//===----------------------------------------------------------------------===//
// LEA - Load Effective Address
let SchedRW = [WriteLEA] in {
-let neverHasSideEffects = 1 in
+let hasSideEffects = 0 in
def LEA16r : I<0x8D, MRMSrcMem,
(outs GR16:$dst), (ins i32mem:$src),
"lea{w}\t{$src|$dst}, {$dst|$src}", [], IIC_LEA_16>, OpSize16;
[(set AL, (mul AL, GR8:$src)),
(implicit EFLAGS)], IIC_MUL8>, Sched<[WriteIMul]>;
// AX,DX = AX*GR16
-let Defs = [AX,DX,EFLAGS], Uses = [AX], neverHasSideEffects = 1 in
+let Defs = [AX,DX,EFLAGS], Uses = [AX], hasSideEffects = 0 in
def MUL16r : I<0xF7, MRM4r, (outs), (ins GR16:$src),
"mul{w}\t$src",
[], IIC_MUL16_REG>, OpSize16, Sched<[WriteIMul]>;
// EAX,EDX = EAX*GR32
-let Defs = [EAX,EDX,EFLAGS], Uses = [EAX], neverHasSideEffects = 1 in
+let Defs = [EAX,EDX,EFLAGS], Uses = [EAX], hasSideEffects = 0 in
def MUL32r : I<0xF7, MRM4r, (outs), (ins GR32:$src),
"mul{l}\t$src",
[/*(set EAX, EDX, EFLAGS, (X86umul_flag EAX, GR32:$src))*/],
IIC_MUL32_REG>, OpSize32, Sched<[WriteIMul]>;
// RAX,RDX = RAX*GR64
-let Defs = [RAX,RDX,EFLAGS], Uses = [RAX], neverHasSideEffects = 1 in
+let Defs = [RAX,RDX,EFLAGS], Uses = [RAX], hasSideEffects = 0 in
def MUL64r : RI<0xF7, MRM4r, (outs), (ins GR64:$src),
"mul{q}\t$src",
[/*(set RAX, RDX, EFLAGS, (X86umul_flag RAX, GR64:$src))*/],
[(set AL, (mul AL, (loadi8 addr:$src))),
(implicit EFLAGS)], IIC_MUL8>, SchedLoadReg<WriteIMulLd>;
// AX,DX = AX*[mem16]
-let mayLoad = 1, neverHasSideEffects = 1 in {
+let mayLoad = 1, hasSideEffects = 0 in {
let Defs = [AX,DX,EFLAGS], Uses = [AX] in
def MUL16m : I<0xF7, MRM4m, (outs), (ins i16mem:$src),
"mul{w}\t$src",
"mul{q}\t$src", [], IIC_MUL64>, SchedLoadReg<WriteIMulLd>;
}
-let neverHasSideEffects = 1 in {
+let hasSideEffects = 0 in {
// AL,AH = AL*GR8
let Defs = [AL,EFLAGS,AX], Uses = [AL] in
def IMUL8r : I<0xF6, MRM5r, (outs), (ins GR8:$src), "imul{b}\t$src", [],
def IMUL64m : RI<0xF7, MRM5m, (outs), (ins i64mem:$src),
"imul{q}\t$src", [], IIC_IMUL64>, SchedLoadReg<WriteIMulLd>;
}
-} // neverHasSideEffects
+} // hasSideEffects
let Defs = [EFLAGS] in {
mnemonic, "{$src2, $src1|$src1, $src2}", pattern, itin>,
Sched<[WriteALU]>;
-// BinOpRR_R - Instructions like "add reg, reg, reg", where the pattern has
-// just a regclass (no eflags) as a result.
-class BinOpRR_R<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
- SDNode opnode>
- : BinOpRR<opcode, mnemonic, typeinfo, (outs typeinfo.RegClass:$dst),
- [(set typeinfo.RegClass:$dst,
- (opnode typeinfo.RegClass:$src1, typeinfo.RegClass:$src2))],
- IIC_BIN_NONMEM>;
-
// BinOpRR_F - Instructions like "cmp reg, Reg", where the pattern has
// just a EFLAGS as a result.
class BinOpRR_F<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
let ImmT = typeinfo.ImmEncoding;
}
-// BinOpRI_R - Instructions like "add reg, reg, imm".
-class BinOpRI_R<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
- SDNode opnode, Format f>
- : BinOpRI<opcode, mnemonic, typeinfo, f, (outs typeinfo.RegClass:$dst),
- [(set typeinfo.RegClass:$dst,
- (opnode typeinfo.RegClass:$src1, typeinfo.ImmOperator:$src2))]>;
-
// BinOpRI_F - Instructions like "cmp reg, imm".
class BinOpRI_F<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
SDPatternOperator opnode, Format f>
let ImmT = Imm8; // Always 8-bit immediate.
}
-// BinOpRI8_R - Instructions like "add reg, reg, imm8".
-class BinOpRI8_R<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
- SDNode opnode, Format f>
- : BinOpRI8<opcode, mnemonic, typeinfo, f, (outs typeinfo.RegClass:$dst),
- [(set typeinfo.RegClass:$dst,
- (opnode typeinfo.RegClass:$src1, typeinfo.Imm8Operator:$src2))]>;
-
// BinOpRI8_F - Instructions like "cmp reg, imm8".
class BinOpRI8_F<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
- SDNode opnode, Format f>
+ SDPatternOperator opnode, Format f>
: BinOpRI8<opcode, mnemonic, typeinfo, f, (outs),
[(set EFLAGS,
(opnode typeinfo.RegClass:$src1, typeinfo.Imm8Operator:$src2))]>;
// BinOpRI8_RF - Instructions like "add reg, reg, imm8".
class BinOpRI8_RF<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
- SDNode opnode, Format f>
+ SDPatternOperator opnode, Format f>
: BinOpRI8<opcode, mnemonic, typeinfo, f, (outs typeinfo.RegClass:$dst),
[(set typeinfo.RegClass:$dst, EFLAGS,
(opnode typeinfo.RegClass:$src1, typeinfo.Imm8Operator:$src2))]>;
// BinOpRI8_RFF - Instructions like "adc reg, reg, imm8".
class BinOpRI8_RFF<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
- SDNode opnode, Format f>
+ SDPatternOperator opnode, Format f>
: BinOpRI8<opcode, mnemonic, typeinfo, f, (outs typeinfo.RegClass:$dst),
[(set typeinfo.RegClass:$dst, EFLAGS,
(opnode typeinfo.RegClass:$src1, typeinfo.Imm8Operator:$src2,
[(set EFLAGS, (opnode (load addr:$dst), typeinfo.RegClass:$src))]>;
// BinOpMI - Instructions like "add [mem], imm".
-class BinOpMI<string mnemonic, X86TypeInfo typeinfo,
- Format f, list<dag> pattern, bits<8> opcode = 0x80,
+class BinOpMI<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
+ Format f, list<dag> pattern,
InstrItinClass itin = IIC_BIN_MEM>
: ITy<opcode, f, typeinfo,
(outs), (ins typeinfo.MemOperand:$dst, typeinfo.ImmOperand:$src),
}
// BinOpMI_RMW - Instructions like "add [mem], imm".
-class BinOpMI_RMW<string mnemonic, X86TypeInfo typeinfo,
+class BinOpMI_RMW<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
SDNode opnode, Format f>
- : BinOpMI<mnemonic, typeinfo, f,
+ : BinOpMI<opcode, mnemonic, typeinfo, f,
[(store (opnode (typeinfo.VT (load addr:$dst)),
typeinfo.ImmOperator:$src), addr:$dst),
(implicit EFLAGS)]>;
// BinOpMI_RMW_FF - Instructions like "adc [mem], imm".
-class BinOpMI_RMW_FF<string mnemonic, X86TypeInfo typeinfo,
- SDNode opnode, Format f>
- : BinOpMI<mnemonic, typeinfo, f,
+class BinOpMI_RMW_FF<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
+ SDNode opnode, Format f>
+ : BinOpMI<opcode, mnemonic, typeinfo, f,
[(store (opnode (typeinfo.VT (load addr:$dst)),
typeinfo.ImmOperator:$src, EFLAGS), addr:$dst),
- (implicit EFLAGS)], 0x80, IIC_BIN_CARRY_MEM>;
+ (implicit EFLAGS)], IIC_BIN_CARRY_MEM>;
// BinOpMI_F - Instructions like "cmp [mem], imm".
-class BinOpMI_F<string mnemonic, X86TypeInfo typeinfo,
- SDPatternOperator opnode, Format f, bits<8> opcode = 0x80>
- : BinOpMI<mnemonic, typeinfo, f,
+class BinOpMI_F<bits<8> opcode, string mnemonic, X86TypeInfo typeinfo,
+ SDPatternOperator opnode, Format f>
+ : BinOpMI<opcode, mnemonic, typeinfo, f,
[(set EFLAGS, (opnode (typeinfo.VT (load addr:$dst)),
- typeinfo.ImmOperator:$src))],
- opcode>;
+ typeinfo.ImmOperator:$src))]>;
// BinOpMI8 - Instructions like "add [mem], imm8".
class BinOpMI8<string mnemonic, X86TypeInfo typeinfo,
// BinOpMI8_RMW - Instructions like "add [mem], imm8".
class BinOpMI8_RMW<string mnemonic, X86TypeInfo typeinfo,
- SDNode opnode, Format f>
+ SDPatternOperator opnode, Format f>
: BinOpMI8<mnemonic, typeinfo, f,
[(store (opnode (load addr:$dst),
typeinfo.Imm8Operator:$src), addr:$dst),
// BinOpMI8_RMW_FF - Instructions like "adc [mem], imm8".
class BinOpMI8_RMW_FF<string mnemonic, X86TypeInfo typeinfo,
- SDNode opnode, Format f>
+ SDPatternOperator opnode, Format f>
: BinOpMI8<mnemonic, typeinfo, f,
[(store (opnode (load addr:$dst),
typeinfo.Imm8Operator:$src, EFLAGS), addr:$dst),
// BinOpMI8_F - Instructions like "cmp [mem], imm8".
class BinOpMI8_F<string mnemonic, X86TypeInfo typeinfo,
- SDNode opnode, Format f>
+ SDPatternOperator opnode, Format f>
: BinOpMI8<mnemonic, typeinfo, f,
[(set EFLAGS, (opnode (load addr:$dst),
typeinfo.Imm8Operator:$src))]>;
bit CommutableRR, bit ConvertibleToThreeAddress> {
let Defs = [EFLAGS] in {
let Constraints = "$src1 = $dst" in {
- let isCommutable = CommutableRR,
- isConvertibleToThreeAddress = ConvertibleToThreeAddress in {
+ let isCommutable = CommutableRR in {
def NAME#8rr : BinOpRR_RF<BaseOpc, mnemonic, Xi8 , opnodeflag>;
- def NAME#16rr : BinOpRR_RF<BaseOpc, mnemonic, Xi16, opnodeflag>;
- def NAME#32rr : BinOpRR_RF<BaseOpc, mnemonic, Xi32, opnodeflag>;
- def NAME#64rr : BinOpRR_RF<BaseOpc, mnemonic, Xi64, opnodeflag>;
+ let isConvertibleToThreeAddress = ConvertibleToThreeAddress in {
+ def NAME#16rr : BinOpRR_RF<BaseOpc, mnemonic, Xi16, opnodeflag>;
+ def NAME#32rr : BinOpRR_RF<BaseOpc, mnemonic, Xi32, opnodeflag>;
+ def NAME#64rr : BinOpRR_RF<BaseOpc, mnemonic, Xi64, opnodeflag>;
+ } // isConvertibleToThreeAddress
} // isCommutable
def NAME#8rr_REV : BinOpRR_Rev<BaseOpc2, mnemonic, Xi8>;
def NAME#32rm : BinOpRM_RF<BaseOpc2, mnemonic, Xi32, opnodeflag>;
def NAME#64rm : BinOpRM_RF<BaseOpc2, mnemonic, Xi64, opnodeflag>;
+ def NAME#8ri : BinOpRI_RF<0x80, mnemonic, Xi8 , opnodeflag, RegMRM>;
+
let isConvertibleToThreeAddress = ConvertibleToThreeAddress in {
// NOTE: These are order specific, we want the ri8 forms to be listed
// first so that they are slightly preferred to the ri forms.
def NAME#32ri8 : BinOpRI8_RF<0x82, mnemonic, Xi32, opnodeflag, RegMRM>;
def NAME#64ri8 : BinOpRI8_RF<0x82, mnemonic, Xi64, opnodeflag, RegMRM>;
- def NAME#8ri : BinOpRI_RF<0x80, mnemonic, Xi8 , opnodeflag, RegMRM>;
def NAME#16ri : BinOpRI_RF<0x80, mnemonic, Xi16, opnodeflag, RegMRM>;
def NAME#32ri : BinOpRI_RF<0x80, mnemonic, Xi32, opnodeflag, RegMRM>;
def NAME#64ri32: BinOpRI_RF<0x80, mnemonic, Xi64, opnodeflag, RegMRM>;
def NAME#32mi8 : BinOpMI8_RMW<mnemonic, Xi32, opnode, MemMRM>;
def NAME#64mi8 : BinOpMI8_RMW<mnemonic, Xi64, opnode, MemMRM>;
- def NAME#8mi : BinOpMI_RMW<mnemonic, Xi8 , opnode, MemMRM>;
- def NAME#16mi : BinOpMI_RMW<mnemonic, Xi16, opnode, MemMRM>;
- def NAME#32mi : BinOpMI_RMW<mnemonic, Xi32, opnode, MemMRM>;
- def NAME#64mi32 : BinOpMI_RMW<mnemonic, Xi64, opnode, MemMRM>;
+ def NAME#8mi : BinOpMI_RMW<0x80, mnemonic, Xi8 , opnode, MemMRM>;
+ def NAME#16mi : BinOpMI_RMW<0x80, mnemonic, Xi16, opnode, MemMRM>;
+ def NAME#32mi : BinOpMI_RMW<0x80, mnemonic, Xi32, opnode, MemMRM>;
+ def NAME#64mi32 : BinOpMI_RMW<0x80, mnemonic, Xi64, opnode, MemMRM>;
+
+ // These are for the disassembler since 0x82 opcode behaves like 0x80, but
+ // not in 64-bit mode.
+ let Predicates = [Not64BitMode], isCodeGenOnly = 1, ForceDisassemble = 1,
+ hasSideEffects = 0 in {
+ let Constraints = "$src1 = $dst" in
+ def NAME#8ri8 : BinOpRI8_RF<0x82, mnemonic, Xi8, null_frag, RegMRM>;
+ let mayLoad = 1, mayStore = 1 in
+ def NAME#8mi8 : BinOpMI8_RMW<mnemonic, Xi8, null_frag, MemMRM>;
+ }
} // Defs = [EFLAGS]
def NAME#8i8 : BinOpAI<BaseOpc4, mnemonic, Xi8 , AL,
bit ConvertibleToThreeAddress> {
let Uses = [EFLAGS], Defs = [EFLAGS] in {
let Constraints = "$src1 = $dst" in {
- let isCommutable = CommutableRR,
- isConvertibleToThreeAddress = ConvertibleToThreeAddress in {
+ let isCommutable = CommutableRR in {
def NAME#8rr : BinOpRR_RFF<BaseOpc, mnemonic, Xi8 , opnode>;
- def NAME#16rr : BinOpRR_RFF<BaseOpc, mnemonic, Xi16, opnode>;
- def NAME#32rr : BinOpRR_RFF<BaseOpc, mnemonic, Xi32, opnode>;
- def NAME#64rr : BinOpRR_RFF<BaseOpc, mnemonic, Xi64, opnode>;
+ let isConvertibleToThreeAddress = ConvertibleToThreeAddress in {
+ def NAME#16rr : BinOpRR_RFF<BaseOpc, mnemonic, Xi16, opnode>;
+ def NAME#32rr : BinOpRR_RFF<BaseOpc, mnemonic, Xi32, opnode>;
+ def NAME#64rr : BinOpRR_RFF<BaseOpc, mnemonic, Xi64, opnode>;
+ } // isConvertibleToThreeAddress
} // isCommutable
def NAME#8rr_REV : BinOpRR_RFF_Rev<BaseOpc2, mnemonic, Xi8>;
def NAME#32rm : BinOpRM_RFF<BaseOpc2, mnemonic, Xi32, opnode>;
def NAME#64rm : BinOpRM_RFF<BaseOpc2, mnemonic, Xi64, opnode>;
+ def NAME#8ri : BinOpRI_RFF<0x80, mnemonic, Xi8 , opnode, RegMRM>;
+
let isConvertibleToThreeAddress = ConvertibleToThreeAddress in {
// NOTE: These are order specific, we want the ri8 forms to be listed
// first so that they are slightly preferred to the ri forms.
def NAME#32ri8 : BinOpRI8_RFF<0x82, mnemonic, Xi32, opnode, RegMRM>;
def NAME#64ri8 : BinOpRI8_RFF<0x82, mnemonic, Xi64, opnode, RegMRM>;
- def NAME#8ri : BinOpRI_RFF<0x80, mnemonic, Xi8 , opnode, RegMRM>;
def NAME#16ri : BinOpRI_RFF<0x80, mnemonic, Xi16, opnode, RegMRM>;
def NAME#32ri : BinOpRI_RFF<0x80, mnemonic, Xi32, opnode, RegMRM>;
def NAME#64ri32: BinOpRI_RFF<0x80, mnemonic, Xi64, opnode, RegMRM>;
def NAME#32mi8 : BinOpMI8_RMW_FF<mnemonic, Xi32, opnode, MemMRM>;
def NAME#64mi8 : BinOpMI8_RMW_FF<mnemonic, Xi64, opnode, MemMRM>;
- def NAME#8mi : BinOpMI_RMW_FF<mnemonic, Xi8 , opnode, MemMRM>;
- def NAME#16mi : BinOpMI_RMW_FF<mnemonic, Xi16, opnode, MemMRM>;
- def NAME#32mi : BinOpMI_RMW_FF<mnemonic, Xi32, opnode, MemMRM>;
- def NAME#64mi32 : BinOpMI_RMW_FF<mnemonic, Xi64, opnode, MemMRM>;
+ def NAME#8mi : BinOpMI_RMW_FF<0x80, mnemonic, Xi8 , opnode, MemMRM>;
+ def NAME#16mi : BinOpMI_RMW_FF<0x80, mnemonic, Xi16, opnode, MemMRM>;
+ def NAME#32mi : BinOpMI_RMW_FF<0x80, mnemonic, Xi32, opnode, MemMRM>;
+ def NAME#64mi32 : BinOpMI_RMW_FF<0x80, mnemonic, Xi64, opnode, MemMRM>;
+
+ // These are for the disassembler since 0x82 opcode behaves like 0x80, but
+ // not in 64-bit mode.
+ let Predicates = [Not64BitMode], isCodeGenOnly = 1, ForceDisassemble = 1,
+ hasSideEffects = 0 in {
+ let Constraints = "$src1 = $dst" in
+ def NAME#8ri8 : BinOpRI8_RFF<0x82, mnemonic, Xi8, null_frag, RegMRM>;
+ let mayLoad = 1, mayStore = 1 in
+ def NAME#8mi8 : BinOpMI8_RMW_FF<mnemonic, Xi8, null_frag, MemMRM>;
+ }
} // Uses = [EFLAGS], Defs = [EFLAGS]
def NAME#8i8 : BinOpAI_FF<BaseOpc4, mnemonic, Xi8 , AL,
SDNode opnode,
bit CommutableRR, bit ConvertibleToThreeAddress> {
let Defs = [EFLAGS] in {
- let isCommutable = CommutableRR,
- isConvertibleToThreeAddress = ConvertibleToThreeAddress in {
+ let isCommutable = CommutableRR in {
def NAME#8rr : BinOpRR_F<BaseOpc, mnemonic, Xi8 , opnode>;
- def NAME#16rr : BinOpRR_F<BaseOpc, mnemonic, Xi16, opnode>;
- def NAME#32rr : BinOpRR_F<BaseOpc, mnemonic, Xi32, opnode>;
- def NAME#64rr : BinOpRR_F<BaseOpc, mnemonic, Xi64, opnode>;
+ let isConvertibleToThreeAddress = ConvertibleToThreeAddress in {
+ def NAME#16rr : BinOpRR_F<BaseOpc, mnemonic, Xi16, opnode>;
+ def NAME#32rr : BinOpRR_F<BaseOpc, mnemonic, Xi32, opnode>;
+ def NAME#64rr : BinOpRR_F<BaseOpc, mnemonic, Xi64, opnode>;
+ }
} // isCommutable
def NAME#8rr_REV : BinOpRR_F_Rev<BaseOpc2, mnemonic, Xi8>;
def NAME#32rm : BinOpRM_F<BaseOpc2, mnemonic, Xi32, opnode>;
def NAME#64rm : BinOpRM_F<BaseOpc2, mnemonic, Xi64, opnode>;
+ def NAME#8ri : BinOpRI_F<0x80, mnemonic, Xi8 , opnode, RegMRM>;
+
let isConvertibleToThreeAddress = ConvertibleToThreeAddress in {
// NOTE: These are order specific, we want the ri8 forms to be listed
// first so that they are slightly preferred to the ri forms.
def NAME#32ri8 : BinOpRI8_F<0x82, mnemonic, Xi32, opnode, RegMRM>;
def NAME#64ri8 : BinOpRI8_F<0x82, mnemonic, Xi64, opnode, RegMRM>;
- def NAME#8ri : BinOpRI_F<0x80, mnemonic, Xi8 , opnode, RegMRM>;
def NAME#16ri : BinOpRI_F<0x80, mnemonic, Xi16, opnode, RegMRM>;
def NAME#32ri : BinOpRI_F<0x80, mnemonic, Xi32, opnode, RegMRM>;
def NAME#64ri32: BinOpRI_F<0x80, mnemonic, Xi64, opnode, RegMRM>;
def NAME#32mi8 : BinOpMI8_F<mnemonic, Xi32, opnode, MemMRM>;
def NAME#64mi8 : BinOpMI8_F<mnemonic, Xi64, opnode, MemMRM>;
- def NAME#8mi : BinOpMI_F<mnemonic, Xi8 , opnode, MemMRM>;
- def NAME#16mi : BinOpMI_F<mnemonic, Xi16, opnode, MemMRM>;
- def NAME#32mi : BinOpMI_F<mnemonic, Xi32, opnode, MemMRM>;
- def NAME#64mi32 : BinOpMI_F<mnemonic, Xi64, opnode, MemMRM>;
+ def NAME#8mi : BinOpMI_F<0x80, mnemonic, Xi8 , opnode, MemMRM>;
+ def NAME#16mi : BinOpMI_F<0x80, mnemonic, Xi16, opnode, MemMRM>;
+ def NAME#32mi : BinOpMI_F<0x80, mnemonic, Xi32, opnode, MemMRM>;
+ def NAME#64mi32 : BinOpMI_F<0x80, mnemonic, Xi64, opnode, MemMRM>;
+
+ // These are for the disassembler since 0x82 opcode behaves like 0x80, but
+ // not in 64-bit mode.
+ let Predicates = [Not64BitMode], isCodeGenOnly = 1, ForceDisassemble = 1,
+ hasSideEffects = 0 in {
+ def NAME#8ri8 : BinOpRI8_F<0x82, mnemonic, Xi8, null_frag, RegMRM>;
+ let mayLoad = 1 in
+ def NAME#8mi8 : BinOpMI8_F<mnemonic, Xi8, null_frag, MemMRM>;
+ }
} // Defs = [EFLAGS]
def NAME#8i8 : BinOpAI<BaseOpc4, mnemonic, Xi8 , AL,
def TEST32ri : BinOpRI_F<0xF6, "test", Xi32, X86testpat, MRM0r>;
def TEST64ri32 : BinOpRI_F<0xF6, "test", Xi64, X86testpat, MRM0r>;
- def TEST8mi : BinOpMI_F<"test", Xi8 , X86testpat, MRM0m, 0xF6>;
- def TEST16mi : BinOpMI_F<"test", Xi16, X86testpat, MRM0m, 0xF6>;
- def TEST32mi : BinOpMI_F<"test", Xi32, X86testpat, MRM0m, 0xF6>;
- def TEST64mi32 : BinOpMI_F<"test", Xi64, X86testpat, MRM0m, 0xF6>;
+ def TEST8mi : BinOpMI_F<0xF6, "test", Xi8 , X86testpat, MRM0m>;
+ def TEST16mi : BinOpMI_F<0xF6, "test", Xi16, X86testpat, MRM0m>;
+ def TEST32mi : BinOpMI_F<0xF6, "test", Xi32, X86testpat, MRM0m>;
+ def TEST64mi32 : BinOpMI_F<0xF6, "test", Xi64, X86testpat, MRM0m>;
// When testing the result of EXTRACT_SUBREG sub_8bit_hi, make sure the
// register class is constrained to GR8_NOREX. This pseudo is explicitly
// marked side-effect free, since it doesn't have an isel pattern like
- // other test instructions.
+ // other test instructions.
let isPseudo = 1, hasSideEffects = 0 in
def TEST8ri_NOREX : I<0, Pseudo, (outs), (ins GR8_NOREX:$src, i8imm:$mask),
"", [], IIC_BIN_NONMEM>, Sched<[WriteALU]>;
// MULX Instruction
//
multiclass bmi_mulx<string mnemonic, RegisterClass RC, X86MemOperand x86memop> {
-let neverHasSideEffects = 1 in {
+let hasSideEffects = 0 in {
let isCommutable = 1 in
def rr : I<0xF6, MRMSrcReg, (outs RC:$dst1, RC:$dst2), (ins RC:$src),
!strconcat(mnemonic, "\t{$src, $dst2, $dst1|$dst1, $dst2, $src}"),
//===----------------------------------------------------------------------===//
// ADCX Instruction
//
-let hasSideEffects = 0, Defs = [EFLAGS], Uses = [EFLAGS],
+let Predicates = [HasADX], Defs = [EFLAGS], Uses = [EFLAGS],
Constraints = "$src0 = $dst", AddedComplexity = 10 in {
let SchedRW = [WriteALU] in {
def ADCX32rr : I<0xF6, MRMSrcReg, (outs GR32:$dst),
(ins GR32:$src0, GR32:$src), "adcx{l}\t{$src, $dst|$dst, $src}",
[(set GR32:$dst, EFLAGS,
(X86adc_flag GR32:$src0, GR32:$src, EFLAGS))],
- IIC_BIN_CARRY_NONMEM>, T8PD, Requires<[HasADX]>;
+ IIC_BIN_CARRY_NONMEM>, T8PD;
def ADCX64rr : RI<0xF6, MRMSrcReg, (outs GR64:$dst),
(ins GR64:$src0, GR64:$src), "adcx{q}\t{$src, $dst|$dst, $src}",
[(set GR64:$dst, EFLAGS,
(X86adc_flag GR64:$src0, GR64:$src, EFLAGS))],
- IIC_BIN_CARRY_NONMEM>, T8PD, Requires<[HasADX, In64BitMode]>;
+ IIC_BIN_CARRY_NONMEM>, T8PD;
} // SchedRW
let mayLoad = 1, SchedRW = [WriteALULd] in {
(ins GR32:$src0, i32mem:$src), "adcx{l}\t{$src, $dst|$dst, $src}",
[(set GR32:$dst, EFLAGS,
(X86adc_flag GR32:$src0, (loadi32 addr:$src), EFLAGS))],
- IIC_BIN_CARRY_MEM>, T8PD, Requires<[HasADX]>;
+ IIC_BIN_CARRY_MEM>, T8PD;
def ADCX64rm : RI<0xF6, MRMSrcMem, (outs GR64:$dst),
(ins GR64:$src0, i64mem:$src), "adcx{q}\t{$src, $dst|$dst, $src}",
[(set GR64:$dst, EFLAGS,
(X86adc_flag GR64:$src0, (loadi64 addr:$src), EFLAGS))],
- IIC_BIN_CARRY_MEM>, T8PD, Requires<[HasADX, In64BitMode]>;
+ IIC_BIN_CARRY_MEM>, T8PD;
}
}
//===----------------------------------------------------------------------===//
// ADOX Instruction
//
-let hasSideEffects = 0, Defs = [EFLAGS], Uses = [EFLAGS] in {
+let Predicates = [HasADX], hasSideEffects = 0, Defs = [EFLAGS],
+ Uses = [EFLAGS] in {
let SchedRW = [WriteALU] in {
def ADOX32rr : I<0xF6, MRMSrcReg, (outs GR32:$dst), (ins GR32:$src),
- "adox{l}\t{$src, $dst|$dst, $src}",
- [], IIC_BIN_NONMEM>, T8XS, Requires<[HasADX]>;
+ "adox{l}\t{$src, $dst|$dst, $src}", [], IIC_BIN_NONMEM>, T8XS;
def ADOX64rr : RI<0xF6, MRMSrcReg, (outs GR64:$dst), (ins GR64:$src),
- "adox{q}\t{$src, $dst|$dst, $src}",
- [], IIC_BIN_NONMEM>, T8XS, Requires<[HasADX, In64BitMode]>;
+ "adox{q}\t{$src, $dst|$dst, $src}", [], IIC_BIN_NONMEM>, T8XS;
} // SchedRW
let mayLoad = 1, SchedRW = [WriteALULd] in {
def ADOX32rm : I<0xF6, MRMSrcMem, (outs GR32:$dst), (ins i32mem:$src),
- "adox{l}\t{$src, $dst|$dst, $src}",
- [], IIC_BIN_MEM>, T8XS, Requires<[HasADX]>;
+ "adox{l}\t{$src, $dst|$dst, $src}", [], IIC_BIN_MEM>, T8XS;
def ADOX64rm : RI<0xF6, MRMSrcMem, (outs GR64:$dst), (ins i64mem:$src),
- "adox{q}\t{$src, $dst|$dst, $src}",
- [], IIC_BIN_MEM>, T8XS, Requires<[HasADX, In64BitMode]>;
+ "adox{q}\t{$src, $dst|$dst, $src}", [], IIC_BIN_MEM>, T8XS;
}
}