This extension provides support for Bazel in Visual Studio.
- Syntax highlighting
- Bazel Targets tree displays the build packages/targets in your workspace
- CodeLens links in BUILD files to directly launch a build or test by simply clicking on the targets
- Buildifier integration to lint and format your Bazel files (requires that Buildifier be installed)
- Bazel Task definitions for
tasks.json
- Coverage Support showing coverage results from
bazel coverage
directly in VS Code. - Debug Starlark code in your
.bzl
files during a build (set breakpoints, step through code, inspect variables, etc.)
This extension adds a Bazel section to the extension settings in Visual Studio Code. If you have Bazel installed in a location that is not on your system path or if you wish to use a different version in the IDE, you should set the Bazel: Executable setting to the location of the Bazel executable.
Similarly, the Bazel: Buildifier Executable setting can be configured if you install Buildifier in a location that is not on your system path.
When Buildifier is installed, the Format Document command in Visual Studio
code will reformat BUILD
, WORKSPACE
, .bzl
, and .sky
files using the
tool and will display lint warnings from those files as you type. By default,
this extension does not automatically fix lint warnings during formatting,
but you can opt into this by enabling the Bazel: Buildifier Fix on Format
setting.
By default this extension will use the default output base for running queries. This will cause builds to block queries, potentially causing degraded performance. In Bazel versions since 7.1 it is safe to disable this by changing the bazel.queriesShareServer
setting to false
. In earlier versions it can be safely disabled after adding the convenience symlinks to .bazelignore
, for example:
bazel-myreponame
bazel-bin
bazel-testlogs
See #216 and bazelbuild/bazel#106539.
Currently, the Starlark Debugger can be used by right-clicking a build target in the Bazel Build Targets view and selecting "Build Target with Starlark Debugger". This will start the build inside the Visual Studio Code debugger (output will be redirected to the Debug Console pane) and it will pause on any breakpoints hit during execution.
When a Bazel thread is paused, you can step through Starlark code, add watch expressions, and execute arbitrary statements by typing them in the input area of the Debug Console.
Clicking the "Stop" button in the debugger will kill the Bazel process being debugger, allowing you to halt the current build. The Bazel server, however, will continue running.
This extension can use a language server for various features, such as go to definition and completions. There are currently two compatible language servers:
- bazel-lsp is based on Facebook's Starlark language server and extends it with additional, Bazel-specific functionality.
- starpls is an implementation based on rust-analyzer which also provides Bazel-specific functionality.
In general, you need to install the language server binary and then set the bazel.lsp.command
setting. See the README of the corresponding repo for more specific setup instructions.
We can't currently make any recommendation between these two. Both are under active development and are rapidly gaining more functionality.
Bazel tasks can be configured from the tasks.json
using the following structure:
{
// See https://go.microsoft.com/fwlink/?LinkId=733558
// for the documentation about the tasks.json format
"version": "2.0.0",
"tasks": [
{
"label": "Check for flakyness",
"type": "bazel",
"command": "test",
"targets": ["${input:pickFlakyTest}"],
"options": ["--runs_per_test=9"],
},
],
"inputs": [
{
"id": "pickFlakyTest",
"type": "command",
"command": "bazel.pickTarget",
"args": {
"query": "kind('.*_test', //...:*)",
"placeHolder": "Which test to check for flakyness?",
},
},
],
}
For all coverage
tasks, the coverage results are automatically loaded into VS
Code upon completion of the task. E.g., you could define your own task to
display the coverage provided by your integration tests using the following task
definition:
{
"label": "Show test coverage from integration test",
"type": "bazel",
"command": "coverage",
"targets": ["//test/integration/...", "//cpp/test/integration/..."],
"options": ["--instrumentation_filter=.*"],
}
You might need additional Bazel options
to get the intended coverage results.
In particular if are using remote builds, you might need to use the
--experimental_split_coverage_postprocessing
and --experimental_fetch_all_coverage_outputs
options. See the documentation on Code Coverage with Bazel
for more details.
Code coverage support in this extension is still rather fresh and might still have rough edges. It was tested with the Java, C++, Go and Rust rules. In case you are using the code coverage integration with any other language (Python, Swift, Kotlin, Scala, ...), please let us know how things are going in bazel-contrib#367. Please share both positive and negative experiences you might have.
For C++ and Rust, make sure to have c++filt
/ rustfilt
installed and
available through the $PATH
. Otherwise, only mangled, hard-to-decipher
function names will be displayed. For Java, no additional steps are required.
If you would like to contribute to the Bazel Visual Studio extension, please refer to the contribution guidelines for information about our patch acceptance process and setting up your development environment.