llvm-project/mlir/lib/Analysis/Dominance.cpp
River Riddle e7d594bb1c Replace the implementation of Function and Module with FuncOp and ModuleOp.
This is an important step in allowing for the top-level of the IR to be extensible. FuncOp and ModuleOp contain all of the necessary functionality, while using the existing operation infrastructure. As an interim step, many of the usages of Function and Module, including the name, will remain the same. In the future, many of these will be relaxed to allow for many different types of top-level operations to co-exist.

PiperOrigin-RevId: 256427100
2019-07-03 14:37:18 -07:00

165 lines
6.1 KiB
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//===- Dominance.cpp - Dominator analysis for CFGs ------------------------===//
//
// Copyright 2019 The MLIR Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// =============================================================================
//
// Implementation of dominance related classes and instantiations of extern
// templates.
//
//===----------------------------------------------------------------------===//
#include "mlir/Analysis/Dominance.h"
#include "mlir/IR/Operation.h"
#include "llvm/Support/GenericDomTreeConstruction.h"
using namespace mlir;
using namespace mlir::detail;
template class llvm::DominatorTreeBase<Block, /*IsPostDom=*/false>;
template class llvm::DominatorTreeBase<Block, /*IsPostDom=*/true>;
template class llvm::DomTreeNodeBase<Block>;
//===----------------------------------------------------------------------===//
// DominanceInfoBase
//===----------------------------------------------------------------------===//
template <bool IsPostDom>
void DominanceInfoBase<IsPostDom>::recalculate(Operation *op) {
dominanceInfos.clear();
/// Build the dominance for each of the operation regions.
op->walk([&](Operation *op) {
for (auto &region : op->getRegions()) {
// Don't compute dominance if the region is empty.
if (region.empty())
continue;
auto opDominance = llvm::make_unique<base>();
opDominance->recalculate(region);
dominanceInfos.try_emplace(&region, std::move(opDominance));
}
});
}
/// Return true if the specified block A properly dominates block B.
template <bool IsPostDom>
bool DominanceInfoBase<IsPostDom>::properlyDominates(Block *a, Block *b) {
// A block dominates itself but does not properly dominate itself.
if (a == b)
return false;
// If either a or b are null, then conservatively return false.
if (!a || !b)
return false;
// If both blocks are not in the same region, 'a' properly dominates 'b' if
// 'b' is defined in an operation region that (recursively) ends up being
// dominated by 'a'. Walk up the list of containers enclosing B.
auto *regionA = a->getParent(), *regionB = b->getParent();
if (regionA != regionB) {
Operation *bAncestor;
do {
bAncestor = regionB->getContainingOp();
// If 'bAncestor' is the top level region, then 'a' is a block that post
// dominates 'b'.
if (!bAncestor || !bAncestor->getBlock())
return IsPostDom;
regionB = bAncestor->getBlock()->getParent();
} while (regionA != regionB);
// Check to see if the ancestor of 'b' is the same block as 'a'.
b = bAncestor->getBlock();
if (a == b)
return true;
}
// Otherwise, use the standard dominance functionality.
// If we don't have a dominance information for this region, assume that b is
// dominated by anything.
auto baseInfoIt = dominanceInfos.find(regionA);
if (baseInfoIt == dominanceInfos.end())
return true;
return baseInfoIt->second->properlyDominates(a, b);
}
template class mlir::detail::DominanceInfoBase</*IsPostDom=*/true>;
template class mlir::detail::DominanceInfoBase</*IsPostDom=*/false>;
//===----------------------------------------------------------------------===//
// DominanceInfo
//===----------------------------------------------------------------------===//
/// Return true if operation A properly dominates operation B.
bool DominanceInfo::properlyDominates(Operation *a, Operation *b) {
auto *aBlock = a->getBlock(), *bBlock = b->getBlock();
// If a or b are not within a block, then a does not dominate b.
if (!aBlock || !bBlock)
return false;
// If the blocks are the same, then check if b is before a in the block.
if (aBlock == bBlock)
return a->isBeforeInBlock(b);
// Traverse up b's hierarchy to check if b's block is contained in a's.
if (auto *bAncestor = aBlock->findAncestorInstInBlock(*b)) {
// Since we already know that aBlock != bBlock, here bAncestor != b.
// a and bAncestor are in the same block; check if 'a' dominates
// bAncestor.
return dominates(a, bAncestor);
}
// If the blocks are different, check if a's block dominates b's.
return properlyDominates(aBlock, bBlock);
}
/// Return true if value A properly dominates operation B.
bool DominanceInfo::properlyDominates(Value *a, Operation *b) {
if (auto *aInst = a->getDefiningOp())
return properlyDominates(aInst, b);
// block arguments properly dominate all operations in their own block, so
// we use a dominates check here, not a properlyDominates check.
return dominates(cast<BlockArgument>(a)->getOwner(), b->getBlock());
}
//===----------------------------------------------------------------------===//
// PostDominanceInfo
//===----------------------------------------------------------------------===//
/// Returns true if statement 'a' properly postdominates statement b.
bool PostDominanceInfo::properlyPostDominates(Operation *a, Operation *b) {
auto *aBlock = a->getBlock(), *bBlock = b->getBlock();
// If a or b are not within a block, then a does not post dominate b.
if (!aBlock || !bBlock)
return false;
// If the blocks are the same, check if b is before a in the block.
if (aBlock == bBlock)
return b->isBeforeInBlock(a);
// Traverse up b's hierarchy to check if b's block is contained in a's.
if (auto *bAncestor = a->getBlock()->findAncestorInstInBlock(*b))
// Since we already know that aBlock != bBlock, here bAncestor != b.
// a and bAncestor are in the same block; check if 'a' postdominates
// bAncestor.
return postDominates(a, bAncestor);
// If the blocks are different, check if a's block post dominates b's.
return properlyDominates(aBlock, bBlock);
}