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Refactoring sequence diagrams test cases (#266)

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This commit is contained in:
Bartek Kryza
2024-05-16 21:58:45 +02:00
parent 5d69f5063a
commit 7c1e0420c6
49 changed files with 2807 additions and 1576 deletions
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89
tests/t20005/test_case.h
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@@ -16,60 +16,67 @@
* limitations under the License.
*/
TEST_CASE("t20005", "[test-case][sequence]")
TEST_CASE("t20005")
{
auto [config, db] = load_config("t20005");
using namespace clanguml::test;
auto diagram = config.diagrams["t20005_sequence"];
auto [config, db, diagram, model] =
CHECK_SEQUENCE_MODEL("t20005", "t20005_sequence");
REQUIRE(diagram->name == "t20005_sequence");
CHECK_SEQUENCE_DIAGRAM(config, diagram, *model, [](const auto &src) {
REQUIRE(MessageOrder(src,
{
//
{Entrypoint{}, "C<T>", "c(T)"}, //
{"C<T>", "B<T>", "b(T)"}, //
{"B<T>", "A<T>", "a(T)"}, //
{Exitpoint{}, "C<T>"} //
}));
});
/*
{
auto src = generate_sequence_puml(diagram, *model);
AliasMatcher _A(src);
auto model = generate_sequence_diagram(*db, diagram);
REQUIRE_THAT(src, StartsWith("@startuml"));
REQUIRE_THAT(src, EndsWith("@enduml\n"));
REQUIRE(model->name() == "t20005_sequence");
// Check if all calls exist
REQUIRE_THAT(src, HasEntrypoint(_A("C<T>"), "c(T)"));
REQUIRE_THAT(src, HasCall(_A("C<T>"), _A("B<T>"), "b(T)"));
REQUIRE_THAT(src, HasCall(_A("B<T>"), _A("A<T>"), "a(T)"));
REQUIRE_THAT(src, HasExitpoint(_A("C<T>")));
{
auto src = generate_sequence_puml(diagram, *model);
AliasMatcher _A(src);
save_puml(config.output_directory(), diagram->name + ".puml", src);
}
REQUIRE_THAT(src, StartsWith("@startuml"));
REQUIRE_THAT(src, EndsWith("@enduml\n"));
{
auto j = generate_sequence_json(diagram, *model);
// Check if all calls exist
REQUIRE_THAT(src, HasEntrypoint(_A("C<T>"), "c(T)"));
REQUIRE_THAT(src, HasCall(_A("C<T>"), _A("B<T>"), "b(T)"));
REQUIRE_THAT(src, HasCall(_A("B<T>"), _A("A<T>"), "a(T)"));
REQUIRE_THAT(src, HasExitpoint(_A("C<T>")));
using namespace json;
save_puml(config.output_directory(), diagram->name + ".puml", src);
}
std::vector<int> messages = {FindMessage(j, "C<T>", "B<T>", "b(T)"),
FindMessage(j, "B<T>", "A<T>", "a(T)")};
{
auto j = generate_sequence_json(diagram, *model);
REQUIRE(std::is_sorted(messages.begin(), messages.end()));
using namespace json;
save_json(config.output_directory(), diagram->name + ".json", j);
}
std::vector<int> messages = {FindMessage(j, "C<T>", "B<T>", "b(T)"),
FindMessage(j, "B<T>", "A<T>", "a(T)")};
{
auto src = generate_sequence_mermaid(diagram, *model);
REQUIRE(std::is_sorted(messages.begin(), messages.end()));
mermaid::SequenceDiagramAliasMatcher _A(src);
using mermaid::HasCall;
using mermaid::HasEntrypoint;
using mermaid::HasExitpoint;
save_json(config.output_directory(), diagram->name + ".json", j);
}
REQUIRE_THAT(src, HasEntrypoint(_A("C<T>"), "c(T)"));
REQUIRE_THAT(src, HasCall(_A("C<T>"), _A("B<T>"), "b(T)"));
REQUIRE_THAT(src, HasCall(_A("B<T>"), _A("A<T>"), "a(T)"));
REQUIRE_THAT(src, HasExitpoint(_A("C<T>")));
{
auto src = generate_sequence_mermaid(diagram, *model);
mermaid::SequenceDiagramAliasMatcher _A(src);
using mermaid::HasCall;
using mermaid::HasEntrypoint;
using mermaid::HasExitpoint;
REQUIRE_THAT(src, HasEntrypoint(_A("C<T>"), "c(T)"));
REQUIRE_THAT(src, HasCall(_A("C<T>"), _A("B<T>"), "b(T)"));
REQUIRE_THAT(src, HasCall(_A("B<T>"), _A("A<T>"), "a(T)"));
REQUIRE_THAT(src, HasExitpoint(_A("C<T>")));
save_mermaid(config.output_directory(), diagram->name + ".mmd", src);
}
save_mermaid(config.output_directory(), diagram->name + ".mmd",
src);
}*/
}