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Rename instruction templates to be easier to the human eye to 

parse. The name is now I (operand size)*. For example:

Im32 -> instruction with 32-bit memory operands.

Im16i8 -> instruction with 16-bit memory operands and 8 bit immediate
          operands.

llvm-svn: 11970
This commit is contained in:
Alkis Evlogimenos 2004-02-28 23:09:03 +00:00
parent 5b5dee4afb
commit c6948fa762
1 changed files with 242 additions and 242 deletions
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484
llvm/lib/Target/X86/X86InstrInfo.td
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@ -120,22 +120,22 @@ class DF { bits<4> Prefix = 10; }
class I<string n, bits<8> o, Format f> : X86Inst<n, o, f, NoMem, NoImm>;
class IM<string n, bits<8> o, Format f, MemType m> : X86Inst<n, o, f, m, NoImm>;
class IM8 <string n, bits<8> o, Format f> : IM<n, o, f, Mem8 >;
class IM16<string n, bits<8> o, Format f> : IM<n, o, f, Mem16>;
class IM32<string n, bits<8> o, Format f> : IM<n, o, f, Mem32>;
class Im<string n, bits<8> o, Format f, MemType m> : X86Inst<n, o, f, m, NoImm>;
class Im8 <string n, bits<8> o, Format f> : Im<n, o, f, Mem8 >;
class Im16<string n, bits<8> o, Format f> : Im<n, o, f, Mem16>;
class Im32<string n, bits<8> o, Format f> : Im<n, o, f, Mem32>;
class II<string n, bits<8> o, Format f, ImmType i> : X86Inst<n, o, f, NoMem, i>;
class II8 <string n, bits<8> o, Format f> : II<n, o, f, Imm8 >;
class II16<string n, bits<8> o, Format f> : II<n, o, f, Imm16>;
class II32<string n, bits<8> o, Format f> : II<n, o, f, Imm32>;
class Ii<string n, bits<8> o, Format f, ImmType i> : X86Inst<n, o, f, NoMem, i>;
class Ii8 <string n, bits<8> o, Format f> : Ii<n, o, f, Imm8 >;
class Ii16<string n, bits<8> o, Format f> : Ii<n, o, f, Imm16>;
class Ii32<string n, bits<8> o, Format f> : Ii<n, o, f, Imm32>;
class I8MI <string n, bits<8> o, Format f> : X86Inst<n, o, f, Mem8 , Imm8 >;
class I16MI<string n, bits<8> o, Format f> : X86Inst<n, o, f, Mem16, Imm16>;
class I32MI<string n, bits<8> o, Format f> : X86Inst<n, o, f, Mem32, Imm32>;
class Im8i8 <string n, bits<8> o, Format f> : X86Inst<n, o, f, Mem8 , Imm8 >;
class Im16i16<string n, bits<8> o, Format f> : X86Inst<n, o, f, Mem16, Imm16>;
class Im32i32<string n, bits<8> o, Format f> : X86Inst<n, o, f, Mem32, Imm32>;
class IM16I8<string n, bits<8> o, Format f> : X86Inst<n, o, f, Mem16, Imm8>;
class IM32I8<string n, bits<8> o, Format f> : X86Inst<n, o, f, Mem32, Imm8>;
class Im16i8<string n, bits<8> o, Format f> : X86Inst<n, o, f, Mem16, Imm8>;
class Im32i8<string n, bits<8> o, Format f> : X86Inst<n, o, f, Mem32, Imm8>;
// Helper for shift instructions
class UsesCL { list<Register> Uses = [CL]; bit printImplicitUses = 1; }
@ -190,7 +190,7 @@ let isCall = 1 in
let Defs = [EAX, ECX, EDX, FP0, FP1, FP2, FP3, FP4, FP5, FP6] in {
def CALLpcrel32 : I <"call", 0xE8, RawFrm>;
def CALLr32 : I <"call", 0xFF, MRM2r>;
def CALLm32 : IM32<"call", 0xFF, MRM2m>;
def CALLm32 : Im32<"call", 0xFF, MRM2m>;
}
@ -206,15 +206,15 @@ let isTwoAddress = 1 in // R32 = bswap R32
def XCHGrr8 : I <"xchg", 0x86, MRMDestReg>; // xchg R8, R8
def XCHGrr16 : I <"xchg", 0x87, MRMDestReg>, OpSize; // xchg R16, R16
def XCHGrr32 : I <"xchg", 0x87, MRMDestReg>; // xchg R32, R32
def XCHGmr8 : IM8 <"xchg", 0x86, MRMDestMem>; // xchg [mem8], R8
def XCHGmr16 : IM16<"xchg", 0x87, MRMDestMem>, OpSize; // xchg [mem16], R16
def XCHGmr32 : IM32<"xchg", 0x87, MRMDestMem>; // xchg [mem32], R32
def XCHGrm8 : IM8 <"xchg", 0x86, MRMSrcMem >; // xchg R8, [mem8]
def XCHGrm16 : IM16<"xchg", 0x87, MRMSrcMem >, OpSize; // xchg R16, [mem16]
def XCHGrm32 : IM32<"xchg", 0x87, MRMSrcMem >; // xchg R32, [mem32]
def XCHGmr8 : Im8 <"xchg", 0x86, MRMDestMem>; // xchg [mem8], R8
def XCHGmr16 : Im16<"xchg", 0x87, MRMDestMem>, OpSize; // xchg [mem16], R16
def XCHGmr32 : Im32<"xchg", 0x87, MRMDestMem>; // xchg [mem32], R32
def XCHGrm8 : Im8 <"xchg", 0x86, MRMSrcMem >; // xchg R8, [mem8]
def XCHGrm16 : Im16<"xchg", 0x87, MRMSrcMem >, OpSize; // xchg R16, [mem16]
def XCHGrm32 : Im32<"xchg", 0x87, MRMSrcMem >; // xchg R32, [mem32]
def LEAr16 : IM32<"lea", 0x8D, MRMSrcMem>, OpSize; // R16 = lea [mem]
def LEAr32 : IM32<"lea", 0x8D, MRMSrcMem>; // R32 = lea [mem]
def LEAr16 : Im32<"lea", 0x8D, MRMSrcMem>, OpSize; // R16 = lea [mem]
def LEAr32 : Im32<"lea", 0x8D, MRMSrcMem>; // R32 = lea [mem]
def REP_MOVSB : I<"rep movsb", 0xA4, RawFrm>, REP,
@ -237,22 +237,22 @@ def REP_STOSD : I<"rep stosd", 0xAB, RawFrm>, REP,
def MOVrr8 : I <"mov", 0x88, MRMDestReg>, Pattern<(set R8 , R8 )>;
def MOVrr16 : I <"mov", 0x89, MRMDestReg>, OpSize, Pattern<(set R16, R16)>;
def MOVrr32 : I <"mov", 0x89, MRMDestReg>, Pattern<(set R32, R32)>;
def MOVri8 : II8 <"mov", 0xB0, AddRegFrm >, Pattern<(set R8 , imm )>;
def MOVri16 : II16 <"mov", 0xB8, AddRegFrm >, OpSize, Pattern<(set R16, imm)>;
def MOVri32 : II32 <"mov", 0xB8, AddRegFrm >, Pattern<(set R32, imm)>;
def MOVmi8 : I8MI <"mov", 0xC6, MRM0m >; // [mem8] = imm8
def MOVmi16 : I16MI<"mov", 0xC7, MRM0m >, OpSize; // [mem16] = imm16
def MOVmi32 : I32MI<"mov", 0xC7, MRM0m >; // [mem32] = imm32
def MOVri8 : Ii8 <"mov", 0xB0, AddRegFrm >, Pattern<(set R8 , imm )>;
def MOVri16 : Ii16 <"mov", 0xB8, AddRegFrm >, OpSize, Pattern<(set R16, imm)>;
def MOVri32 : Ii32 <"mov", 0xB8, AddRegFrm >, Pattern<(set R32, imm)>;
def MOVmi8 : Im8i8 <"mov", 0xC6, MRM0m >; // [mem8] = imm8
def MOVmi16 : Im16i16<"mov", 0xC7, MRM0m >, OpSize; // [mem16] = imm16
def MOVmi32 : Im32i32<"mov", 0xC7, MRM0m >; // [mem32] = imm32
def MOVrm8 : IM8 <"mov", 0x8A, MRMSrcMem>; // R8 = [mem8]
def MOVrm16 : IM16 <"mov", 0x8B, MRMSrcMem>, OpSize, // R16 = [mem16]
def MOVrm8 : Im8 <"mov", 0x8A, MRMSrcMem>; // R8 = [mem8]
def MOVrm16 : Im16 <"mov", 0x8B, MRMSrcMem>, OpSize, // R16 = [mem16]
Pattern<(set R16, (load (plus R32, (plus (times imm, R32), imm))))>;
def MOVrm32 : IM32 <"mov", 0x8B, MRMSrcMem>, // R32 = [mem32]
def MOVrm32 : Im32 <"mov", 0x8B, MRMSrcMem>, // R32 = [mem32]
Pattern<(set R32, (load (plus R32, (plus (times imm, R32), imm))))>;
def MOVmr8 : IM8 <"mov", 0x88, MRMDestMem>; // [mem8] = R8
def MOVmr16 : IM16 <"mov", 0x89, MRMDestMem>, OpSize; // [mem16] = R16
def MOVmr32 : IM32 <"mov", 0x89, MRMDestMem>; // [mem32] = R32
def MOVmr8 : Im8 <"mov", 0x88, MRMDestMem>; // [mem8] = R8
def MOVmr16 : Im16 <"mov", 0x89, MRMDestMem>, OpSize; // [mem16] = R16
def MOVmr32 : Im32 <"mov", 0x89, MRMDestMem>; // [mem32] = R32
//===----------------------------------------------------------------------===//
// Fixed-Register Multiplication and Division Instructions...
@ -262,25 +262,25 @@ def MOVmr32 : IM32 <"mov", 0x89, MRMDestMem>; // [mem32] = R32
def MULr8 : I <"mul", 0xF6, MRM4r>, Imp<[AL],[AX]>; // AL,AH = AL*R8
def MULr16 : I <"mul", 0xF7, MRM4r>, Imp<[AX],[AX,DX]>, OpSize; // AX,DX = AX*R16
def MULr32 : I <"mul", 0xF7, MRM4r>, Imp<[EAX],[EAX,EDX]>; // EAX,EDX = EAX*R32
def MULm8 : IM8 <"mul", 0xF6, MRM4m>, Imp<[AL],[AX]>; // AL,AH = AL*[mem8]
def MULm16 : IM16<"mul", 0xF7, MRM4m>, Imp<[AX],[AX,DX]>, OpSize; // AX,DX = AX*[mem16]
def MULm32 : IM32<"mul", 0xF7, MRM4m>, Imp<[EAX],[EAX,EDX]>; // EAX,EDX = EAX*[mem32]
def MULm8 : Im8 <"mul", 0xF6, MRM4m>, Imp<[AL],[AX]>; // AL,AH = AL*[mem8]
def MULm16 : Im16<"mul", 0xF7, MRM4m>, Imp<[AX],[AX,DX]>, OpSize; // AX,DX = AX*[mem16]
def MULm32 : Im32<"mul", 0xF7, MRM4m>, Imp<[EAX],[EAX,EDX]>; // EAX,EDX = EAX*[mem32]
// unsigned division/remainder
def DIVr8 : I <"div", 0xF6, MRM6r>, Imp<[AX],[AX]>; // AX/r8 = AL,AH
def DIVr16 : I <"div", 0xF7, MRM6r>, Imp<[AX,DX],[AX,DX]>, OpSize; // DX:AX/r16 = AX,DX
def DIVr32 : I <"div", 0xF7, MRM6r>, Imp<[EAX,EDX],[EAX,EDX]>; // EDX:EAX/r32 = EAX,EDX
def DIVm8 : IM8 <"div", 0xF6, MRM6m>, Imp<[AX],[AX]>; // AX/[mem8] = AL,AH
def DIVm16 : IM16<"div", 0xF7, MRM6m>, Imp<[AX,DX],[AX,DX]>, OpSize; // DX:AX/[mem16] = AX,DX
def DIVm32 : IM32<"div", 0xF7, MRM6m>, Imp<[EAX,EDX],[EAX,EDX]>; // EDX:EAX/[mem32] = EAX,EDX
def DIVm8 : Im8 <"div", 0xF6, MRM6m>, Imp<[AX],[AX]>; // AX/[mem8] = AL,AH
def DIVm16 : Im16<"div", 0xF7, MRM6m>, Imp<[AX,DX],[AX,DX]>, OpSize; // DX:AX/[mem16] = AX,DX
def DIVm32 : Im32<"div", 0xF7, MRM6m>, Imp<[EAX,EDX],[EAX,EDX]>; // EDX:EAX/[mem32] = EAX,EDX
// signed division/remainder
def IDIVr8 : I <"idiv",0xF6, MRM7r>, Imp<[AX],[AX]>; // AX/r8 = AL,AH
def IDIVr16: I <"idiv",0xF7, MRM7r>, Imp<[AX,DX],[AX,DX]>, OpSize; // DX:AX/r16 = AX,DX
def IDIVr32: I <"idiv",0xF7, MRM7r>, Imp<[EAX,EDX],[EAX,EDX]>; // EDX:EAX/r32 = EAX,EDX
def IDIVm8 : IM8 <"idiv",0xF6, MRM7m>, Imp<[AX],[AX]>; // AX/[mem8] = AL,AH
def IDIVm16: IM16<"idiv",0xF7, MRM7m>, Imp<[AX,DX],[AX,DX]>, OpSize; // DX:AX/[mem16] = AX,DX
def IDIVm32: IM32<"idiv",0xF7, MRM7m>, Imp<[EAX,EDX],[EAX,EDX]>; // EDX:EAX/[mem32] = EAX,EDX
def IDIVm8 : Im8 <"idiv",0xF6, MRM7m>, Imp<[AX],[AX]>; // AX/[mem8] = AL,AH
def IDIVm16: Im16<"idiv",0xF7, MRM7m>, Imp<[AX,DX],[AX,DX]>, OpSize; // DX:AX/[mem16] = AX,DX
def IDIVm32: Im32<"idiv",0xF7, MRM7m>, Imp<[EAX,EDX],[EAX,EDX]>; // EDX:EAX/[mem32] = EAX,EDX
// Sign-extenders for division
def CBW : I<"cbw", 0x98, RawFrm >, Imp<[AL],[AH]>; // AX = signext(AL)
@ -302,176 +302,176 @@ def CMOVSrr32 : I<"cmovs", 0x48, MRMSrcReg>, TB; // if signed, R3
def NEGr8 : I <"neg", 0xF6, MRM3r>; // R8 = -R8 = 0-R8
def NEGr16 : I <"neg", 0xF7, MRM3r>, OpSize; // R16 = -R16 = 0-R16
def NEGr32 : I <"neg", 0xF7, MRM3r>; // R32 = -R32 = 0-R32
def NEGm8 : IM8 <"neg", 0xF6, MRM3m>; // [mem8] = -[mem8] = 0-[mem8]
def NEGm16 : IM16<"neg", 0xF7, MRM3m>, OpSize; // [mem16] = -[mem16] = 0-[mem16]
def NEGm32 : IM32<"neg", 0xF7, MRM3m>; // [mem32] = -[mem32] = 0-[mem32]
def NEGm8 : Im8 <"neg", 0xF6, MRM3m>; // [mem8] = -[mem8] = 0-[mem8]
def NEGm16 : Im16<"neg", 0xF7, MRM3m>, OpSize; // [mem16] = -[mem16] = 0-[mem16]
def NEGm32 : Im32<"neg", 0xF7, MRM3m>; // [mem32] = -[mem32] = 0-[mem32]
def NOTr8 : I <"not", 0xF6, MRM2r>; // R8 = ~R8 = R8^-1
def NOTr16 : I <"not", 0xF7, MRM2r>, OpSize; // R16 = ~R16 = R16^-1
def NOTr32 : I <"not", 0xF7, MRM2r>; // R32 = ~R32 = R32^-1
def NOTm8 : IM8 <"not", 0xF6, MRM2m>; // [mem8] = ~[mem8] = [mem8^-1]
def NOTm16 : IM16<"not", 0xF7, MRM2m>, OpSize; // [mem16] = ~[mem16] = [mem16^-1]
def NOTm32 : IM32<"not", 0xF7, MRM2m>; // [mem32] = ~[mem32] = [mem32^-1]
def NOTm8 : Im8 <"not", 0xF6, MRM2m>; // [mem8] = ~[mem8] = [mem8^-1]
def NOTm16 : Im16<"not", 0xF7, MRM2m>, OpSize; // [mem16] = ~[mem16] = [mem16^-1]
def NOTm32 : Im32<"not", 0xF7, MRM2m>; // [mem32] = ~[mem32] = [mem32^-1]
def INCr8 : I <"inc", 0xFE, MRM0r>; // ++R8
def INCr16 : I <"inc", 0xFF, MRM0r>, OpSize; // ++R16
def INCr32 : I <"inc", 0xFF, MRM0r>; // ++R32
def INCm8 : IM8 <"inc", 0xFE, MRM0m>; // ++R8
def INCm16 : IM16<"inc", 0xFF, MRM0m>, OpSize; // ++R16
def INCm32 : IM32<"inc", 0xFF, MRM0m>; // ++R32
def INCm8 : Im8 <"inc", 0xFE, MRM0m>; // ++R8
def INCm16 : Im16<"inc", 0xFF, MRM0m>, OpSize; // ++R16
def INCm32 : Im32<"inc", 0xFF, MRM0m>; // ++R32
def DECr8 : I <"dec", 0xFE, MRM1r>; // --R8
def DECr16 : I <"dec", 0xFF, MRM1r>, OpSize; // --R16
def DECr32 : I <"dec", 0xFF, MRM1r>; // --R32
def DECm8 : IM8 <"dec", 0xFE, MRM1m>; // --[mem8]
def DECm16 : IM16<"dec", 0xFF, MRM1m>, OpSize; // --[mem16]
def DECm32 : IM32<"dec", 0xFF, MRM1m>; // --[mem32]
def DECm8 : Im8 <"dec", 0xFE, MRM1m>; // --[mem8]
def DECm16 : Im16<"dec", 0xFF, MRM1m>, OpSize; // --[mem16]
def DECm32 : Im32<"dec", 0xFF, MRM1m>; // --[mem32]
// Logical operators...
def ANDrr8 : I <"and", 0x20, MRMDestReg>, Pattern<(set R8 , (and R8 , R8 ))>;
def ANDrr16 : I <"and", 0x21, MRMDestReg>, OpSize, Pattern<(set R16, (and R16, R16))>;
def ANDrr32 : I <"and", 0x21, MRMDestReg>, Pattern<(set R32, (and R32, R32))>;
def ANDmr8 : IM8 <"and", 0x20, MRMDestMem>; // [mem8] &= R8
def ANDmr16 : IM16 <"and", 0x21, MRMDestMem>, OpSize; // [mem16] &= R16
def ANDmr32 : IM32 <"and", 0x21, MRMDestMem>; // [mem32] &= R32
def ANDrm8 : IM8 <"and", 0x22, MRMSrcMem >; // R8 &= [mem8]
def ANDrm16 : IM16 <"and", 0x23, MRMSrcMem >, OpSize; // R16 &= [mem16]
def ANDrm32 : IM32 <"and", 0x23, MRMSrcMem >; // R32 &= [mem32]
def ANDmr8 : Im8 <"and", 0x20, MRMDestMem>; // [mem8] &= R8
def ANDmr16 : Im16 <"and", 0x21, MRMDestMem>, OpSize; // [mem16] &= R16
def ANDmr32 : Im32 <"and", 0x21, MRMDestMem>; // [mem32] &= R32
def ANDrm8 : Im8 <"and", 0x22, MRMSrcMem >; // R8 &= [mem8]
def ANDrm16 : Im16 <"and", 0x23, MRMSrcMem >, OpSize; // R16 &= [mem16]
def ANDrm32 : Im32 <"and", 0x23, MRMSrcMem >; // R32 &= [mem32]
def ANDri8 : II8 <"and", 0x80, MRM4r >, Pattern<(set R8 , (and R8 , imm))>;
def ANDri16 : II16 <"and", 0x81, MRM4r >, OpSize, Pattern<(set R16, (and R16, imm))>;
def ANDri32 : II32 <"and", 0x81, MRM4r >, Pattern<(set R32, (and R32, imm))>;
def ANDmi8 : I8MI <"and", 0x80, MRM4m >; // [mem8] &= imm8
def ANDmi16 : I16MI <"and", 0x81, MRM4m >, OpSize; // [mem16] &= imm16
def ANDmi32 : I32MI <"and", 0x81, MRM4m >; // [mem32] &= imm32
def ANDri8 : Ii8 <"and", 0x80, MRM4r >, Pattern<(set R8 , (and R8 , imm))>;
def ANDri16 : Ii16 <"and", 0x81, MRM4r >, OpSize, Pattern<(set R16, (and R16, imm))>;
def ANDri32 : Ii32 <"and", 0x81, MRM4r >, Pattern<(set R32, (and R32, imm))>;
def ANDmi8 : Im8i8 <"and", 0x80, MRM4m >; // [mem8] &= imm8
def ANDmi16 : Im16i16 <"and", 0x81, MRM4m >, OpSize; // [mem16] &= imm16
def ANDmi32 : Im32i32 <"and", 0x81, MRM4m >; // [mem32] &= imm32
def ANDri16b : II8 <"and", 0x83, MRM4r >, OpSize; // R16 &= imm8
def ANDri32b : II8 <"and", 0x83, MRM4r >; // R32 &= imm8
def ANDmi16b : IM16I8<"and", 0x83, MRM4m >, OpSize; // [mem16] &= imm8
def ANDmi32b : IM32I8<"and", 0x83, MRM4m >; // [mem32] &= imm8
def ANDri16b : Ii8 <"and", 0x83, MRM4r >, OpSize; // R16 &= imm8
def ANDri32b : Ii8 <"and", 0x83, MRM4r >; // R32 &= imm8
def ANDmi16b : Im16i8<"and", 0x83, MRM4m >, OpSize; // [mem16] &= imm8
def ANDmi32b : Im32i8<"and", 0x83, MRM4m >; // [mem32] &= imm8
def ORrr8 : I <"or" , 0x08, MRMDestReg>, Pattern<(set R8 , (or R8 , R8 ))>;
def ORrr16 : I <"or" , 0x09, MRMDestReg>, OpSize, Pattern<(set R16, (or R16, R16))>;
def ORrr32 : I <"or" , 0x09, MRMDestReg>, Pattern<(set R32, (or R32, R32))>;
def ORmr8 : IM8 <"or" , 0x08, MRMDestMem>; // [mem8] |= R8
def ORmr16 : IM16 <"or" , 0x09, MRMDestMem>, OpSize; // [mem16] |= R16
def ORmr32 : IM32 <"or" , 0x09, MRMDestMem>; // [mem32] |= R32
def ORrm8 : IM8 <"or" , 0x0A, MRMSrcMem >; // R8 |= [mem8]
def ORrm16 : IM16 <"or" , 0x0B, MRMSrcMem >, OpSize; // R16 |= [mem16]
def ORrm32 : IM32 <"or" , 0x0B, MRMSrcMem >; // R32 |= [mem32]
def ORmr8 : Im8 <"or" , 0x08, MRMDestMem>; // [mem8] |= R8
def ORmr16 : Im16 <"or" , 0x09, MRMDestMem>, OpSize; // [mem16] |= R16
def ORmr32 : Im32 <"or" , 0x09, MRMDestMem>; // [mem32] |= R32
def ORrm8 : Im8 <"or" , 0x0A, MRMSrcMem >; // R8 |= [mem8]
def ORrm16 : Im16 <"or" , 0x0B, MRMSrcMem >, OpSize; // R16 |= [mem16]
def ORrm32 : Im32 <"or" , 0x0B, MRMSrcMem >; // R32 |= [mem32]
def ORri8 : II8 <"or" , 0x80, MRM1r >, Pattern<(set R8 , (or R8 , imm))>;
def ORri16 : II16 <"or" , 0x81, MRM1r >, OpSize, Pattern<(set R16, (or R16, imm))>;
def ORri32 : II32 <"or" , 0x81, MRM1r >, Pattern<(set R32, (or R32, imm))>;
def ORmi8 : I8MI <"or" , 0x80, MRM1m >; // [mem8] |= imm8
def ORmi16 : I16MI <"or" , 0x81, MRM1m >, OpSize; // [mem16] |= imm16
def ORmi32 : I32MI <"or" , 0x81, MRM1m >; // [mem32] |= imm32
def ORri8 : Ii8 <"or" , 0x80, MRM1r >, Pattern<(set R8 , (or R8 , imm))>;
def ORri16 : Ii16 <"or" , 0x81, MRM1r >, OpSize, Pattern<(set R16, (or R16, imm))>;
def ORri32 : Ii32 <"or" , 0x81, MRM1r >, Pattern<(set R32, (or R32, imm))>;
def ORmi8 : Im8i8 <"or" , 0x80, MRM1m >; // [mem8] |= imm8
def ORmi16 : Im16i16 <"or" , 0x81, MRM1m >, OpSize; // [mem16] |= imm16
def ORmi32 : Im32i32 <"or" , 0x81, MRM1m >; // [mem32] |= imm32
def ORri16b : II8 <"or" , 0x83, MRM1r >, OpSize; // R16 |= imm8
def ORri32b : II8 <"or" , 0x83, MRM1r >; // R32 |= imm8
def ORmi16b : IM16I8<"or" , 0x83, MRM1m >, OpSize; // [mem16] |= imm8
def ORmi32b : IM32I8<"or" , 0x83, MRM1m >; // [mem32] |= imm8
def ORri16b : Ii8 <"or" , 0x83, MRM1r >, OpSize; // R16 |= imm8
def ORri32b : Ii8 <"or" , 0x83, MRM1r >; // R32 |= imm8
def ORmi16b : Im16i8<"or" , 0x83, MRM1m >, OpSize; // [mem16] |= imm8
def ORmi32b : Im32i8<"or" , 0x83, MRM1m >; // [mem32] |= imm8
def XORrr8 : I <"xor", 0x30, MRMDestReg>, Pattern<(set R8 , (xor R8 , R8 ))>;
def XORrr16 : I <"xor", 0x31, MRMDestReg>, OpSize, Pattern<(set R16, (xor R16, R16))>;
def XORrr32 : I <"xor", 0x31, MRMDestReg>, Pattern<(set R32, (xor R32, R32))>;
def XORmr8 : IM8 <"xor", 0x30, MRMDestMem>; // [mem8] ^= R8
def XORmr16 : IM16 <"xor", 0x31, MRMDestMem>, OpSize; // [mem16] ^= R16
def XORmr32 : IM32 <"xor", 0x31, MRMDestMem>; // [mem32] ^= R32
def XORrm8 : IM8 <"xor", 0x32, MRMSrcMem >; // R8 ^= [mem8]
def XORrm16 : IM16 <"xor", 0x33, MRMSrcMem >, OpSize; // R16 ^= [mem16]
def XORrm32 : IM32 <"xor", 0x33, MRMSrcMem >; // R32 ^= [mem32]
def XORmr8 : Im8 <"xor", 0x30, MRMDestMem>; // [mem8] ^= R8
def XORmr16 : Im16 <"xor", 0x31, MRMDestMem>, OpSize; // [mem16] ^= R16
def XORmr32 : Im32 <"xor", 0x31, MRMDestMem>; // [mem32] ^= R32
def XORrm8 : Im8 <"xor", 0x32, MRMSrcMem >; // R8 ^= [mem8]
def XORrm16 : Im16 <"xor", 0x33, MRMSrcMem >, OpSize; // R16 ^= [mem16]
def XORrm32 : Im32 <"xor", 0x33, MRMSrcMem >; // R32 ^= [mem32]
def XORri8 : II8 <"xor", 0x80, MRM6r >, Pattern<(set R8 , (xor R8 , imm))>;
def XORri16 : II16 <"xor", 0x81, MRM6r >, OpSize, Pattern<(set R16, (xor R16, imm))>;
def XORri32 : II32 <"xor", 0x81, MRM6r >, Pattern<(set R32, (xor R32, imm))>;
def XORmi8 : I8MI <"xor", 0x80, MRM6m >; // [mem8] ^= R8
def XORmi16 : I16MI <"xor", 0x81, MRM6m >, OpSize; // [mem16] ^= R16
def XORmi32 : I32MI <"xor", 0x81, MRM6m >; // [mem32] ^= R32
def XORri8 : Ii8 <"xor", 0x80, MRM6r >, Pattern<(set R8 , (xor R8 , imm))>;
def XORri16 : Ii16 <"xor", 0x81, MRM6r >, OpSize, Pattern<(set R16, (xor R16, imm))>;
def XORri32 : Ii32 <"xor", 0x81, MRM6r >, Pattern<(set R32, (xor R32, imm))>;
def XORmi8 : Im8i8 <"xor", 0x80, MRM6m >; // [mem8] ^= R8
def XORmi16 : Im16i16 <"xor", 0x81, MRM6m >, OpSize; // [mem16] ^= R16
def XORmi32 : Im32i32 <"xor", 0x81, MRM6m >; // [mem32] ^= R32
def XORri16b : II8 <"xor", 0x83, MRM6r >, OpSize; // R16 ^= imm8
def XORri32b : II8 <"xor", 0x83, MRM6r >; // R32 ^= imm8
def XORmi16b : IM16I8<"xor", 0x83, MRM6m >, OpSize; // [mem16] ^= imm8
def XORmi32b : IM32I8<"xor", 0x83, MRM6m >; // [mem32] ^= imm8
def XORri16b : Ii8 <"xor", 0x83, MRM6r >, OpSize; // R16 ^= imm8
def XORri32b : Ii8 <"xor", 0x83, MRM6r >; // R32 ^= imm8
def XORmi16b : Im16i8<"xor", 0x83, MRM6m >, OpSize; // [mem16] ^= imm8
def XORmi32b : Im32i8<"xor", 0x83, MRM6m >; // [mem32] ^= imm8
// Shift instructions
def SHLrCL8 : I <"shl", 0xD2, MRM4r > , UsesCL; // R8 <<= cl
def SHLrCL16 : I <"shl", 0xD3, MRM4r >, OpSize, UsesCL; // R16 <<= cl
def SHLrCL32 : I <"shl", 0xD3, MRM4r > , UsesCL; // R32 <<= cl
def SHLmCL8 : IM8 <"shl", 0xD2, MRM4m > , UsesCL; // [mem8] <<= cl
def SHLmCL16 : IM16 <"shl", 0xD3, MRM4m >, OpSize, UsesCL; // [mem16] <<= cl
def SHLmCL32 : IM32 <"shl", 0xD3, MRM4m > , UsesCL; // [mem32] <<= cl
def SHLmCL8 : Im8 <"shl", 0xD2, MRM4m > , UsesCL; // [mem8] <<= cl
def SHLmCL16 : Im16 <"shl", 0xD3, MRM4m >, OpSize, UsesCL; // [mem16] <<= cl
def SHLmCL32 : Im32 <"shl", 0xD3, MRM4m > , UsesCL; // [mem32] <<= cl
def SHLri8 : II8 <"shl", 0xC0, MRM4r >; // R8 <<= imm8
def SHLri16 : II8 <"shl", 0xC1, MRM4r >, OpSize; // R16 <<= imm8
def SHLri32 : II8 <"shl", 0xC1, MRM4r >; // R32 <<= imm8
def SHLmi8 : I8MI <"shl", 0xC0, MRM4m >; // [mem8] <<= imm8
def SHLmi16 : IM16I8<"shl", 0xC1, MRM4m >, OpSize; // [mem16] <<= imm8
def SHLmi32 : IM32I8<"shl", 0xC1, MRM4m >; // [mem32] <<= imm8
def SHLri8 : Ii8 <"shl", 0xC0, MRM4r >; // R8 <<= imm8
def SHLri16 : Ii8 <"shl", 0xC1, MRM4r >, OpSize; // R16 <<= imm8
def SHLri32 : Ii8 <"shl", 0xC1, MRM4r >; // R32 <<= imm8
def SHLmi8 : Im8i8 <"shl", 0xC0, MRM4m >; // [mem8] <<= imm8
def SHLmi16 : Im16i8<"shl", 0xC1, MRM4m >, OpSize; // [mem16] <<= imm8
def SHLmi32 : Im32i8<"shl", 0xC1, MRM4m >; // [mem32] <<= imm8
def SHRrCL8 : I <"shr", 0xD2, MRM5r > , UsesCL; // R8 >>= cl
def SHRrCL16 : I <"shr", 0xD3, MRM5r >, OpSize, UsesCL; // R16 >>= cl
def SHRrCL32 : I <"shr", 0xD3, MRM5r > , UsesCL; // R32 >>= cl
def SHRmCL8 : IM8 <"shr", 0xD2, MRM5m > , UsesCL; // [mem8] >>= cl
def SHRmCL16 : IM16 <"shr", 0xD3, MRM5m >, OpSize, UsesCL; // [mem16] >>= cl
def SHRmCL32 : IM32 <"shr", 0xD3, MRM5m > , UsesCL; // [mem32] >>= cl
def SHRmCL8 : Im8 <"shr", 0xD2, MRM5m > , UsesCL; // [mem8] >>= cl
def SHRmCL16 : Im16 <"shr", 0xD3, MRM5m >, OpSize, UsesCL; // [mem16] >>= cl
def SHRmCL32 : Im32 <"shr", 0xD3, MRM5m > , UsesCL; // [mem32] >>= cl
def SHRri8 : II8 <"shr", 0xC0, MRM5r >; // R8 >>= imm8
def SHRri16 : II8 <"shr", 0xC1, MRM5r >, OpSize; // R16 >>= imm8
def SHRri32 : II8 <"shr", 0xC1, MRM5r >; // R32 >>= imm8
def SHRmi8 : I8MI <"shr", 0xC0, MRM5m >; // [mem8] >>= imm8
def SHRmi16 : IM16I8<"shr", 0xC1, MRM5m >, OpSize; // [mem16] >>= imm8
def SHRmi32 : IM32I8<"shr", 0xC1, MRM5m >; // [mem32] >>= imm8
def SHRri8 : Ii8 <"shr", 0xC0, MRM5r >; // R8 >>= imm8
def SHRri16 : Ii8 <"shr", 0xC1, MRM5r >, OpSize; // R16 >>= imm8
def SHRri32 : Ii8 <"shr", 0xC1, MRM5r >; // R32 >>= imm8
def SHRmi8 : Im8i8 <"shr", 0xC0, MRM5m >; // [mem8] >>= imm8
def SHRmi16 : Im16i8<"shr", 0xC1, MRM5m >, OpSize; // [mem16] >>= imm8
def SHRmi32 : Im32i8<"shr", 0xC1, MRM5m >; // [mem32] >>= imm8
def SARrCL8 : I <"sar", 0xD2, MRM7r > , UsesCL; // R8 >>>= cl
def SARrCL16 : I <"sar", 0xD3, MRM7r >, OpSize, UsesCL; // R16 >>>= cl
def SARrCL32 : I <"sar", 0xD3, MRM7r > , UsesCL; // R32 >>>= cl
def SARmCL8 : IM8 <"sar", 0xD2, MRM7m > , UsesCL; // [mem8] >>>= cl
def SARmCL16 : IM16 <"sar", 0xD3, MRM7m >, OpSize, UsesCL; // [mem16] >>>= cl
def SARmCL32 : IM32 <"sar", 0xD3, MRM7m > , UsesCL; // [mem32] >>>= cl
def SARmCL8 : Im8 <"sar", 0xD2, MRM7m > , UsesCL; // [mem8] >>>= cl
def SARmCL16 : Im16 <"sar", 0xD3, MRM7m >, OpSize, UsesCL; // [mem16] >>>= cl
def SARmCL32 : Im32 <"sar", 0xD3, MRM7m > , UsesCL; // [mem32] >>>= cl
def SARri8 : II8 <"sar", 0xC0, MRM7r >; // R8 >>>= imm8
def SARri16 : II8 <"sar", 0xC1, MRM7r >, OpSize; // R16 >>>= imm8
def SARri32 : II8 <"sar", 0xC1, MRM7r >; // R32 >>>= imm8
def SARmi8 : I8MI <"sar", 0xC0, MRM7m >; // [mem8] >>>= imm8
def SARmi16 : IM16I8<"sar", 0xC1, MRM7m >, OpSize; // [mem16] >>>= imm8
def SARmi32 : IM32I8<"sar", 0xC1, MRM7m >; // [mem32] >>>= imm8
def SARri8 : Ii8 <"sar", 0xC0, MRM7r >; // R8 >>>= imm8
def SARri16 : Ii8 <"sar", 0xC1, MRM7r >, OpSize; // R16 >>>= imm8
def SARri32 : Ii8 <"sar", 0xC1, MRM7r >; // R32 >>>= imm8
def SARmi8 : Im8i8 <"sar", 0xC0, MRM7m >; // [mem8] >>>= imm8
def SARmi16 : Im16i8<"sar", 0xC1, MRM7m >, OpSize; // [mem16] >>>= imm8
def SARmi32 : Im32i8<"sar", 0xC1, MRM7m >; // [mem32] >>>= imm8
def SHLDrrCL32 : I <"shld", 0xA5, MRMDestReg>, TB, UsesCL; // R32 <<= R32,R32 cl
def SHLDmrCL32 : I <"shld", 0xA5, MRMDestMem>, TB, UsesCL; // [mem32] <<= [mem32],R32 cl
def SHLDrri32 : II8 <"shld", 0xA4, MRMDestReg>, TB; // R32 <<= R32,R32 imm8
def SHLDmri32 : II8 <"shld", 0xA4, MRMDestMem>, TB; // [mem32] <<= [mem32],R32 imm8
def SHLDrri32 : Ii8 <"shld", 0xA4, MRMDestReg>, TB; // R32 <<= R32,R32 imm8
def SHLDmri32 : Ii8 <"shld", 0xA4, MRMDestMem>, TB; // [mem32] <<= [mem32],R32 imm8
def SHRDrrCL32 : I <"shrd", 0xAD, MRMDestReg>, TB, UsesCL; // R32 >>= R32,R32 cl
def SHRDmrCL32 : I <"shrd", 0xAD, MRMDestMem>, TB, UsesCL; // [mem32] >>= [mem32],R32 cl
def SHRDrri32 : II8 <"shrd", 0xAC, MRMDestReg>, TB; // R32 >>= R32,R32 imm8
def SHRDmri32 : II8 <"shrd", 0xAC, MRMDestMem>, TB; // [mem32] >>= [mem32],R32 imm8
def SHRDrri32 : Ii8 <"shrd", 0xAC, MRMDestReg>, TB; // R32 >>= R32,R32 imm8
def SHRDmri32 : Ii8 <"shrd", 0xAC, MRMDestMem>, TB; // [mem32] >>= [mem32],R32 imm8
// Arithmetic...
def ADDrr8 : I <"add", 0x00, MRMDestReg>, Pattern<(set R8 , (plus R8 , R8 ))>;
def ADDrr16 : I <"add", 0x01, MRMDestReg>, OpSize, Pattern<(set R16, (plus R16, R16))>;
def ADDrr32 : I <"add", 0x01, MRMDestReg>, Pattern<(set R32, (plus R32, R32))>;
def ADDmr8 : IM8 <"add", 0x00, MRMDestMem>; // [mem8] += R8
def ADDmr16 : IM16 <"add", 0x01, MRMDestMem>, OpSize; // [mem16] += R16
def ADDmr32 : IM32 <"add", 0x01, MRMDestMem>; // [mem32] += R32
def ADDrm8 : IM8 <"add", 0x02, MRMSrcMem >; // R8 += [mem8]
def ADDrm16 : IM16 <"add", 0x03, MRMSrcMem >, OpSize; // R16 += [mem16]
def ADDrm32 : IM32 <"add", 0x03, MRMSrcMem >; // R32 += [mem32]
def ADDmr8 : Im8 <"add", 0x00, MRMDestMem>; // [mem8] += R8
def ADDmr16 : Im16 <"add", 0x01, MRMDestMem>, OpSize; // [mem16] += R16
def ADDmr32 : Im32 <"add", 0x01, MRMDestMem>; // [mem32] += R32
def ADDrm8 : Im8 <"add", 0x02, MRMSrcMem >; // R8 += [mem8]
def ADDrm16 : Im16 <"add", 0x03, MRMSrcMem >, OpSize; // R16 += [mem16]
def ADDrm32 : Im32 <"add", 0x03, MRMSrcMem >; // R32 += [mem32]
def ADDri8 : II8 <"add", 0x80, MRM0r >, Pattern<(set R8 , (plus R8 , imm))>;
def ADDri16 : II16 <"add", 0x81, MRM0r >, OpSize, Pattern<(set R16, (plus R16, imm))>;
def ADDri32 : II32 <"add", 0x81, MRM0r >, Pattern<(set R32, (plus R32, imm))>;
def ADDmi8 : I8MI <"add", 0x80, MRM0m >; // [mem8] += I8
def ADDmi16 : I16MI <"add", 0x81, MRM0m >, OpSize; // [mem16] += I16
def ADDmi32 : I32MI <"add", 0x81, MRM0m >; // [mem32] += I32
def ADDri8 : Ii8 <"add", 0x80, MRM0r >, Pattern<(set R8 , (plus R8 , imm))>;
def ADDri16 : Ii16 <"add", 0x81, MRM0r >, OpSize, Pattern<(set R16, (plus R16, imm))>;
def ADDri32 : Ii32 <"add", 0x81, MRM0r >, Pattern<(set R32, (plus R32, imm))>;
def ADDmi8 : Im8i8 <"add", 0x80, MRM0m >; // [mem8] += I8
def ADDmi16 : Im16i16 <"add", 0x81, MRM0m >, OpSize; // [mem16] += I16
def ADDmi32 : Im32i32 <"add", 0x81, MRM0m >; // [mem32] += I32
def ADDri16b : II8 <"add", 0x83, MRM0r >, OpSize; // ADDri with sign extended 8 bit imm
def ADDri32b : II8 <"add", 0x83, MRM0r >;
def ADDmi16b : IM16I8<"add", 0x83, MRM0m >, OpSize; // [mem16] += I8
def ADDmi32b : IM32I8<"add", 0x83, MRM0m >; // [mem32] += I8
def ADDri16b : Ii8 <"add", 0x83, MRM0r >, OpSize; // ADDri with sign extended 8 bit imm
def ADDri32b : Ii8 <"add", 0x83, MRM0r >;
def ADDmi16b : Im16i8<"add", 0x83, MRM0m >, OpSize; // [mem16] += I8
def ADDmi32b : Im32i8<"add", 0x83, MRM0m >; // [mem32] += I8
def ADCrr32 : I <"adc", 0x11, MRMDestReg>; // R32 += R32+Carry
def ADCrm32 : I <"adc", 0x11, MRMSrcMem >; // R32 += [mem32]+Carry
@ -481,64 +481,64 @@ def ADCmr32 : I <"adc", 0x13, MRMDestMem>; // [mem32] += R32+Carry
def SUBrr8 : I <"sub", 0x28, MRMDestReg>, Pattern<(set R8 , (minus R8 , R8 ))>;
def SUBrr16 : I <"sub", 0x29, MRMDestReg>, OpSize, Pattern<(set R16, (minus R16, R16))>;
def SUBrr32 : I <"sub", 0x29, MRMDestReg>, Pattern<(set R32, (minus R32, R32))>;
def SUBmr8 : IM8 <"sub", 0x28, MRMDestMem>; // [mem8] -= R8
def SUBmr16 : IM16 <"sub", 0x29, MRMDestMem>, OpSize; // [mem16] -= R16
def SUBmr32 : IM32 <"sub", 0x29, MRMDestMem>; // [mem32] -= R32
def SUBrm8 : IM8 <"sub", 0x2A, MRMSrcMem >; // R8 -= [mem8]
def SUBrm16 : IM16 <"sub", 0x2B, MRMSrcMem >, OpSize; // R16 -= [mem16]
def SUBrm32 : IM32 <"sub", 0x2B, MRMSrcMem >; // R32 -= [mem32]
def SUBmr8 : Im8 <"sub", 0x28, MRMDestMem>; // [mem8] -= R8
def SUBmr16 : Im16 <"sub", 0x29, MRMDestMem>, OpSize; // [mem16] -= R16
def SUBmr32 : Im32 <"sub", 0x29, MRMDestMem>; // [mem32] -= R32
def SUBrm8 : Im8 <"sub", 0x2A, MRMSrcMem >; // R8 -= [mem8]
def SUBrm16 : Im16 <"sub", 0x2B, MRMSrcMem >, OpSize; // R16 -= [mem16]
def SUBrm32 : Im32 <"sub", 0x2B, MRMSrcMem >; // R32 -= [mem32]
def SUBri8 : II8 <"sub", 0x80, MRM5r >, Pattern<(set R8 , (minus R8 , imm))>;
def SUBri16 : II16 <"sub", 0x81, MRM5r >, OpSize, Pattern<(set R16, (minus R16, imm))>;
def SUBri32 : II32 <"sub", 0x81, MRM5r >, Pattern<(set R32, (minus R32, imm))>;
def SUBmi8 : I8MI <"sub", 0x80, MRM5m >; // [mem8] -= I8
def SUBmi16 : I16MI <"sub", 0x81, MRM5m >, OpSize; // [mem16] -= I16
def SUBmi32 : I32MI <"sub", 0x81, MRM5m >; // [mem32] -= I32
def SUBri8 : Ii8 <"sub", 0x80, MRM5r >, Pattern<(set R8 , (minus R8 , imm))>;
def SUBri16 : Ii16 <"sub", 0x81, MRM5r >, OpSize, Pattern<(set R16, (minus R16, imm))>;
def SUBri32 : Ii32 <"sub", 0x81, MRM5r >, Pattern<(set R32, (minus R32, imm))>;
def SUBmi8 : Im8i8 <"sub", 0x80, MRM5m >; // [mem8] -= I8
def SUBmi16 : Im16i16 <"sub", 0x81, MRM5m >, OpSize; // [mem16] -= I16
def SUBmi32 : Im32i32 <"sub", 0x81, MRM5m >; // [mem32] -= I32
def SUBri16b : II8 <"sub", 0x83, MRM5r >, OpSize;
def SUBri32b : II8 <"sub", 0x83, MRM5r >;
def SUBmi16b : IM16I8<"sub", 0x83, MRM5m >, OpSize; // [mem16] -= I8
def SUBmi32b : IM32I8<"sub", 0x83, MRM5m >; // [mem32] -= I8
def SUBri16b : Ii8 <"sub", 0x83, MRM5r >, OpSize;
def SUBri32b : Ii8 <"sub", 0x83, MRM5r >;
def SUBmi16b : Im16i8<"sub", 0x83, MRM5m >, OpSize; // [mem16] -= I8
def SUBmi32b : Im32i8<"sub", 0x83, MRM5m >; // [mem32] -= I8
def SBBrr32 : I <"sbb", 0x19, MRMDestReg>; // R32 -= R32+Borrow
def SBBrm32 : IM32 <"sbb", 0x19, MRMSrcMem >; // R32 -= [mem32]+Borrow
def SBBmr32 : IM32 <"sbb", 0x1B, MRMDestMem>; // [mem32] -= R32+Borrow
def SBBrm32 : Im32 <"sbb", 0x19, MRMSrcMem >; // R32 -= [mem32]+Borrow
def SBBmr32 : Im32 <"sbb", 0x1B, MRMDestMem>; // [mem32] -= R32+Borrow
def IMULrr16 : I <"imul", 0xAF, MRMSrcReg>, TB, OpSize, Pattern<(set R16, (times R16, R16))>;
def IMULrr32 : I <"imul", 0xAF, MRMSrcReg>, TB , Pattern<(set R32, (times R32, R32))>;
def IMULrm16 : IM16 <"imul", 0xAF, MRMSrcMem>, TB, OpSize;
def IMULrm32 : IM32 <"imul", 0xAF, MRMSrcMem>, TB ;
def IMULrm16 : Im16 <"imul", 0xAF, MRMSrcMem>, TB, OpSize;
def IMULrm32 : Im32 <"imul", 0xAF, MRMSrcMem>, TB ;
} // end Two Address instructions
// These are suprisingly enough not two address instructions!
def IMULrri16 : II16 <"imul", 0x69, MRMSrcReg>, OpSize; // R16 = R16*I16
def IMULrri32 : II32 <"imul", 0x69, MRMSrcReg>; // R32 = R32*I32
def IMULrri16b : II8 <"imul", 0x6B, MRMSrcReg>, OpSize; // R16 = R16*I8
def IMULrri32b : II8 <"imul", 0x6B, MRMSrcReg>; // R32 = R32*I8
def IMULrmi16 : I16MI <"imul", 0x69, MRMSrcMem>, OpSize; // R16 = [mem16]*I16
def IMULrmi32 : I32MI <"imul", 0x69, MRMSrcMem>; // R32 = [mem32]*I32
def IMULrmi16b : IM16I8<"imul", 0x6B, MRMSrcMem>, OpSize; // R16 = [mem16]*I8
def IMULrmi32b : IM32I8<"imul", 0x6B, MRMSrcMem>; // R32 = [mem32]*I8
def IMULrri16 : Ii16 <"imul", 0x69, MRMSrcReg>, OpSize; // R16 = R16*I16
def IMULrri32 : Ii32 <"imul", 0x69, MRMSrcReg>; // R32 = R32*I32
def IMULrri16b : Ii8 <"imul", 0x6B, MRMSrcReg>, OpSize; // R16 = R16*I8
def IMULrri32b : Ii8 <"imul", 0x6B, MRMSrcReg>; // R32 = R32*I8
def IMULrmi16 : Im16i16 <"imul", 0x69, MRMSrcMem>, OpSize; // R16 = [mem16]*I16
def IMULrmi32 : Im32i32 <"imul", 0x69, MRMSrcMem>; // R32 = [mem32]*I32
def IMULrmi16b : Im16i8<"imul", 0x6B, MRMSrcMem>, OpSize; // R16 = [mem16]*I8
def IMULrmi32b : Im32i8<"imul", 0x6B, MRMSrcMem>; // R32 = [mem32]*I8
//===----------------------------------------------------------------------===//
// Test instructions are just like AND, except they don't generate a result.
def TESTrr8 : I <"test", 0x84, MRMDestReg>; // flags = R8 & R8
def TESTrr16 : I <"test", 0x85, MRMDestReg>, OpSize; // flags = R16 & R16
def TESTrr32 : I <"test", 0x85, MRMDestReg>; // flags = R32 & R32
def TESTmr8 : IM8 <"test", 0x84, MRMDestMem>; // flags = [mem8] & R8
def TESTmr16 : IM16 <"test", 0x85, MRMDestMem>, OpSize; // flags = [mem16] & R16
def TESTmr32 : IM32 <"test", 0x85, MRMDestMem>; // flags = [mem32] & R32
def TESTrm8 : IM8 <"test", 0x84, MRMSrcMem >; // flags = R8 & [mem8]
def TESTrm16 : IM16 <"test", 0x85, MRMSrcMem >, OpSize; // flags = R16 & [mem16]
def TESTrm32 : IM32 <"test", 0x85, MRMSrcMem >; // flags = R32 & [mem32]
def TESTmr8 : Im8 <"test", 0x84, MRMDestMem>; // flags = [mem8] & R8
def TESTmr16 : Im16 <"test", 0x85, MRMDestMem>, OpSize; // flags = [mem16] & R16
def TESTmr32 : Im32 <"test", 0x85, MRMDestMem>; // flags = [mem32] & R32
def TESTrm8 : Im8 <"test", 0x84, MRMSrcMem >; // flags = R8 & [mem8]
def TESTrm16 : Im16 <"test", 0x85, MRMSrcMem >, OpSize; // flags = R16 & [mem16]
def TESTrm32 : Im32 <"test", 0x85, MRMSrcMem >; // flags = R32 & [mem32]
def TESTri8 : II8 <"test", 0xF6, MRM0r >; // flags = R8 & imm8
def TESTri16 : II16 <"test", 0xF7, MRM0r >, OpSize; // flags = R16 & imm16
def TESTri32 : II32 <"test", 0xF7, MRM0r >; // flags = R32 & imm32
def TESTmi8 : I8MI <"test", 0xF6, MRM0m >; // flags = [mem8] & imm8
def TESTmi16 : I16MI<"test", 0xF7, MRM0m >, OpSize; // flags = [mem16] & imm16
def TESTmi32 : I32MI<"test", 0xF7, MRM0m >; // flags = [mem32] & imm32
def TESTri8 : Ii8 <"test", 0xF6, MRM0r >; // flags = R8 & imm8
def TESTri16 : Ii16 <"test", 0xF7, MRM0r >, OpSize; // flags = R16 & imm16
def TESTri32 : Ii32 <"test", 0xF7, MRM0r >; // flags = R32 & imm32
def TESTmi8 : Im8i8 <"test", 0xF6, MRM0m >; // flags = [mem8] & imm8
def TESTmi16 : Im16i16<"test", 0xF7, MRM0m >, OpSize; // flags = [mem16] & imm16
def TESTmi32 : Im32i32<"test", 0xF7, MRM0m >; // flags = [mem32] & imm32
@ -546,62 +546,62 @@ def TESTmi32 : I32MI<"test", 0xF7, MRM0m >; // flags = [mem32] & im
def SAHF : I <"sahf" , 0x9E, RawFrm>, Imp<[AH],[]>; // flags = AH
def SETBr : I <"setb" , 0x92, MRM0r>, TB; // R8 = < unsign
def SETBm : IM8<"setb" , 0x92, MRM0m>, TB; // [mem8] = < unsign
def SETBm : Im8<"setb" , 0x92, MRM0m>, TB; // [mem8] = < unsign
def SETAEr : I <"setae", 0x93, MRM0r>, TB; // R8 = >= unsign
def SETAEm : IM8<"setae", 0x93, MRM0m>, TB; // [mem8] = >= unsign
def SETAEm : Im8<"setae", 0x93, MRM0m>, TB; // [mem8] = >= unsign
def SETEr : I <"sete" , 0x94, MRM0r>, TB; // R8 = ==
def SETEm : IM8<"sete" , 0x94, MRM0m>, TB; // [mem8] = ==
def SETEm : Im8<"sete" , 0x94, MRM0m>, TB; // [mem8] = ==
def SETNEr : I <"setne", 0x95, MRM0r>, TB; // R8 = !=
def SETNEm : IM8<"setne", 0x95, MRM0m>, TB; // [mem8] = !=
def SETNEm : Im8<"setne", 0x95, MRM0m>, TB; // [mem8] = !=
def SETBEr : I <"setbe", 0x96, MRM0r>, TB; // R8 = <= unsign
def SETBEm : IM8<"setbe", 0x96, MRM0m>, TB; // [mem8] = <= unsign
def SETBEm : Im8<"setbe", 0x96, MRM0m>, TB; // [mem8] = <= unsign
def SETAr : I <"seta" , 0x97, MRM0r>, TB; // R8 = > signed
def SETAm : IM8<"seta" , 0x97, MRM0m>, TB; // [mem8] = > signed
def SETAm : Im8<"seta" , 0x97, MRM0m>, TB; // [mem8] = > signed
def SETSr : I <"sets" , 0x98, MRM0r>, TB; // R8 = <sign bit>
def SETSm : IM8<"sets" , 0x98, MRM0m>, TB; // [mem8] = <sign bit>
def SETSm : Im8<"sets" , 0x98, MRM0m>, TB; // [mem8] = <sign bit>
def SETNSr : I <"setns", 0x99, MRM0r>, TB; // R8 = !<sign bit>
def SETNSm : IM8<"setns", 0x99, MRM0m>, TB; // [mem8] = !<sign bit>
def SETNSm : Im8<"setns", 0x99, MRM0m>, TB; // [mem8] = !<sign bit>
def SETLr : I <"setl" , 0x9C, MRM0r>, TB; // R8 = < signed
def SETLm : IM8<"setl" , 0x9C, MRM0m>, TB; // [mem8] = < signed
def SETLm : Im8<"setl" , 0x9C, MRM0m>, TB; // [mem8] = < signed
def SETGEr : I <"setge", 0x9D, MRM0r>, TB; // R8 = >= signed
def SETGEm : IM8<"setge", 0x9D, MRM0m>, TB; // [mem8] = >= signed
def SETGEm : Im8<"setge", 0x9D, MRM0m>, TB; // [mem8] = >= signed
def SETLEr : I <"setle", 0x9E, MRM0r>, TB; // R8 = <= signed
def SETLEm : IM8<"setle", 0x9E, MRM0m>, TB; // [mem8] = <= signed
def SETLEm : Im8<"setle", 0x9E, MRM0m>, TB; // [mem8] = <= signed
def SETGr : I <"setg" , 0x9F, MRM0r>, TB; // R8 = < signed
def SETGm : IM8<"setg" , 0x9F, MRM0m>, TB; // [mem8] = < signed
def SETGm : Im8<"setg" , 0x9F, MRM0m>, TB; // [mem8] = < signed
// Integer comparisons
def CMPrr8 : I <"cmp", 0x38, MRMDestReg>; // compare R8, R8
def CMPrr16 : I <"cmp", 0x39, MRMDestReg>, OpSize; // compare R16, R16
def CMPrr32 : I <"cmp", 0x39, MRMDestReg>, // compare R32, R32
Pattern<(isVoid (unspec2 R32, R32))>;
def CMPmr8 : IM8 <"cmp", 0x38, MRMDestMem>; // compare [mem8], R8
def CMPmr16 : IM16 <"cmp", 0x39, MRMDestMem>, OpSize; // compare [mem16], R16
def CMPmr32 : IM32 <"cmp", 0x39, MRMDestMem>; // compare [mem32], R32
def CMPrm8 : IM8 <"cmp", 0x3A, MRMSrcMem >; // compare R8, [mem8]
def CMPrm16 : IM16 <"cmp", 0x3B, MRMSrcMem >, OpSize; // compare R16, [mem16]
def CMPrm32 : IM32 <"cmp", 0x3B, MRMSrcMem >; // compare R32, [mem32]
def CMPri8 : II8 <"cmp", 0x80, MRM7r >; // compare R8, imm8
def CMPri16 : II16 <"cmp", 0x81, MRM7r >, OpSize; // compare R16, imm16
def CMPri32 : II32 <"cmp", 0x81, MRM7r >; // compare R32, imm32
def CMPmi8 : I8MI <"cmp", 0x80, MRM7m >; // compare [mem8], imm8
def CMPmi16 : I16MI<"cmp", 0x81, MRM7m >, OpSize; // compare [mem16], imm16
def CMPmi32 : I32MI<"cmp", 0x81, MRM7m >; // compare [mem32], imm32
def CMPmr8 : Im8 <"cmp", 0x38, MRMDestMem>; // compare [mem8], R8
def CMPmr16 : Im16 <"cmp", 0x39, MRMDestMem>, OpSize; // compare [mem16], R16
def CMPmr32 : Im32 <"cmp", 0x39, MRMDestMem>; // compare [mem32], R32
def CMPrm8 : Im8 <"cmp", 0x3A, MRMSrcMem >; // compare R8, [mem8]
def CMPrm16 : Im16 <"cmp", 0x3B, MRMSrcMem >, OpSize; // compare R16, [mem16]
def CMPrm32 : Im32 <"cmp", 0x3B, MRMSrcMem >; // compare R32, [mem32]
def CMPri8 : Ii8 <"cmp", 0x80, MRM7r >; // compare R8, imm8
def CMPri16 : Ii16 <"cmp", 0x81, MRM7r >, OpSize; // compare R16, imm16
def CMPri32 : Ii32 <"cmp", 0x81, MRM7r >; // compare R32, imm32
def CMPmi8 : Im8i8 <"cmp", 0x80, MRM7m >; // compare [mem8], imm8
def CMPmi16 : Im16i16<"cmp", 0x81, MRM7m >, OpSize; // compare [mem16], imm16
def CMPmi32 : Im32i32<"cmp", 0x81, MRM7m >; // compare [mem32], imm32
// Sign/Zero extenders
def MOVSXr16r8 : I <"movsx", 0xBE, MRMSrcReg>, TB, OpSize; // R16 = signext(R8)
def MOVSXr32r8 : I <"movsx", 0xBE, MRMSrcReg>, TB; // R32 = signext(R8)
def MOVSXr32r16: I <"movsx", 0xBF, MRMSrcReg>, TB; // R32 = signext(R16)
def MOVSXr16m8 : IM8 <"movsx", 0xBE, MRMSrcMem>, TB, OpSize; // R16 = signext([mem8])
def MOVSXr32m8 : IM8 <"movsx", 0xBE, MRMSrcMem>, TB; // R32 = signext([mem8])
def MOVSXr32m16: IM16<"movsx", 0xBF, MRMSrcMem>, TB; // R32 = signext([mem16])
def MOVSXr16m8 : Im8 <"movsx", 0xBE, MRMSrcMem>, TB, OpSize; // R16 = signext([mem8])
def MOVSXr32m8 : Im8 <"movsx", 0xBE, MRMSrcMem>, TB; // R32 = signext([mem8])
def MOVSXr32m16: Im16<"movsx", 0xBF, MRMSrcMem>, TB; // R32 = signext([mem16])
def MOVZXr16r8 : I <"movzx", 0xB6, MRMSrcReg>, TB, OpSize; // R16 = zeroext(R8)
def MOVZXr32r8 : I <"movzx", 0xB6, MRMSrcReg>, TB; // R32 = zeroext(R8)
def MOVZXr32r16: I <"movzx", 0xB7, MRMSrcReg>, TB; // R32 = zeroext(R16)
def MOVZXr16m8 : IM8 <"movzx", 0xB6, MRMSrcMem>, TB, OpSize; // R16 = zeroext([mem8])
def MOVZXr32m8 : IM8 <"movzx", 0xB6, MRMSrcMem>, TB; // R32 = zeroext([mem8])
def MOVZXr32m16: IM16<"movzx", 0xB7, MRMSrcMem>, TB; // R32 = zeroext([mem16])
def MOVZXr16m8 : Im8 <"movzx", 0xB6, MRMSrcMem>, TB, OpSize; // R16 = zeroext([mem8])
def MOVZXr32m8 : Im8 <"movzx", 0xB6, MRMSrcMem>, TB; // R32 = zeroext([mem8])
def MOVZXr32m16: Im16<"movzx", 0xB7, MRMSrcMem>, TB; // R32 = zeroext([mem16])
//===----------------------------------------------------------------------===//
@ -618,10 +618,10 @@ class FPI<string n, bits<8> o, Format F, FPFormat fp> : FPInst<n, o, F, fp, NoMe
class FPIM<string n, bits<8> o, Format F, FPFormat fp, MemType m> : FPInst<n, o, F, fp, m, NoImm>;
class FPIM16<string n, bits<8> o, Format F, FPFormat fp> : FPIM<n, o, F, fp, Mem16>;
class FPIM32<string n, bits<8> o, Format F, FPFormat fp> : FPIM<n, o, F, fp, Mem32>;
class FPIM64<string n, bits<8> o, Format F, FPFormat fp> : FPIM<n, o, F, fp, Mem64>;
class FPIM80<string n, bits<8> o, Format F, FPFormat fp> : FPIM<n, o, F, fp, Mem80>;
class FPIm16<string n, bits<8> o, Format F, FPFormat fp> : FPIM<n, o, F, fp, Mem16>;
class FPIm32<string n, bits<8> o, Format F, FPFormat fp> : FPIM<n, o, F, fp, Mem32>;
class FPIm64<string n, bits<8> o, Format F, FPFormat fp> : FPIM<n, o, F, fp, Mem64>;
class FPIm80<string n, bits<8> o, Format F, FPFormat fp> : FPIM<n, o, F, fp, Mem80>;
// Pseudo instructions for floating point. We use these pseudo instructions
// because they can be expanded by the fp spackifier into one of many different
@ -639,26 +639,26 @@ def FpSETRESULT : FPI<"FSETRESULT",0, Pseudo, SpecialFP>; // ST(0) = FPR
// Floating point loads & stores...
def FLDrr : FPI <"fld" , 0xC0, AddRegFrm, NotFP>, D9; // push(ST(i))
def FLDr32 : FPIM32 <"fld" , 0xD9, MRM0m , ZeroArgFP>; // load float
def FLDr64 : FPIM64 <"fld" , 0xDD, MRM0m , ZeroArgFP>; // load double
def FLDr80 : FPIM80 <"fld" , 0xDB, MRM5m , ZeroArgFP>; // load extended
def FILDr16 : FPIM16 <"fild" , 0xDF, MRM0m , ZeroArgFP>; // load signed short
def FILDr32 : FPIM32 <"fild" , 0xDB, MRM0m , ZeroArgFP>; // load signed int
def FILDr64 : FPIM64 <"fild" , 0xDF, MRM5m , ZeroArgFP>; // load signed long
def FLDr32 : FPIm32 <"fld" , 0xD9, MRM0m , ZeroArgFP>; // load float
def FLDr64 : FPIm64 <"fld" , 0xDD, MRM0m , ZeroArgFP>; // load double
def FLDr80 : FPIm80 <"fld" , 0xDB, MRM5m , ZeroArgFP>; // load extended
def FILDr16 : FPIm16 <"fild" , 0xDF, MRM0m , ZeroArgFP>; // load signed short
def FILDr32 : FPIm32 <"fild" , 0xDB, MRM0m , ZeroArgFP>; // load signed int
def FILDr64 : FPIm64 <"fild" , 0xDF, MRM5m , ZeroArgFP>; // load signed long
def FSTrr : FPI <"fst" , 0xD0, AddRegFrm, NotFP >, DD; // ST(i) = ST(0)
def FSTPrr : FPI <"fstp", 0xD8, AddRegFrm, NotFP >, DD; // ST(i) = ST(0), pop
def FSTr32 : FPIM32 <"fst" , 0xD9, MRM2m , OneArgFP>; // store float
def FSTr64 : FPIM64 <"fst" , 0xDD, MRM2m , OneArgFP>; // store double
def FSTPr32 : FPIM32 <"fstp", 0xD9, MRM3m , OneArgFP>; // store float, pop
def FSTPr64 : FPIM64 <"fstp", 0xDD, MRM3m , OneArgFP>; // store double, pop
def FSTPr80 : FPIM80 <"fstp", 0xDB, MRM7m , OneArgFP>; // store extended, pop
def FSTr32 : FPIm32 <"fst" , 0xD9, MRM2m , OneArgFP>; // store float
def FSTr64 : FPIm64 <"fst" , 0xDD, MRM2m , OneArgFP>; // store double
def FSTPr32 : FPIm32 <"fstp", 0xD9, MRM3m , OneArgFP>; // store float, pop
def FSTPr64 : FPIm64 <"fstp", 0xDD, MRM3m , OneArgFP>; // store double, pop
def FSTPr80 : FPIm80 <"fstp", 0xDB, MRM7m , OneArgFP>; // store extended, pop
def FISTr16 : FPIM16 <"fist", 0xDF, MRM2m , OneArgFP>; // store signed short
def FISTr32 : FPIM32 <"fist", 0xDB, MRM2m , OneArgFP>; // store signed int
def FISTPr16 : FPIM16 <"fistp", 0xDF, MRM3m , NotFP >; // store signed short, pop
def FISTPr32 : FPIM32 <"fistp", 0xDB, MRM3m , NotFP >; // store signed int, pop
def FISTPr64 : FPIM64 <"fistpll", 0xDF, MRM7m , OneArgFP>; // store signed long, pop
def FISTr16 : FPIm16 <"fist", 0xDF, MRM2m , OneArgFP>; // store signed short
def FISTr32 : FPIm32 <"fist", 0xDB, MRM2m , OneArgFP>; // store signed int
def FISTPr16 : FPIm16 <"fistp", 0xDF, MRM3m , NotFP >; // store signed short, pop
def FISTPr32 : FPIm32 <"fistp", 0xDB, MRM3m , NotFP >; // store signed int, pop
def FISTPr64 : FPIm64 <"fistpll", 0xDF, MRM7m , OneArgFP>; // store signed long, pop
def FXCH : FPI <"fxch", 0xC8, AddRegFrm, NotFP>, D9; // fxch ST(i), ST(0)
@ -716,8 +716,8 @@ def FUCOMPPr : I<"fucompp", 0xE9, RawFrm >, DA, Imp<[ST0],[]>; // compare ST
// Floating point flag ops
def FNSTSWr8 : I <"fnstsw" , 0xE0, RawFrm>, DF, Imp<[],[AX]>; // AX = fp flags
def FNSTCWm16 : IM16<"fnstcw" , 0xD9, MRM7m >; // [mem16] = X87 control world
def FLDCWm16 : IM16<"fldcw" , 0xD9, MRM5m >; // X87 control world = [mem16]
def FNSTCWm16 : Im16<"fnstcw" , 0xD9, MRM7m >; // [mem16] = X87 control world
def FLDCWm16 : Im16<"fldcw" , 0xD9, MRM5m >; // X87 control world = [mem16]
//===----------------------------------------------------------------------===//