cc/toolchains/impl/nested_args.bzl - rules_cc - Git at Google

 # 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.
 """Helper functions for working with args."""

 load("@bazel_skylib//lib:structs.bzl", "structs")
 load("//cc:cc_toolchain_config_lib.bzl", "flag_group", "variable_with_value")
 load("//cc/toolchains:cc_toolchain_info.bzl", "NestedArgsInfo", "VariableInfo")
 load(":collect.bzl", "collect_files", "collect_provider")

 visibility([
     "//cc/toolchains",
     "//tests/rule_based_toolchain/...",
 ])

 REQUIRES_MUTUALLY_EXCLUSIVE_ERR = "requires_none, requires_not_none, requires_true, requires_false, and requires_equal are mutually exclusive"
 REQUIRES_NOT_NONE_ERR = "requires_not_none only works on options"
 REQUIRES_NONE_ERR = "requires_none only works on options"
 REQUIRES_TRUE_ERR = "requires_true only works on bools"
 REQUIRES_FALSE_ERR = "requires_false only works on bools"
 REQUIRES_EQUAL_ERR = "requires_equal only works on strings"
 REQUIRES_EQUAL_VALUE_ERR = "When requires_equal is provided, you must also provide requires_equal_value to specify what it should be equal to"
 FORMAT_ARGS_ERR = "format_args can only format strings, files, or directories"

 _NOT_ESCAPED_FMT = "%% should always either of the form %%s, or escaped with %%%%. Instead, got %r"

 _EXAMPLE = """

 cc_args(
     ...,
     args = [format_arg("--foo=%s", "//cc/toolchains/variables:foo")]
 )

 or

 cc_args(
     ...,
     # If foo_list contains ["a", "b"], then this expands to ["--foo", "+a", "--foo", "+b"].
     args = ["--foo", format_arg("+%s")],
     iterate_over = "//toolchains/variables:foo_list",
 """

 # @unsorted-dict-items.
 NESTED_ARGS_ATTRS = {
     "args": attr.string_list(
         doc = """json-encoded arguments to be added to the command-line.

 Usage:
 cc_args(
     ...,
     args = ["--foo", format_arg("%s", "//cc/toolchains/variables:foo")]
 )

 This is equivalent to flag_group(flags = ["--foo", "%{foo}"])

 Mutually exclusive with nested.
 """,
     ),
     "nested": attr.label_list(
         providers = [NestedArgsInfo],
         doc = """nested_args that should be added on the command-line.

 Mutually exclusive with args.""",
     ),
     "data": attr.label_list(
         allow_files = True,
         doc = """Files required to add this argument to the command-line.

 For example, a flag that sets the header directory might add the headers in that
 directory as additional files.
 """,
     ),
     "variables": attr.label_list(
         providers = [VariableInfo],
         doc = "Variables to be used in substitutions",
     ),
     "iterate_over": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.iterate_over"),
     "requires_not_none": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.expand_if_available"),
     "requires_none": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.expand_if_not_available"),
     "requires_true": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.expand_if_true"),
     "requires_false": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.expand_if_false"),
     "requires_equal": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.expand_if_equal"),
     "requires_equal_value": attr.string(),
 }

 def args_wrapper_macro(*, name, rule, args = [], **kwargs):
     """Invokes a rule by converting args to attributes.

     Args:
         name: (str) The name of the target.
         rule: (rule) The rule to invoke. Either cc_args or cc_nested_args.
         args: (List[str|Formatted]) A list of either strings, or function calls
           from format.bzl. For example:
             ["--foo", format_arg("--sysroot=%s", "//cc/toolchains/variables:sysroot")]
         **kwargs: kwargs to pass through into the rule invocation.
     """
     out_args = []
     vars = []
     if type(args) != "list":
         fail("Args must be a list in %s" % native.package_relative_label(name))
     for arg in args:
         if type(arg) == "string":
             out_args.append(raw_string(arg))
         elif getattr(arg, "format_type") == "format_arg":
             arg = structs.to_dict(arg)
             if arg["value"] == None:
                 out_args.append(arg)
             else:
                 var = arg.pop("value")

                 # Swap the variable from a label to an index. This allows us to
                 # actually get the providers in a rule.
                 out_args.append(struct(value = len(vars), **arg))
                 vars.append(var)
         else:
             fail("Invalid type of args in %s. Expected either a string or format_args(format_string, variable_label), got value %r" % (native.package_relative_label(name), arg))

     rule(
         name = name,
         args = [json.encode(arg) for arg in out_args],
         variables = vars,
         **kwargs
     )

 def _var(target):
     if target == None:
         return None
     return target[VariableInfo].name

 # TODO: Consider replacing this with a subrule in the future. However, maybe not
 # for a long time, since it'll break compatibility with all bazel versions < 7.
 def nested_args_provider_from_ctx(ctx):
     """Gets the nested args provider from a rule that has NESTED_ARGS_ATTRS.

     Args:
         ctx: The rule context
     Returns:
         NestedArgsInfo
     """
     variables = collect_provider(ctx.attr.variables, VariableInfo)
     args = []
     for arg in ctx.attr.args:
         arg = json.decode(arg)
         if "value" in arg:
             if arg["value"] != None:
                 arg["value"] = variables[arg["value"]]
         args.append(struct(**arg))

     return nested_args_provider(
         label = ctx.label,
         args = args,
         nested = collect_provider(ctx.attr.nested, NestedArgsInfo),
         files = collect_files(ctx.attr.data),
         iterate_over = _var(ctx.attr.iterate_over),
         requires_not_none = _var(ctx.attr.requires_not_none),
         requires_none = _var(ctx.attr.requires_none),
         requires_true = _var(ctx.attr.requires_true),
         requires_false = _var(ctx.attr.requires_false),
         requires_equal = _var(ctx.attr.requires_equal),
         requires_equal_value = ctx.attr.requires_equal_value,
     )

 def raw_string(s):
     """Constructs metadata for creating a raw string.

     Args:
       s: (str) The string to input.
     Returns:
       Metadata suitable for format_variable.
     """
     return struct(format_type = "raw", format = s)

 def format_string_indexes(s, fail = fail):
     """Gets the index of a '%s' in a string.

     Args:
       s: (str) The string
       fail: The fail function. Used for tests

     Returns:
       List[int] The indexes of the '%s' in the string
     """
     indexes = []
     escaped = False
     for i in range(len(s)):
         if not escaped and s[i] == "%":
             escaped = True
         elif escaped:
             if s[i] == "{":
                 fail('Using the old mechanism for variables, %%{variable}, but we instead use format_arg("--foo=%%s", "//cc/toolchains/variables:<variable>"). Got %r' % s)
             elif s[i] == "s":
                 indexes.append(i - 1)
             elif s[i] != "%":
                 fail(_NOT_ESCAPED_FMT % s)
             escaped = False
     if escaped:
         return fail(_NOT_ESCAPED_FMT % s)
     return indexes

 def format_variable(arg, iterate_over, fail = fail):
     """Lists all of the variables referenced by an argument.

     Eg: referenced_variables([
         format_arg("--foo", None),
         format_arg("--bar=%s", ":bar")
     ]) => ["--foo", "--bar=%{bar}"]

     Args:
       arg: [Formatted] The command-line arguments, as created by the format_arg function.
       iterate_over: (Optional[str]) The name of the variable we're iterating over.
       fail: The fail function. Used for tests

     Returns:
       A string defined to be compatible with flag groups.
     """
     indexes = format_string_indexes(arg.format, fail = fail)
     if arg.format_type == "raw":
         if indexes:
             return fail("Can't use %s with a raw string. Either escape it with %%s or use format_arg, like the following examples:" + _EXAMPLE)
         return arg.format
     else:
         if len(indexes) == 0:
             return fail('format_arg requires a "%%s" in the format string, but got %r' % arg.format)
         elif len(indexes) > 1:
             return fail("Only one %%s can be used in a format string, but got %r" % arg.format)

         if arg.value == None:
             if iterate_over == None:
                 return fail("format_arg requires either a variable to format, or iterate_over must be provided. For example:" + _EXAMPLE)
             var = iterate_over
         else:
             var = arg.value.name

         index = indexes[0]
         return arg.format[:index] + "%{" + var + "}" + arg.format[index + 2:]

 def nested_args_provider(
         *,
         label,
         args = [],
         nested = [],
         files = depset([]),
         iterate_over = None,
         requires_not_none = None,
         requires_none = None,
         requires_true = None,
         requires_false = None,
         requires_equal = None,
         requires_equal_value = "",
         fail = fail):
     """Creates a validated NestedArgsInfo.

     Does not validate types, as you can't know the type of a variable until
     you have a cc_args wrapping it, because the outer layers can change that
     type using iterate_over.

     Args:
         label: (Label) The context we are currently evaluating in. Used for
           error messages.
         args: (List[str]) The command-line arguments to add.
         nested: (List[NestedArgsInfo]) command-line arguments to expand.
         files: (depset[File]) Files required for this set of command-line args.
         iterate_over: (Optional[str]) Variable to iterate over
         requires_not_none: (Optional[str]) If provided, this NestedArgsInfo will
           be ignored if the variable is None
         requires_none: (Optional[str]) If provided, this NestedArgsInfo will
           be ignored if the variable is not None
         requires_true: (Optional[str]) If provided, this NestedArgsInfo will
           be ignored if the variable is false
         requires_false: (Optional[str]) If provided, this NestedArgsInfo will
           be ignored if the variable is true
         requires_equal: (Optional[str]) If provided, this NestedArgsInfo will
           be ignored if the variable is not equal to requires_equal_value.
         requires_equal_value: (str) The value to compare the requires_equal
           variable with
         fail: A fail function. Use only for testing.
     Returns:
         NestedArgsInfo
     """
     if bool(args) == bool(nested):
         fail("Exactly one of args and nested must be provided")

     transitive_files = [ea.files for ea in nested]
     transitive_files.append(files)

     has_value = [attr for attr in [
         requires_not_none,
         requires_none,
         requires_true,
         requires_false,
         requires_equal,
     ] if attr != None]

     # We may want to reconsider this down the line, but it's easier to open up
     # an API than to lock down an API.
     if len(has_value) > 1:
         fail(REQUIRES_MUTUALLY_EXCLUSIVE_ERR)

     kwargs = {}
     requires_types = {}
     if nested:
         kwargs["flag_groups"] = [ea.legacy_flag_group for ea in nested]

     unwrap_options = []

     if iterate_over:
         kwargs["iterate_over"] = iterate_over

     if requires_not_none:
         kwargs["expand_if_available"] = requires_not_none
         requires_types.setdefault(requires_not_none, []).append(struct(
             msg = REQUIRES_NOT_NONE_ERR,
             valid_types = ["option"],
             after_option_unwrap = False,
         ))
         unwrap_options.append(requires_not_none)
     elif requires_none:
         kwargs["expand_if_not_available"] = requires_none
         requires_types.setdefault(requires_none, []).append(struct(
             msg = REQUIRES_NONE_ERR,
             valid_types = ["option"],
             after_option_unwrap = False,
         ))
     elif requires_true:
         kwargs["expand_if_true"] = requires_true
         requires_types.setdefault(requires_true, []).append(struct(
             msg = REQUIRES_TRUE_ERR,
             valid_types = ["bool"],
             after_option_unwrap = True,
         ))
         unwrap_options.append(requires_true)
     elif requires_false:
         kwargs["expand_if_false"] = requires_false
         requires_types.setdefault(requires_false, []).append(struct(
             msg = REQUIRES_FALSE_ERR,
             valid_types = ["bool"],
             after_option_unwrap = True,
         ))
         unwrap_options.append(requires_false)
     elif requires_equal:
         if not requires_equal_value:
             fail(REQUIRES_EQUAL_VALUE_ERR)
         kwargs["expand_if_equal"] = variable_with_value(
             name = requires_equal,
             value = requires_equal_value,
         )
         unwrap_options.append(requires_equal)
         requires_types.setdefault(requires_equal, []).append(struct(
             msg = REQUIRES_EQUAL_ERR,
             valid_types = ["string"],
             after_option_unwrap = True,
         ))

     for arg in args:
         if arg.format_type != "raw":
             var_name = arg.value.name if arg.value != None else iterate_over
             requires_types.setdefault(var_name, []).append(struct(
                 msg = FORMAT_ARGS_ERR,
                 valid_types = ["string", "file", "directory"],
                 after_option_unwrap = True,
             ))

     if args:
         kwargs["flags"] = [
             format_variable(arg, iterate_over = iterate_over, fail = fail)
             for arg in args
         ]

     return NestedArgsInfo(
         label = label,
         nested = nested,
         files = depset(transitive = transitive_files),
         iterate_over = iterate_over,
         unwrap_options = unwrap_options,
         requires_types = requires_types,
         legacy_flag_group = flag_group(**kwargs),
     )
	# 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.
	"""Helper functions for working with args."""

	load("@bazel_skylib//lib:structs.bzl", "structs")
	load("//cc:cc_toolchain_config_lib.bzl", "flag_group", "variable_with_value")
	load("//cc/toolchains:cc_toolchain_info.bzl", "NestedArgsInfo", "VariableInfo")
	load(":collect.bzl", "collect_files", "collect_provider")

	visibility([
	"//cc/toolchains",
	"//tests/rule_based_toolchain/...",
	])

	REQUIRES_MUTUALLY_EXCLUSIVE_ERR = "requires_none, requires_not_none, requires_true, requires_false, and requires_equal are mutually exclusive"
	REQUIRES_NOT_NONE_ERR = "requires_not_none only works on options"
	REQUIRES_NONE_ERR = "requires_none only works on options"
	REQUIRES_TRUE_ERR = "requires_true only works on bools"
	REQUIRES_FALSE_ERR = "requires_false only works on bools"
	REQUIRES_EQUAL_ERR = "requires_equal only works on strings"
	REQUIRES_EQUAL_VALUE_ERR = "When requires_equal is provided, you must also provide requires_equal_value to specify what it should be equal to"
	FORMAT_ARGS_ERR = "format_args can only format strings, files, or directories"

	_NOT_ESCAPED_FMT = "%% should always either of the form %%s, or escaped with %%%%. Instead, got %r"

	_EXAMPLE = """

	cc_args(
	...,
	args = [format_arg("--foo=%s", "//cc/toolchains/variables:foo")]
	)

	or

	cc_args(
	...,
	# If foo_list contains ["a", "b"], then this expands to ["--foo", "+a", "--foo", "+b"].
	args = ["--foo", format_arg("+%s")],
	iterate_over = "//toolchains/variables:foo_list",
	"""

	# @unsorted-dict-items.
	NESTED_ARGS_ATTRS = {
	"args": attr.string_list(
	doc = """json-encoded arguments to be added to the command-line.

	Usage:
	cc_args(
	...,
	args = ["--foo", format_arg("%s", "//cc/toolchains/variables:foo")]
	)

	This is equivalent to flag_group(flags = ["--foo", "%{foo}"])

	Mutually exclusive with nested.
	""",
	),
	"nested": attr.label_list(
	providers = [NestedArgsInfo],
	doc = """nested_args that should be added on the command-line.

	Mutually exclusive with args.""",
	),
	"data": attr.label_list(
	allow_files = True,
	doc = """Files required to add this argument to the command-line.

	For example, a flag that sets the header directory might add the headers in that
	directory as additional files.
	""",
	),
	"variables": attr.label_list(
	providers = [VariableInfo],
	doc = "Variables to be used in substitutions",
	),
	"iterate_over": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.iterate_over"),
	"requires_not_none": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.expand_if_available"),
	"requires_none": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.expand_if_not_available"),
	"requires_true": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.expand_if_true"),
	"requires_false": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.expand_if_false"),
	"requires_equal": attr.label(providers = [VariableInfo], doc = "Replacement for flag_group.expand_if_equal"),
	"requires_equal_value": attr.string(),
	}

	def args_wrapper_macro(, name, rule, args = [], *kwargs):
	"""Invokes a rule by converting args to attributes.

	Args:
	name: (str) The name of the target.
	rule: (rule) The rule to invoke. Either cc_args or cc_nested_args.
	args: (List[str\|Formatted]) A list of either strings, or function calls
	from format.bzl. For example:
	["--foo", format_arg("--sysroot=%s", "//cc/toolchains/variables:sysroot")]
	**kwargs: kwargs to pass through into the rule invocation.
	"""
	out_args = []
	vars = []
	if type(args) != "list":
	fail("Args must be a list in %s" % native.package_relative_label(name))
	for arg in args:
	if type(arg) == "string":
	out_args.append(raw_string(arg))
	elif getattr(arg, "format_type") == "format_arg":
	arg = structs.to_dict(arg)
	if arg["value"] == None:
	out_args.append(arg)
	else:
	var = arg.pop("value")

	# Swap the variable from a label to an index. This allows us to
	# actually get the providers in a rule.
	out_args.append(struct(value = len(vars), **arg))
	vars.append(var)
	else:
	fail("Invalid type of args in %s. Expected either a string or format_args(format_string, variable_label), got value %r" % (native.package_relative_label(name), arg))

	rule(
	name = name,
	args = [json.encode(arg) for arg in out_args],
	variables = vars,
	**kwargs
	)

	def _var(target):
	if target == None:
	return None
	return target[VariableInfo].name

	# TODO: Consider replacing this with a subrule in the future. However, maybe not
	# for a long time, since it'll break compatibility with all bazel versions < 7.
	def nested_args_provider_from_ctx(ctx):
	"""Gets the nested args provider from a rule that has NESTED_ARGS_ATTRS.

	Args:
	ctx: The rule context
	Returns:
	NestedArgsInfo
	"""
	variables = collect_provider(ctx.attr.variables, VariableInfo)
	args = []
	for arg in ctx.attr.args:
	arg = json.decode(arg)
	if "value" in arg:
	if arg["value"] != None:
	arg["value"] = variables[arg["value"]]
	args.append(struct(**arg))

	return nested_args_provider(
	label = ctx.label,
	args = args,
	nested = collect_provider(ctx.attr.nested, NestedArgsInfo),
	files = collect_files(ctx.attr.data),
	iterate_over = _var(ctx.attr.iterate_over),
	requires_not_none = _var(ctx.attr.requires_not_none),
	requires_none = _var(ctx.attr.requires_none),
	requires_true = _var(ctx.attr.requires_true),
	requires_false = _var(ctx.attr.requires_false),
	requires_equal = _var(ctx.attr.requires_equal),
	requires_equal_value = ctx.attr.requires_equal_value,
	)

	def raw_string(s):
	"""Constructs metadata for creating a raw string.

	Args:
	s: (str) The string to input.
	Returns:
	Metadata suitable for format_variable.
	"""
	return struct(format_type = "raw", format = s)

	def format_string_indexes(s, fail = fail):
	"""Gets the index of a '%s' in a string.

	Args:
	s: (str) The string
	fail: The fail function. Used for tests

	Returns:
	List[int] The indexes of the '%s' in the string
	"""
	indexes = []
	escaped = False
	for i in range(len(s)):
	if not escaped and s[i] == "%":
	escaped = True
	elif escaped:
	if s[i] == "{":
	fail('Using the old mechanism for variables, %%{variable}, but we instead use format_arg("--foo=%%s", "//cc/toolchains/variables:<variable>"). Got %r' % s)
	elif s[i] == "s":
	indexes.append(i - 1)
	elif s[i] != "%":
	fail(_NOT_ESCAPED_FMT % s)
	escaped = False
	if escaped:
	return fail(_NOT_ESCAPED_FMT % s)
	return indexes

	def format_variable(arg, iterate_over, fail = fail):
	"""Lists all of the variables referenced by an argument.

	Eg: referenced_variables([
	format_arg("--foo", None),
	format_arg("--bar=%s", ":bar")
	]) => ["--foo", "--bar=%{bar}"]

	Args:
	arg: [Formatted] The command-line arguments, as created by the format_arg function.
	iterate_over: (Optional[str]) The name of the variable we're iterating over.
	fail: The fail function. Used for tests

	Returns:
	A string defined to be compatible with flag groups.
	"""
	indexes = format_string_indexes(arg.format, fail = fail)
	if arg.format_type == "raw":
	if indexes:
	return fail("Can't use %s with a raw string. Either escape it with %%s or use format_arg, like the following examples:" + _EXAMPLE)
	return arg.format
	else:
	if len(indexes) == 0:
	return fail('format_arg requires a "%%s" in the format string, but got %r' % arg.format)
	elif len(indexes) > 1:
	return fail("Only one %%s can be used in a format string, but got %r" % arg.format)

	if arg.value == None:
	if iterate_over == None:
	return fail("format_arg requires either a variable to format, or iterate_over must be provided. For example:" + _EXAMPLE)
	var = iterate_over
	else:
	var = arg.value.name

	index = indexes[0]
	return arg.format[:index] + "%{" + var + "}" + arg.format[index + 2:]

	def nested_args_provider(
	*,
	label,
	args = [],
	nested = [],
	files = depset([]),
	iterate_over = None,
	requires_not_none = None,
	requires_none = None,
	requires_true = None,
	requires_false = None,
	requires_equal = None,
	requires_equal_value = "",
	fail = fail):
	"""Creates a validated NestedArgsInfo.

	Does not validate types, as you can't know the type of a variable until
	you have a cc_args wrapping it, because the outer layers can change that
	type using iterate_over.

	Args:
	label: (Label) The context we are currently evaluating in. Used for
	error messages.
	args: (List[str]) The command-line arguments to add.
	nested: (List[NestedArgsInfo]) command-line arguments to expand.
	files: (depset[File]) Files required for this set of command-line args.
	iterate_over: (Optional[str]) Variable to iterate over
	requires_not_none: (Optional[str]) If provided, this NestedArgsInfo will
	be ignored if the variable is None
	requires_none: (Optional[str]) If provided, this NestedArgsInfo will
	be ignored if the variable is not None
	requires_true: (Optional[str]) If provided, this NestedArgsInfo will
	be ignored if the variable is false
	requires_false: (Optional[str]) If provided, this NestedArgsInfo will
	be ignored if the variable is true
	requires_equal: (Optional[str]) If provided, this NestedArgsInfo will
	be ignored if the variable is not equal to requires_equal_value.
	requires_equal_value: (str) The value to compare the requires_equal
	variable with
	fail: A fail function. Use only for testing.
	Returns:
	NestedArgsInfo
	"""
	if bool(args) == bool(nested):
	fail("Exactly one of args and nested must be provided")

	transitive_files = [ea.files for ea in nested]
	transitive_files.append(files)

	has_value = [attr for attr in [
	requires_not_none,
	requires_none,
	requires_true,
	requires_false,
	requires_equal,
	] if attr != None]

	# We may want to reconsider this down the line, but it's easier to open up
	# an API than to lock down an API.
	if len(has_value) > 1:
	fail(REQUIRES_MUTUALLY_EXCLUSIVE_ERR)

	kwargs = {}
	requires_types = {}
	if nested:
	kwargs["flag_groups"] = [ea.legacy_flag_group for ea in nested]

	unwrap_options = []

	if iterate_over:
	kwargs["iterate_over"] = iterate_over

	if requires_not_none:
	kwargs["expand_if_available"] = requires_not_none
	requires_types.setdefault(requires_not_none, []).append(struct(
	msg = REQUIRES_NOT_NONE_ERR,
	valid_types = ["option"],
	after_option_unwrap = False,
	))
	unwrap_options.append(requires_not_none)
	elif requires_none:
	kwargs["expand_if_not_available"] = requires_none
	requires_types.setdefault(requires_none, []).append(struct(
	msg = REQUIRES_NONE_ERR,
	valid_types = ["option"],
	after_option_unwrap = False,
	))
	elif requires_true:
	kwargs["expand_if_true"] = requires_true
	requires_types.setdefault(requires_true, []).append(struct(
	msg = REQUIRES_TRUE_ERR,
	valid_types = ["bool"],
	after_option_unwrap = True,
	))
	unwrap_options.append(requires_true)
	elif requires_false:
	kwargs["expand_if_false"] = requires_false
	requires_types.setdefault(requires_false, []).append(struct(
	msg = REQUIRES_FALSE_ERR,
	valid_types = ["bool"],
	after_option_unwrap = True,
	))
	unwrap_options.append(requires_false)
	elif requires_equal:
	if not requires_equal_value:
	fail(REQUIRES_EQUAL_VALUE_ERR)
	kwargs["expand_if_equal"] = variable_with_value(
	name = requires_equal,
	value = requires_equal_value,
	)
	unwrap_options.append(requires_equal)
	requires_types.setdefault(requires_equal, []).append(struct(
	msg = REQUIRES_EQUAL_ERR,
	valid_types = ["string"],
	after_option_unwrap = True,
	))

	for arg in args:
	if arg.format_type != "raw":
	var_name = arg.value.name if arg.value != None else iterate_over
	requires_types.setdefault(var_name, []).append(struct(
	msg = FORMAT_ARGS_ERR,
	valid_types = ["string", "file", "directory"],
	after_option_unwrap = True,
	))

	if args:
	kwargs["flags"] = [
	format_variable(arg, iterate_over = iterate_over, fail = fail)
	for arg in args
	]

	return NestedArgsInfo(
	label = label,
	nested = nested,
	files = depset(transitive = transitive_files),
	iterate_over = iterate_over,
	unwrap_options = unwrap_options,
	requires_types = requires_types,
	legacy_flag_group = flag_group(**kwargs),
	)