tests/test_register_constructor.py - platform/external/google-fruit - Git at Google

 #!/usr/bin/env python3
 #  Copyright 2016 Google Inc. 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.
 import pytest

 from fruit_test_common import *

 COMMON_DEFINITIONS = '''
     #include "test_common.h"

     struct X;

     struct Annotation1 {};
     using XAnnot = fruit::Annotated<Annotation1, X>;

     struct Annotation2 {};

     struct Annotation3 {};

     template <typename T>
     using WithNoAnnotation = T;

     template <typename T>
     using WithAnnotation1 = fruit::Annotated<Annotation1, T>;
     '''

 def test_register_constructor_success_copyable_and_movable():
     source = '''
         struct X {
           INJECT(X()) = default;
           X(X&&) = default;
           X(const X&) = default;
         };

         fruit::Component<X> getComponent() {
           return fruit::createComponent();
         }

         int main() {
           fruit::Injector<X> injector(getComponent);
           injector.get<X*>();
         }
         '''
     expect_success(
         COMMON_DEFINITIONS,
         source)

 def test_register_constructor_success_movable_only():
     source = '''
         struct X {
           INJECT(X()) = default;
           X(X&&) = default;
           X(const X&) = delete;
         };

         fruit::Component<X> getComponent() {
           return fruit::createComponent();
         }

         int main() {
           fruit::Injector<X> injector(getComponent);
           injector.get<X*>();
         }
         '''
     expect_success(
         COMMON_DEFINITIONS,
         source)

 def test_register_constructor_success_not_movable():
     source = '''
         struct X {
           INJECT(X()) = default;
           X(X&&) = delete;
           X(const X&) = delete;
         };

         fruit::Component<X> getComponent() {
           return fruit::createComponent();
         }

         int main() {
           fruit::Injector<X> injector(getComponent);
           injector.get<X*>();
         }
         '''
     expect_success(
         COMMON_DEFINITIONS,
         source)

 # TODO: consider moving to test_normalized_component.py
 @pytest.mark.parametrize('XAnnot,YAnnot,MaybeConstYAnnot,ZAnnot', [
     ('X', 'Y', 'Y', 'Z'),
     ('X', 'Y', 'const Y', 'Z'),
     ('fruit::Annotated<Annotation1, X>', 'fruit::Annotated<Annotation2, Y>', 'fruit::Annotated<Annotation2, const Y>', 'fruit::Annotated<Annotation3, Z>'),
 ])
 def test_autoinject_with_annotation_success(XAnnot, YAnnot, MaybeConstYAnnot, ZAnnot):
     source = '''
         struct X {
           using Inject = X();
         };

         struct Y : public ConstructionTracker<Y> {
           using Inject = Y();
         };

         struct Z {
           using Inject = Z();
         };

         fruit::Component<ZAnnot, MaybeConstYAnnot, XAnnot> getComponent() {
           return fruit::createComponent();
         }

         fruit::Component<> getEmptyComponent() {
           return fruit::createComponent();
         }

         int main() {
           fruit::NormalizedComponent<> normalizedComponent(getEmptyComponent);
           fruit::Injector<MaybeConstYAnnot> injector(normalizedComponent, getComponent);

           Assert(Y::num_objects_constructed == 0);
           injector.get<YAnnot>();
           Assert(Y::num_objects_constructed == 1);
         }
         '''
     expect_success(
         COMMON_DEFINITIONS,
         source,
         locals())

 def test_autoinject_annotation_in_signature_return_type():
     source = '''
         struct X {
           using Inject = XAnnot();
         };

         fruit::Component<XAnnot> getComponent() {
           return fruit::createComponent();
         }
         '''
     expect_compile_error(
         'InjectTypedefWithAnnotationError<X>',
         'C::Inject is a signature that returns an annotated type',
         COMMON_DEFINITIONS,
         source)

 def test_autoinject_wrong_class_in_typedef():
     source = '''
         struct X {
           using Inject = X();
         };

         struct Y : public X {
         };

         fruit::Component<Y> getComponent() {
           return fruit::createComponent();
         }
         '''
     expect_compile_error(
         'InjectTypedefForWrongClassError<Y,X>',
         'C::Inject is a signature, but does not return a C. Maybe the class C has no Inject typedef and',
         COMMON_DEFINITIONS,
         source)

 def test_register_constructor_error_abstract_class():
     source = '''
         struct X {
           X(int*) {}

           virtual void foo() = 0;
         };

         fruit::Component<X> getComponent() {
           return fruit::createComponent()
             .registerConstructor<fruit::Annotated<Annotation1, X>(int*)>();
         }
         '''
     if re.search('GNU|MSVC', CXX_COMPILER_NAME) is not None:
         expect_generic_compile_error(
             'invalid abstract return type'
             '|.X.: cannot instantiate abstract class',
             COMMON_DEFINITIONS,
             source)
     else:
         expect_compile_error(
             'CannotConstructAbstractClassError<X>',
             'The specified class can.t be constructed because it.s an abstract class',
             COMMON_DEFINITIONS,
             source)

 def test_register_constructor_error_malformed_signature():
     source = '''
         struct X {
           X(int) {}
         };

         fruit::Component<X> getComponent() {
           return fruit::createComponent()
             .registerConstructor<X[]>();
         }
         '''
     expect_compile_error(
         'NotASignatureError<X\[\]>',
         'CandidateSignature was specified as parameter, but it.s not a signature. Signatures are of the form',
         COMMON_DEFINITIONS,
         source)

 def test_register_constructor_error_malformed_signature_autoinject():
     source = '''
         struct X {
           using Inject = X[];
           X(int) {}
         };

         fruit::Component<X> getComponent() {
           return fruit::createComponent();
         }
         '''
     expect_compile_error(
         'InjectTypedefNotASignatureError<X,X\[\]>',
         'C::Inject should be a typedef to a signature',
         COMMON_DEFINITIONS,
         source)

 @pytest.mark.parametrize('charPtrAnnot', [
     'char*',
     'fruit::Annotated<Annotation1, char*>',
 ])
 def test_register_constructor_does_not_exist_error(charPtrAnnot):
     source = '''
         struct X {
           X(int*) {}
         };

         fruit::Component<X> getComponent() {
           return fruit::createComponent()
             .registerConstructor<X(charPtrAnnot)>();
         }
         '''
     expect_compile_error(
         'NoConstructorMatchingInjectSignatureError<X,X\(char\*\)>',
         'contains an Inject typedef but it.s not constructible with the specified types',
         COMMON_DEFINITIONS,
         source,
         locals())

 @pytest.mark.parametrize('charPtrAnnot', [
     'char*',
     'fruit::Annotated<Annotation1, char*>',
 ])
 def test_autoinject_constructor_does_not_exist_error(charPtrAnnot):
     source = '''
         struct X {
           using Inject = X(charPtrAnnot);
           X(int*) {}
         };

         fruit::Component<X> getComponent() {
           return fruit::createComponent();
         }
         '''
     expect_compile_error(
         'NoConstructorMatchingInjectSignatureError<X,X\(char\*\)>',
         'contains an Inject typedef but it.s not constructible with the specified types',
         COMMON_DEFINITIONS,
         source,
         locals())

 def test_autoinject_abstract_class_error():
     source = '''
         struct X {
           using Inject = fruit::Annotated<Annotation1, X>();

           virtual void scale() = 0;
           // Note: here we "forgot" to implement scale() (on purpose, for this test) so X is an abstract class.
         };

         fruit::Component<fruit::Annotated<Annotation1, X>> getComponent() {
           return fruit::createComponent();
         }
         '''
     expect_compile_error(
         'CannotConstructAbstractClassError<X>',
         'The specified class can.t be constructed because it.s an abstract class.',
         COMMON_DEFINITIONS,
         source)

 @pytest.mark.parametrize('WithAnnotation', [
     'WithNoAnnotation',
     'WithAnnotation1',
 ])
 @pytest.mark.parametrize('YVariant', [
     'Y',
     'const Y',
     'Y*',
     'const Y*',
     'Y&',
     'const Y&',
     'std::shared_ptr<Y>',
     'fruit::Provider<Y>',
     'fruit::Provider<const Y>',
 ])
 def test_register_constructor_with_param_success(WithAnnotation, YVariant):
     source = '''
         struct Y {};
         struct X {
           X(YVariant) {
           }
         };

         fruit::Component<WithAnnotation<Y>> getYComponent() {
           return fruit::createComponent()
             .registerConstructor<WithAnnotation<Y>()>();
         }

         fruit::Component<X> getComponent() {
           return fruit::createComponent()
             .install(getYComponent)
             .registerConstructor<X(WithAnnotation<YVariant>)>();
         }

         int main() {
           fruit::Injector<X> injector(getComponent);
           injector.get<X>();
         }
         '''
     expect_success(
         COMMON_DEFINITIONS,
         source,
         locals())

 @pytest.mark.parametrize('WithAnnotation', [
     'WithNoAnnotation',
     'WithAnnotation1',
 ])
 @pytest.mark.parametrize('YVariant', [
     'Y',
     'const Y',
     'const Y*',
     'const Y&',
     'fruit::Provider<const Y>',
 ])
 def test_register_constructor_with_param_const_binding_success(WithAnnotation, YVariant):
     source = '''
         struct Y {};
         struct X {
           X(YVariant) {
           }
         };

         const Y y{};

         fruit::Component<WithAnnotation<const Y>> getYComponent() {
           return fruit::createComponent()
             .bindInstance<WithAnnotation<Y>, Y>(y);
         }

         fruit::Component<X> getComponent() {
           return fruit::createComponent()
             .install(getYComponent)
             .registerConstructor<X(WithAnnotation<YVariant>)>();
         }

         int main() {
           fruit::Injector<X> injector(getComponent);
           injector.get<X>();
         }
         '''
     expect_success(
         COMMON_DEFINITIONS,
         source,
         locals())

 @pytest.mark.parametrize('WithAnnotation,YAnnotRegex', [
     ('WithNoAnnotation', 'Y'),
     ('WithAnnotation1', 'fruit::Annotated<Annotation1,Y>'),
 ])
 @pytest.mark.parametrize('YVariant', [
     'Y*',
     'Y&',
     'std::shared_ptr<Y>',
     'fruit::Provider<Y>',
 ])
 def test_register_constructor_with_param_error_nonconst_param_required(WithAnnotation, YAnnotRegex, YVariant):
     source = '''
         struct Y {};
         struct X {
           X(YVariant);
         };

         fruit::Component<WithAnnotation<const Y>> getYComponent();

         fruit::Component<> getComponent() {
           return fruit::createComponent()
             .install(getYComponent)
             .registerConstructor<X(WithAnnotation<YVariant>)>();
         }
         '''
     expect_compile_error(
         'NonConstBindingRequiredButConstBindingProvidedError<YAnnotRegex>',
         'The type T was provided as constant, however one of the constructors/providers/factories in this component',
         COMMON_DEFINITIONS,
         source,
         locals())

 @pytest.mark.parametrize('WithAnnotation,YAnnotRegex', [
     ('WithNoAnnotation', 'Y'),
     ('WithAnnotation1', 'fruit::Annotated<Annotation1, Y>'),
 ])
 @pytest.mark.parametrize('YVariant', [
     'Y*',
     'Y&',
     'std::shared_ptr<Y>',
     'fruit::Provider<Y>',
 ])
 def test_register_constructor_with_param_error_nonconst_param_required_install_after(WithAnnotation, YAnnotRegex, YVariant):
     source = '''
         struct Y {};
         struct X {
           X(YVariant);
         };

         fruit::Component<WithAnnotation<const Y>> getYComponent();

         fruit::Component<> getComponent() {
           return fruit::createComponent()
             .registerConstructor<X(WithAnnotation<YVariant>)>()
             .install(getYComponent);
         }
         '''
     expect_compile_error(
         'NonConstBindingRequiredButConstBindingProvidedError<YAnnotRegex>',
         'The type T was provided as constant, however one of the constructors/providers/factories in this component',
         COMMON_DEFINITIONS,
         source,
         locals())

 def test_register_constructor_requiring_nonconst_then_requiring_const_ok():
     source = '''
         struct X {};

         struct Y {
           Y(X&) {}
         };

         struct Z {
           Z(const X&) {}
         };

         fruit::Component<Y, Z> getRootComponent() {
           return fruit::createComponent()
             .registerConstructor<Y(X&)>()
             .registerConstructor<Z(const X&)>()
             .registerConstructor<X()>();
         }

         int main() {
           fruit::Injector<Y, Z> injector(getRootComponent);
           injector.get<Y>();
           injector.get<Z>();
         }
         '''
     expect_success(
         COMMON_DEFINITIONS,
         source,
         locals())

 def test_register_constructor_requiring_nonconst_then_requiring_const_declaring_const_requirement_error():
     source = '''
         struct X {};

         struct Y {
           Y(X&) {}
         };

         struct Z {
           Z(const X&) {}
         };

         fruit::Component<fruit::Required<const X>, Y, Z> getRootComponent() {
           return fruit::createComponent()
             .registerConstructor<Y(X&)>()
             .registerConstructor<Z(const X&)>();
         }
         '''
     expect_compile_error(
         'ConstBindingDeclaredAsRequiredButNonConstBindingRequiredError<X>',
         'The type T was declared as a const Required type in the returned Component, however',
         COMMON_DEFINITIONS,
         source,
         locals())

 def test_register_constructor_requiring_const_then_requiring_nonconst_ok():
     source = '''
         struct X {};

         struct Y {
           Y(const X&) {}
         };

         struct Z {
           Z(X&) {}
         };

         fruit::Component<Y, Z> getRootComponent() {
           return fruit::createComponent()
             .registerConstructor<Y(const X&)>()
             .registerConstructor<Z(X&)>()
             .registerConstructor<X()>();
         }

         int main() {
           fruit::Injector<Y, Z> injector(getRootComponent);
           injector.get<Y>();
           injector.get<Z>();
         }
         '''
     expect_success(
         COMMON_DEFINITIONS,
         source,
         locals())

 def test_register_constructor_requiring_const_then_requiring_nonconst_declaring_const_requirement_error():
     source = '''
         struct X {};

         struct Y {
           Y(const X&) {}
         };

         struct Z {
           Z(X&) {}
         };

         fruit::Component<fruit::Required<const X>, Y, Z> getRootComponent() {
           return fruit::createComponent()
             .registerConstructor<Y(const X&)>()
             .registerConstructor<Z(X&)>();
         }
         '''
     expect_compile_error(
         'ConstBindingDeclaredAsRequiredButNonConstBindingRequiredError<X>',
         'The type T was declared as a const Required type in the returned Component, however',
         COMMON_DEFINITIONS,
         source,
         locals())

 @pytest.mark.parametrize('YVariant,YVariantRegex', [
     ('Y**', r'Y\*\*'),
     ('std::shared_ptr<Y>*', r'std::shared_ptr<Y>\*'),
     ('std::nullptr_t', r'(std::)?nullptr(_t)?'),
     ('Y*&', r'Y\*&'),
     ('Y(*)()', r'Y(\((__cdecl)?\*\))?\((void)?\)'),
     ('fruit::Annotated<Annotation1, Y**>', r'Y\*\*'),
 ])
 def test_register_constructor_with_param_error_type_not_injectable(YVariant, YVariantRegex):
     source = '''
         struct Y {};
         struct X {
           X(YVariant);
         };

         fruit::Component<> getComponent() {
           return fruit::createComponent()
             .registerConstructor<X(YVariant)>();
         }
         '''
     expect_compile_error(
         'NonInjectableTypeError<YVariantRegex>',
         'The type T is not injectable.',
         COMMON_DEFINITIONS,
         source,
         locals())


 if __name__== '__main__':
     main(__file__)
	#!/usr/bin/env python3
	# Copyright 2016 Google Inc. 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.
	import pytest

	from fruit_test_common import *

	COMMON_DEFINITIONS = '''
	#include "test_common.h"

	struct X;

	struct Annotation1 {};
	using XAnnot = fruit::Annotated<Annotation1, X>;

	struct Annotation2 {};

	struct Annotation3 {};

	template <typename T>
	using WithNoAnnotation = T;

	template <typename T>
	using WithAnnotation1 = fruit::Annotated<Annotation1, T>;
	'''

	def test_register_constructor_success_copyable_and_movable():
	source = '''
	struct X {
	INJECT(X()) = default;
	X(X&&) = default;
	X(const X&) = default;
	};

	fruit::Component<X> getComponent() {
	return fruit::createComponent();
	}

	int main() {
	fruit::Injector<X> injector(getComponent);
	injector.get<X*>();
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source)

	def test_register_constructor_success_movable_only():
	source = '''
	struct X {
	INJECT(X()) = default;
	X(X&&) = default;
	X(const X&) = delete;
	};

	fruit::Component<X> getComponent() {
	return fruit::createComponent();
	}

	int main() {
	fruit::Injector<X> injector(getComponent);
	injector.get<X*>();
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source)

	def test_register_constructor_success_not_movable():
	source = '''
	struct X {
	INJECT(X()) = default;
	X(X&&) = delete;
	X(const X&) = delete;
	};

	fruit::Component<X> getComponent() {
	return fruit::createComponent();
	}

	int main() {
	fruit::Injector<X> injector(getComponent);
	injector.get<X*>();
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source)

	# TODO: consider moving to test_normalized_component.py
	@pytest.mark.parametrize('XAnnot,YAnnot,MaybeConstYAnnot,ZAnnot', [
	('X', 'Y', 'Y', 'Z'),
	('X', 'Y', 'const Y', 'Z'),
	('fruit::Annotated<Annotation1, X>', 'fruit::Annotated<Annotation2, Y>', 'fruit::Annotated<Annotation2, const Y>', 'fruit::Annotated<Annotation3, Z>'),
	])
	def test_autoinject_with_annotation_success(XAnnot, YAnnot, MaybeConstYAnnot, ZAnnot):
	source = '''
	struct X {
	using Inject = X();
	};

	struct Y : public ConstructionTracker<Y> {
	using Inject = Y();
	};

	struct Z {
	using Inject = Z();
	};

	fruit::Component<ZAnnot, MaybeConstYAnnot, XAnnot> getComponent() {
	return fruit::createComponent();
	}

	fruit::Component<> getEmptyComponent() {
	return fruit::createComponent();
	}

	int main() {
	fruit::NormalizedComponent<> normalizedComponent(getEmptyComponent);
	fruit::Injector<MaybeConstYAnnot> injector(normalizedComponent, getComponent);

	Assert(Y::num_objects_constructed == 0);
	injector.get<YAnnot>();
	Assert(Y::num_objects_constructed == 1);
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_autoinject_annotation_in_signature_return_type():
	source = '''
	struct X {
	using Inject = XAnnot();
	};

	fruit::Component<XAnnot> getComponent() {
	return fruit::createComponent();
	}
	'''
	expect_compile_error(
	'InjectTypedefWithAnnotationError<X>',
	'C::Inject is a signature that returns an annotated type',
	COMMON_DEFINITIONS,
	source)

	def test_autoinject_wrong_class_in_typedef():
	source = '''
	struct X {
	using Inject = X();
	};

	struct Y : public X {
	};

	fruit::Component<Y> getComponent() {
	return fruit::createComponent();
	}
	'''
	expect_compile_error(
	'InjectTypedefForWrongClassError<Y,X>',
	'C::Inject is a signature, but does not return a C. Maybe the class C has no Inject typedef and',
	COMMON_DEFINITIONS,
	source)

	def test_register_constructor_error_abstract_class():
	source = '''
	struct X {
	X(int*) {}

	virtual void foo() = 0;
	};

	fruit::Component<X> getComponent() {
	return fruit::createComponent()
	.registerConstructor<fruit::Annotated<Annotation1, X>(int*)>();
	}
	'''
	if re.search('GNU\|MSVC', CXX_COMPILER_NAME) is not None:
	expect_generic_compile_error(
	'invalid abstract return type'
	'\|.X.: cannot instantiate abstract class',
	COMMON_DEFINITIONS,
	source)
	else:
	expect_compile_error(
	'CannotConstructAbstractClassError<X>',
	'The specified class can.t be constructed because it.s an abstract class',
	COMMON_DEFINITIONS,
	source)

	def test_register_constructor_error_malformed_signature():
	source = '''
	struct X {
	X(int) {}
	};

	fruit::Component<X> getComponent() {
	return fruit::createComponent()
	.registerConstructor<X[]>();
	}
	'''
	expect_compile_error(
	'NotASignatureError<X\[\]>',
	'CandidateSignature was specified as parameter, but it.s not a signature. Signatures are of the form',
	COMMON_DEFINITIONS,
	source)

	def test_register_constructor_error_malformed_signature_autoinject():
	source = '''
	struct X {
	using Inject = X[];
	X(int) {}
	};

	fruit::Component<X> getComponent() {
	return fruit::createComponent();
	}
	'''
	expect_compile_error(
	'InjectTypedefNotASignatureError<X,X\[\]>',
	'C::Inject should be a typedef to a signature',
	COMMON_DEFINITIONS,
	source)

	@pytest.mark.parametrize('charPtrAnnot', [
	'char*',
	'fruit::Annotated<Annotation1, char*>',
	])
	def test_register_constructor_does_not_exist_error(charPtrAnnot):
	source = '''
	struct X {
	X(int*) {}
	};

	fruit::Component<X> getComponent() {
	return fruit::createComponent()
	.registerConstructor<X(charPtrAnnot)>();
	}
	'''
	expect_compile_error(
	'NoConstructorMatchingInjectSignatureError<X,X\(char\*\)>',
	'contains an Inject typedef but it.s not constructible with the specified types',
	COMMON_DEFINITIONS,
	source,
	locals())

	@pytest.mark.parametrize('charPtrAnnot', [
	'char*',
	'fruit::Annotated<Annotation1, char*>',
	])
	def test_autoinject_constructor_does_not_exist_error(charPtrAnnot):
	source = '''
	struct X {
	using Inject = X(charPtrAnnot);
	X(int*) {}
	};

	fruit::Component<X> getComponent() {
	return fruit::createComponent();
	}
	'''
	expect_compile_error(
	'NoConstructorMatchingInjectSignatureError<X,X\(char\*\)>',
	'contains an Inject typedef but it.s not constructible with the specified types',
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_autoinject_abstract_class_error():
	source = '''
	struct X {
	using Inject = fruit::Annotated<Annotation1, X>();

	virtual void scale() = 0;
	// Note: here we "forgot" to implement scale() (on purpose, for this test) so X is an abstract class.
	};

	fruit::Component<fruit::Annotated<Annotation1, X>> getComponent() {
	return fruit::createComponent();
	}
	'''
	expect_compile_error(
	'CannotConstructAbstractClassError<X>',
	'The specified class can.t be constructed because it.s an abstract class.',
	COMMON_DEFINITIONS,
	source)

	@pytest.mark.parametrize('WithAnnotation', [
	'WithNoAnnotation',
	'WithAnnotation1',
	])
	@pytest.mark.parametrize('YVariant', [
	'Y',
	'const Y',
	'Y*',
	'const Y*',
	'Y&',
	'const Y&',
	'std::shared_ptr<Y>',
	'fruit::Provider<Y>',
	'fruit::Provider<const Y>',
	])
	def test_register_constructor_with_param_success(WithAnnotation, YVariant):
	source = '''
	struct Y {};
	struct X {
	X(YVariant) {
	}
	};

	fruit::Component<WithAnnotation<Y>> getYComponent() {
	return fruit::createComponent()
	.registerConstructor<WithAnnotation<Y>()>();
	}

	fruit::Component<X> getComponent() {
	return fruit::createComponent()
	.install(getYComponent)
	.registerConstructor<X(WithAnnotation<YVariant>)>();
	}

	int main() {
	fruit::Injector<X> injector(getComponent);
	injector.get<X>();
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	@pytest.mark.parametrize('WithAnnotation', [
	'WithNoAnnotation',
	'WithAnnotation1',
	])
	@pytest.mark.parametrize('YVariant', [
	'Y',
	'const Y',
	'const Y*',
	'const Y&',
	'fruit::Provider<const Y>',
	])
	def test_register_constructor_with_param_const_binding_success(WithAnnotation, YVariant):
	source = '''
	struct Y {};
	struct X {
	X(YVariant) {
	}
	};

	const Y y{};

	fruit::Component<WithAnnotation<const Y>> getYComponent() {
	return fruit::createComponent()
	.bindInstance<WithAnnotation<Y>, Y>(y);
	}

	fruit::Component<X> getComponent() {
	return fruit::createComponent()
	.install(getYComponent)
	.registerConstructor<X(WithAnnotation<YVariant>)>();
	}

	int main() {
	fruit::Injector<X> injector(getComponent);
	injector.get<X>();
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	@pytest.mark.parametrize('WithAnnotation,YAnnotRegex', [
	('WithNoAnnotation', 'Y'),
	('WithAnnotation1', 'fruit::Annotated<Annotation1,Y>'),
	])
	@pytest.mark.parametrize('YVariant', [
	'Y*',
	'Y&',
	'std::shared_ptr<Y>',
	'fruit::Provider<Y>',
	])
	def test_register_constructor_with_param_error_nonconst_param_required(WithAnnotation, YAnnotRegex, YVariant):
	source = '''
	struct Y {};
	struct X {
	X(YVariant);
	};

	fruit::Component<WithAnnotation<const Y>> getYComponent();

	fruit::Component<> getComponent() {
	return fruit::createComponent()
	.install(getYComponent)
	.registerConstructor<X(WithAnnotation<YVariant>)>();
	}
	'''
	expect_compile_error(
	'NonConstBindingRequiredButConstBindingProvidedError<YAnnotRegex>',
	'The type T was provided as constant, however one of the constructors/providers/factories in this component',
	COMMON_DEFINITIONS,
	source,
	locals())

	@pytest.mark.parametrize('WithAnnotation,YAnnotRegex', [
	('WithNoAnnotation', 'Y'),
	('WithAnnotation1', 'fruit::Annotated<Annotation1, Y>'),
	])
	@pytest.mark.parametrize('YVariant', [
	'Y*',
	'Y&',
	'std::shared_ptr<Y>',
	'fruit::Provider<Y>',
	])
	def test_register_constructor_with_param_error_nonconst_param_required_install_after(WithAnnotation, YAnnotRegex, YVariant):
	source = '''
	struct Y {};
	struct X {
	X(YVariant);
	};

	fruit::Component<WithAnnotation<const Y>> getYComponent();

	fruit::Component<> getComponent() {
	return fruit::createComponent()
	.registerConstructor<X(WithAnnotation<YVariant>)>()
	.install(getYComponent);
	}
	'''
	expect_compile_error(
	'NonConstBindingRequiredButConstBindingProvidedError<YAnnotRegex>',
	'The type T was provided as constant, however one of the constructors/providers/factories in this component',
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_register_constructor_requiring_nonconst_then_requiring_const_ok():
	source = '''
	struct X {};

	struct Y {
	Y(X&) {}
	};

	struct Z {
	Z(const X&) {}
	};

	fruit::Component<Y, Z> getRootComponent() {
	return fruit::createComponent()
	.registerConstructor<Y(X&)>()
	.registerConstructor<Z(const X&)>()
	.registerConstructor<X()>();
	}

	int main() {
	fruit::Injector<Y, Z> injector(getRootComponent);
	injector.get<Y>();
	injector.get<Z>();
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_register_constructor_requiring_nonconst_then_requiring_const_declaring_const_requirement_error():
	source = '''
	struct X {};

	struct Y {
	Y(X&) {}
	};

	struct Z {
	Z(const X&) {}
	};

	fruit::Component<fruit::Required<const X>, Y, Z> getRootComponent() {
	return fruit::createComponent()
	.registerConstructor<Y(X&)>()
	.registerConstructor<Z(const X&)>();
	}
	'''
	expect_compile_error(
	'ConstBindingDeclaredAsRequiredButNonConstBindingRequiredError<X>',
	'The type T was declared as a const Required type in the returned Component, however',
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_register_constructor_requiring_const_then_requiring_nonconst_ok():
	source = '''
	struct X {};

	struct Y {
	Y(const X&) {}
	};

	struct Z {
	Z(X&) {}
	};

	fruit::Component<Y, Z> getRootComponent() {
	return fruit::createComponent()
	.registerConstructor<Y(const X&)>()
	.registerConstructor<Z(X&)>()
	.registerConstructor<X()>();
	}

	int main() {
	fruit::Injector<Y, Z> injector(getRootComponent);
	injector.get<Y>();
	injector.get<Z>();
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	def test_register_constructor_requiring_const_then_requiring_nonconst_declaring_const_requirement_error():
	source = '''
	struct X {};

	struct Y {
	Y(const X&) {}
	};

	struct Z {
	Z(X&) {}
	};

	fruit::Component<fruit::Required<const X>, Y, Z> getRootComponent() {
	return fruit::createComponent()
	.registerConstructor<Y(const X&)>()
	.registerConstructor<Z(X&)>();
	}
	'''
	expect_compile_error(
	'ConstBindingDeclaredAsRequiredButNonConstBindingRequiredError<X>',
	'The type T was declared as a const Required type in the returned Component, however',
	COMMON_DEFINITIONS,
	source,
	locals())

	@pytest.mark.parametrize('YVariant,YVariantRegex', [
	('Y*', r'Y\\*'),
	('std::shared_ptr<Y>', r'std::shared_ptr<Y>\'),
	('std::nullptr_t', r'(std::)?nullptr(_t)?'),
	('Y&', r'Y\&'),
	('Y()()', r'Y(\((__cdecl)?\\))?\((void)?\)'),
	('fruit::Annotated<Annotation1, Y*>', r'Y\\*'),
	])
	def test_register_constructor_with_param_error_type_not_injectable(YVariant, YVariantRegex):
	source = '''
	struct Y {};
	struct X {
	X(YVariant);
	};

	fruit::Component<> getComponent() {
	return fruit::createComponent()
	.registerConstructor<X(YVariant)>();
	}
	'''
	expect_compile_error(
	'NonInjectableTypeError<YVariantRegex>',
	'The type T is not injectable.',
	COMMON_DEFINITIONS,
	source,
	locals())


	if __name__== '__main__':
	main(__file__)