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rules_cc/cc/toolchains/feature.bzl
Googler 1af2140e73 Document feature-related toolchain rules
BEGIN_PUBLIC

Document feature-related toolchain rules

Extends the toolchain API documentation to cover all feature-related rules.

END_PUBLIC

PiperOrigin-RevId: 681476538
Change-Id: Icfe35e03937bdb0bc55eae24f57eafe0db7b16eb
2024-10-02 09:10:38 -07:00

249 lines
9.1 KiB
Python

# Copyright 2024 The Bazel Authors. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Implementation of the cc_feature rule."""
load(
"//cc/toolchains/impl:collect.bzl",
"collect_args_lists",
"collect_features",
"collect_provider",
)
load(
":cc_toolchain_info.bzl",
"ArgsListInfo",
"FeatureConstraintInfo",
"FeatureInfo",
"FeatureSetInfo",
"MutuallyExclusiveCategoryInfo",
)
def _cc_feature_impl(ctx):
if bool(ctx.attr.feature_name) == (ctx.attr.overrides != None):
fail("Exactly one of 'feature_name' and 'overrides' are required")
if ctx.attr.overrides == None:
overrides = None
# In the future, we may consider making feature_name optional,
# defaulting to ctx.label.name. However, starting that way would make it
# very difficult if we did want to later change that.
name = ctx.attr.feature_name
else:
overrides = ctx.attr.overrides[FeatureInfo]
if not overrides.overridable:
fail("Attempting to override %s, which is not overridable" % overrides.label)
name = overrides.name
# In the following scenario:
# cc_args(name = "foo", env = {"FOO": "BAR"}, args = ["--foo"])
# cc_action_config(name = "ac", args=[":foo"])
# We will translate this into providers roughly equivalent to the following:
# cc_args(name = "implied_by_ac_env", env = {"FOO": "BAR"}, args = ["--foo"])
# cc_feature(name = "implied_by_ac", args = [":implied_by_ac_env"])
# cc_action_config(
# name = "c_compile",
# implies = [":implied_by_c_compile"]
# )
# The reason for this is because although the legacy providers support
# flag_sets in action_config, they don't support env sets.
if name.startswith("implied_by_"):
fail("Feature names starting with 'implied_by' are reserved")
args = collect_args_lists(ctx.attr.args, ctx.label)
feature = FeatureInfo(
label = ctx.label,
name = name,
# Unused field, but leave it just in case we want to reuse it in the
# future.
enabled = False,
args = args,
implies = collect_features(ctx.attr.implies),
requires_any_of = tuple(collect_provider(
ctx.attr.requires_any_of,
FeatureSetInfo,
)),
mutually_exclusive = tuple(collect_provider(
ctx.attr.mutually_exclusive,
MutuallyExclusiveCategoryInfo,
)),
external = False,
overridable = False,
overrides = overrides,
allowlist_include_directories = args.allowlist_include_directories,
)
return [
feature,
FeatureSetInfo(label = ctx.label, features = depset([feature])),
FeatureConstraintInfo(
label = ctx.label,
all_of = depset([feature]),
none_of = depset([]),
),
MutuallyExclusiveCategoryInfo(label = ctx.label, name = name),
]
cc_feature = rule(
implementation = _cc_feature_impl,
# @unsorted-dict-items
attrs = {
"feature_name": attr.string(
doc = """The name of the feature that this rule implements.
The feature name is a string that will be used in the `features` attribute of
rules to enable them (eg. `cc_binary(..., features = ["opt"])`.
While two features with the same `feature_name` may not be bound to the same
toolchain, they can happily live alongside each other in the same BUILD file.
Example:
```
cc_feature(
name = "sysroot_macos",
feature_name = "sysroot",
...
)
cc_feature(
name = "sysroot_linux",
feature_name = "sysroot",
...
)
```
""",
),
"args": attr.label_list(
doc = """A list of `cc_args` or `cc_args_list` labels that are expanded when this feature is enabled.""",
providers = [ArgsListInfo],
),
"requires_any_of": attr.label_list(
doc = """A list of feature sets that define toolchain compatibility.
If *at least one* of the listed `cc_feature_set`s are fully satisfied (all
features exist in the toolchain AND are currently enabled), this feature is
deemed compatible and may be enabled.
Note: Even if `cc_feature.requires_any_of` is satisfied, a feature is not
enabled unless another mechanism (e.g. command-line flags, `cc_feature.implies`,
`cc_toolchain_config.enabled_features`) signals that the feature should actually
be enabled.
""",
providers = [FeatureSetInfo],
),
"implies": attr.label_list(
providers = [FeatureSetInfo],
doc = """List of features enabled along with this feature.
Warning: If any of the features cannot be enabled, this feature is
silently disabled.
""",
),
"mutually_exclusive": attr.label_list(
providers = [MutuallyExclusiveCategoryInfo],
doc = """A list of things that this feature is mutually exclusive with.
It can be either:
* A feature, in which case the two features are mutually exclusive.
* A `cc_mutually_exclusive_category`, in which case all features that write
`mutually_exclusive = [":category"]` are mutually exclusive with each other.
If this feature has a side-effect of implementing another feature, it can be
useful to list that feature here to ensure they aren't enabled at the same time.
""",
),
"overrides": attr.label(
providers = [FeatureInfo],
doc = """A declaration that this feature overrides a known feature.
In the example below, if you missed the "overrides" attribute, it would complain
that the feature "opt" was defined twice.
Example:
```
load("//cc/toolchains:feature.bzl", "cc_feature")
cc_feature(
name = "opt",
feature_name = "opt",
args = [":size_optimized"],
overrides = "//cc/toolchains/features:opt",
)
```
""",
),
},
provides = [
FeatureInfo,
FeatureSetInfo,
FeatureConstraintInfo,
MutuallyExclusiveCategoryInfo,
],
doc = """A dynamic set of toolchain flags that create a singular [feature](https://bazel.build/docs/cc-toolchain-config-reference#features) definition.
A feature is basically a dynamically toggleable `cc_args_list`. There are a variety of
dependencies and compatibility requirements that must be satisfied to enable a
`cc_feature`. Once those conditions are met, the arguments in [`cc_feature.args`](#cc_feature-args)
are expanded and added to the command-line.
A feature may be enabled or disabled through the following mechanisms:
* Via command-line flags, or a `.bazelrc` file via the
[`--features` flag](https://bazel.build/reference/command-line-reference#flag--features)
* Through inter-feature relationships (via [`cc_feature.implies`](#cc_feature-implies)) where one
feature may implicitly enable another.
* Individual rules (e.g. `cc_library`) or `package` definitions may elect to manually enable or
disable features through the
[`features` attribute](https://bazel.build/reference/be/common-definitions#common.features).
Note that a feature may alternate between enabled and disabled dynamically over the course of a
build. Because of their toggleable nature, it's generally best to avoid adding arguments to a
`cc_toolchain` as a `cc_feature` unless strictly necessary. Instead, prefer to express arguments
via [`cc_toolchain.args`](#cc_toolchain-args) whenever possible.
You should use a `cc_feature` when any of the following apply:
* You need the flags to be dynamically toggled over the course of a build.
* You want build files to be able to configure the flags in question. For example, a
binary might specify `features = ["optimize_for_size"]` to create a small
binary instead of optimizing for performance.
* You need to carry forward Starlark toolchain behaviors. If you're migrating a
complex Starlark-based toolchain definition to these rules, many of the
workflows and flags were likely based on features.
If you only need to configure flags via the Bazel command-line, instead
consider adding a
[`bool_flag`](https://github.com/bazelbuild/bazel-skylib/tree/main/doc/common_settings_doc.md#bool_flag)
paired with a [`config_setting`](https://bazel.build/reference/be/general#config_setting)
and then make your `cc_args` rule `select` on the `config_setting`.
For more details about how Bazel handles features, see the official Bazel
documentation at
https://bazel.build/docs/cc-toolchain-config-reference#features.
Example:
```
load("//cc/toolchains:feature.bzl", "cc_feature")
# A feature that enables LTO, which may be incompatible when doing interop with various
# languages (e.g. rust, go), or may need to be disabled for particular `cc_binary` rules
# for various reasons.
cc_feature(
name = "lto",
feature_name = "lto",
args = [":lto_args"],
)
```
""",
)