llvm-project/clang/docs/JSONCompilationDatabase.html

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<h1>JSON Compilation Database Format Specification</h1>
<p>This document describes a format for specifying how to replay
single compilations independently of the build system.</p>
<h2>Background</h2>
<p>Tools based on the C++ Abstract Syntax Tree need full information how to
parse a translation unit. Usually this information is implicitly
available in the build system, but running tools as part of
the build system is not necessarily the best solution:
<ul>
<li>Build systems are inherently change driven, so running multiple
tools over the same code base without changing the code does not fit
into the architecture of many build systems.</li>
<li>Figuring out whether things have changed is often an IO bound
process; this makes it hard to build low latency end user tools based
on the build system.</li>
<li>Build systems are inherently sequential in the build graph, for example
due to generated source code. While tools that run independently of the
build still need the generated source code to exist, running tools multiple
times over unchanging source does not require serialization of the runs
according to the build dependency graph.</li>
</ul>
</p>
<h2>Supported Systems</h2>
<p>Currently <a href="http://cmake.org">CMake</a> (since 2.8.5) supports generation of compilation
databases for Unix Makefile builds (Ninja builds in the works) with the option
CMAKE_EXPORT_COMPILE_COMMANDS.</p>
<p>Clang's tooling interface supports reading compilation databases; see
the <a href="LibTooling.html">LibTooling documentation</a>. libclang and its
python bindings also support this (since clang 3.2); see
<a href="/doxygen/group__COMPILATIONDB.html">CXCompilationDatabase.h</a>.</p>
<h2>Format</h2>
<p>A compilation database is a JSON file, which consist of an array of
"command objects", where each command object specifies one way a translation unit
is compiled in the project.</p>
<p>Each command object contains the translation unit's main file, the working
directory of the compile run and the actual compile command.</p>
<p>Example:
<pre>
[
{ "directory": "/home/user/llvm/build",
"command": "/usr/bin/clang++ -Irelative -DSOMEDEF='\"With spaces and quotes.\"' -c -o file.o file.cc",
"file": "file.cc" },
...
]
</pre>
The contracts for each field in the command object are:
<ul>
<li><b>directory:</b> The working directory of the compilation. All paths specified
in the <b>command</b> or <b>file</b> fields must be either absolute or relative to
this directory.</li>
<li><b>file:</b> The main translation unit source processed by this compilation step.
This is used by tools as the key into the compilation database. There can be multiple
command objects for the same file, for example if the same source file is
compiled with different configurations.</li>
<li><b>command:</b> The compile command executed. After JSON unescaping, this must
be a valid command to rerun the exact compilation step for the translation unit in
the environment the build system uses. Parameters use shell quoting and shell escaping
of quotes, with '"' and '\' being the only special characters. Shell expansion is
not supported.</li>
</ul>
</p>
<h2>Build System Integration</h2>
<p>The convention is to name the file compile_commands.json and put it at the top
of the build directory. Clang tools are pointed to the top of the build directory
to detect the file and use the compilation database to parse C++ code in the source
tree.</p>
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