tests/test_misc.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.

 from absl.testing import parameterized
 from fruit_test_common import *

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

     template <typename T>
     class V {};

     template <typename T>
     class X {
     private:
       X() {}

     public:
       INJECT(X(ASSISTED(int))) {
       }
     };

     using XFactory = std::function<X<V<float>>(int)>;
     '''

 class TestMisc(parameterized.TestCase):

     def test_misc(self):
         source = '''
             fruit::Component<X<V<float>>> getXProvider2() {
               return fruit::createComponent()
                   .registerProvider([](){return X<V<float>>(1);});
             }

             struct AssistedMultiparamExample {
               INJECT(AssistedMultiparamExample(ASSISTED(std::map<int, float>))) {}
             };

             struct Implementation1 {
               bool constructed = true;

               Implementation1(V<int>&&, XFactory) {
                 std::cout << "Called Implementation1() for object " << this << std::endl;
               }

               Implementation1() = delete;
               Implementation1(const Implementation1&) = delete;

               Implementation1& operator=(const Implementation1&) = delete;
               Implementation1& operator=(Implementation1&&) = delete;

               Implementation1(Implementation1&&) {
                 std::cout << "Moving an Implementation1 into object" << this << std::endl;
               }

               ~Implementation1() {
                 std::cout << "Called ~Implementation1() for object " << this << std::endl;
                 constructed = 0;
               }

               int x;
             };

             struct Interface2 {
               virtual void f() = 0;
             };

             struct Implementation2 : public Interface2 {
               INJECT(Implementation2(std::function<Implementation1(int)>)) {
                 std::cout << "Called Implementation2()" << std::endl;
               }

               virtual ~Implementation2() {}

               virtual void f() {};
             };

             fruit::Component<Interface2, XFactory, std::function<Implementation1(int)>> getParentComponent() {
               return fruit::createComponent()
                   .registerFactory<Implementation1(fruit::Assisted<int>, XFactory)>(
                     [](int, XFactory xFactory) {
                       return Implementation1(V<int>(), xFactory);
                     })
                   .bind<Interface2, Implementation2>();
             }

             //*************************************

             struct Interface3 {
               virtual void f() = 0;
             };

             struct Implementation3 : public Interface3 {
               INJECT(Implementation3(Implementation2*, fruit::Provider<Implementation2> provider)) {
                 (void) provider.get();
                 std::cout << "Called Implementation2()" << std::endl;
               }

               virtual ~Implementation3() {}

               virtual void f() {};
             };

             fruit::Component<Interface3, std::function<Implementation1(int)>> getMyComponent() {
               return fruit::createComponent()
                   // Must fail at runtime.
                   // .install(getXProvider2)
                   .bind<Interface3, Implementation3>()
                   .install(getParentComponent);
             }

             fruit::Component<std::function<AssistedMultiparamExample(std::map<int, float>)>> getAssistedMultiparamExampleComponent() {
               return fruit::createComponent();
             }

             int main() {
               fruit::Injector<
                 Interface3,
                 // XFactory,
                 std::function<Implementation1(int)>
                 > oldInjector(getMyComponent);

               // The move is completely unnecessary, it's just to check that it works.
               fruit::Injector<
                 Interface3,
                 // XFactory,
                 std::function<Implementation1(int)>
                 > injector(std::move(oldInjector));

               std::cout << "Constructing an Interface3" << std::endl;
               Interface3* interface3(injector);
               std::cout << std::endl;
               (void) interface3;

               std::cout << "Constructing another Interface3" << std::endl;
               Interface3* interface3_obj2 = injector.get<Interface3*>();
               std::cout << std::endl;
               (void) interface3_obj2;

               std::function<Implementation1(int)> implementation1Factory(injector);
               {
                  std::cout << "Constructing another Implementation1" << std::endl;
                  Implementation1 implementation1 = implementation1Factory(12);
                  (void) implementation1;
               }
               std::cout << "Destroying injector" << std::endl;

               fruit::Injector<std::function<AssistedMultiparamExample(std::map<int, float>)>> assistedMultiparamExampleInjector(
                 getAssistedMultiparamExampleComponent);

               return 0;
             }
             '''
         expect_success(
             COMMON_DEFINITIONS,
             source,
             locals())

 if __name__ == '__main__':
     absltest.main()
	#!/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.

	from absl.testing import parameterized
	from fruit_test_common import *

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

	template <typename T>
	class V {};

	template <typename T>
	class X {
	private:
	X() {}

	public:
	INJECT(X(ASSISTED(int))) {
	}
	};

	using XFactory = std::function<X<V<float>>(int)>;
	'''

	class TestMisc(parameterized.TestCase):

	def test_misc(self):
	source = '''
	fruit::Component<X<V<float>>> getXProvider2() {
	return fruit::createComponent()
	.registerProvider([](){return X<V<float>>(1);});
	}

	struct AssistedMultiparamExample {
	INJECT(AssistedMultiparamExample(ASSISTED(std::map<int, float>))) {}
	};

	struct Implementation1 {
	bool constructed = true;

	Implementation1(V<int>&&, XFactory) {
	std::cout << "Called Implementation1() for object " << this << std::endl;
	}

	Implementation1() = delete;
	Implementation1(const Implementation1&) = delete;

	Implementation1& operator=(const Implementation1&) = delete;
	Implementation1& operator=(Implementation1&&) = delete;

	Implementation1(Implementation1&&) {
	std::cout << "Moving an Implementation1 into object" << this << std::endl;
	}

	~Implementation1() {
	std::cout << "Called ~Implementation1() for object " << this << std::endl;
	constructed = 0;
	}

	int x;
	};

	struct Interface2 {
	virtual void f() = 0;
	};

	struct Implementation2 : public Interface2 {
	INJECT(Implementation2(std::function<Implementation1(int)>)) {
	std::cout << "Called Implementation2()" << std::endl;
	}

	virtual ~Implementation2() {}

	virtual void f() {};
	};

	fruit::Component<Interface2, XFactory, std::function<Implementation1(int)>> getParentComponent() {
	return fruit::createComponent()
	.registerFactory<Implementation1(fruit::Assisted<int>, XFactory)>(
	[](int, XFactory xFactory) {
	return Implementation1(V<int>(), xFactory);
	})
	.bind<Interface2, Implementation2>();
	}

	//*************************************

	struct Interface3 {
	virtual void f() = 0;
	};

	struct Implementation3 : public Interface3 {
	INJECT(Implementation3(Implementation2*, fruit::Provider<Implementation2> provider)) {
	(void) provider.get();
	std::cout << "Called Implementation2()" << std::endl;
	}

	virtual ~Implementation3() {}

	virtual void f() {};
	};

	fruit::Component<Interface3, std::function<Implementation1(int)>> getMyComponent() {
	return fruit::createComponent()
	// Must fail at runtime.
	// .install(getXProvider2)
	.bind<Interface3, Implementation3>()
	.install(getParentComponent);
	}

	fruit::Component<std::function<AssistedMultiparamExample(std::map<int, float>)>> getAssistedMultiparamExampleComponent() {
	return fruit::createComponent();
	}

	int main() {
	fruit::Injector<
	Interface3,
	// XFactory,
	std::function<Implementation1(int)>
	> oldInjector(getMyComponent);

	// The move is completely unnecessary, it's just to check that it works.
	fruit::Injector<
	Interface3,
	// XFactory,
	std::function<Implementation1(int)>
	> injector(std::move(oldInjector));

	std::cout << "Constructing an Interface3" << std::endl;
	Interface3* interface3(injector);
	std::cout << std::endl;
	(void) interface3;

	std::cout << "Constructing another Interface3" << std::endl;
	Interface3* interface3_obj2 = injector.get<Interface3*>();
	std::cout << std::endl;
	(void) interface3_obj2;

	std::function<Implementation1(int)> implementation1Factory(injector);
	{
	std::cout << "Constructing another Implementation1" << std::endl;
	Implementation1 implementation1 = implementation1Factory(12);
	(void) implementation1;
	}
	std::cout << "Destroying injector" << std::endl;

	fruit::Injector<std::function<AssistedMultiparamExample(std::map<int, float>)>> assistedMultiparamExampleInjector(
	getAssistedMultiparamExampleComponent);

	return 0;
	}
	'''
	expect_success(
	COMMON_DEFINITIONS,
	source,
	locals())

	if __name__ == '__main__':
	absltest.main()