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https://github.com/c64scene-ar/llvm-6502.git
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0488fb649a
The x86_mmx type is used for MMX intrinsics, parameters and return values where these use MMX registers, and is also supported in load, store, and bitcast. Only the above operations generate MMX instructions, and optimizations do not operate on or produce MMX intrinsics. MMX-sized vectors <2 x i32> etc. are lowered to XMM or split into smaller pieces. Optimizations may occur on these forms and the result casted back to x86_mmx, provided the result feeds into a previous existing x86_mmx operation. The point of all this is prevent optimizations from introducing MMX operations, which is unsafe due to the EMMS problem. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@115243 91177308-0d34-0410-b5e6-96231b3b80d8
420 lines
18 KiB
TableGen
420 lines
18 KiB
TableGen
//======- X86InstrFragmentsSIMD.td - x86 ISA -------------*- tablegen -*-=====//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file provides pattern fragments useful for SIMD instructions.
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//
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//===----------------------------------------------------------------------===//
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//===----------------------------------------------------------------------===//
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// MMX Pattern Fragments
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//===----------------------------------------------------------------------===//
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def load_mmx : PatFrag<(ops node:$ptr), (x86mmx (load node:$ptr))>;
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def bc_mmx : PatFrag<(ops node:$in), (x86mmx (bitconvert node:$in))>;
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//===----------------------------------------------------------------------===//
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// SSE specific DAG Nodes.
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//===----------------------------------------------------------------------===//
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def SDTX86FPShiftOp : SDTypeProfile<1, 2, [ SDTCisSameAs<0, 1>,
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SDTCisFP<0>, SDTCisInt<2> ]>;
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def SDTX86VFCMP : SDTypeProfile<1, 3, [SDTCisInt<0>, SDTCisSameAs<1, 2>,
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SDTCisFP<1>, SDTCisVT<3, i8>]>;
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def X86fmin : SDNode<"X86ISD::FMIN", SDTFPBinOp>;
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def X86fmax : SDNode<"X86ISD::FMAX", SDTFPBinOp>;
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def X86fand : SDNode<"X86ISD::FAND", SDTFPBinOp,
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[SDNPCommutative, SDNPAssociative]>;
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def X86for : SDNode<"X86ISD::FOR", SDTFPBinOp,
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[SDNPCommutative, SDNPAssociative]>;
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def X86fxor : SDNode<"X86ISD::FXOR", SDTFPBinOp,
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[SDNPCommutative, SDNPAssociative]>;
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def X86frsqrt : SDNode<"X86ISD::FRSQRT", SDTFPUnaryOp>;
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def X86frcp : SDNode<"X86ISD::FRCP", SDTFPUnaryOp>;
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def X86fsrl : SDNode<"X86ISD::FSRL", SDTX86FPShiftOp>;
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def X86comi : SDNode<"X86ISD::COMI", SDTX86CmpTest>;
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def X86ucomi : SDNode<"X86ISD::UCOMI", SDTX86CmpTest>;
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def X86pshufb : SDNode<"X86ISD::PSHUFB",
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SDTypeProfile<1, 2, [SDTCisVT<0, v16i8>, SDTCisSameAs<0,1>,
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SDTCisSameAs<0,2>]>>;
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def X86pextrb : SDNode<"X86ISD::PEXTRB",
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SDTypeProfile<1, 2, [SDTCisVT<0, i32>, SDTCisPtrTy<2>]>>;
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def X86pextrw : SDNode<"X86ISD::PEXTRW",
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SDTypeProfile<1, 2, [SDTCisVT<0, i32>, SDTCisPtrTy<2>]>>;
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def X86pinsrb : SDNode<"X86ISD::PINSRB",
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SDTypeProfile<1, 3, [SDTCisVT<0, v16i8>, SDTCisSameAs<0,1>,
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SDTCisVT<2, i32>, SDTCisPtrTy<3>]>>;
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def X86pinsrw : SDNode<"X86ISD::PINSRW",
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SDTypeProfile<1, 3, [SDTCisVT<0, v8i16>, SDTCisSameAs<0,1>,
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SDTCisVT<2, i32>, SDTCisPtrTy<3>]>>;
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def X86insrtps : SDNode<"X86ISD::INSERTPS",
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SDTypeProfile<1, 3, [SDTCisVT<0, v4f32>, SDTCisSameAs<0,1>,
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SDTCisVT<2, v4f32>, SDTCisPtrTy<3>]>>;
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def X86vzmovl : SDNode<"X86ISD::VZEXT_MOVL",
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SDTypeProfile<1, 1, [SDTCisSameAs<0,1>]>>;
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def X86vzload : SDNode<"X86ISD::VZEXT_LOAD", SDTLoad,
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[SDNPHasChain, SDNPMayLoad, SDNPMemOperand]>;
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def X86vshl : SDNode<"X86ISD::VSHL", SDTIntShiftOp>;
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def X86vshr : SDNode<"X86ISD::VSRL", SDTIntShiftOp>;
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def X86cmpps : SDNode<"X86ISD::CMPPS", SDTX86VFCMP>;
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def X86cmppd : SDNode<"X86ISD::CMPPD", SDTX86VFCMP>;
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def X86pcmpeqb : SDNode<"X86ISD::PCMPEQB", SDTIntBinOp, [SDNPCommutative]>;
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def X86pcmpeqw : SDNode<"X86ISD::PCMPEQW", SDTIntBinOp, [SDNPCommutative]>;
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def X86pcmpeqd : SDNode<"X86ISD::PCMPEQD", SDTIntBinOp, [SDNPCommutative]>;
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def X86pcmpeqq : SDNode<"X86ISD::PCMPEQQ", SDTIntBinOp, [SDNPCommutative]>;
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def X86pcmpgtb : SDNode<"X86ISD::PCMPGTB", SDTIntBinOp>;
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def X86pcmpgtw : SDNode<"X86ISD::PCMPGTW", SDTIntBinOp>;
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def X86pcmpgtd : SDNode<"X86ISD::PCMPGTD", SDTIntBinOp>;
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def X86pcmpgtq : SDNode<"X86ISD::PCMPGTQ", SDTIntBinOp>;
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def SDTX86CmpPTest : SDTypeProfile<1, 2, [SDTCisVT<0, i32>,
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SDTCisVec<1>,
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SDTCisSameAs<2, 1>]>;
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def X86ptest : SDNode<"X86ISD::PTEST", SDTX86CmpPTest>;
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def X86testp : SDNode<"X86ISD::TESTP", SDTX86CmpPTest>;
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// Specific shuffle nodes - At some point ISD::VECTOR_SHUFFLE will always get
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// translated into one of the target nodes below during lowering.
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// Note: this is a work in progress...
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def SDTShuff1Op : SDTypeProfile<1, 1, [SDTCisVec<0>, SDTCisSameAs<0,1>]>;
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def SDTShuff2Op : SDTypeProfile<1, 2, [SDTCisVec<0>, SDTCisSameAs<0,1>,
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SDTCisSameAs<0,2>]>;
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def SDTShuff2OpI : SDTypeProfile<1, 2, [SDTCisVec<0>,
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SDTCisSameAs<0,1>, SDTCisInt<2>]>;
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def SDTShuff3OpI : SDTypeProfile<1, 3, [SDTCisVec<0>, SDTCisSameAs<0,1>,
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SDTCisSameAs<0,2>, SDTCisInt<3>]>;
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def X86PAlign : SDNode<"X86ISD::PALIGN", SDTShuff3OpI>;
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def X86PShufd : SDNode<"X86ISD::PSHUFD", SDTShuff2OpI>;
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def X86PShufhw : SDNode<"X86ISD::PSHUFHW", SDTShuff2OpI>;
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def X86PShuflw : SDNode<"X86ISD::PSHUFLW", SDTShuff2OpI>;
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def X86Shufpd : SDNode<"X86ISD::SHUFPD", SDTShuff3OpI>;
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def X86Shufps : SDNode<"X86ISD::SHUFPS", SDTShuff3OpI>;
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def X86Movddup : SDNode<"X86ISD::MOVDDUP", SDTShuff1Op>;
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def X86Movshdup : SDNode<"X86ISD::MOVSHDUP", SDTShuff1Op>;
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def X86Movsldup : SDNode<"X86ISD::MOVSLDUP", SDTShuff1Op>;
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def X86Movsd : SDNode<"X86ISD::MOVSD", SDTShuff2Op>;
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def X86Movss : SDNode<"X86ISD::MOVSS", SDTShuff2Op>;
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def X86Movlhps : SDNode<"X86ISD::MOVLHPS", SDTShuff2Op>;
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def X86Movlhpd : SDNode<"X86ISD::MOVLHPD", SDTShuff2Op>;
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def X86Movhlps : SDNode<"X86ISD::MOVHLPS", SDTShuff2Op>;
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def X86Movhlpd : SDNode<"X86ISD::MOVHLPD", SDTShuff2Op>;
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def X86Movlps : SDNode<"X86ISD::MOVLPS", SDTShuff2Op>;
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def X86Movlpd : SDNode<"X86ISD::MOVLPD", SDTShuff2Op>;
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def X86Unpcklps : SDNode<"X86ISD::UNPCKLPS", SDTShuff2Op>;
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def X86Unpcklpd : SDNode<"X86ISD::UNPCKLPD", SDTShuff2Op>;
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def X86Unpckhps : SDNode<"X86ISD::UNPCKHPS", SDTShuff2Op>;
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def X86Unpckhpd : SDNode<"X86ISD::UNPCKHPD", SDTShuff2Op>;
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def X86Punpcklbw : SDNode<"X86ISD::PUNPCKLBW", SDTShuff2Op>;
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def X86Punpcklwd : SDNode<"X86ISD::PUNPCKLWD", SDTShuff2Op>;
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def X86Punpckldq : SDNode<"X86ISD::PUNPCKLDQ", SDTShuff2Op>;
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def X86Punpcklqdq : SDNode<"X86ISD::PUNPCKLQDQ", SDTShuff2Op>;
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def X86Punpckhbw : SDNode<"X86ISD::PUNPCKHBW", SDTShuff2Op>;
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def X86Punpckhwd : SDNode<"X86ISD::PUNPCKHWD", SDTShuff2Op>;
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def X86Punpckhdq : SDNode<"X86ISD::PUNPCKHDQ", SDTShuff2Op>;
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def X86Punpckhqdq : SDNode<"X86ISD::PUNPCKHQDQ", SDTShuff2Op>;
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//===----------------------------------------------------------------------===//
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// SSE Complex Patterns
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//===----------------------------------------------------------------------===//
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// These are 'extloads' from a scalar to the low element of a vector, zeroing
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// the top elements. These are used for the SSE 'ss' and 'sd' instruction
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// forms.
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def sse_load_f32 : ComplexPattern<v4f32, 5, "SelectScalarSSELoad", [],
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[SDNPHasChain, SDNPMayLoad, SDNPMemOperand,
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SDNPWantRoot]>;
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def sse_load_f64 : ComplexPattern<v2f64, 5, "SelectScalarSSELoad", [],
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[SDNPHasChain, SDNPMayLoad, SDNPMemOperand,
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SDNPWantRoot]>;
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def ssmem : Operand<v4f32> {
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let PrintMethod = "printf32mem";
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let MIOperandInfo = (ops ptr_rc, i8imm, ptr_rc_nosp, i32imm, i8imm);
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let ParserMatchClass = X86MemAsmOperand;
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}
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def sdmem : Operand<v2f64> {
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let PrintMethod = "printf64mem";
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let MIOperandInfo = (ops ptr_rc, i8imm, ptr_rc_nosp, i32imm, i8imm);
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let ParserMatchClass = X86MemAsmOperand;
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}
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//===----------------------------------------------------------------------===//
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// SSE pattern fragments
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//===----------------------------------------------------------------------===//
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// 128-bit load pattern fragments
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def loadv4f32 : PatFrag<(ops node:$ptr), (v4f32 (load node:$ptr))>;
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def loadv2f64 : PatFrag<(ops node:$ptr), (v2f64 (load node:$ptr))>;
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def loadv4i32 : PatFrag<(ops node:$ptr), (v4i32 (load node:$ptr))>;
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def loadv2i64 : PatFrag<(ops node:$ptr), (v2i64 (load node:$ptr))>;
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// 256-bit load pattern fragments
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def loadv8f32 : PatFrag<(ops node:$ptr), (v8f32 (load node:$ptr))>;
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def loadv4f64 : PatFrag<(ops node:$ptr), (v4f64 (load node:$ptr))>;
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def loadv8i32 : PatFrag<(ops node:$ptr), (v8i32 (load node:$ptr))>;
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def loadv4i64 : PatFrag<(ops node:$ptr), (v4i64 (load node:$ptr))>;
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// Like 'store', but always requires vector alignment.
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def alignedstore : PatFrag<(ops node:$val, node:$ptr),
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(store node:$val, node:$ptr), [{
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return cast<StoreSDNode>(N)->getAlignment() >= 16;
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}]>;
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// Like 'load', but always requires vector alignment.
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def alignedload : PatFrag<(ops node:$ptr), (load node:$ptr), [{
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return cast<LoadSDNode>(N)->getAlignment() >= 16;
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}]>;
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def alignedloadfsf32 : PatFrag<(ops node:$ptr),
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(f32 (alignedload node:$ptr))>;
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def alignedloadfsf64 : PatFrag<(ops node:$ptr),
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(f64 (alignedload node:$ptr))>;
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// 128-bit aligned load pattern fragments
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def alignedloadv4f32 : PatFrag<(ops node:$ptr),
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(v4f32 (alignedload node:$ptr))>;
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def alignedloadv2f64 : PatFrag<(ops node:$ptr),
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(v2f64 (alignedload node:$ptr))>;
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def alignedloadv4i32 : PatFrag<(ops node:$ptr),
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(v4i32 (alignedload node:$ptr))>;
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def alignedloadv2i64 : PatFrag<(ops node:$ptr),
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(v2i64 (alignedload node:$ptr))>;
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// 256-bit aligned load pattern fragments
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def alignedloadv8f32 : PatFrag<(ops node:$ptr),
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(v8f32 (alignedload node:$ptr))>;
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def alignedloadv4f64 : PatFrag<(ops node:$ptr),
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(v4f64 (alignedload node:$ptr))>;
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def alignedloadv8i32 : PatFrag<(ops node:$ptr),
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(v8i32 (alignedload node:$ptr))>;
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def alignedloadv4i64 : PatFrag<(ops node:$ptr),
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(v4i64 (alignedload node:$ptr))>;
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// Like 'load', but uses special alignment checks suitable for use in
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// memory operands in most SSE instructions, which are required to
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// be naturally aligned on some targets but not on others. If the subtarget
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// allows unaligned accesses, match any load, though this may require
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// setting a feature bit in the processor (on startup, for example).
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// Opteron 10h and later implement such a feature.
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def memop : PatFrag<(ops node:$ptr), (load node:$ptr), [{
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return Subtarget->hasVectorUAMem()
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|| cast<LoadSDNode>(N)->getAlignment() >= 16;
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}]>;
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def memopfsf32 : PatFrag<(ops node:$ptr), (f32 (memop node:$ptr))>;
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def memopfsf64 : PatFrag<(ops node:$ptr), (f64 (memop node:$ptr))>;
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// 128-bit memop pattern fragments
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def memopv4f32 : PatFrag<(ops node:$ptr), (v4f32 (memop node:$ptr))>;
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def memopv2f64 : PatFrag<(ops node:$ptr), (v2f64 (memop node:$ptr))>;
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def memopv4i32 : PatFrag<(ops node:$ptr), (v4i32 (memop node:$ptr))>;
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def memopv2i64 : PatFrag<(ops node:$ptr), (v2i64 (memop node:$ptr))>;
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def memopv8i16 : PatFrag<(ops node:$ptr), (v8i16 (memop node:$ptr))>;
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def memopv16i8 : PatFrag<(ops node:$ptr), (v16i8 (memop node:$ptr))>;
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// 256-bit memop pattern fragments
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def memopv32i8 : PatFrag<(ops node:$ptr), (v32i8 (memop node:$ptr))>;
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def memopv8f32 : PatFrag<(ops node:$ptr), (v8f32 (memop node:$ptr))>;
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def memopv4f64 : PatFrag<(ops node:$ptr), (v4f64 (memop node:$ptr))>;
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def memopv4i64 : PatFrag<(ops node:$ptr), (v4i64 (memop node:$ptr))>;
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def memopv8i32 : PatFrag<(ops node:$ptr), (v8i32 (memop node:$ptr))>;
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// SSSE3 uses MMX registers for some instructions. They aren't aligned on a
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// 16-byte boundary.
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// FIXME: 8 byte alignment for mmx reads is not required
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def memop64 : PatFrag<(ops node:$ptr), (load node:$ptr), [{
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return cast<LoadSDNode>(N)->getAlignment() >= 8;
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}]>;
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def memopmmx : PatFrag<(ops node:$ptr), (x86mmx (memop64 node:$ptr))>;
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// MOVNT Support
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// Like 'store', but requires the non-temporal bit to be set
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def nontemporalstore : PatFrag<(ops node:$val, node:$ptr),
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(st node:$val, node:$ptr), [{
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if (StoreSDNode *ST = dyn_cast<StoreSDNode>(N))
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return ST->isNonTemporal();
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return false;
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}]>;
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def alignednontemporalstore : PatFrag<(ops node:$val, node:$ptr),
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(st node:$val, node:$ptr), [{
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if (StoreSDNode *ST = dyn_cast<StoreSDNode>(N))
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return ST->isNonTemporal() && !ST->isTruncatingStore() &&
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ST->getAddressingMode() == ISD::UNINDEXED &&
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ST->getAlignment() >= 16;
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return false;
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}]>;
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def unalignednontemporalstore : PatFrag<(ops node:$val, node:$ptr),
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(st node:$val, node:$ptr), [{
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if (StoreSDNode *ST = dyn_cast<StoreSDNode>(N))
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return ST->isNonTemporal() &&
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ST->getAlignment() < 16;
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return false;
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}]>;
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// 128-bit bitconvert pattern fragments
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def bc_v4f32 : PatFrag<(ops node:$in), (v4f32 (bitconvert node:$in))>;
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def bc_v2f64 : PatFrag<(ops node:$in), (v2f64 (bitconvert node:$in))>;
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def bc_v16i8 : PatFrag<(ops node:$in), (v16i8 (bitconvert node:$in))>;
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def bc_v8i16 : PatFrag<(ops node:$in), (v8i16 (bitconvert node:$in))>;
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def bc_v4i32 : PatFrag<(ops node:$in), (v4i32 (bitconvert node:$in))>;
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def bc_v2i64 : PatFrag<(ops node:$in), (v2i64 (bitconvert node:$in))>;
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// 256-bit bitconvert pattern fragments
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def bc_v8i32 : PatFrag<(ops node:$in), (v8i32 (bitconvert node:$in))>;
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def vzmovl_v2i64 : PatFrag<(ops node:$src),
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(bitconvert (v2i64 (X86vzmovl
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(v2i64 (scalar_to_vector (loadi64 node:$src))))))>;
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def vzmovl_v4i32 : PatFrag<(ops node:$src),
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(bitconvert (v4i32 (X86vzmovl
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(v4i32 (scalar_to_vector (loadi32 node:$src))))))>;
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def vzload_v2i64 : PatFrag<(ops node:$src),
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(bitconvert (v2i64 (X86vzload node:$src)))>;
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def fp32imm0 : PatLeaf<(f32 fpimm), [{
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return N->isExactlyValue(+0.0);
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}]>;
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// BYTE_imm - Transform bit immediates into byte immediates.
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def BYTE_imm : SDNodeXForm<imm, [{
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// Transformation function: imm >> 3
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return getI32Imm(N->getZExtValue() >> 3);
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}]>;
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// SHUFFLE_get_shuf_imm xform function: convert vector_shuffle mask to PSHUF*,
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// SHUFP* etc. imm.
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def SHUFFLE_get_shuf_imm : SDNodeXForm<vector_shuffle, [{
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return getI8Imm(X86::getShuffleSHUFImmediate(N));
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}]>;
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// SHUFFLE_get_pshufhw_imm xform function: convert vector_shuffle mask to
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// PSHUFHW imm.
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def SHUFFLE_get_pshufhw_imm : SDNodeXForm<vector_shuffle, [{
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return getI8Imm(X86::getShufflePSHUFHWImmediate(N));
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}]>;
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// SHUFFLE_get_pshuflw_imm xform function: convert vector_shuffle mask to
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// PSHUFLW imm.
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def SHUFFLE_get_pshuflw_imm : SDNodeXForm<vector_shuffle, [{
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return getI8Imm(X86::getShufflePSHUFLWImmediate(N));
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}]>;
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// SHUFFLE_get_palign_imm xform function: convert vector_shuffle mask to
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// a PALIGNR imm.
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def SHUFFLE_get_palign_imm : SDNodeXForm<vector_shuffle, [{
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return getI8Imm(X86::getShufflePALIGNRImmediate(N));
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}]>;
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def splat_lo : PatFrag<(ops node:$lhs, node:$rhs),
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(vector_shuffle node:$lhs, node:$rhs), [{
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ShuffleVectorSDNode *SVOp = cast<ShuffleVectorSDNode>(N);
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return SVOp->isSplat() && SVOp->getSplatIndex() == 0;
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}]>;
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def movddup : PatFrag<(ops node:$lhs, node:$rhs),
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(vector_shuffle node:$lhs, node:$rhs), [{
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return X86::isMOVDDUPMask(cast<ShuffleVectorSDNode>(N));
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}]>;
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def movhlps : PatFrag<(ops node:$lhs, node:$rhs),
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(vector_shuffle node:$lhs, node:$rhs), [{
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return X86::isMOVHLPSMask(cast<ShuffleVectorSDNode>(N));
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}]>;
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|
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def movhlps_undef : PatFrag<(ops node:$lhs, node:$rhs),
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(vector_shuffle node:$lhs, node:$rhs), [{
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return X86::isMOVHLPS_v_undef_Mask(cast<ShuffleVectorSDNode>(N));
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}]>;
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|
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|
def movlhps : PatFrag<(ops node:$lhs, node:$rhs),
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|
(vector_shuffle node:$lhs, node:$rhs), [{
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|
return X86::isMOVLHPSMask(cast<ShuffleVectorSDNode>(N));
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}]>;
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|
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|
def movlp : PatFrag<(ops node:$lhs, node:$rhs),
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|
(vector_shuffle node:$lhs, node:$rhs), [{
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|
return X86::isMOVLPMask(cast<ShuffleVectorSDNode>(N));
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|
}]>;
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|
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def movl : PatFrag<(ops node:$lhs, node:$rhs),
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|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isMOVLMask(cast<ShuffleVectorSDNode>(N));
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|
}]>;
|
|
|
|
def movshdup : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isMOVSHDUPMask(cast<ShuffleVectorSDNode>(N));
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|
}]>;
|
|
|
|
def movsldup : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isMOVSLDUPMask(cast<ShuffleVectorSDNode>(N));
|
|
}]>;
|
|
|
|
def unpckl : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isUNPCKLMask(cast<ShuffleVectorSDNode>(N));
|
|
}]>;
|
|
|
|
def unpckh : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isUNPCKHMask(cast<ShuffleVectorSDNode>(N));
|
|
}]>;
|
|
|
|
def unpckl_undef : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isUNPCKL_v_undef_Mask(cast<ShuffleVectorSDNode>(N));
|
|
}]>;
|
|
|
|
def unpckh_undef : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isUNPCKH_v_undef_Mask(cast<ShuffleVectorSDNode>(N));
|
|
}]>;
|
|
|
|
def pshufd : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isPSHUFDMask(cast<ShuffleVectorSDNode>(N));
|
|
}], SHUFFLE_get_shuf_imm>;
|
|
|
|
def shufp : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isSHUFPMask(cast<ShuffleVectorSDNode>(N));
|
|
}], SHUFFLE_get_shuf_imm>;
|
|
|
|
def pshufhw : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isPSHUFHWMask(cast<ShuffleVectorSDNode>(N));
|
|
}], SHUFFLE_get_pshufhw_imm>;
|
|
|
|
def pshuflw : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isPSHUFLWMask(cast<ShuffleVectorSDNode>(N));
|
|
}], SHUFFLE_get_pshuflw_imm>;
|
|
|
|
def palign : PatFrag<(ops node:$lhs, node:$rhs),
|
|
(vector_shuffle node:$lhs, node:$rhs), [{
|
|
return X86::isPALIGNRMask(cast<ShuffleVectorSDNode>(N));
|
|
}], SHUFFLE_get_palign_imm>;
|