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//===-- llvm/CodeGen/GlobalISel/MachineIRBuilder.cpp - MIBuilder--*- C++ -*-==//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
/// \file
/// This file implements the MachineIRBuidler class.
//===----------------------------------------------------------------------===//
#include "llvm/CodeGen/GlobalISel/MachineIRBuilder.h"
#include "llvm/CodeGen/MachineFunction.h"
#include "llvm/CodeGen/MachineInstr.h"
#include "llvm/CodeGen/MachineInstrBuilder.h"
#include "llvm/Target/TargetInstrInfo.h"
#include "llvm/Target/TargetOpcodes.h"
#include "llvm/Target/TargetSubtargetInfo.h"
using namespace llvm;
void MachineIRBuilder::setMF(MachineFunction &MF) {
this->MF = &MF;
this->MBB = nullptr;
this->TII = MF.getSubtarget().getInstrInfo();
this->DL = DebugLoc();
this->MI = nullptr;
this->InsertedInstr = nullptr;
}
void MachineIRBuilder::setMBB(MachineBasicBlock &MBB, bool Beginning) {
this->MBB = &MBB;
Before = Beginning;
assert(&getMF() == MBB.getParent() &&
"Basic block is in a different function");
}
void MachineIRBuilder::setInstr(MachineInstr &MI, bool Before) {
assert(MI.getParent() && "Instruction is not part of a basic block");
setMBB(*MI.getParent());
this->MI = &MI;
this->Before = Before;
}
MachineBasicBlock::iterator MachineIRBuilder::getInsertPt() {
if (MI) {
if (Before)
return MI;
if (!MI->getNextNode())
return getMBB().end();
return MI->getNextNode();
}
return Before ? getMBB().begin() : getMBB().end();
}
void MachineIRBuilder::recordInsertions(
std::function<void(MachineInstr *)> Inserted) {
InsertedInstr = Inserted;
}
void MachineIRBuilder::stopRecordingInsertions() {
InsertedInstr = nullptr;
}
//------------------------------------------------------------------------------
// Build instruction variants.
//------------------------------------------------------------------------------
MachineInstrBuilder MachineIRBuilder::buildInstr(unsigned Opcode,
ArrayRef<LLT> Tys) {
MachineInstrBuilder MIB = BuildMI(getMF(), DL, getTII().get(Opcode));
if (Tys.size() > 0) {
assert(isPreISelGenericOpcode(Opcode) &&
"Only generic instruction can have a type");
for (unsigned i = 0; i < Tys.size(); ++i)
MIB->setType(Tys[i], i);
} else
assert(!isPreISelGenericOpcode(Opcode) &&
"Generic instruction must have a type");
getMBB().insert(getInsertPt(), MIB);
if (InsertedInstr)
InsertedInstr(MIB);
return MIB;
}
MachineInstrBuilder MachineIRBuilder::buildFrameIndex(LLT Ty, unsigned Res,
int Idx) {
return buildInstr(TargetOpcode::G_FRAME_INDEX, Ty)
.addDef(Res)
.addFrameIndex(Idx);
}
MachineInstrBuilder MachineIRBuilder::buildAdd(LLT Ty, unsigned Res,
unsigned Op0, unsigned Op1) {
return buildInstr(TargetOpcode::G_ADD, Ty)
.addDef(Res)
.addUse(Op0)
.addUse(Op1);
}
MachineInstrBuilder MachineIRBuilder::buildSub(LLT Ty, unsigned Res,
unsigned Op0, unsigned Op1) {
return buildInstr(TargetOpcode::G_SUB, Ty)
.addDef(Res)
.addUse(Op0)
.addUse(Op1);
}
MachineInstrBuilder MachineIRBuilder::buildMul(LLT Ty, unsigned Res,
unsigned Op0, unsigned Op1) {
return buildInstr(TargetOpcode::G_MUL, Ty)
.addDef(Res)
.addUse(Op0)
.addUse(Op1);
}
MachineInstrBuilder MachineIRBuilder::buildBr(MachineBasicBlock &Dest) {
return buildInstr(TargetOpcode::G_BR, LLT::unsized()).addMBB(&Dest);
}
MachineInstrBuilder MachineIRBuilder::buildCopy(unsigned Res, unsigned Op) {
return buildInstr(TargetOpcode::COPY).addDef(Res).addUse(Op);
}
MachineInstrBuilder MachineIRBuilder::buildConstant(LLT Ty, unsigned Res,
int64_t Val) {
return buildInstr(TargetOpcode::G_CONSTANT, Ty).addDef(Res).addImm(Val);
}
MachineInstrBuilder MachineIRBuilder::buildFConstant(LLT Ty, unsigned Res,
const ConstantFP &Val) {
return buildInstr(TargetOpcode::G_FCONSTANT, Ty).addDef(Res).addFPImm(&Val);
}
MachineInstrBuilder MachineIRBuilder::buildBrCond(LLT Ty, unsigned Tst,
MachineBasicBlock &Dest) {
return buildInstr(TargetOpcode::G_BRCOND, Ty).addUse(Tst).addMBB(&Dest);
}
MachineInstrBuilder MachineIRBuilder::buildLoad(LLT VTy, LLT PTy, unsigned Res,
unsigned Addr,
MachineMemOperand &MMO) {
return buildInstr(TargetOpcode::G_LOAD, {VTy, PTy})
.addDef(Res)
.addUse(Addr)
.addMemOperand(&MMO);
}
MachineInstrBuilder MachineIRBuilder::buildStore(LLT VTy, LLT PTy,
unsigned Val, unsigned Addr,
MachineMemOperand &MMO) {
return buildInstr(TargetOpcode::G_STORE, {VTy, PTy})
.addUse(Val)
.addUse(Addr)
.addMemOperand(&MMO);
}
MachineInstrBuilder
MachineIRBuilder::buildUAdde(ArrayRef<LLT> Tys, unsigned Res, unsigned CarryOut,
unsigned Op0, unsigned Op1, unsigned CarryIn) {
return buildInstr(TargetOpcode::G_UADDE, Tys)
.addDef(Res)
.addDef(CarryOut)
.addUse(Op0)
.addUse(Op1)
.addUse(CarryIn);
}
MachineInstrBuilder MachineIRBuilder::buildAnyExt(ArrayRef<LLT> Tys,
unsigned Res, unsigned Op) {
validateTruncExt(Tys, true);
return buildInstr(TargetOpcode::G_ANYEXT, Tys).addDef(Res).addUse(Op);
}
MachineInstrBuilder MachineIRBuilder::buildSExt(ArrayRef<LLT> Tys, unsigned Res,
unsigned Op) {
validateTruncExt(Tys, true);
return buildInstr(TargetOpcode::G_SEXT, Tys).addDef(Res).addUse(Op);
}
MachineInstrBuilder MachineIRBuilder::buildZExt(ArrayRef<LLT> Tys, unsigned Res,
unsigned Op) {
validateTruncExt(Tys, true);
return buildInstr(TargetOpcode::G_ZEXT, Tys).addDef(Res).addUse(Op);
}
MachineInstrBuilder MachineIRBuilder::buildExtract(ArrayRef<LLT> ResTys,
ArrayRef<unsigned> Results,
ArrayRef<uint64_t> Indices,
LLT SrcTy, unsigned Src) {
assert(ResTys.size() == Results.size() && Results.size() == Indices.size() &&
"inconsistent number of regs");
assert(!Results.empty() && "invalid trivial extract");
auto MIB = BuildMI(getMF(), DL, getTII().get(TargetOpcode::G_EXTRACT));
for (unsigned i = 0; i < ResTys.size(); ++i)
MIB->setType(LLT::scalar(ResTys[i].getSizeInBits()), i);
MIB->setType(LLT::scalar(SrcTy.getSizeInBits()), ResTys.size());
for (auto Res : Results)
MIB.addDef(Res);
MIB.addUse(Src);
for (auto Idx : Indices)
MIB.addImm(Idx);
getMBB().insert(getInsertPt(), MIB);
if (InsertedInstr)
InsertedInstr(MIB);
return MIB;
}
MachineInstrBuilder
MachineIRBuilder::buildSequence(LLT ResTy, unsigned Res,
ArrayRef<LLT> OpTys,
ArrayRef<unsigned> Ops,
ArrayRef<unsigned> Indices) {
assert(OpTys.size() == Ops.size() && Ops.size() == Indices.size() &&
"incompatible args");
assert(!Ops.empty() && "invalid trivial sequence");
MachineInstrBuilder MIB =
buildInstr(TargetOpcode::G_SEQUENCE, LLT::scalar(ResTy.getSizeInBits()));
MIB.addDef(Res);
for (unsigned i = 0; i < Ops.size(); ++i) {
MIB.addUse(Ops[i]);
MIB.addImm(Indices[i]);
MIB->setType(LLT::scalar(OpTys[i].getSizeInBits()), MIB->getNumTypes());
}
return MIB;
}
MachineInstrBuilder MachineIRBuilder::buildIntrinsic(ArrayRef<LLT> Tys,
Intrinsic::ID ID,
unsigned Res,
bool HasSideEffects) {
auto MIB =
buildInstr(HasSideEffects ? TargetOpcode::G_INTRINSIC_W_SIDE_EFFECTS
: TargetOpcode::G_INTRINSIC,
Tys);
if (Res)
MIB.addDef(Res);
MIB.addIntrinsicID(ID);
return MIB;
}
MachineInstrBuilder MachineIRBuilder::buildTrunc(ArrayRef<LLT> Tys,
unsigned Res, unsigned Op) {
validateTruncExt(Tys, false);
return buildInstr(TargetOpcode::G_TRUNC, Tys).addDef(Res).addUse(Op);
}
MachineInstrBuilder MachineIRBuilder::buildFPTrunc(ArrayRef<LLT> Tys,
unsigned Res, unsigned Op) {
validateTruncExt(Tys, false);
return buildInstr(TargetOpcode::G_FPTRUNC, Tys).addDef(Res).addUse(Op);
}
MachineInstrBuilder MachineIRBuilder::buildICmp(ArrayRef<LLT> Tys,
CmpInst::Predicate Pred,
unsigned Res, unsigned Op0,
unsigned Op1) {
return buildInstr(TargetOpcode::G_ICMP, Tys)
.addDef(Res)
.addPredicate(Pred)
.addUse(Op0)
.addUse(Op1);
}
MachineInstrBuilder MachineIRBuilder::buildFCmp(ArrayRef<LLT> Tys,
CmpInst::Predicate Pred,
unsigned Res, unsigned Op0,
unsigned Op1) {
return buildInstr(TargetOpcode::G_FCMP, Tys)
.addDef(Res)
.addPredicate(Pred)
.addUse(Op0)
.addUse(Op1);
}
MachineInstrBuilder MachineIRBuilder::buildSelect(LLT Ty, unsigned Res,
unsigned Tst,
unsigned Op0, unsigned Op1) {
return buildInstr(TargetOpcode::G_SELECT, {Ty, LLT::scalar(1)})
.addDef(Res)
.addUse(Tst)
.addUse(Op0)
.addUse(Op1);
}
void MachineIRBuilder::validateTruncExt(ArrayRef<LLT> Tys, bool IsExtend) {
#ifndef NDEBUG
assert(Tys.size() == 2 && "cast should have a source and a dest type");
LLT DstTy{Tys[0]}, SrcTy{Tys[1]};
if (DstTy.isVector()) {
assert(SrcTy.isVector() && "mismatched cast between vecot and non-vector");
assert(SrcTy.getNumElements() == DstTy.getNumElements() &&
"different number of elements in a trunc/ext");
} else
assert(DstTy.isScalar() && SrcTy.isScalar() && "invalid extend/trunc");
if (IsExtend)
assert(DstTy.getSizeInBits() > SrcTy.getSizeInBits() &&
"invalid narrowing extend");
else
assert(DstTy.getSizeInBits() < SrcTy.getSizeInBits() &&
"invalid widening trunc");
#endif
}
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