InternalNamesTest.cpp
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//===- InternalNamesTest.cpp -- InternalNames 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/Support/InternalNames.h"
#include "gtest/gtest.h"
#include <string>
using namespace fir;
using llvm::SmallVector;
using llvm::StringRef;
struct DeconstructedName {
DeconstructedName(llvm::ArrayRef<std::string> modules,
llvm::Optional<std::string> host, llvm::StringRef name,
llvm::ArrayRef<std::int64_t> kinds)
: modules{modules.begin(), modules.end()}, host{host}, name{name},
kinds{kinds.begin(), kinds.end()} {}
bool isObjEqual(const NameUniquer::DeconstructedName &actualObj) {
if ((actualObj.name == name) && (actualObj.modules == modules) &&
(actualObj.host == host) && (actualObj.kinds == kinds)) {
return true;
}
return false;
}
private:
llvm::SmallVector<std::string, 2> modules;
llvm::Optional<std::string> host;
std::string name;
llvm::SmallVector<std::int64_t, 4> kinds;
};
void validateDeconstructedName(
std::pair<NameUniquer::NameKind, NameUniquer::DeconstructedName> &actual,
NameUniquer::NameKind &expectedNameKind,
struct DeconstructedName &components) {
EXPECT_EQ(actual.first, expectedNameKind)
<< "Possible error: NameKind mismatch";
ASSERT_TRUE(components.isObjEqual(actual.second))
<< "Possible error: DeconstructedName mismatch";
}
TEST(InternalNamesTest, doCommonBlockTest) {
NameUniquer obj;
std::string actual = obj.doCommonBlock("hello");
std::string actualBlank = obj.doCommonBlock("");
std::string expectedMangledName = "_QBhello";
std::string expectedMangledNameBlank = "_QB";
ASSERT_EQ(actual, expectedMangledName);
ASSERT_EQ(actualBlank, expectedMangledNameBlank);
}
TEST(InternalNamesTest, doGeneratedTest) {
NameUniquer obj;
std::string actual = obj.doGenerated("@MAIN");
std::string expectedMangledName = "_QQ@MAIN";
ASSERT_EQ(actual, expectedMangledName);
std::string actual1 = obj.doGenerated("@_ZNSt8ios_base4InitC1Ev");
std::string expectedMangledName1 = "_QQ@_ZNSt8ios_base4InitC1Ev";
ASSERT_EQ(actual1, expectedMangledName1);
std::string actual2 = obj.doGenerated("_QQ@MAIN");
std::string expectedMangledName2 = "_QQ_QQ@MAIN";
ASSERT_EQ(actual2, expectedMangledName2);
}
TEST(InternalNamesTest, doConstantTest) {
NameUniquer obj;
std::string actual = obj.doConstant({"mod1", "mod2"}, {"foo"}, "Hello");
std::string expectedMangledName = "_QMmod1Smod2FfooEChello";
ASSERT_EQ(actual, expectedMangledName);
}
TEST(InternalNamesTest, doProcedureTest) {
NameUniquer obj;
std::string actual = obj.doProcedure({"mod1", "mod2"}, {}, "HeLLo");
std::string expectedMangledName = "_QMmod1Smod2Phello";
ASSERT_EQ(actual, expectedMangledName);
}
TEST(InternalNamesTest, doTypeTest) {
NameUniquer obj;
std::string actual = obj.doType({}, {}, "mytype", {4, -1});
std::string expectedMangledName = "_QTmytypeK4KN1";
ASSERT_EQ(actual, expectedMangledName);
}
TEST(InternalNamesTest, doIntrinsicTypeDescriptorTest) {
using IntrinsicType = fir::NameUniquer::IntrinsicType;
NameUniquer obj;
std::string actual =
obj.doIntrinsicTypeDescriptor({}, {}, IntrinsicType::REAL, 42);
std::string expectedMangledName = "_QCrealK42";
ASSERT_EQ(actual, expectedMangledName);
actual = obj.doIntrinsicTypeDescriptor({}, {}, IntrinsicType::REAL, {});
expectedMangledName = "_QCrealK0";
ASSERT_EQ(actual, expectedMangledName);
actual = obj.doIntrinsicTypeDescriptor({}, {}, IntrinsicType::INTEGER, 3);
expectedMangledName = "_QCintegerK3";
ASSERT_EQ(actual, expectedMangledName);
actual = obj.doIntrinsicTypeDescriptor({}, {}, IntrinsicType::LOGICAL, 2);
expectedMangledName = "_QClogicalK2";
ASSERT_EQ(actual, expectedMangledName);
actual = obj.doIntrinsicTypeDescriptor({}, {}, IntrinsicType::CHARACTER, 4);
expectedMangledName = "_QCcharacterK4";
ASSERT_EQ(actual, expectedMangledName);
actual = obj.doIntrinsicTypeDescriptor({}, {}, IntrinsicType::COMPLEX, 4);
expectedMangledName = "_QCcomplexK4";
ASSERT_EQ(actual, expectedMangledName);
}
TEST(InternalNamesTest, doDispatchTableTest) {
NameUniquer obj;
std::string actual = obj.doDispatchTable({}, {}, "MyTYPE", {2, 8, 18});
std::string expectedMangledName = "_QDTmytypeK2K8K18";
ASSERT_EQ(actual, expectedMangledName);
}
TEST(InternalNamesTest, doTypeDescriptorTest) {
NameUniquer obj;
std::string actual = obj.doTypeDescriptor(
{StringRef("moD1")}, {StringRef("foo")}, "MyTYPE", {2, 8});
std::string expectedMangledName = "_QMmod1FfooCTmytypeK2K8";
ASSERT_EQ(actual, expectedMangledName);
}
TEST(InternalNamesTest, doVariableTest) {
NameUniquer obj;
std::string actual = obj.doVariable(
{"mod1", "mod2"}, {""}, "intvar"); // Function is present and is blank.
std::string expectedMangledName = "_QMmod1Smod2FEintvar";
ASSERT_EQ(actual, expectedMangledName);
std::string actual2 = obj.doVariable(
{"mod1", "mod2"}, {}, "intVariable"); // Function is not present.
std::string expectedMangledName2 = "_QMmod1Smod2Eintvariable";
ASSERT_EQ(actual2, expectedMangledName2);
}
TEST(InternalNamesTest, doProgramEntry) {
NameUniquer obj;
llvm::StringRef actual = obj.doProgramEntry();
std::string expectedMangledName = "_QQmain";
ASSERT_EQ(actual.str(), expectedMangledName);
}
TEST(InternalNamesTest, deconstructTest) {
NameUniquer obj;
std::pair actual = obj.deconstruct("_QBhello");
auto expectedNameKind = NameUniquer::NameKind::COMMON;
struct DeconstructedName expectedComponents {
{}, {}, "hello", {}
};
validateDeconstructedName(actual, expectedNameKind, expectedComponents);
}
TEST(InternalNamesTest, complexdeconstructTest) {
using NameKind = fir::NameUniquer::NameKind;
NameUniquer obj;
std::pair actual = obj.deconstruct("_QMmodSs1modSs2modFsubPfun");
auto expectedNameKind = NameKind::PROCEDURE;
struct DeconstructedName expectedComponents = {
{"mod", "s1mod", "s2mod"}, {"sub"}, "fun", {}};
validateDeconstructedName(actual, expectedNameKind, expectedComponents);
actual = obj.deconstruct("_QPsub");
expectedNameKind = NameKind::PROCEDURE;
expectedComponents = {{}, {}, "sub", {}};
validateDeconstructedName(actual, expectedNameKind, expectedComponents);
actual = obj.deconstruct("_QBvariables");
expectedNameKind = NameKind::COMMON;
expectedComponents = {{}, {}, "variables", {}};
validateDeconstructedName(actual, expectedNameKind, expectedComponents);
actual = obj.deconstruct("_QMmodEintvar");
expectedNameKind = NameKind::VARIABLE;
expectedComponents = {{"mod"}, {}, "intvar", {}};
validateDeconstructedName(actual, expectedNameKind, expectedComponents);
actual = obj.deconstruct("_QMmodECpi");
expectedNameKind = NameKind::CONSTANT;
expectedComponents = {{"mod"}, {}, "pi", {}};
validateDeconstructedName(actual, expectedNameKind, expectedComponents);
actual = obj.deconstruct("_QTyourtypeK4KN6");
expectedNameKind = NameKind::DERIVED_TYPE;
expectedComponents = {{}, {}, "yourtype", {4, -6}};
validateDeconstructedName(actual, expectedNameKind, expectedComponents);
actual = obj.deconstruct("_QDTt");
expectedNameKind = NameKind::DISPATCH_TABLE;
expectedComponents = {{}, {}, "t", {}};
validateDeconstructedName(actual, expectedNameKind, expectedComponents);
}
// main() from gtest_main