llvm-project/mlir/lib/Transforms/BufferResultsToOutParams.cpp

144 lines
5.3 KiB
C++

//===- BufferResultsToOutParams.cpp - Calling convention conversion -------===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "PassDetail.h"
#include "mlir/Dialect/Linalg/IR/LinalgOps.h"
#include "mlir/Dialect/StandardOps/IR/Ops.h"
#include "mlir/IR/Operation.h"
#include "mlir/Pass/Pass.h"
#include "mlir/Transforms/Passes.h"
using namespace mlir;
// Updates the func op and entry block.
//
// Any args appended to the entry block are added to `appendedEntryArgs`.
static void updateFuncOp(FuncOp func,
SmallVectorImpl<BlockArgument> &appendedEntryArgs) {
auto functionType = func.getType();
// Collect information about the results will become appended arguments.
SmallVector<Type, 6> erasedResultTypes;
SmallVector<unsigned, 6> erasedResultIndices;
for (auto resultType : llvm::enumerate(functionType.getResults())) {
if (resultType.value().isa<BaseMemRefType>()) {
erasedResultIndices.push_back(resultType.index());
erasedResultTypes.push_back(resultType.value());
}
}
// Add the new arguments to the function type.
auto newArgTypes = llvm::to_vector<6>(
llvm::concat<const Type>(functionType.getInputs(), erasedResultTypes));
auto newFunctionType = FunctionType::get(func.getContext(), newArgTypes,
functionType.getResults());
func.setType(newFunctionType);
// Transfer the result attributes to arg attributes.
for (int i = 0, e = erasedResultTypes.size(); i < e; i++)
func.setArgAttrs(functionType.getNumInputs() + i,
func.getResultAttrs(erasedResultIndices[i]));
// Erase the results.
func.eraseResults(erasedResultIndices);
// Add the new arguments to the entry block if the function is not external.
if (func.isExternal())
return;
auto newArgs = func.front().addArguments(erasedResultTypes);
appendedEntryArgs.append(newArgs.begin(), newArgs.end());
}
// Updates all ReturnOps in the scope of the given FuncOp by either keeping them
// as return values or copying the associated buffer contents into the given
// out-params.
static void updateReturnOps(FuncOp func,
ArrayRef<BlockArgument> appendedEntryArgs) {
func.walk([&](ReturnOp op) {
SmallVector<Value, 6> copyIntoOutParams;
SmallVector<Value, 6> keepAsReturnOperands;
for (Value operand : op.getOperands()) {
if (operand.getType().isa<BaseMemRefType>())
copyIntoOutParams.push_back(operand);
else
keepAsReturnOperands.push_back(operand);
}
OpBuilder builder(op);
for (auto t : llvm::zip(copyIntoOutParams, appendedEntryArgs))
builder.create<linalg::CopyOp>(op.getLoc(), std::get<0>(t),
std::get<1>(t));
builder.create<ReturnOp>(op.getLoc(), keepAsReturnOperands);
op.erase();
});
}
// Updates all CallOps in the scope of the given ModuleOp by allocating
// temporary buffers for newly introduced out params.
static LogicalResult updateCalls(ModuleOp module) {
bool didFail = false;
module.walk([&](CallOp op) {
SmallVector<Value, 6> replaceWithNewCallResults;
SmallVector<Value, 6> replaceWithOutParams;
for (OpResult result : op.getResults()) {
if (result.getType().isa<BaseMemRefType>())
replaceWithOutParams.push_back(result);
else
replaceWithNewCallResults.push_back(result);
}
SmallVector<Value, 6> outParams;
OpBuilder builder(op);
for (Value memref : replaceWithOutParams) {
if (!memref.getType().cast<BaseMemRefType>().hasStaticShape()) {
op.emitError()
<< "cannot create out param for dynamically shaped result";
didFail = true;
return;
}
Value outParam = builder.create<AllocOp>(
op.getLoc(), memref.getType().cast<MemRefType>());
memref.replaceAllUsesWith(outParam);
outParams.push_back(outParam);
}
auto newOperands = llvm::to_vector<6>(op.getOperands());
newOperands.append(outParams.begin(), outParams.end());
auto newResultTypes = llvm::to_vector<6>(llvm::map_range(
replaceWithNewCallResults, [](Value v) { return v.getType(); }));
auto newCall = builder.create<CallOp>(op.getLoc(), op.calleeAttr(),
newResultTypes, newOperands);
for (auto t : llvm::zip(replaceWithNewCallResults, newCall.getResults()))
std::get<0>(t).replaceAllUsesWith(std::get<1>(t));
op.erase();
});
return failure(didFail);
}
namespace {
struct BufferResultsToOutParamsPass
: BufferResultsToOutParamsBase<BufferResultsToOutParamsPass> {
void runOnOperation() override {
ModuleOp module = getOperation();
for (auto func : module.getOps<FuncOp>()) {
SmallVector<BlockArgument, 6> appendedEntryArgs;
updateFuncOp(func, appendedEntryArgs);
if (func.isExternal())
continue;
updateReturnOps(func, appendedEntryArgs);
}
if (failed(updateCalls(module)))
return signalPassFailure();
}
};
} // end anonymous namespace
std::unique_ptr<Pass> mlir::createBufferResultsToOutParamsPass() {
return std::make_unique<BufferResultsToOutParamsPass>();
}