238 lines
8.8 KiB
C++
238 lines
8.8 KiB
C++
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//===- utils/TableGen/X86EVEX2VEXTablesEmitter.cpp - X86 backend-*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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///
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/// This tablegen backend is responsible for emitting the X86 backend EVEX2VEX
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/// compression tables.
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///
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//===----------------------------------------------------------------------===//
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#include "CodeGenTarget.h"
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#include "llvm/TableGen/Error.h"
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#include "llvm/TableGen/TableGenBackend.h"
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using namespace llvm;
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namespace {
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class X86EVEX2VEXTablesEmitter {
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RecordKeeper &Records;
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CodeGenTarget Target;
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// Hold all non-masked & non-broadcasted EVEX encoded instructions
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std::vector<const CodeGenInstruction *> EVEXInsts;
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// Hold all VEX encoded instructions. Divided into groups with same opcodes
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// to make the search more efficient
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std::map<uint64_t, std::vector<const CodeGenInstruction *>> VEXInsts;
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typedef std::pair<const CodeGenInstruction *, const CodeGenInstruction *> Entry;
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// Represent both compress tables
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std::vector<Entry> EVEX2VEX128;
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std::vector<Entry> EVEX2VEX256;
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public:
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X86EVEX2VEXTablesEmitter(RecordKeeper &R) : Records(R), Target(R) {}
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// run - Output X86 EVEX2VEX tables.
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void run(raw_ostream &OS);
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private:
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// Prints the given table as a C++ array of type
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// X86EvexToVexCompressTableEntry
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void printTable(const std::vector<Entry> &Table, raw_ostream &OS);
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};
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void X86EVEX2VEXTablesEmitter::printTable(const std::vector<Entry> &Table,
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raw_ostream &OS) {
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StringRef Size = (Table == EVEX2VEX128) ? "128" : "256";
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OS << "// X86 EVEX encoded instructions that have a VEX " << Size
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<< " encoding\n"
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<< "// (table format: <EVEX opcode, VEX-" << Size << " opcode>).\n"
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<< "static const X86EvexToVexCompressTableEntry X86EvexToVex" << Size
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<< "CompressTable[] = {\n"
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<< " // EVEX scalar with corresponding VEX.\n";
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// Print all entries added to the table
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for (auto Pair : Table) {
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OS << " { X86::" << Pair.first->TheDef->getName()
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<< ", X86::" << Pair.second->TheDef->getName() << " },\n";
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}
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OS << "};\n\n";
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}
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// Return true if the 2 BitsInits are equal
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// Calculates the integer value residing BitsInit object
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static inline uint64_t getValueFromBitsInit(const BitsInit *B) {
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uint64_t Value = 0;
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for (unsigned i = 0, e = B->getNumBits(); i != e; ++i) {
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if (BitInit *Bit = dyn_cast<BitInit>(B->getBit(i)))
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Value |= uint64_t(Bit->getValue()) << i;
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else
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PrintFatalError("Invalid VectSize bit");
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}
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return Value;
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}
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// Function object - Operator() returns true if the given VEX instruction
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// matches the EVEX instruction of this object.
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class IsMatch {
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const CodeGenInstruction *EVEXInst;
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public:
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IsMatch(const CodeGenInstruction *EVEXInst) : EVEXInst(EVEXInst) {}
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bool operator()(const CodeGenInstruction *VEXInst) {
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Record *RecE = EVEXInst->TheDef;
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Record *RecV = VEXInst->TheDef;
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bool EVEX_W = RecE->getValueAsBit("HasVEX_W");
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bool VEX_W = RecV->getValueAsBit("HasVEX_W");
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bool VEX_WIG = RecV->getValueAsBit("IgnoresVEX_W");
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bool EVEX_WIG = RecE->getValueAsBit("IgnoresVEX_W");
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bool EVEX_W1_VEX_W0 = RecE->getValueAsBit("EVEX_W1_VEX_W0");
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if (RecV->getValueAsDef("OpEnc")->getName().str() != "EncVEX" ||
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RecV->getValueAsBit("isCodeGenOnly") != RecE->getValueAsBit("isCodeGenOnly") ||
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// VEX/EVEX fields
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RecV->getValueAsDef("OpPrefix") != RecE->getValueAsDef("OpPrefix") ||
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RecV->getValueAsDef("OpMap") != RecE->getValueAsDef("OpMap") ||
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RecV->getValueAsBit("hasVEX_4V") != RecE->getValueAsBit("hasVEX_4V") ||
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RecV->getValueAsBit("hasEVEX_L2") != RecE->getValueAsBit("hasEVEX_L2") ||
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RecV->getValueAsBit("hasVEX_L") != RecE->getValueAsBit("hasVEX_L") ||
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// Match is allowed if either is VEX_WIG, or they match, or EVEX
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// is VEX_W1X and VEX is VEX_W0.
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(!(VEX_WIG || (!EVEX_WIG && EVEX_W == VEX_W) ||
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(EVEX_W1_VEX_W0 && EVEX_W && !VEX_W))) ||
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// Instruction's format
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RecV->getValueAsDef("Form") != RecE->getValueAsDef("Form"))
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return false;
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// This is needed for instructions with intrinsic version (_Int).
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// Where the only difference is the size of the operands.
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// For example: VUCOMISDZrm and Int_VUCOMISDrm
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// Also for instructions that their EVEX version was upgraded to work with
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// k-registers. For example VPCMPEQBrm (xmm output register) and
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// VPCMPEQBZ128rm (k register output register).
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for (unsigned i = 0, e = EVEXInst->Operands.size(); i < e; i++) {
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Record *OpRec1 = EVEXInst->Operands[i].Rec;
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Record *OpRec2 = VEXInst->Operands[i].Rec;
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if (OpRec1 == OpRec2)
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continue;
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if (isRegisterOperand(OpRec1) && isRegisterOperand(OpRec2)) {
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if (getRegOperandSize(OpRec1) != getRegOperandSize(OpRec2))
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return false;
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} else if (isMemoryOperand(OpRec1) && isMemoryOperand(OpRec2)) {
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return false;
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} else if (isImmediateOperand(OpRec1) && isImmediateOperand(OpRec2)) {
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if (OpRec1->getValueAsDef("Type") != OpRec2->getValueAsDef("Type")) {
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return false;
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}
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} else
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return false;
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}
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return true;
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}
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private:
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static inline bool isRegisterOperand(const Record *Rec) {
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return Rec->isSubClassOf("RegisterClass") ||
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Rec->isSubClassOf("RegisterOperand");
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}
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static inline bool isMemoryOperand(const Record *Rec) {
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return Rec->isSubClassOf("Operand") &&
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Rec->getValueAsString("OperandType") == "OPERAND_MEMORY";
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}
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static inline bool isImmediateOperand(const Record *Rec) {
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return Rec->isSubClassOf("Operand") &&
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Rec->getValueAsString("OperandType") == "OPERAND_IMMEDIATE";
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}
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static inline unsigned int getRegOperandSize(const Record *RegRec) {
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if (RegRec->isSubClassOf("RegisterClass"))
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return RegRec->getValueAsInt("Alignment");
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if (RegRec->isSubClassOf("RegisterOperand"))
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return RegRec->getValueAsDef("RegClass")->getValueAsInt("Alignment");
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llvm_unreachable("Register operand's size not known!");
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}
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};
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void X86EVEX2VEXTablesEmitter::run(raw_ostream &OS) {
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emitSourceFileHeader("X86 EVEX2VEX tables", OS);
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ArrayRef<const CodeGenInstruction *> NumberedInstructions =
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Target.getInstructionsByEnumValue();
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for (const CodeGenInstruction *Inst : NumberedInstructions) {
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// Filter non-X86 instructions.
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if (!Inst->TheDef->isSubClassOf("X86Inst"))
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continue;
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// Add VEX encoded instructions to one of VEXInsts vectors according to
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// it's opcode.
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if (Inst->TheDef->getValueAsDef("OpEnc")->getName() == "EncVEX") {
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uint64_t Opcode = getValueFromBitsInit(Inst->TheDef->
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getValueAsBitsInit("Opcode"));
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VEXInsts[Opcode].push_back(Inst);
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}
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// Add relevant EVEX encoded instructions to EVEXInsts
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else if (Inst->TheDef->getValueAsDef("OpEnc")->getName() == "EncEVEX" &&
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!Inst->TheDef->getValueAsBit("hasEVEX_K") &&
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!Inst->TheDef->getValueAsBit("hasEVEX_B") &&
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!Inst->TheDef->getValueAsBit("hasEVEX_L2") &&
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!Inst->TheDef->getValueAsBit("notEVEX2VEXConvertible"))
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EVEXInsts.push_back(Inst);
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}
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for (const CodeGenInstruction *EVEXInst : EVEXInsts) {
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uint64_t Opcode = getValueFromBitsInit(EVEXInst->TheDef->
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getValueAsBitsInit("Opcode"));
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// For each EVEX instruction look for a VEX match in the appropriate vector
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// (instructions with the same opcode) using function object IsMatch.
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// Allow EVEX2VEXOverride to explicitly specify a match.
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const CodeGenInstruction *VEXInst = nullptr;
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if (!EVEXInst->TheDef->isValueUnset("EVEX2VEXOverride")) {
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StringRef AltInstStr =
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EVEXInst->TheDef->getValueAsString("EVEX2VEXOverride");
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Record *AltInstRec = Records.getDef(AltInstStr);
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assert(AltInstRec && "EVEX2VEXOverride instruction not found!");
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VEXInst = &Target.getInstruction(AltInstRec);
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} else {
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auto Match = llvm::find_if(VEXInsts[Opcode], IsMatch(EVEXInst));
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if (Match != VEXInsts[Opcode].end())
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VEXInst = *Match;
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}
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if (!VEXInst)
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continue;
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// In case a match is found add new entry to the appropriate table
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if (EVEXInst->TheDef->getValueAsBit("hasVEX_L"))
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EVEX2VEX256.push_back(std::make_pair(EVEXInst, VEXInst)); // {0,1}
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else
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EVEX2VEX128.push_back(std::make_pair(EVEXInst, VEXInst)); // {0,0}
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}
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// Print both tables
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printTable(EVEX2VEX128, OS);
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printTable(EVEX2VEX256, OS);
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}
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}
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namespace llvm {
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void EmitX86EVEX2VEXTables(RecordKeeper &RK, raw_ostream &OS) {
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X86EVEX2VEXTablesEmitter(RK).run(OS);
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}
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}
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