#!/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 fruit_test_common import * COMMON_DEFINITIONS = ''' #include "test_common.h" ''' def test_component_function_success(): source = ''' struct X { int n; X(int n) : n(n) {} }; struct Arg { Arg(int) {} Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = default; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = default; }; bool operator==(const Arg&, const Arg&) { return true; } namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&) { return 0; } }; } fruit::Component<X> getParentComponent(int, std::string, Arg, Arg) { return fruit::createComponent() .registerProvider([]() { return X(5); }); } fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), Arg{}, 15)); } int main() { fruit::Injector<X> injector(getComponent); X x = injector.get<X>(); Assert(x.n == 5); } ''' expect_success(COMMON_DEFINITIONS, source) def test_component_function_no_args_success(): source = ''' struct X { int n; X(int n) : n(n) {} }; fruit::Component<X> getParentComponent() { return fruit::createComponent() .registerProvider([]() { return X(5); }); } fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent)); } int main() { fruit::Injector<X> injector(getComponent); X x = injector.get<X>(); Assert(x.n == 5); } ''' expect_success(COMMON_DEFINITIONS, source) def test_component_function_one_arg_success(): source = ''' struct X { int n; X(int n) : n(n) {} }; fruit::Component<X> getParentComponent(std::string) { return fruit::createComponent() .registerProvider([]() { return X(5); }); } fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, std::string("Hello"))); } int main() { fruit::Injector<X> injector(getComponent); X x = injector.get<X>(); Assert(x.n == 5); } ''' expect_success(COMMON_DEFINITIONS, source) def test_component_function_error_not_move_constructible(): source = ''' struct X {}; struct Arg { Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = delete; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = default; }; bool operator==(const Arg&, const Arg&); namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&); }; } fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), Arg{})); } ''' expect_generic_compile_error( 'error: use of deleted function .Arg::Arg\(Arg&&\).' + '|error: call to deleted constructor of .Arg.' + '|.Arg::Arg\(Arg &&\).: cannot convert argument 1 from .std::_Tuple_val<Arg>. to .const Arg &.' + '|.Arg::Arg\(Arg &&\).: attempting to reference a deleted function', COMMON_DEFINITIONS, source) def test_component_function_error_not_move_constructible_with_conversion(): source = ''' struct X {}; struct Arg { Arg(int) {} Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = delete; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = default; }; bool operator==(const Arg&, const Arg&); namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&); }; } fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), 15)); } ''' expect_generic_compile_error( 'error: use of deleted function .Arg::Arg\(Arg&&\).' + '|error: call to deleted constructor of .Arg.' + '|.Arg::Arg\(Arg &&\).: cannot convert argument 1 from .std::_Tuple_val<Arg>. to .int.' + '|error: copying parameter of type .Arg. invokes deleted constructor', COMMON_DEFINITIONS, source) def test_component_function_error_not_copy_constructible(): source = ''' struct X { int n; X(int n) : n(n) {} }; struct Arg { Arg() = default; Arg(const Arg&) = delete; Arg(Arg&&) = default; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = default; }; bool operator==(const Arg&, const Arg&); namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&); }; } fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), Arg{})); } ''' expect_generic_compile_error( 'error: use of deleted function .Arg::Arg\(const Arg&\).' + '|error: call to deleted constructor of .Arg.' + '|error C2280: .Arg::Arg\(const Arg &\).: attempting to reference a deleted function' # This is the error printed by MSVC. It's not great but I couldn't find a way to have it print # a more useful error. + '|cannot convert argument 1 from .int. to .std::allocator_arg_t.', COMMON_DEFINITIONS, source) def test_component_function_error_not_copy_constructible_with_conversion(): source = ''' struct X { int n; X(int n) : n(n) {} }; struct Arg { Arg(int) {} Arg() = default; Arg(const Arg&) = delete; Arg(Arg&&) = default; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = default; }; bool operator==(const Arg&, const Arg&); namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&); }; } fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), 15)); } ''' expect_generic_compile_error( 'error: use of deleted function .Arg::Arg\(const Arg&\).' + '|error: call to deleted constructor of .Arg.' + '|error C2280: .Arg::Arg\(const Arg &\).: attempting to reference a deleted function' # This is the error printed by MSVC. It's not great but I couldn't find a way to have it print # a more useful error. + '|cannot convert argument 1 from .int. to .std::allocator_arg_t.', COMMON_DEFINITIONS, source) def test_component_function_error_not_move_assignable(): source = ''' struct X {}; struct Arg { Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = default; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = delete; }; bool operator==(const Arg&, const Arg&); namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&); }; } fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), Arg{})); } ''' expect_generic_compile_error( 'error: use of deleted function .Arg& Arg::operator=\(Arg&&\).' + '|error: overload resolution selected deleted operator .=.' + '|error C2280: .Arg &Arg::operator =\(Arg &&\).: attempting to reference a deleted function', COMMON_DEFINITIONS, source) def test_component_function_error_not_move_assignable_with_conversion(): source = ''' struct X {}; struct Arg { Arg(int) {} Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = default; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = delete; }; bool operator==(const Arg&, const Arg&); namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&); }; } fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), 15)); } ''' expect_generic_compile_error( 'error: use of deleted function .Arg& Arg::operator=\(Arg&&\).' + '|error: overload resolution selected deleted operator .=.' + '|error C2280: .Arg &Arg::operator =\(Arg &&\).: attempting to reference a deleted function', COMMON_DEFINITIONS, source) def test_component_function_error_not_copy_assignable(): source = ''' struct X { int n; X(int n) : n(n) {} }; struct Arg { Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = default; Arg& operator=(const Arg&) = delete; Arg& operator=(Arg&&) = default; }; bool operator==(const Arg&, const Arg&); namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&); }; } fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), Arg{})); } ''' expect_generic_compile_error( 'error: use of deleted function .Arg& Arg::operator=\(const Arg&\).' + '|error: overload resolution selected deleted operator .=.' + '|error C2280: .Arg &Arg::operator =\(const Arg &\).: attempting to reference a deleted function', COMMON_DEFINITIONS, source) def test_component_function_error_not_copy_assignable_with_conversion(): source = ''' struct X { int n; X(int n) : n(n) {} }; struct Arg { Arg(int) {} Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = default; Arg& operator=(const Arg&) = delete; Arg& operator=(Arg&&) = default; }; bool operator==(const Arg&, const Arg&); namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&); }; } fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), 15)); } ''' expect_generic_compile_error( 'error: use of deleted function .Arg& Arg::operator=\(const Arg&\).' + '|error: overload resolution selected deleted operator .=.' + '|error C2280: .Arg &Arg::operator =\(const Arg &\).: attempting to reference a deleted function', COMMON_DEFINITIONS, source) def test_component_function_error_not_equality_comparable(): source = ''' struct X { int n; X(int n) : n(n) {} }; struct Arg { Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = default; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = default; }; namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&); }; } fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), Arg{})); } ''' expect_generic_compile_error( 'error: no match for .operator==. \(operand types are .const Arg. and .const Arg.\)' + '|error: invalid operands to binary expression \(.const Arg. and .const Arg.\)' + '|error C2676: binary .==.: .const Arg. does not define this operator', COMMON_DEFINITIONS, source) def test_component_function_error_not_equality_comparable_with_conversion(): source = ''' struct X { int n; X(int n) : n(n) {} }; struct Arg { Arg(int) {} Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = default; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = default; }; namespace std { template <> struct hash<Arg> { size_t operator()(const Arg&); }; } fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), 15)); } ''' expect_generic_compile_error( 'error: no match for .operator==. \(operand types are .const Arg. and .const Arg.\)' + '|error: invalid operands to binary expression \(.const Arg. and .const Arg.\)' + '|error C2676: binary .==.: .const Arg. does not define this operator', COMMON_DEFINITIONS, source) def test_component_function_error_not_hashable(): source = ''' struct X {}; struct Arg { Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = default; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = default; }; bool operator==(const Arg&, const Arg&); fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), Arg{})); } ''' expect_generic_compile_error( 'error: use of deleted function .std::hash<Arg>::hash\(\).' + '|error: call to implicitly-deleted default constructor of .std::hash<Arg>.' + '|error: invalid use of incomplete type .struct std::hash<Arg>.' + '|error: implicit instantiation of undefined template .std::(__1::)?hash<Arg>.' + '|error C2338: The C\+\+ Standard doesn.t provide a hash for this type.' + '|error C2064: term does not evaluate to a function taking 1 arguments', COMMON_DEFINITIONS, source) def test_component_function_error_not_hashable_with_conversion(): source = ''' struct X {}; struct Arg { Arg(int) {} Arg() = default; Arg(const Arg&) = default; Arg(Arg&&) = default; Arg& operator=(const Arg&) = default; Arg& operator=(Arg&&) = default; }; bool operator==(const Arg&, const Arg&); fruit::Component<X> getParentComponent(int, std::string, Arg); fruit::Component<X> getComponent() { return fruit::createComponent() .installComponentFunctions(fruit::componentFunction(getParentComponent, 5, std::string("Hello"), 15)); } ''' expect_generic_compile_error( 'error: use of deleted function .std::hash<Arg>::hash\(\).' + '|error: call to implicitly-deleted default constructor of .std::hash<Arg>.' + '|error: invalid use of incomplete type .struct std::hash<Arg>.' + '|error: implicit instantiation of undefined template .std::(__1::)?hash<Arg>.' + '|error C2338: The C\+\+ Standard doesn.t provide a hash for this type.' + '|error C2064: term does not evaluate to a function taking 1 arguments', COMMON_DEFINITIONS, source) if __name__== '__main__': main(__file__)