2
0
Fork 0
mirror of https://github.com/bazelbuild/rules_cc synced 2024-11-27 20:43:26 +00:00
rules_cc/cc/toolchains/cc_toolchain_info.bzl
Googler 1361256a68 Gather variable metadata for the new rule-based toolchain.
BEGIN_PUBLIC
Gather variable metadata for the new rule-based toolchain.
END_PUBLIC

PiperOrigin-RevId: 622000877
Change-Id: I5b2ea6c363fc43fd44e60ffc8fa7ae041545337e
2024-04-04 16:13:02 -07:00

192 lines
9.2 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.
"""All providers for rule-based bazel toolchain config."""
# Until the providers are stabilized, ensure that rules_cc is the only place
# that can access the providers directly.
# Once it's stabilized, we *may* consider opening up parts of the API, or we may
# decide to just require users to use the public user-facing rules.
visibility([
"//cc/toolchains/...",
"//tests/rule_based_toolchain/...",
])
# Note that throughout this file, we never use a list. This is because mutable
# types cannot be stored in depsets. Thus, we type them as a sequence in the
# provider, and convert them to a tuple in the constructor to ensure
# immutability.
ActionTypeInfo = provider(
doc = "A type of action (eg. c-compile, c++-link-executable)",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"name": "(str) The action name, as defined by action_names.bzl",
},
)
ActionTypeSetInfo = provider(
doc = "A set of types of actions",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"actions": "(depset[ActionTypeInfo]) Set of action types",
},
)
VariableInfo = provider(
"""A variable defined by the toolchain""",
# @unsorted-dict-items
fields = {
"name": "(str) The variable name",
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"actions": "(Optional[depset[ActionTypeInfo]]) The actions this variable is available for",
"type": "A type constructed using variables.types.*",
},
)
BuiltinVariablesInfo = provider(
doc = "The builtin variables",
fields = {
"variables": "(dict[str, VariableInfo]) A mapping from variable name to variable metadata.",
},
)
NestedArgsInfo = provider(
doc = "A provider representation of Args.add/add_all/add_joined parameters",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"nested": "(Sequence[NestedArgsInfo]) The nested arg expansion. Mutually exclusive with args",
"iterate_over": "(Optional[str]) The variable to iterate over",
"files": "(depset[File]) The files required to use this variable",
"requires_types": "(dict[str, str]) A mapping from variables to their expected type name (not type). This means that we can require the generic type Option, rather than an Option[T]",
"legacy_flag_group": "(flag_group) The flag_group this corresponds to",
"unwrap_options": "(List[str]) A list of variables for which we should unwrap the option. For example, if a user writes `requires_not_none = \":foo\"`, then we change the type of foo from Option[str] to str",
},
)
ArgsInfo = provider(
doc = "A set of arguments to be added to the command line for specific actions",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"actions": "(depset[ActionTypeInfo]) The set of actions this is associated with",
"requires_any_of": "(Sequence[FeatureConstraintInfo]) This will be enabled if any of the listed predicates are met. Equivalent to with_features",
"nested": "(Optional[NestedArgsInfo]) The args expand. Equivalent to a flag group.",
"files": "(depset[File]) Files required for the args",
"env": "(dict[str, str]) Environment variables to apply",
},
)
ArgsListInfo = provider(
doc = "A ordered list of arguments",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"args": "(Sequence[ArgsInfo]) The flag sets contained within",
"files": "(depset[File]) The files required for all of the arguments",
"by_action": "(Sequence[struct(action=ActionTypeInfo, args=List[ArgsInfo], files=depset[Files])]) Relevant information about the args keyed by the action type.",
},
)
FeatureInfo = provider(
doc = "Contains all flag specifications for one feature.",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"name": "(str) The name of the feature",
"enabled": "(bool) Whether this feature is enabled by default",
"args": "(ArgsListInfo) Args enabled by this feature",
"implies": "(depset[FeatureInfo]) Set of features implied by this feature",
"requires_any_of": "(Sequence[FeatureSetInfo]) A list of feature sets, at least one of which is required to enable this feature. This is semantically equivalent to the requires attribute of rules_cc's FeatureInfo",
"mutually_exclusive": "(Sequence[MutuallyExclusiveCategoryInfo]) Indicates that this feature is one of several mutually exclusive alternate features.",
"external": "(bool) Whether a feature is defined elsewhere.",
"overridable": "(bool) Whether the feature is an overridable feature.",
"overrides": "(Optional[FeatureInfo]) The feature that this overrides. Must be a known feature",
},
)
FeatureSetInfo = provider(
doc = "A set of features",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"features": "(depset[FeatureInfo]) The set of features this corresponds to",
},
)
FeatureConstraintInfo = provider(
doc = "A predicate checking that certain features are enabled and others disabled.",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"all_of": "(depset[FeatureInfo]) A set of features which must be enabled",
"none_of": "(depset[FeatureInfo]) A set of features, none of which can be enabled",
},
)
MutuallyExclusiveCategoryInfo = provider(
doc = "Multiple features with the category will be mutally exclusive",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"name": "(str) The name of the category",
},
)
ToolInfo = provider(
doc = "A binary, with additional metadata to make it useful for action configs.",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"exe": "(File) The file corresponding to the tool",
"runfiles": "(depset[File]) The files required to run the tool",
"requires_any_of": "(Sequence[FeatureConstraintInfo]) A set of constraints, one of which is required to enable the tool. Equivalent to with_features",
"execution_requirements": "(Sequence[str]) A set of execution requirements of the tool",
},
)
ActionTypeConfigInfo = provider(
doc = "Configuration of a Bazel action.",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"action_type": "(ActionTypeInfo) The type of the action",
"tools": "(Sequence[ToolInfo]) The tool applied to the action will be the first tool in the sequence with a feature set that matches the feature configuration",
"args": "(Sequence[ArgsInfo]) Set of flag sets the action sets",
"implies": "(depset[FeatureInfo]) Set of features implied by this action config",
"files": "(runfiles) The files required to run these actions",
},
)
ActionTypeConfigSetInfo = provider(
doc = "A set of action configs",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"configs": "(dict[ActionTypeInfo, ActionTypeConfigInfo]) A set of action configs",
},
)
ToolchainConfigInfo = provider(
doc = "The configuration for a toolchain",
# @unsorted-dict-items
fields = {
"label": "(Label) The label defining this provider. Place in error messages to simplify debugging",
"features": "(Sequence[FeatureInfo]) The features available for this toolchain",
"action_type_configs": "(dict[ActionTypeInfo, ActionTypeConfigInfo]) The configuration of action configs for the toolchain.",
"args": "(Sequence[ArgsInfo]) A list of arguments to be unconditionally applied to the toolchain.",
"files": "(dict[ActionTypeInfo, depset[File]]) Files required for the toolchain, keyed by the action type.",
},
)