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103aa8be7cc57801ca083b5a53e34b51df36d3e3
qt-creator/tests/unit/unittest/projectpartsmanager-test.cpp
Marco Bubke 4280a68d9f ClangPchManager: Watch unchanged PCHs 
Change-Id: I7f4c0f12e4fbf3714e5bfe7655cfa13cac85f71f
Reviewed-by: Tim Jenssen <tim.jenssen@qt.io>
2019-08-27 11:50:52 +00:00

946 lines
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/****************************************************************************
**
** Copyright (C) 2016 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of Qt Creator.
**
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see https://www.qt.io/terms-conditions. For further
** 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.
**
****************************************************************************/
#include "googletest.h"
#include "mockbuilddependenciesprovider.h"
#include "mockclangpathwatcher.h"
#include "mockfilepathcaching.h"
#include "mockgeneratedfiles.h"
#include "mockprecompiledheaderstorage.h"
#include "mockprojectpartsstorage.h"
#include <projectpartsmanager.h>
#include <projectpartcontainer.h>
namespace {
using ClangBackEnd::FilePathId;
using ClangBackEnd::FilePathIds;
using ClangBackEnd::ProjectPartContainer;
using ClangBackEnd::ProjectPartContainers;
using UpToDataProjectParts = ClangBackEnd::ProjectPartsManagerInterface::UpToDataProjectParts;
using ClangBackEnd::SourceEntries;
using ClangBackEnd::SourceEntry;
using ClangBackEnd::SourceType;
MATCHER_P3(IsIdPaths,
projectPartId,
sourceIds,
sourceType,
std::string(negation ? "isn't " : "is ")
+ PrintToString(ClangBackEnd::IdPaths{{projectPartId, sourceType},
Utils::clone(sourceIds)}))
{
const ClangBackEnd::IdPaths &idPaths = arg;
return idPaths.filePathIds == sourceIds && idPaths.id.sourceType == sourceType
&& idPaths.id.id == projectPartId;
}
class ProjectPartsManager : public testing::Test
{
protected:
ProjectPartsManager()
{
projectPartContainerWithoutPrecompiledHeader1.preCompiledHeaderWasGenerated = false;
ON_CALL(mockGeneratedFiles, fileContainers()).WillByDefault(ReturnRef(generatedFiles));
}
NiceMock<MockProjectPartsStorage> mockProjectPartsStorage;
NiceMock<MockPrecompiledHeaderStorage> mockPrecompiledHeaderStorage;
NiceMock<MockBuildDependenciesProvider> mockBuildDependenciesProvider;
NiceMock<MockFilePathCaching> mockFilePathCaching;
NiceMock<MockGeneratedFiles> mockGeneratedFiles;
NiceMock<MockClangPathWatcher> mockClangPathWatcher;
ClangBackEnd::ProjectPartsManager manager{mockProjectPartsStorage,
mockPrecompiledHeaderStorage,
mockBuildDependenciesProvider,
mockFilePathCaching,
mockClangPathWatcher,
mockGeneratedFiles};
FilePathId firstHeader{1};
FilePathId secondHeader{2};
FilePathId firstSource{11};
FilePathId secondSource{12};
FilePathId thirdSource{13};
ProjectPartContainer projectPartContainer1{
1,
{"-DUNIX", "-O2"},
{{"DEFINE", "1", 1}},
{{"/includes", 1, ClangBackEnd::IncludeSearchPathType::BuiltIn}},
{{"/project/includes", 1, ClangBackEnd::IncludeSearchPathType::User}},
{firstHeader, secondHeader},
{firstSource, secondSource},
Utils::Language::C,
Utils::LanguageVersion::C11,
Utils::LanguageExtension::All};
ProjectPartContainer updatedProjectPartContainer1{
1,
{"-DUNIX", "-O2"},
{{"DEFINE", "1", 1}},
{{"/includes", 1, ClangBackEnd::IncludeSearchPathType::BuiltIn}},
{{"/project/includes", 1, ClangBackEnd::IncludeSearchPathType::User}},
{firstHeader, secondHeader},
{firstSource, secondSource, thirdSource},
Utils::Language::C,
Utils::LanguageVersion::C11,
Utils::LanguageExtension::All};
ProjectPartContainer nullProjectPartContainer1{1,
{},
{},
{},
{},
{},
{},
Utils::Language::C,
Utils::LanguageVersion::C89,
Utils::LanguageExtension::None};
ProjectPartContainer projectPartContainerWithoutPrecompiledHeader1{
1,
{"-DUNIX", "-O2"},
{{"DEFINE", "1", 1}},
{{"/includes", 1, ClangBackEnd::IncludeSearchPathType::BuiltIn}},
{{"/project/includes", 1, ClangBackEnd::IncludeSearchPathType::User}},
{firstHeader, secondHeader},
{firstSource, secondSource},
Utils::Language::C,
Utils::LanguageVersion::C11,
Utils::LanguageExtension::All};
ProjectPartContainer projectPartContainer2{
2,
{"-DUNIX", "-O2"},
{{"DEFINE", "1", 1}},
{{"/includes", 1, ClangBackEnd::IncludeSearchPathType::System}},
{{"/project/includes", 1, ClangBackEnd::IncludeSearchPathType::User}},
{firstHeader},
{firstSource},
Utils::Language::Cxx,
Utils::LanguageVersion::CXX14,
Utils::LanguageExtension::All};
ProjectPartContainer projectPartContainer3{
3,
{"-DUNIX", "-O2"},
{{"DEFINE", "1", 1}},
{{"/includes", 1, ClangBackEnd::IncludeSearchPathType::Framework}},
{{"/project/includes", 1, ClangBackEnd::IncludeSearchPathType::User}},
{secondHeader},
{firstSource},
Utils::Language::C,
Utils::LanguageVersion::C18,
Utils::LanguageExtension::All};
ProjectPartContainer projectPartContainer4{
4,
{"-DUNIX", "-O2"},
{{"DEFINE", "1", 1}},
{{"/includes", 1, ClangBackEnd::IncludeSearchPathType::User}},
{{"/project/includes", 1, ClangBackEnd::IncludeSearchPathType::User}},
{firstHeader},
{firstSource},
Utils::Language::Cxx,
Utils::LanguageVersion::CXX03,
Utils::LanguageExtension::All};
ClangBackEnd::V2::FileContainers generatedFiles;
};
TEST_F(ProjectPartsManager, GetNoProjectPartsForAddingEmptyProjectParts)
{
auto projectParts = manager.update({});
ASSERT_THAT(projectParts,
AllOf(Field(&UpToDataProjectParts::upToDate, IsEmpty()),
Field(&UpToDataProjectParts::updateSystem, IsEmpty())));
}
TEST_F(ProjectPartsManager, GetProjectPartForAddingProjectPart)
{
auto projectParts = manager.update({projectPartContainer1});
ASSERT_THAT(projectParts,
AllOf(Field(&UpToDataProjectParts::upToDate, IsEmpty()),
Field(&UpToDataProjectParts::updateSystem, ElementsAre(projectPartContainer1))));
}
TEST_F(ProjectPartsManager, GetProjectPartForAddingProjectPartWithProjectPartAlreadyInTheDatabase)
{
ON_CALL(mockProjectPartsStorage, fetchProjectParts(_))
.WillByDefault(Return(ProjectPartContainers{projectPartContainer1}));
auto projectParts = manager.update({projectPartContainer1, projectPartContainer2});
ASSERT_THAT(projectParts,
AllOf(Field(&UpToDataProjectParts::upToDate, ElementsAre(projectPartContainer1)),
Field(&UpToDataProjectParts::updateSystem, ElementsAre(projectPartContainer2))));
}
TEST_F(ProjectPartsManager, GetProjectPartForAddingProjectPartWithOlderProjectPartAlreadyInTheDatabase)
{
ON_CALL(mockProjectPartsStorage, fetchProjectParts(_))
.WillByDefault(Return(ProjectPartContainers{projectPartContainer1}));
auto projectParts = manager.update({updatedProjectPartContainer1, projectPartContainer2});
ASSERT_THAT(projectParts,
AllOf(Field(&UpToDataProjectParts::upToDate, IsEmpty()),
Field(&UpToDataProjectParts::updateSystem,
ElementsAre(updatedProjectPartContainer1, projectPartContainer2))));
}
TEST_F(ProjectPartsManager, ProjectPartAdded)
{
manager.update({projectPartContainer1});
ASSERT_THAT(manager.projectParts(), ElementsAre(projectPartContainer1));
}
TEST_F(ProjectPartsManager, ProjectPartAddedWithProjectPartAlreadyInTheDatabase)
{
ON_CALL(mockProjectPartsStorage, fetchProjectParts(_))
.WillByDefault(Return(ProjectPartContainers{projectPartContainer1}));
manager.update({projectPartContainer1, projectPartContainer2});
ASSERT_THAT(manager.projectParts(), ElementsAre(projectPartContainer1, projectPartContainer2));
}
TEST_F(ProjectPartsManager, ProjectPartAddedWithOlderProjectPartAlreadyInTheDatabase)
{
ON_CALL(mockProjectPartsStorage, fetchProjectParts(_))
.WillByDefault(Return(ProjectPartContainers{projectPartContainer1}));
manager.update({updatedProjectPartContainer1, projectPartContainer2});
ASSERT_THAT(manager.projectParts(),
ElementsAre(updatedProjectPartContainer1, projectPartContainer2));
}
TEST_F(ProjectPartsManager, FilteredProjectPartAdded)
{
manager.update({projectPartContainer1});
manager.update({projectPartContainer1});
ASSERT_THAT(manager.projectParts(), ElementsAre(projectPartContainer1));
}
TEST_F(ProjectPartsManager, DoNotUpdateNotNewProjectPart)
{
manager.update({projectPartContainer1});
auto projectParts = manager.update({projectPartContainer1});
ASSERT_THAT(projectParts,
AllOf(Field(&UpToDataProjectParts::upToDate, ElementsAre(projectPartContainer1)),
Field(&UpToDataProjectParts::updateSystem, IsEmpty())));
}
TEST_F(ProjectPartsManager, NoDuplicateProjectPartAfterUpdatingWithNotNewProjectPart)
{
manager.update({projectPartContainer1});
auto updatedProjectParts = manager.update({projectPartContainer1});
ASSERT_THAT(manager.projectParts(), ElementsAre(projectPartContainer1));
}
TEST_F(ProjectPartsManager, MergeProjectParts)
{
manager.mergeProjectParts({projectPartContainer1, projectPartContainer2});
ASSERT_THAT(manager.projectParts(), ElementsAre(projectPartContainer1, projectPartContainer2));
}
TEST_F(ProjectPartsManager, MergeProjectMultipleTimesParts)
{
manager.mergeProjectParts({projectPartContainer2});
manager.mergeProjectParts({projectPartContainer1});
ASSERT_THAT(manager.projectParts(), ElementsAre(projectPartContainer1, projectPartContainer2));
}
TEST_F(ProjectPartsManager, GetNewProjectParts)
{
auto newProjectParts = manager.filterProjectParts({projectPartContainer1, projectPartContainer2},
{projectPartContainer2});
ASSERT_THAT(newProjectParts, ElementsAre(projectPartContainer1));
}
TEST_F(ProjectPartsManager, GetUpdatedProjectPart)
{
manager.update({projectPartContainer1, projectPartContainer2});
auto projectParts = manager.update({updatedProjectPartContainer1});
ASSERT_THAT(projectParts,
AllOf(Field(&UpToDataProjectParts::upToDate, IsEmpty()),
Field(&UpToDataProjectParts::updateSystem,
ElementsAre(updatedProjectPartContainer1))));
}
TEST_F(ProjectPartsManager, ProjectPartIsReplacedWithUpdatedProjectPart)
{
manager.update({projectPartContainer1, projectPartContainer2});
manager.update({updatedProjectPartContainer1});
ASSERT_THAT(manager.projectParts(),
ElementsAre(updatedProjectPartContainer1, projectPartContainer2));
}
TEST_F(ProjectPartsManager, Remove)
{
manager.update({projectPartContainer1, projectPartContainer2});
manager.remove({projectPartContainer1.projectPartId});
ASSERT_THAT(manager.projectParts(), ElementsAre(projectPartContainer2));
}
TEST_F(ProjectPartsManager, RemoveSystemDeferred)
{
manager.updateDeferred({projectPartContainer1, projectPartContainer2}, {});
manager.remove({projectPartContainer1.projectPartId});
ASSERT_THAT(manager.deferredSystemUpdates(), ElementsAre(projectPartContainer2));
}
TEST_F(ProjectPartsManager, RemoveProjectDeferred)
{
manager.updateDeferred({}, {projectPartContainer1, projectPartContainer2});
manager.remove({projectPartContainer1.projectPartId});
ASSERT_THAT(manager.deferredProjectUpdates(), ElementsAre(projectPartContainer2));
}
TEST_F(ProjectPartsManager, GetProjectById)
{
manager.update({projectPartContainer1, projectPartContainer2});
auto projectPartContainers = manager.projects({projectPartContainer1.projectPartId});
ASSERT_THAT(projectPartContainers, ElementsAre(projectPartContainer1));
}
TEST_F(ProjectPartsManager, GetProjectsByIds)
{
manager.update({projectPartContainer1, projectPartContainer2});
auto projectPartContainers = manager.projects(
{projectPartContainer1.projectPartId, projectPartContainer2.projectPartId});
ASSERT_THAT(projectPartContainers, UnorderedElementsAre(projectPartContainer1, projectPartContainer2));
}
TEST_F(ProjectPartsManager, UpdateSystemDeferred)
{
manager.updateDeferred({projectPartContainer1}, {});
ASSERT_THAT(manager.deferredSystemUpdates(), ElementsAre(projectPartContainer1));
}
TEST_F(ProjectPartsManager, UpdateProjectDeferred)
{
manager.updateDeferred({}, {projectPartContainer1});
ASSERT_THAT(manager.deferredProjectUpdates(), ElementsAre(projectPartContainer1));
}
TEST_F(ProjectPartsManager, NotUpdateSystemDeferred)
{
ASSERT_THAT(manager.deferredSystemUpdates(), IsEmpty());
}
TEST_F(ProjectPartsManager, NotUpdateProjectDeferred)
{
ASSERT_THAT(manager.deferredProjectUpdates(), IsEmpty());
}
TEST_F(ProjectPartsManager, UpdateSystemDeferredCleansDeferredUpdates)
{
manager.updateDeferred({projectPartContainer1}, {});
manager.deferredSystemUpdates();
ASSERT_THAT(manager.deferredSystemUpdates(), IsEmpty());
}
TEST_F(ProjectPartsManager, UpdateProjectDeferredCleansDeferredUpdates)
{
manager.updateDeferred({}, {projectPartContainer1});
manager.deferredProjectUpdates();
ASSERT_THAT(manager.deferredProjectUpdates(), IsEmpty());
}
TEST_F(ProjectPartsManager, UpdateSystemDeferredMultiple)
{
manager.updateDeferred({projectPartContainer1, projectPartContainer3}, {});
manager.updateDeferred({updatedProjectPartContainer1, projectPartContainer2, projectPartContainer4},
{});
ASSERT_THAT(manager.deferredSystemUpdates(),
ElementsAre(updatedProjectPartContainer1,
projectPartContainer2,
projectPartContainer3,
projectPartContainer4));
}
TEST_F(ProjectPartsManager, UpdateProjectDeferredMultiple)
{
manager.updateDeferred({}, {projectPartContainer1, projectPartContainer3});
manager.updateDeferred({},
{updatedProjectPartContainer1, projectPartContainer2, projectPartContainer4});
ASSERT_THAT(manager.deferredProjectUpdates(),
ElementsAre(updatedProjectPartContainer1,
projectPartContainer2,
projectPartContainer3,
projectPartContainer4));
}
TEST_F(ProjectPartsManager, UpdateCallsIfNewProjectPartIsAdded)
{
EXPECT_CALL(mockProjectPartsStorage,
fetchProjectParts(ElementsAre(Eq(projectPartContainer1.projectPartId))));
EXPECT_CALL(mockProjectPartsStorage, updateProjectParts(ElementsAre(projectPartContainer1)));
EXPECT_CALL(mockProjectPartsStorage, resetIndexingTimeStamps(ElementsAre(projectPartContainer1)));
EXPECT_CALL(mockPrecompiledHeaderStorage,
deleteSystemAndProjectPrecompiledHeaders(
ElementsAre(projectPartContainer1.projectPartId)));
manager.update({projectPartContainer1});
}
TEST_F(ProjectPartsManager, UpdateCallsNotUpdateProjectPartsInStorageIfNoNewerProjectPartsExists)
{
manager.update({projectPartContainer1});
EXPECT_CALL(mockProjectPartsStorage, updateProjectParts(ElementsAre(projectPartContainer1))).Times(0);
manager.update({projectPartContainer1});
}
TEST_F(ProjectPartsManager, UpdateCallsNotFetchProjectPartsInStorageIfNoNewerProjectPartsExists)
{
manager.update({projectPartContainer1});
EXPECT_CALL(mockProjectPartsStorage,
fetchProjectParts(ElementsAre(Eq(projectPartContainer1.projectPartId))))
.Times(0);
manager.update({projectPartContainer1});
}
TEST_F(ProjectPartsManager, UpdateCallsNotDeleteProjectPrecompiledHeadersIfNoNewerProjectPartsExists)
{
manager.update({projectPartContainer1});
EXPECT_CALL(mockPrecompiledHeaderStorage,
deleteProjectPrecompiledHeaders(ElementsAre(projectPartContainer1.projectPartId)))
.Times(0);
manager.update({projectPartContainer1});
}
TEST_F(ProjectPartsManager,
UpdateCallsNotDeleteSystemAndProjectPrecompiledHeadersIfNoNewerProjectPartsExists)
{
manager.update({projectPartContainer1});
EXPECT_CALL(mockPrecompiledHeaderStorage,
deleteSystemAndProjectPrecompiledHeaders(
ElementsAre(projectPartContainer1.projectPartId)))
.Times(0);
manager.update({projectPartContainer1});
}
TEST_F(ProjectPartsManager, UpdateCallsNotResetIndexingTimeStampsIfNoNewerProjectPartsExists)
{
manager.update({projectPartContainer1});
EXPECT_CALL(mockProjectPartsStorage, resetIndexingTimeStamps(ElementsAre(projectPartContainer1)))
.Times(0);
manager.update({projectPartContainer1});
}
TEST_F(ProjectPartsManager, UpdateCallsIfOldProjectPartIsAdded)
{
EXPECT_CALL(mockProjectPartsStorage,
fetchProjectParts(ElementsAre(Eq(projectPartContainer1.projectPartId))))
.WillRepeatedly(Return(ProjectPartContainers{projectPartContainer1}));
EXPECT_CALL(mockProjectPartsStorage, updateProjectParts(ElementsAre(projectPartContainer1))).Times(0);
EXPECT_CALL(mockPrecompiledHeaderStorage,
deleteProjectPrecompiledHeaders(ElementsAre(projectPartContainer1.projectPartId)))
.Times(0);
EXPECT_CALL(mockProjectPartsStorage, resetIndexingTimeStamps(ElementsAre(projectPartContainer1)))
.Times(0);
manager.update({projectPartContainer1});
}
TEST_F(ProjectPartsManager, UpdateCallsIfUpdatedProjectPartIsAdded)
{
manager.update({projectPartContainer1});
EXPECT_CALL(mockProjectPartsStorage,
fetchProjectParts(ElementsAre(Eq(projectPartContainer1.projectPartId))))
.WillRepeatedly(Return(ProjectPartContainers{projectPartContainer1}));
EXPECT_CALL(mockProjectPartsStorage,
updateProjectParts(ElementsAre(updatedProjectPartContainer1)));
EXPECT_CALL(mockPrecompiledHeaderStorage,
deleteSystemAndProjectPrecompiledHeaders(
ElementsAre(projectPartContainer1.projectPartId)));
EXPECT_CALL(mockProjectPartsStorage,
resetIndexingTimeStamps(ElementsAre(updatedProjectPartContainer1)));
manager.update({updatedProjectPartContainer1});
}
TEST_F(ProjectPartsManager,
GetProjectPartForAddingProjectPartWithProjectPartAlreadyInTheDatabaseButNoPrecompiledHeader)
{
ON_CALL(mockProjectPartsStorage, fetchProjectParts(_))
.WillByDefault(Return(ProjectPartContainers{projectPartContainerWithoutPrecompiledHeader1}));
auto projectParts = manager.update({projectPartContainer1});
ASSERT_THAT(projectParts,
AllOf(Field(&UpToDataProjectParts::upToDate, IsEmpty()),
Field(&UpToDataProjectParts::updateSystem, ElementsAre(projectPartContainer1))));
}
TEST_F(ProjectPartsManager, ProjectPartAddedWithProjectPartAlreadyInTheDatabaseButWithoutEntries)
{
ON_CALL(mockProjectPartsStorage, fetchProjectParts(_))
.WillByDefault(Return(ProjectPartContainers{nullProjectPartContainer1}));
manager.update({projectPartContainer1});
ASSERT_THAT(manager.projectParts(), ElementsAre(projectPartContainer1));
}
TEST_F(ProjectPartsManager, SystemSourcesTimeChanged)
{
SourceEntries oldSources{{1, SourceType::SystemInclude, 100},
{2, SourceType::ProjectInclude, 100}};
SourceEntries newSources{{1, SourceType::SystemInclude, 101},
{2, SourceType::ProjectInclude, 101}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.updateSystem, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateProject, IsEmpty());
ASSERT_THAT(upToDate.upToDate, IsEmpty());
}
TEST_F(ProjectPartsManager, TopSystemSourcesTimeChanged)
{
SourceEntries oldSources{{1, SourceType::TopSystemInclude, 100},
{2, SourceType::ProjectInclude, 100}};
SourceEntries newSources{{1, SourceType::TopSystemInclude, 101},
{2, SourceType::ProjectInclude, 101}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.updateSystem, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateProject, IsEmpty());
ASSERT_THAT(upToDate.upToDate, IsEmpty());
}
TEST_F(ProjectPartsManager, ProjectSourcesTimeChanged)
{
SourceEntries oldSources{{1, SourceType::SystemInclude, 100},
{2, SourceType::ProjectInclude, 100}};
SourceEntries newSources{{1, SourceType::SystemInclude, 100},
{2, SourceType::ProjectInclude, 101}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.updateProject, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateSystem, IsEmpty());
ASSERT_THAT(upToDate.upToDate, IsEmpty());
}
TEST_F(ProjectPartsManager, TopProjectSourcesTimeChanged)
{
SourceEntries oldSources{{1, SourceType::SystemInclude, 100},
{2, SourceType::TopProjectInclude, 100}};
SourceEntries newSources{{1, SourceType::SystemInclude, 100},
{2, SourceType::TopProjectInclude, 101}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.updateProject, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateSystem, IsEmpty());
ASSERT_THAT(upToDate.upToDate, IsEmpty());
}
TEST_F(ProjectPartsManager, UserIncludeSourcesTimeChanged)
{
SourceEntries oldSources{{1, SourceType::SystemInclude, 100}, {2, SourceType::UserInclude, 100}};
SourceEntries newSources{{1, SourceType::SystemInclude, 100}, {2, SourceType::UserInclude, 101}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.upToDate, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateProject, IsEmpty());
ASSERT_THAT(upToDate.updateSystem, IsEmpty());
}
TEST_F(ProjectPartsManager, SourcesTimeChanged)
{
SourceEntries oldSources{{1, SourceType::SystemInclude, 100}, {2, SourceType::Source, 100}};
SourceEntries newSources{{1, SourceType::SystemInclude, 100}, {2, SourceType::Source, 101}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.upToDate, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateProject, IsEmpty());
ASSERT_THAT(upToDate.updateSystem, IsEmpty());
}
TEST_F(ProjectPartsManager, SourcesTimeNotChanged)
{
SourceEntries oldSources{{1, SourceType::SystemInclude, 100}};
SourceEntries newSources{{1, SourceType::SystemInclude, 99}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.upToDate, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateSystem, IsEmpty());
ASSERT_THAT(upToDate.updateProject, IsEmpty());
}
TEST_F(ProjectPartsManager, TimeChangedForOneProject)
{
manager.update({projectPartContainer1, projectPartContainer2});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(SourceEntries{{1, SourceType::SystemInclude, 100}}));
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer2.sourcePathIds),
Eq(projectPartContainer2.projectPartId)))
.WillByDefault(Return(SourceEntries{{4, SourceType::SystemInclude, 100}}));
ON_CALL(mockBuildDependenciesProvider,
create(Eq(projectPartContainer1), Eq(SourceEntries{{1, SourceType::SystemInclude, 100}})))
.WillByDefault(Return(
ClangBackEnd::BuildDependency{{{1, SourceType::SystemInclude, 101}}, {}, {}, {}, {}}));
ON_CALL(mockBuildDependenciesProvider,
create(Eq(projectPartContainer2), Eq(SourceEntries{{4, SourceType::SystemInclude, 100}})))
.WillByDefault(Return(
ClangBackEnd::BuildDependency{{{4, SourceType::SystemInclude, 100}}, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1, projectPartContainer2});
ASSERT_THAT(upToDate.updateSystem, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateProject, IsEmpty());
ASSERT_THAT(upToDate.upToDate, ElementsAre(projectPartContainer2));
}
TEST_F(ProjectPartsManager, AddSystemInclude)
{
manager.update({projectPartContainer1});
SourceEntries oldSources{{1, SourceType::SystemInclude, 100}};
SourceEntries newSources{{1, SourceType::SystemInclude, 100}, {2, SourceType::SystemInclude, 100}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.updateSystem, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateProject, IsEmpty());
ASSERT_THAT(upToDate.upToDate, IsEmpty());
}
TEST_F(ProjectPartsManager, ChangeFromProjectToSystemInclude)
{
manager.update({projectPartContainer1});
SourceEntries oldSources{{1, SourceType::ProjectInclude, 100}};
SourceEntries newSources{{1, SourceType::SystemInclude, 100}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.updateSystem, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateProject, IsEmpty());
ASSERT_THAT(upToDate.upToDate, IsEmpty());
}
TEST_F(ProjectPartsManager, ChangeFromSystemToProjectInclude)
{
manager.update({projectPartContainer1});
SourceEntries oldSources{{1, SourceType::SystemInclude, 100}};
SourceEntries newSources{{1, SourceType::ProjectInclude, 100}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.updateSystem, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateProject, IsEmpty());
ASSERT_THAT(upToDate.upToDate, IsEmpty());
}
TEST_F(ProjectPartsManager, ChangeFromProjectToUserInclude)
{
manager.update({projectPartContainer1});
SourceEntries oldSources{{1, SourceType::ProjectInclude, 100}};
SourceEntries newSources{{1, SourceType::UserInclude, 100}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.updateProject, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.upToDate, IsEmpty());
ASSERT_THAT(upToDate.updateSystem, IsEmpty());
}
TEST_F(ProjectPartsManager, ChangeFromSystemToUserInclude)
{
manager.update({projectPartContainer1});
SourceEntries oldSources{{1, SourceType::SystemInclude, 100}};
SourceEntries newSources{{1, SourceType::UserInclude, 100}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.updateSystem, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.upToDate, IsEmpty());
ASSERT_THAT(upToDate.updateProject, IsEmpty());
}
TEST_F(ProjectPartsManager, ChangeFromSourceToUserInclude)
{
manager.update({projectPartContainer1});
SourceEntries oldSources{{1, SourceType::Source, 100}};
SourceEntries newSources{{1, SourceType::UserInclude, 100}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.upToDate, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateSystem, IsEmpty());
ASSERT_THAT(upToDate.updateProject, IsEmpty());
}
TEST_F(ProjectPartsManager, ChangeFromUserIncludeToSource)
{
manager.update({projectPartContainer1});
SourceEntries oldSources{{1, SourceType::UserInclude, 100}};
SourceEntries newSources{{1, SourceType::Source, 100}};
manager.update({projectPartContainer1});
ON_CALL(mockBuildDependenciesProvider,
createSourceEntriesFromStorage(Eq(projectPartContainer1.sourcePathIds),
Eq(projectPartContainer1.projectPartId)))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(Eq(projectPartContainer1), Eq(oldSources)))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
auto upToDate = manager.update({projectPartContainer1});
ASSERT_THAT(upToDate.upToDate, ElementsAre(projectPartContainer1));
ASSERT_THAT(upToDate.updateSystem, IsEmpty());
ASSERT_THAT(upToDate.updateProject, IsEmpty());
}
TEST_F(ProjectPartsManager, DontWatchNewSources)
{
EXPECT_CALL(mockClangPathWatcher, updateIdPaths(_)).Times(0);
manager.update({projectPartContainer1});
}
TEST_F(ProjectPartsManager, DontWatchUpdatedSources)
{
manager.update({projectPartContainer1});
EXPECT_CALL(mockClangPathWatcher, updateIdPaths(_)).Times(0);
manager.update({updatedProjectPartContainer1});
}
TEST_F(ProjectPartsManager, DontWatchChangedTimeStamps)
{
manager.update({projectPartContainer1});
SourceEntries oldSources{{1, SourceType::SystemInclude, 100}};
SourceEntries newSources{{1, SourceType::SystemInclude, 101}};
ON_CALL(mockBuildDependenciesProvider, createSourceEntriesFromStorage(_, _))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(_, _))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
EXPECT_CALL(mockClangPathWatcher, updateIdPaths(_)).Times(0);
manager.update({projectPartContainer1});
}
TEST_F(ProjectPartsManager, DontWatchChangedSources)
{
manager.update({projectPartContainer1});
SourceEntries oldSources{{1, SourceType::SystemInclude, 100}};
SourceEntries newSources{{1, SourceType::ProjectInclude, 100}};
ON_CALL(mockBuildDependenciesProvider, createSourceEntriesFromStorage(_, _))
.WillByDefault(Return(oldSources));
ON_CALL(mockBuildDependenciesProvider, create(_, _))
.WillByDefault(Return(ClangBackEnd::BuildDependency{newSources, {}, {}, {}, {}}));
EXPECT_CALL(mockClangPathWatcher, updateIdPaths(_)).Times(0);
manager.update({projectPartContainer1});
}
TEST_F(ProjectPartsManager, WatchNoUpdatedSources)
{
manager.update({projectPartContainer1, projectPartContainer2});
SourceEntries sources1{{1, SourceType::TopSystemInclude, 100},
{2, SourceType::SystemInclude, 100},
{3, SourceType::TopProjectInclude, 100},
{4, SourceType::ProjectInclude, 100},
{5, SourceType::UserInclude, 100},
{6, SourceType::Source, 100}};
SourceEntries sources2{{11, SourceType::TopSystemInclude, 100},
{21, SourceType::SystemInclude, 100},
{31, SourceType::TopProjectInclude, 100},
{41, SourceType::ProjectInclude, 100},
{51, SourceType::UserInclude, 100},
{61, SourceType::Source, 100}};
ON_CALL(mockBuildDependenciesProvider, createSourceEntriesFromStorage(_, Eq(1)))
.WillByDefault(Return(sources1));
ON_CALL(mockBuildDependenciesProvider,
create(Field(&ProjectPartContainer::projectPartId, Eq(1)), _))
.WillByDefault(Return(ClangBackEnd::BuildDependency{sources1, {}, {}, {}, {}}));
ON_CALL(mockBuildDependenciesProvider, createSourceEntriesFromStorage(_, Eq(2)))
.WillByDefault(Return(sources2));
ON_CALL(mockBuildDependenciesProvider,
create(Field(&ProjectPartContainer::projectPartId, Eq(2)), _))
.WillByDefault(Return(ClangBackEnd::BuildDependency{sources2, {}, {}, {}, {}}));
EXPECT_CALL(mockClangPathWatcher,
updateIdPaths(UnorderedElementsAre(
IsIdPaths(1, FilePathIds{6}, SourceType::Source),
IsIdPaths(2, FilePathIds{61}, SourceType::Source),
IsIdPaths(1, FilePathIds{5}, SourceType::UserInclude),
IsIdPaths(2, FilePathIds{51}, SourceType::UserInclude),
IsIdPaths(1, FilePathIds{3, 4}, SourceType::ProjectInclude),
IsIdPaths(2, FilePathIds{31, 41}, SourceType::ProjectInclude),
IsIdPaths(1, FilePathIds{1, 2}, SourceType::SystemInclude),
IsIdPaths(2, FilePathIds{11, 21}, SourceType::SystemInclude))));
manager.update({projectPartContainer1, projectPartContainer2});
}
} // namespace
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