Clang tools can help with global refactorings of Chromium code. Clang tools can take advantage of clang's AST to perform refactorings that would be impossible with a traditional find-and-replace regexp:
An invocation of the clang tool runs on one build config. Code that only compiles on one platform or code that is guarded by a set of compile-time flags can be problematic. Performing a global refactoring typically requires running the tool once in each build config with code that needs to be updated.
Other minor issues:
A Chromium checkout created with
fetch should have everything needed.
For convenience, add
LLVM uses C++11 and CMake. Source code for Chromium clang tools lives in //tools/clang. It is generally easiest to use one of the already-written tools as the base for writing a new tool.
Chromium clang tools generally follow this pattern:
clang::ast_matchers::MatchFinder::MatchCallbackactions to execute when matching the AST.
Other useful references when writing the tool:
==== BEGIN EDITS ==== r:::path/to/file1:::offset1:::length1:::replacement text r:::path/to/file2:::offset2:::length2:::replacement text ... ==== END EDITS ====
The header and footer are required. Each line between the header and footer represents one edit. Fields are separated by
:::, and the first field must be
r (for replacement). In the future, this may be extended to handle header insertion/removal. A deletion is an edit with no replacement text.
The edits are applied by
run_tool.py, which understands certain conventions:
\0. The script knows to translate
\0back to newlines when applying edits.
TODO: Document more about
SourceLocation and how spelling loc differs from expansion loc, etc.
While clang has a
clang::tooling::RefactoringTool to automatically apply the generated replacements and save the results, it doesn't work well for Chromium:
tools/clang/scripts/update.py --bootstrap --force-local-build --without-android \ --tools blink_gc_plugin plugins rewrite_to_chrome_style
Running this command builds the Oilpan plugin, the Chrome style plugin, and the Blink to Chrome style rewriter. Additional arguments to
--tools should be the name of subdirectories in //tools/clang. Generally,
--tools should always include
plugins: otherwise, Chromium won't build.
It is important to use --bootstrap as there appear to be bugs in the clang library this script produces if you build it with gcc, which is the default.
First, build all chromium targets to avoid failures due to missing dependecies that are generated as part of the build:
ninja -C out/Debug
Then run the actual tool:
tools/clang/scripts/run_tool.py <toolname> \ --generate-compdb out/Debug <path 1> <path 2> ...
--generate-compdb can be omitted if the compile DB was already generated and the list of build flags and source files has not changed since generation.
<path 2>, etc are optional arguments to filter the files to run the tool across. This is helpful when sharding global refactorings into smaller chunks. For example, the following command will run the
empty_string tool across just the files in
tools/clang/scripts/run_tool.py empty_string \ --generated-compdb \ out/Debug base
Dumping the AST for a file:
clang++ -cc1 -ast-dump foo.cc
clang-query to dynamically test matchers (requires checking out and building clang-tools-extras):
clang-query -p path/to/compdb base/memory/ref_counted.cc
clang::Decl* decl = result.Nodes.getNodeAs<clang::Decl>("decl"); decl->dumpColor(); clang::Stmt* stmt = result.Nodes.getNodeAs<clang::Stmt>("stmt"); stmt->dumpColor();
By default, the script hides the output of the tool. The easiest way to change that is to
return 1 from the
main() function of the clang tool.
tools/clang/scripts/test_tool.py <tool name>
The name of the tool binary and the subdirectory for the tool in
//tools/clang must match. The test runner finds all files that match the pattern
//tools/clang/<tool name>/tests/*-original.cc, runs the tool across those files, and compared it to the
*-expected.cc version. If there is a mismatch, the result is saved in