avc2v1CRq)
+(set avc2v1CRq avc2v1CRp)
+)
+)
+ ())
+(dn16i cminu_avc2_v1 "cminu" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cminu"))
+ "cminu $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xa) (f-avc2-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(if (ltu (zext SI avc2v1CRq) (zext SI avc2v1CRp)) (set avc2v1CRq avc2v1CRq)
+(set avc2v1CRq avc2v1CRp)
+)
+)
+ ())
+(dn16i cmaxu_avc2_v1 "cmaxu" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmaxu"))
+ "cmaxu $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xb) (f-avc2-v1sub4u0 #x5))
+(sequence() (c-call "check_option_cp" pc)
+(if (gtu (zext SI avc2v1CRq) (zext SI avc2v1CRp)) (set avc2v1CRq avc2v1CRq)
+(set avc2v1CRq avc2v1CRp)
+)
+)
+ ())
+(dn16i cclipi_avc2_v1 "cclipi" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cclipi"))
+ "cclipi $avc2v1CRq,$avc2v1Imm5u8"
+(+ avc2v1CRq avc2v1Imm5u8 (f-avc2-v1sub3u13 #x4) (f-avc2-v1sub4u0 #x5))
+(sequence((SI tmp1)(SI tmp0)) (c-call "check_option_cp" pc)
+(if (eq (zext SI avc2v1Imm5u8) (ext SI 0)) (set avc2v1CRq 0)
+(sequence() (set tmp0 (sll 1 (sub avc2v1Imm5u8 1)))
+(set tmp1 (sub tmp0 1))
+(if (gt (ext SI avc2v1CRq) (ext SI tmp1)) (set avc2v1CRq tmp1)
+(if (lt (ext SI avc2v1CRq) (ext SI (neg tmp0))) (set avc2v1CRq (neg tmp0))
+(set avc2v1CRq avc2v1CRq)
+)
+)
+)
+)
+)
+ ())
+(dn16i cclipiu_avc2_v1 "cclipiu" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cclipiu"))
+ "cclipiu $avc2v1CRq,$avc2v1Imm5u8"
+(+ avc2v1CRq avc2v1Imm5u8 (f-avc2-v1sub3u13 #x5) (f-avc2-v1sub4u0 #x5))
+(sequence((SI tmp1)(SI tmp0)) (c-call "check_option_cp" pc)
+(if (eq (zext SI avc2v1Imm5u8) (ext SI 0)) (set avc2v1CRq 0)
+(sequence() (set tmp0 (sub (sll 1 avc2v1Imm5u8) 1))
+(if (gtu (ext SI avc2v1CRq) (zext SI tmp0)) (set avc2v1CRq tmp0)
+(if (lt (ext SI avc2v1CRq) (ext SI 0)) (set avc2v1CRq 0)
+(set avc2v1CRq avc2v1CRq)
+)
+)
+)
+)
+)
+ ())
+(dn16i cor_avc2_v1 "cor" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cor"))
+ "cor $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x4) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (or avc2v1CRq avc2v1CRp))
+)
+ ())
+(dn16i cand_avc2_v1 "cand" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cand"))
+ "cand $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x5) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (and avc2v1CRq avc2v1CRp))
+)
+ ())
+(dn16i cxor_avc2_v1 "cxor" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cxor"))
+ "cxor $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x6) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (xor avc2v1CRq avc2v1CRp))
+)
+ ())
+(dn16i cnor_avc2_v1 "cnor" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cnor"))
+ "cnor $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x7) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (inv (or avc2v1CRq avc2v1CRp)))
+)
+ ())
+(dn16i csra_avc2_v1 "csra" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csra"))
+ "csra $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xc) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (sra avc2v1CRq (and QI (srl avc2v1CRp 0) #x1f)))
+)
+ ())
+(dn16i csrl_avc2_v1 "csrl" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csrl"))
+ "csrl $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xd) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (srl avc2v1CRq (and QI (srl avc2v1CRp 0) #x1f)))
+)
+ ())
+(dn16i csll_avc2_v1 "csll" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csll"))
+ "csll $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xe) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (sll avc2v1CRq (and QI (srl avc2v1CRp 0) #x1f)))
+)
+ ())
+(dn16i csrai_avc2_v1 "csrai" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csrai"))
+ "csrai $avc2v1CRq,$avc2v1Imm5u8"
+(+ avc2v1CRq avc2v1Imm5u8 (f-avc2-v1sub3u13 #x2) (f-avc2-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (sra avc2v1CRq avc2v1Imm5u8))
+)
+ ())
+(dn16i csrli_avc2_v1 "csrli" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csrli"))
+ "csrli $avc2v1CRq,$avc2v1Imm5u8"
+(+ avc2v1CRq avc2v1Imm5u8 (f-avc2-v1sub3u13 #x3) (f-avc2-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (srl avc2v1CRq avc2v1Imm5u8))
+)
+ ())
+(dn16i cslli_avc2_v1 "cslli" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cslli"))
+ "cslli $avc2v1CRq,$avc2v1Imm5u8"
+(+ avc2v1CRq avc2v1Imm5u8 (f-avc2-v1sub3u13 #x6) (f-avc2-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (sll avc2v1CRq avc2v1Imm5u8))
+)
+ ())
+(dn16i cfsft_avc2_v1 "cfsft" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cfsft"))
+ "cfsft $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xf) (f-avc2-v1sub4u0 #x0))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (subword SI (sll (or (sll (zext DI (zext SI avc2v1CRq)) 32) (zext DI avc2v1CRp)) (and QI (srl avc2copCCR0 0) #x3f)) 0))
+)
+ ())
+(dn16i cfsfta0_avc2_v1 "cfsfta0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cfsfta0"))
+ "cfsfta0 $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x7) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (subword SI (sll (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (and QI (srl avc2copCCR0 0) #x3f)) 0))
+)
+ ())
+(dn16i cfsfta1_avc2_v1 "cfsfta1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cfsfta1"))
+ "cfsfta1 $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #xf) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u0 #x1))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v1CRq (subword SI (sll (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (and QI (srl avc2copCCR0 0) #x3f)) 0))
+)
+ ())
+(dn16i cmula0_avc2_v1 "cmula0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmula0"))
+ "cmula0 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x0) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat56)) (c-call "check_option_cp" pc)
+(set concat56 (mul (ext DI avc2v1CRq) (ext DI avc2v1CRp)))
+(set avc2copCCR2 (subword SI concat56 0))
+(set avc2copCCR3 (subword SI concat56 1))
+)
+ ())
+(dn16i cmulua0_avc2_v1 "cmulua0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmulua0"))
+ "cmulua0 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x1) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat57)) (c-call "check_option_cp" pc)
+(set concat57 (mul (zext DI avc2v1CRq) (zext DI avc2v1CRp)))
+(set avc2copCCR2 (subword SI concat57 0))
+(set avc2copCCR3 (subword SI concat57 1))
+)
+ ())
+(dn16i cnmula0_avc2_v1 "cnmula0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cnmula0"))
+ "cnmula0 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x2) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat58)) (c-call "check_option_cp" pc)
+(set concat58 (neg (mul (ext DI avc2v1CRq) (ext DI avc2v1CRp))))
+(set avc2copCCR2 (subword SI concat58 0))
+(set avc2copCCR3 (subword SI concat58 1))
+)
+ ())
+(dn16i cmada0_avc2_v1 "cmada0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmada0"))
+ "cmada0 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x4) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat59)) (c-call "check_option_cp" pc)
+(set concat59 (add (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (ext DI avc2v1CRq) (ext DI avc2v1CRp))))
+(set avc2copCCR2 (subword SI concat59 0))
+(set avc2copCCR3 (subword SI concat59 1))
+)
+ ())
+(dn16i cmadua0_avc2_v1 "cmadua0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmadua0"))
+ "cmadua0 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x5) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat60)) (c-call "check_option_cp" pc)
+(set concat60 (add (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (zext DI avc2v1CRq) (zext DI avc2v1CRp))))
+(set avc2copCCR2 (subword SI concat60 0))
+(set avc2copCCR3 (subword SI concat60 1))
+)
+ ())
+(dn16i cmsba0_avc2_v1 "cmsba0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmsba0"))
+ "cmsba0 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x6) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat61)) (c-call "check_option_cp" pc)
+(set concat61 (sub (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (ext DI avc2v1CRq) (ext DI avc2v1CRp))))
+(set avc2copCCR2 (subword SI concat61 0))
+(set avc2copCCR3 (subword SI concat61 1))
+)
+ ())
+(dn16i cmsbua0_avc2_v1 "cmsbua0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmsbua0"))
+ "cmsbua0 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x7) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat62)) (c-call "check_option_cp" pc)
+(set concat62 (sub (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (zext DI avc2v1CRq) (zext DI avc2v1CRp))))
+(set avc2copCCR2 (subword SI concat62 0))
+(set avc2copCCR3 (subword SI concat62 1))
+)
+ ())
+(dn16i cmula1_avc2_v1 "cmula1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmula1"))
+ "cmula1 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x8) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat63)) (c-call "check_option_cp" pc)
+(set concat63 (mul (ext DI avc2v1CRq) (ext DI avc2v1CRp)))
+(set avc2copCCR4 (subword SI concat63 0))
+(set avc2copCCR5 (subword SI concat63 1))
+)
+ ())
+(dn16i cmulua1_avc2_v1 "cmulua1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmulua1"))
+ "cmulua1 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x9) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat64)) (c-call "check_option_cp" pc)
+(set concat64 (mul (zext DI avc2v1CRq) (zext DI avc2v1CRp)))
+(set avc2copCCR4 (subword SI concat64 0))
+(set avc2copCCR5 (subword SI concat64 1))
+)
+ ())
+(dn16i cnmula1_avc2_v1 "cnmula1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cnmula1"))
+ "cnmula1 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xa) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat65)) (c-call "check_option_cp" pc)
+(set concat65 (neg (mul (ext DI avc2v1CRq) (ext DI avc2v1CRp))))
+(set avc2copCCR4 (subword SI concat65 0))
+(set avc2copCCR5 (subword SI concat65 1))
+)
+ ())
+(dn16i cmada1_avc2_v1 "cmada1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmada1"))
+ "cmada1 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xc) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat66)) (c-call "check_option_cp" pc)
+(set concat66 (add (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (ext DI avc2v1CRq) (ext DI avc2v1CRp))))
+(set avc2copCCR4 (subword SI concat66 0))
+(set avc2copCCR5 (subword SI concat66 1))
+)
+ ())
+(dn16i cmadua1_avc2_v1 "cmadua1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmadua1"))
+ "cmadua1 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xd) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat67)) (c-call "check_option_cp" pc)
+(set concat67 (add (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (zext DI avc2v1CRq) (zext DI avc2v1CRp))))
+(set avc2copCCR4 (subword SI concat67 0))
+(set avc2copCCR5 (subword SI concat67 1))
+)
+ ())
+(dn16i cmsba1_avc2_v1 "cmsba1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmsba1"))
+ "cmsba1 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xe) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat68)) (c-call "check_option_cp" pc)
+(set concat68 (sub (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (ext DI avc2v1CRq) (ext DI avc2v1CRp))))
+(set avc2copCCR4 (subword SI concat68 0))
+(set avc2copCCR5 (subword SI concat68 1))
+)
+ ())
+(dn16i cmsbua1_avc2_v1 "cmsbua1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmsbua1"))
+ "cmsbua1 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xf) (f-avc2-v1sub4u0 #x4))
+(sequence((DI concat69)) (c-call "check_option_cp" pc)
+(set concat69 (sub (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (zext DI avc2v1CRq) (zext DI avc2v1CRp))))
+(set avc2copCCR4 (subword SI concat69 0))
+(set avc2copCCR5 (subword SI concat69 1))
+)
+ ())
+(dn16i cclipa0_avc2_v1 "cclipa0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cclipa0"))
+ "cclipa0 $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x0) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u0 #x6))
+(sequence((DI tmp_rslt)(DI min)(DI max)) (c-call "check_option_cp" pc)
+(set max #x000000007FFFFFFF)
+(set min #xFFFFFFFF80000000)
+(if (gt (ext DI (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))) (ext DI max)) (set tmp_rslt max)
+(if (lt (ext DI (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))) (ext DI min)) (set tmp_rslt min)
+(set tmp_rslt (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)))
+)
+)
+(set avc2v1CRq (subword SI tmp_rslt 1))
+)
+ ())
+(dn16i cclipa1_avc2_v1 "cclipa1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cclipa1"))
+ "cclipa1 $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x1) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u0 #x6))
+(sequence((DI tmp_rslt)(DI min)(DI max)) (c-call "check_option_cp" pc)
+(set max #x000000007FFFFFFF)
+(set min #xFFFFFFFF80000000)
+(if (gt (ext DI (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5))) (ext DI max)) (set tmp_rslt max)
+(if (lt (ext DI (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5))) (ext DI min)) (set tmp_rslt min)
+(set tmp_rslt (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)))
+)
+)
+(set avc2v1CRq (subword SI tmp_rslt 1))
+)
+ ())
+(dn16i cmvsla0i_avc2_v1 "cmvsla0i" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmvsla0i"))
+ "cmvsla0i $avc2v1CRq,$avc2v1Imm6u8"
+(+ avc2v1CRq avc2v1Imm6u8 (f-avc2-v1sub2u14 #x2) (f-avc2-v1sub4u0 #xb))
+(sequence((DI concat70)) (c-call "check_option_cp" pc)
+(set concat70 (sll (ext DI avc2v1CRq) avc2v1Imm6u8))
+(set avc2copCCR2 (subword SI concat70 0))
+(set avc2copCCR3 (subword SI concat70 1))
+)
+ ())
+(dn16i cmvsra0i_avc2_v1 "cmvsra0i" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmvsra0i"))
+ "cmvsra0i $avc2v1CRq,$avc2v1Imm6u8"
+(+ avc2v1CRq avc2v1Imm6u8 (f-avc2-v1sub2u14 #x0) (f-avc2-v1sub4u0 #xb))
+(sequence((DI concat71)) (c-call "check_option_cp" pc)
+(set concat71 (sra (ext DI avc2v1CRq) avc2v1Imm6u8))
+(set avc2copCCR2 (subword SI concat71 0))
+(set avc2copCCR3 (subword SI concat71 1))
+)
+ ())
+(dn16i cmvsla1i_avc2_v1 "cmvsla1i" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmvsla1i"))
+ "cmvsla1i $avc2v1CRq,$avc2v1Imm6u8"
+(+ avc2v1CRq avc2v1Imm6u8 (f-avc2-v1sub2u14 #x3) (f-avc2-v1sub4u0 #xb))
+(sequence((DI concat72)) (c-call "check_option_cp" pc)
+(set concat72 (sll (ext DI avc2v1CRq) avc2v1Imm6u8))
+(set avc2copCCR4 (subword SI concat72 0))
+(set avc2copCCR5 (subword SI concat72 1))
+)
+ ())
+(dn16i cmvsra1i_avc2_v1 "cmvsra1i" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cmvsra1i"))
+ "cmvsra1i $avc2v1CRq,$avc2v1Imm6u8"
+(+ avc2v1CRq avc2v1Imm6u8 (f-avc2-v1sub2u14 #x1) (f-avc2-v1sub4u0 #xb))
+(sequence((DI concat73)) (c-call "check_option_cp" pc)
+(set concat73 (sra (ext DI avc2v1CRq) avc2v1Imm6u8))
+(set avc2copCCR4 (subword SI concat73 0))
+(set avc2copCCR5 (subword SI concat73 1))
+)
+ ())
+(dn16i csraa0i_avc2_v1 "csraa0i" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csraa0i"))
+ "csraa0i $avc2v1Imm6u8"
+(+ avc2v1Imm6u8 (f-avc2-v1sub2u14 #x0) (f-avc2-v1sub4u4 #x0) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat74)) (c-call "check_option_cp" pc)
+(set concat74 (sra (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) avc2v1Imm6u8))
+(set avc2copCCR2 (subword SI concat74 0))
+(set avc2copCCR3 (subword SI concat74 1))
+)
+ ())
+(dn16i csraa1i_avc2_v1 "csraa1i" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csraa1i"))
+ "csraa1i $avc2v1Imm6u8"
+(+ avc2v1Imm6u8 (f-avc2-v1sub2u14 #x1) (f-avc2-v1sub4u4 #x0) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat75)) (c-call "check_option_cp" pc)
+(set concat75 (sra (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) avc2v1Imm6u8))
+(set avc2copCCR4 (subword SI concat75 0))
+(set avc2copCCR5 (subword SI concat75 1))
+)
+ ())
+(dn16i csrla0i_avc2_v1 "csrla0i" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csrla0i"))
+ "csrla0i $avc2v1Imm6u8"
+(+ avc2v1Imm6u8 (f-avc2-v1sub2u14 #x0) (f-avc2-v1sub4u4 #x1) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat76)) (c-call "check_option_cp" pc)
+(set concat76 (srl (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) avc2v1Imm6u8))
+(set avc2copCCR2 (subword SI concat76 0))
+(set avc2copCCR3 (subword SI concat76 1))
+)
+ ())
+(dn16i csrla1i_avc2_v1 "csrla1i" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csrla1i"))
+ "csrla1i $avc2v1Imm6u8"
+(+ avc2v1Imm6u8 (f-avc2-v1sub2u14 #x1) (f-avc2-v1sub4u4 #x1) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat77)) (c-call "check_option_cp" pc)
+(set concat77 (srl (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) avc2v1Imm6u8))
+(set avc2copCCR4 (subword SI concat77 0))
+(set avc2copCCR5 (subword SI concat77 1))
+)
+ ())
+(dn16i cslla0i_avc2_v1 "cslla0i" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cslla0i"))
+ "cslla0i $avc2v1Imm6u8"
+(+ avc2v1Imm6u8 (f-avc2-v1sub2u14 #x0) (f-avc2-v1sub4u4 #x3) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat78)) (c-call "check_option_cp" pc)
+(set concat78 (sll (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) avc2v1Imm6u8))
+(set avc2copCCR2 (subword SI concat78 0))
+(set avc2copCCR3 (subword SI concat78 1))
+)
+ ())
+(dn16i cslla1i_avc2_v1 "cslla1i" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cslla1i"))
+ "cslla1i $avc2v1Imm6u8"
+(+ avc2v1Imm6u8 (f-avc2-v1sub2u14 #x1) (f-avc2-v1sub4u4 #x3) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat79)) (c-call "check_option_cp" pc)
+(set concat79 (sll (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) avc2v1Imm6u8))
+(set avc2copCCR4 (subword SI concat79 0))
+(set avc2copCCR5 (subword SI concat79 1))
+)
+ ())
+(dn16i csraa0_avc2_v1 "csraa0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csraa0"))
+ "csraa0"
+(+ (f-avc2-v1sub4u12 #x0) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #xc) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat80)) (c-call "check_option_cp" pc)
+(set concat80 (sra (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR2 (subword SI concat80 0))
+(set avc2copCCR3 (subword SI concat80 1))
+)
+ ())
+(dn16i csraa1_avc2_v1 "csraa1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csraa1"))
+ "csraa1"
+(+ (f-avc2-v1sub4u12 #x1) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #xc) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat81)) (c-call "check_option_cp" pc)
+(set concat81 (sra (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR4 (subword SI concat81 0))
+(set avc2copCCR5 (subword SI concat81 1))
+)
+ ())
+(dn16i csrla0_avc2_v1 "csrla0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csrla0"))
+ "csrla0"
+(+ (f-avc2-v1sub4u12 #x0) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #xd) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat82)) (c-call "check_option_cp" pc)
+(set concat82 (srl (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR2 (subword SI concat82 0))
+(set avc2copCCR3 (subword SI concat82 1))
+)
+ ())
+(dn16i csrla1_avc2_v1 "csrla1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csrla1"))
+ "csrla1"
+(+ (f-avc2-v1sub4u12 #x1) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #xd) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat83)) (c-call "check_option_cp" pc)
+(set concat83 (srl (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR4 (subword SI concat83 0))
+(set avc2copCCR5 (subword SI concat83 1))
+)
+ ())
+(dn16i cslla0_avc2_v1 "cslla0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cslla0"))
+ "cslla0"
+(+ (f-avc2-v1sub4u12 #x0) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #xf) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat84)) (c-call "check_option_cp" pc)
+(set concat84 (sll (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR2 (subword SI concat84 0))
+(set avc2copCCR3 (subword SI concat84 1))
+)
+ ())
+(dn16i cslla1_avc2_v1 "cslla1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cslla1"))
+ "cslla1"
+(+ (f-avc2-v1sub4u12 #x1) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #xf) (f-avc2-v1sub4u0 #x9))
+(sequence((DI concat85)) (c-call "check_option_cp" pc)
+(set concat85 (sll (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (and QI (srl avc2copCCR0 0) #x3f)))
+(set avc2copCCR4 (subword SI concat85 0))
+(set avc2copCCR5 (subword SI concat85 1))
+)
+ ())
+(dn16i cadda0_avc2_v1 "cadda0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cadda0"))
+ "cadda0 $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x0) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u0 #x8))
+(sequence((DI concat86)) (c-call "check_option_cp" pc)
+(set concat86 (add (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) (ext DI avc2v1CRq)))
+(set avc2copCCR2 (subword SI concat86 0))
+(set avc2copCCR3 (subword SI concat86 1))
+)
+ ())
+(dn16i cadda1_avc2_v1 "cadda1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cadda1"))
+ "cadda1 $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x1) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u0 #x8))
+(sequence((DI concat87)) (c-call "check_option_cp" pc)
+(set concat87 (add (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (ext DI avc2v1CRq)))
+(set avc2copCCR4 (subword SI concat87 0))
+(set avc2copCCR5 (subword SI concat87 1))
+)
+ ())
+(dn16i csuba0_avc2_v1 "csuba0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csuba0"))
+ "csuba0 $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x2) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u0 #x8))
+(sequence((DI concat88)) (c-call "check_option_cp" pc)
+(set concat88 (sub (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3)) (ext DI avc2v1CRq)))
+(set avc2copCCR2 (subword SI concat88 0))
+(set avc2copCCR3 (subword SI concat88 1))
+)
+ ())
+(dn16i csuba1_avc2_v1 "csuba1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csuba1"))
+ "csuba1 $avc2v1CRq"
+(+ avc2v1CRq (f-avc2-v1sub4u12 #x3) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u0 #x8))
+(sequence((DI concat89)) (c-call "check_option_cp" pc)
+(set concat89 (sub (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (ext DI avc2v1CRq)))
+(set avc2copCCR4 (subword SI concat89 0))
+(set avc2copCCR5 (subword SI concat89 1))
+)
+ ())
+(dn16i cadd2a0_avc2_v1 "cadd2a0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cadd2a0"))
+ "cadd2a0 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x8) (f-avc2-v1sub4u0 #x8))
+(sequence((DI concat90)) (c-call "check_option_cp" pc)
+(set concat90 (add (ext DI avc2v1CRq) (ext DI avc2v1CRp)))
+(set avc2copCCR2 (subword SI concat90 0))
+(set avc2copCCR3 (subword SI concat90 1))
+)
+ ())
+(dn16i cadd2a1_avc2_v1 "cadd2a1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "cadd2a1"))
+ "cadd2a1 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #x9) (f-avc2-v1sub4u0 #x8))
+(sequence((DI concat91)) (c-call "check_option_cp" pc)
+(set concat91 (add (ext DI avc2v1CRq) (ext DI avc2v1CRp)))
+(set avc2copCCR4 (subword SI concat91 0))
+(set avc2copCCR5 (subword SI concat91 1))
+)
+ ())
+(dn16i csub2a0_avc2_v1 "csub2a0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csub2a0"))
+ "csub2a0 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xa) (f-avc2-v1sub4u0 #x8))
+(sequence((DI concat92)) (c-call "check_option_cp" pc)
+(set concat92 (sub (ext DI avc2v1CRq) (ext DI avc2v1CRp)))
+(set avc2copCCR2 (subword SI concat92 0))
+(set avc2copCCR3 (subword SI concat92 1))
+)
+ ())
+(dn16i csub2a1_avc2_v1 "csub2a1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csub2a1"))
+ "csub2a1 $avc2v1CRq,$avc2v1CRp"
+(+ avc2v1CRq avc2v1CRp (f-avc2-v1sub4u12 #xb) (f-avc2-v1sub4u0 #x8))
+(sequence((DI concat93)) (c-call "check_option_cp" pc)
+(set concat93 (sub (ext DI avc2v1CRq) (ext DI avc2v1CRp)))
+(set avc2copCCR4 (subword SI concat93 0))
+(set avc2copCCR5 (subword SI concat93 1))
+)
+ ())
+(dn16i caddaa0_avc2_v1 "caddaa0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "caddaa0"))
+ "caddaa0"
+(+ (f-avc2-v1sub4u12 #x0) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #x0) (f-avc2-v1sub4u0 #xa))
+(sequence((DI concat94)) (c-call "check_option_cp" pc)
+(set concat94 (add (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))))
+(set avc2copCCR2 (subword SI concat94 0))
+(set avc2copCCR3 (subword SI concat94 1))
+)
+ ())
+(dn16i caddaa1_avc2_v1 "caddaa1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "caddaa1"))
+ "caddaa1"
+(+ (f-avc2-v1sub4u12 #x1) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #x0) (f-avc2-v1sub4u0 #xa))
+(sequence((DI concat95)) (c-call "check_option_cp" pc)
+(set concat95 (add (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))))
+(set avc2copCCR4 (subword SI concat95 0))
+(set avc2copCCR5 (subword SI concat95 1))
+)
+ ())
+(dn16i csubaa0_avc2_v1 "csubaa0" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csubaa0"))
+ "csubaa0"
+(+ (f-avc2-v1sub4u12 #x2) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #x0) (f-avc2-v1sub4u0 #xa))
+(sequence((DI concat96)) (c-call "check_option_cp" pc)
+(set concat96 (sub (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))))
+(set avc2copCCR2 (subword SI concat96 0))
+(set avc2copCCR3 (subword SI concat96 1))
+)
+ ())
+(dn16i csubaa1_avc2_v1 "csubaa1" (VLIW64_NO_MATCHING_NOP (SLOT V1) (INTRINSIC "csubaa1"))
+ "csubaa1"
+(+ (f-avc2-v1sub4u12 #x3) (f-avc2-v1sub4u8 #x0) (f-avc2-v1sub4u4 #x0) (f-avc2-v1sub4u0 #xa))
+(sequence((DI concat97)) (c-call "check_option_cp" pc)
+(set concat97 (sub (or (sll (zext DI avc2copCCR4) 32) (zext DI avc2copCCR5)) (or (sll (zext DI avc2copCCR2) 32) (zext DI avc2copCCR3))))
+(set avc2copCCR4 (subword SI concat97 0))
+(set avc2copCCR5 (subword SI concat97 1))
+)
+ ())
+(dn32i cmov1_avc2_v3 "cmov1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "cmov1"))
+ "cmov $avc2v3CRn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3CRn avc2v3Rm (f-avc2-v3sub4u28 #x0) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v3CRn avc2v3Rm)
+)
+ ())
+(dn32i cmov2_avc2_v3 "cmov2" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "cmov2"))
+ "cmov $avc2v3Rm,$avc2v3CRn"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rm avc2v3CRn (f-avc2-v3sub4u28 #x1) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v3Rm avc2v3CRn)
+)
+ ())
+(dn32i cmovi_avc2_v3 "cmovi" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "cmovi"))
+ "cmovi $avc2v3CRq,$avc2v3Imm16s4x24e32"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3CRq avc2v3Imm16s4x24e32 (f-avc2-v3sub4u16 #xe))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v3CRq (ext SI avc2v3Imm16s4x24e32))
+)
+ ())
+(dn32i cmovc1_avc2_v3 "cmovc1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "cmovc1"))
+ "cmovc $avc2v3CCRn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3CCRn avc2v3Rm (f-avc2-v3sub4u28 #x2) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v3CCRn avc2v3Rm)
+)
+ ())
+(dn32i cmovc2_avc2_v3 "cmovc2" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "cmovc2"))
+ "cmovc $avc2v3Rm,$avc2v3CCRn"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rm avc2v3CCRn (f-avc2-v3sub4u28 #x3) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xf))
+(sequence() (c-call "check_option_cp" pc)
+(set avc2v3Rm avc2v3CCRn)
+)
+ ())
+(dn32i xmula0_avc2_v3 "xmula0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmula0"))
+ "xmula0 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #x0) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat98)) (c-call "check_option_cp" pc)
+(set concat98 (mul (ext DI avc2v3Rn) (ext DI avc2v3Rm)))
+(set avc2copCCR2 (subword SI concat98 0))
+(set avc2copCCR3 (subword SI concat98 1))
+)
+ ())
+(dn32i xmulua0_avc2_v3 "xmulua0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmulua0"))
+ "xmulua0 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #x1) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat99)) (c-call "check_option_cp" pc)
+(set concat99 (mul (zext DI avc2v3Rn) (zext DI avc2v3Rm)))
+(set avc2copCCR2 (subword SI concat99 0))
+(set avc2copCCR3 (subword SI concat99 1))
+)
+ ())
+(dn32i xnmula0_avc2_v3 "xnmula0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xnmula0"))
+ "xnmula0 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #x2) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat100)) (c-call "check_option_cp" pc)
+(set concat100 (neg (mul (ext DI avc2v3Rn) (ext DI avc2v3Rm))))
+(set avc2copCCR2 (subword SI concat100 0))
+(set avc2copCCR3 (subword SI concat100 1))
+)
+ ())
+(dn32i xmada0_avc2_v3 "xmada0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmada0"))
+ "xmada0 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #x4) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat101)) (c-call "check_option_cp" pc)
+(set concat101 (add (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (ext DI avc2v3Rn) (ext DI avc2v3Rm))))
+(set avc2copCCR2 (subword SI concat101 0))
+(set avc2copCCR3 (subword SI concat101 1))
+)
+ ())
+(dn32i xmadua0_avc2_v3 "xmadua0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmadua0"))
+ "xmadua0 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #x5) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat102)) (c-call "check_option_cp" pc)
+(set concat102 (add (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (zext DI avc2v3Rn) (zext DI avc2v3Rm))))
+(set avc2copCCR2 (subword SI concat102 0))
+(set avc2copCCR3 (subword SI concat102 1))
+)
+ ())
+(dn32i xmsba0_avc2_v3 "xmsba0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmsba0"))
+ "xmsba0 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #x6) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat103)) (c-call "check_option_cp" pc)
+(set concat103 (sub (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (ext DI avc2v3Rn) (ext DI avc2v3Rm))))
+(set avc2copCCR2 (subword SI concat103 0))
+(set avc2copCCR3 (subword SI concat103 1))
+)
+ ())
+(dn32i xmsbua0_avc2_v3 "xmsbua0" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmsbua0"))
+ "xmsbua0 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #x7) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat104)) (c-call "check_option_cp" pc)
+(set concat104 (sub (or (sll (zext DI (zext SI avc2copCCR2)) 32) (zext DI avc2copCCR3)) (mul (zext DI avc2v3Rn) (zext DI avc2v3Rm))))
+(set avc2copCCR2 (subword SI concat104 0))
+(set avc2copCCR3 (subword SI concat104 1))
+)
+ ())
+(dn32i xmula1_avc2_v3 "xmula1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmula1"))
+ "xmula1 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #x8) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat105)) (c-call "check_option_cp" pc)
+(set concat105 (mul (ext DI avc2v3Rn) (ext DI avc2v3Rm)))
+(set avc2copCCR4 (subword SI concat105 0))
+(set avc2copCCR5 (subword SI concat105 1))
+)
+ ())
+(dn32i xmulua1_avc2_v3 "xmulua1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmulua1"))
+ "xmulua1 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #x9) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat106)) (c-call "check_option_cp" pc)
+(set concat106 (mul (zext DI avc2v3Rn) (zext DI avc2v3Rm)))
+(set avc2copCCR4 (subword SI concat106 0))
+(set avc2copCCR5 (subword SI concat106 1))
+)
+ ())
+(dn32i xnmula1_avc2_v3 "xnmula1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xnmula1"))
+ "xnmula1 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #xa) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat107)) (c-call "check_option_cp" pc)
+(set concat107 (neg (mul (ext DI avc2v3Rn) (ext DI avc2v3Rm))))
+(set avc2copCCR4 (subword SI concat107 0))
+(set avc2copCCR5 (subword SI concat107 1))
+)
+ ())
+(dn32i xmada1_avc2_v3 "xmada1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmada1"))
+ "xmada1 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #xc) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat108)) (c-call "check_option_cp" pc)
+(set concat108 (add (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (ext DI avc2v3Rn) (ext DI avc2v3Rm))))
+(set avc2copCCR4 (subword SI concat108 0))
+(set avc2copCCR5 (subword SI concat108 1))
+)
+ ())
+(dn32i xmadua1_avc2_v3 "xmadua1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmadua1"))
+ "xmadua1 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #xd) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat109)) (c-call "check_option_cp" pc)
+(set concat109 (add (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (zext DI avc2v3Rn) (zext DI avc2v3Rm))))
+(set avc2copCCR4 (subword SI concat109 0))
+(set avc2copCCR5 (subword SI concat109 1))
+)
+ ())
+(dn32i xmsba1_avc2_v3 "xmsba1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmsba1"))
+ "xmsba1 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #xe) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat110)) (c-call "check_option_cp" pc)
+(set concat110 (sub (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (ext DI avc2v3Rn) (ext DI avc2v3Rm))))
+(set avc2copCCR4 (subword SI concat110 0))
+(set avc2copCCR5 (subword SI concat110 1))
+)
+ ())
+(dn32i xmsbua1_avc2_v3 "xmsbua1" (VLIW64_NO_MATCHING_NOP (SLOT V3) (INTRINSIC "xmsbua1"))
+ "xmsbua1 $avc2v3Rn,$avc2v3Rm"
+(+ (f-avc2-v3sub4u0 #xf) (f-avc2-v3sub4u12 #x7) avc2v3Rn avc2v3Rm (f-avc2-v3sub4u28 #xf) (f-avc2-v3sub4u24 #x0) (f-avc2-v3sub4u20 #x0) (f-avc2-v3sub4u16 #xc))
+(sequence((DI concat111)) (c-call "check_option_cp" pc)
+(set concat111 (sub (or (sll (zext DI (zext SI avc2copCCR4)) 32) (zext DI avc2copCCR5)) (mul (zext DI avc2v3Rn) (zext DI avc2v3Rm))))
+(set avc2copCCR4 (subword SI concat111 0))
+(set avc2copCCR5 (subword SI concat111 1))
+)
+ ())
--- /dev/null
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+; Insns introduced for the MeP-c5 core
+;
+
+(dnf f-c5n4 "extended field" (all-mep-core-isas) 16 4)
+(dnf f-c5n5 "extended field" (all-mep-core-isas) 20 4)
+(dnf f-c5n6 "extended field" (all-mep-core-isas) 24 4)
+(dnf f-c5n7 "extended field" (all-mep-core-isas) 28 4)
+(dnf f-rl5 "register l c5" (all-mep-core-isas) 20 4)
+(df f-12s20 "extended field" (all-mep-core-isas) 20 12 INT #f #f)
+
+(dnop rl5 "register Rl c5" (all-mep-core-isas) h-gpr f-rl5)
+(dnop cdisp12 "copro addend (12 bits)" (all-mep-core-isas) h-sint f-12s20)
+
+(dnci stcb_r "store in control bus space" (VOLATILE (MACH c5))
+ "stcb $rn,($rma)"
+ (+ MAJ_7 rn rma (f-sub4 12))
+ (c-call VOID "do_stcb" rn (and rma #xffff))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-stcb))))
+
+(dnci ldcb_r "load from control bus space" (VOLATILE (MACH c5) (LATENCY 3))
+ "ldcb $rn,($rma)"
+ (+ MAJ_7 rn rma (f-sub4 13))
+ (set rn (c-call SI "do_ldcb" (and rma #xffff)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-ldcb)
+ (unit u-exec)
+ (unit u-ldcb-gpr (out loadreg rn)))))
+
+(dnci pref "cache prefetch" ((MACH c5) VOLATILE)
+ "pref $cimm4,($rma)"
+ (+ MAJ_7 cimm4 rma (f-sub4 5))
+ (sequence ()
+ (c-call VOID "check_option_dcache" pc)
+ (c-call VOID "do_cache_prefetch" cimm4 rma pc))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci prefd "cache prefetch" ((MACH c5) VOLATILE)
+ "pref $cimm4,$sdisp16($rma)"
+ (+ MAJ_15 cimm4 rma (f-sub4 3) sdisp16)
+ (sequence ()
+ (c-call VOID "check_option_dcache" pc)
+ (c-call VOID "do_cache_prefetch" cimm4 (add INT rma (ext SI sdisp16)) pc))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci casb3 "compare and swap byte 3" ((MACH c5) VOLATILE OPTIONAL_BIT_INSN)
+ "casb3 $rl5,$rn,($rm)"
+ (+ MAJ_15 rn rm (f-sub4 #x1) (f-c5n4 #x2) rl5 (f-c5n6 #x0) (f-c5n7 #x0))
+ (sequence ()
+ (c-call VOID "do_casb3" (index-of rl5) rn rm pc)
+ (set rl5 rl5)
+ )
+ ((mep (unit u-use-gpr (in usereg rl5))
+ (unit u-load-gpr (out loadreg rl5))
+ (unit u-exec))))
+
+(dnci cash3 "compare and swap halfword 3" ((MACH c5) VOLATILE OPTIONAL_BIT_INSN)
+ "cash3 $rl5,$rn,($rm)"
+ (+ MAJ_15 rn rm (f-sub4 #x1) (f-c5n4 #x2) rl5 (f-c5n6 #x0) (f-c5n7 #x1))
+ (sequence ()
+ (c-call VOID "do_cash3" (index-of rl5) rn rm pc)
+ (set rl5 rl5)
+ )
+ ((mep (unit u-use-gpr (in usereg rl5))
+ (unit u-load-gpr (out loadreg rl5))
+ (unit u-exec))))
+
+(dnci casw3 "compare and swap word 3" ((MACH c5) VOLATILE OPTIONAL_BIT_INSN)
+ "casw3 $rl5,$rn,($rm)"
+ (+ MAJ_15 rn rm (f-sub4 #x1) (f-c5n4 #x2) rl5 (f-c5n6 #x0) (f-c5n7 #x2))
+ (sequence ()
+ (c-call VOID "do_casw3" (index-of rl5) rn rm pc)
+ (set rl5 rl5)
+ )
+ ((mep (unit u-use-gpr (in usereg rl5))
+ (unit u-load-gpr (out loadreg rl5))
+ (unit u-exec))))
+
+
+
+(dnci sbcp "store byte coprocessor" (OPTIONAL_CP_INSN (STALL STORE) (MACH c5))
+ "sbcp $crn,$cdisp12($rma)"
+ (+ MAJ_15 crn rma (f-sub4 6) (f-ext4 0) cdisp12)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" (add rma (ext SI cdisp12)))
+ (set (mem QI (add rma (ext SI cdisp12))) (and crn #xff)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lbcp "load byte coprocessor" (OPTIONAL_CP_INSN (STALL STORE) (MACH c5))
+ "lbcp $crn,$cdisp12($rma)"
+ (+ MAJ_15 crn rma (f-sub4 6) (f-ext4 4) cdisp12)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (ext SI (mem QI (add rma (ext SI cdisp12))))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lbucp "load byte coprocessor" (OPTIONAL_CP_INSN (STALL STORE) (MACH c5))
+ "lbucp $crn,$cdisp12($rma)"
+ (+ MAJ_15 crn rma (f-sub4 6) (f-ext4 12) cdisp12)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (zext SI (mem QI (add rma (ext SI cdisp12))))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+
+(dnci shcp "store half-word coprocessor" (OPTIONAL_CP_INSN (STALL STORE) (MACH c5))
+ "shcp $crn,$cdisp12($rma)"
+ (+ MAJ_15 crn rma (f-sub4 6) (f-ext4 1) cdisp12)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" (add rma (ext SI cdisp12)))
+ (set (mem HI (add rma (ext SI cdisp12))) (and crn #xffff)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lhcp "load half-word coprocessor" (OPTIONAL_CP_INSN (STALL STORE) (MACH c5))
+ "lhcp $crn,$cdisp12($rma)"
+ (+ MAJ_15 crn rma (f-sub4 6) (f-ext4 5) cdisp12)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (ext SI (mem HI (add rma (ext SI cdisp12))))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lhucp "load half-word coprocessor" (OPTIONAL_CP_INSN (STALL STORE) (MACH c5))
+ "lhucp $crn,$cdisp12($rma)"
+ (+ MAJ_15 crn rma (f-sub4 6) (f-ext4 13) cdisp12)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (zext SI (mem HI (add rma (ext SI cdisp12))))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+
+(dnci lbucpa "load byte coprocessor" (OPTIONAL_CP_INSN (STALL LOAD) (MACH c5))
+ "lbucpa $crn,($rma+),$cdisp10"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #xC) (f-ext62 #x0) cdisp10)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (zext SI (mem QI rma)))
+ (set rma (add rma cdisp10)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lhucpa "load half-word coprocessor" (OPTIONAL_CP_INSN (STALL LOAD) (MACH c5))
+ "lhucpa $crn,($rma+),$cdisp10a2"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #xD) (f-ext62 #x0) cdisp10a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (zext SI (mem HI (and rma (inv SI 1)))))
+ (set rma (add rma (ext SI cdisp10a2))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lbucpm0 "lbucpm0" (OPTIONAL_CP_INSN (MACH c5))
+ "lbucpm0 $crn,($rma+),$cdisp10"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #xc) (f-ext62 #x2) cdisp10)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (zext SI (mem QI rma)))
+ (set rma (mod0 cdisp10)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lhucpm0 "lhucpm0" (OPTIONAL_CP_INSN (MACH c5))
+ "lhucpm0 $crn,($rma+),$cdisp10a2"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #xd) (f-ext62 #x2) cdisp10a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (zext SI (mem HI (and rma (inv SI 1)))))
+ (set rma (mod0 cdisp10a2)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lbucpm1 "lbucpm1" (OPTIONAL_CP_INSN (MACH c5))
+ "lbucpm1 $crn,($rma+),$cdisp10"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #xc) (f-ext62 #x3) cdisp10)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (zext SI (mem QI rma)))
+ (set rma (mod1 cdisp10)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lhucpm1 "lhucpm1" (OPTIONAL_CP_INSN (MACH c5))
+ "lhucpm1 $crn,($rma+),$cdisp10a2"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #xd) (f-ext62 #x3) cdisp10a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (zext SI (mem HI (and rma (inv SI 1)))))
+ (set rma (mod1 cdisp10a2)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci uci "uci" ((MACH c5) VOLATILE)
+ "uci $rn,$rm,$uimm16"
+ (+ MAJ_15 rn rm (f-sub4 2) simm16)
+ (set rn (c-call SI "do_UCI" rn rm (zext SI uimm16) pc))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnf f-c5-rnm "register n/m" (all-mep-isas) 4 8)
+(dnf f-c5-rm "register m" (all-mep-isas) 8 4)
+(df f-c5-16u16 "general 16-bit u-val" (all-mep-isas) 16 16 UINT #f #f)
+
+(dnmf f-c5-rmuimm20 "20-bit immediate in Rm/Imm16" (all-mep-isas) UINT
+ (f-c5-rm f-c5-16u16)
+ (sequence () ; insert
+ (set (ifield f-c5-rm) (srl (ifield f-c5-rmuimm20) 16))
+ (set (ifield f-c5-16u16) (and (ifield f-c5-rmuimm20) #xffff))
+ )
+ (sequence () ; extract
+ (set (ifield f-c5-rmuimm20) (or (ifield f-c5-16u16)
+ (sll (ifield f-c5-rm) 16)))
+ )
+ )
+(dnop c5rmuimm20 "20-bit immediate in rm and imm16" (all-mep-core-isas) h-uint f-c5-rmuimm20)
+
+(dnmf f-c5-rnmuimm24 "24-bit immediate in Rm/Imm16" (all-mep-isas) UINT
+ (f-c5-rnm f-c5-16u16)
+ (sequence () ; insert
+ (set (ifield f-c5-rnm) (srl (ifield f-c5-rnmuimm24) 16))
+ (set (ifield f-c5-16u16) (and (ifield f-c5-rnmuimm24) #xffff))
+ )
+ (sequence () ; extract
+ (set (ifield f-c5-rnmuimm24) (or (ifield f-c5-16u16)
+ (sll (ifield f-c5-rnm) 16)))
+ )
+ )
+(dnop c5rnmuimm24 "24-bit immediate in rn, rm, and imm16" (all-mep-core-isas) h-uint f-c5-rnmuimm24)
+
+(dnci dsp "dsp" ((MACH c5) VOLATILE)
+ "dsp $rn,$rm,$uimm16"
+ (+ MAJ_15 rn rm (f-sub4 0) uimm16)
+ (set rn (c-call SI "do_DSP" rn rm (zext SI uimm16) pc))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci dsp0 "dsp0" ((MACH c5) VOLATILE NO-DIS ALIAS)
+ "dsp0 $c5rnmuimm24"
+ (+ MAJ_15 c5rnmuimm24 (f-sub4 0))
+ (c-call VOID "do_DSP" (zext SI c5rnmuimm24) pc)
+ ((mep (unit u-exec))))
+
+(dnci dsp1 "dsp1" ((MACH c5) VOLATILE NO-DIS ALIAS)
+ "dsp1 $rn,$c5rmuimm20"
+ (+ MAJ_15 rn (f-sub4 0) c5rmuimm20)
+ (set rn (c-call SI "do_DSP" rn (zext SI c5rmuimm20) pc))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
--- /dev/null
+; Toshiba MeP Media Engine architecture description. -*- Scheme -*-
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+(include "simplify.inc")
+
+(define-pmacro isa-enum ()
+ (isas mep
+; begin-isa-enum
+ ext_core1 ext_cop1_16 ext_cop1_32 ext_cop1_48 ext_cop1_64
+; end-isa-enum
+ )
+)
+
+(define-arch
+ (name mep)
+ (comment "Toshiba MeP Media Engine")
+ (insn-lsb0? #f) ;; work around cgen limitation
+ (machs mep h1 c5)
+ isa-enum
+)
+
+(define-isa
+ (name mep)
+ (comment "MeP core instruction set")
+ (default-insn-word-bitsize 32)
+ (default-insn-bitsize 32)
+ (base-insn-bitsize 32)
+)
+
+; begin-isas
+(define-isa
+ (name ext_core1)
+ (comment "MeP core extension instruction set")
+ (default-insn-word-bitsize 32)
+ (default-insn-bitsize 32)
+ (base-insn-bitsize 32)
+)
+
+(define-isa
+ (name ext_cop1_16)
+ (comment "MeP coprocessor instruction set")
+ (default-insn-word-bitsize 32)
+ (default-insn-bitsize 32)
+ (base-insn-bitsize 32)
+)
+
+(define-isa
+ (name ext_cop1_32)
+ (comment "MeP coprocessor instruction set")
+ (default-insn-word-bitsize 32)
+ (default-insn-bitsize 32)
+ (base-insn-bitsize 32)
+)
+
+(define-isa
+ (name ext_cop1_48)
+ (comment "MeP coprocessor instruction set")
+ (default-insn-word-bitsize 32)
+ (default-insn-bitsize 32)
+ (base-insn-bitsize 32)
+)
+
+(define-isa
+ (name ext_cop1_64)
+ (comment "MeP coprocessor instruction set")
+ (default-insn-word-bitsize 32)
+ (default-insn-bitsize 32)
+ (base-insn-bitsize 32)
+)
+
+(define-pmacro all-mep-isas () (ISA mep,ext_core1,ext_cop1_16,ext_cop1_32,ext_cop1_48,ext_cop1_64))
+
+(define-pmacro all-mep-core-isas () (ISA mep,ext_core1,ext_cop1_32))
+
+(define-pmacro all-core-isa-list () mep,ext_core1)
+; end-isas
+
+(define-cpu
+ (name mepf)
+ (comment "MeP family")
+ (endian either)
+ (insn-chunk-bitsize 16)
+ (word-bitsize 32)
+)
+
+(define-mach
+ (name mep)
+ (comment "MeP media engine")
+ (cpu mepf)
+ isa-enum
+)
+
+(define-mach
+ (name h1)
+ (comment "H1 media engine")
+ (cpu mepf)
+ isa-enum
+)
+
+(define-mach
+ (name c5)
+ (comment "C5 media engine")
+ (cpu mepf)
+ isa-enum
+)
+
+(define-model
+ (name mep)
+ (comment "MeP media engine processor")
+ (mach c5) ; mach gets changed by MeP-Integrator
+
+ (unit u-exec "execution unit" ()
+ 1 1 ; issue done
+ () () () ())
+
+ ; Branch unit
+ (unit u-branch "Branch Unit" ()
+ 0 0 ; issue done
+ () ; state
+ () ; inputs
+ ((pc)) ; outputs
+ () ; profile action (default)
+ )
+
+ ; Multiply unit
+ (unit u-multiply "Multiply Unit" ()
+ 0 0 ; issue done
+ () ; state
+ () ; inputs
+ () ; outputs
+ () ; profile action (default)
+ )
+
+ ; Divide unit
+ (unit u-divide "Divide Unit" ()
+ 0 0 ; issue done
+ () ; state
+ () ; inputs
+ () ; outputs
+ () ; profile action (default)
+ )
+
+ ; Stcb unit
+ (unit u-stcb "stcb Unit" ()
+ 0 0 ; issue done
+ () ; state
+ () ; inputs
+ () ; outputs
+ () ; profile action (default)
+ )
+
+ ; Ldcb unit
+ (unit u-ldcb "ldcb Unit" ()
+ 0 0 ; issue done
+ () ; state
+ () ; inputs
+ () ; outputs
+ () ; profile action (default)
+ )
+
+ ; Load gpr unit
+ (unit u-load-gpr "Load into GPR Unit" ()
+ 0 0 ; issue done
+ () ; state
+ () ; inputs
+ ((loadreg INT -1)) ; outputs
+ () ; profile action (default)
+ )
+
+ (unit u-ldcb-gpr "Ldcb into GPR Unit" ()
+ 0 0 ; issue done
+ () ; state
+ () ; inputs
+ ((loadreg INT -1)) ; outputs
+ () ; profile action (default)
+ )
+
+ ; Multiply into GPR unit
+ (unit u-mul-gpr "Multiply into GPR Unit" ()
+ 0 0 ; issue done
+ () ; state
+ () ; inputs
+ ((resultreg INT -1)) ; outputs
+ () ; profile action (default)
+ )
+
+ ; Use gpr unit -- stalls if GPR not ready
+ (unit u-use-gpr "Use GPR Unit" ()
+ 0 0 ; issue done
+ () ; state
+ ((usereg INT -1)) ; inputs
+ () ; outputs
+ () ; profile action (default)
+ )
+
+ ; Use ctrl-reg unit -- stalls if CTRL-REG not ready
+ (unit u-use-ctrl-reg "Use CTRL-REG Unit" ()
+ 0 0 ; issue done
+ () ; state
+ ((usereg INT -1)) ; inputs
+ () ; outputs
+ () ; profile action (default)
+ )
+
+ ; Store ctrl-reg unit -- stalls if CTRL-REG not ready
+ (unit u-store-ctrl-reg "Store CTRL-REG Unit" ()
+ 0 0 ; issue done
+ () ; state
+ () ; inputs
+ ((storereg INT -1)) ; outputs
+ () ; profile action (default)
+ )
+)
+\f
+; Hardware elements.
+
+(dnh h-pc "program counter" (PC PROFILE all-mep-isas) (pc) () () ())
+
+(define-hardware
+ (name h-gpr)
+ (comment "General purpose registers")
+ (attrs all-mep-isas CACHE-ADDR PROFILE)
+ (type register SI (16))
+ (indices keyword "$"
+ (("0" 0) ("1" 1) ("2" 2) ("3" 3) ("4" 4) ("5" 5)
+ ("6" 6) ("7" 7) ("8" 8) ("9" 9) ("10" 10) ("11" 11)
+ ; "$8" is the preferred name for register 8, but "$tp", "$gp"
+ ; and "$sp" are preferred for their respective registers.
+ (fp 8) (tp 13) (gp 14) (sp 15)
+ ("12" 12) ("13" 13) ("14" 14) ("15" 15)))
+)
+
+(define-hardware
+ (name h-csr)
+ (comment "Control/special registers")
+ (attrs all-mep-isas PROFILE)
+ (type register SI (32))
+ (indices keyword "$"
+ ((pc 0) (lp 1) (sar 2) (rpb 4) (rpe 5) (rpc 6)
+ (hi 7) (lo 8) (mb0 12) (me0 13) (mb1 14) (me1 15)
+ (psw 16) (id 17) (tmp 18) (epc 19) (exc 20) (cfg 21)
+ (npc 23) (dbg 24) (depc 25) (opt 26) (rcfg 27) (ccfg 28)
+; begin-extra-csr-registers
+ (vid 22)
+; end-extra-csr-registers
+ ))
+ (get (index) (c-call SI "cgen_get_csr_value" index))
+ (set (index newval) (c-call VOID "cgen_set_csr_value" index newval))
+)
+
+(define-pmacro (-reg-pair n) ((.sym n) n))
+(define-hardware
+ (name h-cr64)
+ (comment "64-bit coprocessor registers")
+ (attrs all-mep-isas)
+ ; This assumes that the data path of the co-pro is 64 bits.
+ (type register DI (32))
+ (indices keyword "$c" (.map -reg-pair (.iota 32)))
+ (set (index newval) (c-call VOID "h_cr64_queue_set" index newval))
+)
+(define-hardware
+ (name h-cr64-w)
+ (comment "64-bit coprocessor registers, pending writes")
+ (attrs all-mep-isas)
+ ; This assumes that the data path of the co-pro is 64 bits.
+ (type register DI (32))
+)
+
+(define-hardware
+ (name h-cr)
+ (comment "32-bit coprocessor registers")
+ (attrs all-mep-isas VIRTUAL)
+ (type register SI (32))
+ (indices keyword "$c" (.map -reg-pair (.iota 32)))
+ (set (index newval) (c-call VOID "h_cr64_set" index (ext DI newval)))
+ (get (index) (trunc SI (c-call DI "h_cr64_get" index)))
+)
+
+;; Given a coprocessor control register number N, expand to a
+;; name/index pair: ($ccrN N)
+(define-pmacro (-ccr-reg-pair n) ((.sym "$ccr" n) n))
+
+(define-hardware
+ (name h-ccr)
+ (comment "Coprocessor control registers")
+ (attrs all-mep-isas)
+ (type register SI (64))
+ (indices keyword "" (.map -ccr-reg-pair (.iota 64)))
+ (set (index newval) (c-call VOID "h_ccr_queue_set" index newval))
+)
+(define-hardware
+ (name h-ccr-w)
+ (comment "Coprocessor control registers, pending writes")
+ (attrs all-mep-isas)
+ (type register SI (64))
+)
+
+\f
+; Instruction fields. Bit numbering reversed.
+
+; Conventions:
+;
+; N = number of bits in value
+; A = alignment (2 or 4, omit for 1)
+; B = leftmost (i.e. closest to zero) bit position
+;
+; -- Generic Fields (f-*) --
+; N number of bits in *value* (1-24)
+; [us] signed vs unsigned
+; B position of left-most bit (4-16)
+; aA opt. alignment (2=drop 1 lsb, 4=drop 2 lsbs, etc)
+; n opt. for noncontiguous fields
+; f-foo-{hi,lo} msb/lsb parts of field f-foo
+;
+; -- Operands --
+; pcrelNaA PC-relative branch target (signed)
+; pcabsNaA Absolute branch target (unsigned)
+;
+; [us]dispNaA [un]signed displacement
+; [us]immN [un]signed immediate value
+; addrNaA absolute address (unsigned)
+;
+; Additional prefixes may be used for special cases.
+
+(dnf f-major "major opcode" (all-mep-core-isas) 0 4)
+
+(dnf f-rn "register n" (all-mep-core-isas) 4 4)
+(dnf f-rn3 "register 0-7" (all-mep-core-isas) 5 3)
+(dnf f-rm "register m" (all-mep-core-isas) 8 4)
+(dnf f-rl "register l" (all-mep-core-isas) 12 4)
+(dnf f-sub2 "sub opcode (2 bits)" (all-mep-core-isas) 14 2)
+(dnf f-sub3 "sub opcode (3 bits)" (all-mep-core-isas) 13 3)
+(dnf f-sub4 "sub opcode (4 bits)" (all-mep-core-isas) 12 4)
+(dnf f-ext "extended field" (all-mep-core-isas) 16 8)
+(dnf f-ext4 "extended field 16:4" (all-mep-core-isas) 16 4)
+(dnf f-ext62 "extended field 20:2" (all-mep-core-isas) 20 2)
+(dnf f-crn "copro register n" (all-mep-core-isas) 4 4)
+
+(df f-csrn-hi "cr hi 1u15" (all-mep-core-isas) 15 1 UINT #f #f)
+(df f-csrn-lo "cr lo 4u8" (all-mep-core-isas) 8 4 UINT #f #f)
+(define-multi-ifield
+ (name f-csrn)
+ (comment "control reg")
+ (attrs all-mep-core-isas)
+ (mode UINT)
+ (subfields f-csrn-hi f-csrn-lo)
+ (insert (sequence ()
+ (set (ifield f-csrn-lo) (and (ifield f-csrn) #xf))
+ (set (ifield f-csrn-hi) (srl (ifield f-csrn) 4))))
+ (extract (set (ifield f-csrn)
+ (or (sll (ifield f-csrn-hi) 4) (ifield f-csrn-lo))))
+ )
+
+(df f-crnx-hi "crx hi 1u28" (all-mep-core-isas) 28 1 UINT #f #f)
+(df f-crnx-lo "crx lo 4u4" (all-mep-core-isas) 4 4 UINT #f #f)
+(define-multi-ifield
+ (name f-crnx)
+ (comment "copro register n (0-31)")
+ (attrs all-mep-core-isas)
+ (mode UINT)
+ (subfields f-crnx-hi f-crnx-lo)
+ (insert (sequence ()
+ (set (ifield f-crnx-lo) (and (ifield f-crnx) #xf))
+ (set (ifield f-crnx-hi) (srl (ifield f-crnx) 4))))
+ (extract (set (ifield f-crnx)
+ (or (sll (ifield f-crnx-hi) 4) (ifield f-crnx-lo))))
+ )
+
+; Miscellaneous fields.
+
+(define-pmacro (dnfb n)
+ (dnf (.sym f- n) (.str "bit " n) (all-mep-isas) n 1))
+
+; Define small fields used throughout the instruction set description.
+; Each field (eg. `f-N') is at single bit field at position N.
+
+(dnfb 0)
+(dnfb 1)
+(dnfb 2)
+(dnfb 3)
+(dnfb 4)
+(dnfb 5)
+(dnfb 6)
+(dnfb 7)
+(dnfb 8)
+(dnfb 9)
+(dnfb 10)
+(dnfb 11)
+(dnfb 12)
+(dnfb 13)
+(dnfb 14)
+(dnfb 15)
+(dnfb 16)
+(dnfb 17)
+(dnfb 18)
+(dnfb 19)
+(dnfb 20)
+(dnfb 21)
+(dnfb 22)
+(dnfb 23)
+(dnfb 24)
+(dnfb 25)
+(dnfb 26)
+(dnfb 27)
+(dnfb 28)
+(dnfb 29)
+(dnfb 30)
+(dnfb 31)
+
+; Branch/Jump target addresses
+
+(df f-8s8a2 "pc-rel addr (8 bits)" (all-mep-core-isas PCREL-ADDR) 8 7 INT
+ ((value pc) (sra SI (sub SI value pc) 1))
+ ((value pc) (add SI (sll SI value 1) pc)))
+
+(df f-12s4a2 "pc-rel addr (12 bits)" (all-mep-core-isas PCREL-ADDR) 4 11 INT
+ ((value pc) (sra SI (sub SI value pc) 1))
+ ((value pc) (add SI (sll SI value 1) pc)))
+
+(df f-17s16a2 "pc-rel addr (17 bits)" (all-mep-core-isas PCREL-ADDR) 16 16 INT
+ ((value pc) (sra SI (sub SI value pc) 1))
+ ((value pc) (add SI (sll SI value 1) pc)))
+
+(df f-24s5a2n-hi "24s5a2n hi 16s16" (all-mep-core-isas PCREL-ADDR) 16 16 INT #f #f)
+(df f-24s5a2n-lo "24s5a2n lo 7s5a2" (all-mep-core-isas PCREL-ADDR) 5 7 UINT #f #f)
+(define-multi-ifield
+ (name f-24s5a2n)
+ (comment "pc-rel addr (24 bits align 2)")
+ (attrs all-mep-core-isas PCREL-ADDR)
+ (mode INT)
+ (subfields f-24s5a2n-hi f-24s5a2n-lo)
+ (insert (sequence ()
+ (set (ifield f-24s5a2n)
+ (sub (ifield f-24s5a2n) pc))
+ (set (ifield f-24s5a2n-lo)
+ (srl (and (ifield f-24s5a2n) #xfe) 1))
+ (set (ifield f-24s5a2n-hi)
+ (sra INT (ifield f-24s5a2n) 8))))
+ (extract (set (ifield f-24s5a2n)
+ (add SI (or (sll (ifield f-24s5a2n-hi) 8)
+ (sll (ifield f-24s5a2n-lo) 1))
+ pc)))
+ )
+
+(df f-24u5a2n-hi "24u5a2n hi 16u16" (all-mep-core-isas) 16 16 UINT #f #f)
+(df f-24u5a2n-lo "24u5a2n lo 7u5a2" (all-mep-core-isas) 5 7 UINT #f #f)
+(define-multi-ifield
+ (name f-24u5a2n)
+ (comment "abs jump target (24 bits, alignment 2)")
+ (attrs all-mep-core-isas ABS-ADDR)
+ (mode UINT)
+ (subfields f-24u5a2n-hi f-24u5a2n-lo)
+ (insert (sequence ()
+ (set (ifield f-24u5a2n-lo)
+ (srl (and (ifield f-24u5a2n) #xff) 1))
+ (set (ifield f-24u5a2n-hi)
+ (srl (ifield f-24u5a2n) 8))
+ ))
+ (extract (set (ifield f-24u5a2n)
+ (or (sll (ifield f-24u5a2n-hi) 8)
+ (sll (ifield f-24u5a2n-lo) 1))))
+ )
+
+; Displacement fields.
+
+(df f-2u6 "SAR offset (2 bits)" (all-mep-core-isas) 6 2 UINT #f #f)
+(df f-7u9 "tp-rel b (7 bits)" (all-mep-core-isas) 9 7 UINT #f #f)
+(df f-7u9a2 "tp-rel h (7 bits)" (all-mep-core-isas) 9 6 UINT
+ ((value pc) (srl SI value 1))
+ ((value pc) (sll SI value 1)))
+(df f-7u9a4 "tp/sp-rel w (7 bits)" (all-mep-core-isas) 9 5 UINT
+ ((value pc) (srl SI value 2))
+ ((value pc) (sll SI value 2)))
+(df f-16s16 "general 16-bit s-val" (all-mep-core-isas) 16 16 INT #f #f)
+
+; Immediate fields.
+
+(df f-2u10 "swi level (2 bits)" (all-mep-core-isas) 10 2 UINT #f #f)
+(df f-3u5 "bit offset (3 bits)" (all-mep-core-isas) 5 3 UINT #f #f)
+(df f-4u8 "bCC const (4 bits)" (all-mep-core-isas) 8 4 UINT #f #f)
+(df f-5u8 "slt & shifts (5 bits)" (all-mep-core-isas) 8 5 UINT #f #f)
+(df f-5u24 "clip immediate (5 bits)" (all-mep-core-isas) 24 5 UINT #f #f)
+(df f-6s8 "add immediate (6 bits)" (all-mep-core-isas) 8 6 INT #f #f)
+(df f-8s8 "add imm (8 bits)" (all-mep-core-isas) 8 8 INT #f #f)
+(df f-16u16 "general 16-bit u-val" (all-mep-core-isas) 16 16 UINT #f #f)
+(df f-12u16 "cmov fixed 1" (all-mep-core-isas) 16 12 UINT #f #f)
+(df f-3u29 "cmov fixed 2" (all-mep-core-isas) 29 3 UINT #f #f)
+
+
+; These are all for the coprocessor opcodes
+
+; The field is like IJKiiiiiii where I and J are toggled if K is set,
+; for compatibility with older cores.
+(define-pmacro (compute-cdisp10 val)
+ (cond SI
+ ((and SI (cond SI ((and SI val #x80) (xor SI val #x300)) (else val)) #x200)
+ (sub (cond SI ((and SI val #x80) (xor SI val #x300)) (else val)) #x400))
+ (else
+ (cond SI ((and SI val #x80) (xor SI val #x300)) (else val)))
+ )
+ )
+(define-pmacro (extend-cdisp10 val)
+ (cond SI
+ ((and SI (compute-cdisp10 val) #x200)
+ (sub (and SI (compute-cdisp10 val) #x3ff) #x400))
+ (else
+ (and SI (compute-cdisp10 val) #x3ff))
+ )
+ )
+
+(df f-cdisp10 "cop imm10" (all-mep-core-isas) 22 10 INT
+ ((value pc) (extend-cdisp10 value))
+ ((value pc) (extend-cdisp10 value))
+ )
+
+; Non-contiguous fields.
+
+(df f-24u8a4n-hi "24u8a4n hi 16u16" (all-mep-core-isas) 16 16 UINT #f #f)
+(df f-24u8a4n-lo "24u8a4n lo 8u8a4" (all-mep-core-isas) 8 6 UINT #f #f)
+(define-multi-ifield
+ (name f-24u8a4n)
+ (comment "absolute 24-bit address")
+ (attrs all-mep-core-isas)
+ (mode UINT)
+ (subfields f-24u8a4n-hi f-24u8a4n-lo)
+ (insert (sequence ()
+ (set (ifield f-24u8a4n-hi) (srl (ifield f-24u8a4n) 8))
+ (set (ifield f-24u8a4n-lo) (srl (and (ifield f-24u8a4n) #xfc) 2))))
+ (extract (set (ifield f-24u8a4n)
+ (or (sll (ifield f-24u8a4n-hi) 8)
+ (sll (ifield f-24u8a4n-lo) 2))))
+ )
+
+(df f-24u8n-hi "24u8n hi 16u16" (all-mep-core-isas) 16 16 UINT #f #f)
+(df f-24u8n-lo "24u8n lo 8u8" (all-mep-core-isas) 8 8 UINT #f #f)
+(define-multi-ifield
+ (name f-24u8n)
+ (comment "24-bit constant")
+ (attrs all-mep-core-isas)
+ (mode UINT)
+ (subfields f-24u8n-hi f-24u8n-lo)
+ (insert (sequence ()
+ (set (ifield f-24u8n-hi) (srl (ifield f-24u8n) 8))
+ (set (ifield f-24u8n-lo) (and (ifield f-24u8n) #xff))))
+ (extract (set (ifield f-24u8n)
+ (or (sll (ifield f-24u8n-hi) 8)
+ (ifield f-24u8n-lo))))
+ )
+
+(df f-24u4n-hi "24u4n hi 8u4" (all-mep-core-isas) 4 8 UINT #f #f)
+(df f-24u4n-lo "24u4n lo 16u16" (all-mep-core-isas) 16 16 UINT #f #f)
+(define-multi-ifield
+ (name f-24u4n)
+ (comment "coprocessor code")
+ (attrs all-mep-core-isas)
+ (mode UINT)
+ (subfields f-24u4n-hi f-24u4n-lo)
+ (insert (sequence ()
+ (set (ifield f-24u4n-hi) (srl (ifield f-24u4n) 16))
+ (set (ifield f-24u4n-lo) (and (ifield f-24u4n) #xffff))))
+ (extract (set (ifield f-24u4n)
+ (or (sll (ifield f-24u4n-hi) 16)
+ (ifield f-24u4n-lo))))
+ )
+
+(define-multi-ifield
+ (name f-callnum)
+ (comment "system call number field")
+ (attrs all-mep-core-isas)
+ (mode UINT)
+ (subfields f-5 f-6 f-7 f-11)
+ (insert (sequence ()
+ (set (ifield f-5) (and (srl (ifield f-callnum) 3) 1))
+ (set (ifield f-6) (and (srl (ifield f-callnum) 2) 1))
+ (set (ifield f-7) (and (srl (ifield f-callnum) 1) 1))
+ (set (ifield f-11) (and (ifield f-callnum) 1))))
+ (extract (set (ifield f-callnum)
+ (or (sll (ifield f-5) 3)
+ (or (sll (ifield f-6) 2)
+ (or (sll (ifield f-7) 1)
+ (ifield f-11))))))
+ )
+
+(df f-ccrn-hi "ccrn hi 2u28" (all-mep-core-isas) 28 2 UINT #f #f)
+(df f-ccrn-lo "ccrn lo 4u4" (all-mep-core-isas) 4 4 UINT #f #f)
+(define-multi-ifield
+ (name f-ccrn)
+ (comment "Coprocessor register number field")
+ (attrs all-mep-core-isas)
+ (mode UINT)
+ (subfields f-ccrn-hi f-ccrn-lo)
+ (insert (sequence ()
+ (set (ifield f-ccrn-hi) (and (srl (ifield f-ccrn) 4) #x3))
+ (set (ifield f-ccrn-lo) (and (ifield f-ccrn) #xf))))
+ (extract (set (ifield f-ccrn)
+ (or (sll (ifield f-ccrn-hi) 4)
+ (ifield f-ccrn-lo))))
+ )
+\f
+; Operands.
+
+;; Only LABEL, REGNUM, FMAX_FLOAT and FMAX_INT are now relevant for correct
+;; operation. The others are mostly kept for backwards compatibility,
+;; although they do affect the dummy prototypes in
+;; gcc/config/mep/intrinsics.h.
+(define-attr
+ (type enum)
+ (for operand)
+ (name CDATA)
+ (comment "datatype to use for C intrinsics mapping")
+ (values LABEL REGNUM FMAX_FLOAT FMAX_INT
+ POINTER LONG ULONG SHORT USHORT CHAR UCHAR CP_DATA_BUS_INT)
+ (default LONG))
+
+(define-attr
+ (type enum)
+ (for insn)
+ (name CPTYPE)
+ (comment "datatype to use for coprocessor values")
+ (values CP_DATA_BUS_INT VECT V2SI V4HI V8QI V2USI V4UHI V8UQI)
+ (default CP_DATA_BUS_INT))
+
+(define-attr
+ (type enum)
+ (for insn)
+ (name CRET)
+ ;; VOID - all arguments are passed as parameters; if any are written, pointers to them are passed.
+ ;; FIRST - the first argument is the return value.
+ ;; FIRSTCOPY - the first argument is the return value, but a copy is also the first parameter.
+ (values VOID FIRST FIRSTCOPY)
+ (default VOID)
+ (comment "Insn's intrinsic returns void, or the first argument rather than (or in addition to) passing it."))
+
+(define-attr
+ (type integer)
+ (for operand)
+ (name ALIGN)
+ (comment "alignment of immediate operands")
+ (default 1))
+
+(define-attr
+ (for operand)
+ (type boolean)
+ (name RELOC_IMPLIES_OVERFLOW)
+ (comment "Operand should not be considered as a candidate for relocs"))
+
+(define-attr
+ (for hardware)
+ (type boolean)
+ (name IS_FLOAT)
+ (comment "Register contains a floating point value"))
+
+(define-pmacro (dpop name commment attrib hwr field func)
+ (define-full-operand name comment attrib
+ hwr DFLT field ((parse func)) () ()))
+(define-pmacro (dprp name commment attrib hwr field pafunc prfunc)
+ (define-full-operand name comment attrib
+ hwr DFLT field ((parse pafunc) (print prfunc)) () ()))
+
+(dnop r0 "register 0" (all-mep-core-isas) h-gpr 0)
+(dnop rn "register Rn" (all-mep-core-isas) h-gpr f-rn)
+(dnop rm "register Rm" (all-mep-core-isas) h-gpr f-rm)
+(dnop rl "register Rl" (all-mep-core-isas) h-gpr f-rl)
+(dnop rn3 "register 0-7" (all-mep-core-isas) h-gpr f-rn3)
+
+;; Variants of RM/RN with different CDATA attributes. See comment above
+;; CDATA for more details.
+
+(dnop rma "register Rm holding pointer" (all-mep-core-isas (CDATA POINTER)) h-gpr f-rm)
+
+(dnop rnc "register Rn holding char" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn)
+(dnop rnuc "register Rn holding unsigned char" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn)
+(dnop rns "register Rn holding short" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn)
+(dnop rnus "register Rn holding unsigned short" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn)
+(dnop rnl "register Rn holding long" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn)
+(dnop rnul "register Rn holding unsigned long" (all-mep-core-isas (CDATA ULONG)) h-gpr f-rn)
+
+(dnop rn3c "register 0-7 holding unsigned char" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn3)
+(dnop rn3uc "register 0-7 holding byte" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn3)
+(dnop rn3s "register 0-7 holding unsigned short" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn3)
+(dnop rn3us "register 0-7 holding short" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn3)
+(dnop rn3l "register 0-7 holding unsigned long" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn3)
+(dnop rn3ul "register 0-7 holding long" (all-mep-core-isas (CDATA ULONG)) h-gpr f-rn3)
+
+
+(dnop lp "link pointer" (all-mep-core-isas) h-csr 1)
+(dnop sar "shift amount register" (all-mep-core-isas) h-csr 2)
+(dnop hi "high result" (all-mep-core-isas) h-csr 7)
+(dnop lo "low result" (all-mep-core-isas) h-csr 8)
+(dnop mb0 "modulo begin register 0" (all-mep-core-isas) h-csr 12)
+(dnop me0 "modulo end register 0" (all-mep-core-isas) h-csr 13)
+(dnop mb1 "modulo begin register 1" (all-mep-core-isas) h-csr 14)
+(dnop me1 "modulo end register 1" (all-mep-core-isas) h-csr 15)
+(dnop psw "program status word" (all-mep-core-isas) h-csr 16)
+(dnop epc "exception prog counter" (all-mep-core-isas) h-csr 19)
+(dnop exc "exception cause" (all-mep-core-isas) h-csr 20)
+(dnop npc "nmi program counter" (all-mep-core-isas) h-csr 23)
+(dnop dbg "debug register" (all-mep-core-isas) h-csr 24)
+(dnop depc "debug exception pc" (all-mep-core-isas) h-csr 25)
+(dnop opt "option register" (all-mep-core-isas) h-csr 26)
+(dnop r1 "register 1" (all-mep-core-isas) h-gpr 1)
+(dnop tp "tiny data area pointer" (all-mep-core-isas) h-gpr 13)
+(dnop sp "stack pointer" (all-mep-core-isas) h-gpr 15)
+(dprp tpr "TP register" (all-mep-core-isas) h-gpr 13 "tpreg" "tpreg")
+(dprp spr "SP register" (all-mep-core-isas) h-gpr 15 "spreg" "spreg")
+
+(define-full-operand
+ csrn "control/special register" (all-mep-core-isas (CDATA REGNUM)) h-csr
+ DFLT f-csrn ((parse "csrn")) () ()
+)
+
+(dnop csrn-idx "control/special reg idx" (all-mep-core-isas) h-uint f-csrn)
+(dnop crn64 "copro Rn (64-bit)" (all-mep-core-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-crn)
+(dnop crn "copro Rn (32-bit)" (all-mep-core-isas (CDATA CP_DATA_BUS_INT)) h-cr f-crn)
+(dnop crnx64 "copro Rn (0-31, 64-bit)" (all-mep-core-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-crnx)
+(dnop crnx "copro Rn (0-31, 32-bit)" (all-mep-core-isas (CDATA CP_DATA_BUS_INT)) h-cr f-crnx)
+(dnop ccrn "copro control reg CCRn" (all-mep-core-isas (CDATA REGNUM)) h-ccr f-ccrn)
+(dnop cccc "copro flags" (all-mep-core-isas) h-uint f-rm)
+
+(dprp pcrel8a2 "pc-rel addr (8 bits)" (all-mep-core-isas (CDATA LABEL) RELAX) h-sint f-8s8a2 "mep_align" "address")
+(dprp pcrel12a2 "pc-rel addr (12 bits)" (all-mep-core-isas (CDATA LABEL) RELAX) h-sint f-12s4a2 "mep_align" "address")
+(dprp pcrel17a2 "pc-rel addr (17 bits)" (all-mep-core-isas (CDATA LABEL) RELAX) h-sint f-17s16a2 "mep_align" "address")
+(dprp pcrel24a2 "pc-rel addr (24 bits)" (all-mep-core-isas (CDATA LABEL)) h-sint f-24s5a2n "mep_align" "address")
+(dprp pcabs24a2 "pc-abs addr (24 bits)" (all-mep-core-isas (CDATA LABEL)) h-uint f-24u5a2n "mep_alignu" "address")
+
+(dpop sdisp16 "displacement (16 bits)" (all-mep-core-isas) h-sint f-16s16 "signed16")
+(dpop simm16 "signed imm (16 bits)" (all-mep-core-isas) h-sint f-16s16 "signed16")
+(dpop uimm16 "unsigned imm (16 bits)" (all-mep-core-isas) h-uint f-16u16 "unsigned16")
+(dnop code16 "uci/dsp code (16 bits)" (all-mep-core-isas) h-uint f-16u16)
+
+(dnop udisp2 "SSARB addend (2 bits)" (all-mep-core-isas) h-sint f-2u6)
+(dnop uimm2 "interrupt (2 bits)" (all-mep-core-isas) h-uint f-2u10)
+
+(dnop simm6 "add const (6 bits)" (all-mep-core-isas) h-sint f-6s8)
+(dnop simm8 "mov const (8 bits)" (all-mep-core-isas RELOC_IMPLIES_OVERFLOW)
+ h-sint f-8s8)
+
+(dpop addr24a4 "sw/lw addr (24 bits)" (all-mep-core-isas (ALIGN 4)) h-uint f-24u8a4n "mep_alignu")
+(dnop code24 "coprocessor code" (all-mep-core-isas) h-uint f-24u4n)
+
+(dnop callnum "system call number" (all-mep-core-isas) h-uint f-callnum)
+(dnop uimm3 "bit immediate (3 bits)" (all-mep-core-isas) h-uint f-3u5)
+(dnop uimm4 "bCC const (4 bits)" (all-mep-core-isas) h-uint f-4u8)
+(dnop uimm5 "bit/shift val (5 bits)" (all-mep-core-isas) h-uint f-5u8)
+
+(dpop udisp7 "tp-rel b (7 bits)" (all-mep-core-isas) h-uint f-7u9 "unsigned7")
+(dpop udisp7a2 "tp-rel h (7 bits)" (all-mep-core-isas (ALIGN 2)) h-uint f-7u9a2 "unsigned7")
+(dpop udisp7a4 "tp/sp-rel w (7 bits)" (all-mep-core-isas (ALIGN 4)) h-uint f-7u9a4 "unsigned7")
+(dpop uimm7a4 "sp w-addend (7 bits)" (all-mep-core-isas (ALIGN 4)) h-uint f-7u9a4 "mep_alignu")
+
+(dnop uimm24 "immediate (24 bits)" (all-mep-core-isas) h-uint f-24u8n)
+
+(dnop cimm4 "cache immed'te (4 bits)" (all-mep-core-isas) h-uint f-rn)
+(dnop cimm5 "clip immediate (5 bits)" (all-mep-core-isas) h-uint f-5u24)
+
+(dpop cdisp10 "copro addend (8/10 bits)" (all-mep-core-isas) h-sint f-cdisp10 "cdisp10")
+(dpop cdisp10a2 "copro addend (8/10 bits)" (all-mep-core-isas) h-sint f-cdisp10 "cdisp10")
+(dpop cdisp10a4 "copro addend (8/10 bits)" (all-mep-core-isas) h-sint f-cdisp10 "cdisp10")
+(dpop cdisp10a8 "copro addend (8/10 bits)" (all-mep-core-isas) h-sint f-cdisp10 "cdisp10")
+
+; Special operand representing the various ways that the literal zero can be
+; specified.
+(define-full-operand
+ zero "Zero operand" (all-mep-core-isas) h-sint DFLT f-nil
+ ((parse "zero")) () ()
+)
+\f
+; Attributes.
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_BIT_INSN)
+ (comment "optional bit manipulation instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_MUL_INSN)
+ (comment "optional 32-bit multiply instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_DIV_INSN)
+ (comment "optional 32-bit divide instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_DEBUG_INSN)
+ (comment "optional debug instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_LDZ_INSN)
+ (comment "optional leading zeroes instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_ABS_INSN)
+ (comment "optional absolute difference instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_AVE_INSN)
+ (comment "optional average instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_MINMAX_INSN)
+ (comment "optional min/max instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_CLIP_INSN)
+ (comment "optional clipping instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_SAT_INSN)
+ (comment "optional saturation instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_UCI_INSN)
+ (comment "optional UCI instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_DSP_INSN)
+ (comment "optional DSP instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_CP_INSN)
+ (comment "optional coprocessor-related instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_CP64_INSN)
+ (comment "optional coprocessor-related 64 data bit instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name OPTIONAL_VLIW64)
+ (comment "optional vliw64 mode (vliw32 is default)"))
+
+(define-attr
+ (for insn)
+ (type enum)
+ (name STALL)
+ (attrs META)
+ (values NONE SHIFTI INT2 LOAD STORE LDC STC LDCB STCB SSARB FSFT RET
+ ADVCK MUL MULR DIV)
+ (default NONE)
+ (comment "gcc stall attribute"))
+
+(define-attr
+ (for insn)
+ (type string)
+ (name INTRINSIC)
+ (attrs META)
+ (comment "gcc intrinsic name"))
+
+(define-attr
+ (for insn)
+ (type enum)
+ (name SLOT)
+ (attrs META)
+ (values NONE C3 V1 V3 P0S P0 P1)
+ (default NONE)
+ (comment "coprocessor slot type"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name MAY_TRAP)
+ (comment "instruction may generate an exception"))
+
+; Attributes for scheduling restrictions in vliw mode
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name VLIW_ALONE)
+ (comment "instruction can be scheduled alone in vliw mode"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name VLIW_NO_CORE_NOP)
+ (comment "there is no corresponding nop core instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name VLIW_NO_COP_NOP)
+ (comment "there is no corresponding nop coprocessor instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name VLIW64_NO_MATCHING_NOP)
+ (comment "there is no corresponding nop coprocessor instruction"))
+(define-attr
+ (for insn)
+ (type boolean)
+ (name VLIW32_NO_MATCHING_NOP)
+ (comment "there is no corresponding nop coprocessor instruction"))
+
+(define-attr
+ (for insn)
+ (type boolean)
+ (name VOLATILE)
+ (comment "Insn is volatile."))
+
+(define-attr
+ (for insn)
+ (type integer)
+ (name LATENCY)
+ (comment "The latency of this insn, used for scheduling as an intrinsic in gcc")
+ (default 0))
+
+; The MeP config tool will edit this.
+(define-attr
+ (type enum)
+ (for insn)
+ (name CONFIG)
+ (values NONE ; config-attr-start
+ default
+ ) ; config-attr-end
+)
+
+\f
+; Enumerations.
+
+(define-normal-insn-enum major "major opcodes" (all-mep-core-isas) MAJ_
+ f-major
+ (.map .str (.iota 16))
+)
+
+
+(define-pmacro (dni-isa xname xcomment xattrs xsyntax xformat xsemantics xtiming isa)
+ (define-insn
+ (name xname)
+ (comment xcomment)
+ (.splice attrs (.unsplice xattrs) (ISA isa))
+ (syntax xsyntax)
+ (format xformat)
+ (semantics xsemantics)
+ (.splice timing (.unsplice xtiming))
+ )
+)
+
+(define-pmacro (dnmi-isa xname xcomment xattrs xsyntax xemit isa)
+ (dnmi xname xcomment (.splice (.unsplice xattrs) (ISA isa)) xsyntax xemit)
+)
+
+; For making profiling calls and dynamic configuration
+(define-pmacro (cg-profile caller callee)
+ (c-call "cg_profile" caller callee)
+)
+; For dynamic configuration only
+(define-pmacro (cg-profile-jump caller callee)
+ (c-call "cg_profile_jump" caller callee)
+)
+
+; For defining Core Instructions
+(define-pmacro (dnci xname xcomment xattrs xsyntax xformat xsemantics xtiming)
+ (dni-isa xname xcomment xattrs xsyntax xformat xsemantics xtiming all-core-isa-list)
+)
+(define-pmacro (dncmi xname xcomment xattrs xsyntax xemit)
+ (dnmi-isa xname xcomment xattrs xsyntax xemit all-core-isa-list)
+)
+
+; For defining Coprocessor Instructions
+;(define-pmacro (dncpi xname xcomment xattrs xsyntax xformat xsemantics xtiming) (dni-isa xname xcomment xattrs xsyntax xformat xsemantics xtiming cop)
+;)
+
+;; flag setting macro
+(define-pmacro (set-bit xop xbitnum xval)
+ (set xop (or
+ (and xop (inv (sll 1 xbitnum)))
+ (and (sll 1 xbitnum) (sll xval xbitnum)))))
+
+;; some flags we commonly use in vliw reasoning / mode-switching etc.
+(define-pmacro (get-opt.vliw64) (and (srl opt 6) 1))
+(define-pmacro (get-opt.vliw32) (and (srl opt 5) 1))
+(define-pmacro (get-rm.lsb) (and rm 1))
+(define-pmacro (get-psw.om) (and (srl psw 12) 1))
+(define-pmacro (get-psw.nmi) (and (srl psw 9) 1))
+(define-pmacro (get-psw.iep) (and (srl psw 1) 1))
+(define-pmacro (get-psw.ump) (and (srl psw 3) 1))
+(define-pmacro (get-epc.etom) (and epc 1))
+(define-pmacro (get-npc.ntom) (and npc 1))
+(define-pmacro (get-lp.ltom) (and lp 1))
+
+(define-pmacro (set-psw.om zval) (set-bit (raw-reg h-csr 16) 12 zval))
+(define-pmacro (set-psw.nmi zval) (set-bit (raw-reg h-csr 16) 9 zval))
+(define-pmacro (set-psw.umc zval) (set-bit (raw-reg h-csr 16) 2 zval))
+(define-pmacro (set-psw.iec zval) (set-bit (raw-reg h-csr 16) 0 zval))
+(define-pmacro (set-rpe.elr zval) (set-bit (raw-reg h-csr 5) 0 zval))
+
+
+;; the "3 way switch" depending on our current operating mode and vliw status flags
+(define-pmacro (core-vliw-switch core-rtl vliw32-rtl vliw64-rtl)
+ (cond
+ ((andif (get-psw.om) (get-opt.vliw64)) vliw64-rtl)
+ ((andif (get-psw.om) (get-opt.vliw32)) vliw32-rtl)
+ (else core-rtl)))
+
+;; the varying-pcrel idiom
+(define-pmacro (set-vliw-modified-pcrel-offset xtarg xa xb xc)
+ (core-vliw-switch (set xtarg (add pc xa))
+ (set xtarg (add pc xb))
+ (set xtarg (add pc xc))))
+
+;; the increasing-alignment idiom in branch displacements
+(define-pmacro (set-vliw-alignment-modified xtarg zaddr)
+ (core-vliw-switch (set xtarg (and zaddr (inv 1)))
+ (set xtarg (and zaddr (inv 3)))
+ (set xtarg (and zaddr (inv 7)))))
+
+;; the increasing-alignment idiom in option-only form
+(define-pmacro (set-vliw-aliignment-modified-by-option xtarg zaddr)
+ (if (get-opt.vliw32)
+ (set xtarg (and zaddr (inv 3)))
+ (set xtarg (and zaddr (inv 7)))))
+
+
+\f
+; pmacros needed for coprocessor modulo addressing.
+
+; Taken from supplement ``The operation of the modulo addressing'' in
+; Toshiba documentation rev 2.2, p. 34.
+
+(define-pmacro (compute-mask0)
+ (sequence SI ((SI temp))
+ (set temp (or mb0 me0))
+ (srl (const SI -1) (c-call SI "do_ldz" temp))))
+
+(define-pmacro (mod0 immed)
+ (sequence SI ((SI modulo-mask))
+ (set modulo-mask (compute-mask0))
+ (if SI (eq (and rma modulo-mask) me0)
+ (or (and rma (inv modulo-mask)) mb0)
+ (add rma (ext SI immed)))))
+
+(define-pmacro (compute-mask1)
+ (sequence SI ((SI temp))
+ (set temp (or mb1 me1))
+ (srl (const SI -1) (c-call SI "do_ldz" temp))))
+
+(define-pmacro (mod1 immed)
+ (sequence SI ((SI modulo-mask))
+ (set modulo-mask (compute-mask1))
+ (if SI (eq (and rma modulo-mask) me1)
+ (or (and rma (inv modulo-mask)) mb1)
+ (add rma (ext SI immed)))))
+
+\f
+; Instructions.
+
+; A pmacro for use in semantic bodies of unimplemented insns.
+(define-pmacro (unimp mnemonic) (nop))
+
+; Core specific instructions
+; (include "mep-h1.cpu") ; -- exposed by MeP-Integrator
+(include "mep-c5.cpu") ; -- exposed by MeP-Integrator
+
+; Load/store instructions.
+
+(dnci sb "store byte (register indirect)" ((STALL STORE))
+ "sb $rnc,($rma)"
+ (+ MAJ_0 rnc rma (f-sub4 8))
+ (sequence ()
+ (c-call VOID "check_write_to_text" rma)
+ (set (mem UQI rma) (and rnc #xff)))
+ ((mep (unit u-use-gpr (in usereg rnc))
+ (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci sh "store half-word (register indirect)" ((STALL STORE))
+ "sh $rns,($rma)"
+ (+ MAJ_0 rns rma (f-sub4 9))
+ (sequence ()
+ (c-call VOID "check_write_to_text" (and rma (inv 1)))
+ (set (mem UHI (and rma (inv 1))) (and rns #xffff)))
+ ((mep (unit u-use-gpr (in usereg rns))
+ (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci sw "store word (register indirect)" ((STALL STORE))
+ "sw $rnl,($rma)"
+ (+ MAJ_0 rnl rma (f-sub4 10))
+ (sequence ()
+ (c-call VOID "check_write_to_text" (and rma (inv 3)))
+ (set (mem USI (and rma (inv 3))) rnl))
+ ((mep (unit u-use-gpr (in usereg rnl))
+ (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lb "load byte (register indirect)" ((STALL LOAD) (LATENCY 2))
+ "lb $rnc,($rma)"
+ (+ MAJ_0 rnc rma (f-sub4 12))
+ (set rnc (ext SI (mem QI rma)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rnc)))))
+
+(dnci lh "load half-word (register indirect)" ((STALL LOAD) (LATENCY 2))
+ "lh $rns,($rma)"
+ (+ MAJ_0 rns rma (f-sub4 13))
+ (set rns (ext SI (mem HI (and rma (inv 1)))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rns)))))
+
+(dnci lw "load word (register indirect)" ((STALL LOAD) (LATENCY 2))
+ "lw $rnl,($rma)"
+ (+ MAJ_0 rnl rma (f-sub4 14))
+ (set rnl (mem SI (and rma (inv 3))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rnl)))))
+
+(dnci lbu "load unsigned byte (register indirect)" ((STALL LOAD) (LATENCY 2))
+ "lbu $rnuc,($rma)"
+ (+ MAJ_0 rnuc rma (f-sub4 11))
+ (set rnuc (zext SI (mem UQI rma)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rnuc)))))
+
+(dnci lhu "load unsigned half-word (register indirect)" ((STALL LOAD) (LATENCY 2))
+ "lhu $rnus,($rma)"
+ (+ MAJ_0 rnus rma (f-sub4 15))
+ (set rnus (zext SI (mem UHI (and rma (inv 1)))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rnus)))))
+
+(dnci sw-sp "store word (sp relative)" ((STALL STORE))
+ "sw $rnl,$udisp7a4($spr)"
+ (+ MAJ_4 rnl (f-8 0) udisp7a4 (f-sub2 2))
+ (sequence ()
+ (c-call VOID "check_write_to_text" (and (add udisp7a4 sp) (inv 3)))
+ (set (mem SI (and (add udisp7a4 sp) (inv 3))) rnl))
+ ((mep (unit u-use-gpr (in usereg rnl))
+ (unit u-use-gpr (in usereg sp))
+ (unit u-exec))))
+
+
+(dnci lw-sp "load word (sp relative)" ((STALL LOAD) (LATENCY 2))
+ "lw $rnl,$udisp7a4($spr)"
+ (+ MAJ_4 rnl (f-8 0) udisp7a4 (f-sub2 3))
+ (set rnl (mem SI (and (add udisp7a4 sp) (inv 3))))
+ ((mep (unit u-use-gpr (in usereg sp))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rnl)))))
+
+(dnci sb-tp "store byte (tp relative)" ((STALL STORE))
+ "sb $rn3c,$udisp7($tpr)"
+ (+ MAJ_8 (f-4 0) rn3c (f-8 0) udisp7)
+ (sequence ()
+ (c-call VOID "check_write_to_text" (add (zext SI udisp7) tp))
+ (set (mem QI (add (zext SI udisp7) tp)) (and rn3c #xff)))
+ ((mep (unit u-use-gpr (in usereg rn3c))
+ (unit u-use-gpr (in usereg tp))
+ (unit u-exec))))
+
+(dnci sh-tp "store half-word (tp relative)" ((STALL STORE))
+ "sh $rn3s,$udisp7a2($tpr)"
+ (+ MAJ_8 (f-4 0) rn3s (f-8 1) udisp7a2 (f-15 0))
+ (sequence ()
+ (c-call VOID "check_write_to_text" (and (add (zext SI udisp7a2) tp) (inv 1)))
+ (set (mem HI (and (add (zext SI udisp7a2) tp) (inv 1))) (and rn3s #xffff)))
+ ((mep (unit u-use-gpr (in usereg rn3s))
+ (unit u-use-gpr (in usereg tp))
+ (unit u-exec))))
+
+(dnci sw-tp "store word (tp relative)" ((STALL STORE))
+ "sw $rn3l,$udisp7a4($tpr)"
+ (+ MAJ_4 (f-4 0) rn3l (f-8 1) udisp7a4 (f-sub2 2))
+ (sequence ()
+ (c-call VOID "check_write_to_text" (and (add (zext SI udisp7a4) tp) (inv 3)))
+ (set (mem SI (and (add (zext SI udisp7a4) tp) (inv 3))) rn3l))
+ ((mep (unit u-use-gpr (in usereg rn3l))
+ (unit u-use-gpr (in usereg tp))
+ (unit u-exec))))
+
+(dnci lb-tp "load byte (tp relative)" ((STALL LOAD) (LATENCY 2))
+ "lb $rn3c,$udisp7($tpr)"
+ (+ MAJ_8 (f-4 1) rn3c (f-8 0) udisp7)
+ (set rn3c (ext SI (mem QI (add (zext SI udisp7) tp))))
+ ((mep (unit u-use-gpr (in usereg tp))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rn3c)))))
+
+(dnci lh-tp "load half-word (tp relative)" ((STALL LOAD) (LATENCY 2))
+ "lh $rn3s,$udisp7a2($tpr)"
+ (+ MAJ_8 (f-4 1) rn3s (f-8 1) udisp7a2 (f-15 0))
+ (set rn3s (ext SI (mem HI (and (add (zext SI udisp7a2) tp) (inv 1)))))
+ ((mep (unit u-use-gpr (in usereg tp))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rn3s)))))
+
+(dnci lw-tp "load word (tp relative)" ((STALL LOAD) (LATENCY 2))
+ "lw $rn3l,$udisp7a4($tpr)"
+ (+ MAJ_4 (f-4 0) rn3l (f-8 1) udisp7a4 (f-sub2 3))
+ (set rn3l (mem SI (and (add (zext SI udisp7a4) tp) (inv 3))))
+ ((mep (unit u-use-gpr (in usereg tp))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rn3l)))))
+
+(dnci lbu-tp "load unsigned byte (tp relative)" ((STALL LOAD) (LATENCY 2))
+ "lbu $rn3uc,$udisp7($tpr)"
+ (+ MAJ_4 (f-4 1) rn3uc (f-8 1) udisp7)
+ (set rn3uc (zext SI (mem QI (add (zext SI udisp7) tp))))
+ ((mep (unit u-use-gpr (in usereg tp))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rn3uc)))))
+
+(dnci lhu-tp "load unsigned half-word (tp relative)" ((STALL LOAD) (LATENCY 2))
+ "lhu $rn3us,$udisp7a2($tpr)"
+ (+ MAJ_8 (f-4 1) rn3us (f-8 1) udisp7a2 (f-15 1))
+ (set rn3us (zext SI (mem HI (and (add (zext SI udisp7a2) tp) (inv 1)))))
+ ((mep (unit u-use-gpr (in usereg tp))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rn3us)))))
+
+(dnci sb16 "store byte (16 bit displacement)" ((STALL STORE))
+ "sb $rnc,$sdisp16($rma)"
+ (+ MAJ_12 rnc rma (f-sub4 8) sdisp16)
+ (sequence ()
+ (c-call VOID "check_write_to_text" (add rma (ext SI sdisp16)))
+ (set (mem QI (add rma (ext SI sdisp16))) (and rnc #xff)))
+ ((mep (unit u-use-gpr (in usereg rnc))
+ (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci sh16 "store half-word (16 bit displacement)" ((STALL STORE))
+ "sh $rns,$sdisp16($rma)"
+ (+ MAJ_12 rns rma (f-sub4 9) sdisp16)
+ (sequence ()
+ (c-call VOID "check_write_to_text" (and (add rma (ext SI sdisp16)) (inv 1)))
+ (set (mem HI (and (add rma (ext SI sdisp16)) (inv 1))) (and rns #xffff)))
+ ((mep (unit u-use-gpr (in usereg rns))
+ (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci sw16 "store word (16 bit displacement)" ((STALL STORE))
+ "sw $rnl,$sdisp16($rma)"
+ (+ MAJ_12 rnl rma (f-sub4 10) sdisp16)
+ (sequence ()
+ (c-call "check_write_to_text" (and (add rma (ext SI sdisp16)) (inv 3)))
+ (set (mem SI (and (add rma (ext SI sdisp16)) (inv 3))) rnl))
+ ((mep (unit u-use-gpr (in usereg rnl))
+ (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lb16 "load byte (16 bit displacement)" ((STALL LOAD) (LATENCY 2))
+ "lb $rnc,$sdisp16($rma)"
+ (+ MAJ_12 rnc rma (f-sub4 12) sdisp16)
+ (set rnc (ext SI (mem QI (add rma (ext SI sdisp16)))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rnc)))))
+
+(dnci lh16 "load half-word (16 bit displacement)" ((STALL LOAD) (LATENCY 2))
+ "lh $rns,$sdisp16($rma)"
+ (+ MAJ_12 rns rma (f-sub4 13) sdisp16)
+ (set rns (ext SI (mem HI (and (add rma (ext SI sdisp16)) (inv 1)))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rns)))))
+
+(dnci lw16 "load word (16 bit displacement)" ((STALL LOAD) (LATENCY 2))
+ "lw $rnl,$sdisp16($rma)"
+ (+ MAJ_12 rnl rma (f-sub4 14) sdisp16)
+ (set rnl (mem SI (and (add rma (ext SI sdisp16)) (inv 3))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rnl)))))
+
+(dnci lbu16 "load unsigned byte (16 bit displacement)" ((STALL LOAD) (LATENCY 2))
+ "lbu $rnuc,$sdisp16($rma)"
+ (+ MAJ_12 rnuc rma (f-sub4 11) sdisp16)
+ (set rnuc (zext SI (mem QI (add rma (ext SI sdisp16)))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rnuc)))))
+
+(dnci lhu16 "load unsigned half-word (16 bit displacement)" ((STALL LOAD) (LATENCY 2))
+ "lhu $rnus,$sdisp16($rma)"
+ (+ MAJ_12 rnus rma (f-sub4 15) sdisp16)
+ (set rnus (zext SI (mem HI (and (add rma (ext SI sdisp16)) (inv 1)))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rnus)))))
+
+(dnci sw24 "store word (24 bit absolute addressing)" ((STALL STORE))
+ "sw $rnl,($addr24a4)"
+ (+ MAJ_14 rnl addr24a4 (f-sub2 2))
+ (sequence ()
+ (c-call VOID "check_write_to_text" (zext SI addr24a4))
+ (set (mem SI (zext SI addr24a4)) rnl))
+ ((mep (unit u-use-gpr (in usereg rnl))
+ (unit u-exec))))
+
+(dnci lw24 "load word (24 bit absolute addressing)" ((STALL LOAD) (LATENCY 2))
+ "lw $rnl,($addr24a4)"
+ (+ MAJ_14 rnl addr24a4 (f-sub2 3))
+ (set rnl (mem SI (zext SI addr24a4)))
+ ((mep (unit u-exec)
+ (unit u-load-gpr (out loadreg rnl)))))
+
+\f
+; Extension instructions.
+
+(dnci extb "sign extend byte" ()
+ "extb $rn"
+ (+ MAJ_1 rn (f-rm 0) (f-sub4 13))
+ (set rn (ext SI (and QI rn #xff)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci exth "sign extend half-word" ()
+ "exth $rn"
+ (+ MAJ_1 rn (f-rm 2) (f-sub4 13))
+ (set rn (ext SI (and HI rn #xffff)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci extub "zero extend byte" ()
+ "extub $rn"
+ (+ MAJ_1 rn (f-rm 8) (f-sub4 13))
+ (set rn (zext SI (and rn #xff)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci extuh "zero extend half-word" ()
+ "extuh $rn"
+ (+ MAJ_1 rn (f-rm 10) (f-sub4 13))
+ (set rn (zext SI (and rn #xffff)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+\f
+; Shift amount manipulation instructions.
+
+(dnci ssarb "set sar to bytes" ((STALL SSARB) VOLATILE)
+ "ssarb $udisp2($rm)"
+ (+ MAJ_1 (f-4 0) (f-5 0) udisp2 rm (f-sub4 12))
+ (if (c-call BI "big_endian_p")
+ (set sar (zext SI (mul (and (add udisp2 rm) 3) 8)))
+ (set sar (sub 32 (zext SI (mul (and (add udisp2 rm) 3) 8)))))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+\f
+; Move instructions.
+
+(dnci mov "move" ()
+ "mov $rn,$rm"
+ (+ MAJ_0 rn rm (f-sub4 0))
+ (set rn rm)
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci movi8 "move 8-bit immediate" ()
+ "mov $rn,$simm8"
+ (+ MAJ_5 rn simm8)
+ (set rn (ext SI simm8))
+ ())
+
+(dnci movi16 "move 16-bit immediate" ()
+ "mov $rn,$simm16"
+ (+ MAJ_12 rn (f-rm 0) (f-sub4 1) simm16)
+ (set rn (ext SI simm16))
+ ())
+
+(dnci movu24 "move 24-bit unsigned immediate" ()
+ "movu $rn3,$uimm24"
+ (+ MAJ_13 (f-4 0) rn3 uimm24)
+ (set rn3 (zext SI uimm24))
+ ())
+
+(dnci movu16 "move 16-bit unsigned immediate" ()
+ "movu $rn,$uimm16"
+ (+ MAJ_12 rn (f-rm 1) (f-sub4 1) uimm16)
+ (set rn (zext SI uimm16))
+ ())
+
+(dnci movh "move high 16-bit immediate" ()
+ "movh $rn,$uimm16"
+ (+ MAJ_12 rn (f-rm 2) (f-sub4 1) uimm16)
+ (set rn (sll uimm16 16))
+ ())
+
+\f
+; Arithmetic instructions.
+
+(dnci add3 "add three registers" ()
+ "add3 $rl,$rn,$rm"
+ (+ MAJ_9 rn rm rl)
+ (set rl (add rn rm))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci add "add" ()
+ "add $rn,$simm6"
+ (+ MAJ_6 rn simm6 (f-sub2 0))
+ (set rn (add rn (ext SI simm6)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci add3i "add two registers and immediate" ()
+ "add3 $rn,$spr,$uimm7a4"
+ (+ MAJ_4 rn (f-8 0) uimm7a4 (f-sub2 0))
+ (set rn (add sp (zext SI uimm7a4)))
+ ((mep (unit u-use-gpr (in usereg sp))
+ (unit u-exec))))
+
+(dnci advck3 "add overflow check" ((STALL ADVCK))
+ "advck3 \\$0,$rn,$rm"
+ (+ MAJ_0 rn rm (f-sub4 7))
+ (if (add-oflag rn rm 0)
+ (set r0 1)
+ (set r0 0))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci sub "subtract" ()
+ "sub $rn,$rm"
+ (+ MAJ_0 rn rm (f-sub4 4))
+ (set rn (sub rn rm))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm)))))
+
+(dnci sbvck3 "subtraction overflow check" ((STALL ADVCK))
+ "sbvck3 \\$0,$rn,$rm"
+ (+ MAJ_0 rn rm (f-sub4 5))
+ (if (sub-oflag rn rm 0)
+ (set r0 1)
+ (set r0 0))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci neg "negate" ()
+ "neg $rn,$rm"
+ (+ MAJ_0 rn rm (f-sub4 1))
+ (set rn (neg rm))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci slt3 "set if less than" ()
+ "slt3 \\$0,$rn,$rm"
+ (+ MAJ_0 rn rm (f-sub4 2))
+ (if (lt rn rm)
+ (set r0 1)
+ (set r0 0))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci sltu3 "set less than unsigned" ()
+ "sltu3 \\$0,$rn,$rm"
+ (+ MAJ_0 rn rm (f-sub4 3))
+ (if (ltu rn rm)
+ (set r0 1)
+ (set r0 0))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci slt3i "set if less than immediate" ()
+ "slt3 \\$0,$rn,$uimm5"
+ (+ MAJ_6 rn uimm5 (f-sub3 1))
+ (if (lt rn (zext SI uimm5))
+ (set r0 1)
+ (set r0 0))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci sltu3i "set if less than unsigned immediate" ()
+ "sltu3 \\$0,$rn,$uimm5"
+ (+ MAJ_6 rn uimm5 (f-sub3 5))
+ (if (ltu rn (zext SI uimm5))
+ (set r0 1)
+ (set r0 0))
+ ())
+
+(dnci sl1ad3 "shift left one and add" ((STALL INT2))
+ "sl1ad3 \\$0,$rn,$rm"
+ (+ MAJ_2 rn rm (f-sub4 6))
+ (set r0 (add (sll rn 1) rm))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci sl2ad3 "shift left two and add" ((STALL INT2))
+ "sl2ad3 \\$0,$rn,$rm"
+ (+ MAJ_2 rn rm (f-sub4 7))
+ (set r0 (add (sll rn 2) rm))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci add3x "three operand add (extended)" ()
+ "add3 $rn,$rm,$simm16"
+ (+ MAJ_12 rn rm (f-sub4 0) simm16)
+ (set rn (add rm (ext SI simm16)))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci slt3x "set if less than (extended)" ()
+ "slt3 $rn,$rm,$simm16"
+ (+ MAJ_12 rn rm (f-sub4 2) simm16)
+ (if (lt rm (ext SI simm16))
+ (set rn 1)
+ (set rn 0))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci sltu3x "set if less than unsigned (extended)" ()
+ "sltu3 $rn,$rm,$uimm16"
+ (+ MAJ_12 rn rm (f-sub4 3) uimm16)
+ (if (ltu rm (zext SI uimm16))
+ (set rn 1)
+ (set rn 0))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+\f
+; Logical instructions.
+
+(dnci or "bitwise or" ()
+ "or $rn,$rm"
+ (+ MAJ_1 rn rm (f-sub4 0))
+ (set rn (or rn rm))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci and "bitwise and" ()
+ "and $rn,$rm"
+ (+ MAJ_1 rn rm (f-sub4 1))
+ (set rn (and rn rm))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci xor "bitwise exclusive or" ()
+ "xor $rn,$rm"
+ (+ MAJ_1 rn rm (f-sub4 2))
+ (set rn (xor rn rm))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci nor "bitwise negated or" ()
+ "nor $rn,$rm"
+ (+ MAJ_1 rn rm (f-sub4 3))
+ (set rn (inv (or rn rm)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci or3 "or three operand" ()
+ "or3 $rn,$rm,$uimm16"
+ (+ MAJ_12 rn rm (f-sub4 4) uimm16)
+ (set rn (or rm (zext SI uimm16)))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci and3 "and three operand" ()
+ "and3 $rn,$rm,$uimm16"
+ (+ MAJ_12 rn rm (f-sub4 5) uimm16)
+ (set rn (and rm (zext SI uimm16)))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci xor3 "exclusive or three operand" ()
+ "xor3 $rn,$rm,$uimm16"
+ (+ MAJ_12 rn rm (f-sub4 6) uimm16)
+ (set rn (xor rm (zext SI uimm16)))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+\f
+; Shift instructions.
+
+(dnci sra "shift right arithmetic" ((STALL INT2))
+ "sra $rn,$rm"
+ (+ MAJ_2 rn rm (f-sub4 13))
+ (set rn (sra rn (and rm #x1f)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci srl "shift right logical" ((STALL INT2))
+ "srl $rn,$rm"
+ (+ MAJ_2 rn rm (f-sub4 12))
+ (set rn (srl rn (and rm #x1f)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci sll "shift left logical" ((STALL INT2))
+ "sll $rn,$rm"
+ (+ MAJ_2 rn rm (f-sub4 14))
+ (set rn (sll rn (and rm #x1f)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+(dnci srai "shift right arithmetic (immediate)" ((STALL SHIFTI))
+ "sra $rn,$uimm5"
+ (+ MAJ_6 rn uimm5 (f-sub3 3))
+ (set rn (sra rn uimm5))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci srli "shift right logical (immediate)" ((STALL SHIFTI))
+ "srl $rn,$uimm5"
+ (+ MAJ_6 rn uimm5 (f-sub3 2))
+ (set rn (srl rn uimm5))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci slli "shift left logical (immediate)" ((STALL SHIFTI))
+ "sll $rn,$uimm5"
+ (+ MAJ_6 rn uimm5 (f-sub3 6))
+ (set rn (sll rn uimm5))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci sll3 "three-register shift left logical" ((STALL INT2))
+ "sll3 \\$0,$rn,$uimm5"
+ (+ MAJ_6 rn uimm5 (f-sub3 7))
+ (set r0 (sll rn uimm5))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci fsft "field shift" ((STALL FSFT) VOLATILE)
+ "fsft $rn,$rm"
+ (+ MAJ_2 rn rm (f-sub4 15))
+ (sequence ((DI temp) (QI shamt))
+ (set shamt (and sar #x3f))
+ (set temp (sll (or (sll (zext DI rn) 32) (zext DI rm)) shamt))
+ (set rn (subword SI (srl temp 32) 1)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+\f
+; Branch/jump instructions.
+
+(dnci bra "branch" (RELAXABLE)
+ "bra $pcrel12a2"
+ (+ MAJ_11 pcrel12a2 (f-15 0))
+ (set-vliw-alignment-modified pc pcrel12a2)
+ ((mep (unit u-branch)
+ (unit u-exec))))
+
+(dnci beqz "branch if equal zero" (RELAXABLE)
+ "beqz $rn,$pcrel8a2"
+ (+ MAJ_10 rn pcrel8a2 (f-15 0))
+ (if (eq rn 0)
+ (set-vliw-alignment-modified pc pcrel8a2))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci bnez "branch if not equal zero" (RELAXABLE)
+ "bnez $rn,$pcrel8a2"
+ (+ MAJ_10 rn pcrel8a2 (f-15 1))
+ (if (ne rn 0)
+ (set-vliw-alignment-modified pc pcrel8a2))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci beqi "branch equal immediate" (RELAXABLE)
+ "beqi $rn,$uimm4,$pcrel17a2"
+ (+ MAJ_14 rn uimm4 (f-sub4 0) pcrel17a2)
+ (if (eq rn (zext SI uimm4))
+ (set-vliw-alignment-modified pc pcrel17a2))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci bnei "branch not equal immediate" (RELAXABLE)
+ "bnei $rn,$uimm4,$pcrel17a2"
+ (+ MAJ_14 rn uimm4 (f-sub4 4) pcrel17a2)
+ (if (ne rn (zext SI uimm4))
+ (set-vliw-alignment-modified pc pcrel17a2))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci blti "branch less than immediate" (RELAXABLE)
+ "blti $rn,$uimm4,$pcrel17a2"
+ (+ MAJ_14 rn uimm4 (f-sub4 12) pcrel17a2)
+ (if (lt rn (zext SI uimm4))
+ (set-vliw-alignment-modified pc pcrel17a2))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci bgei "branch greater than immediate" (RELAXABLE)
+ "bgei $rn,$uimm4,$pcrel17a2"
+ (+ MAJ_14 rn uimm4 (f-sub4 8) pcrel17a2)
+ (if (ge rn (zext SI uimm4))
+ (set-vliw-alignment-modified pc pcrel17a2))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci beq "branch equal" ()
+ "beq $rn,$rm,$pcrel17a2"
+ (+ MAJ_14 rn rm (f-sub4 1) pcrel17a2)
+ (if (eq rn rm)
+ (set-vliw-alignment-modified pc pcrel17a2))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci bne "branch not equal" ()
+ "bne $rn,$rm,$pcrel17a2"
+ (+ MAJ_14 rn rm (f-sub4 5) pcrel17a2)
+ (if (ne rn rm)
+ (set-vliw-alignment-modified pc pcrel17a2))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci bsr12 "branch to subroutine (12 bit displacement)" (RELAXABLE)
+ "bsr $pcrel12a2"
+ (+ MAJ_11 pcrel12a2 (f-15 1))
+ (sequence ()
+ (cg-profile pc pcrel12a2)
+ (set-vliw-modified-pcrel-offset lp 2 4 8)
+ (set-vliw-alignment-modified pc pcrel12a2))
+ ((mep (unit u-exec)
+ (unit u-branch))))
+
+(dnci bsr24 "branch to subroutine (24 bit displacement)" ()
+ "bsr $pcrel24a2"
+ (+ MAJ_13 (f-4 1) (f-sub4 9) pcrel24a2)
+ (sequence ()
+ (cg-profile pc pcrel24a2)
+ (set-vliw-modified-pcrel-offset lp 4 4 8)
+ (set-vliw-alignment-modified pc pcrel24a2))
+ ((mep (unit u-exec)
+ (unit u-branch))))
+
+(dnci jmp "jump" ()
+ "jmp $rm"
+ (+ MAJ_1 (f-rn 0) rm (f-sub4 14))
+ (sequence ()
+ (if (eq (get-psw.om) 0)
+ ;; core mode
+ (if (get-rm.lsb)
+ (sequence ()
+ (set-psw.om 1) ;; enter VLIW mode
+ (set-vliw-aliignment-modified-by-option pc rm))
+ (set pc (and rm (inv 1))))
+ ;; VLIW mode
+ (if (get-rm.lsb)
+ (sequence ()
+ (set-psw.om 0) ;; enter core mode
+ (set pc (and rm (inv 1))))
+ (set-vliw-aliignment-modified-by-option pc rm)))
+ (cg-profile-jump pc rm))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci jmp24 "jump (24 bit target)" ()
+ "jmp $pcabs24a2"
+ (+ MAJ_13 (f-4 1) (f-sub4 8) pcabs24a2)
+ (sequence ()
+ (set-vliw-alignment-modified pc (or (and pc #xf0000000) pcabs24a2))
+ (cg-profile-jump pc pcabs24a2))
+ ((mep (unit u-exec)
+ (unit u-branch))))
+
+(dnci jsr "jump to subroutine" ()
+ "jsr $rm"
+ (+ MAJ_1 (f-rn 0) rm (f-sub4 15))
+ (sequence ()
+ (cg-profile pc rm)
+ (set-vliw-modified-pcrel-offset lp 2 4 8)
+ (set-vliw-alignment-modified pc rm))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci ret "return from subroutine" ((STALL RET))
+ "ret"
+ (+ MAJ_7 (f-rn 0) (f-rm 0) (f-sub4 2))
+ (sequence ()
+ (if (eq (get-psw.om) 0)
+ ;; core mode
+ (if (get-lp.ltom) ;; link-pointer "toggle mode" bit
+ (sequence ()
+ (set-psw.om 1) ;; enter VLIW mode
+ (set-vliw-aliignment-modified-by-option pc lp))
+ (set pc (and lp (inv 1))))
+ ;; VLIW mode
+ (if (get-lp.ltom) ;; link-pointer "toggle mode" bit
+ (sequence ()
+ (set-psw.om 0) ;; enter VLIW mode
+ (set pc (and lp (inv 1))))
+ (set-vliw-aliignment-modified-by-option pc lp)))
+ (c-call VOID "notify_ret" pc))
+ ((mep (unit u-exec)
+ (unit u-branch))))
+
+\f
+; Repeat instructions.
+
+(dnci repeat "repeat specified repeat block" ()
+ "repeat $rn,$pcrel17a2"
+ (+ MAJ_14 rn (f-rm 0) (f-sub4 9) pcrel17a2)
+ (sequence ()
+ (set-vliw-modified-pcrel-offset (reg h-csr 4) 4 4 8)
+ (set-vliw-alignment-modified (reg h-csr 5) pcrel17a2)
+ (set (reg h-csr 6) rn))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci erepeat "endless repeat" ()
+ "erepeat $pcrel17a2"
+ (+ MAJ_14 (f-rn 0) (f-rm 1) (f-sub4 9) pcrel17a2)
+ (sequence ()
+ (set-vliw-modified-pcrel-offset (reg h-csr 4) 4 4 8)
+ (set-vliw-alignment-modified (reg h-csr 5) pcrel17a2)
+ (set-rpe.elr 1)
+ ; rpc may be undefined for erepeat
+ ; use 1 to trigger repeat logic in the sim's main loop
+ (set (reg h-csr 6) 1))
+ ())
+
+\f
+; Control instructions.
+
+;; special store variants
+
+(dnci stc_lp "store to control register lp" ((STALL STC))
+ "stc $rn,\\$lp"
+ (+ MAJ_7 rn (f-csrn-lo 1) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 0))
+ (set lp rn)
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-store-ctrl-reg (out storereg lp))
+ (unit u-exec))))
+
+(dnci stc_hi "store to control register hi" ((STALL STC))
+ "stc $rn,\\$hi"
+ (+ MAJ_7 rn (f-csrn-lo 7) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 0))
+ (set hi rn)
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-store-ctrl-reg (out storereg hi))
+ (unit u-exec))))
+
+(dnci stc_lo "store to control register lo" ((STALL STC))
+ "stc $rn,\\$lo"
+ (+ MAJ_7 rn (f-csrn-lo 8) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 0))
+ (set lo rn)
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-store-ctrl-reg (out storereg lo))
+ (unit u-exec))))
+
+;; general store
+
+(dnci stc "store to control register" (VOLATILE (STALL STC))
+ "stc $rn,$csrn"
+ (+ MAJ_7 rn csrn (f-12 1) (f-13 0) (f-14 0))
+ (set csrn rn)
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-store-ctrl-reg (out storereg csrn))
+ (unit u-exec))))
+
+;; special load variants
+
+(dnci ldc_lp "load from control register lp" ((STALL LDC))
+ "ldc $rn,\\$lp"
+ (+ MAJ_7 rn (f-csrn-lo 1) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 1))
+ (set rn lp)
+ ((mep (unit u-use-ctrl-reg (in usereg lp))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rn)))))
+
+
+(dnci ldc_hi "load from control register hi" ((STALL LDC))
+ "ldc $rn,\\$hi"
+ (+ MAJ_7 rn (f-csrn-lo 7) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 1))
+ (set rn hi)
+ ((mep (unit u-use-ctrl-reg (in usereg hi))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rn)))))
+
+(dnci ldc_lo "load from control register lo" ((STALL LDC))
+ "ldc $rn,\\$lo"
+ (+ MAJ_7 rn (f-csrn-lo 8) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 1))
+ (set rn lo)
+ ((mep (unit u-use-ctrl-reg (in usereg lo))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rn)))))
+
+;; general load
+
+(dnci ldc "load from control register" (VOLATILE (STALL LDC) (LATENCY 2))
+ "ldc $rn,$csrn"
+ (+ MAJ_7 rn csrn (f-12 1) (f-13 0) (f-14 1))
+ (if (eq (ifield f-csrn) 0)
+ ;; loading from the pc
+ (set-vliw-modified-pcrel-offset rn 2 4 8)
+ ;; loading from something else
+ (set rn csrn))
+ ((mep (unit u-use-ctrl-reg (in usereg csrn))
+ (unit u-exec)
+ (unit u-load-gpr (out loadreg rn)))))
+
+(dnci di "disable interrupt" (VOLATILE)
+ "di"
+ (+ MAJ_7 (f-rn 0) (f-rm 0) (f-sub4 0))
+ ; clear psw.iec
+ (set psw (sll (srl psw 1) 1))
+ ())
+
+(dnci ei "enable interrupt" (VOLATILE)
+ "ei"
+ (+ MAJ_7 (f-rn 0) (f-rm 1) (f-sub4 0))
+ ; set psw.iec
+ (set psw (or psw 1))
+ ())
+
+(dnci reti "return from interrupt" ((STALL RET))
+ "reti"
+ (+ MAJ_7 (f-rn 0) (f-rm 1) (f-sub4 2))
+ (if (eq (get-psw.om) 0)
+ ;; core operation mode
+ (if (get-psw.nmi)
+ ;; return from NMI
+ (if (get-npc.ntom)
+ ;; return in VLIW operation mode
+ (sequence ()
+ (set-psw.om 1)
+ (set-vliw-aliignment-modified-by-option pc npc)
+ (set-psw.nmi 0))
+ ;; return in core mode
+ (sequence ()
+ (set pc (and npc (inv 1)))
+ (set-psw.nmi 0)))
+ ;; return from non-NMI
+ (if (get-epc.etom)
+ ;; return in VLIW mode
+ (sequence ()
+ (set-psw.om 1)
+ (set-vliw-aliignment-modified-by-option pc epc)
+ (set-psw.umc (get-psw.ump))
+ (set-psw.iec (get-psw.iep)))
+ ;; return in core mode
+ (sequence ()
+ (set pc (and epc (inv 1)))
+ (set-psw.umc (get-psw.ump))
+ (set-psw.iec (get-psw.iep)))))
+ ;; VLIW operation mode
+ ;; xxx undefined
+ (nop))
+ ((mep (unit u-exec)
+ (unit u-branch))))
+
+(dnci halt "halt pipeline" (VOLATILE)
+ "halt"
+ (+ MAJ_7 (f-rn 0) (f-rm 2) (f-sub4 2))
+ ; set psw.halt
+ (set (raw-reg h-csr 16) (or psw (sll 1 11)))
+ ())
+
+(dnci sleep "sleep pipeline" (VOLATILE)
+ "sleep"
+ (+ MAJ_7 (f-rn 0) (f-rm 6) (f-sub4 2))
+ (c-call VOID "do_sleep")
+ ())
+
+(dnci swi "software interrupt" (MAY_TRAP VOLATILE)
+ "swi $uimm2"
+ (+ MAJ_7 (f-rn 0) (f-8 0) (f-9 0) uimm2 (f-sub4 6))
+ (cond
+ ((eq uimm2 0) (set exc (or exc (sll 1 4))))
+ ((eq uimm2 1) (set exc (or exc (sll 1 5))))
+ ((eq uimm2 2) (set exc (or exc (sll 1 6))))
+ ((eq uimm2 3) (set exc (or exc (sll 1 7)))))
+ ())
+
+(dnci break "break exception" (MAY_TRAP VOLATILE)
+ "break"
+ (+ MAJ_7 (f-rn 0) (f-rm 3) (f-sub4 2))
+ (set pc (c-call USI "break_exception" pc))
+ ((mep (unit u-exec)
+ (unit u-branch))))
+
+(dnci syncm "synchronise with memory" (VOLATILE)
+ "syncm"
+ (+ MAJ_7 (f-rn 0) (f-rm 1) (f-sub4 1))
+ (unimp "syncm")
+ ())
+
+(dnci stcb "store in control bus space" (VOLATILE (STALL STCB))
+ "stcb $rn,$uimm16"
+ (+ MAJ_15 rn (f-rm 0) (f-sub4 4) uimm16)
+ (c-call VOID "do_stcb" rn uimm16)
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec)
+ (unit u-stcb))))
+
+(dnci ldcb "load from control bus space" (VOLATILE (STALL LDCB) (LATENCY 3))
+ "ldcb $rn,$uimm16"
+ (+ MAJ_15 rn (f-rm 1) (f-sub4 4) uimm16)
+ (set rn (c-call SI "do_ldcb" uimm16))
+ ((mep (unit u-ldcb)
+ (unit u-exec)
+ (unit u-ldcb-gpr (out loadreg rn)))))
+
+\f
+; Bit manipulation instructions.
+; The following instructions become the reserved instruction when the
+; bit manipulation option is off.
+
+(dnci bsetm "set bit in memory" (OPTIONAL_BIT_INSN)
+ "bsetm ($rma),$uimm3"
+ (+ MAJ_2 (f-4 0) uimm3 rma (f-sub4 0))
+ (sequence ()
+ (c-call "check_option_bit" pc)
+ (set (mem UQI rma) (or (mem UQI rma) (sll 1 uimm3))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci bclrm "clear bit in memory" (OPTIONAL_BIT_INSN)
+ "bclrm ($rma),$uimm3"
+ (+ MAJ_2 (f-4 0) uimm3 rma (f-sub4 1))
+ (sequence ()
+ (c-call "check_option_bit" pc)
+ (set (mem UQI rma) (and (mem UQI rma) (inv (sll 1 uimm3)))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci bnotm "toggle bit in memory" (OPTIONAL_BIT_INSN)
+ "bnotm ($rma),$uimm3"
+ (+ MAJ_2 (f-4 0) uimm3 rma (f-sub4 2))
+ (sequence ()
+ (c-call "check_option_bit" pc)
+ (set (mem UQI rma) (xor (mem UQI rma) (sll 1 uimm3))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci btstm "test bit in memory" (OPTIONAL_BIT_INSN)
+ "btstm \\$0,($rma),$uimm3"
+ (+ MAJ_2 (f-4 0) uimm3 rma (f-sub4 3))
+ (sequence ()
+ (c-call "check_option_bit" pc)
+ (set r0 (zext SI (and UQI (mem UQI rma) (sll 1 uimm3)))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci tas "test and set" (OPTIONAL_BIT_INSN)
+ "tas $rn,($rma)"
+ (+ MAJ_2 rn rma (f-sub4 4))
+ (sequence ((SI result))
+ (c-call "check_option_bit" pc)
+ (set result (zext SI (mem UQI rma)))
+ (set (mem UQI rma) 1)
+ (set rn result))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+\f
+; Data cache instruction.
+
+(dnci cache "cache operations" (VOLATILE)
+ "cache $cimm4,($rma)"
+ (+ MAJ_7 cimm4 rma (f-sub4 4))
+ (c-call VOID "do_cache" cimm4 rma pc)
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+\f
+; Multiply instructions.
+; These instructions become the RI when the 32-bit multiply
+; instruction option is off.
+
+(dnci mul "multiply" (OPTIONAL_MUL_INSN (STALL MUL))
+ "mul $rn,$rm"
+ (+ MAJ_1 rn rm (f-sub4 4))
+ (sequence ((DI result))
+ (c-call "check_option_mul" pc)
+ (set result (mul (ext DI rn) (ext DI rm)))
+ (set hi (subword SI result 0))
+ (set lo (subword SI result 1)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-multiply))))
+
+(dnci mulu "multiply unsigned" (OPTIONAL_MUL_INSN (STALL MUL))
+ "mulu $rn,$rm"
+ (+ MAJ_1 rn rm (f-sub4 5))
+ (sequence ((DI result))
+ (c-call "check_option_mul" pc)
+ (set result (mul (zext UDI rn) (zext UDI rm)))
+ (set hi (subword SI result 0))
+ (set lo (subword SI result 1)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-multiply))))
+
+(dnci mulr "multiply, lo -> reg" (OPTIONAL_MUL_INSN (STALL MULR) (LATENCY 3))
+ "mulr $rn,$rm"
+ (+ MAJ_1 rn rm (f-sub4 6))
+ (sequence ((DI result))
+ (c-call "check_option_mul" pc)
+ (set result (mul (ext DI rn) (ext DI rm)))
+ (set hi (subword SI result 0))
+ (set lo (subword SI result 1))
+ (set rn (subword SI result 1)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-multiply)
+ (unit u-mul-gpr (out resultreg rn)))))
+
+(dnci mulru "multiply unsigned, lo -> reg" (OPTIONAL_MUL_INSN (STALL MULR) (LATENCY 3))
+ "mulru $rn,$rm"
+ (+ MAJ_1 rn rm (f-sub4 7))
+ (sequence ((DI result))
+ (c-call "check_option_mul" pc)
+ (set result (mul (zext UDI rn) (zext UDI rm)))
+ (set hi (subword SI result 0))
+ (set lo (subword SI result 1))
+ (set rn (subword SI result 1)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-multiply)
+ (unit u-mul-gpr (out resultreg rn)))))
+
+(dnci madd "multiply accumulate" (OPTIONAL_MUL_INSN (STALL MUL))
+ "madd $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 #x3004))
+ (sequence ((DI result))
+ (c-call "check_option_mul" pc)
+ (set result (or (sll (zext DI hi) 32) (zext DI lo)))
+ (set result (add result (mul (ext DI rn) (ext DI rm))))
+ (set hi (subword SI result 0))
+ (set lo (subword SI result 1)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-multiply))))
+
+(dnci maddu "multiply accumulate unsigned" (OPTIONAL_MUL_INSN (STALL MUL))
+ "maddu $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 #x3005))
+ (sequence ((DI result))
+ (c-call "check_option_mul" pc)
+ (set result (or (sll (zext DI hi) 32) (zext DI lo)))
+ (set result (add result (mul (zext UDI rn) (zext UDI rm))))
+ (set hi (subword SI result 0))
+ (set lo (subword SI result 1)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-multiply))))
+
+
+(dnci maddr "multiply accumulate, lo -> reg" (OPTIONAL_MUL_INSN (STALL MULR) (LATENCY 3))
+ "maddr $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 #x3006))
+ (sequence ((DI result))
+ (c-call "check_option_mul" pc)
+ (set result (or (sll (zext DI hi) 32) (zext DI lo)))
+ (set result (add result (mul (ext DI rn) (ext DI rm))))
+ (set hi (subword SI result 0))
+ (set lo (subword SI result 1))
+ (set rn (subword SI result 1)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-multiply)
+ (unit u-mul-gpr (out resultreg rn)))))
+
+(dnci maddru "multiple accumulate unsigned, lo -> reg" (OPTIONAL_MUL_INSN (STALL MULR) (LATENCY 3))
+ "maddru $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 #x3007))
+ (sequence ((DI result))
+ (c-call "check_option_mul" pc)
+ (set result (or (sll (zext DI hi) 32) (zext DI lo)))
+ (set result (add result (mul (zext UDI rn) (zext UDI rm))))
+ (set hi (subword SI result 0))
+ (set lo (subword SI result 1))
+ (set rn (subword SI result 1)))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-multiply)
+ (unit u-mul-gpr (out resultreg rn)))))
+
+\f
+; Divide instructions.
+; These instructions become the RI when the 32-bit divide instruction
+; option is off.
+
+(dnci div "divide" (OPTIONAL_DIV_INSN (STALL DIV) (LATENCY 34) MAY_TRAP)
+ "div $rn,$rm"
+ (+ MAJ_1 rn rm (f-sub4 8))
+ (sequence ()
+ (c-call "check_option_div" pc)
+ (if (eq rm 0)
+ (set pc (c-call USI "zdiv_exception" pc))
+ ; Special case described on p. 76.
+ (if (and (eq rn #x80000000)
+ (eq rm #xffffffff))
+ (sequence ()
+ (set lo #x80000000)
+ (set hi 0))
+ (sequence ()
+ (set lo (div rn rm))
+ (set hi (mod rn rm))))))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-divide)
+ (unit u-branch))))
+
+(dnci divu "divide unsigned" (OPTIONAL_DIV_INSN (STALL DIV) (LATENCY 34) MAY_TRAP)
+ "divu $rn,$rm"
+ (+ MAJ_1 rn rm (f-sub4 9))
+ (sequence ()
+ (c-call "check_option_div" pc)
+ (if (eq rm 0)
+ (set pc (c-call USI "zdiv_exception" pc))
+ (sequence ()
+ (set lo (udiv rn rm))
+ (set hi (umod rn rm)))))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-divide)
+ (unit u-branch))))
+
+\f
+; Debug functions.
+; These instructions become the RI when the debug function option is
+; off.
+
+(dnci dret "return from debug exception" (OPTIONAL_DEBUG_INSN)
+ "dret"
+ (+ MAJ_7 (f-rn 0) (f-rm 1) (f-sub4 3))
+ (sequence ()
+ (c-call "check_option_debug" pc)
+ ; set DBG.DM.
+ (set dbg (and dbg (inv (sll SI 1 15))))
+ (set pc depc))
+ ((mep (unit u-exec)
+ (unit u-branch))))
+
+(dnci dbreak "generate debug exception" (OPTIONAL_DEBUG_INSN MAY_TRAP VOLATILE)
+ "dbreak"
+ (+ MAJ_7 (f-rn 0) (f-rm 3) (f-sub4 3))
+ (sequence ()
+ (c-call "check_option_debug" pc)
+ ; set DBG.DPB.
+ (set dbg (or dbg 1)))
+ ())
+
+\f
+; Leading zero instruction.
+
+(dnci ldz "leading zeroes" (OPTIONAL_LDZ_INSN (STALL INT2))
+ "ldz $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 0))
+ (sequence ()
+ (c-call "check_option_ldz" pc)
+ (set rn (c-call SI "do_ldz" rm)))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec))))
+
+\f
+; Absolute difference instruction.
+
+(dnci abs "absolute difference" (OPTIONAL_ABS_INSN (STALL INT2))
+ "abs $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 3))
+ (sequence ()
+ (c-call "check_option_abs" pc)
+ (set rn (abs (sub rn rm))))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+\f
+; Average instruction.
+
+(dnci ave "average" (OPTIONAL_AVE_INSN (STALL INT2))
+ "ave $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 2))
+ (sequence ()
+ (c-call "check_option_ave" pc)
+ (set rn (sra (add (add rn rm) 1) 1)))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+\f
+; MIN/MAX instructions.
+
+(dnci min "minimum" (OPTIONAL_MINMAX_INSN (STALL INT2))
+ "min $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 4))
+ (sequence ()
+ (c-call "check_option_minmax" pc)
+ (if (gt rn rm)
+ (set rn rm)))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci max "maximum" (OPTIONAL_MINMAX_INSN (STALL INT2))
+ "max $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 5))
+ (sequence ()
+ (c-call "check_option_minmax" pc)
+ (if (lt rn rm)
+ (set rn rm)))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci minu "minimum unsigned" (OPTIONAL_MINMAX_INSN (STALL INT2))
+ "minu $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 6))
+ (sequence ()
+ (c-call "check_option_minmax" pc)
+ (if (gtu rn rm)
+ (set rn rm)))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci maxu "maximum unsigned" (OPTIONAL_MINMAX_INSN (STALL INT2))
+ "maxu $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 7))
+ (sequence ()
+ (c-call "check_option_minmax" pc)
+ (if (ltu rn rm)
+ (set rn rm)))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+\f
+; Clipping instruction.
+
+(dnci clip "clip" (OPTIONAL_CLIP_INSN (STALL INT2))
+ "clip $rn,$cimm5"
+ (+ MAJ_15 rn (f-rm 0) (f-sub4 1) (f-ext #x10) cimm5 (f-29 0) (f-30 0) (f-31 0))
+ (sequence ((SI min) (SI max))
+ (c-call "check_option_clip" pc)
+ (set max (sub (sll 1 (sub cimm5 1)) 1))
+ (set min (neg (sll 1 (sub cimm5 1))))
+ (cond
+ ((eq cimm5 0) (set rn 0))
+ ((gt rn max) (set rn max))
+ ((lt rn min) (set rn min))))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci clipu "clip unsigned" (OPTIONAL_CLIP_INSN (STALL INT2))
+ "clipu $rn,$cimm5"
+ (+ MAJ_15 rn (f-rm 0) (f-sub4 1) (f-ext #x10) cimm5 (f-29 0) (f-30 0) (f-31 1))
+ (sequence ((SI max))
+ (c-call "check_option_clip" pc)
+ (set max (sub (sll 1 cimm5) 1))
+ (cond
+ ((eq cimm5 0) (set rn 0))
+ ((gt rn max) (set rn max))
+ ((lt rn 0) (set rn 0))))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+\f
+; Saturation instructions.
+
+(dnci sadd "saturating addition" (OPTIONAL_SAT_INSN (STALL INT2))
+ "sadd $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 8))
+ (sequence ()
+ (c-call "check_option_sat" pc)
+ (if (add-oflag rn rm 0)
+ (if (nflag rn)
+ ; underflow
+ (set rn (neg (sll 1 31)))
+ ; overflow
+ (set rn (sub (sll 1 31) 1)))
+ (set rn (add rn rm))))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci ssub "saturating subtraction" (OPTIONAL_SAT_INSN (STALL INT2))
+ "ssub $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 10))
+ (sequence ()
+ (c-call "check_option_sat" pc)
+ (if (sub-oflag rn rm 0)
+ (if (nflag rn)
+ ; underflow
+ (set rn (neg (sll 1 31)))
+ ; overflow
+ (set rn (sub (sll 1 31) 1)))
+ (set rn (sub rn rm))))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci saddu "saturating unsigned addition" (OPTIONAL_SAT_INSN (STALL INT2))
+ "saddu $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 9))
+ (sequence ()
+ (c-call "check_option_sat" pc)
+ (if (add-cflag rn rm 0)
+ (set rn (inv 0))
+ (set rn (add rn rm))))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+(dnci ssubu "saturating unsigned subtraction" (OPTIONAL_SAT_INSN (STALL INT2))
+ "ssubu $rn,$rm"
+ (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 11))
+ (sequence ()
+ (c-call "check_option_sat" pc)
+ (if (sub-cflag rn rm 0)
+ (set rn 0)
+ (set rn (sub rn rm))))
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-use-gpr (in usereg rn))
+ (unit u-exec))))
+
+\f
+; UCI and DSP options are defined in an external file.
+; See `mep-sample-ucidsp.cpu' for a sample.
+
+\f
+; Coprocessor instructions.
+
+(dnci swcp "store word coprocessor" (OPTIONAL_CP_INSN (STALL STORE))
+ "swcp $crn,($rma)"
+ (+ MAJ_3 crn rma (f-sub4 8))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" (and rma (inv SI 3)))
+ (set (mem SI (and rma (inv SI 3))) crn))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lwcp "load word coprocessor" (OPTIONAL_CP_INSN (STALL LOAD))
+ "lwcp $crn,($rma)"
+ (+ MAJ_3 crn rma (f-sub4 9))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (mem SI (and rma (inv SI 3)))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci smcp "smcp" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL STORE))
+ "smcp $crn64,($rma)"
+ (+ MAJ_3 crn64 rma (f-sub4 10))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (c-call VOID "check_write_to_text" rma)
+ (c-call "do_smcp" rma crn64 pc))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lmcp "lmcp" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL LOAD))
+ "lmcp $crn64,($rma)"
+ (+ MAJ_3 crn64 rma (f-sub4 11))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (set crn64 (c-call DI "do_lmcp" rma pc)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci swcpi "swcp (post-increment)" (OPTIONAL_CP_INSN (STALL STORE))
+ "swcpi $crn,($rma+)"
+ (+ MAJ_3 crn rma (f-sub4 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" (and rma (inv SI 3)))
+ (set (mem SI (and rma (inv SI 3))) crn)
+ (set rma (add rma 4)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lwcpi "lwcp (post-increment)" (OPTIONAL_CP_INSN (STALL LOAD))
+ "lwcpi $crn,($rma+)"
+ (+ MAJ_3 crn rma (f-sub4 1))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (mem SI (and rma (inv SI 3))))
+ (set rma (add rma 4)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci smcpi "smcp (post-increment)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL STORE))
+ "smcpi $crn64,($rma+)"
+ (+ MAJ_3 crn64 rma (f-sub4 2))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (c-call VOID "check_write_to_text" rma)
+ (c-call "do_smcpi" (index-of rma) crn64 pc)
+ (set rma rma)) ; reference as output for intrinsic generation
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lmcpi "lmcp (post-increment)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL LOAD))
+ "lmcpi $crn64,($rma+)"
+ (+ MAJ_3 crn64 rma (f-sub4 3))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (set crn64 (c-call DI "do_lmcpi" (index-of rma) pc))
+ (set rma rma)) ; reference as output for intrinsic generation
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci swcp16 "swcp (16-bit displacement)" (OPTIONAL_CP_INSN (STALL STORE))
+ "swcp $crn,$sdisp16($rma)"
+ (+ MAJ_15 crn rma (f-sub4 12) sdisp16)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set (mem SI (and (add rma sdisp16) (inv SI 3))) crn))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lwcp16 "lwcp (16-bit displacement)" (OPTIONAL_CP_INSN (STALL LOAD))
+ "lwcp $crn,$sdisp16($rma)"
+ (+ MAJ_15 crn rma (f-sub4 13) sdisp16)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (mem SI (and (add rma sdisp16) (inv SI 3)))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci smcp16 "smcp (16-bit displacement)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL STORE))
+ "smcp $crn64,$sdisp16($rma)"
+ (+ MAJ_15 crn64 rma (f-sub4 14) sdisp16)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (c-call "do_smcp16" rma sdisp16 crn64 pc))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lmcp16 "lmcp (16-bit displacement)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL LOAD))
+ "lmcp $crn64,$sdisp16($rma)"
+ (+ MAJ_15 crn64 rma (f-sub4 15) sdisp16)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (set crn64 (c-call DI "do_lmcp16" rma sdisp16 pc)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci sbcpa "store byte coprocessor" (OPTIONAL_CP_INSN (STALL STORE))
+ "sbcpa $crn,($rma+),$cdisp10"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 0) (f-ext62 0) cdisp10)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" rma)
+ (set (mem QI rma) (and crn #xff))
+ (set rma (add rma (ext SI cdisp10))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lbcpa "load byte coprocessor" (OPTIONAL_CP_INSN (STALL LOAD))
+ "lbcpa $crn,($rma+),$cdisp10"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x4) (f-ext62 #x0) cdisp10)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (ext SI (mem QI rma)))
+ (set rma (add rma (ext SI cdisp10))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci shcpa "store half-word coprocessor" (OPTIONAL_CP_INSN (STALL STORE))
+ "shcpa $crn,($rma+),$cdisp10a2"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x1) (f-ext62 #x0) cdisp10a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" (and rma (inv SI 1)))
+ (set (mem HI (and rma (inv SI 1))) (and crn #xffff))
+ (set rma (add rma (ext SI cdisp10a2))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lhcpa "load half-word coprocessor" (OPTIONAL_CP_INSN (STALL LOAD))
+ "lhcpa $crn,($rma+),$cdisp10a2"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x5) (f-ext62 #x0) cdisp10a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (ext SI (mem HI (and rma (inv SI 1)))))
+ (set rma (add rma (ext SI cdisp10a2))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci swcpa "store word coprocessor" (OPTIONAL_CP_INSN (STALL STORE))
+ "swcpa $crn,($rma+),$cdisp10a4"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x2) (f-ext62 #x0) cdisp10a4)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" (and rma (inv SI 3)))
+ (set (mem SI (and rma (inv SI 3))) crn)
+ (set rma (add rma (ext SI cdisp10a4))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lwcpa "load word coprocessor" (OPTIONAL_CP_INSN (STALL LOAD))
+ "lwcpa $crn,($rma+),$cdisp10a4"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x6) (f-ext62 #x0) cdisp10a4)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (mem SI (and rma (inv SI 3))))
+ (set rma (add rma (ext SI cdisp10a4))))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci smcpa "smcpa" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL STORE))
+ "smcpa $crn64,($rma+),$cdisp10a8"
+ (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x3) (f-ext62 #x0) cdisp10a8)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (c-call VOID "check_write_to_text" rma)
+ (c-call "do_smcpa" (index-of rma) cdisp10a8 crn64 pc)
+ (set rma rma)) ; reference as output for intrinsic generation
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lmcpa "lmcpa" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL LOAD))
+ "lmcpa $crn64,($rma+),$cdisp10a8"
+ (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x7) (f-ext62 #x0) cdisp10a8)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (set crn64 (c-call DI "do_lmcpa" (index-of rma) cdisp10a8 pc))
+ (set rma rma)) ; reference as output for intrinsic generation
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+\f
+(dnci sbcpm0 "sbcpm0" (OPTIONAL_CP_INSN)
+ "sbcpm0 $crn,($rma+),$cdisp10"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x0) (f-ext62 #x2) cdisp10)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" rma)
+ (set (mem QI rma) (and crn #xff))
+ (set rma (mod0 cdisp10)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lbcpm0 "lbcpm0" (OPTIONAL_CP_INSN)
+ "lbcpm0 $crn,($rma+),$cdisp10"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x4) (f-ext62 #x2) cdisp10)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (ext SI (mem QI rma)))
+ (set rma (mod0 cdisp10)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci shcpm0 "shcpm0" (OPTIONAL_CP_INSN)
+ "shcpm0 $crn,($rma+),$cdisp10a2"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x1) (f-ext62 #x2) cdisp10a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" (and rma (inv SI 1)))
+ (set (mem HI (and rma (inv SI 1))) (and crn #xffff))
+ (set rma (mod0 cdisp10a2)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lhcpm0 "lhcpm0" (OPTIONAL_CP_INSN)
+ "lhcpm0 $crn,($rma+),$cdisp10a2"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x5) (f-ext62 #x2) cdisp10a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (ext SI (mem HI (and rma (inv SI 1)))))
+ (set rma (mod0 cdisp10a2)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci swcpm0 "swcpm0" (OPTIONAL_CP_INSN)
+ "swcpm0 $crn,($rma+),$cdisp10a4"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x2) (f-ext62 #x2) cdisp10a4)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" (and rma (inv SI 3)))
+ (set (mem SI (and rma (inv SI 3))) crn)
+ (set rma (mod0 cdisp10a4)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lwcpm0 "lwcpm0" (OPTIONAL_CP_INSN)
+ "lwcpm0 $crn,($rma+),$cdisp10a4"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x6) (f-ext62 #x2) cdisp10a4)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (mem SI (and rma (inv SI 3))))
+ (set rma (mod0 cdisp10a4)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci smcpm0 "smcpm0" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN)
+ "smcpm0 $crn64,($rma+),$cdisp10a8"
+ (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x3) (f-ext62 #x2) cdisp10a8)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (c-call VOID "check_write_to_text" rma)
+ (c-call "do_smcp" rma crn64 pc)
+ (set rma (mod0 cdisp10a8)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lmcpm0 "lmcpm0" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN)
+ "lmcpm0 $crn64,($rma+),$cdisp10a8"
+ (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x7) (f-ext62 #x2) cdisp10a8)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (set crn64 (c-call DI "do_lmcp" rma pc))
+ (set rma (mod0 cdisp10a8)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci sbcpm1 "sbcpm1" (OPTIONAL_CP_INSN)
+ "sbcpm1 $crn,($rma+),$cdisp10"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x0) (f-ext62 #x3) cdisp10)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" rma)
+ (set (mem QI rma) (and crn #xff))
+ (set rma (mod1 cdisp10)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lbcpm1 "lbcpm1" (OPTIONAL_CP_INSN)
+ "lbcpm1 $crn,($rma+),$cdisp10"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x4) (f-ext62 #x3) cdisp10)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (ext SI (mem QI rma)))
+ (set rma (mod1 cdisp10)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci shcpm1 "shcpm1" (OPTIONAL_CP_INSN)
+ "shcpm1 $crn,($rma+),$cdisp10a2"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x1) (f-ext62 #x3) cdisp10a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" (and rma (inv SI 1)))
+ (set (mem HI (and rma (inv SI 1))) (and crn #xffff))
+ (set rma (mod1 cdisp10a2)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lhcpm1 "lhcpm1" (OPTIONAL_CP_INSN)
+ "lhcpm1 $crn,($rma+),$cdisp10a2"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x5) (f-ext62 #x3) cdisp10a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (ext SI (mem HI (and rma (inv SI 1)))))
+ (set rma (mod1 cdisp10a2)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci swcpm1 "swcpm1" (OPTIONAL_CP_INSN)
+ "swcpm1 $crn,($rma+),$cdisp10a4"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x2) (f-ext62 #x3) cdisp10a4)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call VOID "check_write_to_text" (and rma (inv SI 3)))
+ (set (mem SI (and rma (inv SI 3))) crn)
+ (set rma (mod1 cdisp10a4)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lwcpm1 "lwcpm1" (OPTIONAL_CP_INSN)
+ "lwcpm1 $crn,($rma+),$cdisp10a4"
+ (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x6) (f-ext62 #x3) cdisp10a4)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crn (ext SI (mem SI (and rma (inv SI 3)))))
+ (set rma (mod1 cdisp10a4)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci smcpm1 "smcpm1" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN)
+ "smcpm1 $crn64,($rma+),$cdisp10a8"
+ (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x3) (f-ext62 #x3) cdisp10a8)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (c-call "do_smcp" rma crn64 pc)
+ (c-call VOID "check_write_to_text" rma)
+ (set rma (mod1 cdisp10a8)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnci lmcpm1 "lmcpm1" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN)
+ "lmcpm1 $crn64,($rma+),$cdisp10a8"
+ (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x7) (f-ext62 #x3) cdisp10a8)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "check_option_cp64" pc)
+ (set crn64 (c-call DI "do_lmcp" rma pc))
+ (set rma (mod1 cdisp10a8)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
+
+(dnop cp_flag "branch condition register" (all-mep-isas) h-ccr 1)
+
+(dnci bcpeq "branch coprocessor equal" (OPTIONAL_CP_INSN RELAXABLE)
+ "bcpeq $cccc,$pcrel17a2"
+ (+ MAJ_13 (f-rn 8) cccc (f-sub4 4) pcrel17a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (if (eq (xor cccc cp_flag) 0)
+ (set-vliw-alignment-modified pc pcrel17a2)))
+ ())
+
+(dnci bcpne "branch coprocessor not equal" (OPTIONAL_CP_INSN RELAXABLE)
+ "bcpne $cccc,$pcrel17a2"
+ (+ MAJ_13 (f-rn 8) cccc (f-sub4 5) pcrel17a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (if (ne (xor cccc cp_flag) 0)
+ (set-vliw-alignment-modified pc pcrel17a2)))
+ ())
+
+(dnci bcpat "branch coprocessor and true" (OPTIONAL_CP_INSN RELAXABLE)
+ "bcpat $cccc,$pcrel17a2"
+ (+ MAJ_13 (f-rn 8) cccc (f-sub4 6) pcrel17a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (if (ne (and cccc cp_flag) 0)
+ (set-vliw-alignment-modified pc pcrel17a2)))
+ ())
+
+(dnci bcpaf "branch coprocessor and false" (OPTIONAL_CP_INSN RELAXABLE)
+ "bcpaf $cccc,$pcrel17a2"
+ (+ MAJ_13 (f-rn 8) cccc (f-sub4 7) pcrel17a2)
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (if (eq (and cccc cp_flag) 0)
+ (set-vliw-alignment-modified pc pcrel17a2)))
+ ())
+
+(dnci synccp "synchronise with coprocessor" (OPTIONAL_CP_INSN)
+ "synccp"
+ (+ MAJ_7 (f-rn 0) (f-rm 2) (f-sub4 1))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (unimp "synccp"))
+ ())
+
+(dnci jsrv "jump to vliw subroutine " (OPTIONAL_CP_INSN)
+ "jsrv $rm"
+ (+ MAJ_1 (f-rn 8) rm (f-sub4 15))
+ (sequence ()
+ (cg-profile pc rm)
+ (c-call "check_option_cp" pc)
+ (core-vliw-switch
+
+ ;; in core operating mode
+ (sequence ()
+ (set lp (or (add pc 2) 1))
+ (set-vliw-aliignment-modified-by-option pc rm)
+ (set-psw.om 1)) ;; to VLIW operation mode
+
+ ;; in VLIW32 operating mode
+ (sequence ()
+ (set lp (or (add pc 4) 1))
+ (set pc (and rm (inv 1)))
+ (set-psw.om 0)) ;; to core operation mode
+
+ ;; in VLIW64 operating mode
+ (sequence ()
+ (set lp (or (add pc 8) 1))
+ (set pc (and rm (inv 1)))
+ (set-psw.om 0)))) ;; to core operation mode
+ ((mep (unit u-use-gpr (in usereg rm))
+ (unit u-exec)
+ (unit u-branch))))
+
+(dnci bsrv "branch to vliw subroutine" (OPTIONAL_CP_INSN)
+ "bsrv $pcrel24a2"
+ (+ MAJ_13 (f-4 1) (f-sub4 11) pcrel24a2)
+ (sequence ()
+ (cg-profile pc pcrel24a2)
+ (c-call "check_option_cp" pc)
+ (core-vliw-switch
+
+ ;; in core operating mode
+ (sequence ()
+ (set lp (or (add pc 4) 1))
+ (set-vliw-aliignment-modified-by-option pc pcrel24a2)
+ (set-psw.om 1)) ;; to VLIW operation mode
+
+ ;; in VLIW32 operating mode
+ (sequence ()
+ (set lp (or (add pc 4) 1))
+ (set pc (and pcrel24a2 (inv 1)))
+ (set-psw.om 0)) ;; to core operation mode
+
+ ;; in VLIW64 operating mode
+ (sequence ()
+ (set lp (or (add pc 8) 1))
+ (set pc (and pcrel24a2 (inv 1)))
+ (set-psw.om 0)))) ;; to core operation mode
+ ((mep (unit u-exec)
+ (unit u-branch))))
+
+\f
+; An instruction for test instrumentation.
+; Using a reserved opcode.
+
+(dnci sim-syscall "simulator system call" ()
+ "--syscall--"
+ (+ MAJ_7 (f-4 1) callnum (f-8 0) (f-9 0) (f-10 0) (f-sub4 0))
+ (c-call "do_syscall" pc callnum)
+ ())
+
+(define-pmacro (dnri n major minor)
+ (dnci (.sym ri- n) "reserved instruction" ()
+ "--reserved--"
+ (+ major rn rm (f-sub4 minor))
+ (set pc (c-call USI "ri_exception" pc))
+ ((mep (unit u-exec)
+ (unit u-branch)))))
+
+(dnri 0 MAJ_0 6)
+(dnri 1 MAJ_1 10)
+(dnri 2 MAJ_1 11)
+(dnri 3 MAJ_2 5)
+(dnri 4 MAJ_2 8)
+(dnri 5 MAJ_2 9)
+(dnri 6 MAJ_2 10)
+(dnri 7 MAJ_2 11)
+(dnri 8 MAJ_3 4)
+(dnri 9 MAJ_3 5)
+(dnri 10 MAJ_3 6)
+(dnri 11 MAJ_3 7)
+(dnri 12 MAJ_3 12)
+(dnri 13 MAJ_3 13)
+(dnri 14 MAJ_3 14)
+(dnri 15 MAJ_3 15)
+(dnri 17 MAJ_7 7)
+(dnri 20 MAJ_7 14)
+(dnri 21 MAJ_7 15)
+(dnri 22 MAJ_12 7)
+(dnri 23 MAJ_14 13)
+;(dnri 24 MAJ_15 3)
+(dnri 26 MAJ_15 8)
+; begin core-specific reserved insns
+; end core-specific reserved insns
+
+\f
+; Macro instructions.
+
+(dnmi nop "nop"
+ ()
+ "nop"
+ (emit mov (rn 0) (rm 0)))
+
+; Emit the 16 bit form of these 32 bit insns when the displacement is zero.
+;
+(dncmi sb16-0 "store byte (explicit 16 bit displacement of zero)" (NO-DIS)
+ "sb $rnc,$zero($rma)"
+ (emit sb rnc rma))
+
+(dncmi sh16-0 "store half (explicit 16 bit displacement of zero)" (NO-DIS)
+ "sh $rns,$zero($rma)"
+ (emit sh rns rma))
+
+(dncmi sw16-0 "store word (explicit 16 bit displacement of zero)" (NO-DIS)
+ "sw $rnl,$zero($rma)"
+ (emit sw rnl rma))
+
+(dncmi lb16-0 "load byte (explicit 16 bit displacement of zero)" (NO-DIS)
+ "lb $rnc,$zero($rma)"
+ (emit lb rnc rma))
+
+(dncmi lh16-0 "load half (explicit 16 bit displacement of zero)" (NO-DIS)
+ "lh $rns,$zero($rma)"
+ (emit lh rns rma))
+
+(dncmi lw16-0 "load word (explicit 16 bit displacement of zero)" (NO-DIS)
+ "lw $rnl,$zero($rma)"
+ (emit lw rnl rma))
+
+(dncmi lbu16-0 "load unsigned byte (explicit 16 bit displacement of zero)" (NO-DIS)
+ "lbu $rnuc,$zero($rma)"
+ (emit lbu rnuc rma))
+
+(dncmi lhu16-0 "load unsigned half (explicit 16 bit displacement of zero)" (NO-DIS)
+ "lhu $rnus,$zero($rma)"
+ (emit lhu rnus rma))
+
+(dncmi swcp16-0 "swcp (explicit 16-bit displacement of zero)" (OPTIONAL_CP_INSN NO-DIS)
+ "swcp $crn,$zero($rma)"
+ (emit swcp crn rma))
+
+(dncmi lwcp16-0 "lwcp (explicit 16-bit displacement of zero)" (OPTIONAL_CP_INSN NO-DIS)
+ "lwcp $crn,$zero($rma)"
+ (emit lwcp crn rma))
+
+(dncmi smcp16-0 "smcp (explicit 16-bit displacement of zero)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN NO-DIS)
+ "smcp $crn64,$zero($rma)"
+ (emit smcp crn64 rma))
+
+(dncmi lmcp16-0 "lmcp (explicit 16-bit displacement of zero)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN NO-DIS)
+ "lmcp $crn64,$zero($rma)"
+ (emit lmcp crn64 rma))
--- /dev/null
+; Toshiba MeP Media Engine architecture description. -*- Scheme -*-
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+; This file serves as a wrapper to bring in the core description plus
+; sample implementations of the UCI and DSP instructions.
+
+(include "mep-core.cpu")
+(include "mep-ext-cop.cpu")
--- /dev/null
+; Toshiba MeP Media Engine architecture description. -*- Scheme -*-
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+;; begin-user-isa-includes
+(include "mep-ivc2.cpu")
+;; end-user-isa-includes
--- /dev/null
+; Toshiba MeP FMAX Coprocessor description. -*- Scheme -*-
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+;------------------------------------------------------------------------------
+; MeP-Integrator will redefine the isa pmacros below to allow the bit widths
+; specified below for each ME_MODULE using this coprocessor.
+; This coprocessor requires only the 32 bit insns in the core.
+;------------------------------------------------------------------------------
+; begin-isas
+(define-pmacro fmax-core-isa () (ISA ext_core2))
+(define-pmacro all-fmax-isas () (ISA ext_core2))
+; end-isas
+
+;******************************************************************************
+; ifields
+;------------------------------------------------------------------------------
+; opcodes
+(dnf f-fmax-0-4 "opcode" (all-fmax-isas) 0 4)
+(dnf f-fmax-4-4 "opcode" (all-fmax-isas) 4 4)
+(dnf f-fmax-8-4 "opcode" (all-fmax-isas) 8 4)
+(dnf f-fmax-12-4 "opcode" (all-fmax-isas) 12 4)
+(dnf f-fmax-16-4 "opcode" (all-fmax-isas) 16 4)
+(dnf f-fmax-20-4 "opcode" (all-fmax-isas) 20 4)
+(dnf f-fmax-24-4 "opcode" (all-fmax-isas) 24 4)
+(dnf f-fmax-28-1 "opcode" (all-fmax-isas) 28 1)
+(dnf f-fmax-29-1 "opcode" (all-fmax-isas) 29 1)
+(dnf f-fmax-30-1 "opcode" (all-fmax-isas) 30 1)
+(dnf f-fmax-31-1 "opcode" (all-fmax-isas) 31 1)
+
+;------------------------------------------------------------------------------
+; FR registers
+(define-multi-ifield
+ (name f-fmax-frd)
+ (comment "FRd register")
+ (attrs all-fmax-isas)
+ (mode UINT)
+ (subfields f-fmax-28-1 f-fmax-4-4)
+ (insert (sequence ()
+ (set (ifield f-fmax-4-4) (and (ifield f-fmax-frd) #xf))
+ (set (ifield f-fmax-28-1) (srl (ifield f-fmax-frd) 4))))
+ (extract (set (ifield f-fmax-frd)
+ (or (sll (ifield f-fmax-28-1) 4) (ifield f-fmax-4-4))))
+)
+(define-multi-ifield
+ (name f-fmax-frn)
+ (comment "FRn register")
+ (attrs all-fmax-isas)
+ (mode UINT)
+ (subfields f-fmax-29-1 f-fmax-20-4)
+ (insert (sequence ()
+ (set (ifield f-fmax-20-4) (and (ifield f-fmax-frn) #xf))
+ (set (ifield f-fmax-29-1) (srl (ifield f-fmax-frn) 4))))
+ (extract (set (ifield f-fmax-frn)
+ (or (sll (ifield f-fmax-29-1) 4) (ifield f-fmax-20-4))))
+)
+(define-multi-ifield
+ (name f-fmax-frm)
+ (comment "FRm register")
+ (attrs all-fmax-isas)
+ (mode UINT)
+ (subfields f-fmax-30-1 f-fmax-24-4)
+ (insert (sequence ()
+ (set (ifield f-fmax-24-4) (and (ifield f-fmax-frm) #xf))
+ (set (ifield f-fmax-30-1) (srl (ifield f-fmax-frm) 4))))
+ (extract (set (ifield f-fmax-frm)
+ (or (sll (ifield f-fmax-30-1) 4) (ifield f-fmax-24-4))))
+)
+
+;------------------------------------------------------------------------------
+; Core General registers
+(dnf f-fmax-rm "opcode" (all-fmax-isas) 8 4)
+
+;------------------------------------------------------------------------------
+; Condition opcodes enum
+(define-normal-insn-enum fmax-cond "condition opcode enum" (all-fmax-isas) FMAX_ f-fmax-8-4
+ ("f" "u" "e" "ue" "l" "ul" "le" "ule"
+ "fi" "ui" "ei" "uei" "li" "uli" "lei" "ulei")
+)
+
+;******************************************************************************
+; Hardware
+;------------------------------------------------------------------------------
+; FR registers
+
+; Given a coprocessor register number N, expand to a
+; name/index pair: ($frN N)
+(define-pmacro (-fmax-fr-reg-pair n) ((.sym "fr" n) n))
+(define-pmacro (-fmax-cr-reg-pair n) ((.sym "c" n) n))
+
+; NOTE: This exists solely for the purpose of providing the proper register names for this coprocessor.
+; GDB will use the hardware table generated from this declaration. The operands use h-cr
+; from mep-core.cpu so that SID's semantic trace will be consistent between
+; the core and the coprocessor but use parse/print handlers which reference the hardware table
+; generated from this declarations
+(define-hardware
+ (name h-cr-fmax)
+ (comment "Floating point registers")
+ (attrs all-fmax-isas VIRTUAL IS_FLOAT)
+ (type register SF (32))
+ (indices keyword "$"
+ (.splice (.unsplice (.map -fmax-fr-reg-pair (.iota 32)))
+ (.unsplice (.map -fmax-cr-reg-pair (.iota 32))))
+ )
+ (get (index) (c-call SF "fmax_fr_get_handler" index))
+ (set (index newval) (c-call VOID "fmax_fr_set_handler" index newval))
+)
+
+;------------------------------------------------------------------------------
+; Control registers
+; NOTE: This exists solely for the purpose of providing the proper register names for this coprocessor.
+; GDB will use the hardware table generated from this declaration. The operands use h-ccr
+; from mep-core.cpu so that SID's semantic trace will be consistent between
+; the core and the coprocessor but use parse/print handlers which reference the hardware table
+; generated from this declarations
+(define-hardware
+ (name h-ccr-fmax)
+ (comment "Coprocessor Identifier and Revision Register")
+ (attrs all-fmax-isas VIRTUAL)
+ (type register USI (16))
+ (indices keyword "$" (
+ ("cirr" 0) ("fcr0" 0) ("ccr0" 0)
+ ("cbcr" 1) ("fcr1" 1) ("ccr1" 1)
+ ("cerr" 15) ("fcr15" 15) ("ccr15" 15)
+ )
+ )
+ (set (index newval) (c-call VOID "h_ccr_set" index newval))
+ (get (index) (c-call SI "h_ccr_get" index))
+)
+
+;------------------------------------------------------------------------------
+; Misc
+(define-hardware
+ (name h-fmax-compare-i-p)
+ (comment "flag")
+ (attrs all-fmax-isas)
+ (type register USI)
+)
+
+;******************************************************************************
+; Operands
+;------------------------------------------------------------------------------
+; FR Registers
+(define-full-operand fmax-FRd "FRd" (all-fmax-isas (CDATA FMAX_FLOAT)) h-cr SF f-fmax-frd ((parse "fmax_cr") (print "fmax_cr")) () ())
+(define-full-operand fmax-FRn "FRn" (all-fmax-isas (CDATA FMAX_FLOAT)) h-cr SF f-fmax-frn ((parse "fmax_cr") (print "fmax_cr")) () ())
+(define-full-operand fmax-FRm "FRm" (all-fmax-isas (CDATA FMAX_FLOAT)) h-cr SF f-fmax-frm ((parse "fmax_cr") (print "fmax_cr")) () ())
+
+(define-full-operand fmax-FRd-int "FRd as an integer" (all-fmax-isas (CDATA FMAX_INT)) h-cr SI f-fmax-frd ((parse "fmax_cr") (print "fmax_cr")) () ())
+(define-full-operand fmax-FRn-int "FRn as an integer" (all-fmax-isas (CDATA FMAX_INT)) h-cr SI f-fmax-frn ((parse "fmax_cr") (print "fmax_cr")) () ())
+
+;------------------------------------------------------------------------------
+; Control registers
+(define-full-operand fmax-CCRn "CCRn" (all-fmax-isas (CDATA REGNUM)) h-ccr DFLT f-fmax-4-4 ((parse "fmax_ccr") (print "fmax_ccr")) () ())
+
+(dnop fmax-CIRR "CIRR" (all-fmax-isas SEM-ONLY) h-ccr 0)
+(dnop fmax-CBCR "CBCR" (all-fmax-isas SEM-ONLY) h-ccr 1)
+(dnop fmax-CERR "CERR" (all-fmax-isas SEM-ONLY) h-ccr 15)
+
+;------------------------------------------------------------------------------
+; Core General Registers
+(dnop fmax-Rm "Rm" (all-fmax-isas) h-gpr f-fmax-rm)
+
+;------------------------------------------------------------------------------
+; misc
+(dnop fmax-Compare-i-p "flag" (all-fmax-isas SEM-ONLY) h-fmax-compare-i-p f-nil)
+
+;******************************************************************************
+; Instructions
+;------------------------------------------------------------------------------
+; Binary Arithmetic
+(define-pmacro (fmax-binary-arith op opc sem)
+ (dni op
+ (.str op " FRd,FRn,FRm")
+ (all-fmax-isas MAY_TRAP)
+ (.str op " ${fmax-FRd},${fmax-FRn},${fmax-FRm}")
+ (+ (f-fmax-0-4 #xF) fmax-FRd (f-fmax-8-4 opc) (f-fmax-12-4 #x7) (f-fmax-16-4 0)
+ fmax-FRn fmax-FRm (f-fmax-31-1 0))
+ sem
+ ()
+ )
+)
+
+(fmax-binary-arith fadds #x0 (set fmax-FRd (add fmax-FRn fmax-FRm)))
+(fmax-binary-arith fsubs #x1 (set fmax-FRd (sub fmax-FRn fmax-FRm)))
+(fmax-binary-arith fmuls #x2 (set fmax-FRd (mul fmax-FRn fmax-FRm)))
+(fmax-binary-arith fdivs #x3 (set fmax-FRd (div fmax-FRn fmax-FRm)))
+
+;------------------------------------------------------------------------------
+; Unary Arithmetic
+(define-pmacro (fmax-unary-arith op opc sem)
+ (dni op
+ (.str op " FRd,FRn")
+ (all-fmax-isas MAY_TRAP)
+ (.str op " ${fmax-FRd},${fmax-FRn}")
+ (+ (f-fmax-0-4 #xF) fmax-FRd (f-fmax-8-4 opc) (f-fmax-12-4 #x7)
+ (f-fmax-16-4 0) fmax-FRn (f-fmax-24-4 0) (f-fmax-30-1 0) (f-fmax-31-1 0))
+ sem
+ ()
+ )
+)
+
+(fmax-unary-arith fsqrts #x4 (set fmax-FRd (sqrt fmax-FRn)))
+(fmax-unary-arith fabss #x5 (set fmax-FRd (abs fmax-FRn)))
+(fmax-unary-arith fnegs #x7 (set fmax-FRd (neg fmax-FRn)))
+(fmax-unary-arith fmovs #x6 (set fmax-FRd fmax-FRn))
+
+;------------------------------------------------------------------------------
+; Conversions
+(define-pmacro (fmax-conv op opc1 opc2 opnd1 opnd2 sem)
+ (dni op
+ (.str op " FRd,FRn")
+ (all-fmax-isas MAY_TRAP)
+ (.str op " ${" opnd1 "},${" opnd2 "}")
+ (+ (f-fmax-0-4 #xF) opnd1 (f-fmax-8-4 opc1) (f-fmax-12-4 #x7)
+ (f-fmax-16-4 opc2) opnd2 (f-fmax-24-4 0) (f-fmax-30-1 0) (f-fmax-31-1 0))
+ sem
+ ()
+ )
+)
+
+(fmax-conv froundws #xC #x0 fmax-FRd-int fmax-FRn (set fmax-FRd-int (c-call SI "fmax_froundws" fmax-FRn)))
+(fmax-conv ftruncws #xD #x0 fmax-FRd-int fmax-FRn (set fmax-FRd-int (c-call SI "fmax_ftruncws" fmax-FRn)))
+(fmax-conv fceilws #xE #x0 fmax-FRd-int fmax-FRn (set fmax-FRd-int (c-call SI "fmax_fceilws" fmax-FRn)))
+(fmax-conv ffloorws #xF #x0 fmax-FRd-int fmax-FRn (set fmax-FRd-int (c-call SI "fmax_ffloorws" fmax-FRn)))
+(fmax-conv fcvtws #x4 #x1 fmax-FRd-int fmax-FRn (set fmax-FRd-int (c-call SI "fmax_fcvtws" fmax-FRn)))
+(fmax-conv fcvtsw #x0 #x9 fmax-FRd fmax-FRn-int (set fmax-FRd (float SF FPCONV-DEFAULT fmax-FRn-int)))
+
+;------------------------------------------------------------------------------
+; Comparisons
+;
+; Comparison with no exceptions
+(define-pmacro (fmax-f-sem x y) (andif (gt x y) (lt x y))) ; do this to get exception detection
+(define-pmacro (fmax-u-sem x y) (not (orif (lt x y) (orif (eq x y) (gt x y)))))
+(define-pmacro (fmax-e-sem x y) (eq x y))
+(define-pmacro (fmax-ue-sem x y) (not (orif (lt x y) (gt x y))))
+(define-pmacro (fmax-l-sem x y) (lt x y))
+(define-pmacro (fmax-ul-sem x y) (not (orif (gt x y) (eq x y))))
+(define-pmacro (fmax-le-sem x y) (orif (lt x y) (eq x y)))
+(define-pmacro (fmax-ule-sem x y) (not (gt x y)))
+
+(define-pmacro (fmax-comp cond suffix exceptions)
+ (dni (.sym fcmp cond suffix s)
+ (.str "fcmp" cond suffix "s FRn,FRm")
+ ;; Even though the instruction doesn't really trap if EXCEPTIONS
+ ;; is zero, we don't want gcc to put it in a repeat or erepeat
+ ;; block because of the hazards between fcmp instructions and
+ ;; anything that reads CBCR.
+ (all-fmax-isas MAY_TRAP)
+ (.str "fcmp" cond suffix "s ${fmax-FRn},${fmax-FRm}")
+ (+ (f-fmax-0-4 #xF) (f-fmax-4-4 0) (.sym FMAX_ cond suffix) (f-fmax-12-4 #x7)
+ (f-fmax-16-4 #x2) (f-fmax-28-1 0) fmax-FRn fmax-FRm (f-fmax-31-1 0))
+ (sequence ()
+ (set fmax-Compare-i-p exceptions)
+ (set fmax-CBCR ((.sym fmax- cond -sem) fmax-FRn fmax-FRm))
+ (set fmax-Compare-i-p 0)
+ )
+ ()
+ )
+)
+
+; Comparison with no exceptions
+(fmax-comp f "" 0)
+(fmax-comp u "" 0)
+(fmax-comp e "" 0)
+(fmax-comp ue "" 0)
+(fmax-comp l "" 0)
+(fmax-comp ul "" 0)
+(fmax-comp le "" 0)
+(fmax-comp ule "" 0)
+
+; Comparison with exceptions
+(fmax-comp f i 1)
+(fmax-comp u i 1)
+(fmax-comp e i 1)
+(fmax-comp ue i 1)
+(fmax-comp l i 1)
+(fmax-comp ul i 1)
+(fmax-comp le i 1)
+(fmax-comp ule i 1)
+
+;------------------------------------------------------------------------------
+; Move to/from core registers
+(dni cmov-frn-rm
+ "cmov FRn,Rm"
+ (all-fmax-isas (INTRINSIC "cmov1"))
+ "cmov ${fmax-FRd-int},${fmax-Rm}"
+ (+ (f-fmax-0-4 #xF) fmax-FRd-int fmax-Rm (f-fmax-12-4 #x7)
+ (f-fmax-16-4 #xF) (f-fmax-20-4 0) (f-fmax-24-4 0)
+ (f-fmax-29-1 0) (f-fmax-30-1 0) (f-fmax-31-1 0))
+ (set fmax-FRd-int fmax-Rm)
+ ()
+)
+(dni cmov-rm-frn
+ "cmov Rm,FRn"
+ (all-fmax-isas (INTRINSIC "cmov2"))
+ "cmov ${fmax-Rm},${fmax-FRd-int}"
+ (+ (f-fmax-0-4 #xF) fmax-FRd-int fmax-Rm (f-fmax-12-4 #x7)
+ (f-fmax-16-4 #xF) (f-fmax-20-4 0) (f-fmax-24-4 0)
+ (f-fmax-29-1 0) (f-fmax-30-1 0) (f-fmax-31-1 1))
+ (set fmax-Rm fmax-FRd-int)
+ ()
+)
+(dni cmovc-ccrn-rm
+ "cmovc CCRn,Rm"
+ (all-fmax-isas (INTRINSIC "cmovc1"))
+ "cmovc ${fmax-CCRn},${fmax-Rm}"
+ (+ (f-fmax-0-4 #xF) fmax-CCRn fmax-Rm (f-fmax-12-4 #x7)
+ (f-fmax-16-4 #xF) (f-fmax-20-4 0) (f-fmax-24-4 0)
+ (f-fmax-28-1 0) (f-fmax-29-1 0) (f-fmax-30-1 1) (f-fmax-31-1 0))
+ (set fmax-CCRn fmax-Rm)
+ ()
+)
+(dni cmovc-rm-ccrn
+ "cmovc Rm,CCRn"
+ (all-fmax-isas (INTRINSIC "cmovc2"))
+ "cmovc ${fmax-Rm},${fmax-CCRn}"
+ (+ (f-fmax-0-4 #xF) fmax-CCRn fmax-Rm (f-fmax-12-4 #x7)
+ (f-fmax-16-4 #xF) (f-fmax-20-4 0) (f-fmax-24-4 0)
+ (f-fmax-28-1 0) (f-fmax-29-1 0) (f-fmax-30-1 1) (f-fmax-31-1 1))
+ (set fmax-Rm fmax-CCRn)
+ ()
+)
--- /dev/null
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+; Insns introduced for the MeP-h1 core
+;
+(dnci stcb_r "store in control bus space" (VOLATILE (MACH h1))
+ "stcb $rn,($rma)"
+ (+ MAJ_7 rn rma (f-sub4 12))
+ (c-call VOID "do_stcb" rn (and rma #xffff))
+ ((mep (unit u-use-gpr (in usereg rn))
+ (unit u-use-gpr (in usereg rma))
+ (unit u-exec)
+ (unit u-stcb))))
+
+(dnci ldcb_r "load from control bus space" (VOLATILE (MACH h1) (LATENCY 3))
+ "ldcb $rn,($rma)"
+ (+ MAJ_7 rn rma (f-sub4 13))
+ (set rn (c-call SI "do_ldcb" (and rma #xffff)))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-ldcb)
+ (unit u-exec)
+ (unit u-ldcb-gpr (out loadreg rn)))))
+
+(dnci pref "cache prefetch" ((MACH h1) VOLATILE)
+ "pref $cimm4,($rma)"
+ (+ MAJ_7 cimm4 rma (f-sub4 5))
+ (sequence ()
+ (c-call VOID "check_option_dcache" pc)
+ (c-call VOID "do_cache_prefetch" cimm4 rma pc))
+ ((mep (unit u-use-gpr (in usereg rma))
+ (unit u-exec))))
--- /dev/null
+; Toshiba MeP IVC2 Coprocessor description. -*- scheme -*-
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+;------------------------------------------------------------------------------
+; MeP-Integrator will redefine the isa pmacros below to allow the bit widths
+; specified below for each ME_MODULE using this coprocessor.
+; IVC2 uses the isas as follows:
+; C3 32
+; P0S 16
+; P0 48
+; P1 64
+;------------------------------------------------------------------------------
+; begin-isas
+(define-pmacro ivc2-core-isa () (ISA ext_core1))
+(define-pmacro ivc2-16-isa () (ISA ext_cop1_16))
+(define-pmacro ivc2-32-isa () (ISA ext_cop1_32))
+(define-pmacro ivc2-48-isa () (ISA ext_cop1_48))
+(define-pmacro ivc2-64-isa () (ISA ext_cop1_64))
+(define-pmacro all-ivc2-isas () (ISA ext_core1,ext_cop1_16,ext_cop1_32,ext_cop1_48,ext_cop1_64))
+(define-pmacro ivc2-p0s-isa () (ISA ext_cop1_16))
+(define-pmacro ivc2-p0-isa () (ISA ext_cop1_48))
+(define-pmacro ivc2-p0s-p0-isa () (ISA ext_cop1_16,ext_cop1_48))
+(define-pmacro ivc2-p1-isa () (ISA ext_cop1_64))
+(define-pmacro ivc2-p0s-p1-isa () (ISA ext_cop1_16,ext_cop1_64))
+(define-pmacro ivc2-p0-p1-isa () (ISA ext_cop1_48,ext_cop1_64))
+(define-pmacro ivc2-p0s-p0-p1-isa () (ISA ext_cop1_16,ext_cop1_48,ext_cop1_64))
+(define-pmacro ivc2-c3-isa () (ISA ext_cop1_32))
+; end-isas
+
+; register definitions
+; ---------------------
+; NOTE: This exists solely for the purpose of providing the proper register names for this coprocessor.
+; GDB will use the hardware table generated from this declaration. The operands use h-cr
+; from mep-core.cpu so that SID's semantic trace will be consistent between
+; the core and the coprocessor but use parse/print handlers which reference the hardware table
+; generated from this declarations
+(define-hardware
+ (name h-cr-ivc2)
+ (comment "64-bit coprocessor registers for ivc2 coprocessor")
+ (attrs VIRTUAL all-mep-core-isas (CDATA CP_DATA_BUS_INT))
+ (type register DI (64))
+ (set (index newval) (c-call VOID "h_cr64_set" index newval))
+ (get (index) (c-call DI "h_cr64_get" index))
+ (indices keyword "$c" (.map -reg-pair (.iota 8)))
+)
+
+; NOTE: This exists solely for the purpose of providing the proper register names for this coprocessor.
+; GDB will use the hardware table generated from this declaration. The operands use h-ccr
+; from mep-core.cpu so that SID's semantic trace will be consistent between
+; the core and the coprocessor but use parse/print handlers which reference the hardware table
+; generated from this declarations
+(define-hardware
+ (name h-ccr-ivc2)
+ (comment "Coprocessor control registers for ivc2 coprocessor")
+ (attrs VIRTUAL all-mep-isas)
+ (type register SI (32))
+ (set (index newval) (c-call VOID "h_ccr_set" index newval))
+ (get (index) (c-call SI "h_ccr_get" index))
+ (indices keyword ""
+ (.splice
+
+ ($csar0 0)
+ ($cc 1)
+ ($cofr0 4)
+ ($cofr1 5)
+ ($cofa0 6)
+ ($cofa1 7)
+
+ ($csar1 15)
+
+ ($acc0_0 16)
+ ($acc0_1 17)
+ ($acc0_2 18)
+ ($acc0_3 19)
+ ($acc0_4 20)
+ ($acc0_5 21)
+ ($acc0_6 22)
+ ($acc0_7 23)
+
+ ($acc1_0 24)
+ ($acc1_1 25)
+ ($acc1_2 26)
+ ($acc1_3 27)
+ ($acc1_4 28)
+ ($acc1_5 29)
+ ($acc1_6 30)
+ ($acc1_7 31)
+ (.unsplice (.map -ccr-reg-pair (.iota 32)))
+ )
+ )
+)
+
+(define-attr
+ (type bitset)
+ (for insn)
+ (name SLOTS)
+ (comment "slots for which this opcode is valid - c3, p0s, p0, p1")
+ (values CORE C3 P0S P0 P1)
+ (default CORE)
+ )
+
+;-----------------------------------------------------------------------------
+; macros for standard opcodes for each slot type
+
+; C3
+(dnf f-ivc2-2u4 "sub opcode field" (all-mep-isas) 4 2)
+(dnf f-ivc2-3u4 "sub opcode field" (all-mep-isas) 4 3)
+(dnf f-ivc2-8u4 "sub opcode field" (all-mep-isas) 4 8)
+(df f-ivc2-8s4 "sub opcode field" (all-mep-isas) 4 8 INT #f #f)
+(dnf f-ivc2-1u6 "sub opcode field" (all-mep-isas) 6 1)
+(dnf f-ivc2-2u6 "sub opcode field" (all-mep-isas) 6 2)
+(dnf f-ivc2-3u6 "sub opcode field" (all-mep-isas) 6 3)
+(dnf f-ivc2-6u6 "sub opcode field" (all-mep-isas) 6 6)
+(dnf f-ivc2-5u7 "sub opcode field" (all-mep-isas) 7 5)
+(dnf f-ivc2-4u8 "sub opcode field" (all-mep-isas) 8 4)
+(dnf f-ivc2-3u9 "sub opcode field" (all-mep-isas) 9 3)
+(dnf f-ivc2-5u16 "sub opcode field" (all-mep-isas) 16 5)
+(dnf f-ivc2-5u21 "sub opcode field" (all-mep-isas) 21 5)
+(dnf f-ivc2-5u26 "sub opcode field" (all-mep-isas) 26 5)
+(dnf f-ivc2-1u31 "sub opcode field" (all-mep-isas) 31 1)
+
+(dnf f-ivc2-4u16 "sub opcode field" (all-mep-isas) 16 4)
+(dnf f-ivc2-4u20 "sub opcode field" (all-mep-isas) 20 4)
+(dnf f-ivc2-4u24 "sub opcode field" (all-mep-isas) 24 4)
+(dnf f-ivc2-4u28 "sub opcode field" (all-mep-isas) 28 4)
+
+; P0S/P0/P1
+(dnf f-ivc2-2u0 "sub opcode field" (all-mep-isas) 0 2)
+(dnf f-ivc2-3u0 "sub opcode field" (all-mep-isas) 0 3)
+(dnf f-ivc2-4u0 "sub opcode field" (all-mep-isas) 0 4)
+(dnf f-ivc2-5u0 "sub opcode field" (all-mep-isas) 0 5)
+(dnf f-ivc2-8u0 "sub opcode field" (all-mep-isas) 0 8)
+(df f-ivc2-8s0 "sub opcode field" (all-mep-isas) 0 8 INT #f #f)
+(dnf f-ivc2-6u2 "sub opcode field" (all-mep-isas) 2 6)
+(dnf f-ivc2-5u3 "sub opcode field" (all-mep-isas) 3 5)
+(dnf f-ivc2-4u4 "sub opcode field" (all-mep-isas) 4 4)
+(dnf f-ivc2-3u5 "sub opcode field" (all-mep-isas) 5 3)
+(dnf f-ivc2-5u8 "sub opcode field" (all-mep-isas) 8 5)
+(dnf f-ivc2-4u10 "sub opcode field" (all-mep-isas) 10 4)
+(dnf f-ivc2-3u12 "sub opcode field" (all-mep-isas) 12 3)
+(dnf f-ivc2-5u13 "sub opcode field" (all-mep-isas) 13 5)
+(dnf f-ivc2-2u18 "sub opcode field" (all-mep-isas) 18 2)
+(dnf f-ivc2-5u18 "sub opcode field" (all-mep-isas) 18 5)
+(dnf f-ivc2-8u20 "sub opcode field" (all-mep-isas) 20 8)
+(df f-ivc2-8s20 "sub opcode field" (all-mep-isas) 20 8 INT #f #f)
+(dnf f-ivc2-5u23 "sub opcode field" (all-mep-isas) 23 5)
+(dnf f-ivc2-2u23 "sub opcode field" (all-mep-isas) 23 2)
+(dnf f-ivc2-3u25 "sub opcode field" (all-mep-isas) 25 3)
+
+(dnmf f-ivc2-imm16p0 "16-bit immediate in P0/P1" (all-mep-isas) UINT
+ (f-ivc2-8u0 f-ivc2-8u20)
+ (sequence () ; insert
+ (set (ifield f-ivc2-8u0) (and (srl (ifield f-ivc2-imm16p0) 8) #xff))
+ (set (ifield f-ivc2-8u20) (and (ifield f-ivc2-imm16p0) #xff))
+ )
+ (sequence () ; extract
+ (set (ifield f-ivc2-imm16p0) (or (ifield f-ivc2-8u20)
+ (sll (ifield f-ivc2-8u0) 8)))
+ )
+ )
+
+(dnmf f-ivc2-simm16p0 "16-bit immediate in P0/P1" (all-mep-isas) INT
+ (f-ivc2-8u0 f-ivc2-8u20)
+ (sequence () ; insert
+ (set (ifield f-ivc2-8u0) (and (srl (ifield f-ivc2-simm16p0) 8) #xff))
+ (set (ifield f-ivc2-8u20) (and (ifield f-ivc2-simm16p0) #xff))
+ )
+ (sequence () ; extract
+ (set (ifield f-ivc2-simm16p0) (or (ifield f-ivc2-8u20)
+ (sll (ifield f-ivc2-8u0) 8)))
+ )
+ )
+
+(dnop ivc2_csar0 "ivc2_csar0" (all-ivc2-isas) h-ccr-ivc2 0)
+(dnop ivc2_cc "ivc2_cc" (all-ivc2-isas) h-ccr-ivc2 1)
+(dnop ivc2_cofr0 "ivc2_cofr0" (all-ivc2-isas) h-ccr-ivc2 4)
+(dnop ivc2_cofr1 "ivc2_cofr1" (all-ivc2-isas) h-ccr-ivc2 5)
+(dnop ivc2_cofa0 "ivc2_cofa0" (all-ivc2-isas) h-ccr-ivc2 6)
+(dnop ivc2_cofa1 "ivc2_cofa1" (all-ivc2-isas) h-ccr-ivc2 7)
+
+(dnop ivc2_csar1 "ivc2_csar1" (all-ivc2-isas) h-ccr-ivc2 15)
+
+(dnop ivc2_acc0_0 "acc0_0" (all-ivc2-isas) h-ccr-ivc2 16)
+(dnop ivc2_acc0_1 "acc0_1" (all-ivc2-isas) h-ccr-ivc2 17)
+(dnop ivc2_acc0_2 "acc0_2" (all-ivc2-isas) h-ccr-ivc2 18)
+(dnop ivc2_acc0_3 "acc0_3" (all-ivc2-isas) h-ccr-ivc2 19)
+(dnop ivc2_acc0_4 "acc0_4" (all-ivc2-isas) h-ccr-ivc2 20)
+(dnop ivc2_acc0_5 "acc0_5" (all-ivc2-isas) h-ccr-ivc2 21)
+(dnop ivc2_acc0_6 "acc0_6" (all-ivc2-isas) h-ccr-ivc2 22)
+(dnop ivc2_acc0_7 "acc0_7" (all-ivc2-isas) h-ccr-ivc2 23)
+
+(dnop ivc2_acc1_0 "acc1_0" (all-ivc2-isas) h-ccr-ivc2 24)
+(dnop ivc2_acc1_1 "acc1_1" (all-ivc2-isas) h-ccr-ivc2 25)
+(dnop ivc2_acc1_2 "acc1_2" (all-ivc2-isas) h-ccr-ivc2 26)
+(dnop ivc2_acc1_3 "acc1_3" (all-ivc2-isas) h-ccr-ivc2 27)
+(dnop ivc2_acc1_4 "acc1_4" (all-ivc2-isas) h-ccr-ivc2 28)
+(dnop ivc2_acc1_5 "acc1_5" (all-ivc2-isas) h-ccr-ivc2 29)
+(dnop ivc2_acc1_6 "acc1_6" (all-ivc2-isas) h-ccr-ivc2 30)
+(dnop ivc2_acc1_7 "acc1_7" (all-ivc2-isas) h-ccr-ivc2 31)
+
+(dnop croc "$CRo C3" (all-mep-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-ivc2-5u7)
+(dnop crqc "$CRq C3" (all-mep-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-ivc2-5u21)
+(dnop crpc "$CRp C3" (all-mep-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-ivc2-5u26)
+
+(dnop ivc-x-6-1 "filler" (all-mep-isas) h-uint f-ivc2-1u6)
+(dnop ivc-x-6-2 "filler" (all-mep-isas) h-uint f-ivc2-2u6)
+(dnop ivc-x-6-3 "filler" (all-mep-isas) h-uint f-ivc2-3u6)
+
+
+(dnop imm3p4 "Imm3p4" (all-mep-isas) h-uint f-ivc2-3u4)
+(dnop imm3p9 "Imm3p9" (all-mep-isas) h-uint f-ivc2-3u9)
+(dnop imm4p8 "Imm4p8" (all-mep-isas) h-uint f-ivc2-4u8)
+(dnop imm5p7 "Imm5p7" (all-mep-isas) h-uint f-ivc2-5u7)
+(dnop imm6p6 "Imm6p6" (all-mep-isas) h-uint f-ivc2-6u6)
+(dnop imm8p4 "Imm8p4" (all-mep-isas) h-uint f-ivc2-8u4)
+(dnop simm8p4 "sImm8p4" (all-mep-isas) h-sint f-ivc2-8s4)
+
+(dnop imm3p5 "Imm3p5" (all-mep-isas) h-uint f-ivc2-3u5)
+(dnop imm3p12 "Imm3p12" (all-mep-isas) h-uint f-ivc2-3u12)
+(dnop imm4p4 "Imm4p4" (all-mep-isas) h-uint f-ivc2-4u4)
+(dnop imm4p10 "Imm4p10" (all-mep-isas) h-uint f-ivc2-4u10)
+(dnop imm5p8 "Imm5p8" (all-mep-isas) h-uint f-ivc2-5u8)
+(dnop imm5p3 "Imm5p3" (all-mep-isas) h-uint f-ivc2-5u3)
+(dnop imm6p2 "Imm6p2" (all-mep-isas) h-uint f-ivc2-6u2)
+(dnop imm5p23 "Imm5p23" (all-mep-isas) h-uint f-ivc2-5u23)
+(dnop imm3p25 "Imm3p25" (all-mep-isas) h-uint f-ivc2-3u25)
+(dnop imm8p0 "Imm8p0" (all-mep-isas) h-uint f-ivc2-8u0)
+(dnop simm8p0 "sImm8p0" (all-mep-isas) h-sint f-ivc2-8s0)
+(dnop simm8p20 "sImm8p20" (all-mep-isas) h-sint f-ivc2-8s20)
+(dnop imm8p20 "Imm8p20" (all-mep-isas) h-uint f-ivc2-8u20)
+
+(dnop crop "$CRo Pn" (all-mep-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-ivc2-5u23)
+(dnop crqp "$CRq Pn" (all-mep-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-ivc2-5u13)
+(dnop crpp "$CRp Pn" (all-mep-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-ivc2-5u18)
+
+(dnop ivc-x-0-2 "filler" (all-mep-isas) h-uint f-ivc2-2u0)
+(dnop ivc-x-0-3 "filler" (all-mep-isas) h-uint f-ivc2-3u0)
+(dnop ivc-x-0-4 "filler" (all-mep-isas) h-uint f-ivc2-4u0)
+(dnop ivc-x-0-5 "filler" (all-mep-isas) h-uint f-ivc2-5u0)
+
+(dpop imm16p0 "Imm16p0" (all-mep-isas) h-uint f-ivc2-imm16p0 "unsigned16_range")
+(dpop simm16p0 "sImm16p0" (all-mep-isas) h-sint f-ivc2-simm16p0 "signed16_range")
+
+
+(df f-ivc2-ccrn-c3hi "ccrn hi 2u28" (all-mep-isas) 28 2 UINT #f #f)
+(df f-ivc2-ccrn-c3lo "ccrn lo 4u4" (all-mep-isas) 4 4 UINT #f #f)
+
+(df f-ivc2-crn "ivc2 crn" (all-mep-isas) 0 4 UINT #f #f)
+(df f-ivc2-crm "ivc2 crm" (all-mep-isas) 4 4 UINT #f #f)
+(df f-ivc2-ccrn-h1 "ccrx hi 1u20" (all-mep-isas) 20 1 UINT #f #f)
+(df f-ivc2-ccrn-h2 "ccrx hi 2u20" (all-mep-isas) 20 2 UINT #f #f)
+(df f-ivc2-ccrn-lo "ccrx lo 4u0" (all-mep-isas) 0 4 UINT #f #f)
+(df f-ivc2-cmov1 "ivc2 cmov op1" (all-mep-isas) 8 12 UINT #f #f)
+(df f-ivc2-cmov2 "ivc2 cmov op2" (all-mep-isas) 22 6 UINT #f #f)
+(df f-ivc2-cmov3 "ivc2 cmov op2" (all-mep-isas) 28 4 UINT #f #f)
+
+(define-multi-ifield
+ (name f-ivc2-ccrn-c3)
+ (comment "Coprocessor register number field")
+ (attrs all-mep-isas)
+ (mode UINT)
+ (subfields f-ivc2-ccrn-c3hi f-ivc2-ccrn-c3lo)
+ (insert (sequence ()
+ (set (ifield f-ivc2-ccrn-c3hi) (and (srl (ifield f-ivc2-ccrn-c3) 4) #x3))
+ (set (ifield f-ivc2-ccrn-c3lo) (and (ifield f-ivc2-ccrn-c3) #xf))))
+ (extract (set (ifield f-ivc2-ccrn-c3)
+ (or (sll (ifield f-ivc2-ccrn-c3hi) 4)
+ (ifield f-ivc2-ccrn-c3lo))))
+ )
+
+(define-multi-ifield
+ (name f-ivc2-ccrn)
+ (comment "Coprocessor control register number field")
+ (attrs all-mep-isas)
+ (mode UINT)
+ (subfields f-ivc2-ccrn-h2 f-ivc2-ccrn-lo)
+ (insert (sequence ()
+ (set (ifield f-ivc2-ccrn-h2) (and (srl (ifield f-ivc2-ccrn) 4) #x3))
+ (set (ifield f-ivc2-ccrn-lo) (and (ifield f-ivc2-ccrn) #xf))))
+ (extract (set (ifield f-ivc2-ccrn)
+ (or (sll (ifield f-ivc2-ccrn-h2) 4)
+ (ifield f-ivc2-ccrn-lo))))
+ )
+
+(define-multi-ifield
+ (name f-ivc2-crnx)
+ (comment "Coprocessor register number field")
+ (attrs all-mep-isas)
+ (mode UINT)
+ (subfields f-ivc2-ccrn-h1 f-ivc2-ccrn-lo)
+ (insert (sequence ()
+ (set (ifield f-ivc2-ccrn-h1) (and (srl (ifield f-ivc2-crnx) 4) #x1))
+ (set (ifield f-ivc2-ccrn-lo) (and (ifield f-ivc2-crnx) #xf))))
+ (extract (set (ifield f-ivc2-crnx)
+ (or (sll (ifield f-ivc2-ccrn-h1) 4)
+ (ifield f-ivc2-ccrn-lo))))
+ )
+
+(dnop ivc2rm "reg Rm" (all-mep-isas) h-gpr f-ivc2-crm)
+(dnop ivc2crn "copro Rn (0-31, 64-bit" (all-mep-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-ivc2-crnx)
+(dnop ivc2ccrn "copro control reg CCRn" (all-mep-isas (CDATA REGNUM)) h-ccr-ivc2 f-ivc2-ccrn)
+(dnop ivc2c3ccrn "copro control reg CCRn" (all-mep-isas (CDATA REGNUM)) h-ccr-ivc2 f-ivc2-ccrn-c3)
+
+; [--][--] [--][--] [--][--] [--]
+; 0----+-- --1----+ ----2--- -+--
+; 01234567 89012345 67890123 4567
+
+
+; 1111 nnnn mmmm 0111 1111 0000 0000 N000 cmov =crn,rm
+(dni cmov-crn-rm
+ "cmov CRn,Rm"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cmov1"))
+ "cmov $crnx64,$rm"
+ (+ MAJ_15 crnx64 rm (f-sub4 #x7)
+ (f-ivc2-4u16 #xF) (f-ivc2-4u20 0) (f-ivc2-4u24 0) (f-29 0) (f-30 0) (f-31 0))
+ (set crnx64 (or (zext DI rm) (and DI crnx64 #xffffffff00000000)))
+ ()
+)
+
+; 1111 nnnn mmmm 0111 1111 0000 0000 N001 cmov =rm,crn
+(dni cmov-rn-crm
+ "cmov Rm,CRn"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cmov2"))
+ "cmov $rm,$crnx64"
+ (+ MAJ_15 crnx64 rm (f-sub4 #x7)
+ (f-ivc2-4u16 #xF) (f-ivc2-4u20 0) (f-ivc2-4u24 0) (f-29 0) (f-30 0) (f-31 1))
+ (set rm crnx64)
+ ()
+)
+
+; 1111 nnnn mmmm 0111 1111 0000 0000 N000 cmov =crn,rm
+(dni cmovc-ccrn-rm
+ "cmovc CCRn,Rm"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cmovc1"))
+ "cmovc $ivc2c3ccrn,$rm"
+ (+ MAJ_15 ivc2c3ccrn rm (f-sub4 #x7)
+ (f-ivc2-4u16 #xF) (f-ivc2-4u20 0) (f-ivc2-4u24 0) (f-30 1) (f-31 0))
+ (set ivc2c3ccrn rm)
+ ()
+)
+
+; 1111 nnnn mmmm 0111 1111 0000 0000 N001 cmov =rm,crn
+(dni cmovc-rn-ccrm
+ "cmovc Rm,CCRn"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cmovc2"))
+ "cmovc $rm,$ivc2c3ccrn"
+ (+ MAJ_15 ivc2c3ccrn rm (f-sub4 #x7)
+ (f-ivc2-4u16 #xF) (f-ivc2-4u20 0) (f-ivc2-4u24 0) (f-30 1) (f-31 1))
+ (set rm ivc2c3ccrn)
+ ()
+)
+
+; 1111 nnnn mmmm 0111 1111 0000 0000 N000 cmov =crn,rm
+(dni cmovh-crn-rm
+ "cmovh CRn,Rm"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cmovh1"))
+ "cmovh $crnx64,$rm"
+ (+ MAJ_15 crnx64 rm (f-sub4 #x7)
+ (f-ivc2-4u16 #xF) (f-ivc2-4u20 1) (f-ivc2-4u24 0) (f-29 0) (f-30 0) (f-31 0))
+ (set crnx64 (or (sll (zext DI rm) 32) (and DI crnx64 #xffffffff)))
+ ()
+)
+
+; 1111 nnnn mmmm 0111 1111 0000 0000 N001 cmov =rm,crn
+(dni cmovh-rn-crm
+ "cmovh Rm,CRn"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cmovh2"))
+ "cmovh $rm,$crnx64"
+ (+ MAJ_15 crnx64 rm (f-sub4 #x7)
+ (f-ivc2-4u16 #xF) (f-ivc2-4u20 1) (f-ivc2-4u24 0) (f-29 0) (f-30 0) (f-31 1))
+ (set rm (srl crnx64 32))
+ ()
+)
+
+; nnnnmmmm 11110000 0000N000 0000 cmov =crn,rm
+(dni cmov-crn-rm-p0
+ "cmov CRn,Rm"
+ (OPTIONAL_CP_INSN ivc2-p0-isa (SLOTS P0) (INTRINSIC "cmov1"))
+ "cmov $ivc2crn,$ivc2rm"
+ (+ ivc2crn ivc2rm (f-ivc2-cmov1 #xf00) (f-21 0) (f-ivc2-cmov2 #x00) (f-ivc2-cmov3 0))
+ (set ivc2crn ivc2rm)
+ ()
+)
+
+; nnnnmmmm 11110000 0000N001 0000 cmov =rm,crn
+(dni cmov-rn-crm-p0
+ "cmov Rm,CRn"
+ (OPTIONAL_CP_INSN ivc2-p0-isa (SLOTS P0) (INTRINSIC "cmov2"))
+ "cmov $ivc2rm,$ivc2crn"
+ (+ ivc2crn ivc2rm (f-ivc2-cmov1 #xf00) (f-21 0) (f-ivc2-cmov2 #x10) (f-ivc2-cmov3 0))
+ (set ivc2rm ivc2crn)
+ ()
+)
+
+; nnnnmmmm 11110000 0000NN10 0000 cmovc =ccrn,rm
+(dni cmovc-ccrn-rm-p0
+ "cmovc CCRn,Rm"
+ (OPTIONAL_CP_INSN ivc2-p0-isa (SLOTS P0) (INTRINSIC "cmovc1"))
+ "cmovc $ivc2ccrn,$ivc2rm"
+ (+ ivc2ccrn ivc2rm (f-ivc2-cmov1 #xf00) (f-ivc2-cmov2 #x20) (f-ivc2-cmov3 0))
+ (set ivc2ccrn ivc2rm)
+ ()
+)
+
+; nnnnmmmm 11110000 0000NN11 0000 cmovc =rm,ccrn
+(dni cmovc-rn-ccrm-p0
+ "cmovc Rm,CCRn"
+ (OPTIONAL_CP_INSN ivc2-p0-isa (SLOTS P0) (INTRINSIC "cmovc2"))
+ "cmovc $ivc2rm,$ivc2ccrn"
+ (+ ivc2ccrn ivc2rm (f-ivc2-cmov1 #xf00) (f-ivc2-cmov2 #x30) (f-ivc2-cmov3 0))
+ (set ivc2rm ivc2ccrn)
+ ()
+)
+
+; nnnnmmmm 11110001 0000N000 0000 cmovh =crn,rm
+(dni cmovh-crn-rm-p0
+ "cmovh CRn,Rm"
+ (OPTIONAL_CP_INSN ivc2-p0-isa (SLOTS P0) (INTRINSIC "cmovh1"))
+ "cmovh $ivc2crn,$ivc2rm"
+ (+ ivc2crn ivc2rm (f-ivc2-cmov1 #xf10) (f-21 0) (f-ivc2-cmov2 #x00) (f-ivc2-cmov3 0))
+ (set ivc2crn (or (sll (zext DI ivc2rm) 32) (and DI ivc2crn #xffffffff)))
+ ()
+)
+
+; nnnnmmmm 11110001 0000N001 0000 cmovh =rm,crn
+(dni cmovh-rn-crm-p0
+ "cmovh Rm,CRn"
+ (OPTIONAL_CP_INSN ivc2-p0-isa (SLOTS P0) (INTRINSIC "cmovh2"))
+ "cmovh $ivc2rm,$ivc2crn"
+ (+ ivc2crn ivc2rm (f-ivc2-cmov1 #xf10) (f-21 0) (f-ivc2-cmov2 #x10) (f-ivc2-cmov3 0))
+ (set ivc2rm (srl ivc2crn 32))
+ ()
+)
+
+
+; 1111 000 ooooo 0111 00000 qqqqq ppppp 0 cpadd3.b =croc,crqc,crpc (c3_1)
+(dni cpadd3_b_C3 "cpadd3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpadd3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpadd3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpadd3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 00000 qqqqq ppppp 0 cpadd3.h =croc,crqc,crpc (c3_1)
+(dni cpadd3_h_C3 "cpadd3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpadd3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpadd3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpadd3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 00000 qqqqq ppppp 0 cpadd3.w =croc,crqc,crpc (c3_1)
+(dni cpadd3_w_C3 "cpadd3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpadd3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpadd3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpadd3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 011 ooooo 0111 00000 qqqqq ppppp 0 cdadd3 =croc,crqc,crpc (c3_1)
+(dni cdadd3_C3 "cdadd3 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdadd3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdadd3 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) croc (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cdadd3" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 00000 qqqqq ppppp 0 cpsub3.b =croc,crqc,crpc (c3_1)
+(dni cpsub3_b_C3 "cpsub3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsub3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsub3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsub3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 101 ooooo 0111 00000 qqqqq ppppp 0 cpsub3.h =croc,crqc,crpc (c3_1)
+(dni cpsub3_h_C3 "cpsub3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsub3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsub3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x5) croc (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsub3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 110 ooooo 0111 00000 qqqqq ppppp 0 cpsub3.w =croc,crqc,crpc (c3_1)
+(dni cpsub3_w_C3 "cpsub3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsub3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsub3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x6) croc (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsub3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 111 ooooo 0111 00000 qqqqq ppppp 0 cdsub3 =croc,crqc,crpc (c3_1)
+(dni cdsub3_C3 "cdsub3 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdsub3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsub3 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x7) croc (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cdsub3" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00001 qqqqq ppppp 0 cpand3 =croc,crqc,crpc (c3_1)
+(dni cpand3_C3 "cpand3 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpand3") (CPTYPE VECT) (CRET FIRST))
+ "cpand3 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpand3" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 00001 qqqqq ppppp 0 cpor3 =croc,crqc,crpc (c3_1)
+(dni cpor3_C3 "cpor3 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpor3") (CPTYPE VECT) (CRET FIRST))
+ "cpor3 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpor3" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 00001 qqqqq ppppp 0 cpnor3 =croc,crqc,crpc (c3_1)
+(dni cpnor3_C3 "cpnor3 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpnor3") (CPTYPE VECT) (CRET FIRST))
+ "cpnor3 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpnor3" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 011 ooooo 0111 00001 qqqqq ppppp 0 cpxor3 =croc,crqc,crpc (c3_1)
+(dni cpxor3_C3 "cpxor3 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpxor3") (CPTYPE VECT) (CRET FIRST))
+ "cpxor3 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) croc (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpxor3" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 00001 qqqqq ppppp 0 cpsel =croc,crqc,crpc (c3_1)
+(dni cpsel_C3 "cpsel $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsel") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpsel $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsel" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 iii ooooo 0111 11101 qqqqq ppppp 0 cpfsftbi =croc,crqc,crpc,imm3p4 (c3_1)
+(dni cpfsftbi_C3 "cpfsftbi $croc,$crqc,$crpc,imm3p4 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpfsftbi") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cpfsftbi $croc,$crqc,$crpc,$imm3p4"
+ (+ MAJ_15 imm3p4 croc (f-sub4 7)
+ (f-ivc2-5u16 #x1d) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpfsftbi" pc crqc crpc imm3p4)) )
+ ()
+ )
+
+; 1111 110 ooooo 0111 00001 qqqqq ppppp 0 cpfsftbs0 =croc,crqc,crpc (c3_1)
+(dni cpfsftbs0_C3 "cpfsftbs0 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpfsftbs0") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpfsftbs0 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x6) croc (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpfsftbs0" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 111 ooooo 0111 00001 qqqqq ppppp 0 cpfsftbs1 =croc,crqc,crpc (c3_1)
+(dni cpfsftbs1_C3 "cpfsftbs1 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpfsftbs1") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpfsftbs1 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x7) croc (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpfsftbs1" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00010 qqqqq ppppp 0 cpunpacku.b =croc,crqc,crpc (c3_1)
+(dni cpunpacku_b_C3 "cpunpacku.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpunpacku_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cpunpacku.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x2) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpunpacku_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 00010 qqqqq ppppp 0 cpunpacku.h =croc,crqc,crpc (c3_1)
+(dni cpunpacku_h_C3 "cpunpacku.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpunpacku_h") (CPTYPE V4UHI) (CRET FIRST))
+ "cpunpacku.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #x2) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpunpacku_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 00010 qqqqq ppppp 0 cpunpacku.w =croc,crqc,crpc (c3_1)
+(dni cpunpacku_w_C3 "cpunpacku.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpunpacku_w") (CPTYPE V2USI) (CRET FIRST))
+ "cpunpacku.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #x2) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpunpacku_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 00010 qqqqq ppppp 0 cpunpackl.b =croc,crqc,crpc (c3_1)
+(dni cpunpackl_b_C3 "cpunpackl.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpunpackl_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpunpackl.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #x2) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpunpackl_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 101 ooooo 0111 00010 qqqqq ppppp 0 cpunpackl.h =croc,crqc,crpc (c3_1)
+(dni cpunpackl_h_C3 "cpunpackl.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpunpackl_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpunpackl.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x5) croc (f-sub4 7)
+ (f-ivc2-5u16 #x2) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpunpackl_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 110 ooooo 0111 00010 qqqqq ppppp 0 cpunpackl.w =croc,crqc,crpc (c3_1)
+(dni cpunpackl_w_C3 "cpunpackl.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpunpackl_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpunpackl.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x6) croc (f-sub4 7)
+ (f-ivc2-5u16 #x2) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpunpackl_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 00011 qqqqq ppppp 0 cppacku.b =croc,crqc,crpc (c3_1)
+(dni cppacku_b_C3 "cppacku.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cppacku_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cppacku.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #x3) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cppacku_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 101 ooooo 0111 00011 qqqqq ppppp 0 cppack.b =croc,crqc,crpc (c3_1)
+(dni cppack_b_C3 "cppack.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cppack_b") (CPTYPE V8QI) (CRET FIRST))
+ "cppack.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x5) croc (f-sub4 7)
+ (f-ivc2-5u16 #x3) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cppack_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 111 ooooo 0111 00011 qqqqq ppppp 0 cppack.h =croc,crqc,crpc (c3_1)
+(dni cppack_h_C3 "cppack.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cppack_h") (CPTYPE V4HI) (CRET FIRST))
+ "cppack.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x7) croc (f-sub4 7)
+ (f-ivc2-5u16 #x3) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cppack_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 qqqqq ppppp 0 cpsrl3.b =croc,crqc,crpc (c3_1)
+(dni cpsrl3_b_C3 "cpsrl3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrl3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsrl3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsrl3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 00100 qqqqq ppppp 0 cpssrl3.b =croc,crqc,crpc (c3_1)
+(dni cpssrl3_b_C3 "cpssrl3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssrl3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpssrl3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpssrl3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 00100 qqqqq ppppp 0 cpsrl3.h =croc,crqc,crpc (c3_1)
+(dni cpsrl3_h_C3 "cpsrl3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrl3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsrl3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsrl3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 011 ooooo 0111 00100 qqqqq ppppp 0 cpssrl3.h =croc,crqc,crpc (c3_1)
+(dni cpssrl3_h_C3 "cpssrl3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssrl3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpssrl3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpssrl3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 00100 qqqqq ppppp 0 cpsrl3.w =croc,crqc,crpc (c3_1)
+(dni cpsrl3_w_C3 "cpsrl3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrl3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsrl3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsrl3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 101 ooooo 0111 00100 qqqqq ppppp 0 cpssrl3.w =croc,crqc,crpc (c3_1)
+(dni cpssrl3_w_C3 "cpssrl3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssrl3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpssrl3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x5) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpssrl3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 110 ooooo 0111 00100 qqqqq ppppp 0 cdsrl3 =croc,crqc,crpc (c3_1)
+(dni cdsrl3_C3 "cdsrl3 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdsrl3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsrl3 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x6) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cdsrl3" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00101 qqqqq ppppp 0 cpsra3.b =croc,crqc,crpc (c3_1)
+(dni cpsra3_b_C3 "cpsra3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsra3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsra3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x5) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsra3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 00101 qqqqq ppppp 0 cpssra3.b =croc,crqc,crpc (c3_1)
+(dni cpssra3_b_C3 "cpssra3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssra3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpssra3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #x5) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpssra3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 00101 qqqqq ppppp 0 cpsra3.h =croc,crqc,crpc (c3_1)
+(dni cpsra3_h_C3 "cpsra3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsra3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsra3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #x5) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsra3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 011 ooooo 0111 00101 qqqqq ppppp 0 cpssra3.h =croc,crqc,crpc (c3_1)
+(dni cpssra3_h_C3 "cpssra3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssra3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpssra3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) croc (f-sub4 7)
+ (f-ivc2-5u16 #x5) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpssra3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 00101 qqqqq ppppp 0 cpsra3.w =croc,crqc,crpc (c3_1)
+(dni cpsra3_w_C3 "cpsra3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsra3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsra3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #x5) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsra3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 101 ooooo 0111 00101 qqqqq ppppp 0 cpssra3.w =croc,crqc,crpc (c3_1)
+(dni cpssra3_w_C3 "cpssra3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssra3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpssra3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x5) croc (f-sub4 7)
+ (f-ivc2-5u16 #x5) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpssra3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 110 ooooo 0111 00101 qqqqq ppppp 0 cdsra3 =croc,crqc,crpc (c3_1)
+(dni cdsra3_C3 "cdsra3 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdsra3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsra3 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x6) croc (f-sub4 7)
+ (f-ivc2-5u16 #x5) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cdsra3" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00110 qqqqq ppppp 0 cpsll3.b =croc,crqc,crpc (c3_1)
+(dni cpsll3_b_C3 "cpsll3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsll3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsll3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x6) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsll3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 00110 qqqqq ppppp 0 cpssll3.b =croc,crqc,crpc (c3_1)
+(dni cpssll3_b_C3 "cpssll3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssll3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpssll3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #x6) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpssll3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 00110 qqqqq ppppp 0 cpsll3.h =croc,crqc,crpc (c3_1)
+(dni cpsll3_h_C3 "cpsll3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsll3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsll3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #x6) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsll3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 011 ooooo 0111 00110 qqqqq ppppp 0 cpssll3.h =croc,crqc,crpc (c3_1)
+(dni cpssll3_h_C3 "cpssll3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssll3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpssll3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) croc (f-sub4 7)
+ (f-ivc2-5u16 #x6) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpssll3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 00110 qqqqq ppppp 0 cpsll3.w =croc,crqc,crpc (c3_1)
+(dni cpsll3_w_C3 "cpsll3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsll3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsll3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #x6) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsll3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 101 ooooo 0111 00110 qqqqq ppppp 0 cpssll3.w =croc,crqc,crpc (c3_1)
+(dni cpssll3_w_C3 "cpssll3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssll3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpssll3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x5) croc (f-sub4 7)
+ (f-ivc2-5u16 #x6) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpssll3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 110 ooooo 0111 00110 qqqqq ppppp 0 cdsll3 =croc,crqc,crpc (c3_1)
+(dni cdsll3_C3 "cdsll3 $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdsll3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsll3 $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x6) croc (f-sub4 7)
+ (f-ivc2-5u16 #x6) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cdsll3" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 00111 qqqqq ppppp 0 cpsla3.h =croc,crqc,crpc (c3_1)
+(dni cpsla3_h_C3 "cpsla3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsla3_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpsla3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #x7) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsla3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 00111 qqqqq ppppp 0 cpsla3.w =croc,crqc,crpc (c3_1)
+(dni cpsla3_w_C3 "cpsla3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsla3_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpsla3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #x7) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsla3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 01000 qqqqq ppppp 0 cpsadd3.h =croc,crqc,crpc (c3_1)
+(dni cpsadd3_h_C3 "cpsadd3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsadd3_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpsadd3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #x8) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsadd3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 011 ooooo 0111 01000 qqqqq ppppp 0 cpsadd3.w =croc,crqc,crpc (c3_1)
+(dni cpsadd3_w_C3 "cpsadd3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsadd3_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpsadd3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) croc (f-sub4 7)
+ (f-ivc2-5u16 #x8) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpsadd3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 110 ooooo 0111 01000 qqqqq ppppp 0 cpssub3.h =croc,crqc,crpc (c3_1)
+(dni cpssub3_h_C3 "cpssub3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssub3_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpssub3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x6) croc (f-sub4 7)
+ (f-ivc2-5u16 #x8) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cofr0 0)
+ (set croc (c-call DI "ivc2_cpssub3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 111 ooooo 0111 01000 qqqqq ppppp 0 cpssub3.w =croc,crqc,crpc (c3_1)
+(dni cpssub3_w_C3 "cpssub3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssub3_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpssub3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x7) croc (f-sub4 7)
+ (f-ivc2-5u16 #x8) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cofr0 0)
+ (set croc (c-call DI "ivc2_cpssub3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 01001 qqqqq ppppp 0 cpextuaddu3.b =croc,crqc,crpc (c3_1)
+(dni cpextuaddu3_b_C3 "cpextuaddu3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextuaddu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextuaddu3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x9) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextuaddu3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 01001 qqqqq ppppp 0 cpextuadd3.b =croc,crqc,crpc (c3_1)
+(dni cpextuadd3_b_C3 "cpextuadd3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextuadd3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextuadd3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #x9) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextuadd3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 01001 qqqqq ppppp 0 cpextladdu3.b =croc,crqc,crpc (c3_1)
+(dni cpextladdu3_b_C3 "cpextladdu3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextladdu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextladdu3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #x9) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextladdu3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 011 ooooo 0111 01001 qqqqq ppppp 0 cpextladd3.b =croc,crqc,crpc (c3_1)
+(dni cpextladd3_b_C3 "cpextladd3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextladd3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextladd3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) croc (f-sub4 7)
+ (f-ivc2-5u16 #x9) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextladd3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 01001 qqqqq ppppp 0 cpextusubu3.b =croc,crqc,crpc (c3_1)
+(dni cpextusubu3_b_C3 "cpextusubu3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextusubu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextusubu3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #x9) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextusubu3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 101 ooooo 0111 01001 qqqqq ppppp 0 cpextusub3.b =croc,crqc,crpc (c3_1)
+(dni cpextusub3_b_C3 "cpextusub3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextusub3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextusub3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x5) croc (f-sub4 7)
+ (f-ivc2-5u16 #x9) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextusub3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 110 ooooo 0111 01001 qqqqq ppppp 0 cpextlsubu3.b =croc,crqc,crpc (c3_1)
+(dni cpextlsubu3_b_C3 "cpextlsubu3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextlsubu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextlsubu3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x6) croc (f-sub4 7)
+ (f-ivc2-5u16 #x9) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextlsubu3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 111 ooooo 0111 01001 qqqqq ppppp 0 cpextlsub3.b =croc,crqc,crpc (c3_1)
+(dni cpextlsub3_b_C3 "cpextlsub3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextlsub3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextlsub3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x7) croc (f-sub4 7)
+ (f-ivc2-5u16 #x9) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextlsub3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 01010 qqqqq ppppp 0 cpaveu3.b =croc,crqc,crpc (c3_1)
+(dni cpaveu3_b_C3 "cpaveu3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaveu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpaveu3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #xa) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpaveu3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 01010 qqqqq ppppp 0 cpave3.b =croc,crqc,crpc (c3_1)
+(dni cpave3_b_C3 "cpave3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpave3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpave3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #xa) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpave3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 01010 qqqqq ppppp 0 cpave3.h =croc,crqc,crpc (c3_1)
+(dni cpave3_h_C3 "cpave3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpave3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpave3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #xa) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpave3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 011 ooooo 0111 01010 qqqqq ppppp 0 cpave3.w =croc,crqc,crpc (c3_1)
+(dni cpave3_w_C3 "cpave3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpave3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpave3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) croc (f-sub4 7)
+ (f-ivc2-5u16 #xa) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpave3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 01010 qqqqq ppppp 0 cpaddsru3.b =croc,crqc,crpc (c3_1)
+(dni cpaddsru3_b_C3 "cpaddsru3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaddsru3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpaddsru3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #xa) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpaddsru3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 101 ooooo 0111 01010 qqqqq ppppp 0 cpaddsr3.b =croc,crqc,crpc (c3_1)
+(dni cpaddsr3_b_C3 "cpaddsr3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaddsr3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpaddsr3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x5) croc (f-sub4 7)
+ (f-ivc2-5u16 #xa) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpaddsr3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 110 ooooo 0111 01010 qqqqq ppppp 0 cpaddsr3.h =croc,crqc,crpc (c3_1)
+(dni cpaddsr3_h_C3 "cpaddsr3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaddsr3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpaddsr3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x6) croc (f-sub4 7)
+ (f-ivc2-5u16 #xa) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpaddsr3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 111 ooooo 0111 01010 qqqqq ppppp 0 cpaddsr3.w =croc,crqc,crpc (c3_1)
+(dni cpaddsr3_w_C3 "cpaddsr3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaddsr3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpaddsr3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x7) croc (f-sub4 7)
+ (f-ivc2-5u16 #xa) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpaddsr3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 01011 qqqqq ppppp 0 cpabsu3.b =croc,crqc,crpc (c3_1)
+(dni cpabsu3_b_C3 "cpabsu3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpabsu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpabsu3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #xb) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpabsu3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 01011 qqqqq ppppp 0 cpabs3.b =croc,crqc,crpc (c3_1)
+(dni cpabs3_b_C3 "cpabs3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpabs3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpabs3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #xb) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpabs3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 010 ooooo 0111 01011 qqqqq ppppp 0 cpabs3.h =croc,crqc,crpc (c3_1)
+(dni cpabs3_h_C3 "cpabs3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpabs3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpabs3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) croc (f-sub4 7)
+ (f-ivc2-5u16 #xb) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpabs3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 01100 qqqqq ppppp 0 cpmaxu3.b =croc,crqc,crpc (c3_1)
+(dni cpmaxu3_b_C3 "cpmaxu3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmaxu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpmaxu3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #xc) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmaxu3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 01100 qqqqq ppppp 0 cpmax3.b =croc,crqc,crpc (c3_1)
+(dni cpmax3_b_C3 "cpmax3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmax3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpmax3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #xc) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmax3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 011 ooooo 0111 01100 qqqqq ppppp 0 cpmax3.h =croc,crqc,crpc (c3_1)
+(dni cpmax3_h_C3 "cpmax3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmax3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpmax3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) croc (f-sub4 7)
+ (f-ivc2-5u16 #xc) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmax3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 01100 qqqqq ppppp 0 cpmaxu3.w =croc,crqc,crpc (c3_1)
+(dni cpmaxu3_w_C3 "cpmaxu3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmaxu3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpmaxu3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #xc) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmaxu3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 101 ooooo 0111 01100 qqqqq ppppp 0 cpmax3.w =croc,crqc,crpc (c3_1)
+(dni cpmax3_w_C3 "cpmax3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmax3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpmax3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x5) croc (f-sub4 7)
+ (f-ivc2-5u16 #xc) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmax3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 01101 qqqqq ppppp 0 cpminu3.b =croc,crqc,crpc (c3_1)
+(dni cpminu3_b_C3 "cpminu3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpminu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpminu3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #xd) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpminu3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 001 ooooo 0111 01101 qqqqq ppppp 0 cpmin3.b =croc,crqc,crpc (c3_1)
+(dni cpmin3_b_C3 "cpmin3.b $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmin3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpmin3.b $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) croc (f-sub4 7)
+ (f-ivc2-5u16 #xd) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmin3_b" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 011 ooooo 0111 01101 qqqqq ppppp 0 cpmin3.h =croc,crqc,crpc (c3_1)
+(dni cpmin3_h_C3 "cpmin3.h $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmin3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpmin3.h $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) croc (f-sub4 7)
+ (f-ivc2-5u16 #xd) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmin3_h" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 100 ooooo 0111 01101 qqqqq ppppp 0 cpminu3.w =croc,crqc,crpc (c3_1)
+(dni cpminu3_w_C3 "cpminu3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpminu3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpminu3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x4) croc (f-sub4 7)
+ (f-ivc2-5u16 #xd) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpminu3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 101 ooooo 0111 01101 qqqqq ppppp 0 cpmin3.w =croc,crqc,crpc (c3_1)
+(dni cpmin3_w_C3 "cpmin3.w $croc,$crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmin3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpmin3.w $croc,$crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x5) croc (f-sub4 7)
+ (f-ivc2-5u16 #xd) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmin3_w" pc crqc crpc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10000 00000 00000 0 cpmovfrcsar0 =croc (c3_1)
+(dni cpmovfrcsar0_C3 "cpmovfrcsar0 $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovfrcsar0") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpmovfrcsar0 $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x10) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x0) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovfrcsar0" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10000 00000 01111 0 cpmovfrcsar1 =croc (c3_1)
+(dni cpmovfrcsar1_C3 "cpmovfrcsar1 $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovfrcsar1") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpmovfrcsar1 $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x10) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #xf) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovfrcsar1" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10000 00000 00001 0 cpmovfrcc =croc (c3_1)
+(dni cpmovfrcc_C3 "cpmovfrcc $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovfrcc") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpmovfrcc $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x10) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x1) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovfrcc" pc)) )
+ ()
+ )
+
+; 1111 0000 0000 0111 10000 qqqqq 10000 0 cpmovtocsar0 crqc (c3_1)
+(dni cpmovtocsar0_C3 "cpmovtocsar0 $crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovtocsar0") VOLATILE)
+ "cpmovtocsar0 $crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x0) (f-sub4 7)
+ (f-ivc2-5u16 #x10) crqc (f-ivc2-5u26 #x10) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_csar0 0)
+ (c-call "ivc2_cpmovtocsar0" pc crqc) )
+ ()
+ )
+
+; 1111 0000 0000 0111 10000 qqqqq 11111 0 cpmovtocsar1 crqc (c3_1)
+(dni cpmovtocsar1_C3 "cpmovtocsar1 $crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovtocsar1") VOLATILE)
+ "cpmovtocsar1 $crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x0) (f-sub4 7)
+ (f-ivc2-5u16 #x10) crqc (f-ivc2-5u26 #x1f) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_csar1 0)
+ (c-call "ivc2_cpmovtocsar1" pc crqc) )
+ ()
+ )
+
+; 1111 0000 0000 0111 10000 qqqqq 10001 0 cpmovtocc crqc (c3_1)
+(dni cpmovtocc_C3 "cpmovtocc $crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovtocc") VOLATILE)
+ "cpmovtocc $crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x0) (f-sub4 7)
+ (f-ivc2-5u16 #x10) crqc (f-ivc2-5u26 #x11) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpmovtocc" pc crqc) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 00000 0 cpmov =croc,crqc (c3_1)
+(dni cpmov_C3 "cpmov $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmov") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cpmov $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x0) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmov" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 00001 0 cpabsz.b =croc,crqc (c3_1)
+(dni cpabsz_b_C3 "cpabsz.b $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpabsz_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpabsz.b $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x1) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpabsz_b" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 00010 0 cpabsz.h =croc,crqc (c3_1)
+(dni cpabsz_h_C3 "cpabsz.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpabsz_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpabsz.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x2) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpabsz_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 00011 0 cpabsz.w =croc,crqc (c3_1)
+(dni cpabsz_w_C3 "cpabsz.w $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpabsz_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpabsz.w $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x3) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpabsz_w" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 00100 0 cpldz.h =croc,crqc (c3_1)
+(dni cpldz_h_C3 "cpldz.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpldz_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpldz.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x4) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpldz_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 00101 0 cpldz.w =croc,crqc (c3_1)
+(dni cpldz_w_C3 "cpldz.w $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpldz_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpldz.w $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x5) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpldz_w" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 00110 0 cpnorm.h =croc,crqc (c3_1)
+(dni cpnorm_h_C3 "cpnorm.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpnorm_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpnorm.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x6) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpnorm_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 00111 0 cpnorm.w =croc,crqc (c3_1)
+(dni cpnorm_w_C3 "cpnorm.w $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpnorm_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpnorm.w $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x7) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpnorm_w" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 01000 0 cphaddu.b =croc,crqc (c3_1)
+(dni cphaddu_b_C3 "cphaddu.b $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cphaddu_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cphaddu.b $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x8) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cphaddu_b" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 01001 0 cphadd.b =croc,crqc (c3_1)
+(dni cphadd_b_C3 "cphadd.b $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cphadd_b") (CPTYPE V8QI) (CRET FIRST))
+ "cphadd.b $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x9) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cphadd_b" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 01010 0 cphadd.h =croc,crqc (c3_1)
+(dni cphadd_h_C3 "cphadd.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cphadd_h") (CPTYPE V4HI) (CRET FIRST))
+ "cphadd.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #xa) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cphadd_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 01011 0 cphadd.w =croc,crqc (c3_1)
+(dni cphadd_w_C3 "cphadd.w $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cphadd_w") (CPTYPE V2SI) (CRET FIRST))
+ "cphadd.w $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #xb) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cphadd_w" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 01100 0 cpccadd.b +crqc (c3_1)
+(dni cpccadd_b_C3 "cpccadd.b $crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpccadd_b") (CPTYPE V8QI) (CRET FIRSTCOPY) VOLATILE)
+ "cpccadd.b $crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #xc) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpccadd_b" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 01101 0 cpbcast.b =croc,crqc (c3_1)
+(dni cpbcast_b_C3 "cpbcast.b $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpbcast_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpbcast.b $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #xd) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpbcast_b" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 01110 0 cpbcast.h =croc,crqc (c3_1)
+(dni cpbcast_h_C3 "cpbcast.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpbcast_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpbcast.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #xe) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpbcast_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 01111 0 cpbcast.w =croc,crqc (c3_1)
+(dni cpbcast_w_C3 "cpbcast.w $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpbcast_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpbcast.w $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #xf) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpbcast_w" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 10000 0 cpextuu.b =croc,crqc (c3_1)
+(dni cpextuu_b_C3 "cpextuu.b $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextuu_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cpextuu.b $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x10) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextuu_b" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 10001 0 cpextu.b =croc,crqc (c3_1)
+(dni cpextu_b_C3 "cpextu.b $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextu_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cpextu.b $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x11) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextu_b" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 10010 0 cpextuu.h =croc,crqc (c3_1)
+(dni cpextuu_h_C3 "cpextuu.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextuu_h") (CPTYPE V4UHI) (CRET FIRST))
+ "cpextuu.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x12) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextuu_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 10011 0 cpextu.h =croc,crqc (c3_1)
+(dni cpextu_h_C3 "cpextu.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextu_h") (CPTYPE V4UHI) (CRET FIRST))
+ "cpextu.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x13) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextu_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 10100 0 cpextlu.b =croc,crqc (c3_1)
+(dni cpextlu_b_C3 "cpextlu.b $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextlu_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cpextlu.b $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x14) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextlu_b" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 10101 0 cpextl.b =croc,crqc (c3_1)
+(dni cpextl_b_C3 "cpextl.b $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextl_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextl.b $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x15) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextl_b" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 10110 0 cpextlu.h =croc,crqc (c3_1)
+(dni cpextlu_h_C3 "cpextlu.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextlu_h") (CPTYPE V4UHI) (CRET FIRST))
+ "cpextlu.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x16) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextlu_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 10111 0 cpextl.h =croc,crqc (c3_1)
+(dni cpextl_h_C3 "cpextl.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpextl_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpextl.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x17) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpextl_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 11000 0 cpcastub.h =croc,crqc (c3_1)
+(dni cpcastub_h_C3 "cpcastub.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcastub_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpcastub.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x18) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpcastub_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 11001 0 cpcastb.h =croc,crqc (c3_1)
+(dni cpcastb_h_C3 "cpcastb.h $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcastb_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpcastb.h $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x19) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpcastb_h" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 11100 0 cpcastub.w =croc,crqc (c3_1)
+(dni cpcastub_w_C3 "cpcastub.w $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcastub_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpcastub.w $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x1c) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpcastub_w" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 11101 0 cpcastb.w =croc,crqc (c3_1)
+(dni cpcastb_w_C3 "cpcastb.w $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcastb_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpcastb.w $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x1d) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpcastb_w" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 11110 0 cpcastuh.w =croc,crqc (c3_1)
+(dni cpcastuh_w_C3 "cpcastuh.w $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcastuh_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpcastuh.w $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x1e) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpcastuh_w" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 11111 0 cpcasth.w =croc,crqc (c3_1)
+(dni cpcasth_w_C3 "cpcasth.w $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcasth_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpcasth.w $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x1f) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpcasth_w" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 11010 0 cdcastuw =croc,crqc (c3_1)
+(dni cdcastuw_C3 "cdcastuw $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdcastuw") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdcastuw $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x1a) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cdcastuw" pc crqc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 10001 qqqqq 11011 0 cdcastw =croc,crqc (c3_1)
+(dni cdcastw_C3 "cdcastw $croc,$crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdcastw") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdcastw $croc,$crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x11) crqc (f-ivc2-5u26 #x1b) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cdcastw" pc crqc)) )
+ ()
+ )
+
+; 1111 0000 0000 0111 10010 qqqqq ppppp 0 cpcmpeqz.b crqc,crpc (c3_1)
+(dni cpcmpeqz_b_C3 "cpcmpeqz.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpeqz_b") (CPTYPE V8QI) VOLATILE)
+ "cpcmpeqz.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x0) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpeqz_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0001 0111 10010 qqqqq ppppp 0 cpcmpeq.b crqc,crpc (c3_1)
+(dni cpcmpeq_b_C3 "cpcmpeq.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpeq_b") (CPTYPE V8QI) VOLATILE)
+ "cpcmpeq.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpeq_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0011 0111 10010 qqqqq ppppp 0 cpcmpeq.h crqc,crpc (c3_1)
+(dni cpcmpeq_h_C3 "cpcmpeq.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpeq_h") (CPTYPE V4HI) VOLATILE)
+ "cpcmpeq.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x3) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpeq_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0101 0111 10010 qqqqq ppppp 0 cpcmpeq.w crqc,crpc (c3_1)
+(dni cpcmpeq_w_C3 "cpcmpeq.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpeq_w") (CPTYPE V2SI) VOLATILE)
+ "cpcmpeq.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x5) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpeq_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1001 0111 10010 qqqqq ppppp 0 cpcmpne.b crqc,crpc (c3_1)
+(dni cpcmpne_b_C3 "cpcmpne.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpne_b") (CPTYPE V8QI) VOLATILE)
+ "cpcmpne.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x9) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpne_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1011 0111 10010 qqqqq ppppp 0 cpcmpne.h crqc,crpc (c3_1)
+(dni cpcmpne_h_C3 "cpcmpne.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpne_h") (CPTYPE V4HI) VOLATILE)
+ "cpcmpne.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xb) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpne_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1101 0111 10010 qqqqq ppppp 0 cpcmpne.w crqc,crpc (c3_1)
+(dni cpcmpne_w_C3 "cpcmpne.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpne_w") (CPTYPE V2SI) VOLATILE)
+ "cpcmpne.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xd) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpne_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0000 0111 10010 qqqqq ppppp 0 cpcmpgtu.b crqc,crpc (c3_1)
+(dni cpcmpgtu_b_C3 "cpcmpgtu.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpgtu_b") (CPTYPE V8UQI) VOLATILE)
+ "cpcmpgtu.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x10) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgtu_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0001 0111 10010 qqqqq ppppp 0 cpcmpgt.b crqc,crpc (c3_1)
+(dni cpcmpgt_b_C3 "cpcmpgt.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpgt_b") (CPTYPE V8QI) VOLATILE)
+ "cpcmpgt.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x11) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgt_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0011 0111 10010 qqqqq ppppp 0 cpcmpgt.h crqc,crpc (c3_1)
+(dni cpcmpgt_h_C3 "cpcmpgt.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpgt_h") (CPTYPE V4HI) VOLATILE)
+ "cpcmpgt.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x13) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgt_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0100 0111 10010 qqqqq ppppp 0 cpcmpgtu.w crqc,crpc (c3_1)
+(dni cpcmpgtu_w_C3 "cpcmpgtu.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpgtu_w") (CPTYPE V2USI) VOLATILE)
+ "cpcmpgtu.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x14) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgtu_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0101 0111 10010 qqqqq ppppp 0 cpcmpgt.w crqc,crpc (c3_1)
+(dni cpcmpgt_w_C3 "cpcmpgt.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpgt_w") (CPTYPE V2SI) VOLATILE)
+ "cpcmpgt.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x15) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgt_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1000 0111 10010 qqqqq ppppp 0 cpcmpgeu.b crqc,crpc (c3_1)
+(dni cpcmpgeu_b_C3 "cpcmpgeu.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpgeu_b") (CPTYPE V8UQI) VOLATILE)
+ "cpcmpgeu.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x18) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgeu_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1001 0111 10010 qqqqq ppppp 0 cpcmpge.b crqc,crpc (c3_1)
+(dni cpcmpge_b_C3 "cpcmpge.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpge_b") (CPTYPE V8QI) VOLATILE)
+ "cpcmpge.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x19) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpge_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1011 0111 10010 qqqqq ppppp 0 cpcmpge.h crqc,crpc (c3_1)
+(dni cpcmpge_h_C3 "cpcmpge.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpge_h") (CPTYPE V4HI) VOLATILE)
+ "cpcmpge.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1b) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpge_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1100 0111 10010 qqqqq ppppp 0 cpcmpgeu.w crqc,crpc (c3_1)
+(dni cpcmpgeu_w_C3 "cpcmpgeu.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpgeu_w") (CPTYPE V2USI) VOLATILE)
+ "cpcmpgeu.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1c) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgeu_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1101 0111 10010 qqqqq ppppp 0 cpcmpge.w crqc,crpc (c3_1)
+(dni cpcmpge_w_C3 "cpcmpge.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpcmpge_w") (CPTYPE V2SI) VOLATILE)
+ "cpcmpge.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1d) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpge_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0010 0001 0111 10010 qqqqq ppppp 0 cpacmpeq.b crqc,crpc (c3_1)
+(dni cpacmpeq_b_C3 "cpacmpeq.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpeq_b") (CPTYPE V8QI))
+ "cpacmpeq.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x1) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpeq_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0010 0011 0111 10010 qqqqq ppppp 0 cpacmpeq.h crqc,crpc (c3_1)
+(dni cpacmpeq_h_C3 "cpacmpeq.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpeq_h") (CPTYPE V4HI))
+ "cpacmpeq.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x3) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpeq_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0010 0101 0111 10010 qqqqq ppppp 0 cpacmpeq.w crqc,crpc (c3_1)
+(dni cpacmpeq_w_C3 "cpacmpeq.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpeq_w") (CPTYPE V2SI))
+ "cpacmpeq.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x5) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpeq_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0010 1001 0111 10010 qqqqq ppppp 0 cpacmpne.b crqc,crpc (c3_1)
+(dni cpacmpne_b_C3 "cpacmpne.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpne_b") (CPTYPE V8QI))
+ "cpacmpne.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x9) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpne_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0010 1011 0111 10010 qqqqq ppppp 0 cpacmpne.h crqc,crpc (c3_1)
+(dni cpacmpne_h_C3 "cpacmpne.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpne_h") (CPTYPE V4HI))
+ "cpacmpne.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #xb) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpne_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0010 1101 0111 10010 qqqqq ppppp 0 cpacmpne.w crqc,crpc (c3_1)
+(dni cpacmpne_w_C3 "cpacmpne.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpne_w") (CPTYPE V2SI))
+ "cpacmpne.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #xd) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpne_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 0000 0111 10010 qqqqq ppppp 0 cpacmpgtu.b crqc,crpc (c3_1)
+(dni cpacmpgtu_b_C3 "cpacmpgtu.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpgtu_b") (CPTYPE V8UQI))
+ "cpacmpgtu.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x10) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpgtu_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 0001 0111 10010 qqqqq ppppp 0 cpacmpgt.b crqc,crpc (c3_1)
+(dni cpacmpgt_b_C3 "cpacmpgt.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpgt_b") (CPTYPE V8QI))
+ "cpacmpgt.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x11) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpgt_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 0011 0111 10010 qqqqq ppppp 0 cpacmpgt.h crqc,crpc (c3_1)
+(dni cpacmpgt_h_C3 "cpacmpgt.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpgt_h") (CPTYPE V4HI))
+ "cpacmpgt.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x13) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpgt_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 0100 0111 10010 qqqqq ppppp 0 cpacmpgtu.w crqc,crpc (c3_1)
+(dni cpacmpgtu_w_C3 "cpacmpgtu.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpgtu_w") (CPTYPE V2USI))
+ "cpacmpgtu.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x14) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpgtu_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 0101 0111 10010 qqqqq ppppp 0 cpacmpgt.w crqc,crpc (c3_1)
+(dni cpacmpgt_w_C3 "cpacmpgt.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpgt_w") (CPTYPE V2SI))
+ "cpacmpgt.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x15) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpgt_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 1000 0111 10010 qqqqq ppppp 0 cpacmpgeu.b crqc,crpc (c3_1)
+(dni cpacmpgeu_b_C3 "cpacmpgeu.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpgeu_b") (CPTYPE V8UQI))
+ "cpacmpgeu.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x18) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpgeu_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 1001 0111 10010 qqqqq ppppp 0 cpacmpge.b crqc,crpc (c3_1)
+(dni cpacmpge_b_C3 "cpacmpge.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpge_b") (CPTYPE V8QI))
+ "cpacmpge.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x19) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpge_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 1011 0111 10010 qqqqq ppppp 0 cpacmpge.h crqc,crpc (c3_1)
+(dni cpacmpge_h_C3 "cpacmpge.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpge_h") (CPTYPE V4HI))
+ "cpacmpge.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x1b) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpge_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 1100 0111 10010 qqqqq ppppp 0 cpacmpgeu.w crqc,crpc (c3_1)
+(dni cpacmpgeu_w_C3 "cpacmpgeu.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpgeu_w") (CPTYPE V2USI))
+ "cpacmpgeu.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x1c) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpgeu_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 1101 0111 10010 qqqqq ppppp 0 cpacmpge.w crqc,crpc (c3_1)
+(dni cpacmpge_w_C3 "cpacmpge.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpacmpge_w") (CPTYPE V2SI))
+ "cpacmpge.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x1d) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpacmpge_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0100 0001 0111 10010 qqqqq ppppp 0 cpocmpeq.b crqc,crpc (c3_1)
+(dni cpocmpeq_b_C3 "cpocmpeq.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpeq_b") (CPTYPE V8QI))
+ "cpocmpeq.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x1) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpeq_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0100 0011 0111 10010 qqqqq ppppp 0 cpocmpeq.h crqc,crpc (c3_1)
+(dni cpocmpeq_h_C3 "cpocmpeq.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpeq_h") (CPTYPE V4HI))
+ "cpocmpeq.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x3) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpeq_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0100 0101 0111 10010 qqqqq ppppp 0 cpocmpeq.w crqc,crpc (c3_1)
+(dni cpocmpeq_w_C3 "cpocmpeq.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpeq_w") (CPTYPE V2SI))
+ "cpocmpeq.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x5) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpeq_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0100 1001 0111 10010 qqqqq ppppp 0 cpocmpne.b crqc,crpc (c3_1)
+(dni cpocmpne_b_C3 "cpocmpne.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpne_b") (CPTYPE V8QI))
+ "cpocmpne.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x9) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpne_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0100 1011 0111 10010 qqqqq ppppp 0 cpocmpne.h crqc,crpc (c3_1)
+(dni cpocmpne_h_C3 "cpocmpne.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpne_h") (CPTYPE V4HI))
+ "cpocmpne.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #xb) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpne_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0100 1101 0111 10010 qqqqq ppppp 0 cpocmpne.w crqc,crpc (c3_1)
+(dni cpocmpne_w_C3 "cpocmpne.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpne_w") (CPTYPE V2SI))
+ "cpocmpne.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #xd) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpne_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0101 0000 0111 10010 qqqqq ppppp 0 cpocmpgtu.b crqc,crpc (c3_1)
+(dni cpocmpgtu_b_C3 "cpocmpgtu.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpgtu_b") (CPTYPE V8UQI))
+ "cpocmpgtu.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x10) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpgtu_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0101 0001 0111 10010 qqqqq ppppp 0 cpocmpgt.b crqc,crpc (c3_1)
+(dni cpocmpgt_b_C3 "cpocmpgt.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpgt_b") (CPTYPE V8QI))
+ "cpocmpgt.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x11) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpgt_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0101 0011 0111 10010 qqqqq ppppp 0 cpocmpgt.h crqc,crpc (c3_1)
+(dni cpocmpgt_h_C3 "cpocmpgt.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpgt_h") (CPTYPE V4HI))
+ "cpocmpgt.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x13) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpgt_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0101 0100 0111 10010 qqqqq ppppp 0 cpocmpgtu.w crqc,crpc (c3_1)
+(dni cpocmpgtu_w_C3 "cpocmpgtu.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpgtu_w") (CPTYPE V2USI))
+ "cpocmpgtu.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x14) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpgtu_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0101 0101 0111 10010 qqqqq ppppp 0 cpocmpgt.w crqc,crpc (c3_1)
+(dni cpocmpgt_w_C3 "cpocmpgt.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpgt_w") (CPTYPE V2SI))
+ "cpocmpgt.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x15) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpgt_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0101 1000 0111 10010 qqqqq ppppp 0 cpocmpgeu.b crqc,crpc (c3_1)
+(dni cpocmpgeu_b_C3 "cpocmpgeu.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpgeu_b") (CPTYPE V8UQI))
+ "cpocmpgeu.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x18) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpgeu_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0101 1001 0111 10010 qqqqq ppppp 0 cpocmpge.b crqc,crpc (c3_1)
+(dni cpocmpge_b_C3 "cpocmpge.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpge_b") (CPTYPE V8QI))
+ "cpocmpge.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x19) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpge_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0101 1011 0111 10010 qqqqq ppppp 0 cpocmpge.h crqc,crpc (c3_1)
+(dni cpocmpge_h_C3 "cpocmpge.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpge_h") (CPTYPE V4HI))
+ "cpocmpge.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x1b) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpge_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0101 1100 0111 10010 qqqqq ppppp 0 cpocmpgeu.w crqc,crpc (c3_1)
+(dni cpocmpgeu_w_C3 "cpocmpgeu.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpgeu_w") (CPTYPE V2USI))
+ "cpocmpgeu.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x1c) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpgeu_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0101 1101 0111 10010 qqqqq ppppp 0 cpocmpge.w crqc,crpc (c3_1)
+(dni cpocmpge_w_C3 "cpocmpge.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpocmpge_w") (CPTYPE V2SI))
+ "cpocmpge.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #x1d) (f-sub4 7)
+ (f-ivc2-5u16 #x12) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpocmpge_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 00xx xiii 0111 10100 qqqqq ppppp 0 cpsrli3.b =crqc,crpc,imm3p9 (c3_imm)
+(dni cpsrli3_b_C3 "cpsrli3.b $crqc,$crpc,imm3p9 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrli3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsrli3.b $crqc,$crpc,$imm3p9"
+ (+ MAJ_15 ivc-x-6-3 (f-ivc2-2u4 #x0) imm3p9 (f-sub4 7)
+ (f-ivc2-5u16 #x14) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpsrli3_b" pc crpc imm3p9)) )
+ ()
+ )
+
+; 1111 01xx iiii 0111 10100 qqqqq ppppp 0 cpsrli3.h =crqc,crpc,imm4p8 (c3_imm)
+(dni cpsrli3_h_C3 "cpsrli3.h $crqc,$crpc,imm4p8 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrli3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsrli3.h $crqc,$crpc,$imm4p8"
+ (+ MAJ_15 ivc-x-6-2 (f-ivc2-2u4 #x1) imm4p8 (f-sub4 7)
+ (f-ivc2-5u16 #x14) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpsrli3_h" pc crpc imm4p8)) )
+ ()
+ )
+
+; 1111 10xi iiii 0111 10100 qqqqq ppppp 0 cpsrli3.w =crqc,crpc,imm5p7 (c3_imm)
+(dni cpsrli3_w_C3 "cpsrli3.w $crqc,$crpc,imm5p7 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrli3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsrli3.w $crqc,$crpc,$imm5p7"
+ (+ MAJ_15 ivc-x-6-1 (f-ivc2-2u4 #x2) imm5p7 (f-sub4 7)
+ (f-ivc2-5u16 #x14) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpsrli3_w" pc crpc imm5p7)) )
+ ()
+ )
+
+; 1111 11ii iiii 0111 10100 qqqqq ppppp 0 cdsrli3 =crqc,crpc,imm6p6 (c3_imm)
+(dni cdsrli3_C3 "cdsrli3 $crqc,$crpc,imm6p6 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdsrli3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsrli3 $crqc,$crpc,$imm6p6"
+ (+ MAJ_15 (f-ivc2-2u4 #x3) imm6p6 (f-sub4 7)
+ (f-ivc2-5u16 #x14) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cdsrli3" pc crpc imm6p6)) )
+ ()
+ )
+
+; 1111 00xx xiii 0111 10101 qqqqq ppppp 0 cpsrai3.b =crqc,crpc,imm3p9 (c3_imm)
+(dni cpsrai3_b_C3 "cpsrai3.b $crqc,$crpc,imm3p9 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrai3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsrai3.b $crqc,$crpc,$imm3p9"
+ (+ MAJ_15 ivc-x-6-3 (f-ivc2-2u4 #x0) imm3p9 (f-sub4 7)
+ (f-ivc2-5u16 #x15) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpsrai3_b" pc crpc imm3p9)) )
+ ()
+ )
+
+; 1111 01xx iiii 0111 10101 qqqqq ppppp 0 cpsrai3.h =crqc,crpc,imm4p8 (c3_imm)
+(dni cpsrai3_h_C3 "cpsrai3.h $crqc,$crpc,imm4p8 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrai3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsrai3.h $crqc,$crpc,$imm4p8"
+ (+ MAJ_15 ivc-x-6-2 (f-ivc2-2u4 #x1) imm4p8 (f-sub4 7)
+ (f-ivc2-5u16 #x15) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpsrai3_h" pc crpc imm4p8)) )
+ ()
+ )
+
+; 1111 10xi iiii 0111 10101 qqqqq ppppp 0 cpsrai3.w =crqc,crpc,imm5p7 (c3_imm)
+(dni cpsrai3_w_C3 "cpsrai3.w $crqc,$crpc,imm5p7 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrai3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsrai3.w $crqc,$crpc,$imm5p7"
+ (+ MAJ_15 ivc-x-6-1 (f-ivc2-2u4 #x2) imm5p7 (f-sub4 7)
+ (f-ivc2-5u16 #x15) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpsrai3_w" pc crpc imm5p7)) )
+ ()
+ )
+
+; 1111 11ii iiii 0111 10101 qqqqq ppppp 0 cdsrai3 =crqc,crpc,imm6p6 (c3_imm)
+(dni cdsrai3_C3 "cdsrai3 $crqc,$crpc,imm6p6 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdsrai3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsrai3 $crqc,$crpc,$imm6p6"
+ (+ MAJ_15 (f-ivc2-2u4 #x3) imm6p6 (f-sub4 7)
+ (f-ivc2-5u16 #x15) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cdsrai3" pc crpc imm6p6)) )
+ ()
+ )
+
+; 1111 00xx xiii 0111 10110 qqqqq ppppp 0 cpslli3.b =crqc,crpc,imm3p9 (c3_imm)
+(dni cpslli3_b_C3 "cpslli3.b $crqc,$crpc,imm3p9 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpslli3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpslli3.b $crqc,$crpc,$imm3p9"
+ (+ MAJ_15 ivc-x-6-3 (f-ivc2-2u4 #x0) imm3p9 (f-sub4 7)
+ (f-ivc2-5u16 #x16) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpslli3_b" pc crpc imm3p9)) )
+ ()
+ )
+
+; 1111 01xx iiii 0111 10110 qqqqq ppppp 0 cpslli3.h =crqc,crpc,imm4p8 (c3_imm)
+(dni cpslli3_h_C3 "cpslli3.h $crqc,$crpc,imm4p8 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpslli3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpslli3.h $crqc,$crpc,$imm4p8"
+ (+ MAJ_15 ivc-x-6-2 (f-ivc2-2u4 #x1) imm4p8 (f-sub4 7)
+ (f-ivc2-5u16 #x16) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpslli3_h" pc crpc imm4p8)) )
+ ()
+ )
+
+; 1111 10xi iiii 0111 10110 qqqqq ppppp 0 cpslli3.w =crqc,crpc,imm5p7 (c3_imm)
+(dni cpslli3_w_C3 "cpslli3.w $crqc,$crpc,imm5p7 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpslli3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpslli3.w $crqc,$crpc,$imm5p7"
+ (+ MAJ_15 ivc-x-6-1 (f-ivc2-2u4 #x2) imm5p7 (f-sub4 7)
+ (f-ivc2-5u16 #x16) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpslli3_w" pc crpc imm5p7)) )
+ ()
+ )
+
+; 1111 11ii iiii 0111 10110 qqqqq ppppp 0 cdslli3 =crqc,crpc,imm6p6 (c3_imm)
+(dni cdslli3_C3 "cdslli3 $crqc,$crpc,imm6p6 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdslli3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdslli3 $crqc,$crpc,$imm6p6"
+ (+ MAJ_15 (f-ivc2-2u4 #x3) imm6p6 (f-sub4 7)
+ (f-ivc2-5u16 #x16) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cdslli3" pc crpc imm6p6)) )
+ ()
+ )
+
+; 1111 01xx iiii 0111 10111 qqqqq ppppp 0 cpslai3.h =crqc,crpc,imm4p8 (c3_imm)
+(dni cpslai3_h_C3 "cpslai3.h $crqc,$crpc,imm4p8 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpslai3_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpslai3.h $crqc,$crpc,$imm4p8"
+ (+ MAJ_15 ivc-x-6-2 (f-ivc2-2u4 #x1) imm4p8 (f-sub4 7)
+ (f-ivc2-5u16 #x17) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpslai3_h" pc crpc imm4p8)) )
+ ()
+ )
+
+; 1111 10xi iiii 0111 10111 qqqqq ppppp 0 cpslai3.w =crqc,crpc,imm5p7 (c3_imm)
+(dni cpslai3_w_C3 "cpslai3.w $crqc,$crpc,imm5p7 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpslai3_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpslai3.w $crqc,$crpc,$imm5p7"
+ (+ MAJ_15 ivc-x-6-1 (f-ivc2-2u4 #x2) imm5p7 (f-sub4 7)
+ (f-ivc2-5u16 #x17) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpslai3_w" pc crpc imm5p7)) )
+ ()
+ )
+
+; 1111 00xi iiii 0111 11000 qqqqq ppppp 0 cpclipiu3.w =crqc,crpc,imm5p7 (c3_imm)
+(dni cpclipiu3_w_C3 "cpclipiu3.w $crqc,$crpc,imm5p7 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpclipiu3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpclipiu3.w $crqc,$crpc,$imm5p7"
+ (+ MAJ_15 ivc-x-6-1 (f-ivc2-2u4 #x0) imm5p7 (f-sub4 7)
+ (f-ivc2-5u16 #x18) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpclipiu3_w" pc crpc imm5p7)) )
+ ()
+ )
+
+; 1111 01xi iiii 0111 11000 qqqqq ppppp 0 cpclipi3.w =crqc,crpc,imm5p7 (c3_imm)
+(dni cpclipi3_w_C3 "cpclipi3.w $crqc,$crpc,imm5p7 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpclipi3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpclipi3.w $crqc,$crpc,$imm5p7"
+ (+ MAJ_15 ivc-x-6-1 (f-ivc2-2u4 #x1) imm5p7 (f-sub4 7)
+ (f-ivc2-5u16 #x18) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpclipi3_w" pc crpc imm5p7)) )
+ ()
+ )
+
+; 1111 10ii iiii 0111 11000 qqqqq ppppp 0 cdclipiu3 =crqc,crpc,imm6p6 (c3_imm)
+(dni cdclipiu3_C3 "cdclipiu3 $crqc,$crpc,imm6p6 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdclipiu3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdclipiu3 $crqc,$crpc,$imm6p6"
+ (+ MAJ_15 (f-ivc2-2u4 #x2) imm6p6 (f-sub4 7)
+ (f-ivc2-5u16 #x18) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cdclipiu3" pc crpc imm6p6)) )
+ ()
+ )
+
+; 1111 11ii iiii 0111 11000 qqqqq ppppp 0 cdclipi3 =crqc,crpc,imm6p6 (c3_imm)
+(dni cdclipi3_C3 "cdclipi3 $crqc,$crpc,imm6p6 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdclipi3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdclipi3 $crqc,$crpc,$imm6p6"
+ (+ MAJ_15 (f-ivc2-2u4 #x3) imm6p6 (f-sub4 7)
+ (f-ivc2-5u16 #x18) crqc crpc (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cdclipi3" pc crpc imm6p6)) )
+ ()
+ )
+
+; 1111 iiii iiii 0111 11001 qqqqq 00000 0 cpmovi.b =crqc,simm8p4 (c3_imm)
+(dni cpmovi_b_C3 "cpmovi.b $crqc,simm8p4 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovi_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpmovi.b $crqc,$simm8p4"
+ (+ MAJ_15 simm8p4 (f-sub4 7)
+ (f-ivc2-5u16 #x19) crqc (f-ivc2-5u26 #x0) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpmovi_b" pc simm8p4)) )
+ ()
+ )
+
+; 1111 iiii iiii 0111 11001 qqqqq 00010 0 cpmoviu.h =crqc,imm8p4 (c3_imm)
+(dni cpmoviu_h_C3 "cpmoviu.h $crqc,imm8p4 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmoviu_h") (CPTYPE V4UHI) (CRET FIRST))
+ "cpmoviu.h $crqc,$imm8p4"
+ (+ MAJ_15 imm8p4 (f-sub4 7)
+ (f-ivc2-5u16 #x19) crqc (f-ivc2-5u26 #x2) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpmoviu_h" pc imm8p4)) )
+ ()
+ )
+
+; 1111 iiii iiii 0111 11001 qqqqq 00011 0 cpmovi.h =crqc,simm8p4 (c3_imm)
+(dni cpmovi_h_C3 "cpmovi.h $crqc,simm8p4 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovi_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpmovi.h $crqc,$simm8p4"
+ (+ MAJ_15 simm8p4 (f-sub4 7)
+ (f-ivc2-5u16 #x19) crqc (f-ivc2-5u26 #x3) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpmovi_h" pc simm8p4)) )
+ ()
+ )
+
+; 1111 iiii iiii 0111 11001 qqqqq 00100 0 cpmoviu.w =crqc,imm8p4 (c3_imm)
+(dni cpmoviu_w_C3 "cpmoviu.w $crqc,imm8p4 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmoviu_w") (CPTYPE V2USI) (CRET FIRST))
+ "cpmoviu.w $crqc,$imm8p4"
+ (+ MAJ_15 imm8p4 (f-sub4 7)
+ (f-ivc2-5u16 #x19) crqc (f-ivc2-5u26 #x4) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpmoviu_w" pc imm8p4)) )
+ ()
+ )
+
+; 1111 iiii iiii 0111 11001 qqqqq 00101 0 cpmovi.w =crqc,simm8p4 (c3_imm)
+(dni cpmovi_w_C3 "cpmovi.w $crqc,simm8p4 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovi_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpmovi.w $crqc,$simm8p4"
+ (+ MAJ_15 simm8p4 (f-sub4 7)
+ (f-ivc2-5u16 #x19) crqc (f-ivc2-5u26 #x5) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cpmovi_w" pc simm8p4)) )
+ ()
+ )
+
+; 1111 iiii iiii 0111 11001 qqqqq 00110 0 cdmoviu =crqc,imm8p4 (c3_imm)
+(dni cdmoviu_C3 "cdmoviu $crqc,imm8p4 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdmoviu") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdmoviu $crqc,$imm8p4"
+ (+ MAJ_15 imm8p4 (f-sub4 7)
+ (f-ivc2-5u16 #x19) crqc (f-ivc2-5u26 #x6) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cdmoviu" pc imm8p4)) )
+ ()
+ )
+
+; 1111 iiii iiii 0111 11001 qqqqq 00111 0 cdmovi =crqc,simm8p4 (c3_imm)
+(dni cdmovi_C3 "cdmovi $crqc,simm8p4 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cdmovi") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdmovi $crqc,$simm8p4"
+ (+ MAJ_15 simm8p4 (f-sub4 7)
+ (f-ivc2-5u16 #x19) crqc (f-ivc2-5u26 #x7) (f-ivc2-1u31 #x0) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqc (c-call DI "ivc2_cdmovi" pc simm8p4)) )
+ ()
+ )
+
+; 1111 0000 0000 0111 00000 qqqqq ppppp 1 cpadda1u.b crqc,crpc (c3_1)
+(dni cpadda1u_b_C3 "cpadda1u.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpadda1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpadda1u.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x0) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpadda1u_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0001 0111 00000 qqqqq ppppp 1 cpadda1.b crqc,crpc (c3_1)
+(dni cpadda1_b_C3 "cpadda1.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpadda1_b") (CPTYPE V8QI) VOLATILE)
+ "cpadda1.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpadda1_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0010 0111 00000 qqqqq ppppp 1 cpaddua1.h crqc,crpc (c3_1)
+(dni cpaddua1_h_C3 "cpaddua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaddua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x2) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpaddua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0011 0111 00000 qqqqq ppppp 1 cpaddla1.h crqc,crpc (c3_1)
+(dni cpaddla1_h_C3 "cpaddla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaddla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x3) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpaddla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0100 0111 00000 qqqqq ppppp 1 cpaddaca1u.b crqc,crpc (c3_1)
+(dni cpaddaca1u_b_C3 "cpaddaca1u.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaddaca1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpaddaca1u.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x4) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpaddaca1u_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0101 0111 00000 qqqqq ppppp 1 cpaddaca1.b crqc,crpc (c3_1)
+(dni cpaddaca1_b_C3 "cpaddaca1.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaddaca1_b") (CPTYPE V8QI) VOLATILE)
+ "cpaddaca1.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x5) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpaddaca1_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0110 0111 00000 qqqqq ppppp 1 cpaddacua1.h crqc,crpc (c3_1)
+(dni cpaddacua1_h_C3 "cpaddacua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaddacua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddacua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x6) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpaddacua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0111 0111 00000 qqqqq ppppp 1 cpaddacla1.h crqc,crpc (c3_1)
+(dni cpaddacla1_h_C3 "cpaddacla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpaddacla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddacla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x7) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpaddacla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1000 0111 00000 qqqqq ppppp 1 cpsuba1u.b crqc,crpc (c3_1)
+(dni cpsuba1u_b_C3 "cpsuba1u.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsuba1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpsuba1u.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x8) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsuba1u_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1001 0111 00000 qqqqq ppppp 1 cpsuba1.b crqc,crpc (c3_1)
+(dni cpsuba1_b_C3 "cpsuba1.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsuba1_b") (CPTYPE V8QI) VOLATILE)
+ "cpsuba1.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x9) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsuba1_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1010 0111 00000 qqqqq ppppp 1 cpsubua1.h crqc,crpc (c3_1)
+(dni cpsubua1_h_C3 "cpsubua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsubua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xa) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsubua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1011 0111 00000 qqqqq ppppp 1 cpsubla1.h crqc,crpc (c3_1)
+(dni cpsubla1_h_C3 "cpsubla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsubla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xb) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpsubla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1100 0111 00000 qqqqq ppppp 1 cpsubaca1u.b crqc,crpc (c3_1)
+(dni cpsubaca1u_b_C3 "cpsubaca1u.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsubaca1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpsubaca1u.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xc) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsubaca1u_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1101 0111 00000 qqqqq ppppp 1 cpsubaca1.b crqc,crpc (c3_1)
+(dni cpsubaca1_b_C3 "cpsubaca1.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsubaca1_b") (CPTYPE V8QI) VOLATILE)
+ "cpsubaca1.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xd) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsubaca1_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1110 0111 00000 qqqqq ppppp 1 cpsubacua1.h crqc,crpc (c3_1)
+(dni cpsubacua1_h_C3 "cpsubacua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsubacua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubacua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xe) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsubacua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1111 0111 00000 qqqqq ppppp 1 cpsubacla1.h crqc,crpc (c3_1)
+(dni cpsubacla1_h_C3 "cpsubacla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsubacla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubacla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xf) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsubacla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0000 0111 00000 qqqqq ppppp 1 cpabsa1u.b crqc,crpc (c3_1)
+(dni cpabsa1u_b_C3 "cpabsa1u.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpabsa1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpabsa1u.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x10) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpabsa1u_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0001 0111 00000 qqqqq ppppp 1 cpabsa1.b crqc,crpc (c3_1)
+(dni cpabsa1_b_C3 "cpabsa1.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpabsa1_b") (CPTYPE V8QI) VOLATILE)
+ "cpabsa1.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x11) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpabsa1_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0010 0111 00000 qqqqq ppppp 1 cpabsua1.h crqc,crpc (c3_1)
+(dni cpabsua1_h_C3 "cpabsua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpabsua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpabsua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x12) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpabsua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0011 0111 00000 qqqqq ppppp 1 cpabsla1.h crqc,crpc (c3_1)
+(dni cpabsla1_h_C3 "cpabsla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpabsla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpabsla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x13) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpabsla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0100 0111 00000 qqqqq ppppp 1 cpsada1u.b crqc,crpc (c3_1)
+(dni cpsada1u_b_C3 "cpsada1u.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsada1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpsada1u.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x14) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsada1u_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0101 0111 00000 qqqqq ppppp 1 cpsada1.b crqc,crpc (c3_1)
+(dni cpsada1_b_C3 "cpsada1.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsada1_b") (CPTYPE V8QI) VOLATILE)
+ "cpsada1.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x15) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsada1_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0110 0111 00000 qqqqq ppppp 1 cpsadua1.h crqc,crpc (c3_1)
+(dni cpsadua1_h_C3 "cpsadua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsadua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsadua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x16) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsadua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0111 0111 00000 qqqqq ppppp 1 cpsadla1.h crqc,crpc (c3_1)
+(dni cpsadla1_h_C3 "cpsadla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsadla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsadla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x17) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsadla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0010 0000 0111 00000 qqqqq ppppp 1 cpseta1.h crqc,crpc (c3_1)
+(dni cpseta1_h_C3 "cpseta1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpseta1_h") (CPTYPE V4HI) VOLATILE)
+ "cpseta1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x0) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpseta1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0010 0010 0111 00000 qqqqq ppppp 1 cpsetua1.w crqc,crpc (c3_1)
+(dni cpsetua1_w_C3 "cpsetua1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsetua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsetua1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x2) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsetua1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0010 0011 0111 00000 qqqqq ppppp 1 cpsetla1.w crqc,crpc (c3_1)
+(dni cpsetla1_w_C3 "cpsetla1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsetla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsetla1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x3) (f-sub4 7)
+ (f-ivc2-5u16 #x0) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpsetla1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 00000 1 cpmova1.b =croc (c3_1)
+(dni cpmova1_b_C3 "cpmova1.b $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmova1_b") (CPTYPE V8QI) (CRET FIRST) VOLATILE)
+ "cpmova1.b $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x0) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmova1_b" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 00010 1 cpmovua1.h =croc (c3_1)
+(dni cpmovua1_h_C3 "cpmovua1.h $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovua1_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpmovua1.h $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x2) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovua1_h" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 00011 1 cpmovla1.h =croc (c3_1)
+(dni cpmovla1_h_C3 "cpmovla1.h $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovla1_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpmovla1.h $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x3) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovla1_h" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 00100 1 cpmovuua1.w =croc (c3_1)
+(dni cpmovuua1_w_C3 "cpmovuua1.w $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovuua1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovuua1.w $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x4) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovuua1_w" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 00101 1 cpmovula1.w =croc (c3_1)
+(dni cpmovula1_w_C3 "cpmovula1.w $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovula1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovula1.w $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x5) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovula1_w" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 00110 1 cpmovlua1.w =croc (c3_1)
+(dni cpmovlua1_w_C3 "cpmovlua1.w $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovlua1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovlua1.w $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x6) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovlua1_w" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 00111 1 cpmovlla1.w =croc (c3_1)
+(dni cpmovlla1_w_C3 "cpmovlla1.w $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovlla1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovlla1.w $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x7) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovlla1_w" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 10000 1 cppacka1u.b =croc (c3_1)
+(dni cppacka1u_b_C3 "cppacka1u.b $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cppacka1u_b") (CPTYPE V8UQI) (CRET FIRST) VOLATILE)
+ "cppacka1u.b $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x10) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cppacka1u_b" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 10001 1 cppacka1.b =croc (c3_1)
+(dni cppacka1_b_C3 "cppacka1.b $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cppacka1_b") (CPTYPE V8QI) (CRET FIRST) VOLATILE)
+ "cppacka1.b $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x11) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cppacka1_b" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 10010 1 cppackua1.h =croc (c3_1)
+(dni cppackua1_h_C3 "cppackua1.h $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cppackua1_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cppackua1.h $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x12) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cppackua1_h" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 10011 1 cppackla1.h =croc (c3_1)
+(dni cppackla1_h_C3 "cppackla1.h $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cppackla1_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cppackla1.h $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x13) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cppackla1_h" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 10100 1 cppackua1.w =croc (c3_1)
+(dni cppackua1_w_C3 "cppackua1.w $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cppackua1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cppackua1.w $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x14) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cppackua1_w" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 10101 1 cppackla1.w =croc (c3_1)
+(dni cppackla1_w_C3 "cppackla1.w $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cppackla1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cppackla1.w $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x15) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cppackla1_w" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 10110 1 cpmovhua1.w =croc (c3_1)
+(dni cpmovhua1_w_C3 "cpmovhua1.w $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovhua1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovhua1.w $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x16) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovhua1_w" pc)) )
+ ()
+ )
+
+; 1111 000 ooooo 0111 00100 00000 10111 1 cpmovhla1.w =croc (c3_1)
+(dni cpmovhla1_w_C3 "cpmovhla1.w $croc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmovhla1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovhla1.w $croc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) croc (f-sub4 7)
+ (f-ivc2-5u16 #x4) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x17) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set croc (c-call DI "ivc2_cpmovhla1_w" pc)) )
+ ()
+ )
+
+; 1111 0000 0000 0111 00010 qqqqq 00000 1 cpsrla1 crqc (c3_1)
+(dni cpsrla1_C3 "cpsrla1 $crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrla1") VOLATILE)
+ "cpsrla1 $crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x0) (f-sub4 7)
+ (f-ivc2-5u16 #x2) crqc (f-ivc2-5u26 #x0) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsrla1" pc crqc) )
+ ()
+ )
+
+; 1111 0000 0001 0111 00010 qqqqq 00000 1 cpsraa1 crqc (c3_1)
+(dni cpsraa1_C3 "cpsraa1 $crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsraa1") VOLATILE)
+ "cpsraa1 $crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1) (f-sub4 7)
+ (f-ivc2-5u16 #x2) crqc (f-ivc2-5u26 #x0) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsraa1" pc crqc) )
+ ()
+ )
+
+; 1111 0000 0010 0111 00010 qqqqq 00000 1 cpslla1 crqc (c3_1)
+(dni cpslla1_C3 "cpslla1 $crqc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpslla1") VOLATILE)
+ "cpslla1 $crqc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x2) (f-sub4 7)
+ (f-ivc2-5u16 #x2) crqc (f-ivc2-5u26 #x0) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpslla1" pc crqc) )
+ ()
+ )
+
+; 1111 00xi iiii 0111 00011 00000 00000 1 cpsrlia1 imm5p7 (c3_imm)
+(dni cpsrlia1_P1 "cpsrlia1 imm5p7 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsrlia1") VOLATILE)
+ "cpsrlia1 $imm5p7"
+ (+ MAJ_15 ivc-x-6-1 (f-ivc2-2u4 #x0) imm5p7 (f-sub4 7)
+ (f-ivc2-5u16 #x3) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x0) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsrlia1" pc imm5p7) )
+ ()
+ )
+
+; 1111 01xi iiii 0111 00011 00000 00000 1 cpsraia1 imm5p7 (c3_imm)
+(dni cpsraia1_P1 "cpsraia1 imm5p7 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsraia1") VOLATILE)
+ "cpsraia1 $imm5p7"
+ (+ MAJ_15 ivc-x-6-1 (f-ivc2-2u4 #x1) imm5p7 (f-sub4 7)
+ (f-ivc2-5u16 #x3) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x0) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsraia1" pc imm5p7) )
+ ()
+ )
+
+; 1111 10xi iiii 0111 00011 00000 00000 1 cpsllia1 imm5p7 (c3_imm)
+(dni cpsllia1_P1 "cpsllia1 imm5p7 C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsllia1") VOLATILE)
+ "cpsllia1 $imm5p7"
+ (+ MAJ_15 ivc-x-6-1 (f-ivc2-2u4 #x2) imm5p7 (f-sub4 7)
+ (f-ivc2-5u16 #x3) (f-ivc2-5u21 #x0) (f-ivc2-5u26 #x0) (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsllia1" pc imm5p7) )
+ ()
+ )
+
+; 1111 0000 0000 0111 00001 qqqqq ppppp 1 cpssqa1u.b crqc,crpc (c3_1)
+(dni cpssqa1u_b_C3 "cpssqa1u.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssqa1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpssqa1u.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x0) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpssqa1u_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0001 0111 00001 qqqqq ppppp 1 cpssqa1.b crqc,crpc (c3_1)
+(dni cpssqa1_b_C3 "cpssqa1.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssqa1_b") (CPTYPE V8QI) VOLATILE)
+ "cpssqa1.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpssqa1_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0100 0111 00001 qqqqq ppppp 1 cpssda1u.b crqc,crpc (c3_1)
+(dni cpssda1u_b_C3 "cpssda1u.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssda1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpssda1u.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x4) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpssda1u_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 0101 0111 00001 qqqqq ppppp 1 cpssda1.b crqc,crpc (c3_1)
+(dni cpssda1_b_C3 "cpssda1.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpssda1_b") (CPTYPE V8QI) VOLATILE)
+ "cpssda1.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x5) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpssda1_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1000 0111 00001 qqqqq ppppp 1 cpmula1u.b crqc,crpc (c3_1)
+(dni cpmula1u_b_C3 "cpmula1u.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmula1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpmula1u.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x8) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpmula1u_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1001 0111 00001 qqqqq ppppp 1 cpmula1.b crqc,crpc (c3_1)
+(dni cpmula1_b_C3 "cpmula1.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmula1_b") (CPTYPE V8QI) VOLATILE)
+ "cpmula1.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x9) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpmula1_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1010 0111 00001 qqqqq ppppp 1 cpmulua1.h crqc,crpc (c3_1)
+(dni cpmulua1_h_C3 "cpmulua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmulua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmulua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xa) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpmulua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1011 0111 00001 qqqqq ppppp 1 cpmulla1.h crqc,crpc (c3_1)
+(dni cpmulla1_h_C3 "cpmulla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmulla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmulla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xb) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpmulla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1100 0111 00001 qqqqq ppppp 1 cpmulua1u.w crqc,crpc (c3_1)
+(dni cpmulua1u_w_C3 "cpmulua1u.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmulua1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmulua1u.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xc) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpmulua1u_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1101 0111 00001 qqqqq ppppp 1 cpmulla1u.w crqc,crpc (c3_1)
+(dni cpmulla1u_w_C3 "cpmulla1u.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmulla1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmulla1u.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xd) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpmulla1u_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1110 0111 00001 qqqqq ppppp 1 cpmulua1.w crqc,crpc (c3_1)
+(dni cpmulua1_w_C3 "cpmulua1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmulua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmulua1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xe) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpmulua1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0000 1111 0111 00001 qqqqq ppppp 1 cpmulla1.w crqc,crpc (c3_1)
+(dni cpmulla1_w_C3 "cpmulla1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmulla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmulla1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #xf) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpmulla1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0000 0111 00001 qqqqq ppppp 1 cpmada1u.b crqc,crpc (c3_1)
+(dni cpmada1u_b_C3 "cpmada1u.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmada1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpmada1u.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x10) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmada1u_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0001 0111 00001 qqqqq ppppp 1 cpmada1.b crqc,crpc (c3_1)
+(dni cpmada1_b_C3 "cpmada1.b $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmada1_b") (CPTYPE V8QI) VOLATILE)
+ "cpmada1.b $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x11) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmada1_b" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0010 0111 00001 qqqqq ppppp 1 cpmadua1.h crqc,crpc (c3_1)
+(dni cpmadua1_h_C3 "cpmadua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmadua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmadua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x12) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0011 0111 00001 qqqqq ppppp 1 cpmadla1.h crqc,crpc (c3_1)
+(dni cpmadla1_h_C3 "cpmadla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmadla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmadla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x13) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0100 0111 00001 qqqqq ppppp 1 cpmadua1u.w crqc,crpc (c3_1)
+(dni cpmadua1u_w_C3 "cpmadua1u.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmadua1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmadua1u.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x14) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadua1u_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0101 0111 00001 qqqqq ppppp 1 cpmadla1u.w crqc,crpc (c3_1)
+(dni cpmadla1u_w_C3 "cpmadla1u.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmadla1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmadla1u.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x15) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadla1u_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0110 0111 00001 qqqqq ppppp 1 cpmadua1.w crqc,crpc (c3_1)
+(dni cpmadua1_w_C3 "cpmadua1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmadua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmadua1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x16) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadua1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 0111 0111 00001 qqqqq ppppp 1 cpmadla1.w crqc,crpc (c3_1)
+(dni cpmadla1_w_C3 "cpmadla1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmadla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmadla1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x17) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadla1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1010 0111 00001 qqqqq ppppp 1 cpmsbua1.h crqc,crpc (c3_1)
+(dni cpmsbua1_h_C3 "cpmsbua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmsbua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmsbua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1a) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1011 0111 00001 qqqqq ppppp 1 cpmsbla1.h crqc,crpc (c3_1)
+(dni cpmsbla1_h_C3 "cpmsbla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmsbla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmsbla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1b) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1100 0111 00001 qqqqq ppppp 1 cpmsbua1u.w crqc,crpc (c3_1)
+(dni cpmsbua1u_w_C3 "cpmsbua1u.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmsbua1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmsbua1u.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1c) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbua1u_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1101 0111 00001 qqqqq ppppp 1 cpmsbla1u.w crqc,crpc (c3_1)
+(dni cpmsbla1u_w_C3 "cpmsbla1u.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmsbla1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmsbla1u.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1d) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbla1u_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1110 0111 00001 qqqqq ppppp 1 cpmsbua1.w crqc,crpc (c3_1)
+(dni cpmsbua1_w_C3 "cpmsbua1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmsbua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmsbua1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1e) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbua1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0001 1111 0111 00001 qqqqq ppppp 1 cpmsbla1.w crqc,crpc (c3_1)
+(dni cpmsbla1_w_C3 "cpmsbla1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmsbla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmsbla1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x0) (f-ivc2-5u7 #x1f) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbla1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 0010 0111 00001 qqqqq ppppp 1 cpsmadua1.h crqc,crpc (c3_1)
+(dni cpsmadua1_h_C3 "cpsmadua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmadua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmadua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x12) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 0011 0111 00001 qqqqq ppppp 1 cpsmadla1.h crqc,crpc (c3_1)
+(dni cpsmadla1_h_C3 "cpsmadla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmadla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmadla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x13) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 0110 0111 00001 qqqqq ppppp 1 cpsmadua1.w crqc,crpc (c3_1)
+(dni cpsmadua1_w_C3 "cpsmadua1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmadua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmadua1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x16) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadua1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 0111 0111 00001 qqqqq ppppp 1 cpsmadla1.w crqc,crpc (c3_1)
+(dni cpsmadla1_w_C3 "cpsmadla1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmadla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmadla1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x17) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadla1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 1010 0111 00001 qqqqq ppppp 1 cpsmsbua1.h crqc,crpc (c3_1)
+(dni cpsmsbua1_h_C3 "cpsmsbua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmsbua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmsbua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x1a) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 1011 0111 00001 qqqqq ppppp 1 cpsmsbla1.h crqc,crpc (c3_1)
+(dni cpsmsbla1_h_C3 "cpsmsbla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmsbla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmsbla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x1b) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 1110 0111 00001 qqqqq ppppp 1 cpsmsbua1.w crqc,crpc (c3_1)
+(dni cpsmsbua1_w_C3 "cpsmsbua1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmsbua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmsbua1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x1e) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbua1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0011 1111 0111 00001 qqqqq ppppp 1 cpsmsbla1.w crqc,crpc (c3_1)
+(dni cpsmsbla1_w_C3 "cpsmsbla1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmsbla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmsbla1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x1) (f-ivc2-5u7 #x1f) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbla1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0100 1010 0111 00001 qqqqq ppppp 1 cpmulslua1.h crqc,crpc (c3_1)
+(dni cpmulslua1_h_C3 "cpmulslua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmulslua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmulslua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #xa) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmulslua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0100 1011 0111 00001 qqqqq ppppp 1 cpmulslla1.h crqc,crpc (c3_1)
+(dni cpmulslla1_h_C3 "cpmulslla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmulslla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmulslla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #xb) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmulslla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0100 1110 0111 00001 qqqqq ppppp 1 cpmulslua1.w crqc,crpc (c3_1)
+(dni cpmulslua1_w_C3 "cpmulslua1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmulslua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmulslua1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #xe) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmulslua1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0100 1111 0111 00001 qqqqq ppppp 1 cpmulslla1.w crqc,crpc (c3_1)
+(dni cpmulslla1_w_C3 "cpmulslla1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpmulslla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmulslla1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x2) (f-ivc2-5u7 #xf) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmulslla1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0111 0010 0111 00001 qqqqq ppppp 1 cpsmadslua1.h crqc,crpc (c3_1)
+(dni cpsmadslua1_h_C3 "cpsmadslua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmadslua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmadslua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) (f-ivc2-5u7 #x12) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadslua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0111 0011 0111 00001 qqqqq ppppp 1 cpsmadslla1.h crqc,crpc (c3_1)
+(dni cpsmadslla1_h_C3 "cpsmadslla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmadslla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmadslla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) (f-ivc2-5u7 #x13) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadslla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0111 0110 0111 00001 qqqqq ppppp 1 cpsmadslua1.w crqc,crpc (c3_1)
+(dni cpsmadslua1_w_C3 "cpsmadslua1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmadslua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmadslua1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) (f-ivc2-5u7 #x16) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadslua1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0111 0111 0111 00001 qqqqq ppppp 1 cpsmadslla1.w crqc,crpc (c3_1)
+(dni cpsmadslla1_w_C3 "cpsmadslla1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmadslla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmadslla1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) (f-ivc2-5u7 #x17) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadslla1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0111 1010 0111 00001 qqqqq ppppp 1 cpsmsbslua1.h crqc,crpc (c3_1)
+(dni cpsmsbslua1_h_C3 "cpsmsbslua1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmsbslua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmsbslua1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) (f-ivc2-5u7 #x1a) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbslua1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0111 1011 0111 00001 qqqqq ppppp 1 cpsmsbslla1.h crqc,crpc (c3_1)
+(dni cpsmsbslla1_h_C3 "cpsmsbslla1.h $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmsbslla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmsbslla1.h $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) (f-ivc2-5u7 #x1b) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbslla1_h" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0111 1110 0111 00001 qqqqq ppppp 1 cpsmsbslua1.w crqc,crpc (c3_1)
+(dni cpsmsbslua1_w_C3 "cpsmsbslua1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmsbslua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmsbslua1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) (f-ivc2-5u7 #x1e) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbslua1_w" pc crqc crpc) )
+ ()
+ )
+
+; 1111 0111 1111 0111 00001 qqqqq ppppp 1 cpsmsbslla1.w crqc,crpc (c3_1)
+(dni cpsmsbslla1_w_C3 "cpsmsbslla1.w $crqc,$crpc C3"
+ (OPTIONAL_CP_INSN ivc2-c3-isa (SLOTS C3) (INTRINSIC "cpsmsbslla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmsbslla1.w $crqc,$crpc"
+ (+ MAJ_15 (f-ivc2-3u4 #x3) (f-ivc2-5u7 #x1f) (f-sub4 7)
+ (f-ivc2-5u16 #x1) crqc crpc (f-ivc2-1u31 #x1) )
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbslla1_w" pc crqc crpc) )
+ ()
+ )
+
+; 00000 00000 00000 00000 c0nop (p0_1)
+(dni c0nop_P0_P0S "c0nop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p0-isa (SLOTS P0,P0S) (INTRINSIC "c0nop"))
+ "c0nop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x0) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x0) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_c0nop" pc) )
+ ()
+ )
+
+; 00001 qqqqq ppppp ooooo cpadd3.b =crop,crqp,crpp (p0_1)
+(dni cpadd3_b_P0S_P1 "cpadd3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpadd3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpadd3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpadd3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00010 qqqqq ppppp ooooo cpadd3.h =crop,crqp,crpp (p0_1)
+(dni cpadd3_h_P0S_P1 "cpadd3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpadd3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpadd3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x2) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpadd3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00011 qqqqq ppppp ooooo cpadd3.w =crop,crqp,crpp (p0_1)
+(dni cpadd3_w_P0S_P1 "cpadd3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpadd3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpadd3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x3) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpadd3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 00101 qqqqq ppppp ooooo cpunpacku.b =crop,crqp,crpp (p0_1)
+(dni cpunpacku_b_P0S_P1 "cpunpacku.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpunpacku_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cpunpacku.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x5) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpunpacku_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00110 qqqqq ppppp ooooo cpunpacku.h =crop,crqp,crpp (p0_1)
+(dni cpunpacku_h_P0S_P1 "cpunpacku.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpunpacku_h") (CPTYPE V4UHI) (CRET FIRST))
+ "cpunpacku.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x6) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpunpacku_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00111 qqqqq ppppp ooooo cpunpacku.w =crop,crqp,crpp (p0_1)
+(dni cpunpacku_w_P0S_P1 "cpunpacku.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpunpacku_w") (CPTYPE V2USI) (CRET FIRST))
+ "cpunpacku.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x7) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpunpacku_w" pc crqp crpp)) )
+ ()
+ )
+
+; 01001 qqqqq ppppp ooooo cpunpackl.b =crop,crqp,crpp (p0_1)
+(dni cpunpackl_b_P0S_P1 "cpunpackl.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpunpackl_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpunpackl.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x9) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpunpackl_b" pc crqp crpp)) )
+ ()
+ )
+
+; 01010 qqqqq ppppp ooooo cpunpackl.h =crop,crqp,crpp (p0_1)
+(dni cpunpackl_h_P0S_P1 "cpunpackl.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpunpackl_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpunpackl.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #xa) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpunpackl_h" pc crqp crpp)) )
+ ()
+ )
+
+; 01011 qqqqq ppppp ooooo cpunpackl.w =crop,crqp,crpp (p0_1)
+(dni cpunpackl_w_P0S_P1 "cpunpackl.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpunpackl_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpunpackl.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #xb) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpunpackl_w" pc crqp crpp)) )
+ ()
+ )
+
+; 00100 qqqqq ppppp ooooo cpsel =crop,crqp,crpp (p0_1)
+(dni cpsel_P0S_P1 "cpsel $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpsel") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpsel $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x4) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsel" pc crqp crpp)) )
+ ()
+ )
+
+; 01100 qqqqq ppppp ooooo cpfsftbs0 =crop,crqp,crpp (p0_1)
+(dni cpfsftbs0_P0S_P1 "cpfsftbs0 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpfsftbs0") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpfsftbs0 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #xc) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpfsftbs0" pc crqp crpp)) )
+ ()
+ )
+
+; 01101 qqqqq ppppp ooooo cpfsftbs1 =crop,crqp,crpp (p0_1)
+(dni cpfsftbs1_P0S_P1 "cpfsftbs1 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpfsftbs1") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpfsftbs1 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #xd) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpfsftbs1" pc crqp crpp)) )
+ ()
+ )
+
+; 10000 qqqqq 00000 ooooo cpmov =crop,crqp (p0_1)
+(dni cpmov_P0S_P1 "cpmov $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpmov") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cpmov $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x0) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmov" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 00001 ooooo cpabsz.b =crop,crqp (p0_1)
+(dni cpabsz_b_P0S_P1 "cpabsz.b $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpabsz_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpabsz.b $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x1) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpabsz_b" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 00010 ooooo cpabsz.h =crop,crqp (p0_1)
+(dni cpabsz_h_P0S_P1 "cpabsz.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpabsz_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpabsz.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x2) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpabsz_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 00011 ooooo cpabsz.w =crop,crqp (p0_1)
+(dni cpabsz_w_P0S_P1 "cpabsz.w $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpabsz_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpabsz.w $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x3) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpabsz_w" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 00100 ooooo cpldz.h =crop,crqp (p0_1)
+(dni cpldz_h_P0S_P1 "cpldz.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpldz_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpldz.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x4) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpldz_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 00101 ooooo cpldz.w =crop,crqp (p0_1)
+(dni cpldz_w_P0S_P1 "cpldz.w $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpldz_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpldz.w $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x5) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpldz_w" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 00110 ooooo cpnorm.h =crop,crqp (p0_1)
+(dni cpnorm_h_P0S_P1 "cpnorm.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpnorm_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpnorm.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x6) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpnorm_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 00111 ooooo cpnorm.w =crop,crqp (p0_1)
+(dni cpnorm_w_P0S_P1 "cpnorm.w $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpnorm_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpnorm.w $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x7) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpnorm_w" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 01000 ooooo cphaddu.b =crop,crqp (p0_1)
+(dni cphaddu_b_P0S_P1 "cphaddu.b $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cphaddu_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cphaddu.b $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x8) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cphaddu_b" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 01001 ooooo cphadd.b =crop,crqp (p0_1)
+(dni cphadd_b_P0S_P1 "cphadd.b $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cphadd_b") (CPTYPE V8QI) (CRET FIRST))
+ "cphadd.b $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x9) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cphadd_b" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 01010 ooooo cphadd.h =crop,crqp (p0_1)
+(dni cphadd_h_P0S_P1 "cphadd.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cphadd_h") (CPTYPE V4HI) (CRET FIRST))
+ "cphadd.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #xa) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cphadd_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 01011 ooooo cphadd.w =crop,crqp (p0_1)
+(dni cphadd_w_P0S_P1 "cphadd.w $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cphadd_w") (CPTYPE V2SI) (CRET FIRST))
+ "cphadd.w $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #xb) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cphadd_w" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 01100 00000 cpccadd.b +crqp (p0_1)
+(dni cpccadd_b_P0S_P1 "cpccadd.b $crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpccadd_b") (CPTYPE V8QI) (CRET FIRSTCOPY) VOLATILE)
+ "cpccadd.b $crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #xc) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqp (c-call DI "ivc2_cpccadd_b" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 01101 ooooo cpbcast.b =crop,crqp (p0_1)
+(dni cpbcast_b_P0S_P1 "cpbcast.b $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpbcast_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpbcast.b $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #xd) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpbcast_b" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 01110 ooooo cpbcast.h =crop,crqp (p0_1)
+(dni cpbcast_h_P0S_P1 "cpbcast.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpbcast_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpbcast.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #xe) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpbcast_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 01111 ooooo cpbcast.w =crop,crqp (p0_1)
+(dni cpbcast_w_P0S_P1 "cpbcast.w $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpbcast_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpbcast.w $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #xf) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpbcast_w" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 10000 ooooo cpextuu.b =crop,crqp (p0_1)
+(dni cpextuu_b_P0S_P1 "cpextuu.b $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpextuu_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cpextuu.b $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x10) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextuu_b" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 10001 ooooo cpextu.b =crop,crqp (p0_1)
+(dni cpextu_b_P0S_P1 "cpextu.b $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpextu_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cpextu.b $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x11) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextu_b" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 10010 ooooo cpextuu.h =crop,crqp (p0_1)
+(dni cpextuu_h_P0S_P1 "cpextuu.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpextuu_h") (CPTYPE V4UHI) (CRET FIRST))
+ "cpextuu.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x12) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextuu_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 10011 ooooo cpextu.h =crop,crqp (p0_1)
+(dni cpextu_h_P0S_P1 "cpextu.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpextu_h") (CPTYPE V4UHI) (CRET FIRST))
+ "cpextu.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x13) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextu_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 10100 ooooo cpextlu.b =crop,crqp (p0_1)
+(dni cpextlu_b_P0S_P1 "cpextlu.b $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpextlu_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cpextlu.b $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x14) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextlu_b" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 10101 ooooo cpextl.b =crop,crqp (p0_1)
+(dni cpextl_b_P0S_P1 "cpextl.b $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpextl_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextl.b $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x15) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextl_b" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 10110 ooooo cpextlu.h =crop,crqp (p0_1)
+(dni cpextlu_h_P0S_P1 "cpextlu.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpextlu_h") (CPTYPE V4UHI) (CRET FIRST))
+ "cpextlu.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x16) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextlu_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 10111 ooooo cpextl.h =crop,crqp (p0_1)
+(dni cpextl_h_P0S_P1 "cpextl.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpextl_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpextl.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x17) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextl_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 11000 ooooo cpcastub.h =crop,crqp (p0_1)
+(dni cpcastub_h_P0S_P1 "cpcastub.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcastub_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpcastub.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x18) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpcastub_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 11001 ooooo cpcastb.h =crop,crqp (p0_1)
+(dni cpcastb_h_P0S_P1 "cpcastb.h $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcastb_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpcastb.h $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x19) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpcastb_h" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 11100 ooooo cpcastub.w =crop,crqp (p0_1)
+(dni cpcastub_w_P0S_P1 "cpcastub.w $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcastub_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpcastub.w $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x1c) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpcastub_w" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 11101 ooooo cpcastb.w =crop,crqp (p0_1)
+(dni cpcastb_w_P0S_P1 "cpcastb.w $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcastb_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpcastb.w $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x1d) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpcastb_w" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 11110 ooooo cpcastuh.w =crop,crqp (p0_1)
+(dni cpcastuh_w_P0S_P1 "cpcastuh.w $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcastuh_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpcastuh.w $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x1e) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpcastuh_w" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 11111 ooooo cpcasth.w =crop,crqp (p0_1)
+(dni cpcasth_w_P0S_P1 "cpcasth.w $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcasth_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpcasth.w $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x1f) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpcasth_w" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 11010 ooooo cdcastuw =crop,crqp (p0_1)
+(dni cdcastuw_P0S_P1 "cdcastuw $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cdcastuw") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdcastuw $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x1a) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdcastuw" pc crqp)) )
+ ()
+ )
+
+; 10000 qqqqq 11011 ooooo cdcastw =crop,crqp (p0_1)
+(dni cdcastw_P0S_P1 "cdcastw $crop,$crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cdcastw") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdcastw $crop,$crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x10) crqp (f-ivc2-5u18 #x1b) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdcastw" pc crqp)) )
+ ()
+ )
+
+; 10001 00000 00000 ooooo cpmovfrcsar0 =crop (p0_1)
+(dni cpmovfrcsar0_P0S_P1 "cpmovfrcsar0 $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpmovfrcsar0") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpmovfrcsar0 $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x11) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x0) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovfrcsar0" pc)) )
+ ()
+ )
+
+; 10001 00000 01111 ooooo cpmovfrcsar1 =crop (p0_1)
+(dni cpmovfrcsar1_P0S_P1 "cpmovfrcsar1 $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpmovfrcsar1") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpmovfrcsar1 $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x11) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xf) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovfrcsar1" pc)) )
+ ()
+ )
+
+; 10001 00000 00001 ooooo cpmovfrcc =crop (p0_1)
+(dni cpmovfrcc_P0S_P1 "cpmovfrcc $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpmovfrcc") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST) VOLATILE)
+ "cpmovfrcc $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x11) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x1) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovfrcc" pc)) )
+ ()
+ )
+
+; 10001 qqqqq 10000 00000 cpmovtocsar0 crqp (p0_1)
+(dni cpmovtocsar0_P0S_P1 "cpmovtocsar0 $crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpmovtocsar0") VOLATILE)
+ "cpmovtocsar0 $crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x11) crqp (f-ivc2-5u18 #x10) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_csar0 0)
+ (c-call "ivc2_cpmovtocsar0" pc crqp) )
+ ()
+ )
+
+; 10001 qqqqq 11111 00000 cpmovtocsar1 crqp (p0_1)
+(dni cpmovtocsar1_P0S_P1 "cpmovtocsar1 $crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpmovtocsar1") VOLATILE)
+ "cpmovtocsar1 $crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x11) crqp (f-ivc2-5u18 #x1f) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_csar1 0)
+ (c-call "ivc2_cpmovtocsar1" pc crqp) )
+ ()
+ )
+
+; 10001 qqqqq 10001 00000 cpmovtocc crqp (p0_1)
+(dni cpmovtocc_P0S_P1 "cpmovtocc $crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpmovtocc") VOLATILE)
+ "cpmovtocc $crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x11) crqp (f-ivc2-5u18 #x11) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpmovtocc" pc crqp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 00000 cpcmpeqz.b crqp,crpp (p0_1)
+(dni cpcmpeqz_b_P0S_P1 "cpcmpeqz.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpeqz_b") (CPTYPE V8QI) VOLATILE)
+ "cpcmpeqz.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpeqz_b" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 00001 cpcmpeq.b crqp,crpp (p0_1)
+(dni cpcmpeq_b_P0S_P1 "cpcmpeq.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpeq_b") (CPTYPE V8QI) VOLATILE)
+ "cpcmpeq.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x1) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpeq_b" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 00011 cpcmpeq.h crqp,crpp (p0_1)
+(dni cpcmpeq_h_P0S_P1 "cpcmpeq.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpeq_h") (CPTYPE V4HI) VOLATILE)
+ "cpcmpeq.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x3) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpeq_h" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 00101 cpcmpeq.w crqp,crpp (p0_1)
+(dni cpcmpeq_w_P0S_P1 "cpcmpeq.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpeq_w") (CPTYPE V2SI) VOLATILE)
+ "cpcmpeq.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x5) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpeq_w" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 01001 cpcmpne.b crqp,crpp (p0_1)
+(dni cpcmpne_b_P0S_P1 "cpcmpne.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpne_b") (CPTYPE V8QI) VOLATILE)
+ "cpcmpne.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x9) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpne_b" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 01011 cpcmpne.h crqp,crpp (p0_1)
+(dni cpcmpne_h_P0S_P1 "cpcmpne.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpne_h") (CPTYPE V4HI) VOLATILE)
+ "cpcmpne.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #xb) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpne_h" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 01101 cpcmpne.w crqp,crpp (p0_1)
+(dni cpcmpne_w_P0S_P1 "cpcmpne.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpne_w") (CPTYPE V2SI) VOLATILE)
+ "cpcmpne.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #xd) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpne_w" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 10000 cpcmpgtu.b crqp,crpp (p0_1)
+(dni cpcmpgtu_b_P0S_P1 "cpcmpgtu.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpgtu_b") (CPTYPE V8UQI) VOLATILE)
+ "cpcmpgtu.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x10) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgtu_b" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 10001 cpcmpgt.b crqp,crpp (p0_1)
+(dni cpcmpgt_b_P0S_P1 "cpcmpgt.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpgt_b") (CPTYPE V8QI) VOLATILE)
+ "cpcmpgt.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x11) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgt_b" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 10011 cpcmpgt.h crqp,crpp (p0_1)
+(dni cpcmpgt_h_P0S_P1 "cpcmpgt.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpgt_h") (CPTYPE V4HI) VOLATILE)
+ "cpcmpgt.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x13) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgt_h" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 10100 cpcmpgtu.w crqp,crpp (p0_1)
+(dni cpcmpgtu_w_P0S_P1 "cpcmpgtu.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpgtu_w") (CPTYPE V2USI) VOLATILE)
+ "cpcmpgtu.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x14) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgtu_w" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 10101 cpcmpgt.w crqp,crpp (p0_1)
+(dni cpcmpgt_w_P0S_P1 "cpcmpgt.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpgt_w") (CPTYPE V2SI) VOLATILE)
+ "cpcmpgt.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x15) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgt_w" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 11000 cpcmpgeu.b crqp,crpp (p0_1)
+(dni cpcmpgeu_b_P0S_P1 "cpcmpgeu.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpgeu_b") (CPTYPE V8UQI) VOLATILE)
+ "cpcmpgeu.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x18) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgeu_b" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 11001 cpcmpge.b crqp,crpp (p0_1)
+(dni cpcmpge_b_P0S_P1 "cpcmpge.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpge_b") (CPTYPE V8QI) VOLATILE)
+ "cpcmpge.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x19) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpge_b" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 11011 cpcmpge.h crqp,crpp (p0_1)
+(dni cpcmpge_h_P0S_P1 "cpcmpge.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpge_h") (CPTYPE V4HI) VOLATILE)
+ "cpcmpge.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x1b) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpge_h" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 11100 cpcmpgeu.w crqp,crpp (p0_1)
+(dni cpcmpgeu_w_P0S_P1 "cpcmpgeu.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpgeu_w") (CPTYPE V2USI) VOLATILE)
+ "cpcmpgeu.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x1c) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpgeu_w" pc crqp crpp) )
+ ()
+ )
+
+; 10010 qqqqq ppppp 11101 cpcmpge.w crqp,crpp (p0_1)
+(dni cpcmpge_w_P0S_P1 "cpcmpge.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpcmpge_w") (CPTYPE V2SI) VOLATILE)
+ "cpcmpge.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x12) crqp crpp (f-ivc2-5u23 #x1d) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cc 0)
+ (c-call "ivc2_cpcmpge_w" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 00000 cpadda0u.b crqp,crpp (p0_1)
+(dni cpadda0u_b_P0S "cpadda0u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpadda0u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpadda0u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpadda0u_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 00001 cpadda0.b crqp,crpp (p0_1)
+(dni cpadda0_b_P0S "cpadda0.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpadda0_b") (CPTYPE V8QI) VOLATILE)
+ "cpadda0.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x1) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpadda0_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 00010 cpaddua0.h crqp,crpp (p0_1)
+(dni cpaddua0_h_P0S "cpaddua0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpaddua0_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddua0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x2) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpaddua0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 00011 cpaddla0.h crqp,crpp (p0_1)
+(dni cpaddla0_h_P0S "cpaddla0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpaddla0_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddla0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x3) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (c-call "ivc2_cpaddla0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 00100 cpaddaca0u.b crqp,crpp (p0_1)
+(dni cpaddaca0u_b_P0S "cpaddaca0u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpaddaca0u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpaddaca0u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x4) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpaddaca0u_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 00101 cpaddaca0.b crqp,crpp (p0_1)
+(dni cpaddaca0_b_P0S "cpaddaca0.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpaddaca0_b") (CPTYPE V8QI) VOLATILE)
+ "cpaddaca0.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x5) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpaddaca0_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 00110 cpaddacua0.h crqp,crpp (p0_1)
+(dni cpaddacua0_h_P0S "cpaddacua0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpaddacua0_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddacua0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x6) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpaddacua0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 00111 cpaddacla0.h crqp,crpp (p0_1)
+(dni cpaddacla0_h_P0S "cpaddacla0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpaddacla0_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddacla0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x7) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpaddacla0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 01000 cpsuba0u.b crqp,crpp (p0_1)
+(dni cpsuba0u_b_P0S "cpsuba0u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsuba0u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpsuba0u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x8) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpsuba0u_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 01001 cpsuba0.b crqp,crpp (p0_1)
+(dni cpsuba0_b_P0S "cpsuba0.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsuba0_b") (CPTYPE V8QI) VOLATILE)
+ "cpsuba0.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x9) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpsuba0_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 01010 cpsubua0.h crqp,crpp (p0_1)
+(dni cpsubua0_h_P0S "cpsubua0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsubua0_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubua0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xa) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpsubua0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 01011 cpsubla0.h crqp,crpp (p0_1)
+(dni cpsubla0_h_P0S "cpsubla0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsubla0_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubla0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xb) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (c-call "ivc2_cpsubla0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 01100 cpsubaca0u.b crqp,crpp (p0_1)
+(dni cpsubaca0u_b_P0S "cpsubaca0u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsubaca0u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpsubaca0u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xc) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpsubaca0u_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 01101 cpsubaca0.b crqp,crpp (p0_1)
+(dni cpsubaca0_b_P0S "cpsubaca0.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsubaca0_b") (CPTYPE V8QI) VOLATILE)
+ "cpsubaca0.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xd) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpsubaca0_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 01110 cpsubacua0.h crqp,crpp (p0_1)
+(dni cpsubacua0_h_P0S "cpsubacua0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsubacua0_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubacua0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xe) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpsubacua0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 01111 cpsubacla0.h crqp,crpp (p0_1)
+(dni cpsubacla0_h_P0S "cpsubacla0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsubacla0_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubacla0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xf) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpsubacla0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 10000 cpabsa0u.b crqp,crpp (p0_1)
+(dni cpabsa0u_b_P0S "cpabsa0u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpabsa0u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpabsa0u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x10) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpabsa0u_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 10001 cpabsa0.b crqp,crpp (p0_1)
+(dni cpabsa0_b_P0S "cpabsa0.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpabsa0_b") (CPTYPE V8QI) VOLATILE)
+ "cpabsa0.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x11) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpabsa0_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 10010 cpabsua0.h crqp,crpp (p0_1)
+(dni cpabsua0_h_P0S "cpabsua0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpabsua0_h") (CPTYPE V4HI) VOLATILE)
+ "cpabsua0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x12) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpabsua0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 10011 cpabsla0.h crqp,crpp (p0_1)
+(dni cpabsla0_h_P0S "cpabsla0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpabsla0_h") (CPTYPE V4HI) VOLATILE)
+ "cpabsla0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x13) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (c-call "ivc2_cpabsla0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 10100 cpsada0u.b crqp,crpp (p0_1)
+(dni cpsada0u_b_P0S "cpsada0u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsada0u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpsada0u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x14) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpsada0u_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 10101 cpsada0.b crqp,crpp (p0_1)
+(dni cpsada0_b_P0S "cpsada0.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsada0_b") (CPTYPE V8QI) VOLATILE)
+ "cpsada0.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x15) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpsada0_b" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 10110 cpsadua0.h crqp,crpp (p0_1)
+(dni cpsadua0_h_P0S "cpsadua0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsadua0_h") (CPTYPE V4HI) VOLATILE)
+ "cpsadua0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x16) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpsadua0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 10111 cpsadla0.h crqp,crpp (p0_1)
+(dni cpsadla0_h_P0S "cpsadla0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsadla0_h") (CPTYPE V4HI) VOLATILE)
+ "cpsadla0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x17) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpsadla0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 11011 cpseta0.h crqp,crpp (p0_1)
+(dni cpseta0_h_P0S "cpseta0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpseta0_h") (CPTYPE V4HI) VOLATILE)
+ "cpseta0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x1b) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpseta0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 11100 cpsetua0.w crqp,crpp (p0_1)
+(dni cpsetua0_w_P0S "cpsetua0.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsetua0_w") (CPTYPE V2SI) VOLATILE)
+ "cpsetua0.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x1c) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpsetua0_w" pc crqp crpp) )
+ ()
+ )
+
+; 11000 qqqqq ppppp 11101 cpsetla0.w crqp,crpp (p0_1)
+(dni cpsetla0_w_P0S "cpsetla0.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsetla0_w") (CPTYPE V2SI) VOLATILE)
+ "cpsetla0.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x1d) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (c-call "ivc2_cpsetla0_w" pc crqp crpp) )
+ ()
+ )
+
+; 11001 00000 00001 ooooo cpmova0.b =crop (p0_1)
+(dni cpmova0_b_P0S "cpmova0.b $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpmova0_b") (CPTYPE V8QI) (CRET FIRST) VOLATILE)
+ "cpmova0.b $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x1) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmova0_b" pc)) )
+ ()
+ )
+
+; 11001 00000 00010 ooooo cpmovua0.h =crop (p0_1)
+(dni cpmovua0_h_P0S "cpmovua0.h $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpmovua0_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpmovua0.h $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x2) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovua0_h" pc)) )
+ ()
+ )
+
+; 11001 00000 00011 ooooo cpmovla0.h =crop (p0_1)
+(dni cpmovla0_h_P0S "cpmovla0.h $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpmovla0_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpmovla0.h $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x3) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovla0_h" pc)) )
+ ()
+ )
+
+; 11001 00000 00100 ooooo cpmovuua0.w =crop (p0_1)
+(dni cpmovuua0_w_P0S "cpmovuua0.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpmovuua0_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovuua0.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x4) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovuua0_w" pc)) )
+ ()
+ )
+
+; 11001 00000 00101 ooooo cpmovula0.w =crop (p0_1)
+(dni cpmovula0_w_P0S "cpmovula0.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpmovula0_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovula0.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x5) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovula0_w" pc)) )
+ ()
+ )
+
+; 11001 00000 00110 ooooo cpmovlua0.w =crop (p0_1)
+(dni cpmovlua0_w_P0S "cpmovlua0.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpmovlua0_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovlua0.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x6) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovlua0_w" pc)) )
+ ()
+ )
+
+; 11001 00000 00111 ooooo cpmovlla0.w =crop (p0_1)
+(dni cpmovlla0_w_P0S "cpmovlla0.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpmovlla0_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovlla0.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x7) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovlla0_w" pc)) )
+ ()
+ )
+
+; 11001 00000 01000 ooooo cppacka0u.b =crop (p0_1)
+(dni cppacka0u_b_P0S "cppacka0u.b $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cppacka0u_b") (CPTYPE V8UQI) (CRET FIRST) VOLATILE)
+ "cppacka0u.b $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x8) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppacka0u_b" pc)) )
+ ()
+ )
+
+; 11001 00000 01001 ooooo cppacka0.b =crop (p0_1)
+(dni cppacka0_b_P0S "cppacka0.b $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cppacka0_b") (CPTYPE V8QI) (CRET FIRST) VOLATILE)
+ "cppacka0.b $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x9) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppacka0_b" pc)) )
+ ()
+ )
+
+; 11001 00000 01010 ooooo cppackua0.h =crop (p0_1)
+(dni cppackua0_h_P0S "cppackua0.h $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cppackua0_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cppackua0.h $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xa) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppackua0_h" pc)) )
+ ()
+ )
+
+; 11001 00000 01011 ooooo cppackla0.h =crop (p0_1)
+(dni cppackla0_h_P0S "cppackla0.h $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cppackla0_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cppackla0.h $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xb) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppackla0_h" pc)) )
+ ()
+ )
+
+; 11001 00000 01100 ooooo cppackua0.w =crop (p0_1)
+(dni cppackua0_w_P0S "cppackua0.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cppackua0_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cppackua0.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xc) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppackua0_w" pc)) )
+ ()
+ )
+
+; 11001 00000 01101 ooooo cppackla0.w =crop (p0_1)
+(dni cppackla0_w_P0S "cppackla0.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cppackla0_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cppackla0.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xd) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppackla0_w" pc)) )
+ ()
+ )
+
+; 11001 00000 01110 ooooo cpmovhua0.w =crop (p0_1)
+(dni cpmovhua0_w_P0S "cpmovhua0.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpmovhua0_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovhua0.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xe) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovhua0_w" pc)) )
+ ()
+ )
+
+; 11001 00000 01111 ooooo cpmovhla0.w =crop (p0_1)
+(dni cpmovhla0_w_P0S "cpmovhla0.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpmovhla0_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovhla0.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xf) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovhla0_w" pc)) )
+ ()
+ )
+
+; 11001 00000 10000 00000 cpacsuma0 (p0_1)
+(dni cpacsuma0_P0S "cpacsuma0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpacsuma0") VOLATILE)
+ "cpacsuma0"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x10) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpacsuma0" pc) )
+ ()
+ )
+
+; 11001 00000 10001 00000 cpaccpa0 (p0_1)
+(dni cpaccpa0_P0S "cpaccpa0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpaccpa0") VOLATILE)
+ "cpaccpa0"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x11) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpaccpa0" pc) )
+ ()
+ )
+
+; 11001 qqqqq 11000 00000 cpsrla0 crqp (p0_1)
+(dni cpsrla0_P0S "cpsrla0 $crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsrla0") VOLATILE)
+ "cpsrla0 $crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) crqp (f-ivc2-5u18 #x18) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpsrla0" pc crqp) )
+ ()
+ )
+
+; 11001 qqqqq 11001 00000 cpsraa0 crqp (p0_1)
+(dni cpsraa0_P0S "cpsraa0 $crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsraa0") VOLATILE)
+ "cpsraa0 $crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) crqp (f-ivc2-5u18 #x19) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpsraa0" pc crqp) )
+ ()
+ )
+
+; 11001 qqqqq 11010 00000 cpslla0 crqp (p0_1)
+(dni cpslla0_P0S "cpslla0 $crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpslla0") VOLATILE)
+ "cpslla0 $crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) crqp (f-ivc2-5u18 #x1a) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpslla0" pc crqp) )
+ ()
+ )
+
+; 11001 00000 11100 iiiii cpsrlia0 imm5p23 (p0_1)
+(dni cpsrlia0_P0S "cpsrlia0 imm5p23 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsrlia0") VOLATILE)
+ "cpsrlia0 $imm5p23"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x1c) imm5p23 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpsrlia0" pc imm5p23) )
+ ()
+ )
+
+; 11001 00000 11101 iiiii cpsraia0 imm5p23 (p0_1)
+(dni cpsraia0_P0S "cpsraia0 imm5p23 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsraia0") VOLATILE)
+ "cpsraia0 $imm5p23"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x1d) imm5p23 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpsraia0" pc imm5p23) )
+ ()
+ )
+
+; 11001 00000 11110 iiiii cpsllia0 imm5p23 (p0_1)
+(dni cpsllia0_P0S "cpsllia0 imm5p23 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpsllia0") VOLATILE)
+ "cpsllia0 $imm5p23"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x1e) imm5p23 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpsllia0" pc imm5p23) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 00000 cpfsftba0s0u.b crqp,crpp (p0_1)
+(dni cpfsftba0s0u_b_P0S "cpfsftba0s0u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfsftba0s0u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpfsftba0s0u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpfsftba0s0u_b" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 00001 cpfsftba0s0.b crqp,crpp (p0_1)
+(dni cpfsftba0s0_b_P0S "cpfsftba0s0.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfsftba0s0_b") (CPTYPE V8QI) VOLATILE)
+ "cpfsftba0s0.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x1) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpfsftba0s0_b" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 00010 cpfsftbua0s0.h crqp,crpp (p0_1)
+(dni cpfsftbua0s0_h_P0S "cpfsftbua0s0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfsftbua0s0_h") (CPTYPE V4HI) VOLATILE)
+ "cpfsftbua0s0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x2) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpfsftbua0s0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 00011 cpfsftbla0s0.h crqp,crpp (p0_1)
+(dni cpfsftbla0s0_h_P0S "cpfsftbla0s0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfsftbla0s0_h") (CPTYPE V4HI) VOLATILE)
+ "cpfsftbla0s0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x3) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (c-call "ivc2_cpfsftbla0s0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 00100 cpfaca0s0u.b crqp,crpp (p0_1)
+(dni cpfaca0s0u_b_P0S "cpfaca0s0u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfaca0s0u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpfaca0s0u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x4) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpfaca0s0u_b" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 00101 cpfaca0s0.b crqp,crpp (p0_1)
+(dni cpfaca0s0_b_P0S "cpfaca0s0.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfaca0s0_b") (CPTYPE V8QI) VOLATILE)
+ "cpfaca0s0.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x5) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpfaca0s0_b" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 00110 cpfacua0s0.h crqp,crpp (p0_1)
+(dni cpfacua0s0_h_P0S "cpfacua0s0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfacua0s0_h") (CPTYPE V4HI) VOLATILE)
+ "cpfacua0s0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x6) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpfacua0s0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 00111 cpfacla0s0.h crqp,crpp (p0_1)
+(dni cpfacla0s0_h_P0S "cpfacla0s0.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfacla0s0_h") (CPTYPE V4HI) VOLATILE)
+ "cpfacla0s0.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x7) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpfacla0s0_h" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 01000 cpfsftba0s1u.b crqp,crpp (p0_1)
+(dni cpfsftba0s1u_b_P0S "cpfsftba0s1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfsftba0s1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpfsftba0s1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x8) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpfsftba0s1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 01001 cpfsftba0s1.b crqp,crpp (p0_1)
+(dni cpfsftba0s1_b_P0S "cpfsftba0s1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfsftba0s1_b") (CPTYPE V8QI) VOLATILE)
+ "cpfsftba0s1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x9) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpfsftba0s1_b" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 01010 cpfsftbua0s1.h crqp,crpp (p0_1)
+(dni cpfsftbua0s1_h_P0S "cpfsftbua0s1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfsftbua0s1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfsftbua0s1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xa) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (c-call "ivc2_cpfsftbua0s1_h" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 01011 cpfsftbla0s1.h crqp,crpp (p0_1)
+(dni cpfsftbla0s1_h_P0S "cpfsftbla0s1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfsftbla0s1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfsftbla0s1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xb) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (c-call "ivc2_cpfsftbla0s1_h" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 01100 cpfaca0s1u.b crqp,crpp (p0_1)
+(dni cpfaca0s1u_b_P0S "cpfaca0s1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfaca0s1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpfaca0s1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xc) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpfaca0s1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 01101 cpfaca0s1.b crqp,crpp (p0_1)
+(dni cpfaca0s1_b_P0S "cpfaca0s1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfaca0s1_b") (CPTYPE V8QI) VOLATILE)
+ "cpfaca0s1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xd) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpfaca0s1_b" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 01110 cpfacua0s1.h crqp,crpp (p0_1)
+(dni cpfacua0s1_h_P0S "cpfacua0s1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfacua0s1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfacua0s1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xe) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpfacua0s1_h" pc crqp crpp) )
+ ()
+ )
+
+; 11111 qqqqq ppppp 01111 cpfacla0s1.h crqp,crpp (p0_1)
+(dni cpfacla0s1_h_P0S "cpfacla0s1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-isa (SLOTS P0S) (INTRINSIC "cpfacla0s1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfacla0s1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xf) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_cofa0 0)
+ (c-call "ivc2_cpfacla0s1_h" pc crqp crpp) )
+ ()
+ )
+
+; xxxxxiii 01000 qqqqq ppppp ooooo cpfsftbi =crop,crqp,crpp,imm3p5 (p0_1)
+(dni cpfsftbi_P0_P1 "cpfsftbi $crop,$crqp,$crpp,imm3p5 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpfsftbi") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cpfsftbi $crop,$crqp,$crpp,$imm3p5"
+ (+ ivc-x-0-5 imm3p5 (f-ivc2-5u8 #x8) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpfsftbi" pc crqp crpp imm3p5)) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 00001 cpacmpeq.b crqp,crpp (p0_1)
+(dni cpacmpeq_b_P0_P1 "cpacmpeq.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpeq_b") (CPTYPE V8QI))
+ "cpacmpeq.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x1) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpeq_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 00011 cpacmpeq.h crqp,crpp (p0_1)
+(dni cpacmpeq_h_P0_P1 "cpacmpeq.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpeq_h") (CPTYPE V4HI))
+ "cpacmpeq.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x3) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpeq_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 00101 cpacmpeq.w crqp,crpp (p0_1)
+(dni cpacmpeq_w_P0_P1 "cpacmpeq.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpeq_w") (CPTYPE V2SI))
+ "cpacmpeq.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x5) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpeq_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 01001 cpacmpne.b crqp,crpp (p0_1)
+(dni cpacmpne_b_P0_P1 "cpacmpne.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpne_b") (CPTYPE V8QI))
+ "cpacmpne.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x9) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpne_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 01011 cpacmpne.h crqp,crpp (p0_1)
+(dni cpacmpne_h_P0_P1 "cpacmpne.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpne_h") (CPTYPE V4HI))
+ "cpacmpne.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #xb) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpne_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 01101 cpacmpne.w crqp,crpp (p0_1)
+(dni cpacmpne_w_P0_P1 "cpacmpne.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpne_w") (CPTYPE V2SI))
+ "cpacmpne.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #xd) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpne_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 10000 cpacmpgtu.b crqp,crpp (p0_1)
+(dni cpacmpgtu_b_P0_P1 "cpacmpgtu.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpgtu_b") (CPTYPE V8UQI))
+ "cpacmpgtu.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x10) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpgtu_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 10001 cpacmpgt.b crqp,crpp (p0_1)
+(dni cpacmpgt_b_P0_P1 "cpacmpgt.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpgt_b") (CPTYPE V8QI))
+ "cpacmpgt.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x11) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpgt_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 10011 cpacmpgt.h crqp,crpp (p0_1)
+(dni cpacmpgt_h_P0_P1 "cpacmpgt.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpgt_h") (CPTYPE V4HI))
+ "cpacmpgt.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x13) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpgt_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 10100 cpacmpgtu.w crqp,crpp (p0_1)
+(dni cpacmpgtu_w_P0_P1 "cpacmpgtu.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpgtu_w") (CPTYPE V2USI))
+ "cpacmpgtu.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x14) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpgtu_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 10101 cpacmpgt.w crqp,crpp (p0_1)
+(dni cpacmpgt_w_P0_P1 "cpacmpgt.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpgt_w") (CPTYPE V2SI))
+ "cpacmpgt.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x15) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpgt_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 11000 cpacmpgeu.b crqp,crpp (p0_1)
+(dni cpacmpgeu_b_P0_P1 "cpacmpgeu.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpgeu_b") (CPTYPE V8UQI))
+ "cpacmpgeu.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x18) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpgeu_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 11001 cpacmpge.b crqp,crpp (p0_1)
+(dni cpacmpge_b_P0_P1 "cpacmpge.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpge_b") (CPTYPE V8QI))
+ "cpacmpge.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x19) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpge_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 11011 cpacmpge.h crqp,crpp (p0_1)
+(dni cpacmpge_h_P0_P1 "cpacmpge.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpge_h") (CPTYPE V4HI))
+ "cpacmpge.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x1b) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpge_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 11100 cpacmpgeu.w crqp,crpp (p0_1)
+(dni cpacmpgeu_w_P0_P1 "cpacmpgeu.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpgeu_w") (CPTYPE V2USI))
+ "cpacmpgeu.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x1c) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpgeu_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 10011 qqqqq ppppp 11101 cpacmpge.w crqp,crpp (p0_1)
+(dni cpacmpge_w_P0_P1 "cpacmpge.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpacmpge_w") (CPTYPE V2SI))
+ "cpacmpge.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x1d) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpacmpge_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 00001 cpocmpeq.b crqp,crpp (p0_1)
+(dni cpocmpeq_b_P0_P1 "cpocmpeq.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpeq_b") (CPTYPE V8QI))
+ "cpocmpeq.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x1) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpeq_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 00011 cpocmpeq.h crqp,crpp (p0_1)
+(dni cpocmpeq_h_P0_P1 "cpocmpeq.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpeq_h") (CPTYPE V4HI))
+ "cpocmpeq.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x3) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpeq_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 00101 cpocmpeq.w crqp,crpp (p0_1)
+(dni cpocmpeq_w_P0_P1 "cpocmpeq.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpeq_w") (CPTYPE V2SI))
+ "cpocmpeq.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x5) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpeq_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 01001 cpocmpne.b crqp,crpp (p0_1)
+(dni cpocmpne_b_P0_P1 "cpocmpne.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpne_b") (CPTYPE V8QI))
+ "cpocmpne.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x9) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpne_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 01011 cpocmpne.h crqp,crpp (p0_1)
+(dni cpocmpne_h_P0_P1 "cpocmpne.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpne_h") (CPTYPE V4HI))
+ "cpocmpne.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #xb) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpne_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 01101 cpocmpne.w crqp,crpp (p0_1)
+(dni cpocmpne_w_P0_P1 "cpocmpne.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpne_w") (CPTYPE V2SI))
+ "cpocmpne.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #xd) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpne_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 10000 cpocmpgtu.b crqp,crpp (p0_1)
+(dni cpocmpgtu_b_P0_P1 "cpocmpgtu.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpgtu_b") (CPTYPE V8UQI))
+ "cpocmpgtu.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x10) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpgtu_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 10001 cpocmpgt.b crqp,crpp (p0_1)
+(dni cpocmpgt_b_P0_P1 "cpocmpgt.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpgt_b") (CPTYPE V8QI))
+ "cpocmpgt.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x11) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpgt_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 10011 cpocmpgt.h crqp,crpp (p0_1)
+(dni cpocmpgt_h_P0_P1 "cpocmpgt.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpgt_h") (CPTYPE V4HI))
+ "cpocmpgt.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x13) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpgt_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 10100 cpocmpgtu.w crqp,crpp (p0_1)
+(dni cpocmpgtu_w_P0_P1 "cpocmpgtu.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpgtu_w") (CPTYPE V2USI))
+ "cpocmpgtu.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x14) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpgtu_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 10101 cpocmpgt.w crqp,crpp (p0_1)
+(dni cpocmpgt_w_P0_P1 "cpocmpgt.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpgt_w") (CPTYPE V2SI))
+ "cpocmpgt.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x15) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpgt_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 11000 cpocmpgeu.b crqp,crpp (p0_1)
+(dni cpocmpgeu_b_P0_P1 "cpocmpgeu.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpgeu_b") (CPTYPE V8UQI))
+ "cpocmpgeu.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x18) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpgeu_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 11001 cpocmpge.b crqp,crpp (p0_1)
+(dni cpocmpge_b_P0_P1 "cpocmpge.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpge_b") (CPTYPE V8QI))
+ "cpocmpge.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x19) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpge_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 11011 cpocmpge.h crqp,crpp (p0_1)
+(dni cpocmpge_h_P0_P1 "cpocmpge.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpge_h") (CPTYPE V4HI))
+ "cpocmpge.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x1b) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpge_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 11100 cpocmpgeu.w crqp,crpp (p0_1)
+(dni cpocmpgeu_w_P0_P1 "cpocmpgeu.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpgeu_w") (CPTYPE V2USI))
+ "cpocmpgeu.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x1c) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpgeu_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 10011 qqqqq ppppp 11101 cpocmpge.w crqp,crpp (p0_1)
+(dni cpocmpge_w_P0_P1 "cpocmpge.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpocmpge_w") (CPTYPE V2SI))
+ "cpocmpge.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x13) crqp crpp (f-ivc2-5u23 #x1d) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_cpocmpge_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000011 10100 qqqqq ppppp ooooo cdadd3 =crop,crqp,crpp (p0_1)
+(dni cdadd3_P0_P1 "cdadd3 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdadd3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdadd3 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdadd3" pc crqp crpp)) )
+ ()
+ )
+
+; 00000100 10100 qqqqq ppppp ooooo cpsub3.b =crop,crqp,crpp (p0_1)
+(dni cpsub3_b_P0_P1 "cpsub3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsub3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsub3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x4) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsub3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00000101 10100 qqqqq ppppp ooooo cpsub3.h =crop,crqp,crpp (p0_1)
+(dni cpsub3_h_P0_P1 "cpsub3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsub3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsub3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x5) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsub3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00000110 10100 qqqqq ppppp ooooo cpsub3.w =crop,crqp,crpp (p0_1)
+(dni cpsub3_w_P0_P1 "cpsub3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsub3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsub3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x6) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsub3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 00000111 10100 qqqqq ppppp ooooo cdsub3 =crop,crqp,crpp (p0_1)
+(dni cdsub3_P0_P1 "cdsub3 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdsub3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsub3 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x7) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdsub3" pc crqp crpp)) )
+ ()
+ )
+
+; 00001010 10100 qqqqq ppppp ooooo cpsadd3.h =crop,crqp,crpp (p0_1)
+(dni cpsadd3_h_P0_P1 "cpsadd3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsadd3_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpsadd3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #xa) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsadd3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00001011 10100 qqqqq ppppp ooooo cpsadd3.w =crop,crqp,crpp (p0_1)
+(dni cpsadd3_w_P0_P1 "cpsadd3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsadd3_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpsadd3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #xb) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsadd3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 00001110 10100 qqqqq ppppp ooooo cpssub3.h =crop,crqp,crpp (p0_1)
+(dni cpssub3_h_P0_P1 "cpssub3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssub3_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpssub3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #xe) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cofr0 0)
+ (set crop (c-call DI "ivc2_cpssub3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00001111 10100 qqqqq ppppp ooooo cpssub3.w =crop,crqp,crpp (p0_1)
+(dni cpssub3_w_P0_P1 "cpssub3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssub3_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpssub3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #xf) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_cofr0 0)
+ (set crop (c-call DI "ivc2_cpssub3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 00010000 10100 qqqqq ppppp ooooo cpextuaddu3.b =crop,crqp,crpp (p0_1)
+(dni cpextuaddu3_b_P0_P1 "cpextuaddu3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpextuaddu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextuaddu3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x10) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextuaddu3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00010001 10100 qqqqq ppppp ooooo cpextuadd3.b =crop,crqp,crpp (p0_1)
+(dni cpextuadd3_b_P0_P1 "cpextuadd3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpextuadd3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextuadd3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x11) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextuadd3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00010010 10100 qqqqq ppppp ooooo cpextladdu3.b =crop,crqp,crpp (p0_1)
+(dni cpextladdu3_b_P0_P1 "cpextladdu3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpextladdu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextladdu3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x12) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextladdu3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00010011 10100 qqqqq ppppp ooooo cpextladd3.b =crop,crqp,crpp (p0_1)
+(dni cpextladd3_b_P0_P1 "cpextladd3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpextladd3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextladd3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x13) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextladd3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00010100 10100 qqqqq ppppp ooooo cpextusubu3.b =crop,crqp,crpp (p0_1)
+(dni cpextusubu3_b_P0_P1 "cpextusubu3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpextusubu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextusubu3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x14) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextusubu3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00010101 10100 qqqqq ppppp ooooo cpextusub3.b =crop,crqp,crpp (p0_1)
+(dni cpextusub3_b_P0_P1 "cpextusub3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpextusub3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextusub3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x15) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextusub3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00010110 10100 qqqqq ppppp ooooo cpextlsubu3.b =crop,crqp,crpp (p0_1)
+(dni cpextlsubu3_b_P0_P1 "cpextlsubu3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpextlsubu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextlsubu3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x16) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextlsubu3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00010111 10100 qqqqq ppppp ooooo cpextlsub3.b =crop,crqp,crpp (p0_1)
+(dni cpextlsub3_b_P0_P1 "cpextlsub3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpextlsub3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpextlsub3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x17) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpextlsub3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00011000 10100 qqqqq ppppp ooooo cpaveu3.b =crop,crqp,crpp (p0_1)
+(dni cpaveu3_b_P0_P1 "cpaveu3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpaveu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpaveu3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x18) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpaveu3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00011001 10100 qqqqq ppppp ooooo cpave3.b =crop,crqp,crpp (p0_1)
+(dni cpave3_b_P0_P1 "cpave3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpave3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpave3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x19) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpave3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00011010 10100 qqqqq ppppp ooooo cpave3.h =crop,crqp,crpp (p0_1)
+(dni cpave3_h_P0_P1 "cpave3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpave3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpave3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1a) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpave3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00011011 10100 qqqqq ppppp ooooo cpave3.w =crop,crqp,crpp (p0_1)
+(dni cpave3_w_P0_P1 "cpave3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpave3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpave3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1b) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpave3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 00011100 10100 qqqqq ppppp ooooo cpaddsru3.b =crop,crqp,crpp (p0_1)
+(dni cpaddsru3_b_P0_P1 "cpaddsru3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpaddsru3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpaddsru3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1c) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpaddsru3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00011101 10100 qqqqq ppppp ooooo cpaddsr3.b =crop,crqp,crpp (p0_1)
+(dni cpaddsr3_b_P0_P1 "cpaddsr3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpaddsr3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpaddsr3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1d) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpaddsr3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00011110 10100 qqqqq ppppp ooooo cpaddsr3.h =crop,crqp,crpp (p0_1)
+(dni cpaddsr3_h_P0_P1 "cpaddsr3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpaddsr3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpaddsr3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1e) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpaddsr3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00011111 10100 qqqqq ppppp ooooo cpaddsr3.w =crop,crqp,crpp (p0_1)
+(dni cpaddsr3_w_P0_P1 "cpaddsr3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpaddsr3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpaddsr3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1f) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpaddsr3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 00100000 10100 qqqqq ppppp ooooo cpabsu3.b =crop,crqp,crpp (p0_1)
+(dni cpabsu3_b_P0_P1 "cpabsu3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpabsu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpabsu3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x20) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpabsu3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00100001 10100 qqqqq ppppp ooooo cpabs3.b =crop,crqp,crpp (p0_1)
+(dni cpabs3_b_P0_P1 "cpabs3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpabs3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpabs3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x21) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpabs3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00100010 10100 qqqqq ppppp ooooo cpabs3.h =crop,crqp,crpp (p0_1)
+(dni cpabs3_h_P0_P1 "cpabs3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpabs3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpabs3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x22) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpabs3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00100100 10100 qqqqq ppppp ooooo cpand3 =crop,crqp,crpp (p0_1)
+(dni cpand3_P0_P1 "cpand3 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpand3") (CPTYPE VECT) (CRET FIRST))
+ "cpand3 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x24) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpand3" pc crqp crpp)) )
+ ()
+ )
+
+; 00100101 10100 qqqqq ppppp ooooo cpor3 =crop,crqp,crpp (p0_1)
+(dni cpor3_P0_P1 "cpor3 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpor3") (CPTYPE VECT) (CRET FIRST))
+ "cpor3 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x25) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpor3" pc crqp crpp)) )
+ ()
+ )
+
+; 00100110 10100 qqqqq ppppp ooooo cpnor3 =crop,crqp,crpp (p0_1)
+(dni cpnor3_P0_P1 "cpnor3 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpnor3") (CPTYPE VECT) (CRET FIRST))
+ "cpnor3 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x26) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpnor3" pc crqp crpp)) )
+ ()
+ )
+
+; 00100111 10100 qqqqq ppppp ooooo cpxor3 =crop,crqp,crpp (p0_1)
+(dni cpxor3_P0_P1 "cpxor3 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpxor3") (CPTYPE VECT) (CRET FIRST))
+ "cpxor3 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x27) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpxor3" pc crqp crpp)) )
+ ()
+ )
+
+; 00101100 10100 qqqqq ppppp ooooo cppacku.b =crop,crqp,crpp (p0_1)
+(dni cppacku_b_P0_P1 "cppacku.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cppacku_b") (CPTYPE V8UQI) (CRET FIRST))
+ "cppacku.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x2c) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppacku_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00101101 10100 qqqqq ppppp ooooo cppack.b =crop,crqp,crpp (p0_1)
+(dni cppack_b_P0_P1 "cppack.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cppack_b") (CPTYPE V8QI) (CRET FIRST))
+ "cppack.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x2d) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppack_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00101111 10100 qqqqq ppppp ooooo cppack.h =crop,crqp,crpp (p0_1)
+(dni cppack_h_P0_P1 "cppack.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cppack_h") (CPTYPE V4HI) (CRET FIRST))
+ "cppack.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x2f) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppack_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00110000 10100 qqqqq ppppp ooooo cpmaxu3.b =crop,crqp,crpp (p0_1)
+(dni cpmaxu3_b_P0_P1 "cpmaxu3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmaxu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpmaxu3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x30) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmaxu3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00110001 10100 qqqqq ppppp ooooo cpmax3.b =crop,crqp,crpp (p0_1)
+(dni cpmax3_b_P0_P1 "cpmax3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmax3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpmax3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x31) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmax3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00110011 10100 qqqqq ppppp ooooo cpmax3.h =crop,crqp,crpp (p0_1)
+(dni cpmax3_h_P0_P1 "cpmax3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmax3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpmax3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x33) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmax3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00110100 10100 qqqqq ppppp ooooo cpmaxu3.w =crop,crqp,crpp (p0_1)
+(dni cpmaxu3_w_P0_P1 "cpmaxu3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmaxu3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpmaxu3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x34) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmaxu3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 00110101 10100 qqqqq ppppp ooooo cpmax3.w =crop,crqp,crpp (p0_1)
+(dni cpmax3_w_P0_P1 "cpmax3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmax3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpmax3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x35) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmax3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 00111000 10100 qqqqq ppppp ooooo cpminu3.b =crop,crqp,crpp (p0_1)
+(dni cpminu3_b_P0_P1 "cpminu3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpminu3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpminu3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x38) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpminu3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00111001 10100 qqqqq ppppp ooooo cpmin3.b =crop,crqp,crpp (p0_1)
+(dni cpmin3_b_P0_P1 "cpmin3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmin3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpmin3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x39) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmin3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 00111011 10100 qqqqq ppppp ooooo cpmin3.h =crop,crqp,crpp (p0_1)
+(dni cpmin3_h_P0_P1 "cpmin3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmin3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpmin3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3b) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmin3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 00111100 10100 qqqqq ppppp ooooo cpminu3.w =crop,crqp,crpp (p0_1)
+(dni cpminu3_w_P0_P1 "cpminu3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpminu3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpminu3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3c) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpminu3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 00111101 10100 qqqqq ppppp ooooo cpmin3.w =crop,crqp,crpp (p0_1)
+(dni cpmin3_w_P0_P1 "cpmin3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmin3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpmin3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3d) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmin3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 01000000 10100 qqqqq ppppp ooooo cpsrl3.b =crop,crqp,crpp (p0_1)
+(dni cpsrl3_b_P0_P1 "cpsrl3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsrl3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsrl3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x40) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsrl3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 01000001 10100 qqqqq ppppp ooooo cpssrl3.b =crop,crqp,crpp (p0_1)
+(dni cpssrl3_b_P0_P1 "cpssrl3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssrl3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpssrl3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x41) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpssrl3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 01000010 10100 qqqqq ppppp ooooo cpsrl3.h =crop,crqp,crpp (p0_1)
+(dni cpsrl3_h_P0_P1 "cpsrl3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsrl3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsrl3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x42) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsrl3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 01000011 10100 qqqqq ppppp ooooo cpssrl3.h =crop,crqp,crpp (p0_1)
+(dni cpssrl3_h_P0_P1 "cpssrl3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssrl3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpssrl3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x43) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpssrl3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 01000100 10100 qqqqq ppppp ooooo cpsrl3.w =crop,crqp,crpp (p0_1)
+(dni cpsrl3_w_P0_P1 "cpsrl3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsrl3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsrl3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x44) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsrl3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 01000101 10100 qqqqq ppppp ooooo cpssrl3.w =crop,crqp,crpp (p0_1)
+(dni cpssrl3_w_P0_P1 "cpssrl3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssrl3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpssrl3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x45) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpssrl3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 01000110 10100 qqqqq ppppp ooooo cdsrl3 =crop,crqp,crpp (p0_1)
+(dni cdsrl3_P0_P1 "cdsrl3 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdsrl3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsrl3 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x46) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdsrl3" pc crqp crpp)) )
+ ()
+ )
+
+; 01001000 10100 qqqqq ppppp ooooo cpsra3.b =crop,crqp,crpp (p0_1)
+(dni cpsra3_b_P0_P1 "cpsra3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsra3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsra3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x48) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsra3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 01001001 10100 qqqqq ppppp ooooo cpssra3.b =crop,crqp,crpp (p0_1)
+(dni cpssra3_b_P0_P1 "cpssra3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssra3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpssra3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x49) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpssra3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 01001010 10100 qqqqq ppppp ooooo cpsra3.h =crop,crqp,crpp (p0_1)
+(dni cpsra3_h_P0_P1 "cpsra3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsra3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsra3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x4a) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsra3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 01001011 10100 qqqqq ppppp ooooo cpssra3.h =crop,crqp,crpp (p0_1)
+(dni cpssra3_h_P0_P1 "cpssra3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssra3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpssra3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x4b) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpssra3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 01001100 10100 qqqqq ppppp ooooo cpsra3.w =crop,crqp,crpp (p0_1)
+(dni cpsra3_w_P0_P1 "cpsra3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsra3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsra3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x4c) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsra3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 01001101 10100 qqqqq ppppp ooooo cpssra3.w =crop,crqp,crpp (p0_1)
+(dni cpssra3_w_P0_P1 "cpssra3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssra3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpssra3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x4d) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpssra3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 01001110 10100 qqqqq ppppp ooooo cdsra3 =crop,crqp,crpp (p0_1)
+(dni cdsra3_P0_P1 "cdsra3 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdsra3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsra3 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x4e) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdsra3" pc crqp crpp)) )
+ ()
+ )
+
+; 01010000 10100 qqqqq ppppp ooooo cpsll3.b =crop,crqp,crpp (p0_1)
+(dni cpsll3_b_P0_P1 "cpsll3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsll3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsll3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x50) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsll3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 01010001 10100 qqqqq ppppp ooooo cpssll3.b =crop,crqp,crpp (p0_1)
+(dni cpssll3_b_P0_P1 "cpssll3.b $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssll3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpssll3.b $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x51) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpssll3_b" pc crqp crpp)) )
+ ()
+ )
+
+; 01010010 10100 qqqqq ppppp ooooo cpsll3.h =crop,crqp,crpp (p0_1)
+(dni cpsll3_h_P0_P1 "cpsll3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsll3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsll3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x52) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsll3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 01010011 10100 qqqqq ppppp ooooo cpssll3.h =crop,crqp,crpp (p0_1)
+(dni cpssll3_h_P0_P1 "cpssll3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssll3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpssll3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x53) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpssll3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 01010100 10100 qqqqq ppppp ooooo cpsll3.w =crop,crqp,crpp (p0_1)
+(dni cpsll3_w_P0_P1 "cpsll3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsll3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsll3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x54) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsll3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 01010101 10100 qqqqq ppppp ooooo cpssll3.w =crop,crqp,crpp (p0_1)
+(dni cpssll3_w_P0_P1 "cpssll3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpssll3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpssll3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x55) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpssll3_w" pc crqp crpp)) )
+ ()
+ )
+
+; 01010110 10100 qqqqq ppppp ooooo cdsll3 =crop,crqp,crpp (p0_1)
+(dni cdsll3_P0_P1 "cdsll3 $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdsll3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsll3 $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x56) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdsll3" pc crqp crpp)) )
+ ()
+ )
+
+; 01011010 10100 qqqqq ppppp ooooo cpsla3.h =crop,crqp,crpp (p0_1)
+(dni cpsla3_h_P0_P1 "cpsla3.h $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsla3_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpsla3.h $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x5a) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsla3_h" pc crqp crpp)) )
+ ()
+ )
+
+; 01011100 10100 qqqqq ppppp ooooo cpsla3.w =crop,crqp,crpp (p0_1)
+(dni cpsla3_w_P0_P1 "cpsla3.w $crop,$crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsla3_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpsla3.w $crop,$crqp,$crpp"
+ (+ (f-ivc2-8u0 #x5c) (f-ivc2-5u8 #x14) crqp crpp crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsla3_w" pc crqp crpp)) )
+ ()
+ )
+
+; xxxxxiii 10101 qqqqq 00000 ooooo cpsrli3.b =crop,crqp,imm3p5 (p0_1)
+(dni cpsrli3_b_P0_P1 "cpsrli3.b $crop,$crqp,imm3p5 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsrli3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsrli3.b $crop,$crqp,$imm3p5"
+ (+ ivc-x-0-5 imm3p5 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x0) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsrli3_b" pc crqp imm3p5)) )
+ ()
+ )
+
+; xxxxiiii 10101 qqqqq 00001 ooooo cpsrli3.h =crop,crqp,imm4p4 (p0_1)
+(dni cpsrli3_h_P0_P1 "cpsrli3.h $crop,$crqp,imm4p4 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsrli3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsrli3.h $crop,$crqp,$imm4p4"
+ (+ ivc-x-0-4 imm4p4 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x1) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsrli3_h" pc crqp imm4p4)) )
+ ()
+ )
+
+; xxxiiiii 10101 qqqqq 00010 ooooo cpsrli3.w =crop,crqp,imm5p3 (p0_1)
+(dni cpsrli3_w_P0_P1 "cpsrli3.w $crop,$crqp,imm5p3 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsrli3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsrli3.w $crop,$crqp,$imm5p3"
+ (+ ivc-x-0-3 imm5p3 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x2) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsrli3_w" pc crqp imm5p3)) )
+ ()
+ )
+
+; xxiiiiii 10101 qqqqq 00011 ooooo cdsrli3 =crop,crqp,imm6p2 (p0_1)
+(dni cdsrli3_P0_P1 "cdsrli3 $crop,$crqp,imm6p2 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdsrli3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsrli3 $crop,$crqp,$imm6p2"
+ (+ ivc-x-0-2 imm6p2 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x3) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdsrli3" pc crqp imm6p2)) )
+ ()
+ )
+
+; xxxxxiii 10101 qqqqq 00100 ooooo cpsrai3.b =crop,crqp,imm3p5 (p0_1)
+(dni cpsrai3_b_P0_P1 "cpsrai3.b $crop,$crqp,imm3p5 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsrai3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpsrai3.b $crop,$crqp,$imm3p5"
+ (+ ivc-x-0-5 imm3p5 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x4) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsrai3_b" pc crqp imm3p5)) )
+ ()
+ )
+
+; xxxxiiii 10101 qqqqq 00101 ooooo cpsrai3.h =crop,crqp,imm4p4 (p0_1)
+(dni cpsrai3_h_P0_P1 "cpsrai3.h $crop,$crqp,imm4p4 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsrai3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpsrai3.h $crop,$crqp,$imm4p4"
+ (+ ivc-x-0-4 imm4p4 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x5) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsrai3_h" pc crqp imm4p4)) )
+ ()
+ )
+
+; xxxiiiii 10101 qqqqq 00110 ooooo cpsrai3.w =crop,crqp,imm5p3 (p0_1)
+(dni cpsrai3_w_P0_P1 "cpsrai3.w $crop,$crqp,imm5p3 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpsrai3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpsrai3.w $crop,$crqp,$imm5p3"
+ (+ ivc-x-0-3 imm5p3 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x6) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpsrai3_w" pc crqp imm5p3)) )
+ ()
+ )
+
+; xxiiiiii 10101 qqqqq 00111 ooooo cdsrai3 =crop,crqp,imm6p2 (p0_1)
+(dni cdsrai3_P0_P1 "cdsrai3 $crop,$crqp,imm6p2 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdsrai3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdsrai3 $crop,$crqp,$imm6p2"
+ (+ ivc-x-0-2 imm6p2 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x7) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdsrai3" pc crqp imm6p2)) )
+ ()
+ )
+
+; xxxxxiii 10101 qqqqq 01000 ooooo cpslli3.b =crop,crqp,imm3p5 (p0_1)
+(dni cpslli3_b_P0_P1 "cpslli3.b $crop,$crqp,imm3p5 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpslli3_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpslli3.b $crop,$crqp,$imm3p5"
+ (+ ivc-x-0-5 imm3p5 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x8) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpslli3_b" pc crqp imm3p5)) )
+ ()
+ )
+
+; xxxxiiii 10101 qqqqq 01001 ooooo cpslli3.h =crop,crqp,imm4p4 (p0_1)
+(dni cpslli3_h_P0_P1 "cpslli3.h $crop,$crqp,imm4p4 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpslli3_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpslli3.h $crop,$crqp,$imm4p4"
+ (+ ivc-x-0-4 imm4p4 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x9) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpslli3_h" pc crqp imm4p4)) )
+ ()
+ )
+
+; xxxiiiii 10101 qqqqq 01010 ooooo cpslli3.w =crop,crqp,imm5p3 (p0_1)
+(dni cpslli3_w_P0_P1 "cpslli3.w $crop,$crqp,imm5p3 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpslli3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpslli3.w $crop,$crqp,$imm5p3"
+ (+ ivc-x-0-3 imm5p3 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #xa) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpslli3_w" pc crqp imm5p3)) )
+ ()
+ )
+
+; xxiiiiii 10101 qqqqq 01011 ooooo cdslli3 =crop,crqp,imm6p2 (p0_1)
+(dni cdslli3_P0_P1 "cdslli3 $crop,$crqp,imm6p2 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdslli3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdslli3 $crop,$crqp,$imm6p2"
+ (+ ivc-x-0-2 imm6p2 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #xb) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdslli3" pc crqp imm6p2)) )
+ ()
+ )
+
+; xxxxiiii 10101 qqqqq 01101 ooooo cpslai3.h =crop,crqp,imm4p4 (p0_1)
+(dni cpslai3_h_P0_P1 "cpslai3.h $crop,$crqp,imm4p4 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpslai3_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpslai3.h $crop,$crqp,$imm4p4"
+ (+ ivc-x-0-4 imm4p4 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #xd) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpslai3_h" pc crqp imm4p4)) )
+ ()
+ )
+
+; xxxiiiii 10101 qqqqq 01110 ooooo cpslai3.w =crop,crqp,imm5p3 (p0_1)
+(dni cpslai3_w_P0_P1 "cpslai3.w $crop,$crqp,imm5p3 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpslai3_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpslai3.w $crop,$crqp,$imm5p3"
+ (+ ivc-x-0-3 imm5p3 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #xe) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpslai3_w" pc crqp imm5p3)) )
+ ()
+ )
+
+; xxxiiiii 10101 qqqqq 10000 ooooo cpclipiu3.w =crop,crqp,imm5p3 (p0_1)
+(dni cpclipiu3_w_P0_P1 "cpclipiu3.w $crop,$crqp,imm5p3 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpclipiu3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpclipiu3.w $crop,$crqp,$imm5p3"
+ (+ ivc-x-0-3 imm5p3 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x10) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpclipiu3_w" pc crqp imm5p3)) )
+ ()
+ )
+
+; xxxiiiii 10101 qqqqq 10001 ooooo cpclipi3.w =crop,crqp,imm5p3 (p0_1)
+(dni cpclipi3_w_P0_P1 "cpclipi3.w $crop,$crqp,imm5p3 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpclipi3_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpclipi3.w $crop,$crqp,$imm5p3"
+ (+ ivc-x-0-3 imm5p3 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x11) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpclipi3_w" pc crqp imm5p3)) )
+ ()
+ )
+
+; xxiiiiii 10101 qqqqq 10010 ooooo cdclipiu3 =crop,crqp,imm6p2 (p0_1)
+(dni cdclipiu3_P0_P1 "cdclipiu3 $crop,$crqp,imm6p2 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdclipiu3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdclipiu3 $crop,$crqp,$imm6p2"
+ (+ ivc-x-0-2 imm6p2 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x12) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdclipiu3" pc crqp imm6p2)) )
+ ()
+ )
+
+; xxiiiiii 10101 qqqqq 10011 ooooo cdclipi3 =crop,crqp,imm6p2 (p0_1)
+(dni cdclipi3_P0_P1 "cdclipi3 $crop,$crqp,imm6p2 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdclipi3") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdclipi3 $crop,$crqp,$imm6p2"
+ (+ ivc-x-0-2 imm6p2 (f-ivc2-5u8 #x15) crqp (f-ivc2-5u18 #x13) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cdclipi3" pc crqp imm6p2)) )
+ ()
+ )
+
+; iiiiiiii 10110 qqqqq 01iii iiiii cpmovi.h =crqp,simm16p0 (p0_i)
+(dni cpmovi_h_P0_P1 "cpmovi.h $crqp,simm16p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmovi_h") (CPTYPE V4HI) (CRET FIRST))
+ "cpmovi.h $crqp,$simm16p0"
+ (+ (f-ivc2-5u8 #x16) crqp (f-ivc2-2u18 #x1) simm16p0(f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqp (c-call DI "ivc2_cpmovi_h16" pc simm16p0)) )
+ ()
+ )
+
+; iiiiiiii 10111 qqqqq 00iii iiiii cpmoviu.w =crqp,imm16p0 (p0_i)
+(dni cpmoviu_w_P0_P1 "cpmoviu.w $crqp,imm16p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmoviu_w") (CPTYPE V2USI) (CRET FIRST))
+ "cpmoviu.w $crqp,$imm16p0"
+ (+ (f-ivc2-5u8 #x17) crqp (f-ivc2-2u18 #x0) imm16p0(f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqp (c-call DI "ivc2_cpmoviu_w16" pc imm16p0)) )
+ ()
+ )
+
+; iiiiiiii 10111 qqqqq 01iii iiiii cpmovi.w =crqp,simm16p0 (p0_i)
+(dni cpmovi_w_P0_P1 "cpmovi.w $crqp,simm16p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cpmovi_w") (CPTYPE V2SI) (CRET FIRST))
+ "cpmovi.w $crqp,$simm16p0"
+ (+ (f-ivc2-5u8 #x17) crqp (f-ivc2-2u18 #x1) simm16p0(f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqp (c-call DI "ivc2_cpmovi_w16" pc simm16p0)) )
+ ()
+ )
+
+; iiiiiiii 10111 qqqqq 10iii iiiii cdmoviu =crqp,imm16p0 (p0_i)
+(dni cdmoviu_P0_P1 "cdmoviu $crqp,imm16p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdmoviu") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdmoviu $crqp,$imm16p0"
+ (+ (f-ivc2-5u8 #x17) crqp (f-ivc2-2u18 #x2) imm16p0(f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqp (c-call DI "ivc2_cdmoviu16" pc imm16p0)) )
+ ()
+ )
+
+; iiiiiiii 10111 qqqqq 11iii iiiii cdmovi =crqp,simm16p0 (p0_i)
+(dni cdmovi_P0_P1 "cdmovi $crqp,simm16p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0-p1-isa (SLOTS P0,P1) (INTRINSIC "cdmovi") (CPTYPE CP_DATA_BUS_INT) (CRET FIRST))
+ "cdmovi $crqp,$simm16p0"
+ (+ (f-ivc2-5u8 #x17) crqp (f-ivc2-2u18 #x3) simm16p0(f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqp (c-call DI "ivc2_cdmovi16" pc simm16p0)) )
+ ()
+ )
+
+; 00000000 00000 00000 00000 00000 c1nop (p0_1)
+(dni c1nop_P1 "c1nop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "c1nop"))
+ "c1nop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x0) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x0) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (c-call "ivc2_c1nop" pc) )
+ ()
+ )
+
+; 00000000 10110 qqqqq 00iii iiiii cpmovi.b =crqp,simm8p20 (p0_i)
+(dni cpmovi_b_P0S_P1 "cpmovi.b $crqp,simm8p20 Pn"
+ (OPTIONAL_CP_INSN ivc2-p0s-p1-isa (SLOTS P0S,P1) (INTRINSIC "cpmovi_b") (CPTYPE V8QI) (CRET FIRST))
+ "cpmovi.b $crqp,$simm8p20"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x16) crqp (f-ivc2-2u18 #x0) imm8p20(f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crqp (c-call DI "ivc2_cpmovi_b" pc simm8p20)) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 00000 cpadda1u.b crqp,crpp (p0_1)
+(dni cpadda1u_b_P1 "cpadda1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpadda1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpadda1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpadda1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 00001 cpadda1.b crqp,crpp (p0_1)
+(dni cpadda1_b_P1 "cpadda1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpadda1_b") (CPTYPE V8QI) VOLATILE)
+ "cpadda1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x1) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpadda1_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 00010 cpaddua1.h crqp,crpp (p0_1)
+(dni cpaddua1_h_P1 "cpaddua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpaddua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x2) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpaddua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 00011 cpaddla1.h crqp,crpp (p0_1)
+(dni cpaddla1_h_P1 "cpaddla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpaddla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x3) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpaddla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 00100 cpaddaca1u.b crqp,crpp (p0_1)
+(dni cpaddaca1u_b_P1 "cpaddaca1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpaddaca1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpaddaca1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x4) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpaddaca1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 00101 cpaddaca1.b crqp,crpp (p0_1)
+(dni cpaddaca1_b_P1 "cpaddaca1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpaddaca1_b") (CPTYPE V8QI) VOLATILE)
+ "cpaddaca1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x5) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpaddaca1_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 00110 cpaddacua1.h crqp,crpp (p0_1)
+(dni cpaddacua1_h_P1 "cpaddacua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpaddacua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddacua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x6) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpaddacua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 00111 cpaddacla1.h crqp,crpp (p0_1)
+(dni cpaddacla1_h_P1 "cpaddacla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpaddacla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpaddacla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x7) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpaddacla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 01000 cpsuba1u.b crqp,crpp (p0_1)
+(dni cpsuba1u_b_P1 "cpsuba1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsuba1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpsuba1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x8) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsuba1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 01001 cpsuba1.b crqp,crpp (p0_1)
+(dni cpsuba1_b_P1 "cpsuba1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsuba1_b") (CPTYPE V8QI) VOLATILE)
+ "cpsuba1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x9) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsuba1_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 01010 cpsubua1.h crqp,crpp (p0_1)
+(dni cpsubua1_h_P1 "cpsubua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsubua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xa) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsubua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 01011 cpsubla1.h crqp,crpp (p0_1)
+(dni cpsubla1_h_P1 "cpsubla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsubla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xb) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpsubla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 01100 cpsubaca1u.b crqp,crpp (p0_1)
+(dni cpsubaca1u_b_P1 "cpsubaca1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsubaca1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpsubaca1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xc) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsubaca1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 01101 cpsubaca1.b crqp,crpp (p0_1)
+(dni cpsubaca1_b_P1 "cpsubaca1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsubaca1_b") (CPTYPE V8QI) VOLATILE)
+ "cpsubaca1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xd) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsubaca1_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 01110 cpsubacua1.h crqp,crpp (p0_1)
+(dni cpsubacua1_h_P1 "cpsubacua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsubacua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubacua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xe) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsubacua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 01111 cpsubacla1.h crqp,crpp (p0_1)
+(dni cpsubacla1_h_P1 "cpsubacla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsubacla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsubacla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #xf) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsubacla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 10000 cpabsa1u.b crqp,crpp (p0_1)
+(dni cpabsa1u_b_P1 "cpabsa1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpabsa1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpabsa1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x10) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpabsa1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 10001 cpabsa1.b crqp,crpp (p0_1)
+(dni cpabsa1_b_P1 "cpabsa1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpabsa1_b") (CPTYPE V8QI) VOLATILE)
+ "cpabsa1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x11) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpabsa1_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 10010 cpabsua1.h crqp,crpp (p0_1)
+(dni cpabsua1_h_P1 "cpabsua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpabsua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpabsua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x12) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpabsua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 10011 cpabsla1.h crqp,crpp (p0_1)
+(dni cpabsla1_h_P1 "cpabsla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpabsla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpabsla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x13) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpabsla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 10100 cpsada1u.b crqp,crpp (p0_1)
+(dni cpsada1u_b_P1 "cpsada1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsada1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpsada1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x14) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsada1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 10101 cpsada1.b crqp,crpp (p0_1)
+(dni cpsada1_b_P1 "cpsada1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsada1_b") (CPTYPE V8QI) VOLATILE)
+ "cpsada1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x15) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsada1_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 10110 cpsadua1.h crqp,crpp (p0_1)
+(dni cpsadua1_h_P1 "cpsadua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsadua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsadua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x16) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsadua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 10111 cpsadla1.h crqp,crpp (p0_1)
+(dni cpsadla1_h_P1 "cpsadla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsadla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsadla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x17) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsadla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 11011 cpseta1.h crqp,crpp (p0_1)
+(dni cpseta1_h_P1 "cpseta1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpseta1_h") (CPTYPE V4HI) VOLATILE)
+ "cpseta1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x1b) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpseta1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 11100 cpsetua1.w crqp,crpp (p0_1)
+(dni cpsetua1_w_P1 "cpsetua1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsetua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsetua1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x1c) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsetua1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11000 qqqqq ppppp 11101 cpsetla1.w crqp,crpp (p0_1)
+(dni cpsetla1_w_P1 "cpsetla1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsetla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsetla1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x18) crqp crpp (f-ivc2-5u23 #x1d) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpsetla1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11001 00000 00001 ooooo cpmova1.b =crop (p0_1)
+(dni cpmova1_b_P1 "cpmova1.b $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmova1_b") (CPTYPE V8QI) (CRET FIRST) VOLATILE)
+ "cpmova1.b $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x1) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmova1_b" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 00010 ooooo cpmovua1.h =crop (p0_1)
+(dni cpmovua1_h_P1 "cpmovua1.h $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmovua1_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpmovua1.h $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x2) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovua1_h" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 00011 ooooo cpmovla1.h =crop (p0_1)
+(dni cpmovla1_h_P1 "cpmovla1.h $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmovla1_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cpmovla1.h $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x3) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovla1_h" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 00100 ooooo cpmovuua1.w =crop (p0_1)
+(dni cpmovuua1_w_P1 "cpmovuua1.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmovuua1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovuua1.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x4) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovuua1_w" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 00101 ooooo cpmovula1.w =crop (p0_1)
+(dni cpmovula1_w_P1 "cpmovula1.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmovula1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovula1.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x5) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovula1_w" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 00110 ooooo cpmovlua1.w =crop (p0_1)
+(dni cpmovlua1_w_P1 "cpmovlua1.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmovlua1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovlua1.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x6) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovlua1_w" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 00111 ooooo cpmovlla1.w =crop (p0_1)
+(dni cpmovlla1_w_P1 "cpmovlla1.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmovlla1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovlla1.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x7) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovlla1_w" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 01000 ooooo cppacka1u.b =crop (p0_1)
+(dni cppacka1u_b_P1 "cppacka1u.b $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cppacka1u_b") (CPTYPE V8UQI) (CRET FIRST) VOLATILE)
+ "cppacka1u.b $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x8) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppacka1u_b" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 01001 ooooo cppacka1.b =crop (p0_1)
+(dni cppacka1_b_P1 "cppacka1.b $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cppacka1_b") (CPTYPE V8QI) (CRET FIRST) VOLATILE)
+ "cppacka1.b $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x9) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppacka1_b" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 01010 ooooo cppackua1.h =crop (p0_1)
+(dni cppackua1_h_P1 "cppackua1.h $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cppackua1_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cppackua1.h $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xa) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppackua1_h" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 01011 ooooo cppackla1.h =crop (p0_1)
+(dni cppackla1_h_P1 "cppackla1.h $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cppackla1_h") (CPTYPE V4HI) (CRET FIRST) VOLATILE)
+ "cppackla1.h $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xb) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppackla1_h" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 01100 ooooo cppackua1.w =crop (p0_1)
+(dni cppackua1_w_P1 "cppackua1.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cppackua1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cppackua1.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xc) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppackua1_w" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 01101 ooooo cppackla1.w =crop (p0_1)
+(dni cppackla1_w_P1 "cppackla1.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cppackla1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cppackla1.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xd) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cppackla1_w" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 01110 ooooo cpmovhua1.w =crop (p0_1)
+(dni cpmovhua1_w_P1 "cpmovhua1.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmovhua1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovhua1.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xe) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovhua1_w" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 01111 ooooo cpmovhla1.w =crop (p0_1)
+(dni cpmovhla1_w_P1 "cpmovhla1.w $crop Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmovhla1_w") (CPTYPE V2SI) (CRET FIRST) VOLATILE)
+ "cpmovhla1.w $crop"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #xf) crop (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set crop (c-call DI "ivc2_cpmovhla1_w" pc)) )
+ ()
+ )
+
+; 00000000 11001 00000 10000 00000 cpacsuma1 (p0_1)
+(dni cpacsuma1_P1 "cpacsuma1 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpacsuma1") VOLATILE)
+ "cpacsuma1"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x10) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpacsuma1" pc) )
+ ()
+ )
+
+; 00000000 11001 00000 10001 00000 cpaccpa1 (p0_1)
+(dni cpaccpa1_P1 "cpaccpa1 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpaccpa1") VOLATILE)
+ "cpaccpa1"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x11) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpaccpa1" pc) )
+ ()
+ )
+
+; 00000000 11001 00000 10010 00000 cpacswp (p0_1)
+(dni cpacswp_P1 "cpacswp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpacswp") VOLATILE)
+ "cpacswp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x12) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc0_0 0)
+ (set ivc2_acc0_1 0)
+ (set ivc2_acc0_2 0)
+ (set ivc2_acc0_3 0)
+ (set ivc2_acc0_4 0)
+ (set ivc2_acc0_5 0)
+ (set ivc2_acc0_6 0)
+ (set ivc2_acc0_7 0)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpacswp" pc) )
+ ()
+ )
+
+; 00000000 11001 qqqqq 11000 00000 cpsrla1 crqp (p0_1)
+(dni cpsrla1_P1 "cpsrla1 $crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsrla1") VOLATILE)
+ "cpsrla1 $crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) crqp (f-ivc2-5u18 #x18) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsrla1" pc crqp) )
+ ()
+ )
+
+; 00000000 11001 qqqqq 11001 00000 cpsraa1 crqp (p0_1)
+(dni cpsraa1_P1 "cpsraa1 $crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsraa1") VOLATILE)
+ "cpsraa1 $crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) crqp (f-ivc2-5u18 #x19) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsraa1" pc crqp) )
+ ()
+ )
+
+; 00000000 11001 qqqqq 11010 00000 cpslla1 crqp (p0_1)
+(dni cpslla1_P1 "cpslla1 $crqp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpslla1") VOLATILE)
+ "cpslla1 $crqp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) crqp (f-ivc2-5u18 #x1a) (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpslla1" pc crqp) )
+ ()
+ )
+
+; 00000000 11001 00000 11100 iiiii cpsrlia1 imm5p23 (p0_1)
+(dni cpsrlia1_1_p1 "cpsrlia1 imm5p23 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsrlia1") VOLATILE)
+ "cpsrlia1 $imm5p23"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x1c) imm5p23 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsrlia1" pc imm5p23) )
+ ()
+ )
+
+; 00000000 11001 00000 11101 iiiii cpsraia1 imm5p23 (p0_1)
+(dni cpsraia1_1_p1 "cpsraia1 imm5p23 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsraia1") VOLATILE)
+ "cpsraia1 $imm5p23"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x1d) imm5p23 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsraia1" pc imm5p23) )
+ ()
+ )
+
+; 00000000 11001 00000 11110 iiiii cpsllia1 imm5p23 (p0_1)
+(dni cpsllia1_1_p1 "cpsllia1 imm5p23 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsllia1") VOLATILE)
+ "cpsllia1 $imm5p23"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x19) (f-ivc2-5u13 #x0) (f-ivc2-5u18 #x1e) imm5p23 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpsllia1" pc imm5p23) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 00000 cpfmulia1s0u.b crqp,crpp,simm8p0 (p0_1)
+(dni cpfmulia1s0u_b_P1 "cpfmulia1s0u.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmulia1s0u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpfmulia1s0u.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpfmulia1s0u_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 00001 cpfmulia1s0.b crqp,crpp,simm8p0 (p0_1)
+(dni cpfmulia1s0_b_P1 "cpfmulia1s0.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmulia1s0_b") (CPTYPE V8QI) VOLATILE)
+ "cpfmulia1s0.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x1) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpfmulia1s0_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 00010 cpfmuliua1s0.h crqp,crpp,simm8p0 (p0_1)
+(dni cpfmuliua1s0_h_P1 "cpfmuliua1s0.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmuliua1s0_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmuliua1s0.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x2) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpfmuliua1s0_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 00011 cpfmulila1s0.h crqp,crpp,simm8p0 (p0_1)
+(dni cpfmulila1s0_h_P1 "cpfmulila1s0.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmulila1s0_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmulila1s0.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x3) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpfmulila1s0_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 00100 cpfmadia1s0u.b crqp,crpp,simm8p0 (p0_1)
+(dni cpfmadia1s0u_b_P1 "cpfmadia1s0u.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadia1s0u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpfmadia1s0u.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x4) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadia1s0u_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 00101 cpfmadia1s0.b crqp,crpp,simm8p0 (p0_1)
+(dni cpfmadia1s0_b_P1 "cpfmadia1s0.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadia1s0_b") (CPTYPE V8QI) VOLATILE)
+ "cpfmadia1s0.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x5) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadia1s0_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 00110 cpfmadiua1s0.h crqp,crpp,simm8p0 (p0_1)
+(dni cpfmadiua1s0_h_P1 "cpfmadiua1s0.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadiua1s0_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmadiua1s0.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x6) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadiua1s0_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 00111 cpfmadila1s0.h crqp,crpp,simm8p0 (p0_1)
+(dni cpfmadila1s0_h_P1 "cpfmadila1s0.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadila1s0_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmadila1s0.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x7) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadila1s0_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 01000 cpfmulia1s1u.b crqp,crpp,simm8p0 (p0_1)
+(dni cpfmulia1s1u_b_P1 "cpfmulia1s1u.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmulia1s1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpfmulia1s1u.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x8) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpfmulia1s1u_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 01001 cpfmulia1s1.b crqp,crpp,simm8p0 (p0_1)
+(dni cpfmulia1s1_b_P1 "cpfmulia1s1.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmulia1s1_b") (CPTYPE V8QI) VOLATILE)
+ "cpfmulia1s1.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x9) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpfmulia1s1_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 01010 cpfmuliua1s1.h crqp,crpp,simm8p0 (p0_1)
+(dni cpfmuliua1s1_h_P1 "cpfmuliua1s1.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmuliua1s1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmuliua1s1.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xa) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpfmuliua1s1_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 01011 cpfmulila1s1.h crqp,crpp,simm8p0 (p0_1)
+(dni cpfmulila1s1_h_P1 "cpfmulila1s1.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmulila1s1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmulila1s1.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xb) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpfmulila1s1_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 01100 cpfmadia1s1u.b crqp,crpp,simm8p0 (p0_1)
+(dni cpfmadia1s1u_b_P1 "cpfmadia1s1u.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadia1s1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpfmadia1s1u.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xc) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadia1s1u_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 01101 cpfmadia1s1.b crqp,crpp,simm8p0 (p0_1)
+(dni cpfmadia1s1_b_P1 "cpfmadia1s1.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadia1s1_b") (CPTYPE V8QI) VOLATILE)
+ "cpfmadia1s1.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xd) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadia1s1_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 01110 cpfmadiua1s1.h crqp,crpp,simm8p0 (p0_1)
+(dni cpfmadiua1s1_h_P1 "cpfmadiua1s1.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadiua1s1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmadiua1s1.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xe) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadiua1s1_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 01111 cpfmadila1s1.h crqp,crpp,simm8p0 (p0_1)
+(dni cpfmadila1s1_h_P1 "cpfmadila1s1.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadila1s1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmadila1s1.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #xf) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadila1s1_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 10000 cpamulia1u.b crqp,crpp,simm8p0 (p0_1)
+(dni cpamulia1u_b_P1 "cpamulia1u.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpamulia1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpamulia1u.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x10) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpamulia1u_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 10001 cpamulia1.b crqp,crpp,simm8p0 (p0_1)
+(dni cpamulia1_b_P1 "cpamulia1.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpamulia1_b") (CPTYPE V8QI) VOLATILE)
+ "cpamulia1.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x11) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpamulia1_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 10010 cpamuliua1.h crqp,crpp,simm8p0 (p0_1)
+(dni cpamuliua1_h_P1 "cpamuliua1.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpamuliua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpamuliua1.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x12) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpamuliua1_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 10011 cpamulila1.h crqp,crpp,simm8p0 (p0_1)
+(dni cpamulila1_h_P1 "cpamulila1.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpamulila1_h") (CPTYPE V4HI) VOLATILE)
+ "cpamulila1.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x13) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpamulila1_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 10100 cpamadia1u.b crqp,crpp,simm8p0 (p0_1)
+(dni cpamadia1u_b_P1 "cpamadia1u.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpamadia1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpamadia1u.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x14) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpamadia1u_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 10101 cpamadia1.b crqp,crpp,simm8p0 (p0_1)
+(dni cpamadia1_b_P1 "cpamadia1.b $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpamadia1_b") (CPTYPE V8QI) VOLATILE)
+ "cpamadia1.b $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x15) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpamadia1_b" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 10110 cpamadiua1.h crqp,crpp,simm8p0 (p0_1)
+(dni cpamadiua1_h_P1 "cpamadiua1.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpamadiua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpamadiua1.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x16) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpamadiua1_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11111 qqqqq ppppp 10111 cpamadila1.h crqp,crpp,simm8p0 (p0_1)
+(dni cpamadila1_h_P1 "cpamadila1.h $crqp,$crpp,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpamadila1_h") (CPTYPE V4HI) VOLATILE)
+ "cpamadila1.h $crqp,$crpp,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1f) crqp crpp (f-ivc2-5u23 #x17) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpamadila1_h" pc crqp crpp simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11100 qqqqq ppppp 00 III cpfmulia1u.b crqp,crpp,imm3p25,simm8p0 (cpfm)
+(dni cpfmulia1u_b_P1 "cpfmulia1u.b $crqp,$crpp,imm3p25,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmulia1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpfmulia1u.b $crqp,$crpp,$imm3p25,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1c) crqp crpp (f-ivc2-2u23 #x0) imm3p25 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpfmulia1u_b" pc crqp crpp imm3p25 simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11100 qqqqq ppppp 01 III cpfmulia1.b crqp,crpp,imm3p25,simm8p0 (cpfm)
+(dni cpfmulia1_b_P1 "cpfmulia1.b $crqp,$crpp,imm3p25,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmulia1_b") (CPTYPE V8QI) VOLATILE)
+ "cpfmulia1.b $crqp,$crpp,$imm3p25,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1c) crqp crpp (f-ivc2-2u23 #x1) imm3p25 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpfmulia1_b" pc crqp crpp imm3p25 simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11100 qqqqq ppppp 10 III cpfmuliua1.h crqp,crpp,imm3p25,simm8p0 (cpfm)
+(dni cpfmuliua1_h_P1 "cpfmuliua1.h $crqp,$crpp,imm3p25,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmuliua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmuliua1.h $crqp,$crpp,$imm3p25,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1c) crqp crpp (f-ivc2-2u23 #x2) imm3p25 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpfmuliua1_h" pc crqp crpp imm3p25 simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11100 qqqqq ppppp 11 III cpfmulila1.h crqp,crpp,imm3p25,simm8p0 (cpfm)
+(dni cpfmulila1_h_P1 "cpfmulila1.h $crqp,$crpp,imm3p25,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmulila1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmulila1.h $crqp,$crpp,$imm3p25,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1c) crqp crpp (f-ivc2-2u23 #x3) imm3p25 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpfmulila1_h" pc crqp crpp imm3p25 simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11101 qqqqq ppppp 00 III cpfmadia1u.b crqp,crpp,imm3p25,simm8p0 (cpfm)
+(dni cpfmadia1u_b_P1 "cpfmadia1u.b $crqp,$crpp,imm3p25,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadia1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpfmadia1u.b $crqp,$crpp,$imm3p25,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1d) crqp crpp (f-ivc2-2u23 #x0) imm3p25 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadia1u_b" pc crqp crpp imm3p25 simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11101 qqqqq ppppp 01 III cpfmadia1.b crqp,crpp,imm3p25,simm8p0 (cpfm)
+(dni cpfmadia1_b_P1 "cpfmadia1.b $crqp,$crpp,imm3p25,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadia1_b") (CPTYPE V8QI) VOLATILE)
+ "cpfmadia1.b $crqp,$crpp,$imm3p25,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1d) crqp crpp (f-ivc2-2u23 #x1) imm3p25 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadia1_b" pc crqp crpp imm3p25 simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11101 qqqqq ppppp 10 III cpfmadiua1.h crqp,crpp,imm3p25,simm8p0 (cpfm)
+(dni cpfmadiua1_h_P1 "cpfmadiua1.h $crqp,$crpp,imm3p25,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadiua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmadiua1.h $crqp,$crpp,$imm3p25,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1d) crqp crpp (f-ivc2-2u23 #x2) imm3p25 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadiua1_h" pc crqp crpp imm3p25 simm8p0) )
+ ()
+ )
+
+; iiiiiiii 11101 qqqqq ppppp 11 III cpfmadila1.h crqp,crpp,imm3p25,simm8p0 (cpfm)
+(dni cpfmadila1_h_P1 "cpfmadila1.h $crqp,$crpp,imm3p25,simm8p0 Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpfmadila1_h") (CPTYPE V4HI) VOLATILE)
+ "cpfmadila1.h $crqp,$crpp,$imm3p25,$simm8p0"
+ (+ simm8p0 (f-ivc2-5u8 #x1d) crqp crpp (f-ivc2-2u23 #x3) imm3p25 (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpfmadila1_h" pc crqp crpp imm3p25 simm8p0) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 00000 cpssqa1u.b crqp,crpp (p0_1)
+(dni cpssqa1u_b_P1 "cpssqa1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpssqa1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpssqa1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x0) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpssqa1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 00001 cpssqa1.b crqp,crpp (p0_1)
+(dni cpssqa1_b_P1 "cpssqa1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpssqa1_b") (CPTYPE V8QI) VOLATILE)
+ "cpssqa1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpssqa1_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 00100 cpssda1u.b crqp,crpp (p0_1)
+(dni cpssda1u_b_P1 "cpssda1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpssda1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpssda1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x4) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpssda1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 00101 cpssda1.b crqp,crpp (p0_1)
+(dni cpssda1_b_P1 "cpssda1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpssda1_b") (CPTYPE V8QI) VOLATILE)
+ "cpssda1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x5) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpssda1_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 01000 cpmula1u.b crqp,crpp (p0_1)
+(dni cpmula1u_b_P1 "cpmula1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmula1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpmula1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x8) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpmula1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 01001 cpmula1.b crqp,crpp (p0_1)
+(dni cpmula1_b_P1 "cpmula1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmula1_b") (CPTYPE V8QI) VOLATILE)
+ "cpmula1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x9) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpmula1_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 01010 cpmulua1.h crqp,crpp (p0_1)
+(dni cpmulua1_h_P1 "cpmulua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmulua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmulua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #xa) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpmulua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 01011 cpmulla1.h crqp,crpp (p0_1)
+(dni cpmulla1_h_P1 "cpmulla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmulla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmulla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #xb) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpmulla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 01100 cpmulua1u.w crqp,crpp (p0_1)
+(dni cpmulua1u_w_P1 "cpmulua1u.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmulua1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmulua1u.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #xc) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpmulua1u_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 01101 cpmulla1u.w crqp,crpp (p0_1)
+(dni cpmulla1u_w_P1 "cpmulla1u.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmulla1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmulla1u.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #xd) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpmulla1u_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 01110 cpmulua1.w crqp,crpp (p0_1)
+(dni cpmulua1_w_P1 "cpmulua1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmulua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmulua1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #xe) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (c-call "ivc2_cpmulua1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 01111 cpmulla1.w crqp,crpp (p0_1)
+(dni cpmulla1_w_P1 "cpmulla1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmulla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmulla1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #xf) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (c-call "ivc2_cpmulla1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 10000 cpmada1u.b crqp,crpp (p0_1)
+(dni cpmada1u_b_P1 "cpmada1u.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmada1u_b") (CPTYPE V8UQI) VOLATILE)
+ "cpmada1u.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x10) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmada1u_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 10001 cpmada1.b crqp,crpp (p0_1)
+(dni cpmada1_b_P1 "cpmada1.b $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmada1_b") (CPTYPE V8QI) VOLATILE)
+ "cpmada1.b $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x11) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmada1_b" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 10010 cpmadua1.h crqp,crpp (p0_1)
+(dni cpmadua1_h_P1 "cpmadua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmadua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmadua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x12) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 10011 cpmadla1.h crqp,crpp (p0_1)
+(dni cpmadla1_h_P1 "cpmadla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmadla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmadla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x13) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 10100 cpmadua1u.w crqp,crpp (p0_1)
+(dni cpmadua1u_w_P1 "cpmadua1u.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmadua1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmadua1u.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x14) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadua1u_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 10101 cpmadla1u.w crqp,crpp (p0_1)
+(dni cpmadla1u_w_P1 "cpmadla1u.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmadla1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmadla1u.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x15) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadla1u_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 10110 cpmadua1.w crqp,crpp (p0_1)
+(dni cpmadua1_w_P1 "cpmadua1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmadua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmadua1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x16) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadua1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 10111 cpmadla1.w crqp,crpp (p0_1)
+(dni cpmadla1_w_P1 "cpmadla1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmadla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmadla1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x17) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmadla1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 11010 cpmsbua1.h crqp,crpp (p0_1)
+(dni cpmsbua1_h_P1 "cpmsbua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmsbua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmsbua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1a) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 11011 cpmsbla1.h crqp,crpp (p0_1)
+(dni cpmsbla1_h_P1 "cpmsbla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmsbla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmsbla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1b) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 11100 cpmsbua1u.w crqp,crpp (p0_1)
+(dni cpmsbua1u_w_P1 "cpmsbua1u.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmsbua1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmsbua1u.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1c) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbua1u_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 11101 cpmsbla1u.w crqp,crpp (p0_1)
+(dni cpmsbla1u_w_P1 "cpmsbla1u.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmsbla1u_w") (CPTYPE V2USI) VOLATILE)
+ "cpmsbla1u.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1d) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbla1u_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 11110 cpmsbua1.w crqp,crpp (p0_1)
+(dni cpmsbua1_w_P1 "cpmsbua1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmsbua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmsbua1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1e) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbua1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000000 11110 qqqqq ppppp 11111 cpmsbla1.w crqp,crpp (p0_1)
+(dni cpmsbla1_w_P1 "cpmsbla1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmsbla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmsbla1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x0) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1f) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmsbla1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 11110 qqqqq ppppp 10010 cpsmadua1.h crqp,crpp (p0_1)
+(dni cpsmadua1_h_P1 "cpsmadua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmadua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmadua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x12) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 11110 qqqqq ppppp 10011 cpsmadla1.h crqp,crpp (p0_1)
+(dni cpsmadla1_h_P1 "cpsmadla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmadla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmadla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x13) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 11110 qqqqq ppppp 10110 cpsmadua1.w crqp,crpp (p0_1)
+(dni cpsmadua1_w_P1 "cpsmadua1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmadua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmadua1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x16) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadua1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 11110 qqqqq ppppp 10111 cpsmadla1.w crqp,crpp (p0_1)
+(dni cpsmadla1_w_P1 "cpsmadla1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmadla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmadla1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x17) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadla1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 11110 qqqqq ppppp 11010 cpsmsbua1.h crqp,crpp (p0_1)
+(dni cpsmsbua1_h_P1 "cpsmsbua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmsbua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmsbua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1a) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 11110 qqqqq ppppp 11011 cpsmsbla1.h crqp,crpp (p0_1)
+(dni cpsmsbla1_h_P1 "cpsmsbla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmsbla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmsbla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1b) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 11110 qqqqq ppppp 11110 cpsmsbua1.w crqp,crpp (p0_1)
+(dni cpsmsbua1_w_P1 "cpsmsbua1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmsbua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmsbua1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1e) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbua1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000001 11110 qqqqq ppppp 11111 cpsmsbla1.w crqp,crpp (p0_1)
+(dni cpsmsbla1_w_P1 "cpsmsbla1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmsbla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmsbla1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x1) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1f) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbla1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000010 11110 qqqqq ppppp 01010 cpmulslua1.h crqp,crpp (p0_1)
+(dni cpmulslua1_h_P1 "cpmulslua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmulslua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmulslua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x2) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #xa) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmulslua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000010 11110 qqqqq ppppp 01011 cpmulslla1.h crqp,crpp (p0_1)
+(dni cpmulslla1_h_P1 "cpmulslla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmulslla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpmulslla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x2) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #xb) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmulslla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000010 11110 qqqqq ppppp 01110 cpmulslua1.w crqp,crpp (p0_1)
+(dni cpmulslua1_w_P1 "cpmulslua1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmulslua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmulslua1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x2) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #xe) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmulslua1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000010 11110 qqqqq ppppp 01111 cpmulslla1.w crqp,crpp (p0_1)
+(dni cpmulslla1_w_P1 "cpmulslla1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpmulslla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpmulslla1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x2) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #xf) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpmulslla1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000011 11110 qqqqq ppppp 10010 cpsmadslua1.h crqp,crpp (p0_1)
+(dni cpsmadslua1_h_P1 "cpsmadslua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmadslua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmadslua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x12) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadslua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000011 11110 qqqqq ppppp 10011 cpsmadslla1.h crqp,crpp (p0_1)
+(dni cpsmadslla1_h_P1 "cpsmadslla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmadslla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmadslla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x13) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadslla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000011 11110 qqqqq ppppp 10110 cpsmadslua1.w crqp,crpp (p0_1)
+(dni cpsmadslua1_w_P1 "cpsmadslua1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmadslua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmadslua1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x16) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadslua1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000011 11110 qqqqq ppppp 10111 cpsmadslla1.w crqp,crpp (p0_1)
+(dni cpsmadslla1_w_P1 "cpsmadslla1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmadslla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmadslla1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x17) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmadslla1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000011 11110 qqqqq ppppp 11010 cpsmsbslua1.h crqp,crpp (p0_1)
+(dni cpsmsbslua1_h_P1 "cpsmsbslua1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmsbslua1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmsbslua1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1a) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbslua1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000011 11110 qqqqq ppppp 11011 cpsmsbslla1.h crqp,crpp (p0_1)
+(dni cpsmsbslla1_h_P1 "cpsmsbslla1.h $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmsbslla1_h") (CPTYPE V4HI) VOLATILE)
+ "cpsmsbslla1.h $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1b) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbslla1_h" pc crqp crpp) )
+ ()
+ )
+
+; 00000011 11110 qqqqq ppppp 11110 cpsmsbslua1.w crqp,crpp (p0_1)
+(dni cpsmsbslua1_w_P1 "cpsmsbslua1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmsbslua1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmsbslua1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1e) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_4 0)
+ (set ivc2_acc1_5 0)
+ (set ivc2_acc1_6 0)
+ (set ivc2_acc1_7 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbslua1_w" pc crqp crpp) )
+ ()
+ )
+
+; 00000011 11110 qqqqq ppppp 11111 cpsmsbslla1.w crqp,crpp (p0_1)
+(dni cpsmsbslla1_w_P1 "cpsmsbslla1.w $crqp,$crpp Pn"
+ (OPTIONAL_CP_INSN ivc2-p1-isa (SLOTS P1) (INTRINSIC "cpsmsbslla1_w") (CPTYPE V2SI) VOLATILE)
+ "cpsmsbslla1.w $crqp,$crpp"
+ (+ (f-ivc2-8u0 #x3) (f-ivc2-5u8 #x1e) crqp crpp (f-ivc2-5u23 #x1f) (f-ivc2-4u28 0))
+ (sequence ()
+ (c-call "check_option_cp" pc)
+ (set ivc2_acc1_0 0)
+ (set ivc2_acc1_1 0)
+ (set ivc2_acc1_2 0)
+ (set ivc2_acc1_3 0)
+ (set ivc2_cofa1 0)
+ (c-call "ivc2_cpsmsbslla1_w" pc crqp crpp) )
+ ()
+ )
+
--- /dev/null
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+;; This coprocessor definition is being used to verify vliw mode behaviour.
+;; This is a mock-up done by Red Hat and is in no way supposed to represent
+;; a real coprocessor. The hardware is defined in mep-core.cpu.
+
+; Coprocessor registers
+(define-pmacro rh-isa-1 () (ISA ext_cop1_16,ext_cop1_32,ext_cop1_48,ext_cop1_64))
+
+(define-hardware
+ (name h-cr64-rh-1)
+ (comment "64-bit coprocessor registers for rh coprocessor for core 1")
+ (attrs VIRTUAL rh-isa-1)
+ (type register DI (32))
+ (set (index newval) (c-call VOID "h_cr64_set" index newval))
+ (get (index) (c-call DI "h_cr64_get" index))
+ (indices keyword "$c" (.map -reg-pair (.iota 32)))
+)
+
+(define-hardware
+ (name h-cr-rh-1)
+ (comment "32-bit coprocessor registers for rh coprocessor for core 1")
+ (attrs VIRTUAL rh-isa-1)
+ (type register SI (32))
+ (set (index newval) (c-call VOID "h_cr64_set" index (ext DI newval)))
+ (get (index) (trunc SI (c-call DI "h_cr64_get" index)))
+ (indices keyword "$c" (.map -reg-pair (.iota 32)))
+)
+
+(define-hardware
+ (name h-ccr-rh-1)
+ (comment "Coprocessor control registers for rh coprocessor for core 1")
+ (attrs VIRTUAL rh-isa-1)
+ (type register SI (64))
+ (set (index newval) (c-call VOID "h_ccr_set" index newval))
+ (get (index) (c-call DI "h_ccr_get" index))
+ (indices keyword "" (.map -ccr-reg-pair (.iota 64)))
+)
+
+; ifields For 16-bit insns
+(dnf f-cphigh4 "High 4 bits" ((ISA ext_cop1_16,ext_cop1_32,ext_cop1_48,ext_cop1_64)) 0 4)
+(dnf f-cpcrn "Copro Reg" ((ISA ext_cop1_16,ext_cop1_32,ext_cop1_48,ext_cop1_64)) 4 5)
+(dnf f-cpcrm "Copro Reg" ((ISA ext_cop1_16,ext_cop1_32,ext_cop1_48,ext_cop1_64)) 11 5)
+(dnf f-uu2 "UU for 16-bit insns" ((ISA ext_cop1_16)) 9 2)
+(dnf f-uu3 "UU for 16-bit insns" ((ISA ext_cop1_16)) 9 3)
+(dnf f-cprm "Core GPR" ((ISA ext_cop1_16)) 12 4)
+
+; ifields For 32-bit insns (some of the above are used too)
+; Notes:
+;
+; f-alone: A value of 0111 means that the insn can run alone in
+; one of the vliw modes.
+;
+; f-seg32: Together f-seg32 and f-seg32-a allow 64 different 32-bit
+; f-seg32-a: insns to be defined.
+(dnf f-seg32 "Enumerate 32 bit-insns" ((ISA ext_cop1_32)) 9 3)
+(dnf f-alone "Run-alone indicator" ((ISA ext_cop1_16,ext_cop1_32,ext_cop1_64)) 12 4)
+(dnf f-seg32-a "Enumerate 32 bit-insns" ((ISA ext_cop1_32)) 21 3)
+(dnf f-code8 "8 bit unsigned immediate" ((ISA ext_cop1_32)) 24 8)
+(dnf f-cpcrm-32 "Corpocessor Reg" ((ISA ext_cop1_32)) 16 5)
+
+; ifields for 48-bit insns
+; Note: Part of f-uu12 can be broken off later to enumerate
+; any 48-bit insns that may be added.
+(dnf f-uu12 "Unusued 12 bits" ((ISA ext_cop1_48)) 4 12)
+(dnf f-code16a "Unsigned immediate" ((ISA ext_cop1_48)) 16 16)
+(dnf f-code16b "Unsigned immediate" ((ISA ext_cop1_48,ext_cop1_64)) 32 16)
+
+; ifields for 64-bit insns
+(dnf f-uu8 "Unsused 8 bits" ((ISA ext_cop1_64)) 4 8)
+(dnf f-uu8a "Unused 13 bits" ((ISA ext_cop1_64)) 16 8)
+(dnf f-seg64 "Enumerate 64-bit insns" ((ISA ext_cop1_64)) 24 8)
+(dnf f-code16c "Unsigned immediate" ((ISA ext_cop1_64)) 48 16)
+(dnf f-cpcrn-64 "Coprocessor Register" ((ISA ext_cop1_64)) 32 5)
+(dnf f-cpcrm-64 "Coprocessor Register" ((ISA ext_cop1_64)) 37 4)
+(dnf f-code23 "23 Bit Unisgned Immediate" ((ISA ext_cop1_64)) 41 23)
+(dnf f-cpccrn-64 "Coprocessor Register" ((ISA ext_cop1_64)) 32 4)
+(dnf f-cpccrm-64 "Core GPR" ((ISA ext_cop1_64)) 36 4)
+(dnf f-code24 "24 Bit Unisgned Immediate" ((ISA ext_cop1_64)) 40 24)
+
+\f
+; Operands for 16-bit insns
+(dnop cpcrn "cpcrn" ((ISA ext_cop1_16,ext_cop1_32)) h-cr64-rh-1 f-cpcrn)
+(dnop cpcrm "cpcrm" ((ISA ext_cop1_16,ext_cop1_32)) h-cr64-rh-1 f-cpcrm)
+(dnop cprm "cprm" ((ISA ext_cop1_16)) h-gpr f-cprm)
+
+; Additional operands for 32-bit insns
+(dnop code8 "imm8" ((ISA ext_cop1_32)) h-uint f-code8)
+
+; Operands for 48-bit insns
+(dnop code16a "code16a" ((ISA ext_cop1_48)) h-uint f-code16a)
+(dnop code16b "code16b" ((ISA ext_cop1_48,ext_cop1_64)) h-uint f-code16b)
+
+; Additional operands for 64-bit insns
+(dnop code16c "code16c" ((ISA ext_cop1_64)) h-uint f-code16c)
+(dnop cpcrn64 "cpcrn64" ((ISA ext_cop1_64)) h-cr64-rh-1 f-cpcrn-64)
+(dnop cpcrm64 "crm64" ((ISA ext_cop1_64)) h-gpr f-cpcrm-64)
+(dnop cpccrn64 "cpccrn64" ((ISA ext_cop1_64)) h-ccr-rh-1 f-cpccrn-64)
+(dnop cpccrm64 "cpccrm64" ((ISA ext_cop1_64)) h-gpr f-cpccrm-64)
+(dnop cpcode23 "cpcode23" ((ISA ext_cop1_64)) h-uint f-code23)
+(dnop cpcode24 "cpcode24" ((ISA ext_cop1_64)) h-uint f-code24)
+
+
+\f
+; 16- and 32-bit nops can be defined as normal instructions without
+; any problems. nops take no operands, so nops longer than 32
+; bits cannot be defined as normal insns since that would result in
+; decodable bits beyond cgen's 32-bit boundary. As a result, we
+; have to use macros and other real insns to create 48- and 64-bit nops.
+;
+; In addition, since the names of the nops that will be created as part
+; of future insn sets are not known at this time, the assembler needs a
+; fixed set of nop names that it can use for automatic nop insertion.
+; The idea is that no matter what those insns are called, we don't want
+; to have to change the C code in the assemblers vliw grouping validation
+; and nop insertion routines. We therefore have to create macros for
+; all nops to map the macro names which are known to the assembler to the
+; names of the real nop insns.
+;
+; These emitted insns in these macros will need to be modified when
+; new nops are defined in new coprocessor insn sets.
+
+; A real 16-bit nop insn exists
+(dnmi cpnop16 "cpnop16"
+ ((ISA ext_cop1_16))
+ "cpnop16"
+ (emit cp16nop)
+)
+
+; A real 32-bit nop insn exists
+(dnmi cpnop32 "cpnop32"
+ ((ISA ext_cop1_32))
+ "cpnop32"
+ (emit cp32nop)
+)
+
+; There is no 48-bit nop insn so we use a real "dummy" insn to enable the nop.
+(dnmi cpnop48 "cpnop48"
+ ((ISA ext_cop1_48))
+ "cpnop48"
+ (emit cpf1nop (code16a 0) (code16b 0))
+)
+
+; There is no 64-bit nop insn so we use a real "dummy" insn to enable the nop.
+(dnmi cpnop64 "cpnop64"
+ ((ISA ext_cop1_64))
+ "cpnop64"
+ (emit cpf3nop (code16b 0) (code16c 0))
+)
+
+\f
+(define-pmacro (dncp116i xname xcomment xattrs xsyntax xformat xsemantics xtiming) (dni-isa xname xcomment xattrs xsyntax xformat xsemantics xtiming ext_cop1_16))
+(define-pmacro (dncp132i xname xcomment xattrs xsyntax xformat xsemantics xtiming) (dni-isa xname xcomment xattrs xsyntax xformat xsemantics xtiming ext_cop1_32))
+(define-pmacro (dncp148i xname xcomment xattrs xsyntax xformat xsemantics xtiming) (dni-isa xname xcomment xattrs xsyntax xformat xsemantics xtiming ext_cop1_48))
+(define-pmacro (dncp164i xname xcomment xattrs xsyntax xformat xsemantics xtiming) (dni-isa xname xcomment xattrs xsyntax xformat xsemantics xtiming ext_cop1_64))
+
+; 16-Bit Insns
+(dncp116i movcp16 "16-bit coprocessor move insn"
+ (VLIW64_NO_MATCHING_NOP)
+ "movcp16 $cpcrn,$cpcrm"
+ (+ (f-cphigh4 1) cpcrn (f-uu2 0) cpcrm)
+ (set cpcrn cpcrm)
+ ()
+)
+
+(dncp116i movcp16a "16-bit coprocessor move insn"
+ (VLIW64_NO_MATCHING_NOP)
+ "movcp16a $cpcrn,$cprm"
+ (+ (f-cphigh4 2) cpcrn (f-uu3 0) cprm)
+ (set cpcrn (zext DI cprm))
+ ()
+)
+
+(dncp116i movcp16b "16-bit coprocessor move insn"
+ (VLIW64_NO_MATCHING_NOP)
+ "movcp16b $cprm,$cpcrn"
+ (+ (f-cphigh4 3) cpcrn (f-uu3 0) cprm)
+ (set cprm (subword SI cpcrn 1))
+ ()
+)
+
+(dncp116i cp16nop "16-bit coprocessor nop"
+ (VLIW64_NO_MATCHING_NOP)
+ "cp16nop"
+ (+ (f-cphigh4 0) (f-cpcrn 0) (f-uu2 0) (f-cpcrm 0))
+ (unimp "cp16nop")
+ ()
+)
+
+; 32-Bit Insns
+(dncp132i cp32nop "32-bit coprocessor nop"
+ (VLIW64_NO_MATCHING_NOP)
+ "cp32nop"
+ (+ (f-cphigh4 #xf ) (f-cpcrn 0) (f-seg32 0) (f-alone #x7)
+ (f-cpcrm-32 0) (f-seg32-a 0) (f-code8 0))
+ (unimp "cpnop32")
+ ()
+)
+
+(dncp132i cpf2 "General 32-bit insn for compatibility with toshiba's tests "
+ (VLIW64_NO_MATCHING_NOP)
+ "cpf2 $code8"
+ (+ (f-cphigh4 #xf ) (f-cpcrn 0) (f-seg32 0) (f-alone #x7)
+ (f-cpcrm-32 0) (f-seg32-a 1) code8)
+ (unimp "cpf2")
+ ()
+)
+
+; 48-Bit Insns
+(dncp148i cpf1 "48-bit coprocessor helper insn"
+ ()
+ "cpf1 $code16a,$code16b"
+ (+ (f-cphigh4 4) (f-uu12 0) code16a code16b)
+ (sequence ((HI result))
+ (if (eq code16a 0)
+ (set pc (c-call USI "cop_exception" pc))
+ ; Set branch condition flags to value of code16a[0:3]
+ ; Branch condition flags do not exist yet.
+ (nop)
+ )
+ )
+ ()
+)
+
+(dncp148i cpf1nop "48-bit coprocessor nop insn"
+ ()
+ "cpf1nop $code16a,$code16b"
+ (+ (f-cphigh4 5) (f-uu12 0) code16a code16b)
+ (sequence ((HI result))
+ (set result (add code16a code16b))
+ )
+ ()
+)
+
+; 64-Bit Insns
+(dncp164i cpf3 "64-bit coprocessor helper insn"
+ ()
+ "cpf3 $code16b,$code16c"
+ (+ (f-cphigh4 #xf) (f-uu8 0) (f-alone 7) (f-uu8a 0)
+ (f-seg64 0) code16b code16c)
+ (sequence ((HI result))
+ (set result (add code16b code16c))
+ )
+ ()
+)
+
+(dncp164i cpf3nop "64-bit coprocessor helper insn"
+ ()
+ "cpf3nop $code16b,$code16c"
+ (+ (f-cphigh4 #xf) (f-uu8 0) (f-alone 7) (f-uu8a 0)
+ (f-seg64 7) code16b code16c)
+ (sequence ((HI result))
+ (set result (add code16b code16c))
+ )
+ ()
+)
+
+(dncp164i cmov64a "64-bit cmov"
+ ()
+ "cmov64a $cpcrn64,$cpcrm64,$cpcode23"
+ (+ (f-cphigh4 #xf ) (f-uu8 0) (f-alone 7) (f-uu8a 0)
+ (f-seg64 1) cpcrn64 cpcrm64 cpcode23)
+ (sequence ((SI dummy))
+ (set dummy cpcode23)
+ (set cpcrn64 (zext DI cpcrm64)))
+ ()
+)
+
+(dncp164i cmov64b "64-bit cmov"
+ ()
+ "cmov64b $cpcrm64,$cpcrn64,$cpcode23"
+ (+ (f-cphigh4 #xf ) (f-uu8 0) (f-alone 7) (f-uu8a 0)
+ (f-seg64 2) cpcrn64 cpcrm64 cpcode23)
+ (sequence ((SI dummy))
+ (set dummy cpcode23)
+ (set cpcrm64 (subword SI cpcrn64 1)))
+ ()
+)
+
+(dncp164i cmovh64a "64-bit cmovh"
+ ()
+ "cmovh64a $cpcrn64,$cpcrm64,$cpcode23"
+ (+ (f-cphigh4 #xf ) (f-uu8 0) (f-alone 7) (f-uu8a 0)
+ (f-seg64 3) cpcrn64 cpcrm64 cpcode23)
+ (sequence ((SI dummy))
+ (set dummy cpcode23)
+ (set cpcrn64 (or (sll (zext DI cpcrm64) 32) (zext DI (subword SI cpcrn64 1)))))
+ ()
+)
+
+(dncp164i cmovh64b "64-bit cmovh"
+ ()
+ "cmovh64b $cpcrm64,$cpcrn64,$cpcode23"
+ (+ (f-cphigh4 #xf ) (f-uu8 0) (f-alone 7) (f-uu8a 0)
+ (f-seg64 4) cpcrn64 cpcrm64 cpcode23)
+ (sequence ((SI dummy))
+ (set dummy cpcode23)
+ (set cpcrm64 (subword SI cpcrn64 0)))
+ ()
+)
+
+(dncp164i cmovc64a "64-bit cmovc"
+ ()
+ "cmovc64a $cpccrn64,$cpccrm64,$cpcode24"
+ (+ (f-cphigh4 #xf ) (f-uu8 0) (f-alone 7) (f-uu8a 0)
+ (f-seg64 5) cpccrn64 cpccrm64 cpcode24)
+ (sequence ((SI dummy))
+ (set dummy cpcode24)
+ (set cpccrn64 cpccrm64))
+ ()
+)
+
+(dncp164i cmovc64b "64-bit cmovc"
+ ()
+ "cmovc64b $cpccrm64,$cpccrn64,$cpcode24"
+ (+ (f-cphigh4 #xf ) (f-uu8 0) (f-alone 7) (f-uu8a 0)
+ (f-seg64 6) cpccrn64 cpccrm64 cpcode24)
+ (sequence ((SI dummy))
+ (set dummy cpcode24)
+ (set cpccrm64 cpccrn64))
+ ()
+)
+
--- /dev/null
+; Toshiba MeP Media Engine architecture description. -*- Scheme -*-
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+; This file provides sample definitions for the UCI and DSP
+; instructions. It is incorporated into the overall description by
+; including it from a top-level file that includes all of the required
+; option files.
+
+; UCI option.
+
+(define-pmacro mep-ext1-isa () (ISA ext_core1))
+
+
+; uci instructions for ELFextension test
+
+; uci.elfext.1 $simm16
+; 1111_IIII_0000_0010 0001_iiii_iiii_iiii
+; simm16 = I[4:7]||i[20:31]
+
+; uci.elfext.2 $uimm16
+; 1111_IIII_0000_0010 0010_iiii_iiii_iiii
+; uimm16 = I[4:7]||i[20:31]
+
+; define simm16
+(df f-uci_elfext_1-hi "uci_elfext_1 simm16 hi 4s7" (mep-ext1-isa) 4 4 INT #f #f)
+(df f-uci_elfext_1-lo "uci_elfext_1 simm16 lo 20s31" (mep-ext1-isa) 20 12 UINT #f #f)
+(define-multi-ifield
+ (name f-uci_elfext_1)
+ (comment "16-bits uci_elfext_ signed constant")
+ (attrs mep-ext1-isa)
+ (mode INT)
+ (subfields f-uci_elfext_1-hi f-uci_elfext_1-lo)
+ (insert (sequence ()
+ (set (ifield f-uci_elfext_1-hi) (srl (ifield f-uci_elfext_1) 12))
+ (set (ifield f-uci_elfext_1-lo) (and (ifield f-uci_elfext_1) #xfff))))
+ (extract (set (ifield f-uci_elfext_1)
+ (or (sll (ifield f-uci_elfext_1-hi) 12)
+ (ifield f-uci_elfext_1-lo))))
+ )
+(dpop uci_elfext_1simm16 "signed imm (16 bits)" (mep-ext1-isa) h-sint f-uci_elfext_1 "signed16")
+
+; define uimm16
+(df f-uci_elfext_2-hi "uci_elfext_2 uimm16 hi 4u7" (mep-ext1-isa) 4 4 UINT #f #f)
+(df f-uci_elfext_2-lo "uci_elfext_2 uimm16 lo 20u31" (mep-ext1-isa) 20 12 UINT #f #f)
+(define-multi-ifield
+ (name f-uci_elfext_2)
+ (comment "16-bits uci_elfext_ unsigned constant")
+ (attrs mep-ext1-isa)
+ (mode UINT)
+ (subfields f-uci_elfext_2-hi f-uci_elfext_2-lo)
+ (insert (sequence ()
+ (set (ifield f-uci_elfext_2-hi) (srl (ifield f-uci_elfext_2) 12))
+ (set (ifield f-uci_elfext_2-lo) (and (ifield f-uci_elfext_2) #xfff))))
+ (extract (set (ifield f-uci_elfext_2)
+ (or (sll (ifield f-uci_elfext_2-hi) 12)
+ (ifield f-uci_elfext_2-lo))))
+ )
+(dpop uci_elfext_2uimm16 "unsigned imm (16 bits)" (mep-ext1-isa) h-uint f-uci_elfext_2 "unsigned16")
+
+; define sub-opcode
+(df f-uci_elfext-sub "sub-opcode for uci_elfext instructions" (mep-ext1-isa) 16 4 UINT #f #f)
+
+
+; define instruction
+(dni uci.elfext.1 "uci_elfext instruction 1" (OPTIONAL_UCI_INSN VOLATILE mep-ext1-isa)
+ "uci.elfext.1 $uci_elfext_1simm16"
+ (+ MAJ_15 (f-rm 0) (f-sub4 2) (f-uci_elfext-sub 1) uci_elfext_1simm16)
+ (c-call "check_option_uci" pc)
+ ()
+ )
+
+; define instruction
+(dni uci.elfext.2 "uci_elfext instruction 1" (OPTIONAL_UCI_INSN VOLATILE mep-ext1-isa)
+ "uci.elfext.2 $uci_elfext_2uimm16"
+ (+ MAJ_15 (f-rm 0) (f-sub4 2) (f-uci_elfext-sub 2) uci_elfext_2uimm16)
+ (c-call "check_option_uci" pc)
+ ()
+ )
+
+
+
+;; some general samples
+; UCI option.
+
+(dni uci "user defined instruction" (OPTIONAL_UCI_INSN mep-ext1-isa)
+ "uci $rn,$rm,$code16"
+ (+ MAJ_15 rn rm (f-sub4 2) code16)
+ (sequence ()
+ (c-call "check_option_uci" pc)
+ (unimp "uci"))
+ ())
+
+; DSP option.
+
+(dni dsp "dsp instruction" (OPTIONAL_DSP_INSN mep-ext1-isa)
+ "dsp $rn,$rm,$code16"
+ (+ MAJ_15 rn rm (f-sub4 0) code16)
+ (sequence ()
+ (c-call "check_option_dsp" pc)
+ (set pc (c-call USI "dsp_exception" pc)))
+ ())
--- /dev/null
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+(include "mep-default.cpu")
--- /dev/null
+/* MeP opcode support. -*- C -*-
+ Copyright 2011 Free Software Foundation, Inc.
+
+ Contributed by Red Hat Inc;
+
+ This file is part of the GNU Binutils.
+
+ This program is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 3 of the License, or
+ (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+ MA 02110-1301, USA. */
+
+/* -- opc.h */
+
+#undef CGEN_DIS_HASH_SIZE
+#define CGEN_DIS_HASH_SIZE 1
+
+#undef CGEN_DIS_HASH
+#define CGEN_DIS_HASH(buffer, insn) 0
+
+#define CGEN_VERBOSE_ASSEMBLER_ERRORS
+
+typedef struct
+{
+ char * name;
+ int config_enum;
+ unsigned cpu_flag;
+ int big_endian;
+ int vliw_bits;
+ CGEN_ATTR_VALUE_BITSET_TYPE cop16_isa;
+ CGEN_ATTR_VALUE_BITSET_TYPE cop32_isa;
+ CGEN_ATTR_VALUE_BITSET_TYPE cop48_isa;
+ CGEN_ATTR_VALUE_BITSET_TYPE cop64_isa;
+ CGEN_ATTR_VALUE_BITSET_TYPE cop_isa;
+ CGEN_ATTR_VALUE_BITSET_TYPE core_isa;
+ unsigned int option_mask;
+} mep_config_map_struct;
+
+extern mep_config_map_struct mep_config_map[];
+extern int mep_config_index;
+
+extern void init_mep_all_core_isas_mask (void);
+extern void init_mep_all_cop_isas_mask (void);
+extern CGEN_ATTR_VALUE_BITSET_TYPE mep_cop_isa (void);
+
+#define MEP_CONFIG (mep_config_map[mep_config_index].config_enum)
+#define MEP_CPU (mep_config_map[mep_config_index].cpu_flag)
+#define MEP_OMASK (mep_config_map[mep_config_index].option_mask)
+#define MEP_VLIW (mep_config_map[mep_config_index].vliw_bits > 0)
+#define MEP_VLIW32 (mep_config_map[mep_config_index].vliw_bits == 32)
+#define MEP_VLIW64 (mep_config_map[mep_config_index].vliw_bits == 64)
+#define MEP_COP16_ISA (mep_config_map[mep_config_index].cop16_isa)
+#define MEP_COP32_ISA (mep_config_map[mep_config_index].cop32_isa)
+#define MEP_COP48_ISA (mep_config_map[mep_config_index].cop48_isa)
+#define MEP_COP64_ISA (mep_config_map[mep_config_index].cop64_isa)
+#define MEP_COP_ISA (mep_config_map[mep_config_index].cop_isa)
+#define MEP_CORE_ISA (mep_config_map[mep_config_index].core_isa)
+
+/* begin-cop-ip-supported-defines */
+#define MEP_IVC2_SUPPORTED 1
+/* end-cop-ip-supported-defines */
+
+extern int mep_insn_supported_by_isa (const CGEN_INSN *, CGEN_ATTR_VALUE_BITSET_TYPE *);
+
+/* A mask for all ISAs executed by the core. */
+#define MEP_ALL_CORE_ISAS_MASK mep_all_core_isas_mask
+extern CGEN_ATTR_VALUE_BITSET_TYPE mep_all_core_isas_mask;
+
+#define MEP_INSN_CORE_P(insn) ( \
+ init_mep_all_core_isas_mask (), \
+ mep_insn_supported_by_isa (insn, & MEP_ALL_CORE_ISAS_MASK) \
+)
+
+/* A mask for all ISAs executed by a VLIW coprocessor. */
+#define MEP_ALL_COP_ISAS_MASK mep_all_cop_isas_mask
+extern CGEN_ATTR_VALUE_BITSET_TYPE mep_all_cop_isas_mask;
+
+#define MEP_INSN_COP_P(insn) ( \
+ init_mep_all_cop_isas_mask (), \
+ mep_insn_supported_by_isa (insn, & MEP_ALL_COP_ISAS_MASK) \
+)
+
+extern int mep_cgen_insn_supported (CGEN_CPU_DESC, const CGEN_INSN *);
+extern int mep_cgen_insn_supported_asm (CGEN_CPU_DESC, const CGEN_INSN *);
+
+/* -- asm.c */
+
+#include "elf/mep.h"
+
+#define CGEN_VALIDATE_INSN_SUPPORTED
+#define mep_cgen_insn_supported mep_cgen_insn_supported_asm
+
+ const char * parse_csrn (CGEN_CPU_DESC, const char **, CGEN_KEYWORD *, long *);
+ const char * parse_tpreg (CGEN_CPU_DESC, const char **, CGEN_KEYWORD *, long *);
+ const char * parse_spreg (CGEN_CPU_DESC, const char **, CGEN_KEYWORD *, long *);
+ const char * parse_mep_align (CGEN_CPU_DESC, const char **, enum cgen_operand_type, long *);
+ const char * parse_mep_alignu (CGEN_CPU_DESC, const char **, enum cgen_operand_type, unsigned long *);
+static const char * parse_signed16 (CGEN_CPU_DESC, const char **, int, long *);
+static const char * parse_signed16_range (CGEN_CPU_DESC, const char **, int, long *) ATTRIBUTE_UNUSED;
+static const char * parse_unsigned16 (CGEN_CPU_DESC, const char **, int, unsigned long *);
+static const char * parse_unsigned16_range (CGEN_CPU_DESC, const char **, int, unsigned long *) ATTRIBUTE_UNUSED;
+static const char * parse_lo16 (CGEN_CPU_DESC, const char **, int, long *, long);
+static const char * parse_unsigned7 (CGEN_CPU_DESC, const char **, enum cgen_operand_type, unsigned long *);
+static const char * parse_zero (CGEN_CPU_DESC, const char **, int, long *);
+
+const char *
+parse_csrn (CGEN_CPU_DESC cd, const char **strp,
+ CGEN_KEYWORD *keyword_table, long *field)
+{
+ const char *err;
+ unsigned long value;
+
+ err = cgen_parse_keyword (cd, strp, keyword_table, field);
+ if (!err)
+ return NULL;
+
+ err = cgen_parse_unsigned_integer (cd, strp, MEP_OPERAND_CSRN_IDX, & value);
+ if (err)
+ return err;
+ *field = value;
+ return NULL;
+}
+
+/* begin-cop-ip-parse-handlers */
+static const char *
+parse_ivc2_cr (CGEN_CPU_DESC,
+ const char **,
+ CGEN_KEYWORD *,
+ long *) ATTRIBUTE_UNUSED;
+static const char *
+parse_ivc2_cr (CGEN_CPU_DESC cd,
+ const char **strp,
+ CGEN_KEYWORD *keyword_table ATTRIBUTE_UNUSED,
+ long *field)
+{
+ return cgen_parse_keyword (cd, strp, & mep_cgen_opval_h_cr_ivc2, field);
+}
+static const char *
+parse_ivc2_ccr (CGEN_CPU_DESC,
+ const char **,
+ CGEN_KEYWORD *,
+ long *) ATTRIBUTE_UNUSED;
+static const char *
+parse_ivc2_ccr (CGEN_CPU_DESC cd,
+ const char **strp,
+ CGEN_KEYWORD *keyword_table ATTRIBUTE_UNUSED,
+ long *field)
+{
+ return cgen_parse_keyword (cd, strp, & mep_cgen_opval_h_ccr_ivc2, field);
+}
+/* end-cop-ip-parse-handlers */
+
+const char *
+parse_tpreg (CGEN_CPU_DESC cd, const char ** strp,
+ CGEN_KEYWORD *keyword_table, long *field)
+{
+ const char *err;
+
+ err = cgen_parse_keyword (cd, strp, keyword_table, field);
+ if (err)
+ return err;
+ if (*field != 13)
+ return _("Only $tp or $13 allowed for this opcode");
+ return NULL;
+}
+
+const char *
+parse_spreg (CGEN_CPU_DESC cd, const char ** strp,
+ CGEN_KEYWORD *keyword_table, long *field)
+{
+ const char *err;
+
+ err = cgen_parse_keyword (cd, strp, keyword_table, field);
+ if (err)
+ return err;
+ if (*field != 15)
+ return _("Only $sp or $15 allowed for this opcode");
+ return NULL;
+}
+
+const char *
+parse_mep_align (CGEN_CPU_DESC cd, const char ** strp,
+ enum cgen_operand_type type, long *field)
+{
+ long lsbs = 0;
+ const char *err;
+
+ switch (type)
+ {
+ case MEP_OPERAND_PCREL8A2:
+ case MEP_OPERAND_PCREL12A2:
+ case MEP_OPERAND_PCREL17A2:
+ case MEP_OPERAND_PCREL24A2:
+ err = cgen_parse_signed_integer (cd, strp, type, field);
+ break;
+ case MEP_OPERAND_PCABS24A2:
+ case MEP_OPERAND_UDISP7:
+ case MEP_OPERAND_UDISP7A2:
+ case MEP_OPERAND_UDISP7A4:
+ case MEP_OPERAND_UIMM7A4:
+ case MEP_OPERAND_ADDR24A4:
+ err = cgen_parse_unsigned_integer (cd, strp, type, (unsigned long *) field);
+ break;
+ default:
+ abort();
+ }
+ if (err)
+ return err;
+ switch (type)
+ {
+ case MEP_OPERAND_UDISP7:
+ lsbs = 0;
+ break;
+ case MEP_OPERAND_PCREL8A2:
+ case MEP_OPERAND_PCREL12A2:
+ case MEP_OPERAND_PCREL17A2:
+ case MEP_OPERAND_PCREL24A2:
+ case MEP_OPERAND_PCABS24A2:
+ case MEP_OPERAND_UDISP7A2:
+ lsbs = *field & 1;
+ break;
+ case MEP_OPERAND_UDISP7A4:
+ case MEP_OPERAND_UIMM7A4:
+ case MEP_OPERAND_ADDR24A4:
+ lsbs = *field & 3;
+ break;
+ lsbs = *field & 7;
+ break;
+ default:
+ /* Safe assumption? */
+ abort ();
+ }
+ if (lsbs)
+ return "Value is not aligned enough";
+ return NULL;
+}
+
+const char *
+parse_mep_alignu (CGEN_CPU_DESC cd, const char ** strp,
+ enum cgen_operand_type type, unsigned long *field)
+{
+ return parse_mep_align (cd, strp, type, (long *) field);
+}
+
+
+/* Handle %lo(), %tpoff(), %sdaoff(), %hi(), and other signed
+ constants in a signed context. */
+
+static const char *
+parse_signed16 (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ long *valuep)
+{
+ return parse_lo16 (cd, strp, opindex, valuep, 1);
+}
+
+static const char *
+parse_lo16 (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ long *valuep,
+ long signedp)
+{
+ const char *errmsg;
+ enum cgen_parse_operand_result result_type;
+ bfd_vma value;
+
+ if (strncasecmp (*strp, "%lo(", 4) == 0)
+ {
+ *strp += 4;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_MEP_LOW16,
+ & result_type, & value);
+ if (**strp != ')')
+ return _("missing `)'");
+ ++*strp;
+ if (errmsg == NULL
+ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER)
+ value &= 0xffff;
+ if (signedp)
+ *valuep = (long)(short) value;
+ else
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (strncasecmp (*strp, "%hi(", 4) == 0)
+ {
+ *strp += 4;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_MEP_HI16S,
+ & result_type, & value);
+ if (**strp != ')')
+ return _("missing `)'");
+ ++*strp;
+ if (errmsg == NULL
+ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER)
+ value = (value + 0x8000) >> 16;
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (strncasecmp (*strp, "%uhi(", 5) == 0)
+ {
+ *strp += 5;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_MEP_HI16U,
+ & result_type, & value);
+ if (**strp != ')')
+ return _("missing `)'");
+ ++*strp;
+ if (errmsg == NULL
+ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER)
+ value = value >> 16;
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (strncasecmp (*strp, "%sdaoff(", 8) == 0)
+ {
+ *strp += 8;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_MEP_GPREL,
+ NULL, & value);
+ if (**strp != ')')
+ return _("missing `)'");
+ ++*strp;
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (strncasecmp (*strp, "%tpoff(", 7) == 0)
+ {
+ *strp += 7;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_MEP_TPREL,
+ NULL, & value);
+ if (**strp != ')')
+ return _("missing `)'");
+ ++*strp;
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (**strp == '%')
+ return _("invalid %function() here");
+
+ return cgen_parse_signed_integer (cd, strp, opindex, valuep);
+}
+
+static const char *
+parse_unsigned16 (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ return parse_lo16 (cd, strp, opindex, (long *) valuep, 0);
+}
+
+static const char *
+parse_signed16_range (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ signed long *valuep)
+{
+ const char *errmsg = 0;
+ signed long value;
+
+ errmsg = cgen_parse_signed_integer (cd, strp, opindex, & value);
+ if (errmsg)
+ return errmsg;
+
+ if (value < -32768 || value > 32767)
+ return _("Immediate is out of range -32768 to 32767");
+
+ *valuep = value;
+ return 0;
+}
+
+static const char *
+parse_unsigned16_range (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ const char *errmsg = 0;
+ unsigned long value;
+
+ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, & value);
+ if (errmsg)
+ return errmsg;
+
+ if (value > 65535)
+ return _("Immediate is out of range 0 to 65535");
+
+ *valuep = value;
+ return 0;
+}
+
+/* A special case of parse_signed16 which accepts only the value zero. */
+
+static const char *
+parse_zero (CGEN_CPU_DESC cd, const char **strp, int opindex, long *valuep)
+{
+ const char *errmsg;
+ enum cgen_parse_operand_result result_type;
+ bfd_vma value;
+
+ /*fprintf(stderr, "dj: signed parse opindex `%s'\n", *strp);*/
+
+ /* Prevent ($ry) from being attempted as an expression on 'sw $rx,($ry)'.
+ It will fail and cause ry to be listed as an undefined symbol in the
+ listing. */
+ if (strncmp (*strp, "($", 2) == 0)
+ return "not zero"; /* any string will do -- will never be seen. */
+
+ if (strncasecmp (*strp, "%lo(", 4) == 0)
+ {
+ *strp += 4;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_MEP_LOW16,
+ &result_type, &value);
+ if (**strp != ')')
+ return "missing `)'";
+ ++*strp;
+ if (errmsg == NULL
+ && (result_type != CGEN_PARSE_OPERAND_RESULT_NUMBER || value != 0))
+ return "not zero"; /* any string will do -- will never be seen. */
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (strncasecmp (*strp, "%hi(", 4) == 0)
+ {
+ *strp += 4;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_MEP_HI16S,
+ &result_type, &value);
+ if (**strp != ')')
+ return "missing `)'";
+ ++*strp;
+ if (errmsg == NULL
+ && (result_type != CGEN_PARSE_OPERAND_RESULT_NUMBER || value != 0))
+ return "not zero"; /* any string will do -- will never be seen. */
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (strncasecmp (*strp, "%uhi(", 5) == 0)
+ {
+ *strp += 5;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_MEP_HI16U,
+ &result_type, &value);
+ if (**strp != ')')
+ return "missing `)'";
+ ++*strp;
+ if (errmsg == NULL
+ && (result_type != CGEN_PARSE_OPERAND_RESULT_NUMBER || value != 0))
+ return "not zero"; /* any string will do -- will never be seen. */
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (strncasecmp (*strp, "%sdaoff(", 8) == 0)
+ {
+ *strp += 8;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_MEP_GPREL,
+ &result_type, &value);
+ if (**strp != ')')
+ return "missing `)'";
+ ++*strp;
+ if (errmsg == NULL
+ && (result_type != CGEN_PARSE_OPERAND_RESULT_NUMBER || value != 0))
+ return "not zero"; /* any string will do -- will never be seen. */
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (strncasecmp (*strp, "%tpoff(", 7) == 0)
+ {
+ *strp += 7;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_MEP_TPREL,
+ &result_type, &value);
+ if (**strp != ')')
+ return "missing `)'";
+ ++*strp;
+ if (errmsg == NULL
+ && (result_type != CGEN_PARSE_OPERAND_RESULT_NUMBER || value != 0))
+ return "not zero"; /* any string will do -- will never be seen. */
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (**strp == '%')
+ return "invalid %function() here";
+
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_NONE,
+ &result_type, &value);
+ if (errmsg == NULL
+ && (result_type != CGEN_PARSE_OPERAND_RESULT_NUMBER || value != 0))
+ return "not zero"; /* any string will do -- will never be seen. */
+
+ return errmsg;
+}
+
+static const char *
+parse_unsigned7 (CGEN_CPU_DESC cd, const char **strp,
+ enum cgen_operand_type opindex, unsigned long *valuep)
+{
+ const char *errmsg;
+ bfd_vma value;
+
+ /* fprintf(stderr, "dj: unsigned7 parse `%s'\n", *strp); */
+
+ if (strncasecmp (*strp, "%tpoff(", 7) == 0)
+ {
+ int reloc;
+ *strp += 7;
+ switch (opindex)
+ {
+ case MEP_OPERAND_UDISP7:
+ reloc = BFD_RELOC_MEP_TPREL7;
+ break;
+ case MEP_OPERAND_UDISP7A2:
+ reloc = BFD_RELOC_MEP_TPREL7A2;
+ break;
+ case MEP_OPERAND_UDISP7A4:
+ reloc = BFD_RELOC_MEP_TPREL7A4;
+ break;
+ default:
+ /* Safe assumption? */
+ abort ();
+ }
+ errmsg = cgen_parse_address (cd, strp, opindex, reloc,
+ NULL, &value);
+ if (**strp != ')')
+ return "missing `)'";
+ ++*strp;
+ *valuep = value;
+ return errmsg;
+ }
+
+ if (**strp == '%')
+ return _("invalid %function() here");
+
+ return parse_mep_alignu (cd, strp, opindex, valuep);
+}
+
+static ATTRIBUTE_UNUSED const char *
+parse_cdisp10 (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ long *valuep)
+{
+ const char *errmsg = 0;
+ signed long value;
+ long have_zero = 0;
+ int wide = 0;
+ int alignment;
+
+ switch (opindex)
+ {
+ case MEP_OPERAND_CDISP10A4:
+ alignment = 2;
+ break;
+ case MEP_OPERAND_CDISP10A2:
+ alignment = 1;
+ break;
+ case MEP_OPERAND_CDISP10:
+ default:
+ alignment = 0;
+ break;
+ }
+
+ if ((MEP_CPU & EF_MEP_CPU_MASK) == EF_MEP_CPU_C5)
+ wide = 1;
+
+ if (strncmp (*strp, "0x0", 3) == 0
+ || (**strp == '0' && *(*strp + 1) != 'x'))
+ have_zero = 1;
+
+ errmsg = cgen_parse_signed_integer (cd, strp, opindex, & value);
+ if (errmsg)
+ return errmsg;
+
+ if (wide)
+ {
+ if (value < -512 || value > 511)
+ return _("Immediate is out of range -512 to 511");
+ }
+ else
+ {
+ if (value < -128 || value > 127)
+ return _("Immediate is out of range -128 to 127");
+ }
+
+ if (value & ((1<<alignment)-1))
+ return _("Value is not aligned enough");
+
+ /* If this field may require a relocation then use larger dsp16. */
+ if (! have_zero && value == 0)
+ return (wide ? _("Immediate is out of range -512 to 511")
+ : _("Immediate is out of range -128 to 127"));
+
+ *valuep = value;
+ return 0;
+}
+
+/* BEGIN LIGHTWEIGHT MACRO PROCESSOR. */
+
+#define MAXARGS 9
+
+typedef struct
+{
+ char *name;
+ char *expansion;
+} macro;
+
+typedef struct
+{
+ const char *start;
+ int len;
+} arg;
+
+macro macros[] =
+{
+ { "sizeof", "(`1.end + (- `1))"},
+ { "startof", "(`1 | 0)" },
+ { "align4", "(`1&(~3))"},
+/*{ "hi", "(((`1+0x8000)>>16) & 0xffff)" }, */
+/*{ "lo", "(`1 & 0xffff)" }, */
+/*{ "sdaoff", "((`1-__sdabase) & 0x7f)"}, */
+/*{ "tpoff", "((`1-__tpbase) & 0x7f)"}, */
+ { 0,0 }
+};
+
+static char * expand_string (const char *, int);
+
+static const char *
+mep_cgen_expand_macros_and_parse_operand
+ (CGEN_CPU_DESC, int, const char **, CGEN_FIELDS *);
+
+static char *
+str_append (char *dest, const char *input, int len)
+{
+ char *new_dest;
+ int oldlen;
+
+ if (len == 0)
+ return dest;
+ /* printf("str_append: <<%s>>, <<%s>>, %d\n", dest, input, len); */
+ oldlen = (dest ? strlen(dest) : 0);
+ new_dest = realloc (dest, oldlen + len + 1);
+ memset (new_dest + oldlen, 0, len + 1);
+ return strncat (new_dest, input, len);
+}
+
+static macro *
+lookup_macro (const char *name)
+{
+ macro *m;
+
+ for (m = macros; m->name; ++m)
+ if (strncmp (m->name, name, strlen(m->name)) == 0)
+ return m;
+
+ return 0;
+}
+
+static char *
+expand_macro (arg *args, int narg, macro *mac)
+{
+ char *result = 0, *rescanned_result = 0;
+ char *e = mac->expansion;
+ char *mark = e;
+ int mac_arg = 0;
+
+ /* printf("expanding macro %s with %d args\n", mac->name, narg + 1); */
+ while (*e)
+ {
+ if (*e == '`' &&
+ (*e+1) &&
+ ((*(e + 1) - '1') <= MAXARGS) &&
+ ((*(e + 1) - '1') <= narg))
+ {
+ result = str_append (result, mark, e - mark);
+ mac_arg = (*(e + 1) - '1');
+ /* printf("replacing `%d with %s\n", mac_arg+1, args[mac_arg].start); */
+ result = str_append (result, args[mac_arg].start, args[mac_arg].len);
+ ++e;
+ mark = e+1;
+ }
+ ++e;
+ }
+
+ if (mark != e)
+ result = str_append (result, mark, e - mark);
+
+ if (result)
+ {
+ rescanned_result = expand_string (result, 0);
+ free (result);
+ return rescanned_result;
+ }
+ else
+ return result;
+}
+
+#define IN_TEXT 0
+#define IN_ARGS 1
+
+static char *
+expand_string (const char *in, int first_only)
+{
+ int num_expansions = 0;
+ int depth = 0;
+ int narg = -1;
+ arg args[MAXARGS];
+ int state = IN_TEXT;
+ const char *mark = in;
+ macro *pmacro = NULL;
+ char *expansion = 0;
+ char *result = 0;
+
+ while (*in)
+ {
+ switch (state)
+ {
+ case IN_TEXT:
+ if (*in == '%' && *(in + 1) && (!first_only || num_expansions == 0))
+ {
+ pmacro = lookup_macro (in + 1);
+ if (pmacro)
+ {
+ /* printf("entering state %d at '%s'...\n", state, in); */
+ result = str_append (result, mark, in - mark);
+ mark = in;
+ in += 1 + strlen (pmacro->name);
+ while (*in == ' ') ++in;
+ if (*in != '(')
+ {
+ state = IN_TEXT;
+ pmacro = NULL;
+ }
+ else
+ {
+ state = IN_ARGS;
+ narg = 0;
+ args[narg].start = in + 1;
+ args[narg].len = 0;
+ mark = in + 1;
+ }
+ }
+ }
+ break;
+ case IN_ARGS:
+ if (depth == 0)
+ {
+ switch (*in)
+ {
+ case ',':
+ narg++;
+ args[narg].start = (in + 1);
+ args[narg].len = 0;
+ break;
+ case ')':
+ state = IN_TEXT;
+ /* printf("entering state %d at '%s'...\n", state, in); */
+ if (pmacro)
+ {
+ expansion = 0;
+ expansion = expand_macro (args, narg, pmacro);
+ num_expansions++;
+ if (expansion)
+ {
+ result = str_append (result, expansion, strlen (expansion));
+ free (expansion);
+ }
+ }
+ else
+ {
+ result = str_append (result, mark, in - mark);
+ }
+ pmacro = NULL;
+ mark = in + 1;
+ break;
+ case '(':
+ depth++;
+ default:
+ args[narg].len++;
+ break;
+ }
+ }
+ else
+ {
+ if (*in == ')')
+ depth--;
+ if (narg > -1)
+ args[narg].len++;
+ }
+
+ }
+ ++in;
+ }
+
+ if (mark != in)
+ result = str_append (result, mark, in - mark);
+
+ return result;
+}
+
+#undef IN_ARGS
+#undef IN_TEXT
+#undef MAXARGS
+
+
+/* END LIGHTWEIGHT MACRO PROCESSOR. */
+
+const char * mep_cgen_parse_operand
+ (CGEN_CPU_DESC, int, const char **, CGEN_FIELDS *);
+
+const char *
+mep_cgen_expand_macros_and_parse_operand (CGEN_CPU_DESC cd, int opindex,
+ const char ** strp_in, CGEN_FIELDS * fields)
+{
+ const char * errmsg = NULL;
+ char *str = 0, *hold = 0;
+ const char **strp = 0;
+
+ /* Set up a new pointer to macro-expanded string. */
+ str = expand_string (*strp_in, 1);
+ /* fprintf (stderr, " expanded <<%s>> to <<%s>>\n", *strp_in, str); */
+
+ hold = str;
+ strp = (const char **)(&str);
+
+ errmsg = mep_cgen_parse_operand (cd, opindex, strp, fields);
+
+ /* Now work out the advance. */
+ if (strlen (str) == 0)
+ *strp_in += strlen (*strp_in);
+
+ else
+ {
+ if (strstr (*strp_in, str))
+ /* A macro-expansion was pulled off the front. */
+ *strp_in = strstr (*strp_in, str);
+ else
+ /* A non-macro-expansion was pulled off the front. */
+ *strp_in += (str - hold);
+ }
+
+ if (hold)
+ free (hold);
+
+ return errmsg;
+}
+
+#define CGEN_ASM_INIT_HOOK (cd->parse_operand = mep_cgen_expand_macros_and_parse_operand);
+
+/* -- dis.c */
+
+#include "elf/mep.h"
+#include "elf-bfd.h"
+
+#define CGEN_VALIDATE_INSN_SUPPORTED
+
+static void print_tpreg (CGEN_CPU_DESC, PTR, CGEN_KEYWORD *, long, unsigned int);
+static void print_spreg (CGEN_CPU_DESC, PTR, CGEN_KEYWORD *, long, unsigned int);
+
+static void
+print_tpreg (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, PTR dis_info,
+ CGEN_KEYWORD *table ATTRIBUTE_UNUSED, long val ATTRIBUTE_UNUSED,
+ unsigned int flags ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+
+ (*info->fprintf_func) (info->stream, "$tp");
+}
+
+static void
+print_spreg (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, PTR dis_info,
+ CGEN_KEYWORD *table ATTRIBUTE_UNUSED, long val ATTRIBUTE_UNUSED,
+ unsigned int flags ATTRIBUTE_UNUSED)
+{
+ disassemble_info *info = (disassemble_info *) dis_info;
+
+ (*info->fprintf_func) (info->stream, "$sp");
+}
+
+/* begin-cop-ip-print-handlers */
+static void
+print_ivc2_cr (CGEN_CPU_DESC,
+ void *,
+ CGEN_KEYWORD *,
+ long,
+ unsigned int) ATTRIBUTE_UNUSED;
+static void
+print_ivc2_cr (CGEN_CPU_DESC cd,
+ void *dis_info,
+ CGEN_KEYWORD *keyword_table ATTRIBUTE_UNUSED,
+ long value,
+ unsigned int attrs)
+{
+ print_keyword (cd, dis_info, & mep_cgen_opval_h_cr_ivc2, value, attrs);
+}
+static void
+print_ivc2_ccr (CGEN_CPU_DESC,
+ void *,
+ CGEN_KEYWORD *,
+ long,
+ unsigned int) ATTRIBUTE_UNUSED;
+static void
+print_ivc2_ccr (CGEN_CPU_DESC cd,
+ void *dis_info,
+ CGEN_KEYWORD *keyword_table ATTRIBUTE_UNUSED,
+ long value,
+ unsigned int attrs)
+{
+ print_keyword (cd, dis_info, & mep_cgen_opval_h_ccr_ivc2, value, attrs);
+}
+/* end-cop-ip-print-handlers */
+
+/************************************************************\
+*********************** Experimental *************************
+\************************************************************/
+
+#undef CGEN_PRINT_INSN
+#define CGEN_PRINT_INSN mep_print_insn
+
+static int
+mep_print_vliw_insns (CGEN_CPU_DESC cd, bfd_vma pc, disassemble_info *info,
+ bfd_byte *buf, int corelength, int copro1length,
+ int copro2length ATTRIBUTE_UNUSED)
+{
+ int i;
+ int status = 0;
+ /* char insnbuf[CGEN_MAX_INSN_SIZE]; */
+ bfd_byte insnbuf[64];
+
+ /* If corelength > 0 then there is a core insn present. It
+ will be at the beginning of the buffer. After printing
+ the core insn, we need to print the + on the next line. */
+ if (corelength > 0)
+ {
+ int my_status = 0;
+
+ for (i = 0; i < corelength; i++ )
+ insnbuf[i] = buf[i];
+ cd->isas = & MEP_CORE_ISA;
+
+ my_status = print_insn (cd, pc, info, insnbuf, corelength);
+ if (my_status != corelength)
+ {
+ (*info->fprintf_func) (info->stream, UNKNOWN_INSN_MSG);
+ my_status = corelength;
+ }
+ status += my_status;
+
+ /* Print the + to indicate that the following copro insn is */
+ /* part of a vliw group. */
+ if (copro1length > 0)
+ (*info->fprintf_func) (info->stream, " + ");
+ }
+
+ /* Now all that is left to be processed is the coprocessor insns
+ In vliw mode, there will always be one. Its positioning will
+ be from byte corelength to byte corelength+copro1length -1.
+ No need to check for existence. Also, the first vliw insn,
+ will, as spec'd, always be at least as long as the core insn
+ so we don't need to flush the buffer. */
+ if (copro1length > 0)
+ {
+ int my_status = 0;
+
+ for (i = corelength; i < corelength + copro1length; i++ )
+ insnbuf[i - corelength] = buf[i];
+
+ switch (copro1length)
+ {
+ case 0:
+ break;
+ case 2:
+ cd->isas = & MEP_COP16_ISA;
+ break;
+ case 4:
+ cd->isas = & MEP_COP32_ISA;
+ break;
+ case 6:
+ cd->isas = & MEP_COP48_ISA;
+ break;
+ case 8:
+ cd->isas = & MEP_COP64_ISA;
+ break;
+ default:
+ /* Shouldn't be anything but 16,32,48,64. */
+ break;
+ }
+
+ my_status = print_insn (cd, pc, info, insnbuf, copro1length);
+
+ if (my_status != copro1length)
+ {
+ (*info->fprintf_func) (info->stream, UNKNOWN_INSN_MSG);
+ my_status = copro1length;
+ }
+ status += my_status;
+ }
+
+#if 0
+ /* Now we need to process the second copro insn if it exists. We
+ have no guarantee that the second copro insn will be longer
+ than the first, so we have to flush the buffer if we are have
+ a second copro insn to process. If present, this insn will
+ be in the position from byte corelength+copro1length to byte
+ corelength+copro1length+copro2length-1 (which better equal 8
+ or else we're in big trouble. */
+ if (copro2length > 0)
+ {
+ int my_status = 0;
+
+ for (i = 0; i < 64 ; i++)
+ insnbuf[i] = 0;
+
+ for (i = corelength + copro1length; i < 64; i++)
+ insnbuf[i - (corelength + copro1length)] = buf[i];
+
+ switch (copro2length)
+ {
+ case 2:
+ cd->isas = 1 << ISA_EXT_COP1_16;
+ break;
+ case 4:
+ cd->isas = 1 << ISA_EXT_COP1_32;
+ break;
+ case 6:
+ cd->isas = 1 << ISA_EXT_COP1_48;
+ break;
+ case 8:
+ cd->isas = 1 << ISA_EXT_COP1_64;
+ break;
+ default:
+ /* Shouldn't be anything but 16,32,48,64. */
+ break;
+ }
+
+ my_status = print_insn (cd, pc, info, insnbuf, copro2length);
+
+ if (my_status != copro2length)
+ {
+ (*info->fprintf_func) (info->stream, UNKNOWN_INSN_MSG);
+ my_status = copro2length;
+ }
+
+ status += my_status;
+ }
+#endif
+
+ /* Status should now be the number of bytes that were printed
+ which should be 4 for VLIW32 mode and 64 for VLIW64 mode. */
+
+ if ((!MEP_VLIW64 && (status != 4)) || (MEP_VLIW64 && (status != 8)))
+ return -1;
+ else
+ return status;
+}
+
+/* The two functions mep_examine_vliw[32,64]_insns are used find out
+ which vliw combinaion (16 bit core with 48 bit copro, 32 bit core
+ with 32 bit copro, etc.) is present. Later on, when internally
+ parallel coprocessors are handled, only these functions should
+ need to be changed.
+
+ At this time only the following combinations are supported:
+
+ VLIW32 Mode:
+ 16 bit core insn (core) and 16 bit coprocessor insn (cop1)
+ 32 bit core insn (core)
+ 32 bit coprocessor insn (cop1)
+ Note: As of this time, I do not believe we have enough information
+ to distinguish a 32 bit core insn from a 32 bit cop insn. Also,
+ no 16 bit coprocessor insns have been specified.
+
+ VLIW64 Mode:
+ 16 bit core insn (core) and 48 bit coprocessor insn (cop1)
+ 32 bit core insn (core) and 32 bit coprocessor insn (cop1)
+ 64 bit coprocessor insn (cop1)
+
+ The framework for an internally parallel coprocessor is also
+ present (2nd coprocessor insn is cop2), but at this time it
+ is not used. This only appears to be valid in VLIW64 mode. */
+
+static int
+mep_examine_vliw32_insns (CGEN_CPU_DESC cd, bfd_vma pc, disassemble_info *info)
+{
+ int status;
+ int buflength;
+ int corebuflength;
+ int cop1buflength;
+ int cop2buflength;
+ bfd_byte buf[CGEN_MAX_INSN_SIZE];
+ char indicator16[1];
+ char indicatorcop32[2];
+
+ /* At this time we're not supporting internally parallel coprocessors,
+ so cop2buflength will always be 0. */
+ cop2buflength = 0;
+
+ /* Read in 32 bits. */
+ buflength = 4; /* VLIW insn spans 4 bytes. */
+ status = (*info->read_memory_func) (pc, buf, buflength, info);
+
+ if (status != 0)
+ {
+ (*info->memory_error_func) (status, pc, info);
+ return -1;
+ }
+
+ /* Put the big endian representation of the bytes to be examined
+ in the temporary buffers for examination. */
+
+ if (info->endian == BFD_ENDIAN_BIG)
+ {
+ indicator16[0] = buf[0];
+ indicatorcop32[0] = buf[0];
+ indicatorcop32[1] = buf[1];
+ }
+ else
+ {
+ indicator16[0] = buf[1];
+ indicatorcop32[0] = buf[1];
+ indicatorcop32[1] = buf[0];
+ }
+
+ /* If the two high order bits are 00, 01 or 10, we have a 16 bit
+ core insn and a 48 bit copro insn. */
+
+ if ((indicator16[0] & 0x80) && (indicator16[0] & 0x40))
+ {
+ if ((indicatorcop32[0] & 0xf0) == 0xf0 && (indicatorcop32[1] & 0x07) == 0x07)
+ {
+ /* We have a 32 bit copro insn. */
+ corebuflength = 0;
+ /* All 4 4ytes are one copro insn. */
+ cop1buflength = 4;
+ }
+ else
+ {
+ /* We have a 32 bit core. */
+ corebuflength = 4;
+ cop1buflength = 0;
+ }
+ }
+ else
+ {
+ /* We have a 16 bit core insn and a 16 bit copro insn. */
+ corebuflength = 2;
+ cop1buflength = 2;
+ }
+
+ /* Now we have the distrubution set. Print them out. */
+ status = mep_print_vliw_insns (cd, pc, info, buf, corebuflength,
+ cop1buflength, cop2buflength);
+
+ return status;
+}
+
+static int
+mep_examine_vliw64_insns (CGEN_CPU_DESC cd, bfd_vma pc, disassemble_info *info)
+{
+ int status;
+ int buflength;
+ int corebuflength;
+ int cop1buflength;
+ int cop2buflength;
+ bfd_byte buf[CGEN_MAX_INSN_SIZE];
+ char indicator16[1];
+ char indicator64[4];
+
+ /* At this time we're not supporting internally parallel
+ coprocessors, so cop2buflength will always be 0. */
+ cop2buflength = 0;
+
+ /* Read in 64 bits. */
+ buflength = 8; /* VLIW insn spans 8 bytes. */
+ status = (*info->read_memory_func) (pc, buf, buflength, info);
+
+ if (status != 0)
+ {
+ (*info->memory_error_func) (status, pc, info);
+ return -1;
+ }
+
+ /* We have all 64 bits in the buffer now. We have to figure out
+ what combination of instruction sizes are present. The two
+ high order bits will indicate whether or not we have a 16 bit
+ core insn or not. If not, then we have to look at the 7,8th
+ bytes to tell whether we have 64 bit copro insn or a 32 bit
+ core insn with a 32 bit copro insn. Endianness will make a
+ difference here. */
+
+ /* Put the big endian representation of the bytes to be examined
+ in the temporary buffers for examination. */
+
+ /* indicator16[0] = buf[0]; */
+ if (info->endian == BFD_ENDIAN_BIG)
+ {
+ indicator16[0] = buf[0];
+ indicator64[0] = buf[0];
+ indicator64[1] = buf[1];
+ indicator64[2] = buf[2];
+ indicator64[3] = buf[3];
+ }
+ else
+ {
+ indicator16[0] = buf[1];
+ indicator64[0] = buf[1];
+ indicator64[1] = buf[0];
+ indicator64[2] = buf[3];
+ indicator64[3] = buf[2];
+ }
+
+ /* If the two high order bits are 00, 01 or 10, we have a 16 bit
+ core insn and a 48 bit copro insn. */
+
+ if ((indicator16[0] & 0x80) && (indicator16[0] & 0x40))
+ {
+ if ((indicator64[0] & 0xf0) == 0xf0 && (indicator64[1] & 0x07) == 0x07
+ && ((indicator64[2] & 0xfe) != 0xf0 || (indicator64[3] & 0xf4) != 0))
+ {
+ /* We have a 64 bit copro insn. */
+ corebuflength = 0;
+ /* All 8 bytes are one copro insn. */
+ cop1buflength = 8;
+ }
+ else
+ {
+ /* We have a 32 bit core insn and a 32 bit copro insn. */
+ corebuflength = 4;
+ cop1buflength = 4;
+ }
+ }
+ else
+ {
+ /* We have a 16 bit core insn and a 48 bit copro insn. */
+ corebuflength = 2;
+ cop1buflength = 6;
+ }
+
+ /* Now we have the distrubution set. Print them out. */
+ status = mep_print_vliw_insns (cd, pc, info, buf, corebuflength,
+ cop1buflength, cop2buflength);
+
+ return status;
+}
+
+#ifdef MEP_IVC2_SUPPORTED
+
+static int
+print_slot_insn (CGEN_CPU_DESC cd,
+ bfd_vma pc,
+ disassemble_info *info,
+ SLOTS_ATTR slot,
+ bfd_byte *buf)
+{
+ const CGEN_INSN_LIST *insn_list;
+ CGEN_INSN_INT insn_value;
+ CGEN_EXTRACT_INFO ex_info;
+
+ insn_value = cgen_get_insn_value (cd, buf, 32);
+
+ /* Fill in ex_info fields like read_insn would. Don't actually call
+ read_insn, since the incoming buffer is already read (and possibly
+ modified a la m32r). */
+ ex_info.valid = (1 << 8) - 1;
+ ex_info.dis_info = info;
+ ex_info.insn_bytes = buf;
+
+ /* The instructions are stored in hash lists.
+ Pick the first one and keep trying until we find the right one. */
+
+ insn_list = CGEN_DIS_LOOKUP_INSN (cd, (char *) buf, insn_value);
+ while (insn_list != NULL)
+ {
+ const CGEN_INSN *insn = insn_list->insn;
+ CGEN_FIELDS fields;
+ int length;
+
+ if ((CGEN_INSN_ATTR_VALUE (insn, CGEN_INSN_CONFIG)
+ && CGEN_INSN_ATTR_VALUE (insn, CGEN_INSN_CONFIG) != MEP_CONFIG)
+ || ! (CGEN_ATTR_CGEN_INSN_SLOTS_VALUE (CGEN_INSN_ATTRS (insn)) & (1 << slot)))
+ {
+ insn_list = CGEN_DIS_NEXT_INSN (insn_list);
+ continue;
+ }
+
+ if ((insn_value & CGEN_INSN_BASE_MASK (insn))
+ == CGEN_INSN_BASE_VALUE (insn))
+ {
+ /* Printing is handled in two passes. The first pass parses the
+ machine insn and extracts the fields. The second pass prints
+ them. */
+
+ length = CGEN_EXTRACT_FN (cd, insn)
+ (cd, insn, &ex_info, insn_value, &fields, pc);
+
+ /* Length < 0 -> error. */
+ if (length < 0)
+ return length;
+ if (length > 0)
+ {
+ CGEN_PRINT_FN (cd, insn) (cd, info, insn, &fields, pc, length);
+ /* Length is in bits, result is in bytes. */
+ return length / 8;
+ }
+ }
+
+ insn_list = CGEN_DIS_NEXT_INSN (insn_list);
+ }
+
+ if (slot == SLOTS_P0S)
+ (*info->fprintf_func) (info->stream, "*unknown-p0s*");
+ else if (slot == SLOTS_P0)
+ (*info->fprintf_func) (info->stream, "*unknown-p0*");
+ else if (slot == SLOTS_P1)
+ (*info->fprintf_func) (info->stream, "*unknown-p1*");
+ else if (slot == SLOTS_C3)
+ (*info->fprintf_func) (info->stream, "*unknown-c3*");
+ return 0;
+}
+
+static int
+mep_examine_ivc2_insns (CGEN_CPU_DESC cd ATTRIBUTE_UNUSED, bfd_vma pc ATTRIBUTE_UNUSED, disassemble_info *info ATTRIBUTE_UNUSED)
+{
+ int status;
+ int buflength;
+ bfd_byte buf[8];
+ bfd_byte insn[8];
+ int e;
+
+ /* Read in 64 bits. */
+ buflength = 8; /* VLIW insn spans 8 bytes. */
+ status = (*info->read_memory_func) (pc, buf, buflength, info);
+
+ if (status != 0)
+ {
+ (*info->memory_error_func) (status, pc, info);
+ return -1;
+ }
+
+ if (info->endian == BFD_ENDIAN_LITTLE)
+ e = 1;
+ else
+ e = 0;
+
+ if (((unsigned char)buf[0^e] & 0xf0) < 0xc0)
+ {
+ /* <--00--><--11--><--22--><--33--><--44--><--55--><--66--><--77--> */
+ /* V1 [-----core-----][--------p0s-------][------------p1------------] */
+
+ print_insn (cd, pc, info, buf, 2);
+
+ insn[0^e] = 0;
+ insn[1^e] = buf[2^e];
+ insn[2^e] = buf[3^e];
+ insn[3^e] = buf[4^e] & 0xf0;
+ (*info->fprintf_func) (info->stream, " + ");
+ print_slot_insn (cd, pc, info, SLOTS_P0S, insn);
+
+ insn[0^e] = buf[4^e] << 4 | buf[5^e] >> 4;
+ insn[1^e] = buf[5^e] << 4 | buf[6^e] >> 4;
+ insn[2^e] = buf[6^e] << 4 | buf[7^e] >> 4;
+ insn[3^e] = buf[7^e] << 4;
+ (*info->fprintf_func) (info->stream, " + ");
+ print_slot_insn (cd, pc, info, SLOTS_P1, insn);
+ }
+ else if ((buf[0^e] & 0xf0) == 0xf0 && (buf[1^e] & 0x0f) == 0x07)
+ {
+ /* <--00--><--11--><--22--><--33--><--44--><--55--><--66--><--77--> */
+ /* V3 1111[--p0--]0111[--------p0--------][------------p1------------] */
+ /* 00000000111111112222222233333333 */
+
+ insn[0^e] = buf[0^e] << 4 | buf[1^e] >> 4;
+ insn[1^e] = buf[2^e];
+ insn[2^e] = buf[3^e];
+ insn[3^e] = buf[4^e] & 0xf0;
+ print_slot_insn (cd, pc, info, SLOTS_P0, insn);
+
+ insn[0^e] = buf[4^e] << 4 | buf[5^e] >> 4;
+ insn[1^e] = buf[5^e] << 4 | buf[6^e] >> 4;
+ insn[2^e] = buf[6^e] << 4 | buf[7^e] >> 4;
+ insn[3^e] = buf[7^e] << 4;
+ (*info->fprintf_func) (info->stream, " + ");
+ print_slot_insn (cd, pc, info, SLOTS_P1, insn);
+ }
+ else
+ {
+ /* <--00--><--11--><--22--><--33--><--44--><--55--><--66--><--77--> */
+ /* V2 [-------------core-------------]xxxx[------------p1------------] */
+ print_insn (cd, pc, info, buf, 4);
+
+ insn[0^e] = buf[4^e] << 4 | buf[5^e] >> 4;
+ insn[1^e] = buf[5^e] << 4 | buf[6^e] >> 4;
+ insn[2^e] = buf[6^e] << 4 | buf[7^e] >> 4;
+ insn[3^e] = buf[7^e] << 4;
+ (*info->fprintf_func) (info->stream, " + ");
+ print_slot_insn (cd, pc, info, SLOTS_P1, insn);
+ }
+
+ return 8;
+}
+
+#endif /* MEP_IVC2_SUPPORTED */
+
+/* This is a hack. SID calls this to update the disassembler as the
+ CPU changes modes. */
+static int mep_ivc2_disassemble_p = 0;
+static int mep_ivc2_vliw_disassemble_p = 0;
+
+void
+mep_print_insn_set_ivc2_mode (int ivc2_p, int vliw_p, int cfg_idx);
+void
+mep_print_insn_set_ivc2_mode (int ivc2_p, int vliw_p, int cfg_idx)
+{
+ mep_ivc2_disassemble_p = ivc2_p;
+ mep_ivc2_vliw_disassemble_p = vliw_p;
+ mep_config_index = cfg_idx;
+}
+
+static int
+mep_print_insn (CGEN_CPU_DESC cd, bfd_vma pc, disassemble_info *info)
+{
+ int status;
+ int cop_type;
+ int ivc2 = 0;
+ static CGEN_ATTR_VALUE_BITSET_TYPE *ivc2_core_isa = NULL;
+
+ if (ivc2_core_isa == NULL)
+ {
+ /* IVC2 has some core-only coprocessor instructions. We
+ use COP32 to flag those, and COP64 for the VLIW ones,
+ since they have the same names. */
+ ivc2_core_isa = cgen_bitset_create (MAX_ISAS);
+ }
+
+ /* Extract and adapt to configuration number, if available. */
+ if (info->section && info->section->owner)
+ {
+ bfd *abfd = info->section->owner;
+ mep_config_index = abfd->tdata.elf_obj_data->elf_header->e_flags & EF_MEP_INDEX_MASK;
+ /* This instantly redefines MEP_CONFIG, MEP_OMASK, .... MEP_VLIW64 */
+
+ cop_type = abfd->tdata.elf_obj_data->elf_header->e_flags & EF_MEP_COP_MASK;
+ if (cop_type == EF_MEP_COP_IVC2)
+ ivc2 = 1;
+ }
+
+ /* Picking the right ISA bitmask for the current context is tricky. */
+ if (info->section)
+ {
+ if (info->section->flags & SEC_MEP_VLIW)
+ {
+#ifdef MEP_IVC2_SUPPORTED
+ if (ivc2)
+ {
+ /* ivc2 has its own way of selecting its functions. */
+ cd->isas = & MEP_CORE_ISA;
+ status = mep_examine_ivc2_insns (cd, pc, info);
+ }
+ else
+#endif
+ /* Are we in 32 or 64 bit vliw mode? */
+ if (MEP_VLIW64)
+ status = mep_examine_vliw64_insns (cd, pc, info);
+ else
+ status = mep_examine_vliw32_insns (cd, pc, info);
+ /* Both the above branches set their own isa bitmasks. */
+ }
+ else
+ {
+ if (ivc2)
+ {
+ cgen_bitset_clear (ivc2_core_isa);
+ cgen_bitset_union (ivc2_core_isa, &MEP_CORE_ISA, ivc2_core_isa);
+ cgen_bitset_union (ivc2_core_isa, &MEP_COP32_ISA, ivc2_core_isa);
+ cd->isas = ivc2_core_isa;
+ }
+ else
+ cd->isas = & MEP_CORE_ISA;
+ status = default_print_insn (cd, pc, info);
+ }
+ }
+ else /* sid or gdb */
+ {
+#ifdef MEP_IVC2_SUPPORTED
+ if (mep_ivc2_disassemble_p)
+ {
+ if (mep_ivc2_vliw_disassemble_p)
+ {
+ cd->isas = & MEP_CORE_ISA;
+ status = mep_examine_ivc2_insns (cd, pc, info);
+ return status;
+ }
+ else
+ {
+ if (ivc2)
+ cd->isas = ivc2_core_isa;
+ }
+ }
+#endif
+
+ status = default_print_insn (cd, pc, info);
+ }
+
+ return status;
+}
+
+
+/* -- opc.c */
+#include "elf/mep.h"
+
+/* A mask for all ISAs executed by the core. */
+CGEN_ATTR_VALUE_BITSET_TYPE mep_all_core_isas_mask = {0, 0};
+
+void
+init_mep_all_core_isas_mask (void)
+{
+ if (mep_all_core_isas_mask.length != 0)
+ return;
+ cgen_bitset_init (& mep_all_core_isas_mask, ISA_MAX);
+ cgen_bitset_set (& mep_all_core_isas_mask, ISA_MEP);
+ /* begin-all-core-isas */
+ cgen_bitset_add (& mep_all_core_isas_mask, ISA_EXT_CORE1);
+ /* end-all-core-isas */
+}
+
+CGEN_ATTR_VALUE_BITSET_TYPE mep_all_cop_isas_mask = {0, 0};
+
+void
+init_mep_all_cop_isas_mask (void)
+{
+ if (mep_all_cop_isas_mask.length != 0)
+ return;
+ cgen_bitset_init (& mep_all_cop_isas_mask, ISA_MAX);
+ /* begin-all-cop-isas */
+ cgen_bitset_add (& mep_all_cop_isas_mask, ISA_EXT_COP1_16);
+ cgen_bitset_add (& mep_all_cop_isas_mask, ISA_EXT_COP1_32);
+ cgen_bitset_add (& mep_all_cop_isas_mask, ISA_EXT_COP1_48);
+ cgen_bitset_add (& mep_all_cop_isas_mask, ISA_EXT_COP1_64);
+ /* end-all-cop-isas */
+}
+
+int
+mep_insn_supported_by_isa (const CGEN_INSN *insn, CGEN_ATTR_VALUE_BITSET_TYPE *isa_mask)
+{
+ CGEN_BITSET insn_isas = CGEN_INSN_BITSET_ATTR_VALUE (insn, CGEN_INSN_ISA);
+ return cgen_bitset_intersect_p (& insn_isas, isa_mask);
+}
+
+#define OPTION_MASK \
+ ( (1 << CGEN_INSN_OPTIONAL_BIT_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_MUL_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_DIV_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_DEBUG_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_LDZ_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_ABS_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_AVE_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_MINMAX_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_CLIP_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_SAT_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_UCI_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_DSP_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_CP_INSN) \
+ | (1 << CGEN_INSN_OPTIONAL_CP64_INSN) )
+
+
+mep_config_map_struct mep_config_map[] =
+{
+ /* config-map-start */
+ /* Default entry: first module, with all options enabled. */
+ { "", 0, EF_MEP_COP_IVC2 | EF_MEP_CPU_C5,0, 64, { 1, "\x20" }, { 1, "\x10" }, { 1, "\x8" }, { 1, "\x4" }, { 1, "\x3c" }, { 1, "\xc0" }, OPTION_MASK | (1 << CGEN_INSN_OPTIONAL_DSP_INSN) | (1 << CGEN_INSN_OPTIONAL_UCI_INSN) },
+ { "default", CONFIG_DEFAULT, EF_MEP_COP_IVC2 | EF_MEP_CPU_C5, 0, 64, { 1, "\x20" }, { 1, "\x10" }, { 1, "\x8" }, { 1, "\x4" }, { 1, "\x3c" }, { 1, "\xc0" },
+ 0
+ | (1 << CGEN_INSN_OPTIONAL_CP_INSN)
+ | (1 << CGEN_INSN_OPTIONAL_CP64_INSN)
+ | (1 << CGEN_INSN_OPTIONAL_MUL_INSN)
+ | (1 << CGEN_INSN_OPTIONAL_DIV_INSN)
+ | (1 << CGEN_INSN_OPTIONAL_BIT_INSN)
+ | (1 << CGEN_INSN_OPTIONAL_LDZ_INSN)
+ | (1 << CGEN_INSN_OPTIONAL_ABS_INSN)
+ | (1 << CGEN_INSN_OPTIONAL_AVE_INSN)
+ | (1 << CGEN_INSN_OPTIONAL_MINMAX_INSN)
+ | (1 << CGEN_INSN_OPTIONAL_CLIP_INSN)
+ | (1 << CGEN_INSN_OPTIONAL_SAT_INSN) },
+ /* config-map-end */
+ { 0, 0, 0, 0, 0, {0, 0}, {0, 0}, {0, 0}, {0, 0}, {0, 0}, {0, 0}, 0 }
+};
+
+int mep_config_index = 0;
+
+static int
+check_configured_mach (int machs)
+{
+ /* All base insns are supported. */
+ int mach = 1 << MACH_BASE;
+ switch (MEP_CPU & EF_MEP_CPU_MASK)
+ {
+ case EF_MEP_CPU_C2:
+ case EF_MEP_CPU_C3:
+ mach |= (1 << MACH_MEP);
+ break;
+ case EF_MEP_CPU_H1:
+ mach |= (1 << MACH_H1);
+ break;
+ case EF_MEP_CPU_C5:
+ mach |= (1 << MACH_MEP);
+ mach |= (1 << MACH_C5);
+ break;
+ default:
+ break;
+ }
+ return machs & mach;
+}
+
+int
+mep_cgen_insn_supported (CGEN_CPU_DESC cd, const CGEN_INSN *insn)
+{
+ int iconfig = CGEN_INSN_ATTR_VALUE (insn, CGEN_INSN_CONFIG);
+ int machs = CGEN_INSN_ATTR_VALUE (insn, CGEN_INSN_MACH);
+ CGEN_BITSET isas = CGEN_INSN_BITSET_ATTR_VALUE (insn, CGEN_INSN_ISA);
+ int ok1;
+ int ok2;
+ int ok3;
+
+ /* If the insn has an option bit set that we don't want,
+ reject it. */
+ if (CGEN_INSN_ATTRS (insn)->bool_ & OPTION_MASK & ~MEP_OMASK)
+ return 0;
+
+ /* If attributes are absent, assume no restriction. */
+ if (machs == 0)
+ machs = ~0;
+
+ ok1 = ((machs & cd->machs) && cgen_bitset_intersect_p (& isas, cd->isas));
+ /* If the insn is config-specific, make sure it matches. */
+ ok2 = (iconfig == 0 || iconfig == MEP_CONFIG);
+ /* Make sure the insn is supported by the configured mach */
+ ok3 = check_configured_mach (machs);
+
+ return (ok1 && ok2 && ok3);
+}
+
+int
+mep_cgen_insn_supported_asm (CGEN_CPU_DESC cd, const CGEN_INSN *insn)
+{
+#ifdef MEP_IVC2_SUPPORTED
+ /* If we're assembling VLIW packets, ignore the 12-bit BSR as we
+ can't relax that. The 24-bit BSR is matched instead. */
+ if (insn->base->num == MEP_INSN_BSR12
+ && cgen_bitset_contains (cd->isas, ISA_EXT_COP1_64))
+ return 0;
+#endif
+
+ return mep_cgen_insn_supported (cd, insn);
+}
--- /dev/null
+; OpenRISC family. -*- Scheme -*-
+; Copyright 2000, 2001, 2011 Free Software Foundation, Inc.
+; Contributed by Johan Rydberg, jrydberg@opencores.org
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 2 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA.
+
+(include "simplify.inc")
+
+; OpenRISC 1000 is an architecture of a family of open source,
+; synthesizeable RISC microprocessor cores. It is a 32-bit load
+; and store RISC architecture designed with emphasis on speed,
+; compact instruction set and scalability. OpenRISC 1000 targets
+; wide range of embedded environments.
+
+(define-arch
+ (name openrisc)
+ (comment "OpenRISC 1000")
+ (insn-lsb0? #t)
+ (machs openrisc or1300)
+ (isas or32)
+)
+
+\f
+; Attributes
+
+; An attribute to describe if a model has insn and/or data caches.
+(define-attr
+ (for model)
+ (type enum)
+ (name HAS-CACHE)
+ (comment "if this model has caches")
+ (values DATA-CACHE INSN-CACHE)
+)
+
+; An attribute to describe if an insn can be in the delay slot or not.
+(define-attr
+ (for insn)
+ (type boolean)
+ (name NOT-IN-DELAY-SLOT)
+ (comment "insn can't go in delay slot")
+)
+
+; IDOC attribute for instruction documentation.
+
+(define-attr
+ (for insn)
+ (type enum)
+ (name IDOC)
+ (comment "insn kind for documentation")
+ (attrs META)
+ (values
+ (MEM - () "Memory")
+ (ALU - () "ALU")
+ (FPU - () "FPU")
+ (BR - () "Branch")
+ (PRIV - () "Priviledged")
+ (MISC - () "Miscellaneous")
+ )
+)
+
+; Enum for exception vectors.
+(define-enum
+ (name e-exception)
+ (comment "exception vectors")
+ (attrs)
+ (prefix E_)
+ (values (("RESET") ("BUSERR" -) ("DPF" -) ("IPF" -) ("EXTINT" -) ("ALIGN" -)
+ ("ILLEGAL" -) ("PEINT" -) ("DTLBMISS" -) ("ITLBMISS" -) ("RRANGE" -)
+ ("SYSCALL" -) ("BREAK" -) ("RESERVED" -)))
+)
+
+\f
+; Instruction set parameters.
+
+(define-isa
+ ; Name of the ISA.
+ (name or32)
+
+ ; Base insturction length. The insns is always 32 bits wide.
+ (base-insn-bitsize 32)
+
+ ; Address of insn in delay slot
+ (setup-semantics (set-quiet (reg h-delay-insn) (add pc 4)))
+)
+
+\f
+; CPU family definitions.
+
+(define-cpu
+ ; CPU names must be distinct from the architecture name and machine names.
+ ; The "b" suffix stands for "base" and is the convention.
+ ; The "f" suffix stands for "family" and is the convention.
+ (name openriscbf)
+ (comment "OpenRISC base family")
+ (endian big)
+ (word-bitsize 32)
+)
+
+; Generic machine
+(define-mach
+ (name openrisc)
+ (comment "Generic OpenRISC cpu")
+ (cpu openriscbf)
+ (bfd-name "openrisc")
+)
+
+; OpenRISC 1300 machine
+(define-mach
+ (name or1300)
+ (comment "OpenRISC 1300")
+ (cpu openriscbf)
+ (bfd-name "openrisc:1300")
+)
+
+\f
+; Model descriptions
+
+; Generic OpenRISC model
+(define-model
+ (name openrisc-1) (comment "OpenRISC generic model") (attrs)
+ (mach openrisc)
+
+ ; Nothing special about this.
+ (unit u-exec "Execution Unit" () 1 1 () () () ())
+)
+
+; OpenRISC 1320
+(define-model
+ (name or1320-1) (comment "OpenRISC 1320 model")
+
+ ; This model has both instruction and data cache
+ (attrs (HAS-CACHE INSN-CACHE,DATA-CACHE))
+ (mach or1300)
+
+ ; Nothing special about this.
+ (unit u-exec "Execution Unit" () 1 1 () () () ())
+)
+
+\f
+; Instruction fields.
+
+; Attributes:
+; . PCREL-ADDR pc relative value (for reloc and disassembly purposes)
+; . ABS-ADDR absolute address (for reloc and disassembly purposes?)
+; . RESERVED bits are not used to decode insn, must be all 0
+
+; Instruction classes.
+(dnf f-class "insn class" () 31 2)
+(dnf f-sub "sub class" () 29 4)
+
+; Register fields.
+(dnf f-r1 "r1" () 25 5)
+(dnf f-r2 "r2" () 20 5)
+(dnf f-r3 "r3" () 15 5)
+
+; Immediates.
+(df f-simm16 "signed imm (16)" () 15 16 INT #f #f)
+(dnf f-uimm16 "unsigned imm (16)" () 15 16)
+(dnf f-uimm5 "unsigned imm (5)" () 4 5)
+(df f-hi16 "high 16" () 15 16 INT #f #f)
+(df f-lo16 "low 16" () 15 16 INT #f #f)
+
+; Sub fields
+(dnf f-op1 "op1" () 31 2)
+(dnf f-op2 "op2" () 29 4)
+(dnf f-op3 "op3" () 25 2)
+(dnf f-op4 "op4" () 23 3)
+(dnf f-op5 "op3" () 25 5)
+(dnf f-op6 "op4" () 7 3)
+(dnf f-op7 "op5" () 3 4)
+
+(dnf f-i16-1 "uimm16-1" () 10 11)
+(dnf f-i16-2 "uimm16-2" () 25 5)
+
+; PC relative, 26-bit (2 shifted to right)
+(df f-disp26 "disp26" (PCREL-ADDR) 25 26 INT
+ ((value pc) (sra WI (sub WI value pc) (const 2)))
+ ((value pc) (add WI (sll WI value (const 2)) pc)))
+
+; absolute, 26-bit (2 shifted to right)
+(df f-abs26 "abs26" (ABS-ADDR) 25 26 INT
+ ((value pc) (sra WI pc (const 2)))
+ ((value pc) (sll WI value (const 2))))
+
+(define-multi-ifield
+ (name f-i16nc)
+ (comment "16 bit signed")
+ (attrs SIGN-OPT)
+ (mode HI)
+ (subfields f-i16-1 f-i16-2)
+ (insert (sequence ()
+ (set (ifield f-i16-2) (and (sra (ifield f-i16nc)
+ (const 11))
+ (const #x1f)))
+ (set (ifield f-i16-1) (and (ifield f-i16nc)
+ (const #x7ff)))))
+ (extract (sequence ()
+ (set (ifield f-i16nc) (c-raw-call SI "@arch@_sign_extend_16bit"
+ (or (sll (ifield f-i16-2)
+ (const 11))
+ (ifield f-i16-1))))))
+)
+
+\f
+; Enums.
+
+; insn-class: bits 31-30
+(define-normal-insn-enum insn-class "FIXME" () OP1_ f-class
+ (.map .str (.iota 4))
+)
+
+(define-normal-insn-enum insn-sub "FIXME" () OP2_ f-sub
+ (.map .str (.iota 16))
+)
+
+(define-normal-insn-enum insn-op3 "FIXME" () OP3_ f-op3
+ (.map .str (.iota 4))
+)
+
+(define-normal-insn-enum insn-op4 "FIXME" () OP4_ f-op4
+ (.map .str (.iota 8))
+)
+
+(define-normal-insn-enum insn-op5 "FIXME" () OP5_ f-op5
+ (.map .str (.iota 32))
+)
+
+(define-normal-insn-enum insn-op6 "FIXME" () OP6_ f-op6
+ (.map .str (.iota 8))
+)
+
+(define-normal-insn-enum insn-op7 "FIXME" () OP7_ f-op7
+ (.map .str (.iota 16))
+)
+
+
+\f
+; Hardware pieces.
+; These entries list the elements of the raw hardware.
+; They're also used to provide tables and other elements of the assembly
+; language.
+
+(dnh h-pc "program counter" (PC PROFILE) (pc) () () ())
+
+(define-hardware
+ (name h-gr) (comment "general registers") (attrs PROFILE)
+ (type register WI (32))
+ (indices keyword ""
+ ((r0 0) (r1 1) (r2 2) (r3 3) (r4 4) (r5 5) (r6 6) (r7 7)
+ (r8 8) (r9 9) (r10 10) (r11 11) (r12 12) (r13 13) (r14 14)
+ (r15 15) (r16 16) (r17 17) (r18 18) (r19 19) (r20 20)
+ (r21 21) (r22 22) (r23 23) (r24 24) (r25 25) (r26 26)
+ (r27 27) (r28 28) (r29 29) (r30 30) (r31 31) (lr 11)
+ (sp 1) (fp 2)))
+)
+
+(define-hardware
+ (name h-sr) (comment "special registers")
+ (type register WI (#x20000))
+ (get (index) (c-call SI "@arch@_h_sr_get_handler" index))
+ (set (index newval) (c-call VOID "@arch@_h_sr_set_handler" index newval))
+)
+
+(dnh h-hi16 "high 16 bits" () (immediate (INT 16)) () () ())
+(dnh h-lo16 "low 16 bits" () (immediate (INT 16)) () () ())
+
+(dsh h-cbit "condition bit" () (register BI))
+(dsh h-delay-insn "delay insn addr" () (register SI))
+
+\f
+; Instruction operands.
+
+(dnop sr "special register" (SEM-ONLY) h-sr f-nil)
+(dnop cbit "condition bit" (SEM-ONLY) h-cbit f-nil)
+(dnop simm-16 "16 bit signed immediate" () h-sint f-simm16)
+(dnop uimm-16 "16 bit unsigned immediate" () h-uint f-uimm16)
+(dnop disp-26 "pc-rel 26 bit" () h-iaddr f-disp26)
+(dnop abs-26 "abs 26 bit" () h-iaddr f-abs26)
+(dnop uimm-5 "imm5" () h-uint f-uimm5)
+
+(dnop rD "destination register" () h-gr f-r1)
+(dnop rA "source register A" () h-gr f-r2)
+(dnop rB "source register B" () h-gr f-r3)
+
+(dnop op-f-23 "f-op23" () h-uint f-op4)
+(dnop op-f-3 "f-op3" () h-uint f-op5)
+
+; For hi(foo).
+(define-operand
+ (name hi16) (comment "high 16 bit immediate, sign optional")
+ (attrs SIGN-OPT)
+ (type h-hi16)
+ (index f-simm16)
+ (handlers (parse "hi16"))
+)
+
+; For lo(foo)
+(define-operand
+ (name lo16) (comment "low 16 bit immediate, sign optional")
+ (attrs SIGN-OPT)
+ (type h-lo16)
+ (index f-lo16)
+ (handlers (parse "lo16"))
+)
+
+(define-operand
+ (name ui16nc)
+ (comment "16 bit immediate, sign optional")
+ (attrs)
+ (type h-lo16)
+ (index f-i16nc)
+ (handlers (parse "lo16"))
+)
+
+\f
+; Instructions.
+
+; Branch releated instructions
+
+(dni l-j "jump (absolute iaddr)"
+ ; This function may not be in delay slot
+ (NOT-IN-DELAY-SLOT)
+
+ "l.j ${abs-26}"
+ (+ OP1_0 OP2_0 abs-26)
+
+ ; We execute the delay slot before doin' the real branch
+ (delay 1 (set pc abs-26))
+ ()
+)
+
+(dni l-jal "jump and link (absolute iaddr)"
+ ; This function may not be in delay slot
+ (NOT-IN-DELAY-SLOT)
+
+ "l.jal ${abs-26}"
+ (+ OP1_0 OP2_1 abs-26)
+
+ ; We execute the delay slot before doin' the real branch
+ ; Set LR to (delay insn addr + 4)
+ (sequence ()
+ (set (reg h-gr 11) (add (reg h-delay-insn) 4))
+ (delay 1 (set pc abs-26)))
+ ()
+)
+
+(dni l-jr "jump register (absolute iaddr)"
+ ; This function may not be in delay slot
+ (NOT-IN-DELAY-SLOT)
+
+ "l.jr $rA"
+ (+ OP1_0 OP2_5 OP3_0 OP4_0 rA uimm-16)
+
+ ; We execute the delay slot before doin' the real branch
+ (delay 1 (set pc rA))
+ ()
+)
+
+(dni l-jalr "jump register and link (absolute iaddr)"
+ ; This function may not be in delay slot
+ (NOT-IN-DELAY-SLOT)
+
+ "l.jalr $rA"
+ (+ OP1_0 OP2_5 OP3_0 OP4_1 rA uimm-16)
+
+ ; We save the value of rA in a temporary slot before setting
+ ; the link register. This because "l.jalr r11" would cause
+ ; a forever-and-ever loop otherwise.
+ ;
+ ; We execute the delay slot before doin' the real branch
+ (sequence ((WI tmp-slot))
+ (set tmp-slot rA)
+ (set (reg h-gr 11) (add (reg h-delay-insn) 4))
+ (delay 1 (set pc tmp-slot)))
+ ()
+)
+
+(dni l-bal "branch and link (pc relative iaddr)"
+ ; This function may not be in delay slot
+ (NOT-IN-DELAY-SLOT)
+
+ "l.bal ${disp-26}"
+ (+ OP1_0 OP2_2 disp-26)
+
+ ; We execute the delay slot before doin' the real branch
+ ; Set LR to (delay insn addr + 4)
+ (sequence ()
+ (set (reg h-gr 11) (add (reg h-delay-insn) 4))
+ (delay 1 (set pc disp-26)))
+ ()
+)
+
+(dni l-bnf "branch if condition bit not set (pc relative iaddr)"
+ ; This function may not be in delay slot
+ (NOT-IN-DELAY-SLOT)
+
+ "l.bnf ${disp-26}"
+ (+ OP1_0 OP2_3 disp-26)
+
+ ; We execute the delay slot before doin' the real branch
+ (if (eq cbit 0)
+ (sequence ()
+ (delay 1 (set pc disp-26))))
+ ()
+)
+
+(dni l-bf "branch if condition bit is set (pc relative iaddr)"
+ ; This function may not be in delay slot
+ (NOT-IN-DELAY-SLOT)
+
+ "l.bf ${disp-26}"
+ (+ OP1_0 OP2_4 disp-26)
+
+ ; We execute the delay slot before doin' the real branch
+ (if (eq cbit 1)
+ (sequence ()
+ (delay 1 (set pc disp-26))))
+ ()
+)
+
+(dni l-brk "break (exception)"
+ ; This function may not be in delay slot
+ (NOT-IN-DELAY-SLOT)
+
+ "l.brk ${uimm-16}"
+ (+ OP1_0 OP2_5 OP3_3 OP4_0 rA uimm-16)
+
+ ; FIXME should we do it like this ??
+ (c-call VOID "@cpu@_cpu_brk" uimm-16)
+ ()
+)
+
+(dni l-rfe "return from exception"
+ ; This function may not be in delay slot
+ (NOT-IN-DELAY-SLOT)
+
+ "l.rfe $rA"
+ (+ OP1_0 OP2_5 OP3_0 OP4_2 rA uimm-16)
+ (sequence ()
+ (delay 1 (set pc (c-call SI "@cpu@_cpu_rfe" rA))))
+ ()
+)
+
+(dni l-sys "syscall (exception)"
+ ; This function may not be in delay slot
+ (NOT-IN-DELAY-SLOT)
+
+ "l.sys ${uimm-16}"
+ (+ OP1_0 OP2_5 OP3_2 OP4_0 rA uimm-16)
+ (sequence()
+ (delay 1 (set pc (c-call SI "@cpu@_except" pc
+ #xc00 uimm-16))))
+ ()
+)
+
+\f
+; Misc instructions
+
+(dni l-nop "nop"
+ ()
+ "l.nop"
+ (+ OP1_0 OP2_5 OP3_1 OP4_0 rA uimm-16)
+ (nop)
+ ()
+)
+
+(dnmi l-ret "ret" ()
+ "l.ret"
+ (emit l-jr (rA 11) (uimm-16 0))
+)
+
+(dni l-movhi "movhi"
+ (DELAY-SLOT)
+ "l.movhi $rD,$hi16"
+ (+ OP1_0 OP2_6 hi16 rD rA)
+ (set rD (sll WI hi16 (const 16)))
+ ()
+)
+
+\f
+; System releated instructions
+
+(dni l-mfsr "mfsr"
+ (DELAY-SLOT)
+ "l.mfsr $rD,$rA"
+ (+ OP1_0 OP2_7 rD rA uimm-16)
+ (set rD (c-call SI "@cpu@_cpu_mfsr" rA))
+ ()
+)
+
+(dni l-mtsr "mtsr"
+ (DELAY-SLOT)
+ "l.mtsr $rA,$rB"
+ (+ OP1_1 OP2_0 rA rB rD (f-i16-1 0))
+ (c-call VOID "@cpu@_cpu_mtsr" rA rB)
+ ()
+)
+
+
+\f
+; Load instructions
+
+(dni l-lw "load word"
+ (DELAY-SLOT)
+ "l.lw $rD,${simm-16}($rA)"
+ (+ OP1_2 OP2_0 rD rA simm-16)
+ (set rD (mem SI (add rA simm-16)))
+ ()
+)
+
+(dni l-lbz "load byte (zero extend)"
+ (DELAY-SLOT)
+ "l.lbz $rD,${simm-16}($rA)"
+ (+ OP1_2 OP2_1 rD rA simm-16)
+ (set rD (zext SI (mem QI (add rA simm-16))))
+ ()
+)
+
+(dni l-lbs "load byte (sign extend)"
+ (DELAY-SLOT)
+ "l.lbs $rD,${simm-16}($rA)"
+ (+ OP1_2 OP2_2 rD rA simm-16)
+ (set rD (ext SI (mem QI (add rA simm-16))))
+ ()
+)
+
+(dni l-lhz "load halfword (zero extend)"
+ (DELAY-SLOT)
+ "l.lhz $rD,${simm-16}($rA)"
+ (+ OP1_2 OP2_3 rD simm-16 rA)
+ (set rD (zext SI (mem HI (add rA simm-16))))
+ ()
+)
+
+(dni l-lhs "load halfword (sign extend)"
+ (DELAY-SLOT)
+ "l.lhs $rD,${simm-16}($rA)"
+ (+ OP1_2 OP2_4 rD rA simm-16)
+ (set rD (ext SI (mem HI (add rA simm-16))))
+ ()
+)
+
+\f
+; Store instructions
+;
+; We have to use a multi field since the integer is splited over 2 fields
+
+(define-pmacro (store-insn mnemonic op2-op mode-op)
+ (begin
+ (dni (.sym l- mnemonic)
+ (.str "l." mnemonic " imm(reg)/reg")
+ (DELAY-SLOT)
+ (.str "l." mnemonic " ${ui16nc}($rA),$rB")
+ (+ OP1_3 op2-op rB rD ui16nc)
+ (set (mem mode-op (add rA ui16nc)) rB)
+ ()
+ )
+ )
+)
+
+(store-insn sw OP2_5 SI)
+(store-insn sb OP2_6 QI)
+(store-insn sh OP2_7 HI)
+
+
+\f
+; Shift and rotate instructions
+
+; Reserved fields.
+(dnf f-f-15-8 "nop" (RESERVED) 15 8)
+(dnf f-f-10-3 "nop" (RESERVED) 10 3)
+(dnf f-f-4-1 "nop" (RESERVED) 4 1)
+(dnf f-f-7-3 "nop" (RESERVED) 7 3)
+
+(define-pmacro (shift-insn mnemonic op4-op)
+ (begin
+ (dni (.sym l- mnemonic)
+ (.str "l." mnemonic " reg/reg/reg")
+ ()
+ (.str "l." mnemonic " $rD,$rA,$rB")
+ (+ OP1_3 OP2_8 rD rA rB (f-f-10-3 0) op4-op (f-f-4-1 0) OP7_8)
+ (set rD (mnemonic rA rB))
+ ()
+ )
+ (dni (.sym l- mnemonic "i")
+ (.str "l." mnemonic " reg/reg/imm")
+ ()
+ (.str "l." mnemonic "i $rD,$rA,${uimm-5}")
+ (+ OP1_2 OP2_13 rD rA (f-f-15-8 0) op4-op uimm-5)
+ (set rD (mnemonic rA uimm-5))
+ ()
+ )
+ )
+)
+
+(shift-insn sll OP6_0)
+(shift-insn srl OP6_1)
+(shift-insn sra OP6_2)
+(shift-insn ror OP6_4)
+
+\f
+; Arethmetic insns
+
+; Reserved fields.
+(dnf f-f-10-7 "nop" (RESERVED) 10 7)
+
+(define-pmacro (ar-insn-u mnemonic op2-op op5-op)
+ (begin
+ (dni (.sym l- mnemonic)
+ (.str "l." mnemonic " reg/reg/reg")
+ ()
+ (.str "l." mnemonic " $rD,$rA,$rB")
+ (+ OP1_3 OP2_8 rD rA rB (f-f-10-7 0) op5-op)
+ (set rD (mnemonic rA rB))
+ ()
+ )
+ (dni (.sym l- mnemonic "i")
+ (.str "l." mnemonic " reg/reg/lo16")
+ ()
+ (.str "l." mnemonic "i $rD,$rA,$lo16")
+ (+ OP1_2 op2-op rD rA lo16)
+ (set rD (mnemonic rA (and lo16 #xffff)))
+ ()
+ )
+ )
+)
+
+(define-pmacro (ar-insn-s mnemonic op2-op op5-op)
+ (begin
+ (dni (.sym l- mnemonic)
+ (.str "l." mnemonic " reg/reg/reg")
+ ()
+ (.str "l." mnemonic " $rD,$rA,$rB")
+ (+ OP1_3 OP2_8 rD rA rB (f-f-10-7 0) op5-op)
+ (set rD (mnemonic rA rB))
+ ()
+ )
+ (dni (.sym l- mnemonic "i")
+ (.str "l." mnemonic " reg/reg/lo16")
+ ()
+ (.str "l." mnemonic "i $rD,$rA,$lo16")
+ (+ OP1_2 op2-op rD rA lo16)
+ (set rD (mnemonic rA lo16))
+ ()
+ )
+ )
+)
+
+(ar-insn-s add OP2_5 OP7_0)
+;;(ar-op-s addc OP2_5 OP7_0)
+(ar-insn-s sub OP2_7 OP7_2)
+(ar-insn-u and OP2_8 OP7_3)
+(ar-insn-u or OP2_9 OP7_4)
+(ar-insn-u xor OP2_10 OP7_5)
+(ar-insn-u mul OP2_11 OP7_6)
+;;(ar-op-u mac OP2_12 OP7_7)
+
+
+(dni l-div "divide (signed)"
+ (DELAY-SLOT)
+ "l.div $rD,$rA,$rB"
+ (+ OP1_3 OP2_8 rD rA rB (f-f-10-7 0) OP7_9)
+ (if VOID (eq rB (const 0))
+ (c-call VOID "@arch@_cpu_trap" pc (enum SI E_ILLEGAL))
+ (set rD (div rA rB)))
+ ()
+)
+
+(dni l-divu "divide (unsigned)"
+ (DELAY-SLOT)
+ "l.divu $rD,$rA,$rB"
+ (+ OP1_3 OP2_8 rD rA rB (f-f-10-7 0) OP7_10)
+ (if VOID (eq rB (const 0))
+ (c-call VOID "@arch@_cpu_trap" pc (enum SI E_ILLEGAL))
+ (set rD (udiv rA rB)))
+ ()
+)
+
+\f
+; Compare instructions
+
+; Reserved fields.
+(dnf f-f-10-11 "nop" (RESERVED) 10 11)
+
+; Register compare (both signed and unsigned)
+(define-pmacro (sf-insn-r op1-op op2-op op3-op op3-op-2 sem-op)
+ (begin
+ (dni (.sym l- "sf" (.sym sem-op "s"))
+ (.str "l." mnemonic " reg/reg")
+ (DELAY-SLOT)
+ (.str "l.sf" (.str sem-op) "s $rA,$rB")
+ (+ op1-op op2-op op3-op-2 rA rB (f-f-10-11 0))
+ (set cbit (sem-op rA rB))
+ ()
+ )
+ (dni (.sym l- "sf" (.sym sem-op "u"))
+ (.str "l." mnemonic " reg/reg")
+ (DELAY-SLOT)
+ (.str "l.sf" (.str sem-op) "u $rA,$rB")
+ (+ op1-op op2-op op3-op rA rB (f-f-10-11 0))
+ (set cbit (sem-op rA rB))
+ ()
+ )
+ )
+)
+
+; Immediate compare (both signed and unsigned)
+(define-pmacro (sf-insn-i op1-op op2-op op3-op op3-op-2 sem-op)
+ (begin
+ (dni (.sym l- "sf" (.sym sem-op "si"))
+ (.str "l." mnemonic "si reg/imm")
+ (DELAY-SLOT)
+ (.str "l.sf" (.str sem-op) "si $rA,${simm-16}")
+ (+ op1-op op2-op op3-op-2 rA simm-16)
+ (set cbit (sem-op rA simm-16))
+ ()
+ )
+ (dni (.sym l- "sf" (.sym sem-op "ui"))
+ (.str "l." mnemonic "ui reg/imm")
+ (DELAY-SLOT)
+ (.str "l.sf" (.str sem-op) "ui $rA,${uimm-16}")
+ (+ op1-op op2-op op3-op rA uimm-16)
+ (set cbit (sem-op rA uimm-16))
+ ()
+ )
+ )
+)
+
+(define-pmacro (sf-insn op5-op sem-op)
+ (begin
+ (dni (.sym l- "sf" sem-op)
+ (.str "l." mnemonic " reg/reg")
+ (DELAY-SLOT)
+ (.str "l.sf" (.str sem-op) " $rA,$rB")
+ (+ OP1_3 OP2_9 op5-op rA rB (f-f-10-11 0))
+ (set cbit (sem-op rA rB))
+ ()
+ )
+ (dni (.sym l- "sf" (.sym sem-op "i"))
+ (.str "l." mnemonic "i reg/imm")
+ (DELAY-SLOT)
+ (.str "l.sf" (.str sem-op) "i $rA,${simm-16}")
+ (+ OP1_2 OP2_14 op5-op rA simm-16)
+ (set cbit (sem-op rA simm-16))
+ ()
+ )
+ )
+)
+
+
+(sf-insn-r OP1_3 OP2_9 OP5_2 OP5_6 gt)
+(sf-insn-r OP1_3 OP2_9 OP5_3 OP5_7 ge)
+(sf-insn-r OP1_3 OP2_9 OP5_4 OP5_8 lt)
+(sf-insn-r OP1_3 OP2_9 OP5_5 OP5_9 le)
+
+(sf-insn-i OP1_2 OP2_14 OP5_2 OP5_6 gt)
+(sf-insn-i OP1_2 OP2_14 OP5_3 OP5_7 ge)
+(sf-insn-i OP1_2 OP2_14 OP5_4 OP5_8 lt)
+(sf-insn-i OP1_2 OP2_14 OP5_5 OP5_9 le)
+
+(sf-insn OP5_0 eq)
+(sf-insn OP5_1 ne)
--- /dev/null
+/* OpenRISC opcode support. -*- C -*-
+ Copyright 2000, 2001, 2003, 2005, 2011 Free Software Foundation, Inc.
+
+ Contributed by Red Hat Inc;
+
+ This file is part of the GNU Binutils.
+
+ This program is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 3 of the License, or
+ (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+ MA 02110-1301, USA. */
+
+/* This file is an addendum to or32.cpu. Heavy use of C code isn't
+ appropriate in .cpu files, so it resides here. This especially applies
+ to assembly/disassembly where parsing/printing can be quite involved.
+ Such things aren't really part of the specification of the cpu, per se,
+ so .cpu files provide the general framework and .opc files handle the
+ nitty-gritty details as necessary.
+
+ Each section is delimited with start and end markers.
+
+ <arch>-opc.h additions use: "-- opc.h"
+ <arch>-opc.c additions use: "-- opc.c"
+ <arch>-asm.c additions use: "-- asm.c"
+ <arch>-dis.c additions use: "-- dis.c"
+ <arch>-ibd.h additions use: "-- ibd.h" */
+
+/* -- opc.h */
+#undef CGEN_DIS_HASH_SIZE
+#define CGEN_DIS_HASH_SIZE 64
+#undef CGEN_DIS_HASH
+#define CGEN_DIS_HASH(buffer, value) (((unsigned char *) (buffer))[0] >> 2)
+
+extern long openrisc_sign_extend_16bit (long);
+/* -- */
+
+/* -- opc.c */
+/* -- */
+
+/* -- asm.c */
+
+static const char * MISSING_CLOSING_PARENTHESIS = N_("missing `)'");
+
+#define CGEN_VERBOSE_ASSEMBLER_ERRORS
+
+long
+openrisc_sign_extend_16bit (long value)
+{
+ return ((value & 0xffff) ^ 0x8000) - 0x8000;
+}
+
+/* Handle hi(). */
+
+static const char *
+parse_hi16 (CGEN_CPU_DESC cd, const char ** strp, int opindex, long * valuep)
+{
+ const char *errmsg;
+ enum cgen_parse_operand_result result_type;
+ unsigned long ret;
+
+ if (**strp == '#')
+ ++*strp;
+
+ if (strncasecmp (*strp, "hi(", 3) == 0)
+ {
+ bfd_vma value;
+
+ *strp += 3;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_HI16,
+ & result_type, & value);
+ if (**strp != ')')
+ return MISSING_CLOSING_PARENTHESIS;
+
+ ++*strp;
+ if (errmsg == NULL
+ && result_type == CGEN_PARSE_OPERAND_RESULT_NUMBER)
+ value >>= 16;
+ ret = value;
+ }
+ else
+ {
+ if (**strp == '-')
+ {
+ long value;
+
+ errmsg = cgen_parse_signed_integer (cd, strp, opindex, &value);
+ ret = value;
+ }
+ else
+ {
+ unsigned long value;
+
+ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, &value);
+ ret = value;
+ }
+ }
+
+ *valuep = ((ret & 0xffff) ^ 0x8000) - 0x8000;
+ return errmsg;
+}
+
+/* Handle lo(). */
+
+static const char *
+parse_lo16 (CGEN_CPU_DESC cd, const char ** strp, int opindex, long * valuep)
+{
+ const char *errmsg;
+ enum cgen_parse_operand_result result_type;
+ unsigned long ret;
+
+ if (**strp == '#')
+ ++*strp;
+
+ if (strncasecmp (*strp, "lo(", 3) == 0)
+ {
+ bfd_vma value;
+
+ *strp += 3;
+ errmsg = cgen_parse_address (cd, strp, opindex, BFD_RELOC_LO16,
+ & result_type, & value);
+ if (**strp != ')')
+ return MISSING_CLOSING_PARENTHESIS;
+
+ ++*strp;
+ ret = value;
+ }
+ else
+ {
+ if (**strp == '-')
+ {
+ long value;
+
+ errmsg = cgen_parse_signed_integer (cd, strp, opindex, &value);
+ ret = value;
+ }
+ else
+ {
+ unsigned long value;
+
+ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, &value);
+ ret = value;
+ }
+ }
+
+ *valuep = ((ret & 0xffff) ^ 0x8000) - 0x8000;
+ return errmsg;
+}
+
+/* -- */
+
+/* -- ibd.h */
+extern long openrisc_sign_extend_16bit (long);
+
+/* -- */
--- /dev/null
+; xstormy16 CPU core description. -*- Scheme -*-
+; Copyright 2011 Free Software Foundation, Inc.
+;
+; Contributed by Red Hat Inc;
+;
+; This file is part of the GNU Binutils.
+;
+; This program is free software; you can redistribute it and/or modify
+; it under the terms of the GNU General Public License as published by
+; the Free Software Foundation; either version 3 of the License, or
+; (at your option) any later version.
+;
+; This program is distributed in the hope that it will be useful,
+; but WITHOUT ANY WARRANTY; without even the implied warranty of
+; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+; GNU General Public License for more details.
+;
+; You should have received a copy of the GNU General Public License
+; along with this program; if not, write to the Free Software
+; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+; MA 02110-1301, USA.
+
+(define-rtl-version 0 8)
+
+(include "simplify.inc")
+
+(define-arch
+ (name xstormy16)
+ (comment "Xstormy16 architecture")
+ (insn-lsb0? #f)
+ (machs xstormy16)
+ (isas xstormy16)
+)
+
+(define-isa
+ (name xstormy16)
+ (comment "Xstormy16 instruction set")
+ (default-insn-word-bitsize 32)
+ (default-insn-bitsize 32)
+ ; FIXME base-insn-bitsize should be 16 too, but at present CGEN has
+ ; no support for instruction sets with opcode bits past
+ ; base-insn-bitsize, so we must set it to at least 20.
+ (base-insn-bitsize 32)
+)
+
+(define-cpu
+ (name xstormy16)
+ (comment "Xstormy16 CPU core")
+ (endian little)
+ (insn-endian little)
+ (insn-chunk-bitsize 16)
+ (word-bitsize 32)
+)
+
+(define-mach
+ (name xstormy16)
+ (comment "Xstormy16 CPU core")
+ (cpu xstormy16)
+ (isas xstormy16)
+)
+
+(define-model
+ (name xstormy16)
+ (comment "Xstormy16 CPU core")
+ (unit u-exec "Execution Unit" ()
+ 1 1 ; issue done
+ () () () ())
+)
+
+; IDOC attribute for instruction documentation.
+
+(define-attr
+ (for insn)
+ (type enum)
+ (name IDOC)
+ (comment "insn kind for documentation")
+ (attrs META)
+ (values
+ (MEM - () "Memory")
+ (ALU - () "ALU")
+ (FPU - () "FPU")
+ (BR - () "Branch")
+ (PRIV - () "Priviledged")
+ (MISC - () "Miscellaneous")
+ )
+)
+\f
+; Hardware elements.
+
+(define-hardware
+ (name h-pc)
+ (comment "program counter")
+ (attrs PC)
+ (type pc)
+ (set (newval) (c-call "h_pc_set_handler" newval))
+)
+
+(define-keyword
+ (name gr-names)
+ (enum-prefix H-GR-)
+ (values (r0 0) (r1 1) (r2 2) (r3 3)
+ (r4 4) (r5 5) (r6 6) (r7 7)
+ (r8 8) (r9 9) (r10 10) (r11 11)
+ (r12 12) (r13 13) (r14 14) (r15 15)
+ (psw 14) (sp 15)))
+
+(define-keyword
+ (name gr-Rb-names)
+ (enum-prefix H-RBJ-)
+ (values (r8 0) (r9 1) (r10 2) (r11 3)
+ (r12 4) (r13 5) (r14 6) (r15 7)
+ (psw 6) (sp 7)))
+
+(define-hardware
+ (name h-gr)
+ (comment "registers")
+ (type register WI (16))
+ (indices extern-keyword gr-names)
+ (get (index) (and #xFFFF (raw-reg h-gr index)))
+ (set (index newval) (c-call "h_gr_set_handler" index newval))
+)
+
+(define-hardware
+ (name h-Rb)
+ (comment "Rb registers")
+ (attrs VIRTUAL)
+ (type register SI(8))
+ (indices extern-keyword gr-Rb-names)
+ (get (index) (reg h-gr (add index 8)))
+ (set (index newval) (set (reg h-gr (add index 8)) newval))
+)
+
+(define-hardware
+ (name h-Rbj)
+ (comment "Rbj registers")
+ (attrs VIRTUAL)
+ (type register SI(2))
+ (indices extern-keyword gr-Rb-names)
+ (get (index) (reg h-gr (add index 8)))
+ (set (index newval) (set (reg h-gr (add index 8)) newval))
+)
+
+(define-hardware
+ (name h-Rpsw)
+ (comment "Register number field of the PSW")
+ (attrs VIRTUAL)
+ (type register WI)
+ (get () (and #xF (srl psw 12)))
+ (set (newval) (set psw (or (and psw #xFFF)
+ (sll HI newval 12)))))
+
+(define-pmacro (define-psw-field fnam hnam index)
+ (define-hardware
+ (name hnam)
+ (attrs VIRTUAL)
+ (type register SI)
+ (get () (and 1 (srl psw index)))
+ (set (newval) (set psw (or (and psw (inv (sll HI 1 index)))
+ (sll HI newval index)))))
+ ;(dnop fnam "" (SEM-ONLY) hnam f-nil)
+)
+(define-psw-field psw-z8 h-z8 0)
+(dnop psw-z8 "" (SEM-ONLY) h-z8 f-nil)
+(define-psw-field psw-z16 h-z16 1)
+(dnop psw-z16 "" (SEM-ONLY) h-z16 f-nil)
+(define-psw-field psw-cy h-cy 2)
+(dnop psw-cy "" (SEM-ONLY) h-cy f-nil)
+(define-psw-field psw-hc h-hc 3)
+(dnop psw-hc "" (SEM-ONLY) h-hc f-nil)
+(define-psw-field psw-ov h-ov 4)
+(dnop psw-ov "" (SEM-ONLY) h-ov f-nil)
+(define-psw-field psw-pt h-pt 5)
+(dnop psw-pt "" (SEM-ONLY) h-pt f-nil)
+(define-psw-field psw-s h-s 6)
+(dnop psw-s "" (SEM-ONLY) h-s f-nil)
+
+(define-hardware
+ (name h-branchcond)
+ (comment "Condition of a branch instruction")
+ (type immediate (UINT 4))
+ (values keyword ""
+ (("ge" 0) ("nc" 1) ("lt" 2) ("c" 3)
+ ("gt" 4) ("hi" 5) ("le" 6) ("ls" 7)
+ ("pl" 8) ("nv" 9) ("mi" 10) ("v" 11)
+ ("nz.b" 12) ("nz" 13) ("z.b" 14) ("z" 15)))
+)
+
+(define-hardware
+ (name h-wordsize)
+ (comment "Data size")
+ (type immediate (UINT 1))
+ (values keyword "" ((".b" 0) (".w" 1) ("" 1)))
+)
+
+\f
+; Instruction fields, and the corresponding operands.
+; Register fields
+
+(dnf f-Rd "general register destination" () 12 4)
+(dnop Rd "general register destination" () h-gr f-Rd)
+
+(dnf f-Rdm "general register destination" () 13 3)
+(dnop Rdm "general register destination" () h-gr f-Rdm)
+
+(dnf f-Rm "general register for memory" () 4 3)
+(dnop Rm "general register for memory" () h-gr f-Rm)
+
+(dnf f-Rs "general register source" () 8 4)
+(dnop Rs "general register source" () h-gr f-Rs)
+
+(dnf f-Rb "base register" () 17 3)
+(dnop Rb "base register" () h-Rb f-Rb)
+
+(dnf f-Rbj "base register for jump" () 11 1)
+(dnop Rbj "base register for jump" () h-Rbj f-Rbj)
+
+; Main opcodes in 4 bit chunks
+
+(dnf f-op1 "opcode" () 0 4)
+(define-normal-insn-enum insn-op1 "insn op enums" () OP1_ f-op1
+ ( "0" "1" "2" "3" "4" "5" "6" "7" "8" "9" "A" "B" "C" "D" "E" "F" ))
+
+(dnf f-op2 "opcode" () 4 4)
+(define-normal-insn-enum insn-op2 "insn op enums" () OP2_ f-op2
+ ( "0" "1" "2" "3" "4" "5" "6" "7" "8" "9" "A" "B" "C" "D" "E" "F" ))
+(dnop bcond2 "branch condition opcode" () h-branchcond f-op2)
+
+(dnf f-op2a "opcode" () 4 3)
+(define-normal-insn-enum insn-op2a "insn op enums" () OP2A_ f-op2a
+ ( "0" "2" "4" "6" "8" "A" "C" "E" ))
+
+(dnf f-op2m "opcode" () 7 1)
+(define-normal-insn-enum insn-op2m "insn op enums" () OP2M_ f-op2m
+ ( "0" "1" ))
+(dnop ws2 "word size opcode" () h-wordsize f-op2m)
+
+(dnf f-op3 "opcode" () 8 4)
+(define-normal-insn-enum insn-op3 "insn op enums" () OP3_ f-op3
+ ( "0" "1" "2" "3" "4" "5" "6" "7" "8" "9" "A" "B" "C" "D" "E" "F" ))
+
+(dnf f-op3a "opcode" () 8 2)
+(define-normal-insn-enum insn-op3a "insn op enums" () OP3A_ f-op3a
+ ( "0" "1" "2" "3" ))
+
+(dnf f-op3b "opcode" () 8 3)
+(define-normal-insn-enum insn-op3b "insn op enums" () OP3B_ f-op3b
+ ( "0" "2" "4" "6" "8" "A" "C" "E" ))
+
+(dnf f-op4 "opcode" () 12 4)
+(define-normal-insn-enum insn-op4 "insn op enums" () OP4_ f-op4
+ ( "0" "1" "2" "3" "4" "5" "6" "7" "8" "9" "A" "B" "C" "D" "E" "F" ))
+
+(dnf f-op4m "opcode" () 12 1)
+(define-normal-insn-enum insn-op4m "insn op enums" () OP4M_ f-op4m
+ ( "0" "1" ))
+
+(dnf f-op4b "opcode" () 15 1)
+(define-normal-insn-enum insn-op4b "insn op enums" () OP4B_ f-op4b
+ ( "0" "1" ))
+
+(dnf f-op5 "opcode" () 16 4)
+(define-normal-insn-enum insn-op5 "insn op enums" () OP5_ f-op5
+ ( "0" "1" "2" "3" "4" "5" "6" "7" "8" "9" "A" "B" "C" "D" "E" "F" ))
+(dnop bcond5 "branch condition opcode" () h-branchcond f-op5)
+
+(dnf f-op5a "opcode" () 16 1)
+(define-normal-insn-enum insn-op5a "insn op enums" () OP5A_ f-op5a
+ ( "0" "1" ))
+
+; The whole first word
+(dnf f-op "opcode" () 0 16)
+
+; Immediate fields
+
+(dnf f-imm2 "2 bit unsigned" () 10 2)
+(dnop imm2 "2 bit unsigned immediate" () h-uint f-imm2)
+
+(dnf f-imm3 "3 bit unsigned" () 4 3)
+(dnop imm3 "3 bit unsigned immediate" () h-uint f-imm3)
+(dnf f-imm3b "3 bit unsigned for bit tests" () 17 3)
+(dnop imm3b "3 bit unsigned immediate for bit tests" () h-uint f-imm3b)
+
+(dnf f-imm4 "4 bit unsigned" () 8 4)
+(define-operand
+ (name imm4)
+ (comment "4 bit unsigned immediate")
+ (attrs)
+ (type h-uint)
+ (index f-imm4)
+ (handlers (parse "small_immediate"))
+)
+
+(dnf f-imm8 "8 bit unsigned" () 8 8)
+(dnop imm8 "8 bit unsigned immediate" () h-uint f-imm8)
+(define-operand
+ (name imm8small)
+ (comment "8 bit unsigned immediate")
+ (attrs)
+ (type h-uint)
+ (index f-imm8)
+ (handlers (parse "small_immediate"))
+)
+
+(define-ifield
+ (name f-imm12)
+ (comment "12 bit signed")
+ (attrs)
+ (start 20)
+ (length 12)
+ (mode INT)
+)
+(dnop imm12 "12 bit signed immediate" () h-sint f-imm12)
+
+(dnf f-imm16 "16 bit" (SIGN-OPT) 16 16)
+(define-operand
+ (name imm16)
+ (comment "16 bit immediate")
+ (attrs)
+ (type h-uint)
+ (index f-imm16)
+ (handlers (parse "immediate16"))
+)
+
+(dnf f-lmem8 "8 bit unsigned low memory" (ABS-ADDR) 8 8)
+(define-operand
+ (name lmem8)
+ (comment "8 bit unsigned immediate low memory")
+ (attrs)
+ (type h-uint)
+ (index f-lmem8)
+ (handlers (parse "mem8"))
+)
+(define-ifield
+ (name f-hmem8)
+ (comment "8 bit unsigned high memory")
+ (attrs ABS-ADDR)
+ (start 8)
+ (length 8)
+ (mode UINT)
+ (encode (value pc) (sub HI value #x7F00))
+ (decode (value pc) (add HI value #x7F00))
+)
+(define-operand
+ (name hmem8)
+ (comment "8 bit unsigned immediate high memory")
+ (attrs)
+ (type h-uint)
+ (index f-hmem8)
+ (handlers (parse "mem8"))
+)
+
+(define-ifield
+ (name f-rel8-2)
+ (comment "8 bit relative address for 2-byte instruction")
+ (attrs PCREL-ADDR)
+ (start 8)
+ (length 8)
+ (mode INT)
+ (encode (value pc) (sub SI value (add SI pc 2)))
+ (decode (value pc) (add SI value (add SI pc 2)))
+)
+(dnop rel8-2 "8 bit relative address" () h-uint f-rel8-2)
+
+(define-ifield
+ (name f-rel8-4)
+ (comment "8 bit relative address for 4-byte instruction")
+ (attrs PCREL-ADDR)
+ (start 8)
+ (length 8)
+ (mode INT)
+ (encode (value pc) (sub SI value (add SI pc 4)))
+ (decode (value pc) (add SI value (add SI pc 4)))
+)
+(dnop rel8-4 "8 bit relative address" () h-uint f-rel8-4)
+
+(define-ifield
+ (name f-rel12)
+ (comment "12 bit relative address")
+ (attrs PCREL-ADDR)
+ (start 20)
+ (length 12)
+ (mode INT)
+ (encode (value pc) (sub SI value (add SI pc 4)))
+ (decode (value pc) (add SI value (add SI pc 4)))
+)
+(dnop rel12 "12 bit relative address" () h-uint f-rel12)
+
+(define-ifield
+ (name f-rel12a)
+ (comment "12 bit relative address")
+ (attrs PCREL-ADDR)
+ (start 4)
+ (length 11)
+ (mode INT)
+ (encode (value pc) (sra SI (sub SI value (add SI pc 2)) 1))
+ (decode (value pc) (add SI (sll value 1) (add SI pc 2)))
+)
+(dnop rel12a "12 bit relative address" () h-uint f-rel12a)
+
+(dnf f-abs24-1 "abs24 low part" () 8 8)
+(dnf f-abs24-2 "abs24 high part" () 16 16)
+(define-multi-ifield
+ (name f-abs24)
+ (comment "Absolute address for jmpf instruction")
+ (attrs ABS-ADDR)
+ (mode UINT)
+ (subfields f-abs24-1 f-abs24-2)
+ (insert (sequence ()
+ (set (ifield f-abs24-1) (and (ifield f-abs24) #xFF))
+ (set (ifield f-abs24-2) (srl (ifield f-abs24) 8))))
+ (extract (set (ifield f-abs24) (or (sll (ifield f-abs24-2) 8) f-abs24-1)))
+)
+(dnop abs24 "24 bit absolute address" () h-uint f-abs24)
+
+; Names for registers
+(dnop psw "program status word" (SEM-ONLY) h-gr 14)
+(dnop Rpsw "N0-N3 of the program status word" (SEM-ONLY) h-Rpsw f-nil)
+(dnop sp "stack pointer" (SEM-ONLY) h-gr 15)
+(dnop R0 "R0" (SEM-ONLY) h-gr 0)
+(dnop R1 "R1" (SEM-ONLY) h-gr 1)
+(dnop R2 "R2" (SEM-ONLY) h-gr 2)
+(dnop R8 "R8" (SEM-ONLY) h-gr 8)
+\f
+; Useful macros.
+
+; THe Z8, Z16, PT, and S flags of the PSW.
+(define-pmacro (basic-psw value ws)
+ (or (or (zflag (and value #xFF))
+ (sll HI (zflag HI value) 1))
+ (or (sll HI (c-call BI "parity" value) 5)
+ (sll HI (nflag QI (srl value (mul ws 8))) 6))))
+
+
+; Update the PSW for destination register Rd, set Rd to value.
+(define-pmacro (set-psw Rd index value ws)
+ (sequence ((HI nvalue))
+ (set nvalue value)
+ (set (reg HI h-gr index) nvalue)
+ (set psw (or (and psw #x0F9C)
+ (or (sll index 12)
+ (basic-psw nvalue ws))))))
+
+; Update the PSW for destination register Rd.
+(define-pmacro (set-psw-nowrite index value ws)
+ (sequence ((HI nvalue))
+ (set nvalue value)
+ (set psw (or (and psw #x0F9C)
+ (or (sll index 12)
+ (basic-psw nvalue ws))))))
+
+; Update the PSW for destination non-register dest, set dest to value.
+(define-pmacro (set-mem-psw dest value ws)
+ (sequence ((HI nvalue))
+ (set nvalue value)
+ (set psw (or (and psw #xFF9C)
+ (basic-psw nvalue ws)))
+ (set dest nvalue)))
+
+; Update the PSW as with set-psw, but also set the carry flag.
+(define-pmacro (set-psw-carry Rd index value carry ws)
+ (sequence ((HI nvalue) (HI newpsw))
+ (set nvalue value)
+ (set newpsw (or (or (and psw #x0F98)
+ (sll (and carry #x1) 2))
+ (or (sll index 12)
+ (basic-psw nvalue ws))))
+ (set (reg HI h-gr index) nvalue)
+ (set psw newpsw)
+ ))
+
+; The all-purpose addition operation.
+(define-pmacro (set-psw-add Rd index a b c)
+ (sequence ((HI value) (HI newpsw))
+ (set value (addc a b c))
+ (set newpsw (or (or (and psw #x0F80)
+ (basic-psw value 1))
+ (or (or (sll HI (add-oflag HI a b c) 4)
+ (sll HI (add-cflag HI a b c) 2))
+ (or (and (srl HI (addc HI (and a #xF) (and b #xF) c)
+ 1) #x8)
+ (sll index 12)))))
+ (set (reg HI h-gr index) value)
+ (set psw newpsw)
+ ))
+
+; Set the PSW for a subtraction of a-b into Rd, but don't actually
+; do the subtract.
+(define-pmacro (set-psw-cmp Rd index a b)
+ (sequence ((HI value))
+ (set value (sub a b))
+ (set psw (or (or (and psw #x0F80)
+ (basic-psw value 1))
+ (or (or (sll HI (sub-oflag HI a b 0) 4)
+ (sll HI (sub-cflag HI a b 0) 2))
+ (or (and (srl HI (sub HI (and a #xF) (and b #xF))
+ 1) #x8)
+ (sll index 12)))))))
+
+; Likewise, for subtraction
+; (this chip has a borrow for subtraction, rather than
+; just using a carry for both).
+(define-pmacro (set-psw-sub Rd index a b c)
+ (sequence ((HI value) (HI newpsw))
+ (set value (subc a b c))
+ (set newpsw (or (or (and psw #x0F80)
+ (basic-psw value 1))
+ (or (or (sll HI (sub-oflag HI a b c) 4)
+ (sll HI (sub-cflag HI a b c) 2))
+ (or (and (srl HI (subc HI (and a #xF) (and b #xF) c)
+ 1) #x8)
+ (sll index 12)))))
+ (set (reg HI h-gr index) value)
+ (set psw newpsw)
+ ))
+
+; A 17-bit rotate-left operation
+(define-pmacro (set-psw-rotate17 Rd index src c rot)
+ (sequence ((SI tmpfoo))
+ (set tmpfoo (or (or (and (sll SI src 15) #x7FFE0000)
+ src)
+ (or (sll SI c 31)
+ (sll SI c 16))))
+ (set tmpfoo (rol tmpfoo (and rot #x1F)))
+ (set-psw-carry (reg HI h-gr index) index (trunc HI tmpfoo) (and (srl tmpfoo 16) 1) 1)))
+
+; A 17-bit rotate-right operation
+(define-pmacro (set-psw-rrotate17 Rd index src c rot)
+ (sequence ((SI tmpfoo))
+ (set tmpfoo (or (or (and (sll SI src 17) #xFFFE0000)
+ src)
+ (sll SI c 16)))
+ (set tmpfoo (ror tmpfoo (and rot #x0F)))
+ (set-psw-carry (reg HI h-gr index) index (trunc HI tmpfoo) (and (srl tmpfoo 16) 1) 1)))
+
+\f
+; Move Operations
+
+(define-pmacro (alignfix-mem where)
+ (mem HI (and where #xFFFE)))
+
+(define-pmacro (set-alignfix-mem where what)
+ (set (mem HI (and where #xFFFE)) what))
+
+(define-pmacro (alignfix-mem-far where)
+ (mem HI (and where #xFFFFFFFE)))
+
+(define-pmacro (set-alignfix-mem-far where what)
+ (set (mem HI (and where #xFFFFFFFE)) what))
+
+(dni movlmemimm
+ "Move immediate to low memory"
+ ()
+ ("mov$ws2 $lmem8,#$imm16")
+ (+ OP1_7 OP2A_8 ws2 lmem8 imm16)
+ (if ws2
+ (set-mem-psw (mem HI (and lmem8 #xFFFE)) imm16 ws2)
+ (set-mem-psw (mem QI lmem8) (and imm16 #xFF) ws2))
+ ()
+)
+(dni movhmemimm
+ "Move immediate to high memory"
+ ()
+ ("mov$ws2 $hmem8,#$imm16")
+ (+ OP1_7 OP2A_A ws2 hmem8 imm16)
+ (if ws2
+ (set-mem-psw (mem HI (and hmem8 #xFFFE)) imm16 ws2)
+ (set-mem-psw (mem QI hmem8) (and imm16 #xFF) ws2))
+ ()
+)
+
+(dni movlgrmem
+ "Move low memory to register"
+ ()
+ ("mov$ws2 $Rm,$lmem8")
+ (+ OP1_8 Rm ws2 lmem8)
+ (if ws2
+ (set-psw Rm (index-of Rm) (alignfix-mem lmem8) ws2)
+ (set-psw Rm (index-of Rm) (mem QI lmem8) ws2))
+ ()
+)
+(dni movhgrmem
+ "Move high memory to register"
+ ()
+ ("mov$ws2 $Rm,$hmem8")
+ (+ OP1_A Rm ws2 hmem8)
+ (if ws2
+ (set-psw Rm (index-of Rm) (alignfix-mem hmem8) ws2)
+ (set-psw Rm (index-of Rm) (mem QI hmem8) ws2))
+ ()
+)
+
+(dni movlmemgr
+ "Move low memory register to byte"
+ ()
+ ("mov$ws2 $lmem8,$Rm")
+ (+ OP1_9 Rm ws2 lmem8)
+ (if ws2
+ (set-mem-psw (mem HI (and lmem8 #xFFFE)) Rm ws2)
+ (set-mem-psw (mem QI lmem8) Rm ws2))
+ ()
+)
+(dni movhmemgr
+ "Move high memory register to byte"
+ ()
+ ("mov$ws2 $hmem8,$Rm")
+ (+ OP1_B Rm ws2 hmem8)
+ (if ws2
+ (set-mem-psw (mem HI (and hmem8 #xFFFE)) Rm ws2)
+ (set-mem-psw (mem QI hmem8) Rm ws2))
+ ()
+)
+
+(dni movgrgri
+ "Move memory addressed by register to register"
+ ()
+ ("mov$ws2 $Rdm,($Rs)")
+ (+ OP1_7 OP2A_0 ws2 Rs OP4M_0 Rdm)
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem Rs) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI Rs)) ws2))
+ ()
+)
+
+(dni movgrgripostinc
+ "Move memory addressed by postincrement register to register"
+ ()
+ ("mov$ws2 $Rdm,($Rs++)")
+ (+ OP1_6 OP2A_0 ws2 Rs OP4M_0 Rdm)
+ (sequence ()
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem Rs) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI Rs)) ws2))
+ (set Rs (add Rs (add 1 ws2))))
+ ()
+)
+
+(dni movgrgripredec
+ "Move memory addressed by predecrement register to register"
+ ()
+ ("mov$ws2 $Rdm,(--$Rs)")
+ (+ OP1_6 OP2A_8 ws2 Rs OP4M_0 Rdm)
+ (sequence ()
+ (set Rs (sub Rs (add 1 ws2)))
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem Rs) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI Rs)) ws2)))
+ ()
+)
+
+(dni movgrigr
+ "Move register to memory addressed by register"
+ ()
+ ("mov$ws2 ($Rs),$Rdm")
+ (+ OP1_7 OP2A_2 ws2 Rs OP4M_0 Rdm)
+ (sequence ()
+ (if ws2
+ (set-alignfix-mem Rs Rdm)
+ (set (mem QI Rs) Rdm))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2))
+ ()
+)
+
+(dni movgripostincgr
+ "Move register to memory addressed by postincrement register"
+ ()
+ ("mov$ws2 ($Rs++),$Rdm")
+ (+ OP1_6 OP2A_2 ws2 Rs OP4M_0 Rdm)
+ (sequence ()
+ (if ws2
+ (set-alignfix-mem Rs Rdm)
+ (set (mem QI Rs) Rdm))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2)
+ (set Rs (add Rs (add ws2 1))))
+ ()
+)
+
+(dni movgripredecgr
+ "Move register to memory addressed by predecrement register"
+ ()
+ ("mov$ws2 (--$Rs),$Rdm")
+ (+ OP1_6 OP2A_A ws2 Rs OP4M_0 Rdm)
+ (sequence ()
+ (set Rs (sub Rs (add ws2 1)))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2)
+ (if ws2
+ (set-alignfix-mem Rs Rdm)
+ (set (mem QI Rs) Rdm)))
+ ()
+)
+
+(dni movgrgrii
+ "Move memory addressed by indexed register to register"
+ ()
+ ("mov$ws2 $Rdm,($Rs,$imm12)")
+ (+ OP1_7 OP2A_0 ws2 Rs OP4M_1 Rdm OP5_0 imm12)
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem (add Rs imm12)) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI (add Rs imm12))) ws2))
+ ()
+)
+
+(dni movgrgriipostinc
+ "Move memory addressed by indexed register postincrement to register"
+ ()
+ ("mov$ws2 $Rdm,($Rs++,$imm12)")
+ (+ OP1_6 OP2A_0 ws2 Rs OP4M_1 Rdm OP5_0 imm12)
+ (sequence ()
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem (add Rs imm12)) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI (add Rs imm12))) ws2))
+ (set Rs (add Rs (add ws2 1))))
+ ()
+)
+
+(dni movgrgriipredec
+ "Move memory addressed by indexed register predecrement to register"
+ ()
+ ("mov$ws2 $Rdm,(--$Rs,$imm12)")
+ (+ OP1_6 OP2A_8 ws2 Rs OP4M_1 Rdm OP5_0 imm12)
+ (sequence ()
+ (set Rs (sub Rs (add ws2 1)))
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem (add Rs imm12)) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI (add Rs imm12))) ws2)))
+ ()
+)
+
+(dni movgriigr
+ "Move register to memory addressed by indexed register"
+ ()
+ ("mov$ws2 ($Rs,$imm12),$Rdm")
+ (+ OP1_7 OP2A_2 ws2 Rs OP4M_1 Rdm OP5_0 imm12)
+ (sequence ()
+ (if ws2
+ (set-alignfix-mem (add Rs imm12) Rdm)
+ (set (mem QI (add Rs imm12)) Rdm))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2))
+ ()
+)
+
+(dni movgriipostincgr
+ "Move register to memory addressed by indexed register postincrement"
+ ()
+ ("mov$ws2 ($Rs++,$imm12),$Rdm")
+ (+ OP1_6 OP2A_2 ws2 Rs OP4M_1 Rdm OP5_0 imm12)
+ (sequence ()
+ (if ws2
+ (set-alignfix-mem (add Rs imm12) Rdm)
+ (set (mem QI (add Rs imm12)) Rdm))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2)
+ (set Rs (add Rs (add ws2 1))))
+ ()
+)
+
+(dni movgriipredecgr
+ "Move register to memory addressed by indexed register predecrement"
+ ()
+ ("mov$ws2 (--$Rs,$imm12),$Rdm")
+ (+ OP1_6 OP2A_A ws2 Rs OP4M_1 Rdm OP5_0 imm12)
+ (sequence ()
+ (set Rs (sub Rs (add ws2 1)))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2)
+ (if ws2
+ (set-alignfix-mem (add Rs imm12) Rdm)
+ (set (mem QI (add Rs imm12)) Rdm)))
+ ()
+)
+
+(dni movgrgr
+ "Move general register to general register"
+ ()
+ ("mov $Rd,$Rs")
+ (+ OP1_4 OP2_6 Rs Rd)
+ (set-psw Rd (index-of Rd) Rs 1)
+ ()
+)
+
+(dnmi movimm8
+ "Move 8-bit immediate"
+ ()
+ ("mov Rx,#$imm8")
+ (emit movwimm8 imm8)
+)
+
+(dni movwimm8
+ "Move 8-bit immediate"
+ ()
+ ("mov.w Rx,#$imm8")
+ (+ OP1_4 OP2_7 imm8)
+ (set-psw (reg HI h-gr Rpsw) Rpsw imm8 1)
+ ()
+)
+
+(dnmi movgrimm8
+ "Move 8-bit immediate to general register"
+ ()
+ ("mov $Rm,#$imm8small")
+ (emit movwgrimm8 Rm imm8small)
+)
+
+(dni movwgrimm8
+ "Move 8-bit immediate to general register"
+ ()
+ ("mov.w $Rm,#$imm8small")
+ (+ OP1_2 Rm OP2M_1 imm8small)
+ (set-psw Rm (index-of Rm) imm8small 1)
+ ()
+)
+
+(dnmi movgrimm16
+ "Move 16-bit immediate to general register"
+ ()
+ ("mov $Rd,#$imm16")
+ (emit movwgrimm16 Rd imm16)
+)
+
+(dni movwgrimm16
+ "Move 16-bit immediate to general register"
+ ()
+ ("mov.w $Rd,#$imm16")
+ (+ OP1_3 OP2_1 OP3_3 Rd imm16)
+ (set-psw Rd (index-of Rd) imm16 1)
+ ()
+)
+
+(dni movlowgr
+ "Move 8 low bits to general register"
+ ()
+ ("mov.b $Rd,RxL")
+ (+ OP1_3 OP2_0 OP3_C Rd)
+ (set-psw Rd (index-of Rd) (or (and Rd #xFF00) (and (reg HI h-gr Rpsw) #xFF)) 0)
+ ()
+)
+
+(dni movhighgr
+ "Move 8 high bits to general register"
+ ()
+ ("mov.b $Rd,RxH")
+ (+ OP1_3 OP2_0 OP3_D Rd)
+ (set-psw Rd (index-of Rd) (or (and Rd #x00FF) (and (reg HI h-gr Rpsw) #xFF00)) 1)
+ ()
+)
+
+(dni movfgrgri
+ "Move far memory addressed by register to register"
+ ()
+ ("movf$ws2 $Rdm,($Rs)")
+ (+ OP1_7 OP2A_4 ws2 Rs OP4M_0 Rdm)
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem-far (or (sll SI R8 16) Rs)) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI (or (sll SI R8 16) Rs))) ws2))
+ ()
+)
+
+(dni movfgrgripostinc
+ "Move far memory addressed by postincrement register to register"
+ ()
+ ("movf$ws2 $Rdm,($Rs++)")
+ (+ OP1_6 OP2A_4 ws2 Rs OP4M_0 Rdm)
+ (sequence ()
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem-far (join SI HI R8 Rs)) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI (join SI HI R8 Rs))) ws2))
+ (set Rs (add Rs (add ws2 1))))
+ ()
+)
+
+(dni movfgrgripredec
+ "Move far memory addressed by predecrement register to register"
+ ()
+ ("movf$ws2 $Rdm,(--$Rs)")
+ (+ OP1_6 OP2A_C ws2 Rs OP4M_0 Rdm)
+ (sequence ()
+ (set Rs (sub Rs (add ws2 1)))
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem-far (join SI HI R8 Rs)) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI (join SI HI R8 Rs))) ws2)))
+ ()
+)
+
+(dni movfgrigr
+ "Move far register to memory addressed by register"
+ ()
+ ("movf$ws2 ($Rs),$Rdm")
+ (+ OP1_7 OP2A_6 ws2 Rs OP4M_0 Rdm)
+ (sequence ()
+ (if ws2
+ (set-alignfix-mem-far (join SI HI R8 Rs) Rdm)
+ (set (mem QI (join SI HI R8 Rs)) Rdm))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2))
+ ()
+)
+
+(dni movfgripostincgr
+ "Move far register to memory addressed by postincrement register"
+ ()
+ ("movf$ws2 ($Rs++),$Rdm")
+ (+ OP1_6 OP2A_6 ws2 Rs OP4M_0 Rdm)
+ (sequence ()
+ (if ws2
+ (set-alignfix-mem-far (join SI HI R8 Rs) Rdm)
+ (set (mem QI (join SI HI R8 Rs)) Rdm))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2)
+ (set Rs (add Rs (add ws2 1))))
+ ()
+)
+
+(dni movfgripredecgr
+ "Move far register to memory addressed by predecrement register"
+ ()
+ ("movf$ws2 (--$Rs),$Rdm")
+ (+ OP1_6 OP2A_E ws2 Rs OP4M_0 Rdm)
+ (sequence ()
+ (set-psw-nowrite (index-of Rdm) Rdm ws2)
+ (set Rs (sub Rs (add ws2 1)))
+ (if ws2
+ (set-alignfix-mem-far (join SI HI R8 Rs) Rdm)
+ (set (mem QI (join SI HI R8 Rs)) Rdm)))
+ ()
+)
+
+(dni movfgrgrii
+ "Move far memory addressed by indexed register to register"
+ ()
+ ("movf$ws2 $Rdm,($Rb,$Rs,$imm12)")
+ (+ OP1_7 OP2A_4 ws2 Rs OP4M_1 Rdm OP5A_0 Rb imm12)
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem-far (add (join SI HI Rb Rs) imm12)) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI (add (join SI HI Rb Rs) imm12))) ws2))
+ ()
+)
+
+(dni movfgrgriipostinc
+ "Move far memory addressed by indexed register postincrement to register"
+ ()
+ ("movf$ws2 $Rdm,($Rb,$Rs++,$imm12)")
+ (+ OP1_6 OP2A_4 ws2 Rs OP4M_1 Rdm OP5A_0 Rb imm12)
+ (sequence ()
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem-far (add (join SI HI Rb Rs) imm12)) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI (add (join SI HI Rb Rs) imm12))) ws2))
+ (set Rs (add Rs (add ws2 1)))
+ ; Note - despite the XStormy16 ISA documentation the
+ ; addition *is* propogated into the base register.
+ (if (eq Rs 0) (set Rb (add Rb 1)))
+ )
+ ()
+)
+
+(dni movfgrgriipredec
+ "Move far memory addressed by indexed register predecrement to register"
+ ()
+ ("movf$ws2 $Rdm,($Rb,--$Rs,$imm12)")
+ (+ OP1_6 OP2A_C ws2 Rs OP4M_1 Rdm OP5A_0 Rb imm12)
+ (sequence ()
+ ; Note - despite the XStormy16 ISA documentation the
+ ; subtraction *is* propogated into the base register.
+ (if (eq Rs 0) (set Rb (sub Rb 1)))
+ (set Rs (sub Rs (add ws2 1)))
+ (if ws2
+ (set-psw Rdm (index-of Rdm) (alignfix-mem-far (add (join SI HI Rb Rs) imm12)) ws2)
+ (set-psw Rdm (index-of Rdm) (and #xFF (mem QI (add (join SI HI Rb Rs) imm12))) ws2)))
+ ()
+)
+
+(dni movfgriigr
+ "Move far register to memory addressed by indexed register"
+ ()
+ ("movf$ws2 ($Rb,$Rs,$imm12),$Rdm")
+ (+ OP1_7 OP2A_6 ws2 Rs OP4M_1 Rdm OP5A_0 Rb imm12)
+ (sequence ()
+ (if ws2
+ (set (mem HI (and (add (join SI HI Rb Rs) imm12) #xFFFFFFFE))
+ Rdm)
+ (set (mem QI (add (join SI HI Rb Rs) imm12)) Rdm))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2))
+ ()
+)
+
+
+(dni movfgriipostincgr
+ "Move far register to memory addressed by indexed register postincrement"
+ ()
+ ("movf$ws2 ($Rb,$Rs++,$imm12),$Rdm")
+ (+ OP1_6 OP2A_6 ws2 Rs OP4M_1 Rdm OP5A_0 Rb imm12)
+ (sequence ()
+ (if ws2
+ (set (mem HI (and (add (join SI HI Rb Rs) imm12) #xFFFFFFFE)) Rdm)
+ (set (mem QI (add (join SI HI Rb Rs) imm12)) Rdm))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2)
+ (set Rs (add Rs (add ws2 1)))
+ ; Note - despite the XStormy16 ISA documentation the
+ ; addition *is* propogated into the base register.
+ (if (eq Rs 0) (set Rb (add Rb 1)))
+ )
+ ()
+)
+
+(dni movfgriipredecgr
+ "Move far register to memory addressed by indexed register predecrement"
+ ()
+ ("movf$ws2 ($Rb,--$Rs,$imm12),$Rdm")
+ (+ OP1_6 OP2A_E ws2 Rs OP4M_1 Rdm OP5A_0 Rb imm12)
+ (sequence ()
+ ; Note - despite the XStormy16 ISA documentation the
+ ; subtraction *is* propogated into the base register.
+ (if (eq Rs 0) (set Rb (sub Rb 1)))
+ (set Rs (sub Rs (add ws2 1)))
+ (set-psw-nowrite (index-of Rdm) Rdm ws2)
+ (if ws2
+ (set (mem HI (and (add (join SI HI Rb Rs) imm12) #xFFFFFFFE)) Rdm)
+ (set (mem QI (add (join SI HI Rb Rs) imm12)) Rdm)))
+ ()
+)
+
+(dni maskgrgr
+ "Mask insert controlled by general register"
+ ()
+ ("mask $Rd,$Rs")
+ (+ OP1_3 OP2_3 Rs Rd)
+ (set-psw Rd (index-of Rd) (or HI (and HI Rd (inv HI Rs)) (and (reg HI h-gr Rpsw) Rs)) 1)
+ ()
+)
+
+(dni maskgrimm16
+ "Mask insert controlled by immediate value"
+ ()
+ ("mask $Rd,#$imm16")
+ (+ OP1_3 OP2_0 OP3_E Rd imm16)
+ (set-psw Rd (index-of Rd) (or (and Rd (inv imm16)) (and (reg HI h-gr Rpsw) imm16)) 1)
+ ()
+)
+\f
+; Push, Pop
+(dni pushgr
+ "Push register"
+ ()
+ ("push $Rd")
+ (+ OP1_0 OP2_0 OP3_8 Rd)
+ (sequence ()
+ (set (mem HI sp) Rd)
+ (set sp (add sp 2)))
+ ()
+)
+
+(dni popgr
+ "Pop into a register"
+ ()
+ ("pop $Rd")
+ (+ OP1_0 OP2_0 OP3_9 Rd)
+ (sequence ()
+ (set sp (add sp -2))
+ (set Rd (mem HI sp)))
+ ()
+)
+
+; Swap
+(dni swpn
+ "Swap low nibbles"
+ ()
+ ("swpn $Rd")
+ (+ OP1_3 OP2_0 OP3_9 Rd)
+ (set-psw Rd (index-of Rd) (or (or (and (sll Rd 4) #xF0)
+ (and (srl Rd 4) #x0F))
+ (and Rd #xFF00)) 0)
+ ()
+)
+
+(dni swpb
+ "Swap bytes"
+ ()
+ ("swpb $Rd")
+ (+ OP1_3 OP2_0 OP3_8 Rd)
+ (set-psw Rd (index-of Rd) (or (sll Rd 8) (srl Rd 8)) 1)
+ ()
+)
+
+(dni swpw
+ "Swap words"
+ ()
+ ("swpw $Rd,$Rs")
+ (+ OP1_3 OP2_2 Rs Rd)
+ (sequence ((HI foo))
+ (set foo Rs)
+ (set Rs Rd)
+ (set-psw Rd (index-of Rd) foo 1))
+ ()
+)
+\f
+; Logical Operations
+(dni andgrgr
+ "AND general register with general register"
+ ()
+ ("and $Rd,$Rs")
+ (+ OP1_4 OP2_0 Rs Rd)
+ (set-psw Rd (index-of Rd) (and Rd Rs) 1)
+ ()
+)
+
+(dni andimm8
+ "AND with 8-bit immediate"
+ ()
+ ("and Rx,#$imm8")
+ (+ OP1_4 OP2_1 imm8)
+ (set-psw (reg HI h-gr Rpsw) Rpsw (and (reg HI h-gr Rpsw) imm8) 1)
+ ()
+)
+
+(dni andgrimm16
+ "AND general register with 16-bit immediate"
+ ()
+ ("and $Rd,#$imm16")
+ (+ OP1_3 OP2_1 OP3_0 Rd imm16)
+ (set-psw Rd (index-of Rd) (and Rd imm16) 1)
+ ()
+)
+
+(dni orgrgr
+ "OR general register with general register"
+ ()
+ ("or $Rd,$Rs")
+ (+ OP1_4 OP2_2 Rs Rd)
+ (set-psw Rd (index-of Rd) (or Rd Rs) 1)
+ ()
+)
+
+(dni orimm8
+ "OR with 8-bit immediate"
+ ()
+ ("or Rx,#$imm8")
+ (+ OP1_4 OP2_3 imm8)
+ (set-psw (reg HI h-gr Rpsw) Rpsw (or (reg HI h-gr Rpsw) imm8) 1)
+ ()
+)
+
+(dni orgrimm16
+ "OR general register with 16-bit immediate"
+ ()
+ ("or $Rd,#$imm16")
+ (+ OP1_3 OP2_1 OP3_1 Rd imm16)
+ (set-psw Rd (index-of Rd) (or Rd imm16) 1)
+ ()
+)
+
+(dni xorgrgr
+ "XOR general register with general register"
+ ()
+ ("xor $Rd,$Rs")
+ (+ OP1_4 OP2_4 Rs Rd)
+ (set-psw Rd (index-of Rd) (xor Rd Rs) 1)
+ ()
+)
+
+(dni xorimm8
+ "XOR with 8-bit immediate"
+ ()
+ ("xor Rx,#$imm8")
+ (+ OP1_4 OP2_5 imm8)
+ (set-psw (reg HI h-gr Rpsw) Rpsw (xor (reg HI h-gr Rpsw) imm8) 1)
+ ()
+)
+
+(dni xorgrimm16
+ "XOR general register with 16-bit immediate"
+ ()
+ ("xor $Rd,#$imm16")
+ (+ OP1_3 OP2_1 OP3_2 Rd imm16)
+ (set-psw Rd (index-of Rd) (xor Rd imm16) 1)
+ ()
+)
+
+(dni notgr
+ "NOT general register"
+ ()
+ ("not $Rd")
+ (+ OP1_3 OP2_0 OP3_B Rd)
+ (set-psw Rd (index-of Rd) (inv Rd) 1)
+ ()
+)
+\f
+; Arithmetic operations
+(dni addgrgr
+ "ADD general register to general register"
+ ()
+ ("add $Rd,$Rs")
+ (+ OP1_4 OP2_9 Rs Rd)
+ (set-psw-add Rd (index-of Rd) Rd Rs 0)
+ ()
+)
+
+(dni addgrimm4
+ "ADD 4-bit immediate to general register"
+ ()
+ ("add $Rd,#$imm4")
+ (+ OP1_5 OP2_1 imm4 Rd)
+ (set-psw-add Rd (index-of Rd) Rd imm4 0)
+ ()
+)
+
+(dni addimm8
+ "ADD 8-bit immediate"
+ ()
+ ("add Rx,#$imm8")
+ (+ OP1_5 OP2_9 imm8)
+ (set-psw-add (reg HI h-gr Rpsw) Rpsw (reg HI h-gr Rpsw) imm8 0)
+ ()
+)
+
+(dni addgrimm16
+ "ADD 16-bit immediate to general register"
+ ()
+ ("add $Rd,#$imm16")
+ (+ OP1_3 OP2_1 OP3_4 Rd imm16)
+ (set-psw-add Rd (index-of Rd) Rd imm16 0)
+ ()
+)
+
+(dni adcgrgr
+ "ADD carry and general register to general register"
+ ()
+ ("adc $Rd,$Rs")
+ (+ OP1_4 OP2_B Rs Rd)
+ (set-psw-add Rd (index-of Rd) Rd Rs psw-cy)
+ ()
+)
+
+(dni adcgrimm4
+ "ADD carry and 4-bit immediate to general register"
+ ()
+ ("adc $Rd,#$imm4")
+ (+ OP1_5 OP2_3 imm4 Rd)
+ (set-psw-add Rd (index-of Rd) Rd imm4 psw-cy)
+ ()
+)
+
+(dni adcimm8
+ "ADD carry and 8-bit immediate"
+ ()
+ ("adc Rx,#$imm8")
+ (+ OP1_5 OP2_B imm8)
+ (set-psw-add (reg HI h-gr Rpsw) Rpsw (reg HI h-gr Rpsw) imm8 psw-cy)
+ ()
+)
+
+(dni adcgrimm16
+ "ADD carry and 16-bit immediate to general register"
+ ()
+ ("adc $Rd,#$imm16")
+ (+ OP1_3 OP2_1 OP3_5 Rd imm16)
+ (set-psw-add Rd (index-of Rd) Rd imm16 psw-cy)
+ ()
+)
+
+(dni subgrgr
+ "SUB general register from general register"
+ ()
+ ("sub $Rd,$Rs")
+ (+ OP1_4 OP2_D Rs Rd)
+ (set-psw-sub Rd (index-of Rd) Rd Rs 0)
+ ()
+)
+
+(dni subgrimm4
+ "SUB 4-bit immediate from general register"
+ ()
+ ("sub $Rd,#$imm4")
+ (+ OP1_5 OP2_5 imm4 Rd)
+ (set-psw-sub Rd (index-of Rd) Rd imm4 0)
+ ()
+)
+
+(dni subimm8
+ "SUB 8-bit immediate"
+ ()
+ ("sub Rx,#$imm8")
+ (+ OP1_5 OP2_D imm8)
+ (set-psw-sub (reg HI h-gr Rpsw) Rpsw (reg HI h-gr Rpsw) imm8 0)
+ ()
+)
+
+(dni subgrimm16
+ "SUB 16-bit immediate from general register"
+ ()
+ ("sub $Rd,#$imm16")
+ (+ OP1_3 OP2_1 OP3_6 Rd imm16)
+ (set-psw-sub Rd (index-of Rd) Rd imm16 0)
+ ()
+)
+
+(dni sbcgrgr
+ "SUB carry and general register from general register"
+ ()
+ ("sbc $Rd,$Rs")
+ (+ OP1_4 OP2_F Rs Rd)
+ (set-psw-sub Rd (index-of Rd) Rd Rs psw-cy)
+ ()
+)
+
+(dni sbcgrimm4
+ "SUB carry and 4-bit immediate from general register"
+ ()
+ ("sbc $Rd,#$imm4")
+ (+ OP1_5 OP2_7 imm4 Rd)
+ (set-psw-sub Rd (index-of Rd) Rd imm4 psw-cy)
+ ()
+)
+
+(dni sbcgrimm8
+ "SUB carry and 8-bit immediate"
+ ()
+ ("sbc Rx,#$imm8")
+ (+ OP1_5 OP2_F imm8)
+ (set-psw-sub (reg HI h-gr Rpsw) Rpsw (reg HI h-gr Rpsw) imm8 psw-cy)
+ ()
+)
+
+(dni sbcgrimm16
+ "SUB carry and 16-bit immediate from general register"
+ ()
+ ("sbc $Rd,#$imm16")
+ (+ OP1_3 OP2_1 OP3_7 Rd imm16)
+ (set-psw-sub Rd (index-of Rd) Rd imm16 psw-cy)
+ ()
+)
+
+(dnmi incgr
+ "Increment general register"
+ ()
+ ("inc $Rd")
+ (emit incgrimm2 Rd (imm2 0))
+)
+
+(dni incgrimm2
+ "Increment general register by 2-bit immediate"
+ ()
+ ("inc $Rd,#$imm2")
+ (+ OP1_3 OP2_0 OP3A_0 imm2 Rd)
+ (set-psw Rd (index-of Rd) (add Rd (add imm2 1)) 1)
+ ()
+)
+
+(dnmi decgr
+ "Decrement general register"
+ ()
+ ("dec $Rd")
+ (emit decgrimm2 Rd (imm2 0))
+)
+
+(dni decgrimm2
+ "Decrement general register by 2-bit immediate"
+ ()
+ ("dec $Rd,#$imm2")
+ (+ OP1_3 OP2_0 OP3A_1 imm2 Rd)
+ (set-psw Rd (index-of Rd) (sub Rd (add imm2 1)) 1)
+ ()
+)
+\f
+; Logical Shift
+(dni rrcgrgr
+ "Rotate right general register by general register"
+ ()
+ ("rrc $Rd,$Rs")
+ (+ OP1_3 OP2_8 Rs Rd)
+ (set-psw-rrotate17 Rd (index-of Rd) Rd psw-cy Rs)
+ ()
+)
+
+(dni rrcgrimm4
+ "Rotate right general register by immediate"
+ ()
+ ("rrc $Rd,#$imm4")
+ (+ OP1_3 OP2_9 imm4 Rd)
+ (set-psw-rrotate17 Rd (index-of Rd) Rd psw-cy imm4)
+ ()
+)
+
+(dni rlcgrgr
+ "Rotate left general register by general register"
+ ()
+ ("rlc $Rd,$Rs")
+ (+ OP1_3 OP2_A Rs Rd)
+ (set-psw-rotate17 Rd (index-of Rd) Rd psw-cy (and Rs #xF))
+ ()
+)
+
+(dni rlcgrimm4
+ "Rotate left general register by immediate"
+ ()
+ ("rlc $Rd,#$imm4")
+ (+ OP1_3 OP2_B imm4 Rd)
+ (set-psw-rotate17 Rd (index-of Rd) Rd psw-cy imm4)
+ ()
+)
+
+(dni shrgrgr
+ "Shift right general register by general register"
+ ()
+ ("shr $Rd,$Rs")
+ (+ OP1_3 OP2_C Rs Rd)
+ (set-psw-carry Rd (index-of Rd)
+ (srl Rd (and Rs #xF))
+ (and SI (if SI (eq (and Rs #xF) 0)
+ psw-cy
+ (srl Rd (sub (and Rs #xF) 1)))
+ 1) 1)
+ ()
+)
+
+(dni shrgrimm
+ "Shift right general register by immediate"
+ ()
+ ("shr $Rd,#$imm4")
+ (+ OP1_3 OP2_D imm4 Rd)
+ (set-psw-carry Rd (index-of Rd)
+ (srl Rd imm4)
+ (and SI (if SI (eq imm4 0)
+ psw-cy
+ (srl Rd (sub imm4 1)))
+ 1) 1)
+ ()
+)
+
+(dni shlgrgr
+ "Shift left general register by general register"
+ ()
+ ("shl $Rd,$Rs")
+ (+ OP1_3 OP2_E Rs Rd)
+ (set-psw-carry Rd (index-of Rd)
+ (sll Rd (and Rs #xF))
+ (srl SI (if SI (eq (and Rs #xF) 0)
+ (sll psw-cy 15)
+ (sll Rd (sub (and Rs #xF) 1)))
+ 15) 1)
+ ()
+)
+
+(dni shlgrimm
+ "Shift left general register by immediate"
+ ()
+ ("shl $Rd,#$imm4")
+ (+ OP1_3 OP2_F imm4 Rd)
+ (set-psw-carry Rd (index-of Rd)
+ (sll Rd imm4)
+ (srl SI (if SI (eq imm4 0)
+ (sll psw-cy 15)
+ (sll Rd (sub imm4 1)))
+ 15) 1)
+ ()
+)
+
+(dni asrgrgr
+ "Arithmetic shift right general register by general register"
+ ()
+ ("asr $Rd,$Rs")
+ (+ OP1_3 OP2_6 Rs Rd)
+ (set-psw-carry Rd (index-of Rd)
+ (sra HI Rd (and Rs #xF))
+ (and SI (if SI (eq (and Rs #xF) 0)
+ psw-cy
+ (srl Rd (sub (and Rs #xF) 1)))
+ 1) 1)
+ ()
+)
+
+(dni asrgrimm
+ "Arithmetic shift right general register by immediate"
+ ()
+ ("asr $Rd,#$imm4")
+ (+ OP1_3 OP2_7 imm4 Rd)
+ (set-psw-carry Rd (index-of Rd)
+ (sra HI Rd imm4)
+ (and SI (if SI (eq imm4 0)
+ psw-cy
+ (srl Rd (sub imm4 1)))
+ 1) 1)
+ ()
+)
+\f
+; Bitwise operations
+(dni set1grimm
+ "Set bit in general register by immediate"
+ ()
+ ("set1 $Rd,#$imm4")
+ (+ OP1_0 OP2_9 imm4 Rd)
+ (set-psw Rd (index-of Rd) (or Rd (sll 1 imm4)) 1)
+ ()
+)
+
+(dni set1grgr
+ "Set bit in general register by general register"
+ ()
+ ("set1 $Rd,$Rs")
+ (+ OP1_0 OP2_B Rs Rd)
+ (set-psw Rd (index-of Rd) (or Rd (sll 1 (and Rs #xF))) 1)
+ ()
+)
+
+(dni set1lmemimm
+ "Set bit in low memory by immediate"
+ ()
+ ("set1 $lmem8,#$imm3")
+ (+ OP1_E imm3 OP2M_1 lmem8)
+ (set-mem-psw (mem QI lmem8) (or (mem QI lmem8) (sll 1 imm3)) 0)
+ ()
+)
+(dni set1hmemimm
+ "Set bit in high memory by immediate"
+ ()
+ ("set1 $hmem8,#$imm3")
+ (+ OP1_F imm3 OP2M_1 hmem8)
+ (set-mem-psw (mem QI hmem8) (or (mem QI hmem8) (sll 1 imm3)) 0)
+ ()
+)
+
+(dni clr1grimm
+ "Clear bit in general register by immediate"
+ ()
+ ("clr1 $Rd,#$imm4")
+ (+ OP1_0 OP2_8 imm4 Rd)
+ (set-psw Rd (index-of Rd) (and Rd (inv (sll 1 imm4))) 1)
+ ()
+)
+
+(dni clr1grgr
+ "Clear bit in general register by general register"
+ ()
+ ("clr1 $Rd,$Rs")
+ (+ OP1_0 OP2_A Rs Rd)
+ (set-psw Rd (index-of Rd) (and Rd (inv (sll 1 (and Rs #xF)))) 1)
+ ()
+)
+
+(dni clr1lmemimm
+ "Clear bit in low memory"
+ ()
+ ("clr1 $lmem8,#$imm3")
+ (+ OP1_E imm3 OP2M_0 lmem8)
+ (set-mem-psw (mem QI lmem8) (and (mem QI lmem8) (inv (sll 1 imm3))) 0)
+ ()
+)
+(dni clr1hmemimm
+ "Clear bit in high memory"
+ ()
+ ("clr1 $hmem8,#$imm3")
+ (+ OP1_F imm3 OP2M_0 hmem8)
+ (set-mem-psw (mem QI hmem8) (and (mem QI hmem8) (inv (sll 1 imm3))) 0)
+ ()
+)
+
+; Data conversion
+
+(dni cbwgr
+ "Sign-extend byte in general register"
+ ()
+ ("cbw $Rd")
+ (+ OP1_3 OP2_0 OP3_A Rd)
+ (set-psw Rd (index-of Rd) (ext HI (trunc QI Rd)) 1)
+ ()
+)
+
+(dni revgr
+ "Reverse bit pattern in general register"
+ ()
+ ("rev $Rd")
+ (+ OP1_3 OP2_0 OP3_F Rd)
+ (set-psw Rd (index-of Rd)
+ (or (sll (and Rd #x0001) 15)
+ (or (sll (and Rd #x0002) 13)
+ (or (sll (and Rd #x0004) 11)
+ (or (sll (and Rd #x0008) 9)
+ (or (sll (and Rd #x0010) 7)
+ (or (sll (and Rd #x0020) 5)
+ (or (sll (and Rd #x0040) 3)
+ (or (sll (and Rd #x0080) 1)
+ (or (srl (and Rd #x0100) 1)
+ (or (srl (and Rd #x0200) 3)
+ (or (srl (and Rd #x0400) 5)
+ (or (srl (and Rd #x0800) 7)
+ (or (srl (and Rd #x1000) 9)
+ (or (srl (and Rd #x2000) 11)
+ (or (srl (and Rd #x4000) 13)
+ (srl (and Rd #x8000) 15))))))))))))))))
+ 1)
+ ()
+)
+
+; Conditional Branches
+
+(define-pmacro (cbranch cond dest)
+ (sequence ((BI tmp))
+ (case cond
+ ((0) (set tmp (not (xor psw-s psw-ov)))) ; ge
+ ((1) (set tmp (not psw-cy))) ; nc
+ ((2) (set tmp (xor psw-s psw-ov))) ; lt
+ ((3) (set tmp psw-cy)) ; c
+ ((4) (set tmp (not (or (xor psw-s psw-ov) psw-z16)))) ; gt
+ ((5) (set tmp (not (or psw-cy psw-z16)))) ; hi
+ ((6) (set tmp (or (xor psw-s psw-ov) psw-z16))) ; le
+ ((7) (set tmp (or psw-cy psw-z16))) ; ls
+ ((8) (set tmp (not psw-s))) ; pl
+ ((9) (set tmp (not psw-ov))) ; nv
+ ((10) (set tmp psw-s)) ; mi
+ ((11) (set tmp psw-ov)) ; v
+ ((12) (set tmp (not psw-z8))) ; nz.b
+ ((13) (set tmp (not psw-z16))) ; nz
+ ((14) (set tmp psw-z8)) ; z.b
+ ((15) (set tmp psw-z16))) ; z
+ (if tmp (set pc dest)))
+)
+
+(dni bccgrgr
+ "Conditional branch comparing general register with general register"
+ ()
+ ("b$bcond5 $Rd,$Rs,$rel12")
+ (+ OP1_0 OP2_D Rs Rd bcond5 rel12)
+ (sequence ()
+ (set-psw-cmp Rd (index-of Rd) Rd Rs)
+ (cbranch bcond5 rel12))
+ ()
+)
+
+; 4 bytes
+(dni bccgrimm8
+ "Conditional branch comparing general register with 8-bit immediate"
+ ()
+ ("b$bcond5 $Rm,#$imm8,$rel12")
+ (+ OP1_2 OP2M_0 Rm imm8 bcond5 rel12)
+ (sequence ()
+ (set-psw-cmp Rm (index-of Rm) Rm imm8)
+ (cbranch bcond5 rel12))
+ ()
+)
+
+; 4 bytes
+(dni bccimm16
+ "Conditional branch comparing general register with 16-bit immediate"
+ ()
+ ("b$bcond2 Rx,#$imm16,${rel8-4}")
+ (+ OP1_C bcond2 rel8-4 imm16)
+ (sequence ()
+ (set-psw-cmp (reg HI h-gr Rpsw) Rpsw (reg HI h-gr Rpsw) imm16)
+ (cbranch bcond2 rel8-4))
+ ()
+)
+
+(dni bngrimm4
+ "Test bit in general register by immediate and branch if 0"
+ ()
+ ("bn $Rd,#$imm4,$rel12")
+ (+ OP1_0 OP2_4 imm4 Rd OP5_0 rel12)
+ (sequence ()
+ (set Rpsw (index-of Rd))
+ (if (eq (and Rd (sll 1 imm4)) 0)
+ (set pc rel12)))
+ ()
+)
+
+(dni bngrgr
+ "Test bit in general register by general register and branch if 0"
+ ()
+ ("bn $Rd,$Rs,$rel12")
+ (+ OP1_0 OP2_6 Rs Rd OP5_0 rel12)
+ (sequence ()
+ (set Rpsw (index-of Rd))
+ (if (eq (and Rd (sll 1 Rs)) 0)
+ (set pc rel12)))
+ ()
+)
+
+(dni bnlmemimm
+ "Test bit in memory by immediate and branch if 0"
+ ()
+ ("bn $lmem8,#$imm3b,$rel12")
+ (+ OP1_7 OP2_C lmem8 OP5A_0 imm3b rel12)
+ (if (eq (and (mem QI lmem8) (sll 1 imm3b)) 0)
+ (set pc rel12))
+ ()
+)
+
+(dni bnhmemimm
+ "Test bit in memory by immediate and branch if 0"
+ ()
+ ("bn $hmem8,#$imm3b,$rel12")
+ (+ OP1_7 OP2_E hmem8 OP5A_0 imm3b rel12)
+ (if (eq (and (mem QI hmem8) (sll 1 imm3b)) 0)
+ (set pc rel12))
+ ()
+)
+
+(dni bpgrimm4
+ "Test bit in general register by immediate and branch if 1"
+ ()
+ ("bp $Rd,#$imm4,$rel12")
+ (+ OP1_0 OP2_5 imm4 Rd OP5_0 rel12)
+ (sequence ()
+ (set Rpsw (index-of Rd))
+ (if (ne (and Rd (sll 1 imm4)) 0)
+ (set pc rel12)))
+ ()
+)
+
+(dni bpgrgr
+ "Test bit in general register by general register and branch if 1"
+ ()
+ ("bp $Rd,$Rs,$rel12")
+ (+ OP1_0 OP2_7 Rs Rd OP5_0 rel12)
+ (sequence ()
+ (set Rpsw (index-of Rd))
+ (if (ne (and Rd (sll 1 Rs)) 0)
+ (set pc rel12)))
+ ()
+)
+
+(dni bplmemimm
+ "Test bit in memory by immediate and branch if 1"
+ ()
+ ("bp $lmem8,#$imm3b,$rel12")
+ (+ OP1_7 OP2_D lmem8 OP5A_0 imm3b rel12)
+ (if (ne (and (mem QI lmem8) (sll 1 imm3b)) 0)
+ (set pc rel12))
+ ()
+)
+
+(dni bphmemimm
+ "Test bit in memory by immediate and branch if 1"
+ ()
+ ("bp $hmem8,#$imm3b,$rel12")
+ (+ OP1_7 OP2_F hmem8 OP5A_0 imm3b rel12)
+ (if (ne (and (mem QI hmem8) (sll 1 imm3b)) 0)
+ (set pc rel12))
+ ()
+)
+
+(dni bcc
+ "Conditional branch on flag registers"
+ ()
+ ("b$bcond2 ${rel8-2}")
+ (+ OP1_D bcond2 rel8-2)
+ (cbranch bcond2 rel8-2)
+ ()
+)
+
+; Unconditional Branching
+
+(dni bgr
+ "Branch to register"
+ ()
+ ("br $Rd")
+ (+ OP1_0 OP2_0 OP3_2 Rd)
+ (set pc (add (add pc 2) Rd))
+ ()
+)
+
+(dni br
+ "Branch"
+ ()
+ ("br $rel12a")
+ (+ OP1_1 rel12a OP4B_0)
+ (set pc rel12a)
+ ()
+)
+
+(dni jmp
+ "Jump"
+ ()
+ ("jmp $Rbj,$Rd")
+ (+ OP1_0 OP2_0 OP3B_4 Rbj Rd)
+ (set pc (join SI HI Rbj Rd))
+ ()
+)
+
+(dni jmpf
+ "Jump far"
+ ()
+ ("jmpf $abs24")
+ (+ OP1_0 OP2_2 abs24)
+ (set pc abs24)
+ ()
+)
+
+; Call instructions
+(define-pmacro (do-call dest ilen)
+ (sequence ()
+ (set (mem SI sp) (add pc ilen))
+ (set sp (add sp 4))
+ (set pc dest)))
+
+(dni callrgr
+ "Call relative to general register"
+ ()
+ ("callr $Rd")
+ (+ OP1_0 OP2_0 OP3_1 Rd)
+ (do-call (add Rd (add pc 2)) 2)
+ ()
+)
+
+(dni callrimm
+ "Call relative to immediate address"
+ ()
+ ("callr $rel12a")
+ (+ OP1_1 rel12a OP4B_1)
+ (do-call rel12a 2)
+ ()
+)
+
+(dni callgr
+ "Call to general registers"
+ ()
+ ("call $Rbj,$Rd")
+ (+ OP1_0 OP2_0 OP3B_A Rbj Rd)
+ (do-call (join SI HI Rbj Rd) 2)
+ ()
+)
+
+(dni callfimm
+ "Call far to absolute address"
+ ()
+ ("callf $abs24")
+ (+ OP1_0 OP2_1 abs24)
+ (do-call abs24 4)
+ ()
+)
+
+(define-pmacro (do-calli dest ilen)
+ (sequence ()
+ (set (mem SI sp) (add pc ilen))
+ (set (mem HI (add sp 4)) psw)
+ (set sp (add sp 6))
+ (set pc dest)))
+
+(dni icallrgr
+ "Call interrupt to general registers pc-relative"
+ ()
+ ("icallr $Rd")
+ (+ OP1_0 OP2_0 OP3_3 Rd)
+ (do-calli (add Rd (add pc 2)) 2)
+ ()
+)
+
+(dni icallgr
+ "Call interrupt to general registers"
+ ()
+ ("icall $Rbj,$Rd")
+ (+ OP1_0 OP2_0 OP3B_6 Rbj Rd)
+ (do-calli (join SI HI Rbj Rd) 2)
+ ()
+)
+
+(dni icallfimm
+ "Call interrupt far to absolute address"
+ ()
+ ("icallf $abs24")
+ (+ OP1_0 OP2_3 abs24)
+ (do-calli abs24 4)
+ ()
+)
+
+; Return instructions
+(dni iret
+ "Return from interrupt"
+ ()
+ ("iret")
+ (+ (f-op #x0002))
+ (sequence ()
+ (set sp (sub sp 6))
+ (set pc (mem SI sp))
+ (set psw (mem HI (add sp 4))))
+ ()
+)
+
+(dni ret
+ "Return"
+ ()
+ ("ret")
+ (+ (f-op #x0003))
+ (sequence ()
+ (set sp (sub sp 4))
+ (set pc (mem SI sp)))
+ ()
+)
+
+; Multiply and Divide instructions
+
+(dni mul
+ "Multiply"
+ ()
+ ("mul")
+ (+ (f-op #x00D0))
+ (sequence ((SI value))
+ (set value (mul SI (and SI R0 #xFFFF) (and SI R2 #xFFFF)))
+ (set psw (or (and psw #xFF9C)
+ (basic-psw (trunc HI value) 1)))
+ (set R0 (trunc HI value))
+ (set R1 (trunc HI (srl value 16))))
+ ()
+)
+(dni div
+ "Divide"
+ ()
+ ("div")
+ (+ (f-op #x00C0))
+ (sequence ()
+ (set R1 (umod R0 R2))
+ (set-mem-psw R0 (udiv R0 R2) 1))
+ ()
+)
+(dni sdiv
+ "Signed Divide"
+ ()
+ ("sdiv")
+ (+ (f-op #x00C8))
+ (sequence ()
+ (set R1 (mod HI R0 R2))
+ (set-mem-psw R0 (div HI R0 R2) 1))
+ ()
+)
+(dni sdivlh
+ "Divide 32/16"
+ ()
+ ("sdivlh")
+ (+ (f-op #x00E8))
+ (sequence ((SI value))
+ (set value (add SI (sll SI (and SI R1 #xffff) #x10) (and SI R0 #xffff)))
+ (set R1 (mod SI value (ext SI (trunc HI R2))))
+ (set-mem-psw R0 (div SI value (ext SI (trunc HI R2))) 1))
+ ()
+)
+(dni divlh
+ "Divide 32/16"
+ ()
+ ("divlh")
+ (+ (f-op #x00E0))
+ (sequence ((SI value))
+ (set value (add SI (sll SI (and SI R1 #xffff) #x10) (and SI R0 #xffff)))
+ (set R1 (umod SI value R2))
+ (set-mem-psw R0 (udiv SI value R2) 1))
+ ()
+)
+
+; System Control
+
+; added per sanyo's req -- eq to nop for the moment, but can
+; add function later
+(dni reset "reset" () ("reset") (+ (f-op #x000f)) (nop) ())
+
+(dni nop "nop" () ("nop") (+ (f-op #x0000)) (nop) ())
+
+(dni halt "halt" () ("halt") (+ (f-op #x0008)) (c-call VOID "do_halt") ())
+
+(dni hold "hold" () ("hold") (+ (f-op #x000A)) (c-call VOID "do_hold") ())
+
+(dni holdx "holdx" () ("holdx") (+ (f-op #x000B)) (c-call VOID "do_holdx") ())
+
+(dni brk "brk" () ("brk") (+ (f-op #x0005)) (c-call VOID "do_brk") ())
+
+; An instruction for test instrumentation.
+; Using a reserved opcode.
+(dni syscall
+ "simulator system call"
+ ()
+ ("--unused--")
+ (+ (f-op #x0001))
+ (c-call VOID "syscall")
+ ()
+)
--- /dev/null
+/* XSTORMY16 opcode support. -*- C -*-
+ Copyright 2011 Free Software Foundation, Inc.
+
+ Contributed by Red Hat Inc;
+
+ This file is part of the GNU Binutils.
+
+ This program is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 3 of the License, or
+ (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
+ MA 02110-1301, USA. */
+
+/* This file is an addendum to xstormy16.cpu. Heavy use of C code isn't
+ appropriate in .cpu files, so it resides here. This especially applies
+ to assembly/disassembly where parsing/printing can be quite involved.
+ Such things aren't really part of the specification of the cpu, per se,
+ so .cpu files provide the general framework and .opc files handle the
+ nitty-gritty details as necessary.
+
+ Each section is delimited with start and end markers.
+
+ <arch>-opc.h additions use: "-- opc.h"
+ <arch>-opc.c additions use: "-- opc.c"
+ <arch>-asm.c additions use: "-- asm.c"
+ <arch>-dis.c additions use: "-- dis.c"
+ <arch>-ibd.h additions use: "-- ibd.h". */
+\f
+/* -- opc.h */
+
+/* Allows reason codes to be output when assembler errors occur. */
+#define CGEN_VERBOSE_ASSEMBLER_ERRORS
+
+/* We can't use the default hash size because many bits are used by
+ operands. */
+#define CGEN_DIS_HASH_SIZE 1
+#define CGEN_DIS_HASH(buf, value) 0
+/* -- */
+\f
+/* -- asm.c */
+
+/* The machine-independent code doesn't know how to disambiguate
+ mov (foo),r3
+ and
+ mov (r2),r3
+ where 'foo' is a label. This helps it out. */
+
+static const char *
+parse_mem8 (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ if (**strp == '(')
+ {
+ const char *s = *strp;
+
+ if (s[1] == '-' && s[2] == '-')
+ return _("Bad register in preincrement");
+
+ while (ISALNUM (*++s))
+ ;
+ if (s[0] == '+' && s[1] == '+' && (s[2] == ')' || s[2] == ','))
+ return _("Bad register in postincrement");
+ if (s[0] == ',' || s[0] == ')')
+ return _("Bad register name");
+ }
+ else if (cgen_parse_keyword (cd, strp, & xstormy16_cgen_opval_gr_names,
+ (long *) valuep) == NULL)
+ return _("Label conflicts with register name");
+ else if (strncasecmp (*strp, "rx,", 3) == 0
+ || strncasecmp (*strp, "rxl,", 3) == 0
+ || strncasecmp (*strp, "rxh,", 3) == 0)
+ return _("Label conflicts with `Rx'");
+ else if (**strp == '#')
+ return _("Bad immediate expression");
+
+ return cgen_parse_unsigned_integer (cd, strp, opindex, valuep);
+}
+
+/* For the add and subtract instructions, there are two immediate forms,
+ one for small operands and one for large ones. We want to use
+ the small one when possible, but we do not want to generate relocs
+ of the small size. This is somewhat tricky. */
+
+static const char *
+parse_small_immediate (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ bfd_vma value;
+ enum cgen_parse_operand_result result;
+ const char *errmsg;
+
+ if (**strp == '@')
+ return _("No relocation for small immediate");
+
+ errmsg = (* cd->parse_operand_fn)
+ (cd, CGEN_PARSE_OPERAND_INTEGER, strp, opindex, BFD_RELOC_NONE,
+ & result, & value);
+
+ if (errmsg)
+ return errmsg;
+
+ if (result != CGEN_PARSE_OPERAND_RESULT_NUMBER)
+ return _("Small operand was not an immediate number");
+
+ *valuep = value;
+ return NULL;
+}
+
+/* Literal scan be either a normal literal, a @hi() or @lo relocation. */
+
+static const char *
+parse_immediate16 (CGEN_CPU_DESC cd,
+ const char **strp,
+ int opindex,
+ unsigned long *valuep)
+{
+ const char *errmsg;
+ enum cgen_parse_operand_result result;
+ bfd_reloc_code_real_type code = BFD_RELOC_NONE;
+ bfd_vma value;
+
+ if (strncmp (*strp, "@hi(", 4) == 0)
+ {
+ *strp += 4;
+ code = BFD_RELOC_HI16;
+ }
+ else
+ if (strncmp (*strp, "@lo(", 4) == 0)
+ {
+ *strp += 4;
+ code = BFD_RELOC_LO16;
+ }
+
+ if (code == BFD_RELOC_NONE)
+ errmsg = cgen_parse_unsigned_integer (cd, strp, opindex, valuep);
+ else
+ {
+ errmsg = cgen_parse_address (cd, strp, opindex, code, &result, &value);
+ if ((errmsg == NULL) &&
+ (result != CGEN_PARSE_OPERAND_RESULT_QUEUED))
+ errmsg = _("Operand is not a symbol");
+
+ *valuep = value;
+ if ((code == BFD_RELOC_HI16 || code == BFD_RELOC_LO16)
+ && **strp == ')')
+ *strp += 1;
+ else
+ {
+ errmsg = _("Syntax error: No trailing ')'");
+ return errmsg;
+ }
+ }
+ return errmsg;
+}
+/* -- */
+2011-08-22 Nick Clifton <nickc@redhat.com>
+
+ * Makefile.am (CPUDIR): Redfine to point to top level cpu
+ directory.
+ (stamp-frv): Use CPUDIR.
+ (stamp-iq2000): Likewise.
+ (stamp-lm32): Likewise.
+ (stamp-m32c): Likewise.
+ (stamp-mt): Likewise.
+ (stamp-xc16x): Likewise.
+ * Makefile.in: Regenerate.
+
2011-08-09 Chao-ying Fu <fu@mips.com>
Maciej W. Rozycki <macro@codesourcery.com>
CGENDIR = @cgendir@
-CPUDIR = $(CGENDIR)/cpu
+CPUDIR = $(srcdir)/../cpu
CGEN = "`if test -f ../guile/libguile/guile ; then echo ../guile/libguile/guile; else echo guile ; fi` -l ${cgendir}/guile.scm -s"
CGENFLAGS = -v
$(srcdir)/frv-desc.h $(srcdir)/frv-desc.c $(srcdir)/frv-opc.h $(srcdir)/frv-opc.c $(srcdir)/frv-ibld.c $(srcdir)/frv-asm.c $(srcdir)/frv-dis.c: $(FRV_DEPS)
@true
-stamp-frv: $(CGENDEPS) $(srcdir)/../cpu/frv.cpu $(srcdir)/../cpu/frv.opc
+stamp-frv: $(CGENDEPS) $(CPUDIR)/frv.cpu $(CPUDIR)/frv.opc
$(MAKE) run-cgen arch=frv prefix=frv options= \
- archfile=$(srcdir)/../cpu/frv.cpu opcfile=$(srcdir)/../cpu/frv.opc extrafiles=
+ archfile=$(CPUDIR)/frv.cpu opcfile=$(CPUDIR)/frv.opc extrafiles=
$(srcdir)/ip2k-desc.h $(srcdir)/ip2k-desc.c $(srcdir)/ip2k-opc.h $(srcdir)/ip2k-opc.c $(srcdir)/ip2k-ibld.c $(srcdir)/ip2k-asm.c $(srcdir)/ip2k-dis.c: $(IP2K_DEPS)
@true
$(srcdir)/iq2000-desc.h $(srcdir)/iq2000-desc.c $(srcdir)/iq2000-opc.h $(srcdir)/iq2000-opc.c $(srcdir)/iq2000-ibld.c $(srcdir)/iq2000-asm.c $(srcdir)/iq2000-dis.c: $(IQ2000_DEPS)
@true
-stamp-iq2000: $(CGENDEPS) $(srcdir)/../cpu/iq2000.cpu \
- $(srcdir)/../cpu/iq2000.opc $(srcdir)/../cpu/iq2000m.cpu \
- $(srcdir)/../cpu/iq10.cpu
+stamp-iq2000: $(CGENDEPS) $(CPUDIR)/iq2000.cpu \
+ $(CPUDIR)/iq2000.opc $(CPUDIR)/iq2000m.cpu \
+ $(CPUDIR)/iq10.cpu
$(MAKE) run-cgen arch=iq2000 prefix=iq2000 options= \
- archfile=$(srcdir)/../cpu/iq2000.cpu \
- opcfile=$(srcdir)/../cpu/iq2000.opc extrafiles=
+ archfile=$(CPUDIR)/iq2000.cpu \
+ opcfile=$(CPUDIR)/iq2000.opc extrafiles=
$(srcdir)lm32-desc.h $(srcdir)/lm32-desc.c $(srcdir)/lm32-opc.h $(srcdir)/lm32-opc.c $(srcdir)/lm32-ibld.c $(srcdir)/lm32-opinst.c $(srcdir)/lm32-asm.c $(srcdir)/lm32-dis.c: $(LM32_DEPS)
@true
-stamp-lm32: $(CGENDEPS) $(srcdir)/../cpu/lm32.cpu $(srcdir)/../cpu/lm32.opc
+stamp-lm32: $(CGENDEPS) $(CPUDIR)/lm32.cpu $(CPUDIR)/lm32.opc
$(MAKE) run-cgen arch=lm32 prefix=lm32 options=opinst \
- archfile=$(srcdir)/../cpu/lm32.cpu \
- opcfile=$(srcdir)/../cpu/lm32.opc \
+ archfile=$(CPUDIR)/lm32.cpu \
+ opcfile=$(CPUDIR)/lm32.opc \
extrafiles=opinst
$(srcdir)/m32c-desc.h $(srcdir)/m32c-desc.c $(srcdir)/m32c-opc.h $(srcdir)/m32c-opc.c $(srcdir)/m32c-ibld.c $(srcdir)/m32c-asm.c $(srcdir)/m32c-dis.c: $(M32C_DEPS)
# @true
-stamp-m32c: $(CGENDEPS) $(srcdir)/../cpu/m32c.cpu $(srcdir)/../cpu/m32c.opc
+stamp-m32c: $(CGENDEPS) $(CPUDIR)/m32c.cpu $(CPUDIR)/m32c.opc
$(MAKE) run-cgen arch=m32c prefix=m32c options= \
- archfile=$(srcdir)/../cpu/m32c.cpu \
- opcfile=$(srcdir)/../cpu/m32c.opc extrafiles=
+ archfile=$(CPUDIR)/m32c.cpu \
+ opcfile=$(CPUDIR)/m32c.opc extrafiles=
$(srcdir)/m32r-desc.h $(srcdir)/m32r-desc.c $(srcdir)/m32r-opc.h $(srcdir)/m32r-opc.c $(srcdir)/m32r-ibld.c $(srcdir)/m32r-opinst.c $(srcdir)/m32r-asm.c $(srcdir)/m32r-dis.c: $(M32R_DEPS)
@true
-stamp-m32r: $(CGENDEPS) $(srcdir)/../cpu/m32r.cpu $(srcdir)/../cpu/m32r.opc
+stamp-m32r: $(CGENDEPS) $(CPUDIR)/m32r.cpu $(CPUDIR)/m32r.opc
$(MAKE) run-cgen arch=m32r prefix=m32r options=opinst \
- archfile=$(srcdir)/../cpu/m32r.cpu \
- opcfile=$(srcdir)/../cpu/m32r.opc extrafiles=opinst
+ archfile=$(CPUDIR)/m32r.cpu \
+ opcfile=$(CPUDIR)/m32r.opc extrafiles=opinst
$(srcdir)/mep-desc.h $(srcdir)/mep-desc.c $(srcdir)/mep-opc.h $(srcdir)/mep-opc.c $(srcdir)/mep-ibld.c $(srcdir)/mep-asm.c $(srcdir)/mep-dis.c: $(MEP_DEPS)
@true
$(srcdir)/mt-desc.h $(srcdir)/mt-desc.c $(srcdir)/mt-opc.h $(srcdir)/mt-opc.c $(srcdir)/mt-ibld.c $(srcdir)/mt-asm.c $(srcdir)/mt-dis.c: $(MT_DEPS)
@true
-stamp-mt: $(CGENDEPS) $(srcdir)/../cpu/mt.cpu $(srcdir)/../cpu/mt.opc
+stamp-mt: $(CGENDEPS) $(CPUDIR)/mt.cpu $(CPUDIR)/mt.opc
$(MAKE) run-cgen arch=mt prefix=mt options= \
- archfile=$(srcdir)/../cpu/mt.cpu \
- opcfile=$(srcdir)/../cpu/mt.opc extrafiles=
+ archfile=$(CPUDIR)/mt.cpu \
+ opcfile=$(CPUDIR)/mt.opc extrafiles=
$(srcdir)/openrisc-desc.h $(srcdir)/openrisc-desc.c $(srcdir)/openrisc-opc.h $(srcdir)/openrisc-opc.c $(srcdir)/openrisc-ibld.c $(srcdir)/openrisc-asm.c $(srcdir)/openrisc-dis.c: $(OPENRISC_DEPS)
@true
$(srcdir)/xc16x-desc.h $(srcdir)/xc16x-desc.c $(srcdir)/xc16x-opc.h $(srcdir)/xc16x-opc.c $(srcdir)/xc16x-ibld.c $(srcdir)/xc16x-asm.c $(srcdir)/xc16x-dis.c: $(XC16X_DEPS)
@true
-stamp-xc16x: $(CGENDEPS) $(srcdir)/../cpu/xc16x.cpu $(srcdir)/../cpu/xc16x.opc
+stamp-xc16x: $(CGENDEPS) $(CPUDIR)/xc16x.cpu $(CPUDIR)/xc16x.opc
$(MAKE) run-cgen arch=xc16x prefix=xc16x options= \
- archfile=$(srcdir)/../cpu/xc16x.cpu \
- opcfile=$(srcdir)/../cpu/xc16x.opc \
+ archfile=$(CPUDIR)/xc16x.cpu \
+ opcfile=$(CPUDIR)/xc16x.opc \
extrafiles=
$(srcdir)/xstormy16-desc.h $(srcdir)/xstormy16-desc.c $(srcdir)/xstormy16-opc.h $(srcdir)/xstormy16-opc.c $(srcdir)/xstormy16-ibld.c $(srcdir)/xstormy16-asm.c $(srcdir)/xstormy16-dis.c: $(XSTORMY16_DEPS)
libopcodes.a stamp-lib
CGENDIR = @cgendir@
-CPUDIR = $(CGENDIR)/cpu
+CPUDIR = $(srcdir)/../cpu
CGEN = "`if test -f ../guile/libguile/guile ; then echo ../guile/libguile/guile; else echo guile ; fi` -l ${cgendir}/guile.scm -s"
CGENFLAGS = -v
CGENDEPS = \
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/mep-ibld.Plo@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/mep-opc.Plo@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/microblaze-dis.Plo@am__quote@
+@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/micromips-opc.Plo@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/mips-dis.Plo@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/mips-opc.Plo@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/mips16-opc.Plo@am__quote@
$(srcdir)/frv-desc.h $(srcdir)/frv-desc.c $(srcdir)/frv-opc.h $(srcdir)/frv-opc.c $(srcdir)/frv-ibld.c $(srcdir)/frv-asm.c $(srcdir)/frv-dis.c: $(FRV_DEPS)
@true
-stamp-frv: $(CGENDEPS) $(srcdir)/../cpu/frv.cpu $(srcdir)/../cpu/frv.opc
+stamp-frv: $(CGENDEPS) $(CPUDIR)/frv.cpu $(CPUDIR)/frv.opc
$(MAKE) run-cgen arch=frv prefix=frv options= \
- archfile=$(srcdir)/../cpu/frv.cpu opcfile=$(srcdir)/../cpu/frv.opc extrafiles=
+ archfile=$(CPUDIR)/frv.cpu opcfile=$(CPUDIR)/frv.opc extrafiles=
$(srcdir)/ip2k-desc.h $(srcdir)/ip2k-desc.c $(srcdir)/ip2k-opc.h $(srcdir)/ip2k-opc.c $(srcdir)/ip2k-ibld.c $(srcdir)/ip2k-asm.c $(srcdir)/ip2k-dis.c: $(IP2K_DEPS)
@true
$(srcdir)/iq2000-desc.h $(srcdir)/iq2000-desc.c $(srcdir)/iq2000-opc.h $(srcdir)/iq2000-opc.c $(srcdir)/iq2000-ibld.c $(srcdir)/iq2000-asm.c $(srcdir)/iq2000-dis.c: $(IQ2000_DEPS)
@true
-stamp-iq2000: $(CGENDEPS) $(srcdir)/../cpu/iq2000.cpu \
- $(srcdir)/../cpu/iq2000.opc $(srcdir)/../cpu/iq2000m.cpu \
- $(srcdir)/../cpu/iq10.cpu
+stamp-iq2000: $(CGENDEPS) $(CPUDIR)/iq2000.cpu \
+ $(CPUDIR)/iq2000.opc $(CPUDIR)/iq2000m.cpu \
+ $(CPUDIR)/iq10.cpu
$(MAKE) run-cgen arch=iq2000 prefix=iq2000 options= \
- archfile=$(srcdir)/../cpu/iq2000.cpu \
- opcfile=$(srcdir)/../cpu/iq2000.opc extrafiles=
+ archfile=$(CPUDIR)/iq2000.cpu \
+ opcfile=$(CPUDIR)/iq2000.opc extrafiles=
$(srcdir)lm32-desc.h $(srcdir)/lm32-desc.c $(srcdir)/lm32-opc.h $(srcdir)/lm32-opc.c $(srcdir)/lm32-ibld.c $(srcdir)/lm32-opinst.c $(srcdir)/lm32-asm.c $(srcdir)/lm32-dis.c: $(LM32_DEPS)
@true
-stamp-lm32: $(CGENDEPS) $(srcdir)/../cpu/lm32.cpu $(srcdir)/../cpu/lm32.opc
+stamp-lm32: $(CGENDEPS) $(CPUDIR)/lm32.cpu $(CPUDIR)/lm32.opc
$(MAKE) run-cgen arch=lm32 prefix=lm32 options=opinst \
- archfile=$(srcdir)/../cpu/lm32.cpu \
- opcfile=$(srcdir)/../cpu/lm32.opc \
+ archfile=$(CPUDIR)/lm32.cpu \
+ opcfile=$(CPUDIR)/lm32.opc \
extrafiles=opinst
$(srcdir)/m32c-desc.h $(srcdir)/m32c-desc.c $(srcdir)/m32c-opc.h $(srcdir)/m32c-opc.c $(srcdir)/m32c-ibld.c $(srcdir)/m32c-asm.c $(srcdir)/m32c-dis.c: $(M32C_DEPS)
# @true
-stamp-m32c: $(CGENDEPS) $(srcdir)/../cpu/m32c.cpu $(srcdir)/../cpu/m32c.opc
+stamp-m32c: $(CGENDEPS) $(CPUDIR)/m32c.cpu $(CPUDIR)/m32c.opc
$(MAKE) run-cgen arch=m32c prefix=m32c options= \
- archfile=$(srcdir)/../cpu/m32c.cpu \
- opcfile=$(srcdir)/../cpu/m32c.opc extrafiles=
+ archfile=$(CPUDIR)/m32c.cpu \
+ opcfile=$(CPUDIR)/m32c.opc extrafiles=
$(srcdir)/m32r-desc.h $(srcdir)/m32r-desc.c $(srcdir)/m32r-opc.h $(srcdir)/m32r-opc.c $(srcdir)/m32r-ibld.c $(srcdir)/m32r-opinst.c $(srcdir)/m32r-asm.c $(srcdir)/m32r-dis.c: $(M32R_DEPS)
@true
-stamp-m32r: $(CGENDEPS) $(srcdir)/../cpu/m32r.cpu $(srcdir)/../cpu/m32r.opc
+stamp-m32r: $(CGENDEPS) $(CPUDIR)/m32r.cpu $(CPUDIR)/m32r.opc
$(MAKE) run-cgen arch=m32r prefix=m32r options=opinst \
- archfile=$(srcdir)/../cpu/m32r.cpu \
- opcfile=$(srcdir)/../cpu/m32r.opc extrafiles=opinst
+ archfile=$(CPUDIR)/m32r.cpu \
+ opcfile=$(CPUDIR)/m32r.opc extrafiles=opinst
$(srcdir)/mep-desc.h $(srcdir)/mep-desc.c $(srcdir)/mep-opc.h $(srcdir)/mep-opc.c $(srcdir)/mep-ibld.c $(srcdir)/mep-asm.c $(srcdir)/mep-dis.c: $(MEP_DEPS)
@true
$(srcdir)/mt-desc.h $(srcdir)/mt-desc.c $(srcdir)/mt-opc.h $(srcdir)/mt-opc.c $(srcdir)/mt-ibld.c $(srcdir)/mt-asm.c $(srcdir)/mt-dis.c: $(MT_DEPS)
@true
-stamp-mt: $(CGENDEPS) $(srcdir)/../cpu/mt.cpu $(srcdir)/../cpu/mt.opc
+stamp-mt: $(CGENDEPS) $(CPUDIR)/mt.cpu $(CPUDIR)/mt.opc
$(MAKE) run-cgen arch=mt prefix=mt options= \
- archfile=$(srcdir)/../cpu/mt.cpu \
- opcfile=$(srcdir)/../cpu/mt.opc extrafiles=
+ archfile=$(CPUDIR)/mt.cpu \
+ opcfile=$(CPUDIR)/mt.opc extrafiles=
$(srcdir)/openrisc-desc.h $(srcdir)/openrisc-desc.c $(srcdir)/openrisc-opc.h $(srcdir)/openrisc-opc.c $(srcdir)/openrisc-ibld.c $(srcdir)/openrisc-asm.c $(srcdir)/openrisc-dis.c: $(OPENRISC_DEPS)
@true
$(srcdir)/xc16x-desc.h $(srcdir)/xc16x-desc.c $(srcdir)/xc16x-opc.h $(srcdir)/xc16x-opc.c $(srcdir)/xc16x-ibld.c $(srcdir)/xc16x-asm.c $(srcdir)/xc16x-dis.c: $(XC16X_DEPS)
@true
-stamp-xc16x: $(CGENDEPS) $(srcdir)/../cpu/xc16x.cpu $(srcdir)/../cpu/xc16x.opc
+stamp-xc16x: $(CGENDEPS) $(CPUDIR)/xc16x.cpu $(CPUDIR)/xc16x.opc
$(MAKE) run-cgen arch=xc16x prefix=xc16x options= \
- archfile=$(srcdir)/../cpu/xc16x.cpu \
- opcfile=$(srcdir)/../cpu/xc16x.opc \
+ archfile=$(CPUDIR)/xc16x.cpu \
+ opcfile=$(CPUDIR)/xc16x.opc \
extrafiles=
$(srcdir)/xstormy16-desc.h $(srcdir)/xstormy16-desc.c $(srcdir)/xstormy16-opc.h $(srcdir)/xstormy16-opc.c $(srcdir)/xstormy16-ibld.c $(srcdir)/xstormy16-asm.c $(srcdir)/xstormy16-dis.c: $(XSTORMY16_DEPS)