+2012-01-15 Georg-Johann Lay <avr@gjlay.de>
+ Anatoly Sokolov <aesok@post.ru>
+ Eric Weddington <eric.weddington@atmel.com>
+
+ PR target/52261
+ * config/avr/avr-devices.c (avr_arch_types): Add avrxmega2,
+ avrxmega4, avrxmega5, avrxmega6, avrxmega7.
+ Rewrite initializers for .macro.
+ * config/avr/avr-mcus.def (AVR_MCU): Add known MCUs:
+ avrxmega2: atxmega16a4, atxmega16d4, atxmega16x1, atxmega32a4
+ atxmega32d4, atxmega32x1.
+ avrxmega4: atxmega64a3, atxmega64d3.
+ avrxmega5: atxmega64a1, atxmega64a1u.
+ avrxmega6: atxmega128a3, atxmega128d3, atxmega192a3, atxmega192d3,
+ atxmega256a3, atxmega256a3b, atxmega256a3bu, atxmega256d3.
+ avrxmega7: atxmega128a1, atxmega128a1u.
+ * config/avr/avr.h (enum avr_arch): Add: ARCH_AVRXMEGA2,
+ ARCH_AVRXMEGA4, ARCH_AVRXMEGA5, ARCH_AVRXMEGA6, ARCH_AVRXMEGA7.
+ (struct base_arch_s): Rename reserved to xmega_p.
+ Rename reserved2 to have_rampd.
+ (AVR_XMEGA): New define.
+ (AVR_HAVE_RAMPD, AVR_HAVE_RAMPX, AVR_HAVE_RAMPY): New defines.
+ (AVR_HAVE_RAMPZ): Change definition to fit xmega.
+ * config/avr/predicates.md (io_address_operand): Take into
+ account SFR offset.
+ (low_io_address_operand): Ditto.
+ (high_io_address_operand): Ditto.
+ * config/avr/avr.md (isa): Add alternatives no_xmega, xmega.
+ (enabled, movhi_sp_r): Use them.
+ * config/avr/avr-c.c (avr_cpu_cpp_builtins): Use
+ cpp_define_formatted to built-in define __AVR_ARCH__.
+ (__AVR_XMEGA__): New built-in define.
+ (__AVR_HAVE_RAMPD__): New built-in define.
+ (__AVR_HAVE_RAMPX__): New built-in define.
+ (__AVR_HAVE_RAMPY__): New built-in define.
+ (__AVR_HAVE_RAMPZ__): Change condition when to built-in define it.
+
+ * config/avr/avr.c (avr_addr_t): Add ccp, rampd, rampx, rampy.
+ (avr_option_override): Initialize them.
+ (sreg_rtx, rampd_rtx, rampx_rtx, rampy_rtx): New GTY rtx.
+ (avr_init_expanders): Initialize them. No more block several calls.
+ (emit_push_sfr): New static function.
+ (avr_prologue_setup_frame): Use it to push SREG, RAMPD/X/Y/Z as needed.
+ Handle AVR_XMEGA.
+ (expand_epilogue): Handle AVR_XMEGA. Pop RAMPD/X/Y/Z as needed.
+ (avr_print_operand): Print addreeses as symbols for
+ RAMPX, RAMPY, RAMPD, CCP.
+ (output_movhi): Handle AVR_XMEGA when writing to SP.
+ (avr_out_movhi_mr_r_xmega): New static function.
+ (out_movhi_mr_r): Forward to avr_out_movhi_mr_r_xmega for AVR_XMEGA.
+ (avr_file_start): Print symbol defines for __RAMPX__, __RAMPY__,
+ __RAMPD__, __CCP__ as needed.
+
+ * config/avr/multilib.h: Regenerate.
+ * config/avr/t-multilib: Regenerate.
+ * config/avr/avr-tables.opt: Regenerate.
+
2012-02-15 Tobias Grosser <grosser@fim.uni-passau.de>
PR tree-optimization/50561
builtin_define_std ("AVR");
if (avr_current_arch->macro)
- cpp_define (pfile, avr_current_arch->macro);
+ cpp_define_formatted (pfile, "__AVR_ARCH__=%s", avr_current_arch->macro);
if (avr_extra_arch_macro)
cpp_define (pfile, avr_extra_arch_macro);
- if (avr_current_arch->have_elpm)
- cpp_define (pfile, "__AVR_HAVE_RAMPZ__");
- if (avr_current_arch->have_elpm)
- cpp_define (pfile, "__AVR_HAVE_ELPM__");
- if (avr_current_arch->have_elpmx)
- cpp_define (pfile, "__AVR_HAVE_ELPMX__");
- if (avr_current_arch->have_movw_lpmx)
- {
- cpp_define (pfile, "__AVR_HAVE_MOVW__");
- cpp_define (pfile, "__AVR_HAVE_LPMX__");
- }
+ if (AVR_HAVE_RAMPD) cpp_define (pfile, "__AVR_HAVE_RAMPD__");
+ if (AVR_HAVE_RAMPX) cpp_define (pfile, "__AVR_HAVE_RAMPX__");
+ if (AVR_HAVE_RAMPY) cpp_define (pfile, "__AVR_HAVE_RAMPY__");
+ if (AVR_HAVE_RAMPZ) cpp_define (pfile, "__AVR_HAVE_RAMPZ__");
+ if (AVR_HAVE_ELPM) cpp_define (pfile, "__AVR_HAVE_ELPM__");
+ if (AVR_HAVE_ELPMX) cpp_define (pfile, "__AVR_HAVE_ELPMX__");
+ if (AVR_HAVE_MOVW) cpp_define (pfile, "__AVR_HAVE_MOVW__");
+ if (AVR_HAVE_LPMX) cpp_define (pfile, "__AVR_HAVE_LPMX__");
+
if (avr_current_arch->asm_only)
cpp_define (pfile, "__AVR_ASM_ONLY__");
- if (avr_current_arch->have_mul)
+ if (AVR_HAVE_MUL)
{
cpp_define (pfile, "__AVR_ENHANCED__");
cpp_define (pfile, "__AVR_HAVE_MUL__");
cpp_define (pfile, "__AVR_MEGA__");
cpp_define (pfile, "__AVR_HAVE_JMP_CALL__");
}
+ if (AVR_XMEGA)
+ cpp_define (pfile, "__AVR_XMEGA__");
if (avr_current_arch->have_eijmp_eicall)
{
cpp_define (pfile, "__AVR_HAVE_EIJMP_EICALL__");
/* unknown device specified */
{ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x0060, 32, 1, NULL, "avr2" },
/*
- A M J LM E E E d S S O # F
- S U M PO L L I a t F ff 6 l
- M L P MV P P J - - t a R s 4 a
- XW M M M a r e s
- X P t t k h */
- { 1, 0, 0, 0, 0, 0, 0, 0, 0, 0x0060, 32, 1, "__AVR_ARCH__=1", "avr1" },
- { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x0060, 32, 1, "__AVR_ARCH__=2", "avr2" },
- { 0, 0, 0, 1, 0, 0, 0, 0, 0, 0x0060, 32, 1, "__AVR_ARCH__=25", "avr25" },
- { 0, 0, 1, 0, 0, 0, 0, 0, 0, 0x0060, 32, 1, "__AVR_ARCH__=3", "avr3" },
- { 0, 0, 1, 0, 1, 0, 0, 0, 0, 0x0060, 32, 2, "__AVR_ARCH__=31", "avr31" },
- { 0, 0, 1, 1, 0, 0, 0, 0, 0, 0x0060, 32, 1, "__AVR_ARCH__=35", "avr35" },
- { 0, 1, 0, 1, 0, 0, 0, 0, 0, 0x0060, 32, 1, "__AVR_ARCH__=4", "avr4" },
- { 0, 1, 1, 1, 0, 0, 0, 0, 0, 0x0060, 32, 1, "__AVR_ARCH__=5", "avr5" },
- { 0, 1, 1, 1, 1, 1, 0, 0, 0, 0x0060, 32, 2, "__AVR_ARCH__=51", "avr51" },
- { 0, 1, 1, 1, 1, 1, 1, 0, 0, 0x0060, 32, 4, "__AVR_ARCH__=6", "avr6" }
+ A M J LM E E E X R d S S O # F A
+ S U M PO L L I M A a t F ff 6 l r
+ M L P MV P P J E M t a R s 4 a c
+ XW M M M G P a r e s h
+ X P A D t t k h ID */
+ { 1, 0, 0, 0, 0, 0, 0, 0, 0, 0x0060, 32, 1, "1", "avr1" },
+ { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x0060, 32, 1, "2", "avr2" },
+ { 0, 0, 0, 1, 0, 0, 0, 0, 0, 0x0060, 32, 1, "25", "avr25" },
+ { 0, 0, 1, 0, 0, 0, 0, 0, 0, 0x0060, 32, 1, "3", "avr3" },
+ { 0, 0, 1, 0, 1, 0, 0, 0, 0, 0x0060, 32, 2, "31", "avr31" },
+ { 0, 0, 1, 1, 0, 0, 0, 0, 0, 0x0060, 32, 1, "35", "avr35" },
+ { 0, 1, 0, 1, 0, 0, 0, 0, 0, 0x0060, 32, 1, "4", "avr4" },
+ { 0, 1, 1, 1, 0, 0, 0, 0, 0, 0x0060, 32, 1, "5", "avr5" },
+ { 0, 1, 1, 1, 1, 1, 0, 0, 0, 0x0060, 32, 2, "51", "avr51" },
+ { 0, 1, 1, 1, 1, 1, 1, 0, 0, 0x0060, 32, 4, "6", "avr6" },
+
+ { 0, 1, 1, 1, 0, 0, 0, 1, 0, 0x2000, 0, 1, "102", "avrxmega2" },
+ { 0, 1, 1, 1, 0, 0, 0, 1, 0, 0x2000, 0, 1, "104", "avrxmega4" }, /* Same */
+ { 0, 1, 1, 1, 0, 0, 0, 1, 1, 0x2000, 0, 1, "105", "avrxmega5" },
+ { 0, 1, 1, 1, 1, 1, 1, 1, 0, 0x2000, 0, 4, "106", "avrxmega6" },
+ { 0, 1, 1, 1, 1, 1, 1, 1, 1, 0x2000, 0, 4, "107", "avrxmega7" }
};
const struct mcu_type_s avr_mcu_types[] = {
AVR_MCU ("avr6", ARCH_AVR6, NULL, 0, 0, 0x0200, "m2561")
AVR_MCU ("atmega2560", ARCH_AVR6, "__AVR_ATmega2560__", 0, 0, 0x0200, "m2560")
AVR_MCU ("atmega2561", ARCH_AVR6, "__AVR_ATmega2561__", 0, 0, 0x0200, "m2561")
+/* Xmega, 16K <= Flash < 64K, RAM <= 64K */
+AVR_MCU ("avrxmega2", ARCH_AVRXMEGA2, NULL, 0, 0, 0x2000, "x32a4")
+AVR_MCU ("atxmega16a4", ARCH_AVRXMEGA2, "__AVR_ATxmega16A4__", 0, 0, 0x2000, "x16a4")
+AVR_MCU ("atxmega16d4", ARCH_AVRXMEGA2, "__AVR_ATxmega16D4__", 0, 0, 0x2000, "x16d4")
+AVR_MCU ("atxmega16x1", ARCH_AVRXMEGA2, "__AVR_ATxmega16X1__", 0, 0, 0x2000, "x16x1")
+AVR_MCU ("atxmega32a4", ARCH_AVRXMEGA2, "__AVR_ATxmega32A4__", 0, 0, 0x2000, "x32a4")
+AVR_MCU ("atxmega32d4", ARCH_AVRXMEGA2, "__AVR_ATxmega32D4__", 0, 0, 0x2000, "x32d4")
+AVR_MCU ("atxmega32x1", ARCH_AVRXMEGA2, "__AVR_ATxmega32X1__", 0, 0, 0x2000, "x32x1")
+/* Xmega, Flash == 64K, RAM <= 64K */
+AVR_MCU ("avrxmega4", ARCH_AVRXMEGA4, NULL, 0, 0, 0x2000, "x64a4")
+AVR_MCU ("atxmega64a3", ARCH_AVRXMEGA4, "__AVR_ATxmega64A3__", 0, 0, 0x2000, "x64a3")
+AVR_MCU ("atxmega64d3", ARCH_AVRXMEGA4, "__AVR_ATxmega64D3__", 0, 0, 0x2000, "x64d3")
+/* Xmega, Flash == 64K, RAM > 64K */
+AVR_MCU ("avrxmega5", ARCH_AVRXMEGA5, NULL, 0, 0, 0x2000, "x64a1")
+AVR_MCU ("atxmega64a1", ARCH_AVRXMEGA5, "__AVR_ATxmega64A1__", 0, 0, 0x2000, "x64a1")
+AVR_MCU ("atxmega64a1u", ARCH_AVRXMEGA5, "__AVR_ATxmega64A1U__", 0, 0, 0x2000, "x64a1u")
+/* Xmega, 128K <= Flash <= 256K, RAM <= 64K */
+AVR_MCU ("avrxmega6", ARCH_AVRXMEGA6, NULL, 0, 0, 0x2000, "x128a3")
+AVR_MCU ("atxmega128a3", ARCH_AVRXMEGA6, "__AVR_ATxmega128A3__", 0, 0, 0x2000, "x128a3")
+AVR_MCU ("atxmega128d3", ARCH_AVRXMEGA6, "__AVR_ATxmega128D3__", 0, 0, 0x2000, "x128d3")
+AVR_MCU ("atxmega192a3", ARCH_AVRXMEGA6, "__AVR_ATxmega192A3__", 0, 0, 0x2000, "x192a3")
+AVR_MCU ("atxmega192d3", ARCH_AVRXMEGA6, "__AVR_ATxmega192D3__", 0, 0, 0x2000, "x192d3")
+AVR_MCU ("atxmega256a3", ARCH_AVRXMEGA6, "__AVR_ATxmega256A3__", 0, 0, 0x2000, "x256a3")
+AVR_MCU ("atxmega256a3b", ARCH_AVRXMEGA6, "__AVR_ATxmega256A3B__", 0, 0, 0x2000, "x256a3b")
+AVR_MCU ("atxmega256a3bu", ARCH_AVRXMEGA6, "__AVR_ATxmega256A3BU__", 0, 0, 0x2000, "x256a3bu")
+AVR_MCU ("atxmega256d3", ARCH_AVRXMEGA6, "__AVR_ATxmega256D3__", 0, 0, 0x2000, "x256d3")
+/* Xmega, 128K <= Flash <= 256K, RAM > 64K RAM. */
+AVR_MCU ("avrxmega7", ARCH_AVRXMEGA7, NULL, 0, 0, 0x2000, "x128a1")
+AVR_MCU ("atxmega128a1", ARCH_AVRXMEGA7, "__AVR_ATxmega128A1__", 0, 0, 0x2000, "x128a1")
+AVR_MCU ("atxmega128a1u", ARCH_AVRXMEGA7, "__AVR_ATxmega128A1U__", 0, 0, 0x2000, "x128a1u")
/* Assembler only. */
AVR_MCU ("avr1", ARCH_AVR1, NULL, 0, 0, 0x0060, "s1200")
AVR_MCU ("at90s1200", ARCH_AVR1, "__AVR_AT90S1200__", 0, 0, 0x0060, "s1200")
Enum(avr_mcu) String(atmega2561) Value(159)
EnumValue
-Enum(avr_mcu) String(avr1) Value(160)
+Enum(avr_mcu) String(avrxmega2) Value(160)
EnumValue
-Enum(avr_mcu) String(at90s1200) Value(161)
+Enum(avr_mcu) String(atxmega16a4) Value(161)
EnumValue
-Enum(avr_mcu) String(attiny11) Value(162)
+Enum(avr_mcu) String(atxmega16d4) Value(162)
EnumValue
-Enum(avr_mcu) String(attiny12) Value(163)
+Enum(avr_mcu) String(atxmega16x1) Value(163)
EnumValue
-Enum(avr_mcu) String(attiny15) Value(164)
+Enum(avr_mcu) String(atxmega32a4) Value(164)
EnumValue
-Enum(avr_mcu) String(attiny28) Value(165)
+Enum(avr_mcu) String(atxmega32d4) Value(165)
+
+EnumValue
+Enum(avr_mcu) String(atxmega32x1) Value(166)
+
+EnumValue
+Enum(avr_mcu) String(avrxmega4) Value(167)
+
+EnumValue
+Enum(avr_mcu) String(atxmega64a3) Value(168)
+
+EnumValue
+Enum(avr_mcu) String(atxmega64d3) Value(169)
+
+EnumValue
+Enum(avr_mcu) String(avrxmega5) Value(170)
+
+EnumValue
+Enum(avr_mcu) String(atxmega64a1) Value(171)
+
+EnumValue
+Enum(avr_mcu) String(atxmega64a1u) Value(172)
+
+EnumValue
+Enum(avr_mcu) String(avrxmega6) Value(173)
+
+EnumValue
+Enum(avr_mcu) String(atxmega128a3) Value(174)
+
+EnumValue
+Enum(avr_mcu) String(atxmega128d3) Value(175)
+
+EnumValue
+Enum(avr_mcu) String(atxmega192a3) Value(176)
+
+EnumValue
+Enum(avr_mcu) String(atxmega192d3) Value(177)
+
+EnumValue
+Enum(avr_mcu) String(atxmega256a3) Value(178)
+
+EnumValue
+Enum(avr_mcu) String(atxmega256a3b) Value(179)
+
+EnumValue
+Enum(avr_mcu) String(atxmega256a3bu) Value(180)
+
+EnumValue
+Enum(avr_mcu) String(atxmega256d3) Value(181)
+
+EnumValue
+Enum(avr_mcu) String(avrxmega7) Value(182)
+
+EnumValue
+Enum(avr_mcu) String(atxmega128a1) Value(183)
+
+EnumValue
+Enum(avr_mcu) String(atxmega128a1u) Value(184)
+
+EnumValue
+Enum(avr_mcu) String(avr1) Value(185)
+
+EnumValue
+Enum(avr_mcu) String(at90s1200) Value(186)
+
+EnumValue
+Enum(avr_mcu) String(attiny11) Value(187)
+
+EnumValue
+Enum(avr_mcu) String(attiny12) Value(188)
+
+EnumValue
+Enum(avr_mcu) String(attiny15) Value(189)
+
+EnumValue
+Enum(avr_mcu) String(attiny28) Value(190)
/* SREG: The pocessor status */
int sreg;
+ /* RAMPX, RAMPY, RAMPD and CCP of XMEGA */
+ int ccp;
+ int rampd;
+ int rampx;
+ int rampy;
+
/* RAMPZ: The high byte of 24-bit address used with ELPM */
int rampz;
extern GTY(()) rtx all_regs_rtx[32];
rtx all_regs_rtx[32];
-/* RAMPZ special function register */
+/* SREG, the processor status */
+extern GTY(()) rtx sreg_rtx;
+rtx sreg_rtx;
+
+/* RAMP* special function registers */
+extern GTY(()) rtx rampd_rtx;
+extern GTY(()) rtx rampx_rtx;
+extern GTY(()) rtx rampy_rtx;
extern GTY(()) rtx rampz_rtx;
+rtx rampd_rtx;
+rtx rampx_rtx;
+rtx rampy_rtx;
rtx rampz_rtx;
/* RTX containing the strings "" and "e", respectively */
/* RAMPZ: Address' high part when loading via ELPM */
avr_addr.rampz = 0x3B + avr_current_arch->sfr_offset;
+ avr_addr.rampy = 0x3A + avr_current_arch->sfr_offset;
+ avr_addr.rampx = 0x39 + avr_current_arch->sfr_offset;
+ avr_addr.rampd = 0x38 + avr_current_arch->sfr_offset;
+ avr_addr.ccp = 0x34 + avr_current_arch->sfr_offset;
+
/* SP: Stack Pointer (SP_H:SP_L) */
avr_addr.sp_l = 0x3D + avr_current_arch->sfr_offset;
avr_addr.sp_h = avr_addr.sp_l + 1;
{
int regno;
- static bool done = false;
-
- if (done)
- return;
- else
- done = true;
-
for (regno = 0; regno < 32; regno ++)
all_regs_rtx[regno] = gen_rtx_REG (QImode, regno);
lpm_addr_reg_rtx = gen_rtx_REG (HImode, REG_Z);
+ sreg_rtx = gen_rtx_MEM (QImode, GEN_INT (avr_addr.sreg));
+ rampd_rtx = gen_rtx_MEM (QImode, GEN_INT (avr_addr.rampd));
+ rampx_rtx = gen_rtx_MEM (QImode, GEN_INT (avr_addr.rampx));
+ rampy_rtx = gen_rtx_MEM (QImode, GEN_INT (avr_addr.rampy));
rampz_rtx = gen_rtx_MEM (QImode, GEN_INT (avr_addr.rampz));
xstring_empty = gen_rtx_CONST_STRING (VOIDmode, "");
cfun->machine->stack_usage++;
}
+
+/* Helper for expand_prologue. Emit a push of a SFR via tmp_reg.
+ SFR is a MEM representing the memory location of the SFR.
+ If CLR_P then clear the SFR after the push using zero_reg. */
+
+static void
+emit_push_sfr (rtx sfr, bool frame_related_p, bool clr_p)
+{
+ rtx insn;
+
+ gcc_assert (MEM_P (sfr));
+
+ /* IN __tmp_reg__, IO(SFR) */
+ insn = emit_move_insn (tmp_reg_rtx, sfr);
+ if (frame_related_p)
+ RTX_FRAME_RELATED_P (insn) = 1;
+
+ /* PUSH __tmp_reg__ */
+ emit_push_byte (TMP_REGNO, frame_related_p);
+
+ if (clr_p)
+ {
+ /* OUT IO(SFR), __zero_reg__ */
+ insn = emit_move_insn (sfr, const0_rtx);
+ if (frame_related_p)
+ RTX_FRAME_RELATED_P (insn) = 1;
+ }
+}
+
static void
avr_prologue_setup_frame (HOST_WIDE_INT size, HARD_REG_SET set)
{
changed the CFA to the frame pointer this operation
need not be annotated if frame pointer is needed. */
- if (AVR_HAVE_8BIT_SP)
+ if (AVR_HAVE_8BIT_SP || AVR_XMEGA)
{
insn = emit_move_insn (stack_pointer_rtx, fp);
}
/* Push SREG. */
/* ??? There's no dwarf2 column reserved for SREG. */
- emit_move_insn (tmp_reg_rtx,
- gen_rtx_MEM (QImode, GEN_INT (avr_addr.sreg)));
- emit_push_byte (TMP_REGNO, false);
+ emit_push_sfr (sreg_rtx, false, false /* clr */);
- /* Push RAMPZ. */
- /* ??? There's no dwarf2 column reserved for RAMPZ. */
- if (AVR_HAVE_RAMPZ
- && TEST_HARD_REG_BIT (set, REG_Z)
- && TEST_HARD_REG_BIT (set, REG_Z + 1))
- {
- emit_move_insn (tmp_reg_rtx, rampz_rtx);
- emit_push_byte (TMP_REGNO, false);
- }
-
/* Clear zero reg. */
emit_move_insn (zero_reg_rtx, const0_rtx);
/* Prevent any attempt to delete the setting of ZERO_REG! */
emit_use (zero_reg_rtx);
- }
+
+ /* Push and clear RAMPD/X/Y/Z if present and low-part register is used.
+ ??? There are no dwarf2 columns reserved for RAMPD/X/Y/Z. */
+
+ if (AVR_HAVE_RAMPD)
+ emit_push_sfr (rampd_rtx, false /* frame-related */, true /* clr */);
+
+ if (AVR_HAVE_RAMPX
+ && TEST_HARD_REG_BIT (set, REG_X)
+ && TEST_HARD_REG_BIT (set, REG_X + 1))
+ {
+ emit_push_sfr (rampx_rtx, false /* frame-related */, true /* clr */);
+ }
+
+ if (AVR_HAVE_RAMPY
+ && (frame_pointer_needed
+ || (TEST_HARD_REG_BIT (set, REG_Y)
+ && TEST_HARD_REG_BIT (set, REG_Y + 1))))
+ {
+ emit_push_sfr (rampy_rtx, false /* frame-related */, true /* clr */);
+ }
+
+ if (AVR_HAVE_RAMPZ
+ && TEST_HARD_REG_BIT (set, REG_Z)
+ && TEST_HARD_REG_BIT (set, REG_Z + 1))
+ {
+ emit_push_sfr (rampz_rtx, false /* frame-related */, true /* clr */);
+ }
+ } /* is_interrupt is_signal */
avr_prologue_setup_frame (size, set);
/* Copy to stack pointer. */
- if (AVR_HAVE_8BIT_SP)
+ if (AVR_HAVE_8BIT_SP || AVR_XMEGA)
{
emit_move_insn (stack_pointer_rtx, fp);
}
if (isr_p)
{
- /* Restore RAMPZ using tmp reg as scratch. */
+ /* Restore RAMPZ/Y/X/D using tmp_reg as scratch.
+ The conditions to restore them must be tha same as in prologue. */
- if (AVR_HAVE_RAMPZ
+ if (AVR_HAVE_RAMPX
+ && TEST_HARD_REG_BIT (set, REG_X)
+ && TEST_HARD_REG_BIT (set, REG_X + 1))
+ {
+ emit_pop_byte (TMP_REGNO);
+ emit_move_insn (rampx_rtx, tmp_reg_rtx);
+ }
+
+ if (AVR_HAVE_RAMPY
+ && (frame_pointer_needed
+ || (TEST_HARD_REG_BIT (set, REG_Y)
+ && TEST_HARD_REG_BIT (set, REG_Y + 1))))
+ {
+ emit_pop_byte (TMP_REGNO);
+ emit_move_insn (rampy_rtx, tmp_reg_rtx);
+ }
+
+ if (AVR_HAVE_RAMPZ
&& TEST_HARD_REG_BIT (set, REG_Z)
&& TEST_HARD_REG_BIT (set, REG_Z + 1))
{
emit_move_insn (rampz_rtx, tmp_reg_rtx);
}
- /* Restore SREG using tmp reg as scratch. */
+ if (AVR_HAVE_RAMPD)
+ {
+ emit_pop_byte (TMP_REGNO);
+ emit_move_insn (rampd_rtx, tmp_reg_rtx);
+ }
+
+ /* Restore SREG using tmp_reg as scratch. */
emit_pop_byte (TMP_REGNO);
- emit_move_insn (gen_rtx_MEM (QImode, GEN_INT (avr_addr.sreg)),
- tmp_reg_rtx);
+ emit_move_insn (sreg_rtx, tmp_reg_rtx);
/* Restore tmp REG. */
emit_pop_byte (TMP_REGNO);
else if (low_io_address_operand (x, VOIDmode)
|| high_io_address_operand (x, VOIDmode))
{
- if (ival == avr_addr.rampz) fprintf (file, "__RAMPZ__");
+ if (AVR_HAVE_RAMPZ && ival == avr_addr.rampz)
+ fprintf (file, "__RAMPZ__");
+ else if (AVR_HAVE_RAMPY && ival == avr_addr.rampy)
+ fprintf (file, "__RAMPY__");
+ else if (AVR_HAVE_RAMPX && ival == avr_addr.rampx)
+ fprintf (file, "__RAMPX__");
+ else if (AVR_HAVE_RAMPD && ival == avr_addr.rampd)
+ fprintf (file, "__RAMPD__");
+ else if (AVR_XMEGA && ival == avr_addr.ccp)
+ fprintf (file, "__CCP__");
else if (ival == avr_addr.sreg) fprintf (file, "__SREG__");
else if (ival == avr_addr.sp_l) fprintf (file, "__SP_L__");
else if (ival == avr_addr.sp_h) fprintf (file, "__SP_H__");
{
if (AVR_HAVE_8BIT_SP)
return avr_asm_len ("out __SP_L__,%A1", xop, plen, -1);
+
+ if (AVR_XMEGA)
+ return avr_asm_len ("out __SP_L__,%A1" CR_TAB
+ "out __SP_H__,%B1", xop, plen, -2);
/* Use simple load of SP if no interrupts are used. */
return avr_asm_len ("st %0,%1", op, plen, -1);
}
+
+/* Helper for the next function for XMEGA. It does the same
+ but with low byte first. */
+
static const char*
-out_movhi_mr_r (rtx insn, rtx op[], int *plen)
+avr_out_movhi_mr_r_xmega (rtx insn, rtx op[], int *plen)
{
rtx dest = op[0];
rtx src = op[1];
rtx base = XEXP (dest, 0);
int reg_base = true_regnum (base);
int reg_src = true_regnum (src);
- /* "volatile" forces writing high byte first, even if less efficient,
- for correct operation with 16-bit I/O registers. */
+
+ /* "volatile" forces writing low byte first, even if less efficient,
+ for correct operation with 16-bit I/O registers like SP. */
int mem_volatile_p = MEM_VOLATILE_P (dest);
if (CONSTANT_ADDRESS_P (base))
return optimize > 0 && io_address_operand (base, HImode)
+ ? avr_asm_len ("out %i0,%A1" CR_TAB
+ "out %i0+1,%B1", op, plen, -2)
+
+ : avr_asm_len ("sts %m0,%A1" CR_TAB
+ "sts %m0+1,%B1", op, plen, -4);
+
+ if (reg_base > 0)
+ {
+ if (reg_base != REG_X)
+ return avr_asm_len ("st %0,%A1" CR_TAB
+ "std %0+1,%B1", op, plen, -2);
+
+ if (reg_src == REG_X)
+ /* "st X+,r26" and "st -X,r26" are undefined. */
+ avr_asm_len ("mov __tmp_reg__,r27" CR_TAB
+ "st X,r26" CR_TAB
+ "adiw r26,1" CR_TAB
+ "st X,__tmp_reg__", op, plen, -4);
+ else
+ avr_asm_len ("st X+,%A1" CR_TAB
+ "st X,%B1", op, plen, -2);
+
+ return reg_unused_after (insn, src)
+ ? ""
+ : avr_asm_len ("sbiw r26,1", op, plen, 1);
+ }
+ else if (GET_CODE (base) == PLUS)
+ {
+ int disp = INTVAL (XEXP (base, 1));
+ reg_base = REGNO (XEXP (base, 0));
+ if (disp > MAX_LD_OFFSET (GET_MODE (dest)))
+ {
+ if (reg_base != REG_Y)
+ fatal_insn ("incorrect insn:",insn);
+
+ return disp <= 63 + MAX_LD_OFFSET (GET_MODE (dest))
+ ? avr_asm_len ("adiw r28,%o0-62" CR_TAB
+ "std Y+62,%A1" CR_TAB
+ "std Y+63,%B1" CR_TAB
+ "sbiw r28,%o0-62", op, plen, -4)
+
+ : avr_asm_len ("subi r28,lo8(-%o0)" CR_TAB
+ "sbci r29,hi8(-%o0)" CR_TAB
+ "st Y,%A1" CR_TAB
+ "std Y+1,%B1" CR_TAB
+ "subi r28,lo8(%o0)" CR_TAB
+ "sbci r29,hi8(%o0)", op, plen, -6);
+ }
+
+ if (reg_base != REG_X)
+ return avr_asm_len ("std %A0,%A1" CR_TAB
+ "std %B0,%B1", op, plen, -2);
+ /* (X + d) = R */
+ return reg_src == REG_X
+ ? avr_asm_len ("mov __tmp_reg__,r26" CR_TAB
+ "mov __zero_reg__,r27" CR_TAB
+ "adiw r26,%o0" CR_TAB
+ "st X+,__tmp_reg__" CR_TAB
+ "st X,__zero_reg__" CR_TAB
+ "clr __zero_reg__" CR_TAB
+ "sbiw r26,%o0+1", op, plen, -7)
+
+ : avr_asm_len ("adiw r26,%o0" CR_TAB
+ "st X+,%A1" CR_TAB
+ "st X,%B1" CR_TAB
+ "sbiw r26,%o0+1", op, plen, -4);
+ }
+ else if (GET_CODE (base) == PRE_DEC) /* (--R) */
+ {
+ if (!mem_volatile_p)
+ return avr_asm_len ("st %0,%B1" CR_TAB
+ "st %0,%A1", op, plen, -2);
+
+ return REGNO (XEXP (base, 0)) == REG_X
+ ? avr_asm_len ("sbiw r26,2" CR_TAB
+ "st X+,%A1" CR_TAB
+ "st X,%B1" CR_TAB
+ "sbiw r26,1", op, plen, -4)
+
+ : avr_asm_len ("sbiw %r0,2" CR_TAB
+ "st %p0,%A1" CR_TAB
+ "std %p0+1,%B1", op, plen, -3);
+ }
+ else if (GET_CODE (base) == POST_INC) /* (R++) */
+ {
+ return avr_asm_len ("st %0,%A1" CR_TAB
+ "st %0,%B1", op, plen, -2);
+
+ }
+ fatal_insn ("unknown move insn:",insn);
+ return "";
+}
+
+
+static const char*
+out_movhi_mr_r (rtx insn, rtx op[], int *plen)
+{
+ rtx dest = op[0];
+ rtx src = op[1];
+ rtx base = XEXP (dest, 0);
+ int reg_base = true_regnum (base);
+ int reg_src = true_regnum (src);
+ int mem_volatile_p;
+
+ /* "volatile" forces writing high-byte first (no-xmega) resp.
+ low-byte first (xmega) even if less efficient, for correct
+ operation with 16-bit I/O registers like. */
+
+ if (AVR_XMEGA)
+ return avr_out_movhi_mr_r_xmega (insn, op, plen);
+
+ mem_volatile_p = MEM_VOLATILE_P (dest);
+
+ if (CONSTANT_ADDRESS_P (base))
+ return optimize > 0 && io_address_operand (base, HImode)
? avr_asm_len ("out %i0+1,%B1" CR_TAB
"out %i0,%A1", op, plen, -2)
fprintf (asm_out_file, "__SP_L__ = 0x%02x\n", avr_addr.sp_l - sfr_offset);
fprintf (asm_out_file, "__SREG__ = 0x%02x\n", avr_addr.sreg - sfr_offset);
- fprintf (asm_out_file, "__RAMPZ__ = 0x%02x\n", avr_addr.rampz - sfr_offset);
+ if (AVR_HAVE_RAMPZ)
+ fprintf (asm_out_file, "__RAMPZ__ = 0x%02x\n", avr_addr.rampz - sfr_offset);
+ if (AVR_HAVE_RAMPY)
+ fprintf (asm_out_file, "__RAMPY__ = 0x%02x\n", avr_addr.rampy - sfr_offset);
+ if (AVR_HAVE_RAMPX)
+ fprintf (asm_out_file, "__RAMPX__ = 0x%02x\n", avr_addr.rampx - sfr_offset);
+ if (AVR_HAVE_RAMPD)
+ fprintf (asm_out_file, "__RAMPD__ = 0x%02x\n", avr_addr.rampd - sfr_offset);
+ if (AVR_XMEGA)
+ fprintf (asm_out_file, "__CCP__ = 0x%02x\n", avr_addr.ccp - sfr_offset);
fprintf (asm_out_file, "__tmp_reg__ = %d\n", TMP_REGNO);
fprintf (asm_out_file, "__zero_reg__ = %d\n", ZERO_REGNO);
}
/* Core have 'EICALL' and 'EIJMP' instructions. */
int have_eijmp_eicall;
- /* Reserved for xmega architecture. */
- int reserved;
+ /* This is an XMEGA core. */
+ int xmega_p;
- /* Reserved for xmega architecture. */
- int reserved2;
+ /* This core has the RAMPD special function register
+ and thus also the RAMPX, RAMPY and RAMPZ registers. */
+ int have_rampd;
/* Default start of data section address for architecture. */
int default_data_section_start;
/* Number of 64k segments in the flash. */
int n_segments;
+ /* Architecture id to built-in define __AVR_ARCH__ (NULL -> no macro) */
const char *const macro;
/* Architecture name. */
ARCH_AVR4,
ARCH_AVR5,
ARCH_AVR51,
- ARCH_AVR6
+ ARCH_AVR6,
+ ARCH_AVRXMEGA2,
+ ARCH_AVRXMEGA4,
+ ARCH_AVRXMEGA5,
+ ARCH_AVRXMEGA6,
+ ARCH_AVRXMEGA7
};
struct mcu_type_s {
#define AVR_HAVE_LPMX (avr_current_arch->have_movw_lpmx)
#define AVR_HAVE_ELPM (avr_current_arch->have_elpm)
#define AVR_HAVE_ELPMX (avr_current_arch->have_elpmx)
-#define AVR_HAVE_RAMPZ (avr_current_arch->have_elpm)
+#define AVR_HAVE_RAMPD (avr_current_arch->have_rampd)
+#define AVR_HAVE_RAMPX (avr_current_arch->have_rampd)
+#define AVR_HAVE_RAMPY (avr_current_arch->have_rampd)
+#define AVR_HAVE_RAMPZ (avr_current_arch->have_elpm \
+ || avr_current_arch->have_rampd)
#define AVR_HAVE_EIJMP_EICALL (avr_current_arch->have_eijmp_eicall)
#define AVR_HAVE_8BIT_SP (avr_current_device->short_sp || TARGET_TINY_STACK)
#define AVR_2_BYTE_PC (!AVR_HAVE_EIJMP_EICALL)
#define AVR_3_BYTE_PC (AVR_HAVE_EIJMP_EICALL)
+#define AVR_XMEGA (avr_current_arch->xmega_p)
+
#define BITS_BIG_ENDIAN 0
#define BYTES_BIG_ENDIAN 0
#define WORDS_BIG_ENDIAN 0
;; ijmp : ISA has no EICALL/EIJMP eijmp : ISA has EICALL/EIJMP
;; lpm : ISA has no LPMX lpmx : ISA has LPMX
;; elpm : ISA has ELPM but no ELPMX elpmx : ISA has ELPMX
+;; no_xmega: non-XMEGA core xmega : XMEGA core
(define_attr "isa"
- "mov,movw, rjmp,jmp, ijmp,eijmp, lpm,lpmx, elpm,elpmx,
+ "mov,movw, rjmp,jmp, ijmp,eijmp, lpm,lpmx, elpm,elpmx, no_xmega,xmega,
standard"
(const_string "standard"))
(and (eq_attr "isa" "elpmx")
(match_test "AVR_HAVE_ELPMX"))
(const_int 1)
+
+ (and (eq_attr "isa" "xmega")
+ (match_test "AVR_XMEGA"))
+ (const_int 1)
+
+ (and (eq_attr "isa" "no_xmega")
+ (match_test "!AVR_XMEGA"))
+ (const_int 1)
] (const_int 0)))
;; handled by generic movhi insn.
(define_insn "movhi_sp_r"
- [(set (match_operand:HI 0 "stack_register_operand" "=q,q")
- (unspec_volatile:HI [(match_operand:HI 1 "register_operand" "r,r")
- (match_operand:HI 2 "const_int_operand" "L,P")]
+ [(set (match_operand:HI 0 "stack_register_operand" "=q,q,q")
+ (unspec_volatile:HI [(match_operand:HI 1 "register_operand" "r,r,r")
+ (match_operand:HI 2 "const_int_operand" "L,P,LP")]
UNSPECV_WRITE_SP))]
"!AVR_HAVE_8BIT_SP"
"@
out __SP_H__,%B1\;out __SP_L__,%A1
- cli\;out __SP_H__,%B1\;sei\;out __SP_L__,%A1"
- [(set_attr "length" "2,4")
+ cli\;out __SP_H__,%B1\;sei\;out __SP_L__,%A1
+ out __SP_L__,%A1\;out __SP_H__,%B1"
+ [(set_attr "length" "2,4,2")
+ (set_attr "isa" "no_xmega,no_xmega,xmega")
(set_attr "cc" "none")])
(define_peephole2
"avr25/tiny-stack mmcu=attiny261;",
"avr25/tiny-stack mmcu=attiny261a;",
- ". !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mtiny-stack !mmcu=at90s2313 !mmcu=at90s2323 !mmcu=at90s2333 !mmcu=at90s2343 !mmcu=attiny22 !mmcu=attiny26 !mmcu=at90s4433 !mmcu=attiny13 !mmcu=attiny13a !mmcu=attiny2313 !mmcu=attiny2313a !mmcu=attiny24 !mmcu=attiny24a !mmcu=attiny25 !mmcu=attiny261 !mmcu=attiny261a;",
- "avr2 mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mtiny-stack;",
- "avr25 !mmcu=avr2 mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mtiny-stack;",
- "avr3 !mmcu=avr2 !mmcu=avr25 mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6;",
- "avr31 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6;",
- "avr35 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6;",
- "avr4 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6;",
- "avr5 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 mmcu=avr5 !mmcu=avr51 !mmcu=avr6;",
- "avr51 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 mmcu=avr51 !mmcu=avr6;",
- "avr6 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 mmcu=avr6;",
- "tiny-stack !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 mtiny-stack;",
- "avr2/tiny-stack mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 mtiny-stack;",
- "avr25/tiny-stack !mmcu=avr2 mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 mtiny-stack;",
+ ". !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7 !mtiny-stack !mmcu=at90s2313 !mmcu=at90s2323 !mmcu=at90s2333 !mmcu=at90s2343 !mmcu=attiny22 !mmcu=attiny26 !mmcu=at90s4433 !mmcu=attiny13 !mmcu=attiny13a !mmcu=attiny2313 !mmcu=attiny2313a !mmcu=attiny24 !mmcu=attiny24a !mmcu=attiny25 !mmcu=attiny261 !mmcu=attiny261a;",
+ "avr2 mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7 !mtiny-stack;",
+ "avr25 !mmcu=avr2 mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7 !mtiny-stack;",
+ "avr3 !mmcu=avr2 !mmcu=avr25 mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avr31 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avr35 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avr4 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avr5 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avr51 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avr6 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avrxmega2 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avrxmega4 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avrxmega5 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avrxmega6 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 mmcu=avrxmega6 !mmcu=avrxmega7;",
+ "avrxmega7 !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 mmcu=avrxmega7;",
+ "tiny-stack !mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7 mtiny-stack;",
+ "avr2/tiny-stack mmcu=avr2 !mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7 mtiny-stack;",
+ "avr25/tiny-stack !mmcu=avr2 mmcu=avr25 !mmcu=avr3 !mmcu=avr31 !mmcu=avr35 !mmcu=avr4 !mmcu=avr5 !mmcu=avr51 !mmcu=avr6 !mmcu=avrxmega2 !mmcu=avrxmega4 !mmcu=avrxmega5 !mmcu=avrxmega6 !mmcu=avrxmega7 mtiny-stack;",
NULL
};
;; Return true if OP is a valid address for lower half of I/O space.
(define_predicate "low_io_address_operand"
(and (match_code "const_int")
- (match_test "IN_RANGE((INTVAL (op)), 0x20, 0x3F)")))
+ (match_test "IN_RANGE (INTVAL (op) - avr_current_arch->sfr_offset,
+ 0, 0x1f)")))
;; Return true if OP is a valid address for high half of I/O space.
(define_predicate "high_io_address_operand"
(and (match_code "const_int")
- (match_test "IN_RANGE((INTVAL (op)), 0x40, 0x5F)")))
+ (match_test "IN_RANGE (INTVAL (op) - avr_current_arch->sfr_offset,
+ 0x20, 0x3F)")))
;; Return true if OP is a valid address of I/O space.
(define_predicate "io_address_operand"
(and (match_code "const_int")
- (match_test "IN_RANGE((INTVAL (op)), 0x20, (0x60 - GET_MODE_SIZE(mode)))")))
+ (match_test "IN_RANGE (INTVAL (op) - avr_current_arch->sfr_offset,
+ 0, 0x40 - GET_MODE_SIZE (mode))")))
;; Return 1 if OP is a general operand not in flash memory
(define_predicate "nop_general_operand"
# along with GCC; see the file COPYING3. If not see
# <http://www.gnu.org/licenses/>.
-MULTILIB_OPTIONS = mmcu=avr2/mmcu=avr25/mmcu=avr3/mmcu=avr31/mmcu=avr35/mmcu=avr4/mmcu=avr5/mmcu=avr51/mmcu=avr6 mtiny-stack
+MULTILIB_OPTIONS = mmcu=avr2/mmcu=avr25/mmcu=avr3/mmcu=avr31/mmcu=avr35/mmcu=avr4/mmcu=avr5/mmcu=avr51/mmcu=avr6/mmcu=avrxmega2/mmcu=avrxmega4/mmcu=avrxmega5/mmcu=avrxmega6/mmcu=avrxmega7 mtiny-stack
-MULTILIB_DIRNAMES = avr2 avr25 avr3 avr31 avr35 avr4 avr5 avr51 avr6 tiny-stack avr25/tiny-stack
+MULTILIB_DIRNAMES = avr2 avr25 avr3 avr31 avr35 avr4 avr5 avr51 avr6 avrxmega2 avrxmega4 avrxmega5 avrxmega6 avrxmega7 tiny-stack avr25/tiny-stack
MULTILIB_EXCEPTIONS = \
mmcu=avr3/mtiny-stack \
mmcu=avr4/mtiny-stack \
mmcu=avr5/mtiny-stack \
mmcu=avr51/mtiny-stack \
- mmcu=avr6/mtiny-stack
+ mmcu=avr6/mtiny-stack \
+ mmcu=avrxmega2/mtiny-stack \
+ mmcu=avrxmega4/mtiny-stack \
+ mmcu=avrxmega5/mtiny-stack \
+ mmcu=avrxmega6/mtiny-stack \
+ mmcu=avrxmega7/mtiny-stack
MULTILIB_MATCHES = \
mmcu?at90s2313=mmcu?at90s2313 \
mmcu?avr51=mmcu?at90usb1286 \
mmcu?avr51=mmcu?at90usb1287 \
mmcu?avr6=mmcu?atmega2560 \
- mmcu?avr6=mmcu?atmega2561
+ mmcu?avr6=mmcu?atmega2561 \
+ mmcu?avrxmega2=mmcu?atxmega16a4 \
+ mmcu?avrxmega2=mmcu?atxmega16d4 \
+ mmcu?avrxmega2=mmcu?atxmega16x1 \
+ mmcu?avrxmega2=mmcu?atxmega32a4 \
+ mmcu?avrxmega2=mmcu?atxmega32d4 \
+ mmcu?avrxmega2=mmcu?atxmega32x1 \
+ mmcu?avrxmega4=mmcu?atxmega64a3 \
+ mmcu?avrxmega4=mmcu?atxmega64d3 \
+ mmcu?avrxmega5=mmcu?atxmega64a1 \
+ mmcu?avrxmega5=mmcu?atxmega64a1u \
+ mmcu?avrxmega6=mmcu?atxmega128a3 \
+ mmcu?avrxmega6=mmcu?atxmega128d3 \
+ mmcu?avrxmega6=mmcu?atxmega192a3 \
+ mmcu?avrxmega6=mmcu?atxmega192d3 \
+ mmcu?avrxmega6=mmcu?atxmega256a3 \
+ mmcu?avrxmega6=mmcu?atxmega256a3b \
+ mmcu?avrxmega6=mmcu?atxmega256a3bu \
+ mmcu?avrxmega6=mmcu?atxmega256d3 \
+ mmcu?avrxmega7=mmcu?atxmega128a1 \
+ mmcu?avrxmega7=mmcu?atxmega128a1u
+2012-01-15 Georg-Johann Lay <avr@gjlay.de>
+ Anatoly Sokolov <aesok@post.ru>
+ Eric Weddington <eric.weddington@atmel.com>
+
+ PR target/52261
+ * config/avr/lib1funcs.S (__prologue_saves__): Handle AVR_XMEGA
+ (__epilogue_restores__): Ditto.
+
2012-02-15 Eric Botcazou <ebotcazou@adacore.com>
PR target/51921
sub r28,r26
out __SP_L__,r28
clr r29
+#elif defined (__AVR__XMEGA__)
+ in r28,__SP_L__
+ in r29,__SP_H__
+ sub r28,r26
+ sbc r29,r27
+ out __SP_L__,r28
+ out __SP_H__,r29
#else
in r28,__SP_L__
in r29,__SP_H__
add r28,r30
out __SP_L__,r28
mov r28, r26
+#elif defined (__AVR__XMEGA__)
+ ldd r27,Y+1
+ add r28,r30
+ adc r29,__zero_reg__
+ out __SP_L__,r28
+ out __SP_H__,r29
+ wmov 28, 26
#else
ldd r27,Y+1
add r28,r30