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c5493f9b2c
Implement cc_action_type_config. Rename it from cc_action_config, to make it clear that we are not configuring an action, but rather configuring a type of action. END_PUBLIC PiperOrigin-RevId: 610518142 Change-Id: Ic10755952ee786d30a3a5564aa09a8dc16499f3a
334 lines
9.7 KiB
Markdown
334 lines
9.7 KiB
Markdown
# Writing a custom rule_based C++ toolchain with rule-based definition.
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Work in progress!
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This document serves two purposes:
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* Until complete, this serves as an agreement for the final user-facing API.
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* Once complete, this will serve as onboarding documentation.
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This section will be removed once complete.
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## Step 1: Define tools
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A tool is simply a binary. Just like any other bazel binary, a tool can specify
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additional files required to run.
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We can use any bazel binary as an input to anything that requires tools. In the
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example below, you could use both clang and ld as tools.
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```
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# @sysroot//:BUILD
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cc_tool(
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name = "clang",
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exe = ":bin/clang",
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execution_requirements = ["requires-mem:24g"],
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data = [...],
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)
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sh_binary(
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name = "ld",
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srcs = ["ld_wrapper.sh"],
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data = [":bin/ld"],
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)
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```
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## Step 2: Generate action configs from those tools
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An action config is a mapping from action to:
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* A list of tools, (the first one matching the execution requirements is used).
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* A list of args and features that are always enabled for the action
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* A set of additional files required for the action
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Each action can only be specified once in the toolchain. Specifying multiple
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actions in a single `cc_action_type_config` is just a shorthand for specifying the
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same config for every one of those actions.
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If you're already familiar with how to define toolchains, the additional files
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is a replacement for `compile_files`, `link_files`, etc.
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Additionally, to replace `all_files`, we add `cc_additional_files_for_actions`.
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This allows you to specify that particular files are required for particular
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actions.
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We provide `additional_files` on the `cc_action_type_config` as a shorthand for
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specifying `cc_additional_files_for_actions`
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Warning: Implying a feature that is not listed directly in the toolchain will throw
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an error. This is to ensure you don't accidentally add a feature to the
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toolchain.
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```
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cc_action_type_config(
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name = "c_compile",
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actions = ["@rules_cc//actions:all_c_compile"],
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tools = ["@sysroot//:clang"],
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args = [":my_args"],
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implies = [":my_feature"],
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additional_files = ["@sysroot//:all_header_files"],
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)
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cc_additional_files_for_actions(
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name = "all_action_files",
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actions = ["@rules_cc//actions:all_actions"],
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additional_files = ["@sysroot//:always_needed_files"]
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)
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```
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## Step 3: Define some arguments
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Arguments are our replacement for `flag_set` and `env_set`. To add arguments to
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our tools, we take heavy inspiration from bazel's
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[`Args`](https://bazel.build/rules/lib/builtins/Args) type. We provide the same
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API, with the following caveats:
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* `actions` specifies which actions the arguments apply to (same as `flag_set`).
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* `requires_any_of` is equivalent to `with_features` on the `flag_set`.
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* `args` may be used instead of `add` if your command-line is only strings.
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* `env` may be used to add environment variables to the arguments. Environment
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variables set by later args take priority.
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* By default, all inputs are automatically added to the corresponding actions.
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`additional_files` specifies files that are required for an action when using
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that argument.
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```
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cc_args(
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name = "inline",
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actions = ["@rules_cc//actions:all_cpp_compile_actions"],
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args = ["--foo"],
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requires_any_of = [":feature"]
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env = {"FOO": "bar"},
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additional_files = [":file"],
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)
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```
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For more complex use cases, we use the same API as `Args`. Values are either:
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* A list of files (or a single file for `cc_add_args`).
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* Something returning `CcVariableInfo`, which is equivalent to a list of strings.
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```
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cc_variable(
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name = "bar_baz",
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values = ["bar", "baz"],
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)
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# Expands to CcVariableInfo(values = ["x86_64-unknown-linux-gnu"])
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custom_variable_rule(
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name = "triple",
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...
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)
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# Taken from https://bazel.build/rules/lib/builtins/Args#add
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cc_add_args(
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name = "single",
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arg_name = "--platform",
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value = ":triple", # Either a single file or a cc_variable
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format = "%s",
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)
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# Taken from https://bazel.build/rules/lib/builtins/Args#add_all
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cc_add_args_all(
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name = "multiple",
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arg_name = "--foo",
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values = [":file", ":file_set"], # Either files or cc_variable.
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# map_each not supported. Write a custom rule if you want that.
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format_each = "%s",
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before_each = "--foo",
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omit_if_empty = True,
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uniquify = False,
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# Expand_directories not yet supported.
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terminate_with = "foo",
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)
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# Taken from https://bazel.build/rules/lib/builtins/Args#add_joined
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cc_add_args_joined(
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name = "joined",
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arg_name = "--foo",
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values = [":file", ":file_set"], # Either files or cc_variable.
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join_with = ",",
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# map_each not supported. Write a custom rule if you want that.
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format_each = "%s",
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format_joined = "--foo=%s",
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omit_if_empty = True,
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uniquify = False,
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# Expand_directories not yet supported.
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)
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cc_args(
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name = "complex",
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actions = ["@rules_cc//actions:c_compile"],
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add = [":single", ":multiple", ":joined"],
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)
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cc_args_list(
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name = "all_flags",
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args = [":inline", ":complex"],
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)
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```
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## Step 4: Define some features
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A feature is a set of args and configurations that can be enabled or disabled.
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Although the existing toolchain recommends using features to avoid duplication
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of definitions, we recommend avoiding using features unless you want the user to
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be able to enable / disable the feature themselves. This is because we provide
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alternatives such as `cc_args_list` to allow combining arguments and
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specifying them on each action in the action config.
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```
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cc_feature(
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name = "my_feature",
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feature_name = "my_feature",
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args = [":all_args"],
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implies = [":other_feature"],
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)
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```
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## Step 5: Generate the toolchain
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The `cc_toolchain` macro:
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* Performs validation on the inputs (eg. no two action configs for a single
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action)
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* Converts the type-safe providers to the unsafe ones in
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`cc_toolchain_config_lib.bzl`
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* Generates a set of providers for each of the filegroups respectively
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* Generates the appropriate `native.cc_toolchain` invocation.
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```
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cc_toolchain(
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name = "toolchain",
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features = [":my_feature"]
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unconditional_args = [":all_warnings"],
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action_type_configs = [":c_compile"],
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additional_files = [":all_action_files"],
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)
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```
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# Ancillary components for type-safe toolchains.
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## Well-known features
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Well-known features will be defined in `@rules_cc//features/well_known:*`.
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Any feature with `feature_name` in the well known features will have to specify
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overrides.
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`cc_toolchain` is aware of the builtin / well-known features. In order to
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ensure that a user understands that this overrides the builtin opt feature (I
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originally thought that it added extra flags to opt, but you still got the
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default ones, so that can definitely happen), and to ensure that they don't
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accidentally do so, we will force them to explicitly specify that it overrides
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the builtin one. This is essentially just an acknowledgement of "I know what
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I'm doing".
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Warning: Specifying two features with the same name is an error, unless one
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overrides the other.
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```
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cc_feature(
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name = "opt",
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...,
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overrides = "@rules_cc//features/well_known:opt",
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)
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```
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In addition to well-known features, we could also consider in future iterations
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to also use known features for partial migrations, where you still imply a
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feature that's still defined by the legacy API:
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```
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# Implementation
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def cc_legacy_features(name, features):
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for feature in features:
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cc_known_feature(name = name + "_" + feature.name)
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cc_legacy_features(name = name, features = FEATURES)
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# Build file
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FOO = feature(name = "foo", args=[arg_group(...)])
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FEATURES = [FOO]
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cc_legacy_features(name = "legacy_features", features = FEATURES)
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cc_feature(name = "bar", implies = [":legacy_features_foo"])
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cc_toolchain(
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name = "toolchain",
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legacy_features = ":legacy_features",
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features = [":bar"],
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)
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```
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## Mutual exclusion
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Features can be mutually exclusive.
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We allow two approaches to mutual exclusion - via features or via categories.
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The existing toolchain uses `provides` for both of these. We rename it so that
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it makes more sense semantically.
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```
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cc_feature(
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name = "incompatible_with_my_feature",
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feature_name = "bar",
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mutually_exclusive = [":my_feature"],
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)
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# This is an example of how we would define compilation mode.
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# Since it already exists, this wouldn't work.
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cc_mutual_exclusion_category(
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name = "compilation_mode",
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)
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cc_feature(
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name = "opt",
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...
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mutually_exclusive = [":compilation_mode"],
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)
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cc_feature(
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name = "dbg",
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...
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mutually_exclusive = [":compilation_mode"],
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)
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```
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## Feature requirements
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Feature requirements can come in two formats.
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For example:
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* Features can require some subset of features to be enabled.
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* Arguments can require some subset of features to be enabled, but others to be
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disabled.
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This is very confusing for toolchain authors, so we will simplify things with
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the use of providers:
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* `cc_feature` will provide `feature`, `feature_set`, and `with_feature`
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* `cc_feature_set` will provide `feature_set` and `with_feature`.
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* `cc_feature_constraint` will provide `with_features` only.
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We will rename all `with_features` and `requires` to `requires_any_of`, to make
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it very clear that only one of the requirements needs to be met.
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```
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cc_feature_set(
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name = "my_feature_set",
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all_of = [":my_feature"],
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)
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cc_feature_constraint(
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name = "my_feature_constraint",
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all_of = [":my_feature"],
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none_of = [":my_other_feature"],
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)
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cc_args(
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name = "foo",
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# All of these provide with_feature.
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requires_any_of = [":my_feature", ":my_feature_set", ":my_feature_constraint"]
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)
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# my_feature_constraint would be an error here.
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cc_feature(
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name = "foo",
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# Both of these provide feature_set.
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requires_any_of = [":my_feature", ":my_feature_set"]
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implies = [":my_other_feature", :my_other_feature_set"],
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)
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```
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