9f13b9346b
Add memref.realloc and canonicalization of the op. Add conversion patterns for lowering the op to LLVM using unaligned alloc or aligned alloc based on the conversion option. Add filecheck tests for parsing and converting the op. Add an integration test. Reviewed By: ftynse Differential Revision: https://reviews.llvm.org/D133424
164 lines
6.8 KiB
C++
164 lines
6.8 KiB
C++
//===- AllocLikeConversion.cpp - LLVM conversion for alloc operations -----===//
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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 "mlir/Conversion/MemRefToLLVM/AllocLikeConversion.h"
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#include "mlir/Analysis/DataLayoutAnalysis.h"
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#include "mlir/Dialect/LLVMIR/FunctionCallUtils.h"
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#include "mlir/Dialect/LLVMIR/LLVMDialect.h"
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using namespace mlir;
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namespace {
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// TODO: Fix the LLVM utilities for looking up functions to take Operation*
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// with SymbolTable trait instead of ModuleOp and make similar change here. This
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// allows call sites to use getParentWithTrait<OpTrait::SymbolTable> instead
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// of getParentOfType<ModuleOp> to pass down the operation.
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LLVM::LLVMFuncOp getNotalignedAllocFn(LLVMTypeConverter *typeConverter,
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ModuleOp module, Type indexType) {
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bool useGenericFn = typeConverter->getOptions().useGenericFunctions;
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if (useGenericFn)
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return LLVM::lookupOrCreateGenericAllocFn(module, indexType);
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return LLVM::lookupOrCreateMallocFn(module, indexType);
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}
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LLVM::LLVMFuncOp getAlignedAllocFn(LLVMTypeConverter *typeConverter,
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ModuleOp module, Type indexType) {
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bool useGenericFn = typeConverter->getOptions().useGenericFunctions;
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if (useGenericFn)
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return LLVM::lookupOrCreateGenericAlignedAllocFn(module, indexType);
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return LLVM::lookupOrCreateAlignedAllocFn(module, indexType);
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}
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} // end namespace
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Value AllocationOpLLVMLowering::createAligned(
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ConversionPatternRewriter &rewriter, Location loc, Value input,
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Value alignment) {
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Value one = createIndexAttrConstant(rewriter, loc, alignment.getType(), 1);
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Value bump = rewriter.create<LLVM::SubOp>(loc, alignment, one);
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Value bumped = rewriter.create<LLVM::AddOp>(loc, input, bump);
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Value mod = rewriter.create<LLVM::URemOp>(loc, bumped, alignment);
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return rewriter.create<LLVM::SubOp>(loc, bumped, mod);
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}
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std::tuple<Value, Value> AllocationOpLLVMLowering::allocateBufferManuallyAlign(
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ConversionPatternRewriter &rewriter, Location loc, Value sizeBytes,
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Operation *op, Value alignment) const {
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if (alignment) {
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// Adjust the allocation size to consider alignment.
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sizeBytes = rewriter.create<LLVM::AddOp>(loc, sizeBytes, alignment);
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}
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MemRefType memRefType = getMemRefResultType(op);
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// Allocate the underlying buffer.
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Type elementPtrType = this->getElementPtrType(memRefType);
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LLVM::LLVMFuncOp allocFuncOp = getNotalignedAllocFn(
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getTypeConverter(), op->getParentOfType<ModuleOp>(), getIndexType());
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auto results = rewriter.create<LLVM::CallOp>(loc, allocFuncOp, sizeBytes);
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Value allocatedPtr = rewriter.create<LLVM::BitcastOp>(loc, elementPtrType,
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results.getResult());
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Value alignedPtr = allocatedPtr;
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if (alignment) {
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// Compute the aligned pointer.
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Value allocatedInt =
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rewriter.create<LLVM::PtrToIntOp>(loc, getIndexType(), allocatedPtr);
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Value alignmentInt = createAligned(rewriter, loc, allocatedInt, alignment);
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alignedPtr =
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rewriter.create<LLVM::IntToPtrOp>(loc, elementPtrType, alignmentInt);
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}
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return std::make_tuple(allocatedPtr, alignedPtr);
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}
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unsigned AllocationOpLLVMLowering::getMemRefEltSizeInBytes(
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MemRefType memRefType, Operation *op,
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const DataLayout *defaultLayout) const {
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const DataLayout *layout = defaultLayout;
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if (const DataLayoutAnalysis *analysis =
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getTypeConverter()->getDataLayoutAnalysis()) {
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layout = &analysis->getAbove(op);
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}
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Type elementType = memRefType.getElementType();
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if (auto memRefElementType = elementType.dyn_cast<MemRefType>())
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return getTypeConverter()->getMemRefDescriptorSize(memRefElementType,
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*layout);
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if (auto memRefElementType = elementType.dyn_cast<UnrankedMemRefType>())
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return getTypeConverter()->getUnrankedMemRefDescriptorSize(
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memRefElementType, *layout);
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return layout->getTypeSize(elementType);
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}
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bool AllocationOpLLVMLowering::isMemRefSizeMultipleOf(
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MemRefType type, uint64_t factor, Operation *op,
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const DataLayout *defaultLayout) const {
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uint64_t sizeDivisor = getMemRefEltSizeInBytes(type, op, defaultLayout);
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for (unsigned i = 0, e = type.getRank(); i < e; i++) {
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if (ShapedType::isDynamic(type.getDimSize(i)))
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continue;
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sizeDivisor = sizeDivisor * type.getDimSize(i);
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}
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return sizeDivisor % factor == 0;
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}
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Value AllocationOpLLVMLowering::allocateBufferAutoAlign(
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ConversionPatternRewriter &rewriter, Location loc, Value sizeBytes,
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Operation *op, const DataLayout *defaultLayout, int64_t alignment) const {
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Value allocAlignment = createIndexConstant(rewriter, loc, alignment);
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MemRefType memRefType = getMemRefResultType(op);
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// Function aligned_alloc requires size to be a multiple of alignment; we pad
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// the size to the next multiple if necessary.
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if (!isMemRefSizeMultipleOf(memRefType, alignment, op, defaultLayout))
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sizeBytes = createAligned(rewriter, loc, sizeBytes, allocAlignment);
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Type elementPtrType = this->getElementPtrType(memRefType);
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LLVM::LLVMFuncOp allocFuncOp = getAlignedAllocFn(
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getTypeConverter(), op->getParentOfType<ModuleOp>(), getIndexType());
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auto results = rewriter.create<LLVM::CallOp>(
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loc, allocFuncOp, ValueRange({allocAlignment, sizeBytes}));
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Value allocatedPtr = rewriter.create<LLVM::BitcastOp>(loc, elementPtrType,
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results.getResult());
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return allocatedPtr;
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}
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LogicalResult AllocLikeOpLLVMLowering::matchAndRewrite(
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Operation *op, ArrayRef<Value> operands,
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ConversionPatternRewriter &rewriter) const {
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MemRefType memRefType = getMemRefResultType(op);
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if (!isConvertibleAndHasIdentityMaps(memRefType))
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return rewriter.notifyMatchFailure(op, "incompatible memref type");
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auto loc = op->getLoc();
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// Get actual sizes of the memref as values: static sizes are constant
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// values and dynamic sizes are passed to 'alloc' as operands. In case of
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// zero-dimensional memref, assume a scalar (size 1).
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SmallVector<Value, 4> sizes;
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SmallVector<Value, 4> strides;
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Value sizeBytes;
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this->getMemRefDescriptorSizes(loc, memRefType, operands, rewriter, sizes,
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strides, sizeBytes);
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// Allocate the underlying buffer.
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auto [allocatedPtr, alignedPtr] =
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this->allocateBuffer(rewriter, loc, sizeBytes, op);
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// Create the MemRef descriptor.
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auto memRefDescriptor = this->createMemRefDescriptor(
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loc, memRefType, allocatedPtr, alignedPtr, sizes, strides, rewriter);
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// Return the final value of the descriptor.
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rewriter.replaceOp(op, {memRefDescriptor});
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return success();
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}
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