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https://github.com/c64scene-ar/llvm-6502.git
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8a8f5c396f
Utilize the previous move of MVT to a separate header for all trivial cases (that don't need any further restructuring). Reviewed By: Tim Northover git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@204003 91177308-0d34-0410-b5e6-96231b3b80d8
219 lines
7.4 KiB
C++
219 lines
7.4 KiB
C++
//===-- X86ShuffleDecode.cpp - X86 shuffle decode logic -------------------===//
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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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// Define several functions to decode x86 specific shuffle semantics into a
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// generic vector mask.
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//
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//===----------------------------------------------------------------------===//
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#include "X86ShuffleDecode.h"
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#include "llvm/CodeGen/MachineValueType.h"
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//===----------------------------------------------------------------------===//
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// Vector Mask Decoding
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//===----------------------------------------------------------------------===//
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namespace llvm {
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void DecodeINSERTPSMask(unsigned Imm, SmallVectorImpl<int> &ShuffleMask) {
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// Defaults the copying the dest value.
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ShuffleMask.push_back(0);
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ShuffleMask.push_back(1);
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ShuffleMask.push_back(2);
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ShuffleMask.push_back(3);
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// Decode the immediate.
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unsigned ZMask = Imm & 15;
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unsigned CountD = (Imm >> 4) & 3;
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unsigned CountS = (Imm >> 6) & 3;
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// CountS selects which input element to use.
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unsigned InVal = 4+CountS;
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// CountD specifies which element of destination to update.
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ShuffleMask[CountD] = InVal;
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// ZMask zaps values, potentially overriding the CountD elt.
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if (ZMask & 1) ShuffleMask[0] = SM_SentinelZero;
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if (ZMask & 2) ShuffleMask[1] = SM_SentinelZero;
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if (ZMask & 4) ShuffleMask[2] = SM_SentinelZero;
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if (ZMask & 8) ShuffleMask[3] = SM_SentinelZero;
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}
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// <3,1> or <6,7,2,3>
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void DecodeMOVHLPSMask(unsigned NElts, SmallVectorImpl<int> &ShuffleMask) {
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for (unsigned i = NElts/2; i != NElts; ++i)
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ShuffleMask.push_back(NElts+i);
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for (unsigned i = NElts/2; i != NElts; ++i)
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ShuffleMask.push_back(i);
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}
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// <0,2> or <0,1,4,5>
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void DecodeMOVLHPSMask(unsigned NElts, SmallVectorImpl<int> &ShuffleMask) {
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for (unsigned i = 0; i != NElts/2; ++i)
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ShuffleMask.push_back(i);
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for (unsigned i = 0; i != NElts/2; ++i)
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ShuffleMask.push_back(NElts+i);
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}
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void DecodePALIGNRMask(MVT VT, unsigned Imm,
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SmallVectorImpl<int> &ShuffleMask) {
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unsigned NumElts = VT.getVectorNumElements();
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unsigned Offset = Imm * (VT.getVectorElementType().getSizeInBits() / 8);
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unsigned NumLanes = VT.getSizeInBits() / 128;
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unsigned NumLaneElts = NumElts / NumLanes;
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for (unsigned l = 0; l != NumElts; l += NumLaneElts) {
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for (unsigned i = 0; i != NumLaneElts; ++i) {
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unsigned Base = i + Offset;
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// if i+offset is out of this lane then we actually need the other source
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if (Base >= NumLaneElts) Base += NumElts - NumLaneElts;
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ShuffleMask.push_back(Base + l);
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}
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}
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}
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/// DecodePSHUFMask - This decodes the shuffle masks for pshufd, and vpermilp*.
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/// VT indicates the type of the vector allowing it to handle different
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/// datatypes and vector widths.
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void DecodePSHUFMask(MVT VT, unsigned Imm, SmallVectorImpl<int> &ShuffleMask) {
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unsigned NumElts = VT.getVectorNumElements();
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unsigned NumLanes = VT.getSizeInBits() / 128;
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unsigned NumLaneElts = NumElts / NumLanes;
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unsigned NewImm = Imm;
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for (unsigned l = 0; l != NumElts; l += NumLaneElts) {
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for (unsigned i = 0; i != NumLaneElts; ++i) {
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ShuffleMask.push_back(NewImm % NumLaneElts + l);
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NewImm /= NumLaneElts;
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}
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if (NumLaneElts == 4) NewImm = Imm; // reload imm
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}
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}
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void DecodePSHUFHWMask(MVT VT, unsigned Imm,
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SmallVectorImpl<int> &ShuffleMask) {
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unsigned NumElts = VT.getVectorNumElements();
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for (unsigned l = 0; l != NumElts; l += 8) {
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unsigned NewImm = Imm;
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for (unsigned i = 0, e = 4; i != e; ++i) {
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ShuffleMask.push_back(l + i);
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}
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for (unsigned i = 4, e = 8; i != e; ++i) {
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ShuffleMask.push_back(l + 4 + (NewImm & 3));
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NewImm >>= 2;
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}
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}
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}
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void DecodePSHUFLWMask(MVT VT, unsigned Imm,
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SmallVectorImpl<int> &ShuffleMask) {
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unsigned NumElts = VT.getVectorNumElements();
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for (unsigned l = 0; l != NumElts; l += 8) {
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unsigned NewImm = Imm;
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for (unsigned i = 0, e = 4; i != e; ++i) {
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ShuffleMask.push_back(l + (NewImm & 3));
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NewImm >>= 2;
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}
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for (unsigned i = 4, e = 8; i != e; ++i) {
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ShuffleMask.push_back(l + i);
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}
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}
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}
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/// DecodeSHUFPMask - This decodes the shuffle masks for shufp*. VT indicates
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/// the type of the vector allowing it to handle different datatypes and vector
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/// widths.
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void DecodeSHUFPMask(MVT VT, unsigned Imm, SmallVectorImpl<int> &ShuffleMask) {
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unsigned NumElts = VT.getVectorNumElements();
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unsigned NumLanes = VT.getSizeInBits() / 128;
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unsigned NumLaneElts = NumElts / NumLanes;
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unsigned NewImm = Imm;
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for (unsigned l = 0; l != NumElts; l += NumLaneElts) {
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// each half of a lane comes from different source
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for (unsigned s = 0; s != NumElts*2; s += NumElts) {
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for (unsigned i = 0; i != NumLaneElts/2; ++i) {
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ShuffleMask.push_back(NewImm % NumLaneElts + s + l);
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NewImm /= NumLaneElts;
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}
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}
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if (NumLaneElts == 4) NewImm = Imm; // reload imm
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}
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}
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/// DecodeUNPCKHMask - This decodes the shuffle masks for unpckhps/unpckhpd
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/// and punpckh*. VT indicates the type of the vector allowing it to handle
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/// different datatypes and vector widths.
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void DecodeUNPCKHMask(MVT VT, SmallVectorImpl<int> &ShuffleMask) {
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unsigned NumElts = VT.getVectorNumElements();
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// Handle 128 and 256-bit vector lengths. AVX defines UNPCK* to operate
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// independently on 128-bit lanes.
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unsigned NumLanes = VT.getSizeInBits() / 128;
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if (NumLanes == 0 ) NumLanes = 1; // Handle MMX
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unsigned NumLaneElts = NumElts / NumLanes;
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for (unsigned l = 0; l != NumElts; l += NumLaneElts) {
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for (unsigned i = l + NumLaneElts/2, e = l + NumLaneElts; i != e; ++i) {
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ShuffleMask.push_back(i); // Reads from dest/src1
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ShuffleMask.push_back(i+NumElts); // Reads from src/src2
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}
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}
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}
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/// DecodeUNPCKLMask - This decodes the shuffle masks for unpcklps/unpcklpd
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/// and punpckl*. VT indicates the type of the vector allowing it to handle
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/// different datatypes and vector widths.
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void DecodeUNPCKLMask(MVT VT, SmallVectorImpl<int> &ShuffleMask) {
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unsigned NumElts = VT.getVectorNumElements();
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// Handle 128 and 256-bit vector lengths. AVX defines UNPCK* to operate
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// independently on 128-bit lanes.
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unsigned NumLanes = VT.getSizeInBits() / 128;
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if (NumLanes == 0 ) NumLanes = 1; // Handle MMX
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unsigned NumLaneElts = NumElts / NumLanes;
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for (unsigned l = 0; l != NumElts; l += NumLaneElts) {
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for (unsigned i = l, e = l + NumLaneElts/2; i != e; ++i) {
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ShuffleMask.push_back(i); // Reads from dest/src1
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ShuffleMask.push_back(i+NumElts); // Reads from src/src2
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}
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}
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}
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void DecodeVPERM2X128Mask(MVT VT, unsigned Imm,
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SmallVectorImpl<int> &ShuffleMask) {
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if (Imm & 0x88)
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return; // Not a shuffle
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unsigned HalfSize = VT.getVectorNumElements()/2;
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for (unsigned l = 0; l != 2; ++l) {
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unsigned HalfBegin = ((Imm >> (l*4)) & 0x3) * HalfSize;
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for (unsigned i = HalfBegin, e = HalfBegin+HalfSize; i != e; ++i)
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ShuffleMask.push_back(i);
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}
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}
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/// DecodeVPERMMask - this decodes the shuffle masks for VPERMQ/VPERMPD.
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/// No VT provided since it only works on 256-bit, 4 element vectors.
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void DecodeVPERMMask(unsigned Imm, SmallVectorImpl<int> &ShuffleMask) {
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for (unsigned i = 0; i != 4; ++i) {
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ShuffleMask.push_back((Imm >> (2*i)) & 3);
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}
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}
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} // llvm namespace
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