BUILD Style Guide
BUILD
file formatting follows the same approach as Go, where a standardized
tool takes care of most formatting issues.
Buildifier is a tool that parses and
emits the source code in a standard style. Every BUILD
file is therefore
formatted in the same automated way, which makes formatting a non-issue during
code reviews. It also makes it easier for tools to understand, edit, and
generate BUILD
files.
BUILD
file formatting must match the output of buildifier
.
Formatting example
# Test code implementing the Foo controller.
package(default_testonly = True)
py_test(
name = "foo_test",
srcs = glob(["*.py"]),
data = [
"//data/production/foo:startfoo",
"//foo",
"//third_party/java/jdk:jdk-k8",
],
flaky = True,
deps = [
":check_bar_lib",
":foo_data_check",
":pick_foo_port",
"//pyglib",
"//testing/pybase",
],
)
File structure
Recommendation: Use the following order (every element is optional):
-
Package description (a comment)
-
All
load()
statements -
The
package()
function. -
Calls to rules and macros
Buildifier makes a distinction between a standalone comment and a comment attached to an element. If a comment is not attached to a specific element, use an empty line after it. The distinction is important when doing automated changes (for example, to keep or remove a comment when deleting a rule).
# Standalone comment (e.g. to make a section in a file)
# Comment for the cc_library below
cc_library(name = "cc")
References to targets in the current package
Files should be referred to by their paths relative to the package directory
(without ever using up-references, such as ..
). Generated files should be
prefixed with “:
” to indicate that they are not sources. Source files
should not be prefixed with :
. Rules should be prefixed with :
. For
example, assuming x.cc
is a source file:
cc_library(
name = "lib",
srcs = ["x.cc"],
hdrs = [":gen_header"],
)
genrule(
name = "gen_header",
srcs = [],
outs = ["x.h"],
cmd = "echo 'int x();' > $@",
)
Target naming
Target names should be descriptive. If a target contains one source file,
the target should generally have a name derived from that source (e.g., a
cc_library
for chat.cc
could be named “chat
”, or a java_library
for
DirectMessage.java
could be named “direct_message
”).
The eponymous target for a package (the target with the same name as the containing directory) should provide the functionality described by the directory name. If there is no such target, do not create an eponymous target.
Prefer using the short name when referring to an eponymous target (//x
instead of //x:x
). If you are in the same package, prefer the local
reference (:x
instead of //x
).
Avoid using “reserved” target names which have special meaning. This includes
“all
”, “__pkg__
”, and “__subpackages__
”, these names have special
semantics and can cause confusion and unexpected behaviors when they are used.
In the absence of a prevailing team convention these are some non-binding recommendations that are broadly used at Google:
- In general, use “snake_case”
- For a java_library with one src this would mean using a name that is not the same as the filename without the extension
- For Java *_binary and *_test rules use “Upper CamelCase”. This allows for the target name to match one of the srcs. For java_test, this makes it possible for the test_class attribute to be inferred from the name of the target.
- If there are multiple variants of a particular target then add a suffix to disambiguate (i.e. :foo_dev, :foo_prod or :bar_x86, :bar_x64)
- _test targets should be suffixed with “_test”, “_unittest”, “Test”, or “Tests”
- Avoid meaningless suffixes like “_lib” or “_library” (unless necessary to avoid conflicts between a _library target and its corresponding _binary)
- For proto related targets:
- proto_library targets should have names ending in “_proto”
- Languages specific *_proto_library rules should match the underlying
proto but replace “_proto” with a language specific suffix such as:
- cc_proto_library: “_cc_proto”
- java_proto_library: “_java_proto”
- java_lite_proto_library: “_java_proto_lite”
Visibility
Visibility should be scoped as tightly as possible, while still allowing access
by tests and reverse dependencies. Use __pkg__
and __subpackages__
as
appropriate.
Avoid setting package default_visibility
to //visibility:public
.
//visibility:public
should be individually set only for targets in the
project’s public API. These could be libraries that are designed to be depended
on by external projects or binaries that could be used by an external project’s
build process.
Dependencies
Dependencies should be restricted to direct dependencies (dependencies needed by the sources listed in the rule). Do not list transitive dependencies.
Package-local dependencies should be listed first and referred to in a way compatible with the References to targets in the current package section above (not by their absolute package name).
Prefer to list dependencies directly, as a single list. Putting the “common” dependencies of several targets into a variable reduces maintainability, makes it impossible for tools to change the dependencies of a target and can lead to unused dependencies.
Globs
Indicate “no targets” with []
. Do not use a glob that matches nothing: it
is more error-prone and less obvious than an empty list.
Recursive
Do not use recursive globs to match source files (for example,
glob(["**/*.java"])
).
Recursive globs make BUILD
files difficult to reason about because they skip
subdirectories containing BUILD
files.
Recursive globs are generally less efficient than having a BUILD
file per
directory with a dependency graph defined between them as this enables better
remote caching and parallelism.
It is good practice to author a BUILD
file in each directory and define a
dependency graph between them.
Non-recursive
Non-recursive globs are generally acceptable.
Other conventions
-
Use uppercase and underscores to declare constants (e.g.
GLOBAL_CONSTANT
), use lowercase and underscores to declare variables (e.g.my_variable
). -
Labels should never be split, even if they are longer than 79 characters. Labels should be string literals whenever possible. Rationale: It makes find and replace easy. It also improves readability.
-
The value of the name attribute should be a literal constant string (except in macros). Rationale: External tools use the name attribute to refer a rule. They need to find rules without having to interpret code.
-
When setting boolean-type attributes, use boolean values, not integer values. For legacy reasons, rules will still convert integers to booleans as needed, but this is discouraged. Rationale:
flaky = 1
could be misread as saying “deflake this target by rerunning it once”.flaky = True
unambiguously says “this test is flaky”.
Differences with Python style guide
Although compatibility with Python style guide is a goal, there are a few differences:
-
No strict line length limit. Long comments and long strings are often split to 79 columns, but it is not required. It should not be enforced in code reviews or presubmit scripts. Rationale: Labels can be long and exceed this limit. It is common for
BUILD
files to be generated or edited by tools, which does not go well with a line length limit. -
Implicit string concatenation is not supported. Use the
+
operator. Rationale:BUILD
files contain many string lists. It is easy to forget a comma, which leads to a complete different result. This has created many bugs in the past. See also this discussion. -
Use spaces around the
=
sign for keywords arguments in rules. Rationale: Named arguments are much more frequent than in Python and are always on a separate line. Spaces improve readability. This convention has been around for a long time, and it is not worth modifying all existingBUILD
files. -
By default, use double quotation marks for strings. Rationale: This is not specified in the Python style guide, but it recommends consistency. So we decided to use only double-quoted strings. Many languages use double-quotes for string literals.
-
Use a single blank line between two top-level definitions. Rationale: The structure of a
BUILD
file is not like a typical Python file. It has only top-level statements. Using a single-blank line makesBUILD
files shorter.