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AllocLikeConversion.cpp
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//===- AllocLikeConversion.cpp - LLVM conversion for alloc operations -----===//
//
// 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 "mlir/Conversion/MemRefToLLVM/AllocLikeConversion.h"
#include "mlir/Analysis/DataLayoutAnalysis.h"
#include "mlir/Dialect/LLVMIR/FunctionCallUtils.h"
#include "mlir/Dialect/LLVMIR/LLVMDialect.h"
#include "mlir/IR/SymbolTable.h"
using namespace mlir;
static FailureOr<LLVM::LLVMFuncOp>
getNotalignedAllocFn(const LLVMTypeConverter *typeConverter, Operation *module,
Type indexType) {
bool useGenericFn = typeConverter->getOptions().useGenericFunctions;
if (useGenericFn)
return LLVM::lookupOrCreateGenericAllocFn(module, indexType);
return LLVM::lookupOrCreateMallocFn(module, indexType);
}
static FailureOr<LLVM::LLVMFuncOp>
getAlignedAllocFn(const LLVMTypeConverter *typeConverter, Operation *module,
Type indexType) {
bool useGenericFn = typeConverter->getOptions().useGenericFunctions;
if (useGenericFn)
return LLVM::lookupOrCreateGenericAlignedAllocFn(module, indexType);
return LLVM::lookupOrCreateAlignedAllocFn(module, indexType);
}
Value AllocationOpLLVMLowering::createAligned(
ConversionPatternRewriter &rewriter, Location loc, Value input,
Value alignment) {
Value one = createIndexAttrConstant(rewriter, loc, alignment.getType(), 1);
Value bump = rewriter.create<LLVM::SubOp>(loc, alignment, one);
Value bumped = rewriter.create<LLVM::AddOp>(loc, input, bump);
Value mod = rewriter.create<LLVM::URemOp>(loc, bumped, alignment);
return rewriter.create<LLVM::SubOp>(loc, bumped, mod);
}
static Value castAllocFuncResult(ConversionPatternRewriter &rewriter,
Location loc, Value allocatedPtr,
MemRefType memRefType, Type elementPtrType,
const LLVMTypeConverter &typeConverter) {
auto allocatedPtrTy = cast<LLVM::LLVMPointerType>(allocatedPtr.getType());
FailureOr<unsigned> maybeMemrefAddrSpace =
typeConverter.getMemRefAddressSpace(memRefType);
if (failed(maybeMemrefAddrSpace))
return Value();
unsigned memrefAddrSpace = *maybeMemrefAddrSpace;
if (allocatedPtrTy.getAddressSpace() != memrefAddrSpace)
allocatedPtr = rewriter.create<LLVM::AddrSpaceCastOp>(
loc, LLVM::LLVMPointerType::get(rewriter.getContext(), memrefAddrSpace),
allocatedPtr);
return allocatedPtr;
}
std::tuple<Value, Value> AllocationOpLLVMLowering::allocateBufferManuallyAlign(
ConversionPatternRewriter &rewriter, Location loc, Value sizeBytes,
Operation *op, Value alignment) const {
if (alignment) {
// Adjust the allocation size to consider alignment.
sizeBytes = rewriter.create<LLVM::AddOp>(loc, sizeBytes, alignment);
}
MemRefType memRefType = getMemRefResultType(op);
// Allocate the underlying buffer.
Type elementPtrType = this->getElementPtrType(memRefType);
if (!elementPtrType) {
emitError(loc, "conversion of memref memory space ")
<< memRefType.getMemorySpace()
<< " to integer address space "
"failed. Consider adding memory space conversions.";
}
FailureOr<LLVM::LLVMFuncOp> allocFuncOp = getNotalignedAllocFn(
getTypeConverter(), op->getParentWithTrait<OpTrait::SymbolTable>(),
getIndexType());
if (failed(allocFuncOp))
return std::make_tuple(Value(), Value());
auto results =
rewriter.create<LLVM::CallOp>(loc, allocFuncOp.value(), sizeBytes);
Value allocatedPtr =
castAllocFuncResult(rewriter, loc, results.getResult(), memRefType,
elementPtrType, *getTypeConverter());
if (!allocatedPtr)
return std::make_tuple(Value(), Value());
Value alignedPtr = allocatedPtr;
if (alignment) {
// Compute the aligned pointer.
Value allocatedInt =
rewriter.create<LLVM::PtrToIntOp>(loc, getIndexType(), allocatedPtr);
Value alignmentInt = createAligned(rewriter, loc, allocatedInt, alignment);
alignedPtr =
rewriter.create<LLVM::IntToPtrOp>(loc, elementPtrType, alignmentInt);
}
return std::make_tuple(allocatedPtr, alignedPtr);
}
unsigned AllocationOpLLVMLowering::getMemRefEltSizeInBytes(
MemRefType memRefType, Operation *op,
const DataLayout *defaultLayout) const {
const DataLayout *layout = defaultLayout;
if (const DataLayoutAnalysis *analysis =
getTypeConverter()->getDataLayoutAnalysis()) {
layout = &analysis->getAbove(op);
}
Type elementType = memRefType.getElementType();
if (auto memRefElementType = dyn_cast<MemRefType>(elementType))
return getTypeConverter()->getMemRefDescriptorSize(memRefElementType,
*layout);
if (auto memRefElementType = dyn_cast<UnrankedMemRefType>(elementType))
return getTypeConverter()->getUnrankedMemRefDescriptorSize(
memRefElementType, *layout);
return layout->getTypeSize(elementType);
}
bool AllocationOpLLVMLowering::isMemRefSizeMultipleOf(
MemRefType type, uint64_t factor, Operation *op,
const DataLayout *defaultLayout) const {
uint64_t sizeDivisor = getMemRefEltSizeInBytes(type, op, defaultLayout);
for (unsigned i = 0, e = type.getRank(); i < e; i++) {
if (type.isDynamicDim(i))
continue;
sizeDivisor = sizeDivisor * type.getDimSize(i);
}
return sizeDivisor % factor == 0;
}
Value AllocationOpLLVMLowering::allocateBufferAutoAlign(
ConversionPatternRewriter &rewriter, Location loc, Value sizeBytes,
Operation *op, const DataLayout *defaultLayout, int64_t alignment) const {
Value allocAlignment =
createIndexAttrConstant(rewriter, loc, getIndexType(), alignment);
MemRefType memRefType = getMemRefResultType(op);
// Function aligned_alloc requires size to be a multiple of alignment; we pad
// the size to the next multiple if necessary.
if (!isMemRefSizeMultipleOf(memRefType, alignment, op, defaultLayout))
sizeBytes = createAligned(rewriter, loc, sizeBytes, allocAlignment);
Type elementPtrType = this->getElementPtrType(memRefType);
FailureOr<LLVM::LLVMFuncOp> allocFuncOp = getAlignedAllocFn(
getTypeConverter(), op->getParentWithTrait<OpTrait::SymbolTable>(),
getIndexType());
if (failed(allocFuncOp))
return Value();
auto results = rewriter.create<LLVM::CallOp>(
loc, allocFuncOp.value(), ValueRange({allocAlignment, sizeBytes}));
return castAllocFuncResult(rewriter, loc, results.getResult(), memRefType,
elementPtrType, *getTypeConverter());
}
void AllocLikeOpLLVMLowering::setRequiresNumElements() {
requiresNumElements = true;
}
LogicalResult AllocLikeOpLLVMLowering::matchAndRewrite(
Operation *op, ArrayRef<Value> operands,
ConversionPatternRewriter &rewriter) const {
MemRefType memRefType = getMemRefResultType(op);
if (!isConvertibleAndHasIdentityMaps(memRefType))
return rewriter.notifyMatchFailure(op, "incompatible memref type");
auto loc = op->getLoc();
// Get actual sizes of the memref as values: static sizes are constant
// values and dynamic sizes are passed to 'alloc' as operands. In case of
// zero-dimensional memref, assume a scalar (size 1).
SmallVector<Value, 4> sizes;
SmallVector<Value, 4> strides;
Value size;
this->getMemRefDescriptorSizes(loc, memRefType, operands, rewriter, sizes,
strides, size, !requiresNumElements);
// Allocate the underlying buffer.
auto [allocatedPtr, alignedPtr] =
this->allocateBuffer(rewriter, loc, size, op);
if (!allocatedPtr || !alignedPtr)
return rewriter.notifyMatchFailure(loc,
"underlying buffer allocation failed");
// Create the MemRef descriptor.
auto memRefDescriptor = this->createMemRefDescriptor(
loc, memRefType, allocatedPtr, alignedPtr, sizes, strides, rewriter);
// Return the final value of the descriptor.
rewriter.replaceOp(op, {memRefDescriptor});
return success();
}