site/en/configure/best-practices.md - bazel - Git at Google

 Project: /_project.yaml
 Book: /_book.yaml

 # Best Practices

 {% include "_buttons.html" %}

 This page assumes you are familiar with Bazel and provides guidelines and
 advice on structuring your projects to take full advantage of Bazel's features.

 The overall goals are:

 - To use fine-grained dependencies to allow parallelism and incrementality.
 - To keep dependencies well-encapsulated.
 - To make code well-structured and testable.
 - To create a build configuration that is easy to understand and maintain.

 These guidelines are not requirements: few projects will be able to adhere to
 all of them.  As the man page for lint says, "A special reward will be presented
 to the first person to produce a real program that produces no errors with
 strict checking." However, incorporating as many of these principles as possible
 should make a project more readable, less error-prone, and faster to build.

 This page uses the requirement levels described in
 [this RFC](https://www.ietf.org/rfc/rfc2119.txt){: .external}.

 ## Running builds and tests {:#running-builds-tests}

 A project should always be able to run `bazel build //...` and
 `bazel test //...` successfully on its stable branch. Targets that are necessary
 but do not build under certain circumstances (such as,require specific build
 flags, don't build on a certain platform, require license agreements) should be
 tagged as specifically as possible (for example, "`requires-osx`"). This
 tagging allows targets to be filtered at a more fine-grained level than the
 "manual" tag and allows someone inspecting the `BUILD` file to understand what
 a target's restrictions are.

 ## Third-party dependencies {:#third-party-dependencies}

 You may declare third-party dependencies:

 *   Either declare them as remote repositories in the `MODULE.bazel` file.
 *   Or put them in a directory called `third_party/` under your workspace directory.

 ## Depending on binaries {:#binaries}

 Everything should be built from source whenever possible. Generally this means
 that, instead of depending on a library `some-library.so`, you'd create a
 `BUILD` file and build `some-library.so` from its sources, then depend on that
 target.

 Always building from source ensures that a build is not using a library that
 was built with incompatible flags or a different architecture. There are also
 some features like coverage, static analysis, or dynamic analysis that only
 work on the source.

 ## Versioning {:#versioning}

 Prefer building all code from head whenever possible. When versions must be
 used, avoid including the version in the target name (for example, `//guava`,
 not `//guava-20.0`). This naming makes the library easier to update (only one
 target needs to be updated). It's also more resilient to diamond dependency
 issues: if one library depends on `guava-19.0` and one depends on `guava-20.0`,
 you could end up with a library that tries to depend on two different versions.
 If you created a misleading alias to point both targets to one `guava` library,
 then the `BUILD` files are misleading.

 ## Using the `.bazelrc` file {:#bazelrc-file}

 For project-specific options, use the configuration file your
 `{{ '<var>' }}workspace{{ '</var>' }}/.bazelrc` (see [bazelrc format](/run/bazelrc)).

 If you want to support per-user options for your project that you **do not**
 want to check into source control, include the line:

 ```
 try-import %workspace%/user.bazelrc
 ```
 (or any other file name) in your `{{ '<var>' }}workspace{{ '</var>' }}/.bazelrc`
 and add `user.bazelrc` to your `.gitignore`.

 ## Packages {:#packages}

 Every directory that contains buildable files should be a package. If a `BUILD`
 file refers to files in subdirectories (such as, `srcs = ["a/b/C.java"]`) it's
 a sign that a `BUILD` file should be added to that subdirectory. The longer
 this structure exists, the more likely circular dependencies will be
 inadvertently created, a target's scope will creep, and an increasing number
 of reverse dependencies will have to be updated.
	Project: /_project.yaml
	Book: /_book.yaml

	# Best Practices

	{% include "_buttons.html" %}

	This page assumes you are familiar with Bazel and provides guidelines and
	advice on structuring your projects to take full advantage of Bazel's features.

	The overall goals are:

	- To use fine-grained dependencies to allow parallelism and incrementality.
	- To keep dependencies well-encapsulated.
	- To make code well-structured and testable.
	- To create a build configuration that is easy to understand and maintain.

	These guidelines are not requirements: few projects will be able to adhere to
	all of them. As the man page for lint says, "A special reward will be presented
	to the first person to produce a real program that produces no errors with
	strict checking." However, incorporating as many of these principles as possible
	should make a project more readable, less error-prone, and faster to build.

	This page uses the requirement levels described in
	[this RFC](https://www.ietf.org/rfc/rfc2119.txt){: .external}.

	## Running builds and tests {:#running-builds-tests}

	A project should always be able to run `bazel build //...` and
	`bazel test //...` successfully on its stable branch. Targets that are necessary
	but do not build under certain circumstances (such as,require specific build
	flags, don't build on a certain platform, require license agreements) should be
	tagged as specifically as possible (for example, "`requires-osx`"). This
	tagging allows targets to be filtered at a more fine-grained level than the
	"manual" tag and allows someone inspecting the `BUILD` file to understand what
	a target's restrictions are.

	## Third-party dependencies {:#third-party-dependencies}

	You may declare third-party dependencies:

	* Either declare them as remote repositories in the `MODULE.bazel` file.
	* Or put them in a directory called `third_party/` under your workspace directory.

	## Depending on binaries {:#binaries}

	Everything should be built from source whenever possible. Generally this means
	that, instead of depending on a library `some-library.so`, you'd create a
	`BUILD` file and build `some-library.so` from its sources, then depend on that
	target.

	Always building from source ensures that a build is not using a library that
	was built with incompatible flags or a different architecture. There are also
	some features like coverage, static analysis, or dynamic analysis that only
	work on the source.

	## Versioning {:#versioning}

	Prefer building all code from head whenever possible. When versions must be
	used, avoid including the version in the target name (for example, `//guava`,
	not `//guava-20.0`). This naming makes the library easier to update (only one
	target needs to be updated). It's also more resilient to diamond dependency
	issues: if one library depends on `guava-19.0` and one depends on `guava-20.0`,
	you could end up with a library that tries to depend on two different versions.
	If you created a misleading alias to point both targets to one `guava` library,
	then the `BUILD` files are misleading.

	## Using the `.bazelrc` file {:#bazelrc-file}

	For project-specific options, use the configuration file your
	`{{ '<var>' }}workspace{{ '</var>' }}/.bazelrc` (see [bazelrc format](/run/bazelrc)).

	If you want to support per-user options for your project that you do not
	want to check into source control, include the line:

	```
	try-import %workspace%/user.bazelrc
	```
	(or any other file name) in your `{{ '<var>' }}workspace{{ '</var>' }}/.bazelrc`
	and add `user.bazelrc` to your `.gitignore`.

	## Packages {:#packages}

	Every directory that contains buildable files should be a package. If a `BUILD`
	file refers to files in subdirectories (such as, `srcs = ["a/b/C.java"]`) it's
	a sign that a `BUILD` file should be added to that subdirectory. The longer
	this structure exists, the more likely circular dependencies will be
	inadvertently created, a target's scope will creep, and an increasing number
	of reverse dependencies will have to be updated.