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clang-uml/tests/t20012/test_case.h
Bartek Kryza dfb4f38ded Fixed generation of internal clang-uml diagrams
2024-04-30 11:51:47 +02:00

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/**
* test_case.h
*
* Copyright (c) 2021-2024 Bartek Kryza <bkryza@gmail.com>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
TEST_CASE("t20012", "[test-case][sequence]")
{
auto [config, db] = load_config("t20012");
auto diagram = config.diagrams["t20012_sequence"];
REQUIRE(diagram->name == "t20012_sequence");
auto model = generate_sequence_diagram(*db, diagram);
REQUIRE(model->name() == "t20012_sequence");
{
auto src = generate_sequence_puml(diagram, *model);
AliasMatcher _A(src);
REQUIRE_THAT(src, StartsWith("@startuml"));
REQUIRE_THAT(src, EndsWith("@enduml\n"));
// Check if all calls exist
REQUIRE_THAT(src,
HasCall(_A("tmain()"), _A("tmain()::(lambda t20012.cc:67:20)"),
"operator()() const"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:67:20)"), _A("A"), "a()"));
REQUIRE_THAT(src, HasCall(_A("A"), _A("A"), "aa()"));
REQUIRE_THAT(src, HasCall(_A("A"), _A("A"), "aaa()"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:67:20)"), _A("B"), "b()"));
REQUIRE_THAT(src, HasCall(_A("B"), _A("B"), "bb()"));
REQUIRE_THAT(src, HasCall(_A("B"), _A("B"), "bbb()"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:80:20)"), _A("C"), "c()"));
REQUIRE_THAT(src, HasCall(_A("C"), _A("C"), "cc()"));
REQUIRE_THAT(src, HasCall(_A("C"), _A("C"), "ccc()"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:80:20)"),
_A("tmain()::(lambda t20012.cc:67:20)"), "operator()() const"));
REQUIRE_THAT(src, HasCall(_A("C"), _A("C"), "ccc()"));
REQUIRE_THAT(src,
HasCall(_A("tmain()"), _A("R<(lambda at t20012.cc:86:9)>"),
"R((lambda at t20012.cc:86:9) &&)"));
REQUIRE_THAT(src,
HasCall(_A("tmain()"), _A("R<(lambda at t20012.cc:86:9)>"), "r()"));
REQUIRE_THAT(src,
HasCall(_A("R<(lambda at t20012.cc:86:9)>"),
_A("tmain()::(lambda t20012.cc:86:9)"), "operator()() const"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:86:9)"), _A("C"), "c()"));
REQUIRE_THAT(src,
HasCall(_A("tmain()"), _A("tmain()::(lambda t20012.cc:94:9)"),
"operator()(auto) const"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:94:9)"), _A("D"),
"add5(int) const"));
save_puml(config.output_directory(), diagram->name + ".puml", src);
}
{
auto j = generate_sequence_json(diagram, *model);
using namespace json;
std::vector<int> messages = {
FindMessage(j, "tmain()", "tmain()::(lambda t20012.cc:67:20)",
"operator()() const"),
FindMessage(j, "tmain()::(lambda t20012.cc:67:20)", "A", "a()"),
FindMessage(j, "A", "A", "aa()"),
FindMessage(j, "A", "A", "aaa()"),
FindMessage(j, "tmain()::(lambda t20012.cc:67:20)", "B", "b()"),
FindMessage(j, "B", "B", "bb()"),
FindMessage(j, "B", "B", "bbb()"),
FindMessage(j, "tmain()::(lambda t20012.cc:80:20)", "C", "c()"),
FindMessage(j, "C", "C", "cc()"),
FindMessage(j, "C", "C", "ccc()"),
FindMessage(j, "tmain()::(lambda t20012.cc:80:20)",
"tmain()::(lambda t20012.cc:67:20)", "operator()() const"),
FindMessage(j, "tmain()", "R<(lambda at t20012.cc:86:9)>", "r()"),
FindMessage(j, "R<(lambda at t20012.cc:86:9)>",
"tmain()::(lambda t20012.cc:86:9)", "operator()() const"),
FindMessage(j, "tmain()::(lambda t20012.cc:86:9)", "C", "c()"),
};
REQUIRE(std::is_sorted(messages.begin(), messages.end()));
save_json(config.output_directory(), diagram->name + ".json", j);
}
{
auto src = generate_sequence_mermaid(diagram, *model);
mermaid::SequenceDiagramAliasMatcher _A(src);
using mermaid::HasCall;
REQUIRE_THAT(src,
HasCall(_A("tmain()"), _A("tmain()::(lambda t20012.cc:67:20)"),
"operator()() const"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:67:20)"), _A("A"), "a()"));
REQUIRE_THAT(src, HasCall(_A("A"), _A("A"), "aa()"));
REQUIRE_THAT(src, HasCall(_A("A"), _A("A"), "aaa()"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:67:20)"), _A("B"), "b()"));
REQUIRE_THAT(src, HasCall(_A("B"), _A("B"), "bb()"));
REQUIRE_THAT(src, HasCall(_A("B"), _A("B"), "bbb()"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:80:20)"), _A("C"), "c()"));
REQUIRE_THAT(src, HasCall(_A("C"), _A("C"), "cc()"));
REQUIRE_THAT(src, HasCall(_A("C"), _A("C"), "ccc()"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:80:20)"),
_A("tmain()::(lambda t20012.cc:67:20)"), "operator()() const"));
REQUIRE_THAT(src, HasCall(_A("C"), _A("C"), "ccc()"));
REQUIRE_THAT(src,
HasCall(_A("tmain()"), _A("R<(lambda at t20012.cc:86:9)>"), "r()"));
REQUIRE_THAT(src,
HasCall(_A("R<(lambda at t20012.cc:86:9)>"),
_A("tmain()::(lambda t20012.cc:86:9)"), "operator()() const"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:86:9)"), _A("C"), "c()"));
REQUIRE_THAT(src,
HasCall(_A("tmain()"), _A("tmain()::(lambda t20012.cc:94:9)"),
"operator()(auto) const"));
REQUIRE_THAT(src,
HasCall(_A("tmain()::(lambda t20012.cc:94:9)"), _A("D"),
"add5(int) const"));
save_mermaid(config.output_directory(), diagram->name + ".mmd", src);
}
}
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