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//===-- MathToROCDL.cpp - conversion from Math to rocdl calls -------------===//
//
// 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/MathToROCDL/MathToROCDL.h"
#include "mlir/Conversion/LLVMCommon/LoweringOptions.h"
#include "mlir/Conversion/LLVMCommon/TypeConverter.h"
#include "mlir/Dialect/Func/IR/FuncOps.h"
#include "mlir/Dialect/LLVMIR/LLVMDialect.h"
#include "mlir/Dialect/LLVMIR/ROCDLDialect.h"
#include "mlir/Dialect/Math/IR/Math.h"
#include "mlir/Dialect/Vector/IR/VectorOps.h"
#include "mlir/IR/BuiltinDialect.h"
#include "mlir/IR/PatternMatch.h"
#include "mlir/Pass/Pass.h"
#include "mlir/Transforms/DialectConversion.h"
#include "../GPUCommon/GPUOpsLowering.h"
#include "../GPUCommon/OpToFuncCallLowering.h"
#include "mlir/Conversion/GPUCommon/GPUCommonPass.h"
namespace mlir {
#define GEN_PASS_DEF_CONVERTMATHTOROCDL
#include "mlir/Conversion/Passes.h.inc"
} // namespace mlir
using namespace mlir;
#define DEBUG_TYPE "math-to-rocdl"
#define DBGS() (llvm::dbgs() << "[" DEBUG_TYPE "]: ")
template <typename OpTy>
static void populateOpPatterns(const LLVMTypeConverter &converter,
RewritePatternSet &patterns, StringRef f32Func,
StringRef f64Func, StringRef f16Func,
StringRef f32ApproxFunc = "") {
patterns.add<ScalarizeVectorOpLowering<OpTy>>(converter);
patterns.add<OpToFuncCallLowering<OpTy>>(converter, f32Func, f64Func,
f32ApproxFunc, f16Func);
}
void mlir::populateMathToROCDLConversionPatterns(
const LLVMTypeConverter &converter, RewritePatternSet &patterns) {
// Handled by mathToLLVM: math::AbsIOp
// Handled by mathToLLVM: math::AbsFOp
// Handled by mathToLLVM: math::CopySignOp
// Handled by mathToLLVM: math::CountLeadingZerosOp
// Handled by mathToLLVM: math::CountTrailingZerosOp
// Handled by mathToLLVM: math::CgPopOp
// Handled by mathToLLVM: math::ExpOp (32-bit only)
// Handled by mathToLLVM: math::FmaOp
// Handled by mathToLLVM: math::LogOp (32-bit only)
// FIXME: math::IPowIOp
// Handled by mathToLLVM: math::RoundEvenOp
// Handled by mathToLLVM: math::RoundOp
// Handled by mathToLLVM: math::SqrtOp
// Handled by mathToLLVM: math::TruncOp
populateOpPatterns<math::AcosOp>(converter, patterns, "__ocml_acos_f32",
"__ocml_acos_f64", "__ocml_acos_f16");
populateOpPatterns<math::AcoshOp>(converter, patterns, "__ocml_acosh_f32",
"__ocml_acosh_f64", "__ocml_acosh_f16");
populateOpPatterns<math::AsinOp>(converter, patterns, "__ocml_asin_f32",
"__ocml_asin_f64", "__ocml_asin_f16");
populateOpPatterns<math::AsinhOp>(converter, patterns, "__ocml_asinh_f32",
"__ocml_asinh_f64", "__ocml_asinh_f16");
populateOpPatterns<math::AtanOp>(converter, patterns, "__ocml_atan_f32",
"__ocml_atan_f64", "__ocml_atan_f16");
populateOpPatterns<math::AtanhOp>(converter, patterns, "__ocml_atanh_f32",
"__ocml_atanh_f64", "__ocml_atanh_f16");
populateOpPatterns<math::Atan2Op>(converter, patterns, "__ocml_atan2_f32",
"__ocml_atan2_f64", "__ocml_atan2_f16");
populateOpPatterns<math::CbrtOp>(converter, patterns, "__ocml_cbrt_f32",
"__ocml_cbrt_f64", "__ocml_cbrt_f16");
populateOpPatterns<math::CeilOp>(converter, patterns, "__ocml_ceil_f32",
"__ocml_ceil_f64", "__ocml_ceil_f16");
populateOpPatterns<math::CosOp>(converter, patterns, "__ocml_cos_f32",
"__ocml_cos_f64", "__ocml_cos_f16");
populateOpPatterns<math::CoshOp>(converter, patterns, "__ocml_cosh_f32",
"__ocml_cosh_f64", "__ocml_cosh_f16");
populateOpPatterns<math::SinhOp>(converter, patterns, "__ocml_sinh_f32",
"__ocml_sinh_f64", "__ocml_sinh_f16");
populateOpPatterns<math::ExpOp>(converter, patterns, "", "__ocml_exp_f64",
"__ocml_exp_f16");
populateOpPatterns<math::Exp2Op>(converter, patterns, "__ocml_exp2_f32",
"__ocml_exp2_f64", "__ocml_exp2_f16");
populateOpPatterns<math::ExpM1Op>(converter, patterns, "__ocml_expm1_f32",
"__ocml_expm1_f64", "__ocml_expm1_f16");
populateOpPatterns<math::FloorOp>(converter, patterns, "__ocml_floor_f32",
"__ocml_floor_f64", "__ocml_floor_f16");
populateOpPatterns<math::LogOp>(converter, patterns, "", "__ocml_log_f64",
"__ocml_log_f16");
populateOpPatterns<math::Log10Op>(converter, patterns, "__ocml_log10_f32",
"__ocml_log10_f64", "__ocml_log10_f16");
populateOpPatterns<math::Log1pOp>(converter, patterns, "__ocml_log1p_f32",
"__ocml_log1p_f64", "__ocml_log1p_f16");
populateOpPatterns<math::Log2Op>(converter, patterns, "__ocml_log2_f32",
"__ocml_log2_f64", "__ocml_log2_f16");
populateOpPatterns<math::PowFOp>(converter, patterns, "__ocml_pow_f32",
"__ocml_pow_f64", "__ocml_pow_f16");
populateOpPatterns<math::RsqrtOp>(converter, patterns, "__ocml_rsqrt_f32",
"__ocml_rsqrt_f64", "__ocml_rsqrt_f16");
populateOpPatterns<math::SinOp>(converter, patterns, "__ocml_sin_f32",
"__ocml_sin_f64", "__ocml_sin_f16");
populateOpPatterns<math::TanhOp>(converter, patterns, "__ocml_tanh_f32",
"__ocml_tanh_f64", "__ocml_tanh_f16");
populateOpPatterns<math::TanOp>(converter, patterns, "__ocml_tan_f32",
"__ocml_tan_f64", "__ocml_tan_f16");
populateOpPatterns<math::ErfOp>(converter, patterns, "__ocml_erf_f32",
"__ocml_erf_f64", "__ocml_erf_f16");
populateOpPatterns<math::ErfcOp>(converter, patterns, "__ocml_erfc_f32",
"__ocml_erfc_f64", "__ocml_erfc_f16");
populateOpPatterns<math::FPowIOp>(converter, patterns, "__ocml_pown_f32",
"__ocml_pown_f64", "__ocml_pown_f16");
// Single arith pattern that needs a ROCDL call, probably not
// worth creating a separate pass for it.
populateOpPatterns<arith::RemFOp>(converter, patterns, "__ocml_fmod_f32",
"__ocml_fmod_f64", "__ocml_fmod_f16");
}
namespace {
struct ConvertMathToROCDLPass
: public impl::ConvertMathToROCDLBase<ConvertMathToROCDLPass> {
ConvertMathToROCDLPass() = default;
void runOnOperation() override;
};
} // namespace
void ConvertMathToROCDLPass::runOnOperation() {
auto m = getOperation();
MLIRContext *ctx = m.getContext();
RewritePatternSet patterns(&getContext());
LowerToLLVMOptions options(ctx, DataLayout(m));
LLVMTypeConverter converter(ctx, options);
populateMathToROCDLConversionPatterns(converter, patterns);
ConversionTarget target(getContext());
target.addLegalDialect<BuiltinDialect, func::FuncDialect,
vector::VectorDialect, LLVM::LLVMDialect>();
target.addIllegalOp<LLVM::CosOp, LLVM::ExpOp, LLVM::Exp2Op, LLVM::FAbsOp,
LLVM::FCeilOp, LLVM::FFloorOp, LLVM::FRemOp, LLVM::LogOp,
LLVM::Log10Op, LLVM::Log2Op, LLVM::PowOp, LLVM::SinOp,
LLVM::SqrtOp>();
if (failed(applyPartialConversion(m, target, std::move(patterns))))
signalPassFailure();
}
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