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llvm/mlir/lib/Conversion/ControlFlowToSCF/ControlFlowToSCF.cpp
Markus Böck 90b25562b9 [mlir][NFC] Expose the CFGToSCFInterface for the ControlFlowToSCF pass 
This is useful for any downstream users who may just want to use slightly different ops than the pass or need to take into account other ops in the input while still dealing with ControlFlow ops for the most part.
This also helps writing test implementations for `transformCFGToSCF`.

Since the implementation is now public, comments noting the post conditions of the methods have been added to ensure downstream users can stay compatible with the existing implementation.

Differential Revision: https://reviews.llvm.org/D157971
2023-08-15 15:55:34 +02:00

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//===- ControlFlowToSCF.h - ControlFlow to SCF -------------*- C++ ------*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// Define conversions from the ControlFlow dialect to the SCF dialect.
//
//===----------------------------------------------------------------------===//
#include "mlir/Conversion/ControlFlowToSCF/ControlFlowToSCF.h"
#include "mlir/Dialect/Arith/IR/Arith.h"
#include "mlir/Dialect/ControlFlow/IR/ControlFlow.h"
#include "mlir/Dialect/ControlFlow/IR/ControlFlowOps.h"
#include "mlir/Dialect/Func/IR/FuncOps.h"
#include "mlir/Dialect/LLVMIR/LLVMDialect.h"
#include "mlir/Dialect/SCF/IR/SCF.h"
#include "mlir/Dialect/UB/IR/UBOps.h"
#include "mlir/Pass/Pass.h"
#include "mlir/Transforms/CFGToSCF.h"
namespace mlir {
#define GEN_PASS_DEF_LIFTCONTROLFLOWTOSCFPASS
#include "mlir/Conversion/Passes.h.inc"
} // namespace mlir
using namespace mlir;
FailureOr<Operation *>
ControlFlowToSCFTransformation::createStructuredBranchRegionOp(
OpBuilder &builder, Operation *controlFlowCondOp, TypeRange resultTypes,
MutableArrayRef<Region> regions) {
if (auto condBrOp = dyn_cast<cf::CondBranchOp>(controlFlowCondOp)) {
assert(regions.size() == 2);
auto ifOp = builder.create<scf::IfOp>(controlFlowCondOp->getLoc(),
resultTypes, condBrOp.getCondition());
ifOp.getThenRegion().takeBody(regions[0]);
ifOp.getElseRegion().takeBody(regions[1]);
return ifOp.getOperation();
}
if (auto switchOp = dyn_cast<cf::SwitchOp>(controlFlowCondOp)) {
// `getCFGSwitchValue` returns an i32 that we need to convert to index
// fist.
auto cast = builder.create<arith::IndexCastUIOp>(
controlFlowCondOp->getLoc(), builder.getIndexType(),
switchOp.getFlag());
SmallVector<int64_t> cases;
if (auto caseValues = switchOp.getCaseValues())
llvm::append_range(
cases, llvm::map_range(*caseValues, [](const llvm::APInt &apInt) {
return apInt.getZExtValue();
}));
assert(regions.size() == cases.size() + 1);
auto indexSwitchOp = builder.create<scf::IndexSwitchOp>(
controlFlowCondOp->getLoc(), resultTypes, cast, cases, cases.size());
indexSwitchOp.getDefaultRegion().takeBody(regions[0]);
for (auto &&[targetRegion, sourceRegion] :
llvm::zip(indexSwitchOp.getCaseRegions(), llvm::drop_begin(regions)))
targetRegion.takeBody(sourceRegion);
return indexSwitchOp.getOperation();
}
controlFlowCondOp->emitOpError(
"Cannot convert unknown control flow op to structured control flow");
return failure();
}
LogicalResult
ControlFlowToSCFTransformation::createStructuredBranchRegionTerminatorOp(
Location loc, OpBuilder &builder, Operation *branchRegionOp,
ValueRange results) {
builder.create<scf::YieldOp>(loc, results);
return success();
}
FailureOr<Operation *>
ControlFlowToSCFTransformation::createStructuredDoWhileLoopOp(
OpBuilder &builder, Operation *replacedOp, ValueRange loopVariablesInit,
Value condition, ValueRange loopVariablesNextIter, Region &&loopBody) {
Location loc = replacedOp->getLoc();
auto whileOp = builder.create<scf::WhileOp>(loc, loopVariablesInit.getTypes(),
loopVariablesInit);
whileOp.getBefore().takeBody(loopBody);
builder.setInsertionPointToEnd(&whileOp.getBefore().back());
// `getCFGSwitchValue` returns a i32. We therefore need to truncate the
// condition to i1 first. It is guaranteed to be either 0 or 1 already.
builder.create<scf::ConditionOp>(
loc, builder.create<arith::TruncIOp>(loc, builder.getI1Type(), condition),
loopVariablesNextIter);
auto *afterBlock = new Block;
whileOp.getAfter().push_back(afterBlock);
afterBlock->addArguments(
loopVariablesInit.getTypes(),
SmallVector<Location>(loopVariablesInit.size(), loc));
builder.setInsertionPointToEnd(afterBlock);
builder.create<scf::YieldOp>(loc, afterBlock->getArguments());
return whileOp.getOperation();
}
Value ControlFlowToSCFTransformation::getCFGSwitchValue(Location loc,
OpBuilder &builder,
unsigned int value) {
return builder.create<arith::ConstantOp>(loc,
builder.getI32IntegerAttr(value));
}
void ControlFlowToSCFTransformation::createCFGSwitchOp(
Location loc, OpBuilder &builder, Value flag,
ArrayRef<unsigned int> caseValues, BlockRange caseDestinations,
ArrayRef<ValueRange> caseArguments, Block *defaultDest,
ValueRange defaultArgs) {
builder.create<cf::SwitchOp>(loc, flag, defaultDest, defaultArgs,
llvm::to_vector_of<int32_t>(caseValues),
caseDestinations, caseArguments);
}
Value ControlFlowToSCFTransformation::getUndefValue(Location loc,
OpBuilder &builder,
Type type) {
return builder.create<ub::PoisonOp>(loc, type, nullptr);
}
FailureOr<Operation *>
ControlFlowToSCFTransformation::createUnreachableTerminator(Location loc,
OpBuilder &builder,
Region &region) {
// TODO: This should create a `ub.unreachable` op. Once such an operation
// exists to make the pass independent of the func dialect. For now just
// return poison values.
auto funcOp = dyn_cast<func::FuncOp>(region.getParentOp());
if (!funcOp)
return emitError(loc, "Expected '")
<< func::FuncOp::getOperationName() << "' as top level operation";
return builder
.create<func::ReturnOp>(
loc, llvm::map_to_vector(funcOp.getResultTypes(),
[&](Type type) {
return getUndefValue(loc, builder, type);
}))
.getOperation();
}
namespace {
struct LiftControlFlowToSCF
: public impl::LiftControlFlowToSCFPassBase<LiftControlFlowToSCF> {
using Base::Base;
void runOnOperation() override {
ControlFlowToSCFTransformation transformation;
bool changed = false;
WalkResult result = getOperation()->walk([&](func::FuncOp funcOp) {
if (funcOp.getBody().empty())
return WalkResult::advance();
FailureOr<bool> changedFunc = transformCFGToSCF(
funcOp.getBody(), transformation,
funcOp != getOperation() ? getChildAnalysis<DominanceInfo>(funcOp)
: getAnalysis<DominanceInfo>());
if (failed(changedFunc))
return WalkResult::interrupt();
changed |= *changedFunc;
return WalkResult::advance();
});
if (result.wasInterrupted())
return signalPassFailure();
if (!changed)
markAllAnalysesPreserved();
}
};
} // namespace
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