# clang-uml - UML diagram generator based on Clang and PlantUML ![linux build](https://github.com/bkryza/clang-uml/actions/workflows/build.yml/badge.svg) `clang-uml` is an automatic ![PlantUML](https://plantuml.com/) class and sequence diagram generator, driven by YAML configuration files. The main idea behind the project is to easily maintain up-to-date diagrams within a code-base or document existing project code. The configuration file or files for `clang-uml` define the type and contents of each diagram. ## Features Main features supported so far include: * Class diagram generation * Basic class properties and methods including visibility * Class relationships including associations, aggregations and friendship * Template instantiation relationship * Relationship inference from C++ containers and smart pointers * Namespace based content filtering * Sequence diagram generation * Generation of sequence diagram from one code location to another ## Installation ### Building from source Currently the only method to install `clang-uml` is from source. First make sure that you have the following dependencies installed (example for Ubuntu): ```bash apt install ccache cmake libyaml-cpp-dev libfmt-dev libspdlog-dev clang-12 libclang-12-dev libclang-cpp12-dev ``` ```bash git clone https://github.com/bkryza/clang-uml cd clang-uml make submodules # Please note that top level Makefile is just a convenience wrapper for CMake make release release/clang-uml --help # Optionally make install # or export PATH=$PATH:$PWD/release ``` ## Usage ### Generating compile commands database `clang-uml` requires an up-to-date [compile-commands.json](https://clang.llvm.org/docs/JSONCompilationDatabase.html) file, containing the list of commands used for compiling the source code. Nowadays, this file can be generated rather easily using multiple methods: * For [CMake](https://cmake.org/) projects, simply invoke the `cmake` command as `cmake -DCMAKE_EXPORT_COMPILE_COMMANDS=ON ...` * For Make projects checkout [compiledb](https://github.com/nickdiego/compiledb) or [Bear](https://github.com/rizsotto/Bear) * For Boost-based projects try [commands_to_compilation_database](https://github.com/tee3/commands_to_compilation_database) ### Invocation By default, `config-uml` will assume that the configuration file `.clanguml` and compilation database `compilation_database.json` files are in the current directory, so if they are in the top level directory of a project, simply run: ```bash clang-uml ``` The output path for diagrams, as well as alternative location of compilation database can be specified in `.clanguml` configuration file. For other options checkout help: ```bash clang-uml --help ``` ### Configuration file format and examples Configuration files are written in YAML, and provide a list of diagrams which sould be generated by `clang-uml`. Basic example is as follows: ```yaml compilation_database_dir: . output_directory: puml diagrams: myproject_class: type: class glob: - src/**.h - src/**.cc using_namespace: - myproject include: namespaces: - myproject exclude: namespaces: - myproject::detail plantuml: after: - 'note left of @A(MyProjectMain) : Main class of myproject library.' ``` See ![here](docs/configuration_file.md) for detailed configuration file reference guide. ### Class diagrams #### Example Source code: ```cpp #include #include namespace clanguml { namespace t00009 { template class A { public: T value; }; class B { public: A aint; A *astring; A> &avector; }; } } ``` generates the following diagram (via PlantUML): ![class_diagram_example](docs/test_cases/t00009_class.png) #### Default mappings | UML | C++ | | ---- | --- | | Inheritance (A is kind of B) | Public, protected or private inheritance | | Association (A knows of B) | Class A has a pointer or a reference to class B, or any container with a pointer or reference to B | | Dependency (A uses B) | Any method of class A has argument of type B | | Aggregation (A has B) | Class A has a field of type B or an owning pointer of type B | | Composition (A has B) | Class A has a field of type container of B | | Template (T specializes A) | Class A has a template parameter T | | Nesting (A has inner class B) | Class B is an inner class of A | Friendship (A is a friend of B)| Class A is an friend class of B #### Inline directives TODO ### Sequence diagrams #### Example The following C++ code: ```cpp #include #include #include namespace clanguml { namespace t20001 { namespace detail { struct C { auto add(int x, int y) { return x + y; } }; } class A { public: A() {} int add(int x, int y) { return m_c.add(x, y); } int add3(int x, int y, int z) { std::vector v; v.push_back(x); v.push_back(y); v.push_back(z); auto res = add(v[0], v[1]) + v[2]; log_result(res); return res; } void log_result(int r) {} private: detail::C m_c{}; }; class B { public: B(A &a) : m_a{a} { } int wrap_add(int x, int y) { auto res = m_a.add(x, y); m_a.log_result(res); return res; } int wrap_add3(int x, int y, int z) { auto res = m_a.add3(x, y, z); m_a.log_result(res); return res; } private: A &m_a; }; int tmain() { A a; B b(a); return b.wrap_add3(1, 2, 3); } } } ``` generates the following diagram (via PlantUML): ![sequence_diagram_example](docs/test_cases/t20001_sequence.png) ### Test cases The build-in test cases used for unit testing of the clang-uml, can be browsed [here](./docs/test_cases.md) ## LICENSE Copyright 2021-present Bartek Kryza 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.