.. SPDX-License-Identifier: GPL-2.0-only Create build database for IDEs ============================== gen_compile_commands (scripts/gen_compile_commands.py) is a script used to generate a compilation database (compile_commands.json). This database consists of an array of "command objects" describing how each translation unit was compiled. Example:: { "command": "gcc -Wp,-MD,arch/x86/cpu/.lapic.o.d -nostdinc -isystem (...)" "directory": "/home/jmcosta/u-boot", "file": "/home/jmcosta/u-boot/arch/x86/cpu/lapic.c" } Such information comes from parsing the respective .cmd file of each translation unit. In the previous example, that would be `arch/x86/cpu/.lapic.o.cmd`. For more details on the database format, please refer to the official documentation at https://clang.llvm.org/docs/JSONCompilationDatabase.html. The compilation database is quite useful for text editors (and IDEs) that use Clangd LSP. It allows jumping to definitions and declarations. Since it relies on parsing .cmd files, one needs to have a target (e.g. configs/xxx_defconfig) built before running the script. Example:: make sandbox_defconfig make ./scripts/gen_compile_commands.py Beware that depending on the changes you made to the project's source code, you may need to run the script again (presuming you recompiled your target, of course) to have an up-to-date database. The database will be in the root of the repository. No further modifications are needed for it to be usable by the LSP, unless you set a name for the database other than it's default one (compile_commands.json). Compatible IDEs =============== Several popular integrated development environments (IDEs) support the use of JSON compilation databases for C/C++ development, making it easier to manage build configurations and code analysis. Some of these IDEs include: 1. **Visual Studio Code (VS Code)**: IntelliSense in VS Code can be set up to use compile_commands.json by following the instructions in https://code.visualstudio.com/docs/cpp/faq-cpp#_how-do-i-get-intellisense-to-work-correctly. 2. **CLion**: JetBrains' CLion IDE supports JSON compilation databases out of the box. You can configure your project to use a compile_commands.json file via the project settings. Details on setting up CLion with JSON compilation databases can be found at https://www.jetbrains.com/help/clion/compilation-database.html. 3. **Qt Creator**: Qt Creator, a popular IDE for Qt development, also supports compile_commands.json for C/C++ projects. Instructions on how to use this feature can be found at https://doc.qt.io/qtcreator/creator-clang-codemodel.html#using-compilation-databases. 4. **Eclipse CDT**: Eclipse's C/C++ Development Tools (CDT) can be configured to use JSON compilation databases for better project management. You can find guidance on setting up JSON compilation database support at the wiki: https://wiki.eclipse.org/CDT/User/NewIn910#Build. For Vim, Neovim, and Emacs, if you are using Clangd as your LSP, placing the compile_commands.json in the root of the repository should suffice to enable code navigation. Usage ===== For further details on the script's options, please refer to its help message, as in the example below. Help:: ./scripts/gen_compile_commands.py --help