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iasm.d
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iasm.d
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// PERMUTE_ARGS:
// REQUIRED_ARGS: -checkaction=D
// Copyright (c) 1999-2016 by The D Language Foundation
// All Rights Reserved
// written by Walter Bright
// http://www.digitalmars.com
import core.stdc.stdio;
import core.stdc.config;
version (D_PIC)
{
int main() { return 0; }
}
else version (D_PIE)
{
int main() { return 0; }
}
else version (D_InlineAsm_X86)
{
struct M128 { int a,b,c,d; };
struct M64 { int a,b; };
/****************************************************/
void test1()
{
int foo;
int bar;
static const int x = 4;
asm
{
align x; ;
mov EAX, __LOCAL_SIZE ;
mov foo[EBP], EAX ;
}
assert(foo == 8);
}
/****************************************************/
void test2()
{
int foo;
int bar;
asm
{
even ;
mov EAX,0 ;
inc EAX ;
mov foo[EBP], EAX ;
}
assert(foo == 1);
}
/****************************************************/
void test3()
{
int foo;
int bar;
asm
{
mov EAX,5 ;
jmp $ + 1 ;
db 0x40,0x48 ; // inc EAX, dec EAX
mov foo[EBP],EAX ;
}
assert(foo == 4);
}
/****************************************************/
void test4()
{
int foo;
int bar;
asm
{
xor EAX,EAX ;
add EAX,5 ;
jne L1 ;
db 0x40,0x48 ; // inc EAX, dec EAX
L1:
db 0x48 ;
mov foo[EBP],EAX ;
}
assert(foo == 4);
}
/****************************************************/
void test5()
{
int foo;
ubyte *p;
ushort *w;
uint *u;
ulong *ul;
float *f;
double *d;
real *e;
static float fs = 1.1;
static double ds = 1.2;
static real es = 1.3;
asm
{
call L1 ;
db 0x40,0x48 ; // inc EAX, dec EAX
db "abc" ;
ds "def" ;
di "ghi" ;
dl 0x12345678ABCDEF ;
df 1.1 ;
dd 1.2 ;
de 1.3 ;
L1:
pop EBX ;
mov p[EBP],EBX ;
}
assert(p[0] == 0x40);
assert(p[1] == 0x48);
assert(p[2] == 'a');
assert(p[3] == 'b');
assert(p[4] == 'c');
w = cast(ushort *)(p + 5);
assert(w[0] == 'd');
assert(w[1] == 'e');
assert(w[2] == 'f');
u = cast(uint *)(w + 3);
assert(u[0] == 'g');
assert(u[1] == 'h');
assert(u[2] == 'i');
ul = cast(ulong *)(u + 3);
assert(ul[0] == 0x12345678ABCDEF);
f = cast(float *)(ul + 1);
assert(*f == fs);
d = cast(double *)(f + 1);
assert(*d == ds);
e = cast(real *)(d + 1);
assert(*e == es);
}
/****************************************************/
void test6()
{
ubyte *p;
static ubyte[] data =
[
0x8B, 0x01, // mov EAX,[ECX]
0x8B, 0x04, 0x19, // mov EAX,[EBX][ECX]
0x8B, 0x04, 0x4B, // mov EAX,[ECX*2][EBX]
0x8B, 0x04, 0x5A, // mov EAX,[EBX*2][EDX]
0x8B, 0x04, 0x8E, // mov EAX,[ECX*4][ESI]
0x8B, 0x04, 0xF9, // mov EAX,[EDI*8][ECX]
0x2B, 0x1C, 0x19, // sub EBX,[EBX][ECX]
0x3B, 0x0C, 0x4B, // cmp ECX,[ECX*2][EBX]
0x03, 0x14, 0x5A, // add EDX,[EBX*2][EDX]
0x33, 0x34, 0x8E, // xor ESI,[ECX*4][ESI]
0x29, 0x1C, 0x19, // sub [EBX][ECX],EBX
0x39, 0x0C, 0x4B, // cmp [ECX*2][EBX],ECX
0x01, 0x24, 0x5A, // add [EBX*2][EDX],ESP
0x31, 0x2C, 0x8E, // xor [ECX*4][ESI],EBP
0xA8, 0x03, // test AL,3
0x66, 0xA9, 0x04, 0x00, // test AX,4
0xA9, 0x05, 0x00, 0x00, 0x00, // test EAX,5
0x85, 0x3C, 0xF9, // test [EDI*8][ECX],EDI
];
int i;
asm
{
call L1 ;
mov EAX,[ECX] ;
mov EAX,[ECX][EBX] ;
mov EAX,[ECX*2][EBX] ;
mov EAX,[EDX][EBX*2] ;
mov EAX,[ECX*4][ESI] ;
mov EAX,[ECX][EDI*8] ;
sub EBX,[ECX][EBX] ;
cmp ECX,[ECX*2][EBX] ;
add EDX,[EDX][EBX*2] ;
xor ESI,[ECX*4][ESI] ;
sub [ECX][EBX],EBX ;
cmp [ECX*2][EBX],ECX ;
add [EDX][EBX*2],ESP ;
xor [ECX*4][ESI],EBP ;
test AL,3 ;
test AX,4 ;
test EAX,5 ;
test [ECX][EDI*8],EDI ;
L1:
pop EBX ;
mov p[EBP],EBX ;
}
for (i = 0; i < data.length; i++)
{
assert(p[i] == data[i]);
}
}
/****************************************************/
void test7()
{
ubyte *p;
static ubyte[] data =
[
0x26,0xA1,0x24,0x13,0x00,0x00, // mov EAX,ES:[01324h]
0x36,0x66,0xA1,0x78,0x56,0x00,0x00, // mov AX,SS:[05678h]
0xA0,0x78,0x56,0x00,0x00, // mov AL,[05678h]
0x2E,0x8A,0x25,0x78,0x56,0x00,0x00, // mov AH,CS:[05678h]
0x64,0x8A,0x1D,0x78,0x56,0x00,0x00, // mov BL,FS:[05678h]
0x65,0x8A,0x3D,0x78,0x56,0x00,0x00, // mov BH,GS:[05678h]
];
int i;
asm
{
call L1 ;
mov EAX,ES:[0x1324] ;
mov AX,SS:[0x5678] ;
mov AL,DS:[0x5678] ;
mov AH,CS:[0x5678] ;
mov BL,FS:[0x5678] ;
mov BH,GS:[0x5678] ;
L1: ;
pop EBX ;
mov p[EBP],EBX ;
}
for (i = 0; i < data.length; i++)
{
assert(p[i] == data[i]);
}
}
/****************************************************/
void test8()
{
ubyte *p;
static ubyte[] data =
[
0x8C,0xD0, // mov AX,SS
0x8C,0xDB, // mov BX,DS
0x8C,0xC1, // mov CX,ES
0x8C,0xCA, // mov DX,CS
0x8C,0xE6, // mov SI,FS
0x8C,0xEF, // mov DI,GS
0x8E,0xD0, // mov SS,AX
0x8E,0xDB, // mov DS,BX
0x8E,0xC1, // mov ES,CX
0x8E,0xCA, // mov CS,DX
0x8E,0xE6, // mov FS,SI
0x8E,0xEF, // mov GS,DI
0x0F,0x22,0xC0, // mov CR0,EAX
0x0F,0x22,0xD3, // mov CR2,EBX
0x0F,0x22,0xD9, // mov CR3,ECX
0x0F,0x22,0xE2, // mov CR4,EDX
0x0F,0x20,0xC0, // mov EAX,CR0
0x0F,0x20,0xD3, // mov EBX,CR2
0x0F,0x20,0xD9, // mov ECX,CR3
0x0F,0x20,0xE2, // mov EDX,CR4
0x0F,0x23,0xC0, // mov DR0,EAX
0x0F,0x23,0xCE, // mov DR1,ESI
0x0F,0x23,0xD3, // mov DR2,EBX
0x0F,0x23,0xD9, // mov DR3,ECX
0x0F,0x23,0xE2, // mov DR4,EDX
0x0F,0x23,0xEF, // mov DR5,EDI
0x0F,0x23,0xF4, // mov DR6,ESP
0x0F,0x23,0xFD, // mov DR7,EBP
0x0F,0x21,0xC4, // mov ESP,DR0
0x0F,0x21,0xCD, // mov EBP,DR1
0x0F,0x21,0xD0, // mov EAX,DR2
0x0F,0x21,0xDB, // mov EBX,DR3
0x0F,0x21,0xE1, // mov ECX,DR4
0x0F,0x21,0xEA, // mov EDX,DR5
0x0F,0x21,0xF6, // mov ESI,DR6
0x0F,0x21,0xFF, // mov EDI,DR7
0xA4, // movsb
0x66,0xA5, // movsw
0xA5, // movsd
];
int i;
asm
{
call L1 ;
mov AX,SS ;
mov BX,DS ;
mov CX,ES ;
mov DX,CS ;
mov SI,FS ;
mov DI,GS ;
mov SS,AX ;
mov DS,BX ;
mov ES,CX ;
mov CS,DX ;
mov FS,SI ;
mov GS,DI ;
mov CR0,EAX ;
mov CR2,EBX ;
mov CR3,ECX ;
mov CR4,EDX ;
mov EAX,CR0 ;
mov EBX,CR2 ;
mov ECX,CR3 ;
mov EDX,CR4 ;
mov DR0,EAX ;
mov DR1,ESI ;
mov DR2,EBX ;
mov DR3,ECX ;
mov DR4,EDX ;
mov DR5,EDI ;
mov DR6,ESP ;
mov DR7,EBP ;
mov ESP,DR0 ;
mov EBP,DR1 ;
mov EAX,DR2 ;
mov EBX,DR3 ;
mov ECX,DR4 ;
mov EDX,DR5 ;
mov ESI,DR6 ;
mov EDI,DR7 ;
movsb ;
movsw ;
movsd ;
L1: ;
pop EBX ;
mov p[EBP],EBX ;
}
for (i = 0; i < data.length; i++)
{
assert(p[i] == data[i]);
}
}
/****************************************************/
void test9()
{
ubyte *p;
static ubyte[] data =
[
0x67,0x66,0x8B,0x00, // mov AX,[BX+SI]
0x67,0x66,0x8B,0x01, // mov AX,[BX+DI]
0x67,0x66,0x8B,0x02, // mov AX,[BP+SI]
0x67,0x66,0x8B,0x03, // mov AX,[BP+DI]
0x67,0x66,0x8B,0x04, // mov AX,[SI]
0x67,0x66,0x8B,0x05, // mov AX,[DI]
0x66,0xB8,0xD2,0x04, // mov AX,04D2h
0x67,0x66,0x8B,0x07, // mov AX,[BX]
0x67,0x66,0x8B,0x40,0x01, // mov AX,1[BX+SI]
0x67,0x66,0x8B,0x41,0x02, // mov AX,2[BX+DI]
0x67,0x66,0x8B,0x42,0x03, // mov AX,3[BP+SI]
0x67,0x66,0x8B,0x43,0x04, // mov AX,4[BP+DI]
0x67,0x66,0x8B,0x44,0x05, // mov AX,5[SI]
0x67,0x66,0x8B,0x45,0x06, // mov AX,6[DI]
0x67,0x66,0x8B,0x43,0x07, // mov AX,7[BP+DI]
0x67,0x66,0x8B,0x47,0x08, // mov AX,8[BX]
0x67,0x8B,0x80,0x21,0x01, // mov EAX,0121h[BX+SI]
0x67,0x66,0x8B,0x81,0x22,0x01, // mov AX,0122h[BX+DI]
0x67,0x66,0x8B,0x82,0x43,0x23, // mov AX,02343h[BP+SI]
0x67,0x66,0x8B,0x83,0x54,0x45, // mov AX,04554h[BP+DI]
0x67,0x66,0x8B,0x84,0x45,0x66, // mov AX,06645h[SI]
0x67,0x66,0x8B,0x85,0x36,0x12, // mov AX,01236h[DI]
0x67,0x66,0x8B,0x86,0x67,0x45, // mov AX,04567h[BP]
0x67,0x8A,0x87,0x08,0x01, // mov AL,0108h[BX]
];
int i;
asm
{
call L1 ;
mov AX,[BX+SI] ;
mov AX,[BX+DI] ;
mov AX,[BP+SI] ;
mov AX,[BP+DI] ;
mov AX,[SI] ;
mov AX,[DI] ;
mov AX,[1234] ;
mov AX,[BX] ;
mov AX,1[BX+SI] ;
mov AX,2[BX+DI] ;
mov AX,3[BP+SI] ;
mov AX,4[BP+DI] ;
mov AX,5[SI] ;
mov AX,6[DI] ;
mov AX,7[DI+BP] ;
mov AX,8[BX] ;
mov EAX,0x121[BX+SI] ;
mov AX,0x122[BX+DI] ;
mov AX,0x2343[BP+SI] ;
mov AX,0x4554[BP+DI] ;
mov AX,0x6645[SI] ;
mov AX,0x1236[DI] ;
mov AX,0x4567[BP] ;
mov AL,0x108[BX] ;
L1: ;
pop EBX ;
mov p[EBP],EBX ;
}
for (i = 0; i < data.length; i++)
{
assert(p[i] == data[i]);
}
}
/****************************************************/
shared int bar10 = 78;
shared int[2] baz10;
void test10()
{
ubyte *p;
int foo;
static ubyte[] data =
[
];
int i;
asm
{
mov bar10,0x12 ;
mov baz10,0x13 ;
mov ESI,1 ;
mov baz10[ESI*4],0x14 ;
}
assert(bar10 == 0x12);
assert(baz10[0] == 0x13);
assert(baz10[1] == 0x14);
}
/****************************************************/
struct Foo11
{
int c;
int a;
int b;
}
void test11()
{
ubyte *p;
int x1;
int x2;
int x3;
int x4;
asm
{
mov x1,Foo11.a.sizeof ;
mov x2,Foo11.b.offsetof ;
mov x3,Foo11.sizeof ;
mov x4,Foo11.sizeof + 7 ;
}
assert(x1 == int.sizeof);
assert(x2 == 8);
assert(x3 == 12);
assert(x4 == 19);
}
/****************************************************/
void test12()
{
ubyte *p;
static ubyte[] data =
[
0x37, // aaa
0xD5,0x0A, // aad
0xD4,0x0A, // aam
0x3F, // aas
0x67,0x63,0x3C, // arpl [SI],DI
0xF3,0x90, // pause
0x14,0x05, // adc AL,5
0x83,0xD0,0x14, // adc EAX,014h
0x80,0x55,0xF8,0x17, // adc byte ptr -8[EBP],017h
0x83,0x55,0xFC,0x17, // adc dword ptr -4[EBP],017h
0x81,0x55,0xFC,0x34,0x12,0x00,0x00, // adc dword ptr -4[EBP],01234h
0x10,0x7D,0xF8, // adc -8[EBP],BH
0x11,0x5D,0xFC, // adc -4[EBP],EBX
0x12,0x5D,0xF8, // adc BL,-8[EBP]
0x13,0x55,0xFC, // adc EDX,-4[EBP]
0x04,0x05, // add AL,5
0x83,0xC0,0x14, // add EAX,014h
0x80,0x45,0xF8,0x17, // add byte ptr -8[EBP],017h
0x83,0x45,0xFC,0x17, // add dword ptr -4[EBP],017h
0x81,0x45,0xFC,0x34,0x12,0x00,0x00, // add dword ptr -4[EBP],01234h
0x00,0x7D,0xF8, // add -8[EBP],BH
0x01,0x5D,0xFC, // add -4[EBP],EBX
0x02,0x5D,0xF8, // add BL,-8[EBP]
0x03,0x55,0xFC, // add EDX,-4[EBP]
0x24,0x05, // and AL,5
0x83,0xE0,0x14, // and EAX,014h
0x80,0x65,0xF8,0x17, // and byte ptr -8[EBP],017h
0x83,0x65,0xFC,0x17, // and dword ptr -4[EBP],017h
0x81,0x65,0xFC,0x34,0x12,0x00,0x00, // and dword ptr -4[EBP],01234h
0x20,0x7D,0xF8, // and -8[EBP],BH
0x21,0x5D,0xFC, // and -4[EBP],EBX
0x22,0x5D,0xF8, // and BL,-8[EBP]
0x23,0x55,0xFC, // and EDX,-4[EBP]
0x3C,0x05, // cmp AL,5
0x83,0xF8,0x14, // cmp EAX,014h
0x80,0x7D,0xF8,0x17, // cmp byte ptr -8[EBP],017h
0x83,0x7D,0xFC,0x17, // cmp dword ptr -4[EBP],017h
0x81,0x7D,0xFC,0x34,0x12,0x00,0x00, // cmp dword ptr -4[EBP],01234h
0x38,0x7D,0xF8, // cmp -8[EBP],BH
0x39,0x5D,0xFC, // cmp -4[EBP],EBX
0x3A,0x5D,0xF8, // cmp BL,-8[EBP]
0x3B,0x55,0xFC, // cmp EDX,-4[EBP]
0x0C,0x05, // or AL,5
0x83,0xC8,0x14, // or EAX,014h
0x80,0x4D,0xF8,0x17, // or byte ptr -8[EBP],017h
0x83,0x4D,0xFC,0x17, // or dword ptr -4[EBP],017h
0x81,0x4D,0xFC,0x34,0x12,0x00,0x00, // or dword ptr -4[EBP],01234h
0x08,0x7D,0xF8, // or -8[EBP],BH
0x09,0x5D,0xFC, // or -4[EBP],EBX
0x0A,0x5D,0xF8, // or BL,-8[EBP]
0x0B,0x55,0xFC, // or EDX,-4[EBP]
0x1C,0x05, // sbb AL,5
0x83,0xD8,0x14, // sbb EAX,014h
0x80,0x5D,0xF8,0x17, // sbb byte ptr -8[EBP],017h
0x83,0x5D,0xFC,0x17, // sbb dword ptr -4[EBP],017h
0x81,0x5D,0xFC,0x34,0x12,0x00,0x00, // sbb dword ptr -4[EBP],01234h
0x18,0x7D,0xF8, // sbb -8[EBP],BH
0x19,0x5D,0xFC, // sbb -4[EBP],EBX
0x1A,0x5D,0xF8, // sbb BL,-8[EBP]
0x1B,0x55,0xFC, // sbb EDX,-4[EBP]
0x2C,0x05, // sub AL,5
0x83,0xE8,0x14, // sub EAX,014h
0x80,0x6D,0xF8,0x17, // sub byte ptr -8[EBP],017h
0x83,0x6D,0xFC,0x17, // sub dword ptr -4[EBP],017h
0x81,0x6D,0xFC,0x34,0x12,0x00,0x00, // sub dword ptr -4[EBP],01234h
0x28,0x7D,0xF8, // sub -8[EBP],BH
0x29,0x5D,0xFC, // sub -4[EBP],EBX
0x2A,0x5D,0xF8, // sub BL,-8[EBP]
0x2B,0x55,0xFC, // sub EDX,-4[EBP]
0xA8,0x05, // test AL,5
0xA9,0x14,0x00,0x00,0x00, // test EAX,014h
0xF6,0x45,0xF8,0x17, // test byte ptr -8[EBP],017h
0xF7,0x45,0xFC,0x17,0x00,0x00,0x00, // test dword ptr -4[EBP],017h
0xF7,0x45,0xFC,0x34,0x12,0x00,0x00, // test dword ptr -4[EBP],01234h
0x84,0x7D,0xF8, // test -8[EBP],BH
0x85,0x5D,0xFC, // test -4[EBP],EBX
0x34,0x05, // xor AL,5
0x83,0xF0,0x14, // xor EAX,014h
0x80,0x75,0xF8,0x17, // xor byte ptr -8[EBP],017h
0x83,0x75,0xFC,0x17, // xor dword ptr -4[EBP],017h
0x81,0x75,0xFC,0x34,0x12,0x00,0x00, // xor dword ptr -4[EBP],01234h
0x30,0x7D,0xF8, // xor -8[EBP],BH
0x31,0x5D,0xFC, // xor -4[EBP],EBX
0x32,0x5D,0xF8, // xor BL,-8[EBP]
0x33,0x55,0xFC, // xor EDX,-4[EBP]
];
int i;
byte rm8;
int rm32;
static int m32;
asm
{
call L1 ;
aaa ;
aad ;
aam ;
aas ;
arpl [SI],DI ;
pause ;
adc AL,5 ;
adc EAX,20 ;
adc rm8[EBP],23 ;
adc rm32[EBP],23 ;
adc rm32[EBP],0x1234 ;
adc rm8[EBP],BH ;
adc rm32[EBP],EBX ;
adc BL,rm8[EBP] ;
adc EDX,rm32[EBP] ;
add AL,5 ;
add EAX,20 ;
add rm8[EBP],23 ;
add rm32[EBP],23 ;
add rm32[EBP],0x1234 ;
add rm8[EBP],BH ;
add rm32[EBP],EBX ;
add BL,rm8[EBP] ;
add EDX,rm32[EBP] ;
and AL,5 ;
and EAX,20 ;
and rm8[EBP],23 ;
and rm32[EBP],23 ;
and rm32[EBP],0x1234 ;
and rm8[EBP],BH ;
and rm32[EBP],EBX ;
and BL,rm8[EBP] ;
and EDX,rm32[EBP] ;
cmp AL,5 ;
cmp EAX,20 ;
cmp rm8[EBP],23 ;
cmp rm32[EBP],23 ;
cmp rm32[EBP],0x1234 ;
cmp rm8[EBP],BH ;
cmp rm32[EBP],EBX ;
cmp BL,rm8[EBP] ;
cmp EDX,rm32[EBP] ;
or AL,5 ;
or EAX,20 ;
or rm8[EBP],23 ;
or rm32[EBP],23 ;
or rm32[EBP],0x1234 ;
or rm8[EBP],BH ;
or rm32[EBP],EBX ;
or BL,rm8[EBP] ;
or EDX,rm32[EBP] ;
sbb AL,5 ;
sbb EAX,20 ;
sbb rm8[EBP],23 ;
sbb rm32[EBP],23 ;
sbb rm32[EBP],0x1234 ;
sbb rm8[EBP],BH ;
sbb rm32[EBP],EBX ;
sbb BL,rm8[EBP] ;
sbb EDX,rm32[EBP] ;
sub AL,5 ;
sub EAX,20 ;
sub rm8[EBP],23 ;
sub rm32[EBP],23 ;
sub rm32[EBP],0x1234 ;
sub rm8[EBP],BH ;
sub rm32[EBP],EBX ;
sub BL,rm8[EBP] ;
sub EDX,rm32[EBP] ;
test AL,5 ;
test EAX,20 ;
test rm8[EBP],23 ;
test rm32[EBP],23 ;
test rm32[EBP],0x1234 ;
test rm8[EBP],BH ;
test rm32[EBP],EBX ;
xor AL,5 ;
xor EAX,20 ;
xor rm8[EBP],23 ;
xor rm32[EBP],23 ;
xor rm32[EBP],0x1234 ;
xor rm8[EBP],BH ;
xor rm32[EBP],EBX ;
xor BL,rm8[EBP] ;
xor EDX,rm32[EBP] ;
L1: ;
pop EBX ;
mov p[EBP],EBX ;
}
for (i = 0; i < data.length; i++)
{
//printf("p[%d] = x%02x, data = x%02x\n", i, p[i], data[i]);
assert(p[i] == data[i]);
}
}
/****************************************************/
void test13()
{
int m32;
long m64;
M128 m128;
ubyte *p;
static ubyte[] data =
[
0x0F,0x0B, // ud2
0x0F,0x05, // syscall
0x0F,0x34, // sysenter
0x0F,0x35, // sysexit
0x0F,0x07, // sysret
0x0F,0xAE,0xE8, // lfence
0x0F,0xAE,0xF0, // mfence
0x0F,0xAE,0xF8, // sfence
0x0F,0xAE,0x00, // fxsave [EAX]
0x0F,0xAE,0x08, // fxrstor [EAX]
0x0F,0xAE,0x10, // ldmxcsr [EAX]
0x0F,0xAE,0x18, // stmxcsr [EAX]
0x0F,0xAE,0x38, // clflush [EAX]
0x0F,0x58,0x08, // addps XMM1,[EAX]
0x0F,0x58,0xCA, // addps XMM1,XMM2
0x66, 0x0F,0x58,0x03, // addpd XMM0,[EBX]
0x66, 0x0F,0x58,0xD1, // addpd XMM2,XMM1
0xF2,0x0F,0x58,0x08, // addsd XMM1,[EAX]
0xF2,0x0F,0x58,0xCA, // addsd XMM1,XMM2
0xF3,0x0F,0x58,0x2E, // addss XMM5,[ESI]
0xF3,0x0F,0x58,0xF7, // addss XMM6,XMM7
0x0F,0x54,0x08, // andps XMM1,[EAX]
0x0F,0x54,0xCA, // andps XMM1,XMM2
0x66, 0x0F,0x54,0x03, // andpd XMM0,[EBX]
0x66, 0x0F,0x54,0xD1, // andpd XMM2,XMM1
0x0F,0x55,0x08, // andnps XMM1,[EAX]
0x0F,0x55,0xCA, // andnps XMM1,XMM2
0x66, 0x0F,0x55,0x03, // andnpd XMM0,[EBX]
0x66, 0x0F,0x55,0xD1, // andnpd XMM2,XMM1
0xA7, // cmpsd
0x0F,0xC2,0x08,0x01, // cmpps XMM1,[EAX],1
0x0F,0xC2,0xCA,0x02, // cmpps XMM1,XMM2,2
0x66, 0x0F,0xC2,0x03,0x03, // cmppd XMM0,[EBX],3
0x66, 0x0F,0xC2,0xD1,0x04, // cmppd XMM2,XMM1,4
0xF2,0x0F,0xC2,0x08,0x05, // cmpsd XMM1,[EAX],5
0xF2,0x0F,0xC2,0xCA,0x06, // cmpsd XMM1,XMM2,6
0xF3,0x0F,0xC2,0x2E,0x07, // cmpss XMM5,[ESI],7
0xF3,0x0F,0xC2,0xF7,0x00, // cmpss XMM6,XMM7,0
0x66, 0x0F,0x2F,0x08, // comisd XMM1,[EAX]
0x66, 0x0F,0x2F,0x4D,0xE0, // comisd XMM1,-020h[EBP]
0x66, 0x0F,0x2F,0xCA, // comisd XMM1,XMM2
0x0F,0x2F,0x2E, // comiss XMM5,[ESI]
0x0F,0x2F,0xF7, // comiss XMM6,XMM7
0xF3,0x0F,0xE6,0xDC, // cvtdq2pd XMM3,XMM4
0xF3,0x0F,0xE6,0x5D,0xE0, // cvtdq2pd XMM3,-020h[EBP]
0x0F,0x5B,0xDC, // cvtdq2ps XMM3,XMM4
0x0F,0x5B,0x5D,0xE8, // cvtdq2ps XMM3,-018h[EBP]
0xF2,0x0F,0xE6,0xDC, // cvtpd2dq XMM3,XMM4
0xF2,0x0F,0xE6,0x5D,0xE8, // cvtpd2dq XMM3,-018h[EBP]
0x66, 0x0F,0x2D,0xDC, // cvtpd2pi MM3,XMM4
0x66, 0x0F,0x2D,0x5D,0xE8, // cvtpd2pi MM3,-018h[EBP]
0x66, 0x0F,0x5A,0xDC, // cvtpd2ps XMM3,XMM4
0x66, 0x0F,0x5A,0x5D,0xE8, // cvtpd2ps XMM3,-018h[EBP]
0x66, 0x0F,0x2A,0xDC, // cvtpi2pd XMM3,MM4
0x66, 0x0F,0x2A,0x5D,0xE0, // cvtpi2pd XMM3,-020h[EBP]
0x0F,0x2A,0xDC, // cvtpi2ps XMM3,MM4
0x0F,0x2A,0x5D,0xE0, // cvtpi2ps XMM3,-020h[EBP]
0x66, 0x0F,0x5B,0xDC, // cvtps2dq XMM3,XMM4
0x66, 0x0F,0x5B,0x5D,0xE8, // cvtps2dq XMM3,-018h[EBP]
0x0F,0x5A,0xDC, // cvtps2pd XMM3,XMM4
0x0F,0x5A,0x5D,0xE0, // cvtps2pd XMM3,-020h[EBP]
0x0F,0x2D,0xDC, // cvtps2pi MM3,XMM4
0x0F,0x2D,0x5D,0xE0, // cvtps2pi MM3,-020h[EBP]
0xF2,0x0F,0x2D,0xCC, // cvtsd2si XMM1,XMM4
0xF2,0x0F,0x2D,0x55,0xE0, // cvtsd2si XMM2,-020h[EBP]
0xF2,0x0F,0x5A,0xDC, // cvtsd2ss XMM3,XMM4
0xF2,0x0F,0x5A,0x5D,0xE0, // cvtsd2ss XMM3,-020h[EBP]
0xF2,0x0F,0x2A,0xDA, // cvtsi2sd XMM3,EDX
0xF2,0x0F,0x2A,0x5D,0xD8, // cvtsi2sd XMM3,-028h[EBP]
0xF3,0x0F,0x2A,0xDA, // cvtsi2ss XMM3,EDX
0xF3,0x0F,0x2A,0x5D,0xD8, // cvtsi2ss XMM3,-028h[EBP]
0xF3,0x0F,0x5A,0xDC, // cvtss2sd XMM3,XMM4
0xF3,0x0F,0x5A,0x5D,0xD8, // cvtss2sd XMM3,-028h[EBP]
0xF3,0x0F,0x2D,0xFC, // cvtss2si XMM7,XMM4
0xF3,0x0F,0x2D,0x7D,0xD8, // cvtss2si XMM7,-028h[EBP]
0x66, 0x0F,0x2C,0xDC, // cvttpd2pi MM3,XMM4
0x66, 0x0F,0x2C,0x7D,0xE8, // cvttpd2pi MM7,-018h[EBP]
0x66, 0x0F,0xE6,0xDC, // cvttpd2dq XMM3,XMM4
0x66, 0x0F,0xE6,0x7D,0xE8, // cvttpd2dq XMM7,-018h[EBP]
0xF3,0x0F,0x5B,0xDC, // cvttps2dq XMM3,XMM4
0xF3,0x0F,0x5B,0x7D,0xE8, // cvttps2dq XMM7,-018h[EBP]
0x0F,0x2C,0xDC, // cvttps2pi MM3,XMM4
0x0F,0x2C,0x7D,0xE0, // cvttps2pi MM7,-020h[EBP]
0xF2,0x0F,0x2C,0xC4, // cvttsd2si EAX,XMM4
0xF2,0x0F,0x2C,0x4D,0xE0, // cvttsd2si ECX,-020h[EBP]
0xF3,0x0F,0x2C,0xC4, // cvttss2si EAX,XMM4
0xF3,0x0F,0x2C,0x4D,0xD8, // cvttss2si ECX,-028h[EBP]
0x66, 0x0F,0x5E,0xE8, // divpd XMM5,XMM0
0x66, 0x0F,0x5E,0x6D,0xE8, // divpd XMM5,-018h[EBP]
0x0F,0x5E,0xE8, // divps XMM5,XMM0
0x0F,0x5E,0x6D,0xE8, // divps XMM5,-018h[EBP]
0xF2,0x0F,0x5E,0xE8, // divsd XMM5,XMM0
0xF2,0x0F,0x5E,0x6D,0xE0, // divsd XMM5,-020h[EBP]
0xF3,0x0F,0x5E,0xE8, // divss XMM5,XMM0
0xF3,0x0F,0x5E,0x6D,0xD8, // divss XMM5,-028h[EBP]
0x66, 0x0F,0xF7,0xD1, // maskmovdqu XMM2,XMM1
0x0F,0xF7,0xE3, // maskmovq MM4,MM3
0x66, 0x0F,0x5F,0xC0, // maxpd XMM0,XMM0
0x66, 0x0F,0x5F,0x4D,0xE8, // maxpd XMM1,-018h[EBP]
0x0F,0x5F,0xD1, // maxps XMM2,XMM1
0x0F,0x5F,0x5D,0xE8, // maxps XMM3,-018h[EBP]
0xF2,0x0F,0x5F,0xE2, // maxsd XMM4,XMM2
0xF2,0x0F,0x5F,0x6D,0xE0, // maxsd XMM5,-020h[EBP]
0xF3,0x0F,0x5F,0xF3, // maxss XMM6,XMM3
0xF3,0x0F,0x5F,0x7D,0xD8, // maxss XMM7,-028h[EBP]
0x66, 0x0F,0x5D,0xC0, // minpd XMM0,XMM0
0x66, 0x0F,0x5D,0x4D,0xE8, // minpd XMM1,-018h[EBP]
0x0F,0x5D,0xD1, // minps XMM2,XMM1
0x0F,0x5D,0x5D,0xE8, // minps XMM3,-018h[EBP]
0xF2,0x0F,0x5D,0xE2, // minsd XMM4,XMM2
0xF2,0x0F,0x5D,0x6D,0xE0, // minsd XMM5,-020h[EBP]
0xF3,0x0F,0x5D,0xF3, // minss XMM6,XMM3
0xF3,0x0F,0x5D,0x7D,0xD8, // minss XMM7,-028h[EBP]
0x66, 0x0F,0x28,0xCA, // movapd XMM1,XMM2
0x66, 0x0F,0x28,0x5D,0xE8, // movapd XMM3,-018h[EBP]
0x66, 0x0F,0x29,0x65,0xE8, // movapd -018h[EBP],XMM4
0x0F,0x28,0xCA, // movaps XMM1,XMM2
0x0F,0x28,0x5D,0xE8, // movaps XMM3,-018h[EBP]
0x0F,0x29,0x65,0xE8, // movaps -018h[EBP],XMM4
0x0F,0x6E,0xCB, // movd MM1,EBX
0x0F,0x6E,0x55,0xD8, // movd MM2,-028h[EBP]
0x0F,0x7E,0xDB, // movd EBX,MM3
0x0F,0x7E,0x65,0xD8, // movd -028h[EBP],MM4
0x66, 0x0F,0x6E,0xCB, // movd XMM1,EBX
0x66, 0x0F,0x6E,0x55,0xD8, // movd XMM2,-028h[EBP]
0x66, 0x0F,0x7E,0xDB, // movd EBX,XMM3
0x66, 0x0F,0x7E,0x65,0xD8, // movd -028h[EBP],XMM4
0x66, 0x0F,0x6F,0xCA, // movdqa XMM1,XMM2
0x66, 0x0F,0x6F,0x55,0xE8, // movdqa XMM2,-018h[EBP]
0x66, 0x0F,0x7F,0x65,0xE8, // movdqa -018h[EBP],XMM4
0xF3,0x0F,0x6F,0xCA, // movdqu XMM1,XMM2
0xF3,0x0F,0x6F,0x55,0xE8, // movdqu XMM2,-018h[EBP]
0xF3,0x0F,0x7F,0x65,0xE8, // movdqu -018h[EBP],XMM4
0xF2,0x0F,0xD6,0xDC, // movdq2q MM4,XMM3
0x0F,0x12,0xDC, // movhlps XMM4,XMM3
0x66, 0x0F,0x16,0x55,0xE0, // movhpd XMM2,-020h[EBP]
0x66, 0x0F,0x17,0x7D,0xE0, // movhpd -020h[EBP],XMM7
0x0F,0x16,0x55,0xE0, // movhps XMM2,-020h[EBP]
0x0F,0x17,0x7D,0xE0, // movhps -020h[EBP],XMM7
0x0F,0x16,0xDC, // movlhps XMM4,XMM3
0x66, 0x0F,0x12,0x55,0xE0, // movlpd XMM2,-020h[EBP]
0x66, 0x0F,0x13,0x7D,0xE0, // movlpd -020h[EBP],XMM7
0x0F,0x12,0x55,0xE0, // movlps XMM2,-020h[EBP]
0x0F,0x13,0x7D,0xE0, // movlps -020h[EBP],XMM7
0x66, 0x0F,0x50,0xF3, // movmskpd ESI,XMM3
0x0F,0x50,0xF3, // movmskps ESI,XMM3
0x66, 0x0F,0x59,0xC0, // mulpd XMM0,XMM0
0x66, 0x0F,0x59,0x4D,0xE8, // mulpd XMM1,-018h[EBP]
0x0F,0x59,0xD1, // mulps XMM2,XMM1
0x0F,0x59,0x5D,0xE8, // mulps XMM3,-018h[EBP]
0xF2,0x0F,0x59,0xE2, // mulsd XMM4,XMM2
0xF2,0x0F,0x59,0x6D,0xE0, // mulsd XMM5,-020h[EBP]
0xF3,0x0F,0x59,0xF3, // mulss XMM6,XMM3
0xF3,0x0F,0x59,0x7D,0xD8, // mulss XMM7,-028h[EBP]
0x66, 0x0F,0x51,0xC4, // sqrtpd XMM0,XMM4
0x66, 0x0F,0x51,0x4D,0xE8, // sqrtpd XMM1,-018h[EBP]
0x0F,0x51,0xD5, // sqrtps XMM2,XMM5
0x0F,0x51,0x5D,0xE8, // sqrtps XMM3,-018h[EBP]
0xF2,0x0F,0x51,0xE6, // sqrtsd XMM4,XMM6
0xF2,0x0F,0x51,0x6D,0xE0, // sqrtsd XMM5,-020h[EBP]
0xF3,0x0F,0x51,0xF7, // sqrtss XMM6,XMM7
0xF3,0x0F,0x51,0x7D,0xD8, // sqrtss XMM7,-028h[EBP]
0x66, 0x0F,0x5C,0xC4, // subpd XMM0,XMM4
0x66, 0x0F,0x5C,0x4D,0xE8, // subpd XMM1,-018h[EBP]
0x0F,0x5C,0xD5, // subps XMM2,XMM5
0x0F,0x5C,0x5D,0xE8, // subps XMM3,-018h[EBP]
0xF2,0x0F,0x5C,0xE6, // subsd XMM4,XMM6
0xF2,0x0F,0x5C,0x6D,0xE0, // subsd XMM5,-020h[EBP]
0xF3,0x0F,0x5C,0xF7, // subss XMM6,XMM7
0xF3,0x0F,0x5C,0x7D,0xD8, // subss XMM7,-028h[EBP]
0x0F,0x01,0xE0, // smsw EAX
];
int i;
asm
{
call L1 ;
ud2 ;
syscall ;
sysenter ;
sysexit ;
sysret ;
lfence ;
mfence ;
sfence ;
fxsave [EAX] ;
fxrstor [EAX] ;
ldmxcsr [EAX] ;
stmxcsr [EAX] ;
clflush [EAX] ;
addps XMM1,[EAX] ;
addps XMM1,XMM2 ;
addpd XMM0,[EBX] ;
addpd XMM2,XMM1 ;
addsd XMM1,[EAX] ;
addsd XMM1,XMM2 ;
addss XMM5,[ESI] ;
addss XMM6,XMM7 ;
andps XMM1,[EAX] ;
andps XMM1,XMM2 ;
andpd XMM0,[EBX] ;
andpd XMM2,XMM1 ;
andnps XMM1,[EAX] ;
andnps XMM1,XMM2 ;
andnpd XMM0,[EBX] ;
andnpd XMM2,XMM1 ;
cmpsd ;
cmpps XMM1,[EAX],1 ;
cmpps XMM1,XMM2,2 ;
cmppd XMM0,[EBX],3 ;
cmppd XMM2,XMM1,4 ;
cmpsd XMM1,[EAX],5 ;
cmpsd XMM1,XMM2,6 ;
cmpss XMM5,[ESI],7 ;
cmpss XMM6,XMM7,0 ;
comisd XMM1,[EAX] ;
comisd XMM1,m64[EBP] ;
comisd XMM1,XMM2 ;
comiss XMM5,[ESI] ;
comiss XMM6,XMM7 ;
cvtdq2pd XMM3,XMM4 ;
cvtdq2pd XMM3,m64[EBP] ;
cvtdq2ps XMM3,XMM4 ;
cvtdq2ps XMM3,m128[EBP] ;
cvtpd2dq XMM3,XMM4 ;
cvtpd2dq XMM3,m128[EBP] ;
cvtpd2pi MM3,XMM4 ;
cvtpd2pi MM3,m128[EBP] ;
cvtpd2ps XMM3,XMM4 ;
cvtpd2ps XMM3,m128[EBP] ;
cvtpi2pd XMM3,MM4 ;
cvtpi2pd XMM3,m64[EBP] ;
cvtpi2ps XMM3,MM4 ;
cvtpi2ps XMM3,m64[EBP] ;
cvtps2dq XMM3,XMM4 ;
cvtps2dq XMM3,m128[EBP] ;
cvtps2pd XMM3,XMM4 ;
cvtps2pd XMM3,m64[EBP] ;
cvtps2pi MM3,XMM4 ;
cvtps2pi MM3,m64[EBP] ;
cvtsd2si ECX,XMM4 ;
cvtsd2si EDX,m64[EBP] ;
cvtsd2ss XMM3,XMM4 ;
cvtsd2ss XMM3,m64[EBP] ;
cvtsi2sd XMM3,EDX ;
cvtsi2sd XMM3,m32[EBP] ;
cvtsi2ss XMM3,EDX ;
cvtsi2ss XMM3,m32[EBP] ;
cvtss2sd XMM3,XMM4 ;
cvtss2sd XMM3,m32[EBP] ;
cvtss2si EDI,XMM4 ;
cvtss2si EDI,m32[EBP] ;
cvttpd2pi MM3,XMM4 ;
cvttpd2pi MM7,m128[EBP] ;
cvttpd2dq XMM3,XMM4 ;