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android / platform / external / google-fruit / 8ae85592a0481bdda1dee994a3f5c6bdbe22b2e6 / . / tests / test_multibindings_bind_provider.py
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#!/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"
struct Annotation1 {};
struct Annotation2 {};
template <typename T>
using WithNoAnnot = T;
template <typename T>
using WithAnnot1 = fruit::Annotated<Annotation1, T>;
'''
class TestMultibindingsBindProvider(parameterized.TestCase):
@parameterized.parameters([
'X()',
'new X()',
])
def test_bind_multibinding_provider_success(self, ConstructX):
source = '''
struct X : public ConstructionTracker<X> {
INJECT(X()) = default;
};
fruit::Component<> getComponent() {
return fruit::createComponent()
.addMultibindingProvider([](){return ConstructX;});
}
int main() {
fruit::Injector<> injector(getComponent);
Assert(X::num_objects_constructed == 0);
Assert(injector.getMultibindings<X>().size() == 1);
Assert(X::num_objects_constructed == 1);
}
'''
expect_success(
COMMON_DEFINITIONS,
source,
locals())
@parameterized.parameters([
'WithNoAnnot',
'WithAnnot1',
])
def test_bind_multibinding_provider_abstract_class_success(self, WithAnnot):
source = '''
struct I {
virtual int foo() = 0;
virtual ~I() = default;
};
struct X : public I {
int foo() override {
return 5;
}
};
fruit::Component<> getComponent() {
return fruit::createComponent()
.addMultibindingProvider<WithAnnot<I*>()>([](){return static_cast<I*>(new X());});
}
int main() {
fruit::Injector<> injector(getComponent);
Assert(injector.getMultibindings<WithAnnot<I>>().size() == 1);
Assert(injector.getMultibindings<WithAnnot<I>>()[0]->foo() == 5);
}
'''
expect_success(
COMMON_DEFINITIONS,
source,
locals())
@parameterized.parameters([
'WithNoAnnot',
'WithAnnot1',
])
def test_bind_multibinding_provider_abstract_class_with_no_virtual_destructor_error(self, WithAnnot):
source = '''
struct I {
virtual int foo() = 0;
};
struct X : public I {
int foo() override {
return 5;
}
};
fruit::Component<> getComponent() {
return fruit::createComponent()
.addMultibindingProvider<WithAnnot<I*>()>([](){return static_cast<I*>(new X());});
}
'''
expect_compile_error(
'MultibindingProviderReturningPointerToAbstractClassWithNoVirtualDestructorError<I>',
r'registerMultibindingProvider\(\) was called with a lambda that returns a pointer to T, but T is an abstract class with no virtual destructor',
COMMON_DEFINITIONS,
source,
locals())
@multiple_parameters([
('X()', 'X'),
('new X()', 'X*'),
], [
'WithNoAnnot',
'WithAnnot1',
], [
'Y',
'const Y',
'Y*',
'const Y*',
'Y&',
'const Y&',
'std::shared_ptr<Y>',
'fruit::Provider<Y>',
'fruit::Provider<const Y>',
])
def test_bind_multibinding_provider_with_param_success(self, ConstructX, XPtr, WithAnnot, YVariant):
source = '''
struct Y {};
struct X : public ConstructionTracker<X> {};
fruit::Component<WithAnnot<Y>> getYComponent() {
return fruit::createComponent()
.registerConstructor<WithAnnot<Y>()>();
}
fruit::Component<> getComponent() {
return fruit::createComponent()
.install(getYComponent)
.addMultibindingProvider<XPtr(WithAnnot<YVariant>)>([](YVariant){ return ConstructX; });
}
int main() {
fruit::Injector<> injector(getComponent);
Assert(X::num_objects_constructed == 0);
Assert(injector.getMultibindings<X>().size() == 1);
Assert(X::num_objects_constructed == 1);
}
'''
expect_success(
COMMON_DEFINITIONS,
source,
locals())
@multiple_parameters([
('X()', 'X'),
('new X()', 'X*'),
], [
'WithNoAnnot',
'WithAnnot1',
], [
'Y',
'const Y',
'const Y*',
'const Y&',
'fruit::Provider<const Y>',
])
def test_bind_multibinding_provider_with_param_const_binding_success(self, ConstructX, XPtr, WithAnnot, YVariant):
source = '''
struct Y {};
struct X : public ConstructionTracker<X> {};
const Y y{};
fruit::Component<WithAnnot<const Y>> getYComponent() {
return fruit::createComponent()
.bindInstance<WithAnnot<Y>, Y>(y);
}
fruit::Component<> getComponent() {
return fruit::createComponent()
.install(getYComponent)
.addMultibindingProvider<XPtr(WithAnnot<YVariant>)>([](YVariant){ return ConstructX; });
}
int main() {
fruit::Injector<> injector(getComponent);
Assert(X::num_objects_constructed == 0);
Assert(injector.getMultibindings<X>().size() == 1);
Assert(X::num_objects_constructed == 1);
}
'''
expect_success(
COMMON_DEFINITIONS,
source,
locals())
@multiple_parameters([
('X()', 'X'),
('new X()', 'X*'),
], [
('WithNoAnnot', 'Y'),
('WithAnnot1', 'fruit::Annotated<Annotation1, Y>'),
], [
'Y*',
'Y&',
'std::shared_ptr<Y>',
'fruit::Provider<Y>',
])
def test_bind_multibinding_provider_with_param_error_nonconst_param_required(self, ConstructX, XPtr, WithAnnot, YAnnotRegex, YVariant):
source = '''
struct Y {};
struct X {};
fruit::Component<WithAnnot<const Y>> getYComponent();
fruit::Component<> getComponent() {
return fruit::createComponent()
.install(getYComponent)
.addMultibindingProvider<XPtr(WithAnnot<YVariant>)>([](YVariant){ return ConstructX; });
}
'''
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())
@multiple_parameters([
('X()', 'X'),
('new X()', 'X*'),
], [
('WithNoAnnot', 'Y'),
('WithAnnot1', 'fruit::Annotated<Annotation1, Y>'),
], [
'Y*',
'Y&',
'std::shared_ptr<Y>',
'fruit::Provider<Y>',
])
def test_bind_multibinding_provider_with_param_error_nonconst_param_required_install_after(self, ConstructX, XPtr, WithAnnot, YAnnotRegex, YVariant):
source = '''
struct Y {};
struct X {};
fruit::Component<WithAnnot<const Y>> getYComponent();
fruit::Component<> getComponent() {
return fruit::createComponent()
.addMultibindingProvider<XPtr(WithAnnot<YVariant>)>([](YVariant){ return ConstructX; })
.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_bind_multibinding_provider_requiring_nonconst_then_requiring_const_ok(self):
source = '''
struct X {};
struct Y {};
fruit::Component<> getRootComponent() {
return fruit::createComponent()
.addMultibindingProvider([](X&) { return Y(); })
.addMultibindingProvider([](const X&) { return Y(); })
.registerConstructor<X()>();
}
int main() {
fruit::Injector<> injector(getRootComponent);
injector.getMultibindings<Y>();
}
'''
expect_success(
COMMON_DEFINITIONS,
source,
locals())
def test_bind_multibinding_provider_requiring_nonconst_then_requiring_const_declaring_const_requirement_error(self):
source = '''
struct X {};
struct Y {};
fruit::Component<fruit::Required<const X>> getRootComponent() {
return fruit::createComponent()
.addMultibindingProvider([](X&) { return Y(); })
.addMultibindingProvider([](const X&) { return Y(); });
}
'''
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_bind_multibinding_provider_requiring_const_then_requiring_nonconst_ok(self):
source = '''
struct X {};
struct Y {};
fruit::Component<> getRootComponent() {
return fruit::createComponent()
.addMultibindingProvider([](const X&) { return Y(); })
.addMultibindingProvider([](X&) { return Y(); })
.registerConstructor<X()>();
}
int main() {
fruit::Injector<> injector(getRootComponent);
injector.getMultibindings<Y>();
}
'''
expect_success(
COMMON_DEFINITIONS,
source,
locals())
def test_bind_multibinding_provider_requiring_const_then_requiring_nonconst_declaring_const_requirement_error(self):
source = '''
struct X {};
struct Y {};
fruit::Component<fruit::Required<const X>> getRootComponent() {
return fruit::createComponent()
.addMultibindingProvider([](const X&) { return Y(); })
.addMultibindingProvider([](X&) { return Y(); });
}
'''
expect_compile_error(
'ConstBindingDeclaredAsRequiredButNonConstBindingRequiredError<X>',
'The type T was declared as a const Required type in the returned Component, however',
COMMON_DEFINITIONS,
source,
locals())
@multiple_parameters([
('X()', 'X'),
('new X()', 'X*'),
], [
('Y', 'Y', 'Y**', r'Y\*\*'),
('Y', 'Y', 'std::shared_ptr<Y>*', r'std::shared_ptr<Y>\*'),
('Y', 'const Y', 'Y**', r'Y\*\*'),
('Y', 'const Y', 'std::shared_ptr<Y>*', r'std::shared_ptr<Y>\*'),
('fruit::Annotated<Annotation1, Y>', 'fruit::Annotated<Annotation1, Y>', 'Y**', r'Y\*\*'),
('fruit::Annotated<Annotation1, Y>', 'fruit::Annotated<Annotation1, const Y>', 'Y**', r'Y\*\*'),
])
def test_bind_multibinding_provider_with_param_error_type_not_injectable(self, ConstructX, XPtr, YAnnot, ConstYAnnot, YVariant, YVariantRegex):
source = '''
struct Y {};
struct X {};
fruit::Component<> getComponent() {
return fruit::createComponent()
.addMultibindingProvider<XPtr(YVariant)>([](YVariant){ return ConstructX; });
}
'''
expect_compile_error(
'NonInjectableTypeError<YVariantRegex>',
'The type T is not injectable.',
COMMON_DEFINITIONS,
source,
locals())
@parameterized.parameters([
('X()', 'X', 'X'),
('X()', 'fruit::Annotated<Annotation1, X>', 'fruit::Annotated<Annotation1, X>'),
('new X()', 'X', 'X*'),
('new X()', 'fruit::Annotated<Annotation1, X>', 'fruit::Annotated<Annotation1, X*>'),
])
def test_bind_multibinding_provider_explicit_signature_success(self, ConstructX, XAnnot, XPtrAnnot):
source = '''
struct X : public ConstructionTracker<X> {
INJECT(X()) = default;
static bool constructed;
};
fruit::Component<> getComponent() {
return fruit::createComponent()
.addMultibindingProvider<XPtrAnnot()>([](){return ConstructX;});
}
int main() {
fruit::Injector<> injector(getComponent);
Assert(X::num_objects_constructed == 0);
Assert(injector.getMultibindings<XAnnot>().size() == 1);
Assert(X::num_objects_constructed == 1);
}
'''
expect_success(
COMMON_DEFINITIONS,
source,
locals())
@parameterized.parameters([
('X()', 'X', 'X'),
('X()', 'fruit::Annotated<Annotation1, X>', 'fruit::Annotated<Annotation1, X>'),
('new X()', 'X', 'X*'),
('new X()', 'fruit::Annotated<Annotation1, X>', 'fruit::Annotated<Annotation1, X*>'),
])
def test_bind_multibinding_provider_explicit_signature_with_normalized_component_success(self, ConstructX, XAnnot, XPtrAnnot):
source = '''
struct X : public ConstructionTracker<X> {
INJECT(X()) = default;
static bool constructed;
};
fruit::Component<> getComponent() {
return fruit::createComponent()
.addMultibindingProvider<XPtrAnnot()>([](){return ConstructX;});
}
fruit::Component<> getEmptyComponent() {
return fruit::createComponent();
}
int main() {
fruit::NormalizedComponent<> normalizedComponent(getComponent);
fruit::Injector<> injector(normalizedComponent, getEmptyComponent);
Assert(X::num_objects_constructed == 0);
Assert(injector.getMultibindings<XAnnot>().size() == 1);
Assert(X::num_objects_constructed == 1);
}
'''
expect_success(
COMMON_DEFINITIONS,
source,
locals())
@parameterized.parameters([
('X', 'X*', 'int'),
('fruit::Annotated<Annotation1, X>', 'fruit::Annotated<Annotation1, X*>', 'fruit::Annotated<Annotation2, int>'),
])
def test_multiple_providers(self, XAnnot, XPtrAnnot, intAnnot):
source = '''
struct X {};
fruit::Component<> getComponent() {
return fruit::createComponent()
.registerProvider<intAnnot()>([](){return 42;})
.addMultibindingProvider<XAnnot(intAnnot)>([](int){return X();})
.addMultibindingProvider<XPtrAnnot(intAnnot)>([](int){return new X();});
}
int main() {
fruit::Injector<> injector(getComponent);
std::vector<X*> multibindings = injector.getMultibindings<XAnnot>();
Assert(multibindings.size() == 2);
}
'''
expect_success(
COMMON_DEFINITIONS,
source,
locals())
@multiple_parameters([
'X()',
'new X()',
], [
'X',
'fruit::Annotated<Annotation1, X>',
])
def test_bind_multibinding_provider_malformed_signature(self, ConstructX, XAnnot):
source = '''
struct X {};
fruit::Component<> getComponent() {
return fruit::createComponent()
.addMultibindingProvider<XAnnot>([](){return ConstructX;});
}
'''
expect_compile_error(
'NotASignatureError<XAnnot>',
'CandidateSignature was specified as parameter, but it.s not a signature.',
COMMON_DEFINITIONS,
source,
locals())
@multiple_parameters([
'X(n)',
'new X(n)',
], [
'X',
'fruit::Annotated<Annotation1, X>',
])
def test_bind_multibinding_provider_lambda_with_captures_error(self, ConstructX, XAnnot):
source = '''
struct X {
X(int) {}
};
fruit::Component<> getComponent() {
int n = 3;
return fruit::createComponent()
.addMultibindingProvider<XAnnot()>([=]{return ConstructX;});
}
'''
expect_compile_error(
'FunctorUsedAsProviderError<.*>',
'A stateful lambda or a non-lambda functor was used as provider',
COMMON_DEFINITIONS,
source,
locals())
# TODO: should XPtrAnnot be just XAnnot in the signature?
# Make sure the behavior here is consistent with registerProvider() and registerFactory().
@parameterized.parameters([
('X', 'X*', '(struct )?X'),
('fruit::Annotated<Annotation1, X>', 'fruit::Annotated<Annotation1, X*>', '(struct )?fruit::Annotated<(struct )?Annotation1, ?(struct )?X>'),
])
def test_provider_returns_nullptr_error(self, XAnnot, XPtrAnnot, XAnnotRegex):
source = '''
struct X {};
fruit::Component<> getComponent() {
return fruit::createComponent()
.addMultibindingProvider<XPtrAnnot()>([](){return (X*)nullptr;});
}
int main() {
fruit::Injector<> injector(getComponent);
injector.getMultibindings<XAnnot>();
}
'''
expect_runtime_error(
'Fatal injection error: attempting to get an instance for the type XAnnotRegex but the provider returned nullptr',
COMMON_DEFINITIONS,
source,
locals())
if __name__ == '__main__':
absltest.main()