forked from OSchip/llvm-project
388 lines
17 KiB
TableGen
388 lines
17 KiB
TableGen
//===-- X86InstrFragmentsSIMD.td - x86 SIMD 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 X86fgetsign: SDNode<"X86ISD::FGETSIGNx86",SDTFPToIntOp>;
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def X86fhadd : SDNode<"X86ISD::FHADD", SDTFPBinOp>;
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def X86fhsub : SDNode<"X86ISD::FHSUB", SDTFPBinOp>;
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def X86hadd : SDNode<"X86ISD::HADD", SDTIntBinOp>;
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def X86hsub : SDNode<"X86ISD::HSUB", SDTIntBinOp>;
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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 X86cmpss : SDNode<"X86ISD::FSETCCss", SDTX86Cmpss>;
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def X86cmpsd : SDNode<"X86ISD::FSETCCsd", SDTX86Cmpsd>;
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def X86pshufb : SDNode<"X86ISD::PSHUFB",
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SDTypeProfile<1, 2, [SDTCisVec<0>, SDTCisSameAs<0,1>,
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SDTCisSameAs<0,2>]>>;
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def X86andnp : SDNode<"X86ISD::ANDNP",
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SDTypeProfile<1, 2, [SDTCisVec<0>, SDTCisSameAs<0,1>,
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SDTCisSameAs<0,2>]>>;
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def X86psign : SDNode<"X86ISD::PSIGN",
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SDTypeProfile<1, 2, [SDTCisVec<0>, 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 X86vzmovly : SDNode<"X86ISD::VZEXT_MOVL",
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SDTypeProfile<1, 1, [SDTCisVec<0>, SDTCisVec<1>,
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SDTCisOpSmallerThanOp<1, 0> ]>>;
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def X86vsmovl : SDNode<"X86ISD::VSEXT_MOVL",
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SDTypeProfile<1, 1, [SDTCisVec<0>, SDTCisInt<1>, SDTCisInt<0>]>>;
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def X86vzload : SDNode<"X86ISD::VZEXT_LOAD", SDTLoad,
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[SDNPHasChain, SDNPMayLoad, SDNPMemOperand]>;
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def X86vshldq : SDNode<"X86ISD::VSHLDQ", SDTIntShiftOp>;
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def X86vshrdq : SDNode<"X86ISD::VSRLDQ", SDTIntShiftOp>;
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def X86cmpp : SDNode<"X86ISD::CMPP", SDTX86VFCMP>;
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def X86pcmpeq : SDNode<"X86ISD::PCMPEQ", SDTIntBinOp, [SDNPCommutative]>;
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def X86pcmpgt : SDNode<"X86ISD::PCMPGT", SDTIntBinOp>;
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def X86vshl : SDNode<"X86ISD::VSHL",
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SDTypeProfile<1, 2, [SDTCisVec<0>, SDTCisSameAs<0,1>,
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SDTCisVec<2>]>>;
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def X86vsrl : SDNode<"X86ISD::VSRL",
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SDTypeProfile<1, 2, [SDTCisVec<0>, SDTCisSameAs<0,1>,
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SDTCisVec<2>]>>;
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def X86vsra : SDNode<"X86ISD::VSRA",
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SDTypeProfile<1, 2, [SDTCisVec<0>, SDTCisSameAs<0,1>,
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SDTCisVec<2>]>>;
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def X86vshli : SDNode<"X86ISD::VSHLI", SDTIntShiftOp>;
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def X86vsrli : SDNode<"X86ISD::VSRLI", SDTIntShiftOp>;
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def X86vsrai : SDNode<"X86ISD::VSRAI", SDTIntShiftOp>;
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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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def X86vpcom : SDNode<"X86ISD::VPCOM",
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SDTypeProfile<1, 3, [SDTCisVec<0>, SDTCisSameAs<0,1>,
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SDTCisSameAs<0,2>, SDTCisVT<3, i8>]>>;
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def X86vpcomu : SDNode<"X86ISD::VPCOMU",
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SDTypeProfile<1, 3, [SDTCisVec<0>, SDTCisSameAs<0,1>,
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SDTCisSameAs<0,2>, SDTCisVT<3, i8>]>>;
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def X86pmuludq : SDNode<"X86ISD::PMULUDQ",
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SDTypeProfile<1, 2, [SDTCisVec<0>, SDTCisVec<1>,
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SDTCisSameAs<1,2>]>>;
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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 SDTVBroadcast : SDTypeProfile<1, 1, [SDTCisVec<0>]>;
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def SDTBlend : SDTypeProfile<1, 3, [SDTCisVec<0>, SDTCisSameAs<0,1>,
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SDTCisSameAs<1,2>, SDTCisVT<3, i32>]>;
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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 X86Shufp : SDNode<"X86ISD::SHUFP", 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 X86Movlps : SDNode<"X86ISD::MOVLPS", SDTShuff2Op>;
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def X86Movlpd : SDNode<"X86ISD::MOVLPD", SDTShuff2Op>;
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def X86Unpckl : SDNode<"X86ISD::UNPCKL", SDTShuff2Op>;
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def X86Unpckh : SDNode<"X86ISD::UNPCKH", SDTShuff2Op>;
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def X86VPermilp : SDNode<"X86ISD::VPERMILP", SDTShuff2OpI>;
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def X86VPermv : SDNode<"X86ISD::VPERMV", SDTShuff2Op>;
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def X86VPermi : SDNode<"X86ISD::VPERMI", SDTShuff2OpI>;
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def X86VPerm2x128 : SDNode<"X86ISD::VPERM2X128", SDTShuff3OpI>;
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def X86VBroadcast : SDNode<"X86ISD::VBROADCAST", SDTVBroadcast>;
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def X86Blendpw : SDNode<"X86ISD::BLENDPW", SDTBlend>;
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def X86Blendps : SDNode<"X86ISD::BLENDPS", SDTBlend>;
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def X86Blendpd : SDNode<"X86ISD::BLENDPD", SDTBlend>;
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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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let OperandType = "OPERAND_MEMORY";
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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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let OperandType = "OPERAND_MEMORY";
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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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// NOTE: all 128-bit integer vector loads are promoted to v2i64
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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 loadv2i64 : PatFrag<(ops node:$ptr), (v2i64 (load node:$ptr))>;
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// 256-bit load pattern fragments
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// NOTE: all 256-bit integer vector loads are promoted to v4i64
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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 loadv4i64 : PatFrag<(ops node:$ptr), (v4i64 (load node:$ptr))>;
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// Like 'store', but always requires 128-bit 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 'store', but always requires 256-bit vector alignment.
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def alignedstore256 : PatFrag<(ops node:$val, node:$ptr),
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(store node:$val, node:$ptr), [{
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return cast<StoreSDNode>(N)->getAlignment() >= 32;
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}]>;
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// Like 'load', but always requires 128-bit 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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// Like 'X86vzload', but always requires 128-bit vector alignment.
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def alignedX86vzload : PatFrag<(ops node:$ptr), (X86vzload node:$ptr), [{
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return cast<MemSDNode>(N)->getAlignment() >= 16;
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}]>;
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// Like 'load', but always requires 256-bit vector alignment.
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def alignedload256 : PatFrag<(ops node:$ptr), (load node:$ptr), [{
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return cast<LoadSDNode>(N)->getAlignment() >= 32;
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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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// NOTE: all 128-bit integer vector loads are promoted to v2i64
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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 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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// NOTE: all 256-bit integer vector loads are promoted to v4i64
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def alignedloadv8f32 : PatFrag<(ops node:$ptr),
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(v8f32 (alignedload256 node:$ptr))>;
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def alignedloadv4f64 : PatFrag<(ops node:$ptr),
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(v4f64 (alignedload256 node:$ptr))>;
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def alignedloadv4i64 : PatFrag<(ops node:$ptr),
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(v4i64 (alignedload256 node:$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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// NOTE: all 128-bit integer vector loads are promoted to v2i64
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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 memopv2i64 : PatFrag<(ops node:$ptr), (v2i64 (memop node:$ptr))>;
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// 256-bit memop pattern fragments
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// NOTE: all 256-bit integer vector loads are promoted to v4i64
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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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// 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_v32i8 : PatFrag<(ops node:$in), (v32i8 (bitconvert node:$in))>;
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def bc_v16i16 : PatFrag<(ops node:$in), (v16i16 (bitconvert node:$in))>;
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def bc_v8i32 : PatFrag<(ops node:$in), (v8i32 (bitconvert node:$in))>;
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def bc_v4i64 : PatFrag<(ops node:$in), (v4i64 (bitconvert node:$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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// EXTRACT_get_vextractf128_imm xform function: convert extract_subvector index
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// to VEXTRACTF128 imm.
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def EXTRACT_get_vextractf128_imm : SDNodeXForm<extract_subvector, [{
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|
return getI8Imm(X86::getExtractVEXTRACTF128Immediate(N));
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|
}]>;
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|
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// INSERT_get_vinsertf128_imm xform function: convert insert_subvector index to
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|
// VINSERTF128 imm.
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|
def INSERT_get_vinsertf128_imm : SDNodeXForm<insert_subvector, [{
|
|
return getI8Imm(X86::getInsertVINSERTF128Immediate(N));
|
|
}]>;
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|
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def vextractf128_extract : PatFrag<(ops node:$bigvec, node:$index),
|
|
(extract_subvector node:$bigvec,
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|
node:$index), [{
|
|
return X86::isVEXTRACTF128Index(N);
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|
}], EXTRACT_get_vextractf128_imm>;
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|
|
|
def vinsertf128_insert : PatFrag<(ops node:$bigvec, node:$smallvec,
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|
node:$index),
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|
(insert_subvector node:$bigvec, node:$smallvec,
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|
node:$index), [{
|
|
return X86::isVINSERTF128Index(N);
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|
}], INSERT_get_vinsertf128_imm>;
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|
|