Files
clang-p2996/polly/lib/CodeGen/Utils.cpp
Andreas Simbuerger 256070d85c [NFC] Return both polly.start and polly.exiting from executeScopConditionally.
This commit returns both the start and the exit block that are created
by executeScopConditionally.

In a future commit we will make use of the exit block. Before we would
have to use the implicit property that there won't be any code generated
between polly.start and polly.exiting at the time of use to find the
correct block ('polly.exiting').

All usage location are semantically unchanged.

llvm-svn: 306283
2017-06-26 12:17:11 +00:00

221 lines
7.4 KiB
C++

//===--- Utils.cpp - Utility functions for the code generation --*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file contains utility functions for the code generation.
//
//===----------------------------------------------------------------------===//
#include "polly/CodeGen/Utils.h"
#include "polly/CodeGen/IRBuilder.h"
#include "polly/ScopInfo.h"
#include "llvm/Analysis/LoopInfo.h"
#include "llvm/Analysis/RegionInfo.h"
#include "llvm/Support/Debug.h"
#include "llvm/Transforms/Utils/BasicBlockUtils.h"
using namespace llvm;
// Alternative to llvm::SplitCriticalEdge.
//
// Creates a new block which branches to Succ. The edge to split is redirected
// to the new block.
//
// The issue with llvm::SplitCriticalEdge is that it does nothing if the edge is
// not critical.
// The issue with llvm::SplitEdge is that it does not always create the middle
// block, but reuses Prev/Succ if it can. We always want a new middle block.
static BasicBlock *splitEdge(BasicBlock *Prev, BasicBlock *Succ,
const char *Suffix, DominatorTree *DT,
LoopInfo *LI, RegionInfo *RI) {
assert(Prev && Succ);
// Before:
// \ / / //
// Prev / //
// | \___/ //
// | ___ //
// | / \ //
// Succ \ //
// / \ \ //
// The algorithm to update DominatorTree and LoopInfo of
// llvm::SplitCriticalEdge is more efficient than
// llvm::SplitBlockPredecessors, which is more general. In the future we might
// either modify llvm::SplitCriticalEdge to allow skipping the critical edge
// check; or Copy&Pase it here.
BasicBlock *MiddleBlock = SplitBlockPredecessors(
Succ, ArrayRef<BasicBlock *>(Prev), Suffix, DT, LI);
if (RI) {
Region *PrevRegion = RI->getRegionFor(Prev);
Region *SuccRegion = RI->getRegionFor(Succ);
if (PrevRegion->contains(MiddleBlock)) {
RI->setRegionFor(MiddleBlock, PrevRegion);
} else {
RI->setRegionFor(MiddleBlock, SuccRegion);
}
}
// After:
// \ / / //
// Prev / //
// | \___/ //
// | //
// MiddleBlock //
// | ___ //
// | / \ //
// Succ \ //
// / \ \ //
return MiddleBlock;
}
polly::BBPair polly::executeScopConditionally(Scop &S, Value *RTC,
DominatorTree &DT, RegionInfo &RI,
LoopInfo &LI) {
Region &R = S.getRegion();
PollyIRBuilder Builder(S.getEntry());
// Before:
//
// \ / //
// EnteringBB //
// _____|_____ //
// / EntryBB \ //
// | (region) | //
// \_ExitingBB_/ //
// | //
// ExitBB //
// / \ //
// Create a fork block.
BasicBlock *EnteringBB = S.getEnteringBlock();
BasicBlock *EntryBB = S.getEntry();
assert(EnteringBB && "Must be a simple region");
BasicBlock *SplitBlock =
splitEdge(EnteringBB, EntryBB, ".split_new_and_old", &DT, &LI, &RI);
SplitBlock->setName("polly.split_new_and_old");
// If EntryBB is the exit block of the region that includes Prev, exclude
// SplitBlock from that region by making it itself the exit block. This is
// trivially possible because there is just one edge to EnteringBB.
// This is necessary because we will add an outgoing edge from SplitBlock,
// which would violate the single exit block requirement of PrevRegion.
Region *PrevRegion = RI.getRegionFor(EnteringBB);
while (PrevRegion->getExit() == EntryBB) {
PrevRegion->replaceExit(SplitBlock);
PrevRegion = PrevRegion->getParent();
}
RI.setRegionFor(SplitBlock, PrevRegion);
// Create a join block
BasicBlock *ExitingBB = S.getExitingBlock();
BasicBlock *ExitBB = S.getExit();
assert(ExitingBB && "Must be a simple region");
BasicBlock *MergeBlock =
splitEdge(ExitingBB, ExitBB, ".merge_new_and_old", &DT, &LI, &RI);
MergeBlock->setName("polly.merge_new_and_old");
// Exclude the join block from the region.
R.replaceExitRecursive(MergeBlock);
RI.setRegionFor(MergeBlock, R.getParent());
// \ / //
// EnteringBB //
// | //
// SplitBlock //
// _____|_____ //
// / EntryBB \ //
// | (region) | //
// \_ExitingBB_/ //
// | //
// MergeBlock //
// | //
// ExitBB //
// / \ //
// Create the start and exiting block.
Function *F = SplitBlock->getParent();
BasicBlock *StartBlock =
BasicBlock::Create(F->getContext(), "polly.start", F);
BasicBlock *ExitingBlock =
BasicBlock::Create(F->getContext(), "polly.exiting", F);
SplitBlock->getTerminator()->eraseFromParent();
Builder.SetInsertPoint(SplitBlock);
Builder.CreateCondBr(RTC, StartBlock, S.getEntry());
if (Loop *L = LI.getLoopFor(SplitBlock)) {
L->addBasicBlockToLoop(StartBlock, LI);
L->addBasicBlockToLoop(ExitingBlock, LI);
}
DT.addNewBlock(StartBlock, SplitBlock);
DT.addNewBlock(ExitingBlock, StartBlock);
RI.setRegionFor(StartBlock, RI.getRegionFor(SplitBlock));
RI.setRegionFor(ExitingBlock, RI.getRegionFor(SplitBlock));
// \ / //
// EnteringBB //
// | //
// SplitBlock---------\ //
// _____|_____ | //
// / EntryBB \ StartBlock //
// | (region) | | //
// \_ExitingBB_/ ExitingBlock //
// | //
// MergeBlock //
// | //
// ExitBB //
// / \ //
// Connect start block to exiting block.
Builder.SetInsertPoint(StartBlock);
Builder.CreateBr(ExitingBlock);
DT.changeImmediateDominator(ExitingBlock, StartBlock);
// Connect exiting block to join block.
Builder.SetInsertPoint(ExitingBlock);
Builder.CreateBr(MergeBlock);
DT.changeImmediateDominator(MergeBlock, SplitBlock);
// \ / //
// EnteringBB //
// | //
// SplitBlock---------\ //
// _____|_____ | //
// / EntryBB \ StartBlock //
// | (region) | | //
// \_ExitingBB_/ ExitingBlock //
// | | //
// MergeBlock---------/ //
// | //
// ExitBB //
// / \ //
//
// Split the edge between SplitBlock and EntryBB, to avoid a critical edge.
splitEdge(SplitBlock, EntryBB, ".pre_entry_bb", &DT, &LI, &RI);
// \ / //
// EnteringBB //
// | //
// SplitBlock---------\ //
// | | //
// PreEntryBB | //
// _____|_____ | //
// / EntryBB \ StartBlock //
// | (region) | | //
// \_ExitingBB_/ ExitingBlock //
// | | //
// MergeBlock---------/ //
// | //
// ExitBB //
// / \ //
return std::make_pair(StartBlock, ExitingBlock);
}