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//===---- CGLoopInfo.cpp - LLVM CodeGen for loop metadata -*- C++ -*-------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "CGLoopInfo.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/Attr.h"
#include "clang/Sema/LoopHint.h"
#include "llvm/IR/BasicBlock.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/InstrTypes.h"
#include "llvm/IR/Instructions.h"
#include "llvm/IR/Metadata.h"
using namespace clang::CodeGen;
using namespace llvm;
static MDNode *createMetadata(LLVMContext &Ctx, const LoopAttributes &Attrs) {
if (!Attrs.IsParallel && Attrs.VectorizeWidth == 0 &&
Attrs.InterleaveCount == 0 && Attrs.UnrollCount == 0 &&
Attrs.VectorizeEnable == LoopAttributes::Unspecified &&
Attrs.UnrollEnable == LoopAttributes::Unspecified)
return nullptr;
SmallVector<Metadata *, 4> Args;
// Reserve operand 0 for loop id self reference.
auto TempNode = MDNode::getTemporary(Ctx, None);
Args.push_back(TempNode.get());
// Setting vectorize.width
if (Attrs.VectorizeWidth > 0) {
Metadata *Vals[] = {MDString::get(Ctx, "llvm.loop.vectorize.width"),
ConstantAsMetadata::get(ConstantInt::get(
Type::getInt32Ty(Ctx), Attrs.VectorizeWidth))};
Args.push_back(MDNode::get(Ctx, Vals));
}
// Setting interleave.count
if (Attrs.InterleaveCount > 0) {
Metadata *Vals[] = {MDString::get(Ctx, "llvm.loop.interleave.count"),
ConstantAsMetadata::get(ConstantInt::get(
Type::getInt32Ty(Ctx), Attrs.InterleaveCount))};
Args.push_back(MDNode::get(Ctx, Vals));
}
// Setting interleave.count
if (Attrs.UnrollCount > 0) {
Metadata *Vals[] = {MDString::get(Ctx, "llvm.loop.unroll.count"),
ConstantAsMetadata::get(ConstantInt::get(
Type::getInt32Ty(Ctx), Attrs.UnrollCount))};
Args.push_back(MDNode::get(Ctx, Vals));
}
// Setting vectorize.enable
if (Attrs.VectorizeEnable != LoopAttributes::Unspecified) {
Metadata *Vals[] = {MDString::get(Ctx, "llvm.loop.vectorize.enable"),
ConstantAsMetadata::get(ConstantInt::get(
Type::getInt1Ty(Ctx), (Attrs.VectorizeEnable ==
LoopAttributes::Enable)))};
Args.push_back(MDNode::get(Ctx, Vals));
}
// Setting unroll.full or unroll.disable
if (Attrs.UnrollEnable != LoopAttributes::Unspecified) {
std::string Name;
if (Attrs.UnrollEnable == LoopAttributes::Enable)
Name = "llvm.loop.unroll.enable";
else if (Attrs.UnrollEnable == LoopAttributes::Full)
Name = "llvm.loop.unroll.full";
else
Name = "llvm.loop.unroll.disable";
Metadata *Vals[] = {MDString::get(Ctx, Name)};
Args.push_back(MDNode::get(Ctx, Vals));
}
// Set the first operand to itself.
MDNode *LoopID = MDNode::get(Ctx, Args);
LoopID->replaceOperandWith(0, LoopID);
return LoopID;
}
LoopAttributes::LoopAttributes(bool IsParallel)
: IsParallel(IsParallel), VectorizeEnable(LoopAttributes::Unspecified),
UnrollEnable(LoopAttributes::Unspecified), VectorizeWidth(0),
InterleaveCount(0), UnrollCount(0) {}
void LoopAttributes::clear() {
IsParallel = false;
VectorizeWidth = 0;
InterleaveCount = 0;
UnrollCount = 0;
VectorizeEnable = LoopAttributes::Unspecified;
UnrollEnable = LoopAttributes::Unspecified;
}
LoopInfo::LoopInfo(BasicBlock *Header, const LoopAttributes &Attrs)
: LoopID(nullptr), Header(Header), Attrs(Attrs) {
LoopID = createMetadata(Header->getContext(), Attrs);
}
void LoopInfoStack::push(BasicBlock *Header) {
Active.push_back(LoopInfo(Header, StagedAttrs));
// Clear the attributes so nested loops do not inherit them.
StagedAttrs.clear();
}
void LoopInfoStack::push(BasicBlock *Header, clang::ASTContext &Ctx,
ArrayRef<const clang::Attr *> Attrs) {
// Identify loop hint attributes from Attrs.
for (const auto *Attr : Attrs) {
const LoopHintAttr *LH = dyn_cast<LoopHintAttr>(Attr);
// Skip non loop hint attributes
if (!LH)
continue;
auto *ValueExpr = LH->getValue();
unsigned ValueInt = 1;
if (ValueExpr) {
llvm::APSInt ValueAPS = ValueExpr->EvaluateKnownConstInt(Ctx);
ValueInt = ValueAPS.getSExtValue();
}
LoopHintAttr::OptionType Option = LH->getOption();
LoopHintAttr::LoopHintState State = LH->getState();
switch (State) {
case LoopHintAttr::Disable:
switch (Option) {
case LoopHintAttr::Vectorize:
// Disable vectorization by specifying a width of 1.
setVectorizeWidth(1);
break;
case LoopHintAttr::Interleave:
// Disable interleaving by speciyfing a count of 1.
setInterleaveCount(1);
break;
case LoopHintAttr::Unroll:
setUnrollState(LoopAttributes::Disable);
break;
case LoopHintAttr::UnrollCount:
case LoopHintAttr::VectorizeWidth:
case LoopHintAttr::InterleaveCount:
llvm_unreachable("Options cannot be disabled.");
break;
}
break;
case LoopHintAttr::Enable:
switch (Option) {
case LoopHintAttr::Vectorize:
case LoopHintAttr::Interleave:
setVectorizeEnable(true);
break;
case LoopHintAttr::Unroll:
setUnrollState(LoopAttributes::Enable);
break;
case LoopHintAttr::UnrollCount:
case LoopHintAttr::VectorizeWidth:
case LoopHintAttr::InterleaveCount:
llvm_unreachable("Options cannot enabled.");
break;
}
break;
case LoopHintAttr::AssumeSafety:
switch (Option) {
case LoopHintAttr::Vectorize:
case LoopHintAttr::Interleave:
// Apply "llvm.mem.parallel_loop_access" metadata to load/stores.
setParallel(true);
setVectorizeEnable(true);
break;
case LoopHintAttr::Unroll:
case LoopHintAttr::UnrollCount:
case LoopHintAttr::VectorizeWidth:
case LoopHintAttr::InterleaveCount:
llvm_unreachable("Options cannot be used to assume mem safety.");
break;
}
break;
case LoopHintAttr::Full:
switch (Option) {
case LoopHintAttr::Unroll:
setUnrollState(LoopAttributes::Full);
break;
case LoopHintAttr::Vectorize:
case LoopHintAttr::Interleave:
case LoopHintAttr::UnrollCount:
case LoopHintAttr::VectorizeWidth:
case LoopHintAttr::InterleaveCount:
llvm_unreachable("Options cannot be used with 'full' hint.");
break;
}
break;
case LoopHintAttr::Numeric:
switch (Option) {
case LoopHintAttr::VectorizeWidth:
setVectorizeWidth(ValueInt);
break;
case LoopHintAttr::InterleaveCount:
setInterleaveCount(ValueInt);
break;
case LoopHintAttr::UnrollCount:
setUnrollCount(ValueInt);
break;
case LoopHintAttr::Unroll:
case LoopHintAttr::Vectorize:
case LoopHintAttr::Interleave:
llvm_unreachable("Options cannot be assigned a value.");
break;
}
break;
}
}
/// Stage the attributes.
push(Header);
}
void LoopInfoStack::pop() {
assert(!Active.empty() && "No active loops to pop");
Active.pop_back();
}
void LoopInfoStack::InsertHelper(Instruction *I) const {
if (!hasInfo())
return;
const LoopInfo &L = getInfo();
if (!L.getLoopID())
return;
if (TerminatorInst *TI = dyn_cast<TerminatorInst>(I)) {
for (unsigned i = 0, ie = TI->getNumSuccessors(); i < ie; ++i)
if (TI->getSuccessor(i) == L.getHeader()) {
TI->setMetadata("llvm.loop", L.getLoopID());
break;
}
return;
}
if (L.getAttributes().IsParallel && I->mayReadOrWriteMemory())
I->setMetadata("llvm.mem.parallel_loop_access", L.getLoopID());
}
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