If you use Bazel and want to use libclang based editors and tools, you can now generate JSON compilation database easily without using build intercept hooks. The advantage is that you can generate the database even if your source code does not compile, and the generation process is much faster.
For more information on compilation database, Guillaume Papin has an excellent article.
Running generate.sh script from this project with current directory somewhere in your bazel workspace will generate a compile_commands.json file in the top-level directory of your workspace. You can even symlink the script to somewhere in your PATH.
For example,
INSTALL_DIR="/usr/local/bin"
VERSION="0.4.2"
# Download and symlink.
(
cd "${INSTALL_DIR}" \
&& curl -L "https://github.com/grailbio/bazel-compilation-database/archive/${VERSION}.tar.gz" | tar -xz \
&& ln -f -s "${INSTALL_DIR}/bazel-compilation-database-${VERSION}/generate.sh" bazel-compdb
)
bazel-compdb # This will generate compile_commands.json in your workspace root.You can define a target of rule type compilation_database with the attribute
targets as a list of top-level cc_.* labels which you want to include in
your compilation database. You do not need to include targets that are
dependencies of your top-level targets. So these will mostly be targets of type
cc_binary and cc_test.
For example,
In your WORKSPACE file:
# Change master to the git tag you want.
http_archive(
name = "com_grail_bazel_compdb",
strip_prefix = "bazel-compilation-database-master",
urls = ["https://github.com/grailbio/bazel-compilation-database/archive/master.tar.gz"],
)In your BUILD file:
## Replace workspace_name and dir_path as per your setup.
load("@com_grail_bazel_compdb//:aspects.bzl", "compilation_database")
compilation_database(
name = "example_compdb",
targets = [
"//a_cc_binary_label",
"//a_cc_library_label",
],
# ideally should be the same as `bazel info execution_root`.
exec_root = "/path/to/bazel/exec_root",
)If you want to use this project solely for semantic auto completion using
ycmd (YouCompleteMe) based editor plugins, then the easiest approach
is to install this project as a vim plugin with your favourite plugin manager.
The plugin will set g:ycm_global_ycm_extra_conf and instrument bazel with
the correct paths.
e.g. Using Plugged add the following to your vimrc.
Plug 'grailbio/bazel-compilation-database'
An alternative approach is to follow the instructions as above for making the
files available in this repo somewhere in the workspace, and then configure vim
to use the .ycm_extra_conf.py script that you just extracted. One way is to
make a symlink to the py script from the top of your workspace root. Another
way is to set the ycm_global_ycm_extra_conf variable in vim.
With both of these approaches, you don't have to maintain a separate
compile_commands.json file through a script and/or a compilation_database
target. Compile commands are fetched from bazel as the files are opened in your
editor.
Contributions are most welcome. Please submit a pull request giving the owners of this github repo access to your branch for minor style related edits, etc.
Please check open issues at the github repo.
We have tested only for C and C++ code, and with tools like YouCompleteMe, rtags, and the woboq code browser.
These approaches could be more accurate than the approach of this tool in some rare cases, but need a more complicated setup and a full build every time you refresh the database.