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qt-creator/tests/unit/unittest/symbolscollector-test.cpp
Marco Bubke de4f6301e6 Clang: Process SymbolKind and SymbolTags with the indexer 
We add the infrastructure to compute the SymbolKind and SymbolTags in the
indexer. Later we have to add more for templates, virtual functions etc..

Change-Id: I9203c5cfbfffed3065337292010de5fce5736453
Reviewed-by: Ivan Donchevskii <ivan.donchevskii@qt.io>
2018-03-27 14:45:58 +00:00

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/****************************************************************************
**
** Copyright (C) 2017 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of Qt Creator.
**
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** information use the contact form at https://www.qt.io/contact-us.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3 as published by the Free Software
** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
** included in the packaging of this file. Please review the following
** information to ensure the GNU General Public License requirements will
** be met: https://www.gnu.org/licenses/gpl-3.0.html.
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****************************************************************************/
#include "googletest.h"
#include "filesystem-utilities.h"
#include <symbolscollector.h>
#include <filestatus.h>
#include <filepathcaching.h>
#include <refactoringdatabaseinitializer.h>
#include <QDateTime>
#include <QDir>
using testing::PrintToString;
using testing::AllOf;
using testing::Contains;
using testing::Not;
using testing::Field;
using testing::Key;
using testing::Pair;
using testing::Value;
using testing::_;
using ClangBackEnd::FilePath;
using ClangBackEnd::FilePathId;
using ClangBackEnd::FilePathCaching;
using ClangBackEnd::V2::FileContainers;
using ClangBackEnd::SourceDependency;
using ClangBackEnd::SourceLocationEntry;
using ClangBackEnd::SymbolEntry;
using ClangBackEnd::SymbolKind;
using ClangBackEnd::SymbolTag;
using ClangBackEnd::SymbolType;
using ClangBackEnd::SymbolIndex;
using ClangBackEnd::UsedMacro;
using Sqlite::Database;
namespace {
MATCHER_P5(IsSourceLocationEntry, symbolId, filePathId, line, column, symbolType,
std::string(negation ? "isn't" : "is")
+ PrintToString(SourceLocationEntry{symbolId, filePathId, {line, column}, symbolType})
)
{
const SourceLocationEntry &entry = arg;
return entry.filePathId == filePathId
&& entry.lineColumn.line == line
&& entry.lineColumn.column == column
&& entry.symbolType == symbolType
&& entry.symbolId == symbolId;
}
MATCHER_P2(HasLineColumn, line, column,
std::string(negation ? "isn't" : "is")
+ PrintToString(Utils::LineColumn{line, column})
)
{
const SourceLocationEntry &entry = arg;
return entry.lineColumn.line == line
&& entry.lineColumn.column == column;
}
MATCHER_P(HasSymbolName, symbolName,
std::string(negation ? "hasn't" : "has")
+ " symbol name: "
+ symbolName
)
{
const SymbolEntry &entry = arg.second;
return entry.symbolName == symbolName;
}
MATCHER_P(HasSymbolKind, symbolKind,
std::string(negation ? "hasn't" : "has")
+ " and symbol kind: "
+ PrintToString(symbolKind)
)
{
const SymbolEntry &entry = arg.second;
return entry.symbolKind == symbolKind;
}
MATCHER_P(HasSymbolTag, symbolTag,
std::string(negation ? "hasn't" : "has")
+ " and symbol tag: "
+ PrintToString(symbolTag)
)
{
const SymbolEntry &entry = arg.second;
return entry.symbolTags.contains(symbolTag);
}
class SymbolsCollector : public testing::Test
{
protected:
FilePathId filePathId(Utils::SmallStringView filePath) const
{
return filePathCache.filePathId(ClangBackEnd::FilePathView{filePath});
}
static off_t fileSize(Utils::SmallStringView filePath)
{
return QFileInfo(QString(filePath)).size();
}
static std::time_t lastModified(Utils::SmallStringView filePath)
{
return QFileInfo(QString(filePath)).lastModified().toTime_t();
}
ClangBackEnd::FileStatus fileStatus(Utils::SmallStringView filePath) const
{
return {filePathId(filePath), fileSize(filePath), lastModified(filePath), false};
}
SymbolIndex symbolId(const Utils::SmallString &symbolName)
{
for (const auto &entry : collector.symbols()) {
if (entry.second.symbolName == symbolName)
return entry.first;
}
return 0;
}
protected:
Sqlite::Database database{":memory:", Sqlite::JournalMode::Memory};
ClangBackEnd::RefactoringDatabaseInitializer<Sqlite::Database> initializer{database};
FilePathCaching filePathCache{database};
ClangBackEnd::SymbolsCollector collector{filePathCache};
};
TEST_F(SymbolsCollector, CollectSymbolName)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_simple.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(HasSymbolName("x")));
}
TEST_F(SymbolsCollector, SymbolMatchesLocation)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_simple.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(
AllOf(Field(&SourceLocationEntry::symbolId, symbolId("function")),
HasLineColumn(1, 6))));
}
TEST_F(SymbolsCollector, OtherSymboldMatchesLocation)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_simple.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(
AllOf(Field(&SourceLocationEntry::symbolId, symbolId("function")),
HasLineColumn(2, 6))));
}
TEST_F(SymbolsCollector, CollectFilePath)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_simple.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(
AllOf(Field(&SourceLocationEntry::filePathId,
filePathId(TESTDATA_DIR"/symbolscollector_simple.cpp")),
Field(&SourceLocationEntry::symbolType, SymbolType::Declaration))));
}
TEST_F(SymbolsCollector, CollectLineColumn)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_simple.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(
AllOf(HasLineColumn(1, 6),
Field(&SourceLocationEntry::symbolType, SymbolType::Declaration))));
}
TEST_F(SymbolsCollector, CollectReference)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_simple.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(
AllOf(HasLineColumn(14, 5),
Field(&SourceLocationEntry::symbolType, SymbolType::DeclarationReference))));
}
TEST_F(SymbolsCollector, ReferencedSymboldMatchesLocation)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_simple.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(
AllOf(Field(&SourceLocationEntry::symbolId, symbolId("function")),
HasLineColumn(14, 5))));
}
TEST_F(SymbolsCollector, DISABLED_ON_WINDOWS(CollectInUnsavedFile))
{
FileContainers unsaved{{{TESTDATA_DIR, "symbolscollector_generated_file.h"},
"void function();",
{}}};
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_unsaved.cpp")}, {"cc"});
collector.addUnsavedFiles(std::move(unsaved));
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(HasSymbolName("function")));
}
TEST_F(SymbolsCollector, SourceFiles)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceFiles(),
UnorderedElementsAre(filePathId(TESTDATA_DIR "/symbolscollector_main.cpp"),
filePathId(TESTDATA_DIR "/symbolscollector_header1.h"),
filePathId(TESTDATA_DIR "/symbolscollector_header2.h")));
}
TEST_F(SymbolsCollector, MainFileInSourceFiles)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
ASSERT_THAT(collector.sourceFiles(),
ElementsAre(filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")));
}
TEST_F(SymbolsCollector, ResetMainFileInSourceFiles)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
ASSERT_THAT(collector.sourceFiles(),
ElementsAre(filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")));
}
TEST_F(SymbolsCollector, DontDuplicateSourceFiles)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
collector.collectSymbols();
collector.collectSymbols();
ASSERT_THAT(collector.sourceFiles(),
UnorderedElementsAre(filePathId(TESTDATA_DIR "/symbolscollector_main.cpp"),
filePathId(TESTDATA_DIR "/symbolscollector_header1.h"),
filePathId(TESTDATA_DIR "/symbolscollector_header2.h")));
}
TEST_F(SymbolsCollector, ClearSourceFiles)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
collector.clear();
ASSERT_THAT(collector.sourceFiles(), IsEmpty());
}
TEST_F(SymbolsCollector, ClearSymbols)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
collector.collectSymbols();
collector.clear();
ASSERT_THAT(collector.symbols(), IsEmpty());
}
TEST_F(SymbolsCollector, ClearSourceLocations)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
collector.collectSymbols();
collector.clear();
ASSERT_THAT(collector.sourceLocations(), IsEmpty());
}
TEST_F(SymbolsCollector, ClearFileStatus)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
collector.collectSymbols();
collector.clear();
ASSERT_THAT(collector.fileStatuses(), IsEmpty());
}
TEST_F(SymbolsCollector, ClearUsedMacros)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_defines.h")}, {"cc"});
collector.collectSymbols();
collector.clear();
ASSERT_THAT(collector.usedMacros(), IsEmpty());
}
TEST_F(SymbolsCollector, DontCollectSymbolsAfterFilesAreCleared)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
collector.clear();
collector.collectSymbols();
ASSERT_THAT(collector.symbols(), IsEmpty());
}
TEST_F(SymbolsCollector, DontCollectSourceFilesAfterFilesAreCleared)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
collector.clear();
collector.collectSymbols();
ASSERT_THAT(collector.sourceFiles(), IsEmpty());
}
TEST_F(SymbolsCollector, DontCollectFileStatusAfterFilesAreCleared)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
collector.clear();
collector.collectSymbols();
ASSERT_THAT(collector.fileStatuses(), IsEmpty());
}
TEST_F(SymbolsCollector, DontCollectUsedMacrosAfterFilesAreCleared)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_main.cpp")}, {"cc"});
collector.clear();
collector.collectSymbols();
ASSERT_THAT(collector.usedMacros(), IsEmpty());
}
TEST_F(SymbolsCollector, CollectUsedMacrosWithExternalDefine)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.usedMacros(),
ElementsAre(Eq(UsedMacro{"DEFINED", fileId}),
Eq(UsedMacro{"IF_DEFINE", fileId}),
Eq(UsedMacro{"__clang__", fileId}),
Eq(UsedMacro{"CLASS_EXPORT", fileId}),
Eq(UsedMacro{"IF_NOT_DEFINE", fileId}),
Eq(UsedMacro{"MACRO_EXPANSION", fileId}),
Eq(UsedMacro{"COMPILER_ARGUMENT", fileId})));
}
TEST_F(SymbolsCollector, CollectUsedMacrosWithoutExternalDefine)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.usedMacros(),
ElementsAre(Eq(UsedMacro{"DEFINED", fileId}),
Eq(UsedMacro{"IF_DEFINE", fileId}),
Eq(UsedMacro{"__clang__", fileId}),
Eq(UsedMacro{"CLASS_EXPORT", fileId}),
Eq(UsedMacro{"IF_NOT_DEFINE", fileId}),
Eq(UsedMacro{"MACRO_EXPANSION", fileId}),
Eq(UsedMacro{"COMPILER_ARGUMENT", fileId})));
}
TEST_F(SymbolsCollector, DontCollectHeaderGuards)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.usedMacros(),
Not(Contains(Eq(UsedMacro{"SYMBOLSCOLLECTOR_DEFINES_H", fileId}))));
}
TEST_F(SymbolsCollector, DISABLED_DontCollectDynamicLibraryExports)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.usedMacros(),
Not(Contains(Eq(UsedMacro{"CLASS_EXPORT", fileId}))));
}
TEST_F(SymbolsCollector, CollectMacroDefinitionSourceLocation)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(IsSourceLocationEntry(symbolId("IF_NOT_DEFINE"), fileId, 4, 9, SymbolType::MacroDefinition)));
}
TEST_F(SymbolsCollector, CollectMacroUsageInIfNotDefSourceLocation)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(IsSourceLocationEntry(symbolId("IF_NOT_DEFINE"), fileId, 6, 9, SymbolType::MacroUsage)));
}
TEST_F(SymbolsCollector, CollectSecondMacroUsageInIfNotDefSourceLocation)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(IsSourceLocationEntry(symbolId("IF_NOT_DEFINE"), fileId, 9, 9, SymbolType::MacroUsage)));
}
TEST_F(SymbolsCollector, CollectMacroUsageCompilerArgumentSourceLocation)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(IsSourceLocationEntry(symbolId("COMPILER_ARGUMENT"), fileId, 12, 9, SymbolType::MacroUsage)));
}
TEST_F(SymbolsCollector, CollectMacroUsageInIfDefSourceLocation)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(IsSourceLocationEntry(symbolId("IF_DEFINE"), fileId, 17, 8, SymbolType::MacroUsage)));
}
TEST_F(SymbolsCollector, CollectMacroUsageInDefinedSourceLocation)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(IsSourceLocationEntry(symbolId("DEFINED"), fileId, 22, 13, SymbolType::MacroUsage)));
}
TEST_F(SymbolsCollector, CollectMacroUsageExpansionSourceLocation)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(IsSourceLocationEntry(symbolId("MACRO_EXPANSION"), fileId, 27, 10, SymbolType::MacroUsage)));
}
TEST_F(SymbolsCollector, CollectMacroUsageUndefSourceLocation)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(IsSourceLocationEntry(symbolId("UN_DEFINE"), fileId, 34, 8, SymbolType::MacroUndefinition)));
}
TEST_F(SymbolsCollector, CollectMacroUsageBuiltInSourceLocation)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.sourceLocations(),
Contains(IsSourceLocationEntry(symbolId("__clang__"), fileId, 29, 9, SymbolType::MacroUsage)));
}
TEST_F(SymbolsCollector, CollectMacroDefinitionSymbols)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(AllOf(HasSymbolName("IF_NOT_DEFINE"), HasSymbolKind(SymbolKind::Macro))));
}
TEST_F(SymbolsCollector, CollectMacroBuiltInSymbols)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(AllOf(HasSymbolName("__clang__"), HasSymbolKind(SymbolKind::Macro))));
}
TEST_F(SymbolsCollector, CollectMacroCompilerArgumentSymbols)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_defines.h");
collector.addFiles({fileId}, {"cc", "-DCOMPILER_ARGUMENT"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(AllOf(HasSymbolName("COMPILER_ARGUMENT"), HasSymbolKind(SymbolKind::Macro))));
}
TEST_F(SymbolsCollector, CollectFileStatuses)
{
auto fileId = filePathId(TESTDATA_DIR "/symbolscollector_main.cpp");
collector.addFiles({fileId}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.fileStatuses(),
ElementsAre(
fileStatus(TESTDATA_DIR "/symbolscollector_main.cpp"),
fileStatus(TESTDATA_DIR "/symbolscollector_header1.h"),
fileStatus(TESTDATA_DIR "/symbolscollector_header2.h")));
}
TEST_F(SymbolsCollector, CollectSourceDependencies)
{
auto mainFileId = filePathId(TESTDATA_DIR "/symbolscollector_main2.cpp");
auto header1FileId = filePathId(TESTDATA_DIR "/symbolscollector_header1.h");
auto header2FileId = filePathId(TESTDATA_DIR "/symbolscollector_header2.h");
auto header3FileId = filePathId(TESTDATA_DIR "/symbolscollector_header3.h");
collector.addFiles({mainFileId}, {"cc", "-I" TESTDATA_DIR});
collector.collectSymbols();
ASSERT_THAT(collector.sourceDependencies(),
UnorderedElementsAre(SourceDependency(mainFileId, header1FileId),
SourceDependency(mainFileId, header3FileId),
SourceDependency(header3FileId, header2FileId),
SourceDependency(header1FileId, header2FileId)));
}
TEST_F(SymbolsCollector, IsClassSymbol)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_symbolkind.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(
AllOf(
HasSymbolName("Class"),
HasSymbolKind(SymbolKind::Tag),
HasSymbolTag(SymbolTag::Class))));
}
TEST_F(SymbolsCollector, IsStructSymbol)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_symbolkind.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(
AllOf(
HasSymbolName("Struct"),
HasSymbolKind(SymbolKind::Tag),
HasSymbolTag(SymbolTag::Struct))));
}
TEST_F(SymbolsCollector, IsEnumerationSymbol)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_symbolkind.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
AllOf(
Contains(
AllOf(
HasSymbolName("Enumeration"),
HasSymbolKind(SymbolKind::Tag),
HasSymbolTag(SymbolTag::Enumeration))),
Contains(
AllOf(
HasSymbolName("ScopedEnumeration"),
HasSymbolKind(SymbolKind::Tag),
HasSymbolTag(SymbolTag::Enumeration)))));
}
TEST_F(SymbolsCollector, IsUnionSymbol)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_symbolkind.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(
AllOf(
HasSymbolName("Union"),
HasSymbolKind(SymbolKind::Tag),
HasSymbolTag(SymbolTag::Union))));
}
TEST_F(SymbolsCollector, DISABLED_ON_NON_WINDOWS(IsMsvcInterfaceSymbol))
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_symbolkind.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(
AllOf(
HasSymbolName("MsvcInterface"),
HasSymbolKind(SymbolKind::Tag),
HasSymbolTag(SymbolTag::MsvcInterface))));
}
TEST_F(SymbolsCollector, IsFunctionSymbol)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_symbolkind.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(
AllOf(
HasSymbolName("Function"),
HasSymbolKind(SymbolKind::Function))));
}
TEST_F(SymbolsCollector, IsVariableSymbol)
{
collector.addFiles({filePathId(TESTDATA_DIR "/symbolscollector_symbolkind.cpp")}, {"cc"});
collector.collectSymbols();
ASSERT_THAT(collector.symbols(),
Contains(
AllOf(
HasSymbolName("Variable"),
HasSymbolKind(SymbolKind::Variable))));
}
}
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