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|
//===- LegalizeVectorStorage.cpp - Ensures SVE loads/stores are legal -----===//
//
// 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/Dialect/ArmSVE/IR/ArmSVEDialect.h"
#include "mlir/Dialect/ArmSVE/Transforms/Passes.h"
#include "mlir/Dialect/Func/IR/FuncOps.h"
#include "mlir/Dialect/MemRef/IR/MemRef.h"
#include "mlir/Dialect/Vector/IR/VectorOps.h"
#include "mlir/Transforms/GreedyPatternRewriteDriver.h"
namespace mlir::arm_sve {
#define GEN_PASS_DEF_LEGALIZEVECTORSTORAGE
#include "mlir/Dialect/ArmSVE/Transforms/Passes.h.inc"
} // namespace mlir::arm_sve
using namespace mlir;
using namespace mlir::arm_sve;
// A tag to mark unrealized_conversions produced by this pass. This is used to
// detect IR this pass failed to completely legalize, and report an error.
// If everything was successfully legalized, no tagged ops will remain after
// this pass.
constexpr StringLiteral kSVELegalizerTag("__arm_sve_legalize_vector_storage__");
/// Definitions:
///
/// [1] svbool = vector<...x[16]xi1>, which maps to some multiple of full SVE
/// predicate registers. A full predicate is the smallest quantity that can be
/// loaded/stored.
///
/// [2] SVE mask = hardware-sized SVE predicate mask, i.e. its trailing
/// dimension matches the size of a legal SVE vector size (such as
/// vector<[4]xi1>), but is too small to be stored to memory (i.e smaller than
/// a svbool).
namespace {
/// Checks if a vector type is a SVE mask [2].
bool isSVEMaskType(VectorType type) {
return type.getRank() > 0 && type.getElementType().isInteger(1) &&
type.getScalableDims().back() && type.getShape().back() < 16 &&
llvm::isPowerOf2_32(type.getShape().back()) &&
!llvm::is_contained(type.getScalableDims().drop_back(), true);
}
VectorType widenScalableMaskTypeToSvbool(VectorType type) {
assert(isSVEMaskType(type));
return VectorType::Builder(type).setDim(type.getRank() - 1, 16);
}
/// A helper for cloning an op and replacing it will a new version, updated by a
/// callback.
template <typename TOp, typename TLegalizerCallback>
void replaceOpWithLegalizedOp(PatternRewriter &rewriter, TOp op,
TLegalizerCallback callback) {
// Clone the previous op to preserve any properties/attributes.
auto newOp = op.clone();
rewriter.insert(newOp);
rewriter.replaceOp(op, callback(newOp));
}
/// A helper for cloning an op and replacing it with a new version, updated by a
/// callback, and an unrealized conversion back to the type of the replaced op.
template <typename TOp, typename TLegalizerCallback>
void replaceOpWithUnrealizedConversion(PatternRewriter &rewriter, TOp op,
TLegalizerCallback callback) {
replaceOpWithLegalizedOp(rewriter, op, [&](TOp newOp) {
// Mark our `unrealized_conversion_casts` with a pass label.
return rewriter.create<UnrealizedConversionCastOp>(
op.getLoc(), TypeRange{op.getResult().getType()},
ValueRange{callback(newOp)},
NamedAttribute(rewriter.getStringAttr(kSVELegalizerTag),
rewriter.getUnitAttr()));
});
}
/// Extracts the widened SVE memref value (that's legal to store/load) from the
/// `unrealized_conversion_cast`s added by this pass.
static FailureOr<Value> getSVELegalizedMemref(Value illegalMemref) {
Operation *definingOp = illegalMemref.getDefiningOp();
if (!definingOp || !definingOp->hasAttr(kSVELegalizerTag))
return failure();
auto unrealizedConversion =
llvm::cast<UnrealizedConversionCastOp>(definingOp);
return unrealizedConversion.getOperand(0);
}
/// The default alignment of an alloca in LLVM may request overaligned sizes for
/// SVE types, which will fail during stack frame allocation. This rewrite
/// explicitly adds a reasonable alignment to allocas of scalable types.
struct RelaxScalableVectorAllocaAlignment
: public OpRewritePattern<memref::AllocaOp> {
using OpRewritePattern::OpRewritePattern;
LogicalResult matchAndRewrite(memref::AllocaOp allocaOp,
PatternRewriter &rewriter) const override {
auto memrefElementType = allocaOp.getType().getElementType();
auto vectorType = llvm::dyn_cast<VectorType>(memrefElementType);
if (!vectorType || !vectorType.isScalable() || allocaOp.getAlignment())
return failure();
// Set alignment based on the defaults for SVE vectors and predicates.
unsigned aligment = vectorType.getElementType().isInteger(1) ? 2 : 16;
rewriter.modifyOpInPlace(allocaOp,
[&] { allocaOp.setAlignment(aligment); });
return success();
}
};
/// Replaces allocations of SVE predicates smaller than an svbool [1] (_illegal_
/// to load/store) with a wider allocation of svbool (_legal_ to load/store)
/// followed by a tagged unrealized conversion to the original type.
///
/// Example
/// ```
/// %alloca = memref.alloca() : memref<vector<[4]xi1>>
/// ```
/// is rewritten into:
/// ```
/// %widened = memref.alloca() {alignment = 1 : i64} : memref<vector<[16]xi1>>
/// %alloca = builtin.unrealized_conversion_cast %widened
/// : memref<vector<[16]xi1>> to memref<vector<[4]xi1>>
/// {__arm_sve_legalize_vector_storage__}
/// ```
template <typename AllocLikeOp>
struct LegalizeSVEMaskAllocation : public OpRewritePattern<AllocLikeOp> {
using OpRewritePattern<AllocLikeOp>::OpRewritePattern;
LogicalResult matchAndRewrite(AllocLikeOp allocLikeOp,
PatternRewriter &rewriter) const override {
auto vectorType =
llvm::dyn_cast<VectorType>(allocLikeOp.getType().getElementType());
if (!vectorType || !isSVEMaskType(vectorType))
return failure();
// Replace this alloc-like op of an SVE mask [2] with one of a (storable)
// svbool mask [1]. A temporary unrealized_conversion_cast is added to the
// old type to allow local rewrites.
replaceOpWithUnrealizedConversion(
rewriter, allocLikeOp, [&](AllocLikeOp newAllocLikeOp) {
newAllocLikeOp.getResult().setType(
llvm::cast<MemRefType>(newAllocLikeOp.getType().cloneWith(
{}, widenScalableMaskTypeToSvbool(vectorType))));
return newAllocLikeOp;
});
return success();
}
};
/// Replaces vector.type_casts of unrealized conversions to SVE predicate memref
/// types that are _illegal_ to load/store from (!= svbool [1]), with type casts
/// of memref types that are _legal_ to load/store, followed by unrealized
/// conversions.
///
/// Example:
/// ```
/// %alloca = builtin.unrealized_conversion_cast %widened
/// : memref<vector<[16]xi1>> to memref<vector<[8]xi1>>
/// {__arm_sve_legalize_vector_storage__}
/// %cast = vector.type_cast %alloca
/// : memref<vector<3x[8]xi1>> to memref<3xvector<[8]xi1>>
/// ```
/// is rewritten into:
/// ```
/// %widened_cast = vector.type_cast %widened
/// : memref<vector<3x[16]xi1>> to memref<3xvector<[16]xi1>>
/// %cast = builtin.unrealized_conversion_cast %widened_cast
/// : memref<3xvector<[16]xi1>> to memref<3xvector<[8]xi1>>
/// {__arm_sve_legalize_vector_storage__}
/// ```
struct LegalizeSVEMaskTypeCastConversion
: public OpRewritePattern<vector::TypeCastOp> {
using OpRewritePattern::OpRewritePattern;
LogicalResult matchAndRewrite(vector::TypeCastOp typeCastOp,
PatternRewriter &rewriter) const override {
auto resultType = typeCastOp.getResultMemRefType();
auto vectorType = llvm::dyn_cast<VectorType>(resultType.getElementType());
if (!vectorType || !isSVEMaskType(vectorType))
return failure();
auto legalMemref = getSVELegalizedMemref(typeCastOp.getMemref());
if (failed(legalMemref))
return failure();
// Replace this vector.type_cast with one of a (storable) svbool mask [1].
replaceOpWithUnrealizedConversion(
rewriter, typeCastOp, [&](vector::TypeCastOp newTypeCast) {
newTypeCast.setOperand(*legalMemref);
newTypeCast.getResult().setType(
llvm::cast<MemRefType>(newTypeCast.getType().cloneWith(
{}, widenScalableMaskTypeToSvbool(vectorType))));
return newTypeCast;
});
return success();
}
};
/// Replaces stores to unrealized conversions to SVE predicate memref types that
/// are _illegal_ to load/store from (!= svbool [1]), with
/// `arm_sve.convert_to_svbool`s followed by (legal) wider stores.
///
/// Example:
/// ```
/// memref.store %mask, %alloca[] : memref<vector<[8]xi1>>
/// ```
/// is rewritten into:
/// ```
/// %svbool = arm_sve.convert_to_svbool %mask : vector<[8]xi1>
/// memref.store %svbool, %widened[] : memref<vector<[16]xi1>>
/// ```
struct LegalizeSVEMaskStoreConversion
: public OpRewritePattern<memref::StoreOp> {
using OpRewritePattern::OpRewritePattern;
LogicalResult matchAndRewrite(memref::StoreOp storeOp,
PatternRewriter &rewriter) const override {
auto loc = storeOp.getLoc();
Value valueToStore = storeOp.getValueToStore();
auto vectorType = llvm::dyn_cast<VectorType>(valueToStore.getType());
if (!vectorType || !isSVEMaskType(vectorType))
return failure();
auto legalMemref = getSVELegalizedMemref(storeOp.getMemref());
if (failed(legalMemref))
return failure();
auto legalMaskType = widenScalableMaskTypeToSvbool(
llvm::cast<VectorType>(valueToStore.getType()));
auto convertToSvbool = rewriter.create<arm_sve::ConvertToSvboolOp>(
loc, legalMaskType, valueToStore);
// Replace this store with a conversion to a storable svbool mask [1],
// followed by a wider store.
replaceOpWithLegalizedOp(rewriter, storeOp,
[&](memref::StoreOp newStoreOp) {
newStoreOp.setOperand(0, convertToSvbool);
newStoreOp.setOperand(1, *legalMemref);
return newStoreOp;
});
return success();
}
};
/// Replaces loads from unrealized conversions to SVE predicate memref types
/// that are _illegal_ to load/store from (!= svbool [1]), types with (legal)
/// wider loads, followed by `arm_sve.convert_from_svbool`s.
///
/// Example:
/// ```
/// %reload = memref.load %alloca[] : memref<vector<[4]xi1>>
/// ```
/// is rewritten into:
/// ```
/// %svbool = memref.load %widened[] : memref<vector<[16]xi1>>
/// %reload = arm_sve.convert_from_svbool %reload : vector<[4]xi1>
/// ```
struct LegalizeSVEMaskLoadConversion : public OpRewritePattern<memref::LoadOp> {
using OpRewritePattern::OpRewritePattern;
LogicalResult matchAndRewrite(memref::LoadOp loadOp,
PatternRewriter &rewriter) const override {
auto loc = loadOp.getLoc();
Value loadedMask = loadOp.getResult();
auto vectorType = llvm::dyn_cast<VectorType>(loadedMask.getType());
if (!vectorType || !isSVEMaskType(vectorType))
return failure();
auto legalMemref = getSVELegalizedMemref(loadOp.getMemref());
if (failed(legalMemref))
return failure();
auto legalMaskType = widenScalableMaskTypeToSvbool(vectorType);
// Replace this load with a legal load of an svbool type, followed by a
// conversion back to the original type.
replaceOpWithLegalizedOp(rewriter, loadOp, [&](memref::LoadOp newLoadOp) {
newLoadOp.setMemRef(*legalMemref);
newLoadOp.getResult().setType(legalMaskType);
return rewriter.create<arm_sve::ConvertFromSvboolOp>(
loc, loadedMask.getType(), newLoadOp);
});
return success();
}
};
} // namespace
void mlir::arm_sve::populateLegalizeVectorStoragePatterns(
RewritePatternSet &patterns) {
patterns.add<RelaxScalableVectorAllocaAlignment,
LegalizeSVEMaskAllocation<memref::AllocaOp>,
LegalizeSVEMaskAllocation<memref::AllocOp>,
LegalizeSVEMaskTypeCastConversion,
LegalizeSVEMaskStoreConversion, LegalizeSVEMaskLoadConversion>(
patterns.getContext());
}
namespace {
struct LegalizeVectorStorage
: public arm_sve::impl::LegalizeVectorStorageBase<LegalizeVectorStorage> {
void runOnOperation() override {
RewritePatternSet patterns(&getContext());
populateLegalizeVectorStoragePatterns(patterns);
if (failed(applyPatternsAndFoldGreedily(getOperation(),
std::move(patterns)))) {
signalPassFailure();
}
ConversionTarget target(getContext());
target.addDynamicallyLegalOp<UnrealizedConversionCastOp>(
[](UnrealizedConversionCastOp unrealizedConversion) {
return !unrealizedConversion->hasAttr(kSVELegalizerTag);
});
// This detects if we failed to completely legalize the IR.
if (failed(applyPartialConversion(getOperation(), target, {})))
signalPassFailure();
}
};
} // namespace
std::unique_ptr<Pass> mlir::arm_sve::createLegalizeVectorStoragePass() {
return std::make_unique<LegalizeVectorStorage>();
}
|
