//===- ComplexExprTest.cpp -- ComplexExpr unit tests ----------===//
//
// 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/Optimizer/Builder/Complex.h"
#include "gtest/gtest.h"
#include "flang/Optimizer/Builder/FIRBuilder.h"
#include "flang/Optimizer/Dialect/Support/KindMapping.h"
#include "flang/Optimizer/Support/InitFIR.h"
struct ComplexTest : public testing::Test {
public:
void SetUp() override {
fir::support::loadDialects(context);
mlir::OpBuilder builder(&context);
auto loc = builder.getUnknownLoc();
// Set up a Module with a dummy function operation inside.
// Set the insertion point in the function entry block.
mlir::ModuleOp mod = builder.create<mlir::ModuleOp>(loc);
mlir::func::FuncOp func = mlir::func::FuncOp::create(
loc, "func1", builder.getFunctionType(std::nullopt, std::nullopt));
auto *entryBlock = func.addEntryBlock();
mod.push_back(mod);
builder.setInsertionPointToStart(entryBlock);
kindMap = std::make_unique<fir::KindMapping>(&context);
firBuilder = std::make_unique<fir::FirOpBuilder>(mod, *kindMap);
helper = std::make_unique<fir::factory::Complex>(*firBuilder, loc);
// Init commonly used types
realTy1 = mlir::FloatType::getF32(&context);
complexTy1 = fir::ComplexType::get(&context, 4);
integerTy1 = mlir::IntegerType::get(&context, 32);
// Create commonly used reals
rOne = firBuilder->createRealConstant(loc, realTy1, 1u);
rTwo = firBuilder->createRealConstant(loc, realTy1, 2u);
rThree = firBuilder->createRealConstant(loc, realTy1, 3u);
rFour = firBuilder->createRealConstant(loc, realTy1, 4u);
}
mlir::MLIRContext context;
std::unique_ptr<fir::KindMapping> kindMap;
std::unique_ptr<fir::FirOpBuilder> firBuilder;
std::unique_ptr<fir::factory::Complex> helper;
// Commonly used real/complex/integer types
mlir::FloatType realTy1;
fir::ComplexType complexTy1;
mlir::IntegerType integerTy1;
// Commonly used real numbers
mlir::Value rOne;
mlir::Value rTwo;
mlir::Value rThree;
mlir::Value rFour;
};
TEST_F(ComplexTest, verifyTypes) {
mlir::Value cVal1 = helper->createComplex(complexTy1, rOne, rTwo);
mlir::Value cVal2 = helper->createComplex(4, rOne, rTwo);
EXPECT_TRUE(fir::isa_complex(cVal1.getType()));
EXPECT_TRUE(fir::isa_complex(cVal2.getType()));
EXPECT_TRUE(fir::isa_real(helper->getComplexPartType(cVal1)));
EXPECT_TRUE(fir::isa_real(helper->getComplexPartType(cVal2)));
mlir::Value real1 = helper->extractComplexPart(cVal1, /*isImagPart=*/false);
mlir::Value imag1 = helper->extractComplexPart(cVal1, /*isImagPart=*/true);
mlir::Value real2 = helper->extractComplexPart(cVal2, /*isImagPart=*/false);
mlir::Value imag2 = helper->extractComplexPart(cVal2, /*isImagPart=*/true);
EXPECT_EQ(realTy1, real1.getType());
EXPECT_EQ(realTy1, imag1.getType());
EXPECT_EQ(realTy1, real2.getType());
EXPECT_EQ(realTy1, imag2.getType());
mlir::Value cVal3 =
helper->insertComplexPart(cVal1, rThree, /*isImagPart=*/false);
mlir::Value cVal4 =
helper->insertComplexPart(cVal3, rFour, /*isImagPart=*/true);
EXPECT_TRUE(fir::isa_complex(cVal4.getType()));
EXPECT_TRUE(fir::isa_real(helper->getComplexPartType(cVal4)));
}
TEST_F(ComplexTest, verifyConvertWithSemantics) {
auto loc = firBuilder->getUnknownLoc();
rOne = firBuilder->createRealConstant(loc, realTy1, 1u);
// Convert real to complex
mlir::Value v1 = firBuilder->convertWithSemantics(loc, complexTy1, rOne);
EXPECT_TRUE(fir::isa_complex(v1.getType()));
// Convert complex to integer
mlir::Value v2 = firBuilder->convertWithSemantics(loc, integerTy1, v1);
EXPECT_TRUE(mlir::isa<mlir::IntegerType>(v2.getType()));
EXPECT_TRUE(mlir::dyn_cast<fir::ConvertOp>(v2.getDefiningOp()));
}
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