tests/rule_based_toolchain/variables/variables_test.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.
 """Tests for variables rule."""

 load("//cc/toolchains:cc_toolchain_info.bzl", "ActionTypeInfo", "BuiltinVariablesInfo", "NestedArgsInfo", "VariableInfo")
 load("//cc/toolchains/impl:args_utils.bzl", _validate_nested_args = "validate_nested_args")
 load(
     "//cc/toolchains/impl:nested_args.bzl",
     "FORMAT_ARGS_ERR",
     "REQUIRES_TRUE_ERR",
 )
 load("//cc/toolchains/impl:variables.bzl", "types", _get_type = "get_type")
 load("//tests/rule_based_toolchain:subjects.bzl", "result_fn_wrapper", "subjects")

 visibility("private")

 get_type = result_fn_wrapper(_get_type)
 validate_nested_args = result_fn_wrapper(_validate_nested_args)

 _ARGS_LABEL = Label("//:args")
 _NESTED_LABEL = Label("//:nested_vars")

 def _type(target):
     return target[VariableInfo].type

 def _types_represent_correctly_test(env, targets):
     env.expect.that_str(_type(targets.str_list)["repr"]).equals("List[string]")
     env.expect.that_str(_type(targets.str_option)["repr"]).equals("Option[string]")
     env.expect.that_str(_type(targets.struct)["repr"]).equals("struct(nested_str=string, nested_str_list=List[string])")
     env.expect.that_str(_type(targets.struct_list)["repr"]).equals("List[struct(nested_str=string, nested_str_list=List[string])]")

 def _get_types_test(env, targets):
     c_compile = targets.c_compile[ActionTypeInfo]
     cpp_compile = targets.cpp_compile[ActionTypeInfo]
     variables = targets.variables[BuiltinVariablesInfo].variables

     def expect_type(key, overrides = {}, expr = None, actions = []):
         return env.expect.that_value(
             get_type(
                 variables = variables,
                 overrides = overrides,
                 args_label = _ARGS_LABEL,
                 nested_label = _NESTED_LABEL,
                 actions = actions,
                 name = key,
             ),
             # It's not a string, it's a complex recursive type, but string
             # supports .equals, which is all we care about.
             factory = subjects.result(subjects.str),
             expr = expr or key,
         )

     expect_type("unknown").err().contains(
         """The variable unknown does not exist. Did you mean one of the following?
 optional_list
 str
 str_list
 """,
     )

     expect_type("str").ok().equals(types.string)
     expect_type("str.invalid").err().equals("""Attempted to access "str.invalid", but "str" was not a struct - it had type string.""")

     expect_type("str_option").ok().equals(types.option(types.string))

     expect_type("str_list").ok().equals(types.list(types.string))

     expect_type("str_list.invalid").err().equals("""Attempted to access "str_list.invalid", but "str_list" was not a struct - it had type List[string].""")

     expect_type("struct").ok().equals(_type(targets.struct))

     expect_type("struct.nested_str_list").ok().equals(types.list(types.string))

     expect_type("struct_list").ok().equals(_type(targets.struct_list))

     expect_type("struct_list.nested_str_list").err().equals("""Attempted to access "struct_list.nested_str_list", but "struct_list" was not a struct - it had type List[struct(nested_str=string, nested_str_list=List[string])]. Maybe you meant to use iterate_over.""")

     expect_type("struct.unknown").err().equals("""Unable to find "unknown" in "struct", which had the following attributes:
 nested_str: string
 nested_str_list: List[string]""")

     expect_type("struct", actions = [c_compile]).ok()
     expect_type("struct", actions = [c_compile, cpp_compile]).err().equals(
         "The variable %s is inaccessible from the action %s. This is required because it is referenced in %s, which is included by %s, which references that action" % (targets.struct.label, cpp_compile.label, _NESTED_LABEL, _ARGS_LABEL),
     )

     expect_type("struct.nested_str_list", actions = [c_compile]).ok()
     expect_type("struct.nested_str_list", actions = [c_compile, cpp_compile]).err()

     # Simulate someone doing iterate_over = struct_list.
     expect_type(
         "struct_list",
         overrides = {"struct_list": _type(targets.struct)},
         expr = "struct_list_override",
     ).ok().equals(_type(targets.struct))

     expect_type(
         "struct_list.nested_str_list",
         overrides = {"struct_list": _type(targets.struct)},
     ).ok().equals(types.list(types.string))

     expect_type(
         "struct_list.nested_str_list",
         overrides = {
             "struct_list": _type(targets.struct),
             "struct_list.nested_str_list": types.string,
         },
     ).ok().equals(types.string)

 def _variable_validation_test(env, targets):
     c_compile = targets.c_compile[ActionTypeInfo]
     cpp_compile = targets.cpp_compile[ActionTypeInfo]
     variables = targets.variables[BuiltinVariablesInfo].variables

     def _expect_validated(target, expr = None, actions = []):
         return env.expect.that_value(
             validate_nested_args(
                 nested_args = target[NestedArgsInfo],
                 variables = variables,
                 actions = actions,
                 label = _ARGS_LABEL,
             ),
             expr = expr,
             # Type is Result[None]
             factory = subjects.result(subjects.unknown),
         )

     _expect_validated(targets.simple_str, expr = "simple_str").ok()
     _expect_validated(targets.list_not_allowed).err().equals(
         FORMAT_ARGS_ERR + ", but str_list has type List[string]",
     )
     _expect_validated(targets.iterate_over_list, expr = "iterate_over_list").ok()
     _expect_validated(targets.iterate_over_non_list, expr = "iterate_over_non_list").err().equals(
         "Attempting to iterate over str, but it was not a list - it was a string",
     )
     _expect_validated(targets.str_not_a_bool, expr = "str_not_a_bool").err().equals(
         REQUIRES_TRUE_ERR + ", but str has type string",
     )
     _expect_validated(targets.str_equal, expr = "str_equal").ok()
     _expect_validated(targets.inner_iter, expr = "inner_iter_standalone").err().equals(
         'Attempted to access "struct_list.nested_str_list", but "struct_list" was not a struct - it had type List[struct(nested_str=string, nested_str_list=List[string])]. Maybe you meant to use iterate_over.',
     )

     _expect_validated(targets.outer_iter, actions = [c_compile], expr = "outer_iter_valid_action").ok()
     _expect_validated(targets.outer_iter, actions = [c_compile, cpp_compile], expr = "outer_iter_missing_action").err().equals(
         "The variable %s is inaccessible from the action %s. This is required because it is referenced in %s, which is included by %s, which references that action" % (targets.struct_list.label, cpp_compile.label, targets.outer_iter.label, _ARGS_LABEL),
     )

     _expect_validated(targets.bad_outer_iter, expr = "bad_outer_iter").err().equals(
         FORMAT_ARGS_ERR + ", but struct_list.nested_str_list has type List[string]",
     )

     _expect_validated(targets.optional_list_iter, expr = "optional_list_iter").ok()

     _expect_validated(targets.bad_nested_optional, expr = "bad_nested_optional").err().equals(
         FORMAT_ARGS_ERR + ", but str_option has type Option[string]",
     )
     _expect_validated(targets.good_nested_optional, expr = "good_nested_optional").ok()

 TARGETS = [
     "//tests/rule_based_toolchain/actions:c_compile",
     "//tests/rule_based_toolchain/actions:cpp_compile",
     ":bad_nested_optional",
     ":bad_outer_iter",
     ":good_nested_optional",
     ":inner_iter",
     ":iterate_over_list",
     ":iterate_over_non_list",
     ":list_not_allowed",
     ":nested_str_list",
     ":optional_list_iter",
     ":outer_iter",
     ":simple_str",
     ":str",
     ":str_equal",
     ":str_list",
     ":str_not_a_bool",
     ":str_option",
     ":struct",
     ":struct_list",
     ":variables",
 ]

 # @unsorted-dict-items
 TESTS = {
     "types_represent_correctly_test": _types_represent_correctly_test,
     "get_types_test": _get_types_test,
     "variable_validation_test": _variable_validation_test,
 }
	# 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.
	"""Tests for variables rule."""

	load("//cc/toolchains:cc_toolchain_info.bzl", "ActionTypeInfo", "BuiltinVariablesInfo", "NestedArgsInfo", "VariableInfo")
	load("//cc/toolchains/impl:args_utils.bzl", _validate_nested_args = "validate_nested_args")
	load(
	"//cc/toolchains/impl:nested_args.bzl",
	"FORMAT_ARGS_ERR",
	"REQUIRES_TRUE_ERR",
	)
	load("//cc/toolchains/impl:variables.bzl", "types", _get_type = "get_type")
	load("//tests/rule_based_toolchain:subjects.bzl", "result_fn_wrapper", "subjects")

	visibility("private")

	get_type = result_fn_wrapper(_get_type)
	validate_nested_args = result_fn_wrapper(_validate_nested_args)

	_ARGS_LABEL = Label("//:args")
	_NESTED_LABEL = Label("//:nested_vars")

	def _type(target):
	return target[VariableInfo].type

	def _types_represent_correctly_test(env, targets):
	env.expect.that_str(_type(targets.str_list)["repr"]).equals("List[string]")
	env.expect.that_str(_type(targets.str_option)["repr"]).equals("Option[string]")
	env.expect.that_str(_type(targets.struct)["repr"]).equals("struct(nested_str=string, nested_str_list=List[string])")
	env.expect.that_str(_type(targets.struct_list)["repr"]).equals("List[struct(nested_str=string, nested_str_list=List[string])]")

	def _get_types_test(env, targets):
	c_compile = targets.c_compile[ActionTypeInfo]
	cpp_compile = targets.cpp_compile[ActionTypeInfo]
	variables = targets.variables[BuiltinVariablesInfo].variables

	def expect_type(key, overrides = {}, expr = None, actions = []):
	return env.expect.that_value(
	get_type(
	variables = variables,
	overrides = overrides,
	args_label = _ARGS_LABEL,
	nested_label = _NESTED_LABEL,
	actions = actions,
	name = key,
	),
	# It's not a string, it's a complex recursive type, but string
	# supports .equals, which is all we care about.
	factory = subjects.result(subjects.str),
	expr = expr or key,
	)

	expect_type("unknown").err().contains(
	"""The variable unknown does not exist. Did you mean one of the following?
	optional_list
	str
	str_list
	""",
	)

	expect_type("str").ok().equals(types.string)
	expect_type("str.invalid").err().equals("""Attempted to access "str.invalid", but "str" was not a struct - it had type string.""")

	expect_type("str_option").ok().equals(types.option(types.string))

	expect_type("str_list").ok().equals(types.list(types.string))

	expect_type("str_list.invalid").err().equals("""Attempted to access "str_list.invalid", but "str_list" was not a struct - it had type List[string].""")

	expect_type("struct").ok().equals(_type(targets.struct))

	expect_type("struct.nested_str_list").ok().equals(types.list(types.string))

	expect_type("struct_list").ok().equals(_type(targets.struct_list))

	expect_type("struct_list.nested_str_list").err().equals("""Attempted to access "struct_list.nested_str_list", but "struct_list" was not a struct - it had type List[struct(nested_str=string, nested_str_list=List[string])]. Maybe you meant to use iterate_over.""")

	expect_type("struct.unknown").err().equals("""Unable to find "unknown" in "struct", which had the following attributes:
	nested_str: string
	nested_str_list: List[string]""")

	expect_type("struct", actions = [c_compile]).ok()
	expect_type("struct", actions = [c_compile, cpp_compile]).err().equals(
	"The variable %s is inaccessible from the action %s. This is required because it is referenced in %s, which is included by %s, which references that action" % (targets.struct.label, cpp_compile.label, _NESTED_LABEL, _ARGS_LABEL),
	)

	expect_type("struct.nested_str_list", actions = [c_compile]).ok()
	expect_type("struct.nested_str_list", actions = [c_compile, cpp_compile]).err()

	# Simulate someone doing iterate_over = struct_list.
	expect_type(
	"struct_list",
	overrides = {"struct_list": _type(targets.struct)},
	expr = "struct_list_override",
	).ok().equals(_type(targets.struct))

	expect_type(
	"struct_list.nested_str_list",
	overrides = {"struct_list": _type(targets.struct)},
	).ok().equals(types.list(types.string))

	expect_type(
	"struct_list.nested_str_list",
	overrides = {
	"struct_list": _type(targets.struct),
	"struct_list.nested_str_list": types.string,
	},
	).ok().equals(types.string)

	def _variable_validation_test(env, targets):
	c_compile = targets.c_compile[ActionTypeInfo]
	cpp_compile = targets.cpp_compile[ActionTypeInfo]
	variables = targets.variables[BuiltinVariablesInfo].variables

	def _expect_validated(target, expr = None, actions = []):
	return env.expect.that_value(
	validate_nested_args(
	nested_args = target[NestedArgsInfo],
	variables = variables,
	actions = actions,
	label = _ARGS_LABEL,
	),
	expr = expr,
	# Type is Result[None]
	factory = subjects.result(subjects.unknown),
	)

	_expect_validated(targets.simple_str, expr = "simple_str").ok()
	_expect_validated(targets.list_not_allowed).err().equals(
	FORMAT_ARGS_ERR + ", but str_list has type List[string]",
	)
	_expect_validated(targets.iterate_over_list, expr = "iterate_over_list").ok()
	_expect_validated(targets.iterate_over_non_list, expr = "iterate_over_non_list").err().equals(
	"Attempting to iterate over str, but it was not a list - it was a string",
	)
	_expect_validated(targets.str_not_a_bool, expr = "str_not_a_bool").err().equals(
	REQUIRES_TRUE_ERR + ", but str has type string",
	)
	_expect_validated(targets.str_equal, expr = "str_equal").ok()
	_expect_validated(targets.inner_iter, expr = "inner_iter_standalone").err().equals(
	'Attempted to access "struct_list.nested_str_list", but "struct_list" was not a struct - it had type List[struct(nested_str=string, nested_str_list=List[string])]. Maybe you meant to use iterate_over.',
	)

	_expect_validated(targets.outer_iter, actions = [c_compile], expr = "outer_iter_valid_action").ok()
	_expect_validated(targets.outer_iter, actions = [c_compile, cpp_compile], expr = "outer_iter_missing_action").err().equals(
	"The variable %s is inaccessible from the action %s. This is required because it is referenced in %s, which is included by %s, which references that action" % (targets.struct_list.label, cpp_compile.label, targets.outer_iter.label, _ARGS_LABEL),
	)

	_expect_validated(targets.bad_outer_iter, expr = "bad_outer_iter").err().equals(
	FORMAT_ARGS_ERR + ", but struct_list.nested_str_list has type List[string]",
	)

	_expect_validated(targets.optional_list_iter, expr = "optional_list_iter").ok()

	_expect_validated(targets.bad_nested_optional, expr = "bad_nested_optional").err().equals(
	FORMAT_ARGS_ERR + ", but str_option has type Option[string]",
	)
	_expect_validated(targets.good_nested_optional, expr = "good_nested_optional").ok()

	TARGETS = [
	"//tests/rule_based_toolchain/actions:c_compile",
	"//tests/rule_based_toolchain/actions:cpp_compile",
	":bad_nested_optional",
	":bad_outer_iter",
	":good_nested_optional",
	":inner_iter",
	":iterate_over_list",
	":iterate_over_non_list",
	":list_not_allowed",
	":nested_str_list",
	":optional_list_iter",
	":outer_iter",
	":simple_str",
	":str",
	":str_equal",
	":str_list",
	":str_not_a_bool",
	":str_option",
	":struct",
	":struct_list",
	":variables",
	]

	# @unsorted-dict-items
	TESTS = {
	"types_represent_correctly_test": _types_represent_correctly_test,
	"get_types_test": _get_types_test,
	"variable_validation_test": _variable_validation_test,
	}