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|
//===- IndexToSPIRV.cpp - Index to SPIRV dialect conversion -----*- C++ -*-===//
//
// 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/IndexToSPIRV/IndexToSPIRV.h"
#include "../SPIRVCommon/Pattern.h"
#include "mlir/Dialect/Index/IR/IndexDialect.h"
#include "mlir/Dialect/Index/IR/IndexOps.h"
#include "mlir/Dialect/SPIRV/IR/SPIRVDialect.h"
#include "mlir/Dialect/SPIRV/IR/SPIRVOps.h"
#include "mlir/Dialect/SPIRV/Transforms/SPIRVConversion.h"
using namespace mlir;
using namespace index;
namespace {
//===----------------------------------------------------------------------===//
// Trivial Conversions
//===----------------------------------------------------------------------===//
using ConvertIndexAdd = spirv::ElementwiseOpPattern<AddOp, spirv::IAddOp>;
using ConvertIndexSub = spirv::ElementwiseOpPattern<SubOp, spirv::ISubOp>;
using ConvertIndexMul = spirv::ElementwiseOpPattern<MulOp, spirv::IMulOp>;
using ConvertIndexDivS = spirv::ElementwiseOpPattern<DivSOp, spirv::SDivOp>;
using ConvertIndexDivU = spirv::ElementwiseOpPattern<DivUOp, spirv::UDivOp>;
using ConvertIndexRemS = spirv::ElementwiseOpPattern<RemSOp, spirv::SRemOp>;
using ConvertIndexRemU = spirv::ElementwiseOpPattern<RemUOp, spirv::UModOp>;
using ConvertIndexMaxS = spirv::ElementwiseOpPattern<MaxSOp, spirv::GLSMaxOp>;
using ConvertIndexMaxU = spirv::ElementwiseOpPattern<MaxUOp, spirv::GLUMaxOp>;
using ConvertIndexMinS = spirv::ElementwiseOpPattern<MinSOp, spirv::GLSMinOp>;
using ConvertIndexMinU = spirv::ElementwiseOpPattern<MinUOp, spirv::GLUMinOp>;
using ConvertIndexShl =
spirv::ElementwiseOpPattern<ShlOp, spirv::ShiftLeftLogicalOp>;
using ConvertIndexShrS =
spirv::ElementwiseOpPattern<ShrSOp, spirv::ShiftRightArithmeticOp>;
using ConvertIndexShrU =
spirv::ElementwiseOpPattern<ShrUOp, spirv::ShiftRightLogicalOp>;
/// It is the case that when we convert bitwise operations to SPIR-V operations
/// we must take into account the special pattern in SPIR-V that if the
/// operands are boolean values, then SPIR-V uses `SPIRVLogicalOp`. Otherwise,
/// for non-boolean operands, SPIR-V should use `SPIRVBitwiseOp`. However,
/// index.add is never a boolean operation so we can directly convert it to the
/// Bitwise[And|Or]Op.
using ConvertIndexAnd = spirv::ElementwiseOpPattern<AndOp, spirv::BitwiseAndOp>;
using ConvertIndexOr = spirv::ElementwiseOpPattern<OrOp, spirv::BitwiseOrOp>;
using ConvertIndexXor = spirv::ElementwiseOpPattern<XOrOp, spirv::BitwiseXorOp>;
//===----------------------------------------------------------------------===//
// ConvertConstantBool
//===----------------------------------------------------------------------===//
// Converts index.bool.constant operation to spirv.Constant.
struct ConvertIndexConstantBoolOpPattern final
: OpConversionPattern<BoolConstantOp> {
using OpConversionPattern::OpConversionPattern;
LogicalResult
matchAndRewrite(BoolConstantOp op, BoolConstantOpAdaptor adaptor,
ConversionPatternRewriter &rewriter) const override {
rewriter.replaceOpWithNewOp<spirv::ConstantOp>(op, op.getType(),
op.getValueAttr());
return success();
}
};
//===----------------------------------------------------------------------===//
// ConvertConstant
//===----------------------------------------------------------------------===//
// Converts index.constant op to spirv.Constant. Will truncate from i64 to i32
// when required.
struct ConvertIndexConstantOpPattern final : OpConversionPattern<ConstantOp> {
using OpConversionPattern::OpConversionPattern;
LogicalResult
matchAndRewrite(ConstantOp op, ConstantOpAdaptor adaptor,
ConversionPatternRewriter &rewriter) const override {
auto *typeConverter = this->template getTypeConverter<SPIRVTypeConverter>();
Type indexType = typeConverter->getIndexType();
APInt value = op.getValue().trunc(typeConverter->getIndexTypeBitwidth());
rewriter.replaceOpWithNewOp<spirv::ConstantOp>(
op, indexType, IntegerAttr::get(indexType, value));
return success();
}
};
//===----------------------------------------------------------------------===//
// ConvertIndexCeilDivS
//===----------------------------------------------------------------------===//
/// Convert `ceildivs(n, m)` into `x = m > 0 ? -1 : 1` and then
/// `n*m > 0 ? (n+x)/m + 1 : -(-n/m)`. Formula taken from the equivalent
/// conversion in IndexToLLVM.
struct ConvertIndexCeilDivSPattern final : OpConversionPattern<CeilDivSOp> {
using OpConversionPattern::OpConversionPattern;
LogicalResult
matchAndRewrite(CeilDivSOp op, CeilDivSOpAdaptor adaptor,
ConversionPatternRewriter &rewriter) const override {
Location loc = op.getLoc();
Value n = adaptor.getLhs();
Type n_type = n.getType();
Value m = adaptor.getRhs();
// Define the constants
Value zero = spirv::ConstantOp::create(rewriter, loc, n_type,
IntegerAttr::get(n_type, 0));
Value posOne = spirv::ConstantOp::create(rewriter, loc, n_type,
IntegerAttr::get(n_type, 1));
Value negOne = spirv::ConstantOp::create(rewriter, loc, n_type,
IntegerAttr::get(n_type, -1));
// Compute `x`.
Value mPos = spirv::SGreaterThanOp::create(rewriter, loc, m, zero);
Value x = spirv::SelectOp::create(rewriter, loc, mPos, negOne, posOne);
// Compute the positive result.
Value nPlusX = spirv::IAddOp::create(rewriter, loc, n, x);
Value nPlusXDivM = spirv::SDivOp::create(rewriter, loc, nPlusX, m);
Value posRes = spirv::IAddOp::create(rewriter, loc, nPlusXDivM, posOne);
// Compute the negative result.
Value negN = spirv::ISubOp::create(rewriter, loc, zero, n);
Value negNDivM = spirv::SDivOp::create(rewriter, loc, negN, m);
Value negRes = spirv::ISubOp::create(rewriter, loc, zero, negNDivM);
// Pick the positive result if `n` and `m` have the same sign and `n` is
// non-zero, i.e. `(n > 0) == (m > 0) && n != 0`.
Value nPos = spirv::SGreaterThanOp::create(rewriter, loc, n, zero);
Value sameSign = spirv::LogicalEqualOp::create(rewriter, loc, nPos, mPos);
Value nNonZero = spirv::INotEqualOp::create(rewriter, loc, n, zero);
Value cmp = spirv::LogicalAndOp::create(rewriter, loc, sameSign, nNonZero);
rewriter.replaceOpWithNewOp<spirv::SelectOp>(op, cmp, posRes, negRes);
return success();
}
};
//===----------------------------------------------------------------------===//
// ConvertIndexCeilDivU
//===----------------------------------------------------------------------===//
/// Convert `ceildivu(n, m)` into `n == 0 ? 0 : (n-1)/m + 1`. Formula taken
/// from the equivalent conversion in IndexToLLVM.
struct ConvertIndexCeilDivUPattern final : OpConversionPattern<CeilDivUOp> {
using OpConversionPattern::OpConversionPattern;
LogicalResult
matchAndRewrite(CeilDivUOp op, CeilDivUOpAdaptor adaptor,
ConversionPatternRewriter &rewriter) const override {
Location loc = op.getLoc();
Value n = adaptor.getLhs();
Type n_type = n.getType();
Value m = adaptor.getRhs();
// Define the constants
Value zero = spirv::ConstantOp::create(rewriter, loc, n_type,
IntegerAttr::get(n_type, 0));
Value one = spirv::ConstantOp::create(rewriter, loc, n_type,
IntegerAttr::get(n_type, 1));
// Compute the non-zero result.
Value minusOne = spirv::ISubOp::create(rewriter, loc, n, one);
Value quotient = spirv::UDivOp::create(rewriter, loc, minusOne, m);
Value plusOne = spirv::IAddOp::create(rewriter, loc, quotient, one);
// Pick the result
Value cmp = spirv::IEqualOp::create(rewriter, loc, n, zero);
rewriter.replaceOpWithNewOp<spirv::SelectOp>(op, cmp, zero, plusOne);
return success();
}
};
//===----------------------------------------------------------------------===//
// ConvertIndexFloorDivS
//===----------------------------------------------------------------------===//
/// Convert `floordivs(n, m)` into `x = m < 0 ? 1 : -1` and then
/// `n*m < 0 ? -1 - (x-n)/m : n/m`. Formula taken from the equivalent conversion
/// in IndexToLLVM.
struct ConvertIndexFloorDivSPattern final : OpConversionPattern<FloorDivSOp> {
using OpConversionPattern::OpConversionPattern;
LogicalResult
matchAndRewrite(FloorDivSOp op, FloorDivSOpAdaptor adaptor,
ConversionPatternRewriter &rewriter) const override {
Location loc = op.getLoc();
Value n = adaptor.getLhs();
Type n_type = n.getType();
Value m = adaptor.getRhs();
// Define the constants
Value zero = spirv::ConstantOp::create(rewriter, loc, n_type,
IntegerAttr::get(n_type, 0));
Value posOne = spirv::ConstantOp::create(rewriter, loc, n_type,
IntegerAttr::get(n_type, 1));
Value negOne = spirv::ConstantOp::create(rewriter, loc, n_type,
IntegerAttr::get(n_type, -1));
// Compute `x`.
Value mNeg = spirv::SLessThanOp::create(rewriter, loc, m, zero);
Value x = spirv::SelectOp::create(rewriter, loc, mNeg, posOne, negOne);
// Compute the negative result
Value xMinusN = spirv::ISubOp::create(rewriter, loc, x, n);
Value xMinusNDivM = spirv::SDivOp::create(rewriter, loc, xMinusN, m);
Value negRes = spirv::ISubOp::create(rewriter, loc, negOne, xMinusNDivM);
// Compute the positive result.
Value posRes = spirv::SDivOp::create(rewriter, loc, n, m);
// Pick the negative result if `n` and `m` have different signs and `n` is
// non-zero, i.e. `(n < 0) != (m < 0) && n != 0`.
Value nNeg = spirv::SLessThanOp::create(rewriter, loc, n, zero);
Value diffSign =
spirv::LogicalNotEqualOp::create(rewriter, loc, nNeg, mNeg);
Value nNonZero = spirv::INotEqualOp::create(rewriter, loc, n, zero);
Value cmp = spirv::LogicalAndOp::create(rewriter, loc, diffSign, nNonZero);
rewriter.replaceOpWithNewOp<spirv::SelectOp>(op, cmp, posRes, negRes);
return success();
}
};
//===----------------------------------------------------------------------===//
// ConvertIndexCast
//===----------------------------------------------------------------------===//
/// Convert a cast op. If the materialized index type is the same as the other
/// type, fold away the op. Otherwise, use the Convert SPIR-V operation.
/// Signed casts sign extend when the result bitwidth is larger. Unsigned casts
/// zero extend when the result bitwidth is larger.
template <typename CastOp, typename ConvertOp>
struct ConvertIndexCast final : OpConversionPattern<CastOp> {
using OpConversionPattern<CastOp>::OpConversionPattern;
LogicalResult
matchAndRewrite(CastOp op, typename CastOp::Adaptor adaptor,
ConversionPatternRewriter &rewriter) const override {
auto *typeConverter = this->template getTypeConverter<SPIRVTypeConverter>();
Type indexType = typeConverter->getIndexType();
Type srcType = adaptor.getInput().getType();
Type dstType = op.getType();
if (isa<IndexType>(srcType)) {
srcType = indexType;
}
if (isa<IndexType>(dstType)) {
dstType = indexType;
}
if (srcType == dstType) {
rewriter.replaceOp(op, adaptor.getInput());
} else {
rewriter.template replaceOpWithNewOp<ConvertOp>(op, dstType,
adaptor.getOperands());
}
return success();
}
};
using ConvertIndexCastS = ConvertIndexCast<CastSOp, spirv::SConvertOp>;
using ConvertIndexCastU = ConvertIndexCast<CastUOp, spirv::UConvertOp>;
//===----------------------------------------------------------------------===//
// ConvertIndexCmp
//===----------------------------------------------------------------------===//
// Helper template to replace the operation
template <typename ICmpOp>
static LogicalResult rewriteCmpOp(CmpOp op, CmpOpAdaptor adaptor,
ConversionPatternRewriter &rewriter) {
rewriter.replaceOpWithNewOp<ICmpOp>(op, adaptor.getLhs(), adaptor.getRhs());
return success();
}
struct ConvertIndexCmpPattern final : OpConversionPattern<CmpOp> {
using OpConversionPattern::OpConversionPattern;
LogicalResult
matchAndRewrite(CmpOp op, CmpOpAdaptor adaptor,
ConversionPatternRewriter &rewriter) const override {
// We must convert the predicates to the corresponding int comparions.
switch (op.getPred()) {
case IndexCmpPredicate::EQ:
return rewriteCmpOp<spirv::IEqualOp>(op, adaptor, rewriter);
case IndexCmpPredicate::NE:
return rewriteCmpOp<spirv::INotEqualOp>(op, adaptor, rewriter);
case IndexCmpPredicate::SGE:
return rewriteCmpOp<spirv::SGreaterThanEqualOp>(op, adaptor, rewriter);
case IndexCmpPredicate::SGT:
return rewriteCmpOp<spirv::SGreaterThanOp>(op, adaptor, rewriter);
case IndexCmpPredicate::SLE:
return rewriteCmpOp<spirv::SLessThanEqualOp>(op, adaptor, rewriter);
case IndexCmpPredicate::SLT:
return rewriteCmpOp<spirv::SLessThanOp>(op, adaptor, rewriter);
case IndexCmpPredicate::UGE:
return rewriteCmpOp<spirv::UGreaterThanEqualOp>(op, adaptor, rewriter);
case IndexCmpPredicate::UGT:
return rewriteCmpOp<spirv::UGreaterThanOp>(op, adaptor, rewriter);
case IndexCmpPredicate::ULE:
return rewriteCmpOp<spirv::ULessThanEqualOp>(op, adaptor, rewriter);
case IndexCmpPredicate::ULT:
return rewriteCmpOp<spirv::ULessThanOp>(op, adaptor, rewriter);
}
llvm_unreachable("Unknown predicate in ConvertIndexCmpPattern");
}
};
//===----------------------------------------------------------------------===//
// ConvertIndexSizeOf
//===----------------------------------------------------------------------===//
/// Lower `index.sizeof` to a constant with the value of the index bitwidth.
struct ConvertIndexSizeOf final : OpConversionPattern<SizeOfOp> {
using OpConversionPattern::OpConversionPattern;
LogicalResult
matchAndRewrite(SizeOfOp op, SizeOfOpAdaptor adaptor,
ConversionPatternRewriter &rewriter) const override {
auto *typeConverter = this->template getTypeConverter<SPIRVTypeConverter>();
Type indexType = typeConverter->getIndexType();
unsigned bitwidth = typeConverter->getIndexTypeBitwidth();
rewriter.replaceOpWithNewOp<spirv::ConstantOp>(
op, indexType, IntegerAttr::get(indexType, bitwidth));
return success();
}
};
} // namespace
//===----------------------------------------------------------------------===//
// Pattern Population
//===----------------------------------------------------------------------===//
void index::populateIndexToSPIRVPatterns(
const SPIRVTypeConverter &typeConverter, RewritePatternSet &patterns) {
patterns.add<
// clang-format off
ConvertIndexAdd,
ConvertIndexSub,
ConvertIndexMul,
ConvertIndexDivS,
ConvertIndexDivU,
ConvertIndexRemS,
ConvertIndexRemU,
ConvertIndexMaxS,
ConvertIndexMaxU,
ConvertIndexMinS,
ConvertIndexMinU,
ConvertIndexShl,
ConvertIndexShrS,
ConvertIndexShrU,
ConvertIndexAnd,
ConvertIndexOr,
ConvertIndexXor,
ConvertIndexConstantBoolOpPattern,
ConvertIndexConstantOpPattern,
ConvertIndexCeilDivSPattern,
ConvertIndexCeilDivUPattern,
ConvertIndexFloorDivSPattern,
ConvertIndexCastS,
ConvertIndexCastU,
ConvertIndexCmpPattern,
ConvertIndexSizeOf
>(typeConverter, patterns.getContext());
}
//===----------------------------------------------------------------------===//
// ODS-Generated Definitions
//===----------------------------------------------------------------------===//
namespace mlir {
#define GEN_PASS_DEF_CONVERTINDEXTOSPIRVPASS
#include "mlir/Conversion/Passes.h.inc"
} // namespace mlir
//===----------------------------------------------------------------------===//
// Pass Definition
//===----------------------------------------------------------------------===//
namespace {
struct ConvertIndexToSPIRVPass
: public impl::ConvertIndexToSPIRVPassBase<ConvertIndexToSPIRVPass> {
using Base::Base;
void runOnOperation() override {
Operation *op = getOperation();
spirv::TargetEnvAttr targetAttr = spirv::lookupTargetEnvOrDefault(op);
std::unique_ptr<SPIRVConversionTarget> target =
SPIRVConversionTarget::get(targetAttr);
SPIRVConversionOptions options;
options.use64bitIndex = this->use64bitIndex;
SPIRVTypeConverter typeConverter(targetAttr, options);
// Use UnrealizedConversionCast as the bridge so that we don't need to pull
// in patterns for other dialects.
target->addLegalOp<UnrealizedConversionCastOp>();
// Allow the spirv operations we are converting to
target->addLegalDialect<spirv::SPIRVDialect>();
// Fail hard when there are any remaining 'index' ops.
target->addIllegalDialect<index::IndexDialect>();
RewritePatternSet patterns(&getContext());
index::populateIndexToSPIRVPatterns(typeConverter, patterns);
if (failed(applyPartialConversion(op, *target, std::move(patterns))))
signalPassFailure();
}
};
} // namespace
|
