Visibility controls whether a target can be used (depended on) by targets in other packages. This helps other people distinguish between your library's public API and its implementation details, and is an important tool to help enforce structure as your workspace grows.
If you need to disable the visibility check (for example when experimenting), use --check_visibility=false
.
All rule targets have a visibility
attribute that takes a list of labels. One target is visible to another if they are in the same package, or if they are granted visibility by one of the labels.
Each label has one of the following forms:
"//visibility:public"
: Anyone can use this target. (May not be combined with any other specification.)
"//visibility:private"
: Only targets in this package can use this target. (May not be combined with any other specification.)
"//foo/bar:__pkg__"
: Grants access to targets defined in //foo/bar
(but not its subpackages). Here, __pkg__
is a special piece of syntax representing all of the targets in a package.
"//foo/bar:__subpackages__"
: Grants access to targets defined in //foo/bar
, or any of its direct or indirect subpackages. Again, __subpackages__
is special syntax.
"//foo/bar:my_package_group"
: Grants access to all of the packages named by the given package group.
__pkg__
and __subpackages__
syntax. Within a package group, "//foo/bar"
is equivalent to "//foo/bar:__pkg__"
and "//foo/bar/..."
is equivalent to "//foo/bar:__subpackages__"
.For example, if //some/package:mytarget
has its visibility
set to [":__subpackages__", "//tests:__pkg__"]
, then it could be used by any target that is part of the //some/package/...
source tree, as well as targets defined in //tests/BUILD
, but not by targets defined in //tests/integration/BUILD
.
As a special case, package_group
targets themselves do not have a visibility
attribute; they are always publicly visible.
If a rule target does not set the visibility
attribute, its visibility is given by the default_visibility
that was specified in the package
statement of the target's BUILD file. If there is no such default_visibility
declaration, the visibility is //visibility:private
.
File //frobber/bin/BUILD
:
# This target is visible to everyone cc_binary( name = "executable", visibility = ["//visibility:public"], deps = [":library"], ) # This target is visible only to targets declared in the same package cc_library( name = "library", # No visibility -- defaults to private since no # package(default_visibility = ...) was used. ) # This target is visible to targets in package //object and //noun cc_library( name = "subject", visibility = [ "//noun:__pkg__", "//object:__pkg__", ], ) # See package group "//frobber:friends" (below) for who can # access this target. cc_library( name = "thingy", visibility = ["//frobber:friends"], )
File //frobber/BUILD
:
# This is the package group declaration to which target # //frobber/bin:thingy refers. # # Our friends are packages //frobber, //fribber and any # subpackage of //fribber. package_group( name = "friends", packages = [ "//fribber/...", "//frobber", ], )
By default, file targets are visible only from the same package. To make a file accessible from another package, use exports_files
.
If the call to exports_files
specifies the visibility attribute, that visibility applies. Otherwise, the file is public (the default_visibility
is ignored).
When possible, prefer exposing a library or another type of rule instead of a source file. For example, declare a java_library
instead of exporting a .java
file. It's good form for a rule target to only directly include sources in its own package.
File //frobber/data/BUILD
:
exports_files(["readme.txt"])
File //frobber/bin/BUILD
:
cc_binary( name = "my-program", data = ["//frobber/data:readme.txt"], )
If the flag --incompatible_no_implicit_file_export
is not set, a legacy behavior applies instead.
With the legacy behavior, files used by at least one rule target in the package are implicitly exported using the default_visibility
specification. See the design proposal for more details.
load
statements are currently not subject to visibility. It is possible to load a bzl
file anywhere in the workspace.
Some rules have implicit dependencies. For example, a C++ rule might implicitly depend on a C++ compiler.
Currently, implicit dependencies are treated like normal dependencies. They need to be visible by all instances of the rule. This behavior can be changed using --incompatible_visibility_private_attributes_at_definition
.
Avoid setting the default visibility to public. It may be convenient for prototyping or in small codebases, but it is discouraged in large codebases: try to be explicit about which targets are part of the public interface.
Use package_group
to share the visibility specifications among multiple targets. This is especially useful when targets in many BUILD files should be exposed to the same set of packages.
Use fine-grained visibility specifications when deprecating a target. Restrict the visibility to the current users to avoid new dependencies.