b866574246
This pass allows removing getResultConversionKind from BufferizeTypeConverter. This pass replaces the AppendToArgumentsList functionality. As far as I could tell, the only use of this functionlity is to perform the transformation that is implemented in this pass. Future patches will remove the getResultConversionKind machinery from BufferizeTypeConverter, but sending this patch for individual review for clarity. Differential Revision: https://reviews.llvm.org/D90071
144 lines
5.3 KiB
C++
144 lines
5.3 KiB
C++
//===- BufferResultsToOutParams.cpp - Calling convention conversion -------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "PassDetail.h"
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#include "mlir/Dialect/Linalg/IR/LinalgOps.h"
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#include "mlir/Dialect/StandardOps/IR/Ops.h"
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#include "mlir/IR/Operation.h"
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#include "mlir/Pass/Pass.h"
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#include "mlir/Transforms/Passes.h"
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using namespace mlir;
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// Updates the func op and entry block.
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//
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// Any args appended to the entry block are added to `appendedEntryArgs`.
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static void updateFuncOp(FuncOp func,
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SmallVectorImpl<BlockArgument> &appendedEntryArgs) {
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auto functionType = func.getType();
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// Collect information about the results will become appended arguments.
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SmallVector<Type, 6> erasedResultTypes;
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SmallVector<unsigned, 6> erasedResultIndices;
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for (auto resultType : llvm::enumerate(functionType.getResults())) {
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if (resultType.value().isa<BaseMemRefType>()) {
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erasedResultIndices.push_back(resultType.index());
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erasedResultTypes.push_back(resultType.value());
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}
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}
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// Add the new arguments to the function type.
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auto newArgTypes = llvm::to_vector<6>(
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llvm::concat<const Type>(functionType.getInputs(), erasedResultTypes));
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auto newFunctionType = FunctionType::get(
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newArgTypes, functionType.getResults(), func.getContext());
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func.setType(newFunctionType);
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// Transfer the result attributes to arg attributes.
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for (int i = 0, e = erasedResultTypes.size(); i < e; i++)
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func.setArgAttrs(functionType.getNumInputs() + i,
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func.getResultAttrs(erasedResultIndices[i]));
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// Erase the results.
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func.eraseResults(erasedResultIndices);
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// Add the new arguments to the entry block if the function is not external.
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if (func.isExternal())
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return;
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auto newArgs = func.front().addArguments(erasedResultTypes);
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appendedEntryArgs.append(newArgs.begin(), newArgs.end());
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}
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// Updates all ReturnOps in the scope of the given FuncOp by either keeping them
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// as return values or copying the associated buffer contents into the given
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// out-params.
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static void updateReturnOps(FuncOp func,
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ArrayRef<BlockArgument> appendedEntryArgs) {
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func.walk([&](ReturnOp op) {
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SmallVector<Value, 6> copyIntoOutParams;
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SmallVector<Value, 6> keepAsReturnOperands;
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for (Value operand : op.getOperands()) {
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if (operand.getType().isa<BaseMemRefType>())
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copyIntoOutParams.push_back(operand);
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else
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keepAsReturnOperands.push_back(operand);
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}
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OpBuilder builder(op);
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for (auto t : llvm::zip(copyIntoOutParams, appendedEntryArgs))
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builder.create<linalg::CopyOp>(op.getLoc(), std::get<0>(t),
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std::get<1>(t));
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builder.create<ReturnOp>(op.getLoc(), keepAsReturnOperands);
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op.erase();
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});
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}
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// Updates all CallOps in the scope of the given ModuleOp by allocating
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// temporary buffers for newly introduced out params.
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static LogicalResult updateCalls(ModuleOp module) {
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bool didFail = false;
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module.walk([&](CallOp op) {
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SmallVector<Value, 6> replaceWithNewCallResults;
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SmallVector<Value, 6> replaceWithOutParams;
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for (OpResult result : op.getResults()) {
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if (result.getType().isa<BaseMemRefType>())
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replaceWithOutParams.push_back(result);
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else
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replaceWithNewCallResults.push_back(result);
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}
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SmallVector<Value, 6> outParams;
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OpBuilder builder(op);
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for (Value memref : replaceWithOutParams) {
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if (!memref.getType().cast<BaseMemRefType>().hasStaticShape()) {
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op.emitError()
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<< "cannot create out param for dynamically shaped result";
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didFail = true;
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return;
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}
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Value outParam = builder.create<AllocOp>(
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op.getLoc(), memref.getType().cast<MemRefType>());
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memref.replaceAllUsesWith(outParam);
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outParams.push_back(outParam);
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}
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auto newOperands = llvm::to_vector<6>(op.getOperands());
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newOperands.append(outParams.begin(), outParams.end());
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auto newResultTypes = llvm::to_vector<6>(llvm::map_range(
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replaceWithNewCallResults, [](Value v) { return v.getType(); }));
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auto newCall = builder.create<CallOp>(op.getLoc(), op.calleeAttr(),
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newResultTypes, newOperands);
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for (auto t : llvm::zip(replaceWithNewCallResults, newCall.getResults()))
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std::get<0>(t).replaceAllUsesWith(std::get<1>(t));
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op.erase();
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});
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return failure(didFail);
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}
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namespace {
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struct BufferResultsToOutParamsPass
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: BufferResultsToOutParamsBase<BufferResultsToOutParamsPass> {
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void runOnOperation() override {
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ModuleOp module = getOperation();
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for (auto func : module.getOps<FuncOp>()) {
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SmallVector<BlockArgument, 6> appendedEntryArgs;
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updateFuncOp(func, appendedEntryArgs);
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if (func.isExternal())
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continue;
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updateReturnOps(func, appendedEntryArgs);
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}
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if (failed(updateCalls(module)))
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return signalPassFailure();
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}
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};
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} // end anonymous namespace
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std::unique_ptr<Pass> mlir::createBufferResultsToOutParamsPass() {
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return std::make_unique<BufferResultsToOutParamsPass>();
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}
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