Clang Plugins¶

Clang Plugins make it possible to run extra user defined actions during a compilation. This document will provide a basic walkthrough of how to write and run a Clang Plugin.

Introduction¶

Clang Plugins run FrontendActions over code. See the FrontendAction tutorial on how to write a FrontendAction using the RecursiveASTVisitor. In this tutorial, we’ll demonstrate how to write a simple clang plugin.

Writing a PluginASTAction¶

The main difference from writing normal FrontendActions is that you can handle plugin command line options. The PluginASTAction base class declares a ParseArgs method which you have to implement in your plugin.

bool ParseArgs(const CompilerInstance &CI,
const std::vector<std::string>& args) {
for (unsigned i = 0, e = args.size(); i != e; ++i) {
if (args[i] == "-some-arg") {
// Handle the command line argument.
}
}
return true;
}


Registering a plugin¶

A plugin is loaded from a dynamic library at runtime by the compiler. To register a plugin in a library, use FrontendPluginRegistry::Add<>:

static FrontendPluginRegistry::Add<MyPlugin> X("my-plugin-name", "my plugin description");


Defining pragmas¶

Plugins can also define pragmas by declaring a PragmaHandler and registering it using PragmaHandlerRegistry::Add<>:

// Define a pragma handler for #pragma example_pragma
class ExamplePragmaHandler : public PragmaHandler {
public:
ExamplePragmaHandler() : PragmaHandler("example_pragma") { }
void HandlePragma(Preprocessor &PP, PragmaIntroducerKind Introducer,
Token &PragmaTok) {
// Handle the pragma
}
};



Putting it all together¶

Let’s look at an example plugin that prints top-level function names. This example is checked into the clang repository; please take a look at the latest version of PrintFunctionNames.cpp.

Running the plugin¶

Using the cc1 command line¶

To run a plugin, the dynamic library containing the plugin registry must be loaded via the -load command line option. This will load all plugins that are registered, and you can select the plugins to run by specifying the -plugin option. Additional parameters for the plugins can be passed with -plugin-arg-<plugin-name>.

Note that those options must reach clang’s cc1 process. There are two ways to do so:

• Directly call the parsing process by using the -cc1 option; this has the downside of not configuring the default header search paths, so you’ll need to specify the full system path configuration on the command line.
• Use clang as usual, but prefix all arguments to the cc1 process with -Xclang.

For example, to run the print-function-names plugin over a source file in clang, first build the plugin, and then call clang with the plugin from the source tree:

$export BD=/path/to/build/directory$ (cd $BD && make PrintFunctionNames )$ clang++ -D_GNU_SOURCE -D_DEBUG -D__STDC_CONSTANT_MACROS \
-D__STDC_FORMAT_MACROS -D__STDC_LIMIT_MACROS -D_GNU_SOURCE \
-I$BD/tools/clang/include -Itools/clang/include -I$BD/include -Iinclude \
tools/clang/tools/clang-check/ClangCheck.cpp -fsyntax-only \
-Xclang -load -Xclang \$BD/lib/PrintFunctionNames.so -Xclang \
-plugin -Xclang print-fns


Also see the print-function-name plugin example’s README

Using the clang command line¶

Using -fplugin=plugin on the clang command line passes the plugin through as an argument to -load on the cc1 command line. If the plugin class implements the getActionType method then the plugin is run automatically. For example, to run the plugin automatically after the main AST action (i.e. the same as using -add-plugin):

// Automatically run the plugin after the main AST action
PluginASTAction::ActionType getActionType() override {