# frv testcase for nfdcmps $FRi,$FRj,$FCCi_2 # mach: frv .include "testutils.inc" float_constants start load_float_constants load_float_constants1 .global nfdcmps nfdcmps: set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr0,fr0,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr4,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr8,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr12,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr16,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr20,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr24,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr28,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr32,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr36,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr40,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr44,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr48,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr0,fr52,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr0,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr0,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr4,fr0,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr4,fr4,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr8,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr12,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr16,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr20,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr24,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr28,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr32,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr36,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr40,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr44,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr48,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr4,fr52,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr4,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr4,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr8,fr0,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr8,fr4,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr8,fr8,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr12,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr16,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr20,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr24,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr28,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr32,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr36,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr40,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr44,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr48,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr8,fr52,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr8,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr8,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr12,fr0,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr12,fr4,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr12,fr8,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr12,fr12,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr12,fr16,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr12,fr20,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr12,fr24,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr12,fr28,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr12,fr32,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr12,fr36,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr12,fr40,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr12,fr44,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr12,fr48,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr12,fr52,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr12,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr12,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr16,fr0,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr16,fr4,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr16,fr8,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr16,fr12,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr16,fr16,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr16,fr20,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr16,fr24,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr16,fr28,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr16,fr32,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr16,fr36,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr16,fr40,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr16,fr44,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr16,fr48,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr16,fr52,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr16,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr16,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr20,fr0,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr20,fr4,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr20,fr8,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr20,fr12,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr20,fr16,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr20,fr20,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr20,fr24,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr20,fr28,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr20,fr32,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr20,fr36,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr20,fr40,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr20,fr44,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr20,fr48,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr20,fr52,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr20,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr20,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr24,fr0,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr24,fr4,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr24,fr8,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr24,fr12,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr24,fr16,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr24,fr20,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr24,fr24,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr24,fr28,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr24,fr32,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr24,fr36,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr24,fr40,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr24,fr44,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr24,fr48,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr24,fr52,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr24,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr24,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr28,fr0,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr28,fr4,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr28,fr8,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr28,fr12,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr28,fr16,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr28,fr20,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr28,fr24,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr28,fr28,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr28,fr32,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr28,fr36,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr28,fr40,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr28,fr44,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr28,fr48,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr28,fr52,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr28,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr28,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr0,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr4,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr8,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr12,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr16,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr20,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr24,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr28,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr32,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr36,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr40,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr48,fr44,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr48,fr48,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xb,0 ; Set mask opposite of expected set_fcc 0xb,1 ; Set mask opposite of expected nfdcmps fr48,fr52,fcc0 test_fcc 0x4,0 test_fcc 0x4,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr48,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr48,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr0,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr4,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr8,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr12,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr16,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr20,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr24,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr28,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr32,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr36,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr40,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr44,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xd,0 ; Set mask opposite of expected set_fcc 0xd,1 ; Set mask opposite of expected nfdcmps fr52,fr48,fcc0 test_fcc 0x2,0 test_fcc 0x2,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0x7,0 ; Set mask opposite of expected set_fcc 0x7,1 ; Set mask opposite of expected nfdcmps fr52,fr52,fcc0 test_fcc 0x8,0 test_fcc 0x8,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr52,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr52,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr0,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr4,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr8,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr12,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr16,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr20,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr24,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr28,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr32,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr36,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr40,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr44,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr48,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr52,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr56,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr0,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr4,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr8,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr12,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr16,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr20,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr24,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr28,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr32,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr36,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr40,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr44,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr48,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr52,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr56,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 set_fcc 0xe,0 ; Set mask opposite of expected set_fcc 0xe,1 ; Set mask opposite of expected nfdcmps fr60,fr60,fcc0 test_fcc 0x1,0 test_fcc 0x1,1 test_spr_immed 0,fner1 test_spr_immed 0,fner0 pass