flang/lib/Lower/ComplexExpr.cpp - llvm-project - Git at Google

 //===-- ComplexExpr.cpp ---------------------------------------------------===//
 //
 // 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 "flang/Lower/ComplexExpr.h"
 #include "flang/Lower/ConvertType.h"

 //===----------------------------------------------------------------------===//
 // ComplexExprHelper implementation
 //===----------------------------------------------------------------------===//

 mlir::Type
 Fortran::lower::ComplexExprHelper::getComplexPartType(mlir::Type complexType) {
   return Fortran::lower::convertReal(
       builder.getContext(), complexType.cast<fir::ComplexType>().getFKind());
 }

 mlir::Type
 Fortran::lower::ComplexExprHelper::getComplexPartType(mlir::Value cplx) {
   return getComplexPartType(cplx.getType());
 }

 mlir::Value Fortran::lower::ComplexExprHelper::createComplex(fir::KindTy kind,
                                                              mlir::Value real,
                                                              mlir::Value imag) {
   auto complexTy = fir::ComplexType::get(builder.getContext(), kind);
   mlir::Value und = builder.create<fir::UndefOp>(loc, complexTy);
   return insert<Part::Imag>(insert<Part::Real>(und, real), imag);
 }

 mlir::Value Fortran::lower::ComplexExprHelper::createComplex(mlir::Type cplxTy,
                                                              mlir::Value real,
                                                              mlir::Value imag) {
   mlir::Value und = builder.create<fir::UndefOp>(loc, cplxTy);
   return insert<Part::Imag>(insert<Part::Real>(und, real), imag);
 }

 mlir::Value Fortran::lower::ComplexExprHelper::createComplexCompare(
     mlir::Value cplx1, mlir::Value cplx2, bool eq) {
   auto real1 = extract<Part::Real>(cplx1);
   auto real2 = extract<Part::Real>(cplx2);
   auto imag1 = extract<Part::Imag>(cplx1);
   auto imag2 = extract<Part::Imag>(cplx2);

   mlir::arith::CmpFPredicate predicate =
       eq ? mlir::arith::CmpFPredicate::UEQ : mlir::arith::CmpFPredicate::UNE;
   mlir::Value realCmp =
       builder.create<mlir::arith::CmpFOp>(loc, predicate, real1, real2);
   mlir::Value imagCmp =
       builder.create<mlir::arith::CmpFOp>(loc, predicate, imag1, imag2);

   return eq ? builder.create<mlir::arith::AndIOp>(loc, realCmp, imagCmp)
                   .getResult()
             : builder.create<mlir::arith::OrIOp>(loc, realCmp, imagCmp)
                   .getResult();
 }
	//===-- ComplexExpr.cpp ---------------------------------------------------===//
	//
	// 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 "flang/Lower/ComplexExpr.h"
	#include "flang/Lower/ConvertType.h"

	//===----------------------------------------------------------------------===//
	// ComplexExprHelper implementation
	//===----------------------------------------------------------------------===//

	mlir::Type
	Fortran::lower::ComplexExprHelper::getComplexPartType(mlir::Type complexType) {
	return Fortran::lower::convertReal(
	builder.getContext(), complexType.cast<fir::ComplexType>().getFKind());
	}

	mlir::Type
	Fortran::lower::ComplexExprHelper::getComplexPartType(mlir::Value cplx) {
	return getComplexPartType(cplx.getType());
	}

	mlir::Value Fortran::lower::ComplexExprHelper::createComplex(fir::KindTy kind,
	mlir::Value real,
	mlir::Value imag) {
	auto complexTy = fir::ComplexType::get(builder.getContext(), kind);
	mlir::Value und = builder.create<fir::UndefOp>(loc, complexTy);
	return insert<Part::Imag>(insert<Part::Real>(und, real), imag);
	}

	mlir::Value Fortran::lower::ComplexExprHelper::createComplex(mlir::Type cplxTy,
	mlir::Value real,
	mlir::Value imag) {
	mlir::Value und = builder.create<fir::UndefOp>(loc, cplxTy);
	return insert<Part::Imag>(insert<Part::Real>(und, real), imag);
	}

	mlir::Value Fortran::lower::ComplexExprHelper::createComplexCompare(
	mlir::Value cplx1, mlir::Value cplx2, bool eq) {
	auto real1 = extract<Part::Real>(cplx1);
	auto real2 = extract<Part::Real>(cplx2);
	auto imag1 = extract<Part::Imag>(cplx1);
	auto imag2 = extract<Part::Imag>(cplx2);

	mlir::arith::CmpFPredicate predicate =
	eq ? mlir::arith::CmpFPredicate::UEQ : mlir::arith::CmpFPredicate::UNE;
	mlir::Value realCmp =
	builder.create<mlir::arith::CmpFOp>(loc, predicate, real1, real2);
	mlir::Value imagCmp =
	builder.create<mlir::arith::CmpFOp>(loc, predicate, imag1, imag2);

	return eq ? builder.create<mlir::arith::AndIOp>(loc, realCmp, imagCmp)
	.getResult()
	: builder.create<mlir::arith::OrIOp>(loc, realCmp, imagCmp)
	.getResult();
	}