# mips test sanity, expected to pass. # mach: mips64 sb1 # as: -mabi=eabi # ld: -N -Ttext=0x80010000 # output: *\\npass\\n .include "testutils.inc" .macro check_ps psval, upperval, lowerval .set push .set noreorder cvt.s.pu $f0, \psval # upper cvt.s.pl $f2, \psval # lower li.s $f4, \upperval li.s $f6, \lowerval c.eq.s $fcc0, $f0, $f4 bc1f $fcc0, _fail c.eq.s $fcc0, $f2, $f6 bc1f $fcc0, _fail nop .set pop .endm setup .set noreorder .ent DIAG DIAG: # make sure that Status.FR and .CU1 are set. mfc0 $2, $12 or $2, $2, (1 << 26) | (1 << 29) mtc0 $2, $12 writemsg "ldc1" .data 1: .dword 0xc1a8000042200000 # -21.0, 40.0 .text la $2, 1b ldc1 $f8, 0($2) check_ps $f8, -21.0, 40.0 writemsg "cvt.ps.s" li.s $f10, 1.0 li.s $f12, 3.0 cvt.ps.s $f8, $f10, $f12 # upper, lower check_ps $f8, 1.0, 3.0 writemsg "cvt.ps.s, sdc1, copy, ldc1" .data 1: .dword 0 .dword 0 .text la $2, 1b li.s $f12, -4.0 li.s $f14, 32.0 cvt.ps.s $f10, $f12, $f14 # upper, lower sdc1 $f10, 8($2) lw $3, 8($2) lw $4, 12($2) sw $3, 0($2) sw $4, 4($2) ldc1 $f8, 0($2) check_ps $f8, -4.0, 32.0 # Load some constants for later use li.s $f10, 4.0 li.s $f12, 16.0 cvt.ps.s $f20, $f10, $f12 # $f20: u=4.0, l=16.0 li.s $f10, -1.0 li.s $f12, 2.0 cvt.ps.s $f22, $f10, $f12 # $f22: u=-1.0, l=2.0 li.s $f10, 17.0 li.s $f12, -8.0 cvt.ps.s $f24, $f10, $f12 # $f24: u=17.0, l=-8.0 writemsg "pll.ps" pll.ps $f8, $f20, $f22 check_ps $f8, 16.0, 2.0 writemsg "plu.ps" plu.ps $f8, $f20, $f22 check_ps $f8, 16.0, -1.0 writemsg "pul.ps" pul.ps $f8, $f20, $f22 check_ps $f8, 4.0, 2.0 writemsg "puu.ps" puu.ps $f8, $f20, $f22 check_ps $f8, 4.0, -1.0 writemsg "abs.ps" abs.ps $f8, $f22 check_ps $f8, 1.0, 2.0 writemsg "mov.ps" mov.ps $f8, $f22 check_ps $f8, -1.0, 2.0 writemsg "neg.ps" neg.ps $f8, $f22 check_ps $f8, 1.0, -2.0 writemsg "add.ps" add.ps $f8, $f20, $f22 check_ps $f8, 3.0, 18.0 writemsg "mul.ps" mul.ps $f8, $f20, $f22 check_ps $f8, -4.0, 32.0 writemsg "sub.ps" sub.ps $f8, $f20, $f22 check_ps $f8, 5.0, 14.0 writemsg "madd.ps" madd.ps $f8, $f24, $f20, $f22 check_ps $f8, 13.0, 24.0 writemsg "msub.ps" msub.ps $f8, $f24, $f20, $f22 check_ps $f8, -21.0, 40.0 writemsg "nmadd.ps" nmadd.ps $f8, $f24, $f20, $f22 check_ps $f8, -13.0, -24.0 writemsg "nmsub.ps" nmsub.ps $f8, $f24, $f20, $f22 check_ps $f8, 21.0, -40.0 writemsg "movn.ps (n)" li $2, 0 mov.ps $f8, $f20 movn.ps $f8, $f22, $2 # doesn't move check_ps $f8, 4.0, 16.0 writemsg "movn.ps (y)" li $2, 1 mov.ps $f8, $f20 movn.ps $f8, $f22, $2 # does move check_ps $f8, -1.0, 2.0 writemsg "movz.ps (y)" li $2, 0 mov.ps $f8, $f20 movz.ps $f8, $f22, $2 # does move check_ps $f8, -1.0, 2.0 writemsg "movz.ps (n)" li $2, 1 mov.ps $f8, $f20 movz.ps $f8, $f22, $2 # doesn't move check_ps $f8, 4.0, 16.0 writemsg "movf.ps (y,y)" cfc1 $2, $31 or $2, $2, (1 << 23) | (1 << 25) xor $2, $2, (1 << 23) | (1 << 25) ctc1 $2, $31 # clear fcc0, clear fcc1 mov.ps $f8, $f20 movf.ps $f8, $f22, $fcc0 # moves both halves check_ps $f8, -1.0, 2.0 writemsg "movf.ps (y,n)" cfc1 $2, $31 or $2, $2, (1 << 23) | (1 << 25) xor $2, $2, (0 << 23) | (1 << 25) ctc1 $2, $31 # set fcc0, clear fcc1 mov.ps $f8, $f20 movf.ps $f8, $f22, $fcc0 # moves upper half only check_ps $f8, -1.0, 16.0 writemsg "movf.ps (n,y)" cfc1 $2, $31 or $2, $2, (1 << 23) | (1 << 25) xor $2, $2, (1 << 23) | (0 << 25) ctc1 $2, $31 # clear fcc0, set fcc1 mov.ps $f8, $f20 movf.ps $f8, $f22, $fcc0 # moves lower half only check_ps $f8, 4.0, 2.0 writemsg "movf.ps (n,n)" cfc1 $2, $31 or $2, $2, (1 << 23) | (1 << 25) xor $2, $2, (0 << 23) | (0 << 25) ctc1 $2, $31 # set fcc0, set fcc1 mov.ps $f8, $f20 movf.ps $f8, $f22, $fcc0 # doesn't move either half check_ps $f8, 4.0, 16.0 writemsg "movt.ps (n,n)" cfc1 $2, $31 or $2, $2, (1 << 23) | (1 << 25) xor $2, $2, (1 << 23) | (1 << 25) ctc1 $2, $31 # clear fcc0, clear fcc1 mov.ps $f8, $f20 movt.ps $f8, $f22, $fcc0 # doesn't move either half check_ps $f8, 4.0, 16.0 writemsg "movt.ps (n,y)" cfc1 $2, $31 or $2, $2, (1 << 23) | (1 << 25) xor $2, $2, (0 << 23) | (1 << 25) ctc1 $2, $31 # set fcc0, clear fcc1 mov.ps $f8, $f20 movt.ps $f8, $f22, $fcc0 # moves lower half only check_ps $f8, 4.0, 2.0 writemsg "movt.ps (y,n)" cfc1 $2, $31 or $2, $2, (1 << 23) | (1 << 25) xor $2, $2, (1 << 23) | (0 << 25) ctc1 $2, $31 # clear fcc0, set fcc1 mov.ps $f8, $f20 movt.ps $f8, $f22, $fcc0 # moves upper half only check_ps $f8, -1.0, 16.0 writemsg "movt.ps (y,y)" cfc1 $2, $31 or $2, $2, (1 << 23) | (1 << 25) xor $2, $2, (0 << 23) | (0 << 25) ctc1 $2, $31 # set fcc0, set fcc1 mov.ps $f8, $f20 movt.ps $f8, $f22, $fcc0 # moves both halves check_ps $f8, -1.0, 2.0 writemsg "alnv.ps (aligned)" .data 1: .dword 0xc1a8000042200000 # -21.0, 40.0 .dword 0xc228000041a00000 # -42.0, 20.0 .text la $2, 1b li $3, 0 addu $4, $3, 8 luxc1 $f10, $3($2) luxc1 $f12, $4($2) alnv.ps $f8, $f10, $f12, $3 check_ps $f8, -21.0, 40.0 writemsg "alnv.ps (unaligned)" .data 1: .dword 0xc1a8000042200000 # -21.0, 40.0 .dword 0xc228000041a00000 # -42.0, 20.0 .hword 0x0001 .text la $2, 1b li $3, 4 addu $4, $3, 8 luxc1 $f10, $3($2) luxc1 $f12, $4($2) alnv.ps $f8, $f10, $f12, $3 lb $5, 16($2) bnez $5, 2f # little endian nop # big endian check_ps $f8, 40.0, -42.0 b 3f nop 2: # little endian check_ps $f8, 20.0, -21.0 3: # We test c.cond.ps only lightly, just to make sure it modifies # two bits and compares the halves separately. Perhaps it should # be tested more thoroughly. writemsg "c.f.ps" cfc1 $2, $31 or $2, $2, (1 << 23) | (0x7f << 25) ctc1 $2, $31 # set all fcc bits c.f.ps $fcc0, $f8, $f8 # -> f, f bc1t $fcc0, _fail nop bc1t $fcc1, _fail nop writemsg "c.olt.ps" cfc1 $2, $31 or $2, $2, (1 << 23) | (0x7f << 25) xor $2, $2, (1 << 23) | (0x7f << 25) ctc1 $2, $31 # clear all fcc bits c.lt.ps $fcc0, $f22, $f24 # -> f, t bc1t $fcc0, _fail nop bc1f $fcc1, _fail nop pass .end DIAG