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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "base/bind.h"
#include "base/callback.h"
#include "base/memory/ref_counted.h"
#include "base/memory/scoped_ptr.h"
#include "base/memory/weak_ptr.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
using ::testing::Mock;
using ::testing::Return;
using ::testing::StrictMock;
namespace base {
namespace {
class IncompleteType;
class NoRef {
public:
NoRef() {}
MOCK_METHOD0(VoidMethod0, void(void));
MOCK_CONST_METHOD0(VoidConstMethod0, void(void));
MOCK_METHOD0(IntMethod0, int(void));
MOCK_CONST_METHOD0(IntConstMethod0, int(void));
private:
// Particularly important in this test to ensure no copies are made.
DISALLOW_COPY_AND_ASSIGN(NoRef);
};
class HasRef : public NoRef {
public:
HasRef() {}
MOCK_CONST_METHOD0(AddRef, void(void));
MOCK_CONST_METHOD0(Release, bool(void));
private:
// Particularly important in this test to ensure no copies are made.
DISALLOW_COPY_AND_ASSIGN(HasRef);
};
class HasRefPrivateDtor : public HasRef {
private:
~HasRefPrivateDtor() {}
};
static const int kParentValue = 1;
static const int kChildValue = 2;
class Parent {
public:
void AddRef(void) const {}
void Release(void) const {}
virtual void VirtualSet() { value = kParentValue; }
void NonVirtualSet() { value = kParentValue; }
int value;
};
class Child : public Parent {
public:
virtual void VirtualSet() OVERRIDE { value = kChildValue; }
void NonVirtualSet() { value = kChildValue; }
};
class NoRefParent {
public:
virtual void VirtualSet() { value = kParentValue; }
void NonVirtualSet() { value = kParentValue; }
int value;
};
class NoRefChild : public NoRefParent {
virtual void VirtualSet() OVERRIDE { value = kChildValue; }
void NonVirtualSet() { value = kChildValue; }
};
// Used for probing the number of copies that occur if a type must be coerced
// during argument forwarding in the Run() methods.
struct DerivedCopyCounter {
DerivedCopyCounter(int* copies, int* assigns)
: copies_(copies), assigns_(assigns) {
}
int* copies_;
int* assigns_;
};
// Used for probing the number of copies in an argument.
class CopyCounter {
public:
CopyCounter(int* copies, int* assigns)
: copies_(copies), assigns_(assigns) {
}
CopyCounter(const CopyCounter& other)
: copies_(other.copies_),
assigns_(other.assigns_) {
(*copies_)++;
}
// Probing for copies from coercion.
explicit CopyCounter(const DerivedCopyCounter& other)
: copies_(other.copies_),
assigns_(other.assigns_) {
(*copies_)++;
}
const CopyCounter& operator=(const CopyCounter& rhs) {
copies_ = rhs.copies_;
assigns_ = rhs.assigns_;
if (assigns_) {
(*assigns_)++;
}
return *this;
}
int copies() const {
return *copies_;
}
int assigns() const {
return *assigns_;
}
private:
int* copies_;
int* assigns_;
};
class DeleteCounter {
public:
explicit DeleteCounter(int* deletes)
: deletes_(deletes) {
}
~DeleteCounter() {
(*deletes_)++;
}
void VoidMethod0() {}
private:
int* deletes_;
};
template <typename T>
T PassThru(T scoper) {
return scoper.Pass();
}
// Some test functions that we can Bind to.
template <typename T>
T PolymorphicIdentity(T t) {
return t;
}
template <typename T>
void VoidPolymorphic1(T t) {
}
int Identity(int n) {
return n;
}
int ArrayGet(const int array[], int n) {
return array[n];
}
int Sum(int a, int b, int c, int d, int e, int f) {
return a + b + c + d + e + f;
}
const char* CStringIdentity(const char* s) {
return s;
}
int GetCopies(const CopyCounter& counter) {
return counter.copies();
}
int UnwrapNoRefParent(NoRefParent p) {
return p.value;
}
int UnwrapNoRefParentPtr(NoRefParent* p) {
return p->value;
}
int UnwrapNoRefParentConstRef(const NoRefParent& p) {
return p.value;
}
void RefArgSet(int &n) {
n = 2;
}
void PtrArgSet(int *n) {
*n = 2;
}
int FunctionWithWeakFirstParam(WeakPtr<NoRef> o, int n) {
return n;
}
int FunctionWithScopedRefptrFirstParam(const scoped_refptr<HasRef>& o, int n) {
return n;
}
void TakesACallback(const Closure& callback) {
callback.Run();
}
class BindTest : public ::testing::Test {
public:
BindTest() {
const_has_ref_ptr_ = &has_ref_;
const_no_ref_ptr_ = &no_ref_;
static_func_mock_ptr = &static_func_mock_;
}
virtual ~BindTest() {
}
static void VoidFunc0(void) {
static_func_mock_ptr->VoidMethod0();
}
static int IntFunc0(void) { return static_func_mock_ptr->IntMethod0(); }
protected:
StrictMock<NoRef> no_ref_;
StrictMock<HasRef> has_ref_;
const HasRef* const_has_ref_ptr_;
const NoRef* const_no_ref_ptr_;
StrictMock<NoRef> static_func_mock_;
// Used by the static functions to perform expectations.
static StrictMock<NoRef>* static_func_mock_ptr;
private:
DISALLOW_COPY_AND_ASSIGN(BindTest);
};
StrictMock<NoRef>* BindTest::static_func_mock_ptr;
// Sanity check that we can instantiate a callback for each arity.
TEST_F(BindTest, ArityTest) {
Callback<int(void)> c0 = Bind(&Sum, 32, 16, 8, 4, 2, 1);
EXPECT_EQ(63, c0.Run());
Callback<int(int)> c1 = Bind(&Sum, 32, 16, 8, 4, 2);
EXPECT_EQ(75, c1.Run(13));
Callback<int(int,int)> c2 = Bind(&Sum, 32, 16, 8, 4);
EXPECT_EQ(85, c2.Run(13, 12));
Callback<int(int,int,int)> c3 = Bind(&Sum, 32, 16, 8);
EXPECT_EQ(92, c3.Run(13, 12, 11));
Callback<int(int,int,int,int)> c4 = Bind(&Sum, 32, 16);
EXPECT_EQ(94, c4.Run(13, 12, 11, 10));
Callback<int(int,int,int,int,int)> c5 = Bind(&Sum, 32);
EXPECT_EQ(87, c5.Run(13, 12, 11, 10, 9));
Callback<int(int,int,int,int,int,int)> c6 = Bind(&Sum);
EXPECT_EQ(69, c6.Run(13, 12, 11, 10, 9, 14));
}
// Test the Currying ability of the Callback system.
TEST_F(BindTest, CurryingTest) {
Callback<int(int,int,int,int,int,int)> c6 = Bind(&Sum);
EXPECT_EQ(69, c6.Run(13, 12, 11, 10, 9, 14));
Callback<int(int,int,int,int,int)> c5 = Bind(c6, 32);
EXPECT_EQ(87, c5.Run(13, 12, 11, 10, 9));
Callback<int(int,int,int,int)> c4 = Bind(c5, 16);
EXPECT_EQ(94, c4.Run(13, 12, 11, 10));
Callback<int(int,int,int)> c3 = Bind(c4, 8);
EXPECT_EQ(92, c3.Run(13, 12, 11));
Callback<int(int,int)> c2 = Bind(c3, 4);
EXPECT_EQ(85, c2.Run(13, 12));
Callback<int(int)> c1 = Bind(c2, 2);
EXPECT_EQ(75, c1.Run(13));
Callback<int(void)> c0 = Bind(c1, 1);
EXPECT_EQ(63, c0.Run());
}
// Test that currying the rvalue result of another Bind() works correctly.
// - rvalue should be usable as argument to Bind().
// - multiple runs of resulting Callback remain valid.
TEST_F(BindTest, CurryingRvalueResultOfBind) {
int n = 0;
Closure cb = base::Bind(&TakesACallback, base::Bind(&PtrArgSet, &n));
// If we implement Bind() such that the return value has auto_ptr-like
// semantics, the second call here will fail because ownership of
// the internal BindState<> would have been transfered to a *temporary*
// constructon of a Callback object on the first call.
cb.Run();
EXPECT_EQ(2, n);
n = 0;
cb.Run();
EXPECT_EQ(2, n);
}
// Function type support.
// - Normal function.
// - Normal function bound with non-refcounted first argument.
// - Method bound to non-const object.
// - Method bound to scoped_refptr.
// - Const method bound to non-const object.
// - Const method bound to const object.
// - Derived classes can be used with pointers to non-virtual base functions.
// - Derived classes can be used with pointers to virtual base functions (and
// preserve virtual dispatch).
TEST_F(BindTest, FunctionTypeSupport) {
EXPECT_CALL(static_func_mock_, VoidMethod0());
EXPECT_CALL(has_ref_, AddRef()).Times(5);
EXPECT_CALL(has_ref_, Release()).Times(5);
EXPECT_CALL(has_ref_, VoidMethod0()).Times(2);
EXPECT_CALL(has_ref_, VoidConstMethod0()).Times(2);
Closure normal_cb = Bind(&VoidFunc0);
Callback<NoRef*(void)> normal_non_refcounted_cb =
Bind(&PolymorphicIdentity<NoRef*>, &no_ref_);
normal_cb.Run();
EXPECT_EQ(&no_ref_, normal_non_refcounted_cb.Run());
Closure method_cb = Bind(&HasRef::VoidMethod0, &has_ref_);
Closure method_refptr_cb = Bind(&HasRef::VoidMethod0,
make_scoped_refptr(&has_ref_));
Closure const_method_nonconst_obj_cb = Bind(&HasRef::VoidConstMethod0,
&has_ref_);
Closure const_method_const_obj_cb = Bind(&HasRef::VoidConstMethod0,
const_has_ref_ptr_);
method_cb.Run();
method_refptr_cb.Run();
const_method_nonconst_obj_cb.Run();
const_method_const_obj_cb.Run();
Child child;
child.value = 0;
Closure virtual_set_cb = Bind(&Parent::VirtualSet, &child);
virtual_set_cb.Run();
EXPECT_EQ(kChildValue, child.value);
child.value = 0;
Closure non_virtual_set_cb = Bind(&Parent::NonVirtualSet, &child);
non_virtual_set_cb.Run();
EXPECT_EQ(kParentValue, child.value);
}
// Return value support.
// - Function with return value.
// - Method with return value.
// - Const method with return value.
TEST_F(BindTest, ReturnValues) {
EXPECT_CALL(static_func_mock_, IntMethod0()).WillOnce(Return(1337));
EXPECT_CALL(has_ref_, AddRef()).Times(3);
EXPECT_CALL(has_ref_, Release()).Times(3);
EXPECT_CALL(has_ref_, IntMethod0()).WillOnce(Return(31337));
EXPECT_CALL(has_ref_, IntConstMethod0())
.WillOnce(Return(41337))
.WillOnce(Return(51337));
Callback<int(void)> normal_cb = Bind(&IntFunc0);
Callback<int(void)> method_cb = Bind(&HasRef::IntMethod0, &has_ref_);
Callback<int(void)> const_method_nonconst_obj_cb =
Bind(&HasRef::IntConstMethod0, &has_ref_);
Callback<int(void)> const_method_const_obj_cb =
Bind(&HasRef::IntConstMethod0, const_has_ref_ptr_);
EXPECT_EQ(1337, normal_cb.Run());
EXPECT_EQ(31337, method_cb.Run());
EXPECT_EQ(41337, const_method_nonconst_obj_cb.Run());
EXPECT_EQ(51337, const_method_const_obj_cb.Run());
}
// IgnoreResult adapter test.
// - Function with return value.
// - Method with return value.
// - Const Method with return.
// - Method with return value bound to WeakPtr<>.
// - Const Method with return bound to WeakPtr<>.
TEST_F(BindTest, IgnoreResult) {
EXPECT_CALL(static_func_mock_, IntMethod0()).WillOnce(Return(1337));
EXPECT_CALL(has_ref_, AddRef()).Times(2);
EXPECT_CALL(has_ref_, Release()).Times(2);
EXPECT_CALL(has_ref_, IntMethod0()).WillOnce(Return(10));
EXPECT_CALL(has_ref_, IntConstMethod0()).WillOnce(Return(11));
EXPECT_CALL(no_ref_, IntMethod0()).WillOnce(Return(12));
EXPECT_CALL(no_ref_, IntConstMethod0()).WillOnce(Return(13));
Closure normal_func_cb = Bind(IgnoreResult(&IntFunc0));
normal_func_cb.Run();
Closure non_void_method_cb =
Bind(IgnoreResult(&HasRef::IntMethod0), &has_ref_);
non_void_method_cb.Run();
Closure non_void_const_method_cb =
Bind(IgnoreResult(&HasRef::IntConstMethod0), &has_ref_);
non_void_const_method_cb.Run();
WeakPtrFactory<NoRef> weak_factory(&no_ref_);
WeakPtrFactory<const NoRef> const_weak_factory(const_no_ref_ptr_);
Closure non_void_weak_method_cb =
Bind(IgnoreResult(&NoRef::IntMethod0), weak_factory.GetWeakPtr());
non_void_weak_method_cb.Run();
Closure non_void_weak_const_method_cb =
Bind(IgnoreResult(&NoRef::IntConstMethod0), weak_factory.GetWeakPtr());
non_void_weak_const_method_cb.Run();
weak_factory.InvalidateWeakPtrs();
non_void_weak_const_method_cb.Run();
non_void_weak_method_cb.Run();
}
// Argument binding tests.
// - Argument binding to primitive.
// - Argument binding to primitive pointer.
// - Argument binding to a literal integer.
// - Argument binding to a literal string.
// - Argument binding with template function.
// - Argument binding to an object.
// - Argument binding to pointer to incomplete type.
// - Argument gets type converted.
// - Pointer argument gets converted.
// - Const Reference forces conversion.
TEST_F(BindTest, ArgumentBinding) {
int n = 2;
Callback<int(void)> bind_primitive_cb = Bind(&Identity, n);
EXPECT_EQ(n, bind_primitive_cb.Run());
Callback<int*(void)> bind_primitive_pointer_cb =
Bind(&PolymorphicIdentity<int*>, &n);
EXPECT_EQ(&n, bind_primitive_pointer_cb.Run());
Callback<int(void)> bind_int_literal_cb = Bind(&Identity, 3);
EXPECT_EQ(3, bind_int_literal_cb.Run());
Callback<const char*(void)> bind_string_literal_cb =
Bind(&CStringIdentity, "hi");
EXPECT_STREQ("hi", bind_string_literal_cb.Run());
Callback<int(void)> bind_template_function_cb =
Bind(&PolymorphicIdentity<int>, 4);
EXPECT_EQ(4, bind_template_function_cb.Run());
NoRefParent p;
p.value = 5;
Callback<int(void)> bind_object_cb = Bind(&UnwrapNoRefParent, p);
EXPECT_EQ(5, bind_object_cb.Run());
IncompleteType* incomplete_ptr = reinterpret_cast<IncompleteType*>(123);
Callback<IncompleteType*(void)> bind_incomplete_ptr_cb =
Bind(&PolymorphicIdentity<IncompleteType*>, incomplete_ptr);
EXPECT_EQ(incomplete_ptr, bind_incomplete_ptr_cb.Run());
NoRefChild c;
c.value = 6;
Callback<int(void)> bind_promotes_cb = Bind(&UnwrapNoRefParent, c);
EXPECT_EQ(6, bind_promotes_cb.Run());
c.value = 7;
Callback<int(void)> bind_pointer_promotes_cb =
Bind(&UnwrapNoRefParentPtr, &c);
EXPECT_EQ(7, bind_pointer_promotes_cb.Run());
c.value = 8;
Callback<int(void)> bind_const_reference_promotes_cb =
Bind(&UnwrapNoRefParentConstRef, c);
EXPECT_EQ(8, bind_const_reference_promotes_cb.Run());
}
// Unbound argument type support tests.
// - Unbound value.
// - Unbound pointer.
// - Unbound reference.
// - Unbound const reference.
// - Unbound unsized array.
// - Unbound sized array.
// - Unbound array-of-arrays.
TEST_F(BindTest, UnboundArgumentTypeSupport) {
Callback<void(int)> unbound_value_cb = Bind(&VoidPolymorphic1<int>);
Callback<void(int*)> unbound_pointer_cb = Bind(&VoidPolymorphic1<int*>);
Callback<void(int&)> unbound_ref_cb = Bind(&VoidPolymorphic1<int&>);
Callback<void(const int&)> unbound_const_ref_cb =
Bind(&VoidPolymorphic1<const int&>);
Callback<void(int[])> unbound_unsized_array_cb =
Bind(&VoidPolymorphic1<int[]>);
Callback<void(int[2])> unbound_sized_array_cb =
Bind(&VoidPolymorphic1<int[2]>);
Callback<void(int[][2])> unbound_array_of_arrays_cb =
Bind(&VoidPolymorphic1<int[][2]>);
}
// Function with unbound reference parameter.
// - Original parameter is modified by callback.
TEST_F(BindTest, UnboundReferenceSupport) {
int n = 0;
Callback<void(int&)> unbound_ref_cb = Bind(&RefArgSet);
unbound_ref_cb.Run(n);
EXPECT_EQ(2, n);
}
// Functions that take reference parameters.
// - Forced reference parameter type still stores a copy.
// - Forced const reference parameter type still stores a copy.
TEST_F(BindTest, ReferenceArgumentBinding) {
int n = 1;
int& ref_n = n;
const int& const_ref_n = n;
Callback<int(void)> ref_copies_cb = Bind(&Identity, ref_n);
EXPECT_EQ(n, ref_copies_cb.Run());
n++;
EXPECT_EQ(n - 1, ref_copies_cb.Run());
Callback<int(void)> const_ref_copies_cb = Bind(&Identity, const_ref_n);
EXPECT_EQ(n, const_ref_copies_cb.Run());
n++;
EXPECT_EQ(n - 1, const_ref_copies_cb.Run());
}
// Check that we can pass in arrays and have them be stored as a pointer.
// - Array of values stores a pointer.
// - Array of const values stores a pointer.
TEST_F(BindTest, ArrayArgumentBinding) {
int array[4] = {1, 1, 1, 1};
const int (*const_array_ptr)[4] = &array;
Callback<int(void)> array_cb = Bind(&ArrayGet, array, 1);
EXPECT_EQ(1, array_cb.Run());
Callback<int(void)> const_array_cb = Bind(&ArrayGet, *const_array_ptr, 1);
EXPECT_EQ(1, const_array_cb.Run());
array[1] = 3;
EXPECT_EQ(3, array_cb.Run());
EXPECT_EQ(3, const_array_cb.Run());
}
// Verify SupportsAddRefAndRelease correctly introspects the class type for
// AddRef() and Release().
// - Class with AddRef() and Release()
// - Class without AddRef() and Release()
// - Derived Class with AddRef() and Release()
// - Derived Class without AddRef() and Release()
// - Derived Class with AddRef() and Release() and a private destructor.
TEST_F(BindTest, SupportsAddRefAndRelease) {
EXPECT_TRUE(internal::SupportsAddRefAndRelease<HasRef>::value);
EXPECT_FALSE(internal::SupportsAddRefAndRelease<NoRef>::value);
// StrictMock<T> is a derived class of T. So, we use StrictMock<HasRef> and
// StrictMock<NoRef> to test that SupportsAddRefAndRelease works over
// inheritance.
EXPECT_TRUE(internal::SupportsAddRefAndRelease<StrictMock<HasRef> >::value);
EXPECT_FALSE(internal::SupportsAddRefAndRelease<StrictMock<NoRef> >::value);
// This matters because the implementation creates a dummy class that
// inherits from the template type.
EXPECT_TRUE(internal::SupportsAddRefAndRelease<HasRefPrivateDtor>::value);
}
// Unretained() wrapper support.
// - Method bound to Unretained() non-const object.
// - Const method bound to Unretained() non-const object.
// - Const method bound to Unretained() const object.
TEST_F(BindTest, Unretained) {
EXPECT_CALL(no_ref_, VoidMethod0());
EXPECT_CALL(no_ref_, VoidConstMethod0()).Times(2);
Callback<void(void)> method_cb =
Bind(&NoRef::VoidMethod0, Unretained(&no_ref_));
method_cb.Run();
Callback<void(void)> const_method_cb =
Bind(&NoRef::VoidConstMethod0, Unretained(&no_ref_));
const_method_cb.Run();
Callback<void(void)> const_method_const_ptr_cb =
Bind(&NoRef::VoidConstMethod0, Unretained(const_no_ref_ptr_));
const_method_const_ptr_cb.Run();
}
// WeakPtr() support.
// - Method bound to WeakPtr<> to non-const object.
// - Const method bound to WeakPtr<> to non-const object.
// - Const method bound to WeakPtr<> to const object.
// - Normal Function with WeakPtr<> as P1 can have return type and is
// not canceled.
TEST_F(BindTest, WeakPtr) {
EXPECT_CALL(no_ref_, VoidMethod0());
EXPECT_CALL(no_ref_, VoidConstMethod0()).Times(2);
WeakPtrFactory<NoRef> weak_factory(&no_ref_);
WeakPtrFactory<const NoRef> const_weak_factory(const_no_ref_ptr_);
Closure method_cb =
Bind(&NoRef::VoidMethod0, weak_factory.GetWeakPtr());
method_cb.Run();
Closure const_method_cb =
Bind(&NoRef::VoidConstMethod0, const_weak_factory.GetWeakPtr());
const_method_cb.Run();
Closure const_method_const_ptr_cb =
Bind(&NoRef::VoidConstMethod0, const_weak_factory.GetWeakPtr());
const_method_const_ptr_cb.Run();
Callback<int(int)> normal_func_cb =
Bind(&FunctionWithWeakFirstParam, weak_factory.GetWeakPtr());
EXPECT_EQ(1, normal_func_cb.Run(1));
weak_factory.InvalidateWeakPtrs();
const_weak_factory.InvalidateWeakPtrs();
method_cb.Run();
const_method_cb.Run();
const_method_const_ptr_cb.Run();
// Still runs even after the pointers are invalidated.
EXPECT_EQ(2, normal_func_cb.Run(2));
}
// ConstRef() wrapper support.
// - Binding w/o ConstRef takes a copy.
// - Binding a ConstRef takes a reference.
// - Binding ConstRef to a function ConstRef does not copy on invoke.
TEST_F(BindTest, ConstRef) {
int n = 1;
Callback<int(void)> copy_cb = Bind(&Identity, n);
Callback<int(void)> const_ref_cb = Bind(&Identity, ConstRef(n));
EXPECT_EQ(n, copy_cb.Run());
EXPECT_EQ(n, const_ref_cb.Run());
n++;
EXPECT_EQ(n - 1, copy_cb.Run());
EXPECT_EQ(n, const_ref_cb.Run());
int copies = 0;
int assigns = 0;
CopyCounter counter(&copies, &assigns);
Callback<int(void)> all_const_ref_cb =
Bind(&GetCopies, ConstRef(counter));
EXPECT_EQ(0, all_const_ref_cb.Run());
EXPECT_EQ(0, copies);
EXPECT_EQ(0, assigns);
}
TEST_F(BindTest, ScopedRefptr) {
// BUG: The scoped_refptr should cause the only AddRef()/Release() pair. But
// due to a bug in base::Bind(), there's an extra call when invoking the
// callback.
// https://code.google.com/p/chromium/issues/detail?id=251937
EXPECT_CALL(has_ref_, AddRef()).Times(2);
EXPECT_CALL(has_ref_, Release()).Times(2);
const scoped_refptr<StrictMock<HasRef> > refptr(&has_ref_);
Callback<int(void)> scoped_refptr_const_ref_cb =
Bind(&FunctionWithScopedRefptrFirstParam, base::ConstRef(refptr), 1);
EXPECT_EQ(1, scoped_refptr_const_ref_cb.Run());
}
// Test Owned() support.
TEST_F(BindTest, Owned) {
int deletes = 0;
DeleteCounter* counter = new DeleteCounter(&deletes);
// If we don't capture, delete happens on Callback destruction/reset.
// return the same value.
Callback<DeleteCounter*(void)> no_capture_cb =
Bind(&PolymorphicIdentity<DeleteCounter*>, Owned(counter));
ASSERT_EQ(counter, no_capture_cb.Run());
ASSERT_EQ(counter, no_capture_cb.Run());
EXPECT_EQ(0, deletes);
no_capture_cb.Reset(); // This should trigger a delete.
EXPECT_EQ(1, deletes);
deletes = 0;
counter = new DeleteCounter(&deletes);
base::Closure own_object_cb =
Bind(&DeleteCounter::VoidMethod0, Owned(counter));
own_object_cb.Run();
EXPECT_EQ(0, deletes);
own_object_cb.Reset();
EXPECT_EQ(1, deletes);
}
// Passed() wrapper support.
// - Passed() can be constructed from a pointer to scoper.
// - Passed() can be constructed from a scoper rvalue.
// - Using Passed() gives Callback Ownership.
// - Ownership is transferred from Callback to callee on the first Run().
// - Callback supports unbound arguments.
TEST_F(BindTest, ScopedPtr) {
int deletes = 0;
// Tests the Passed() function's support for pointers.
scoped_ptr<DeleteCounter> ptr(new DeleteCounter(&deletes));
Callback<scoped_ptr<DeleteCounter>(void)> unused_callback =
Bind(&PassThru<scoped_ptr<DeleteCounter> >, Passed(&ptr));
EXPECT_FALSE(ptr.get());
EXPECT_EQ(0, deletes);
// If we never invoke the Callback, it retains ownership and deletes.
unused_callback.Reset();
EXPECT_EQ(1, deletes);
// Tests the Passed() function's support for rvalues.
deletes = 0;
DeleteCounter* counter = new DeleteCounter(&deletes);
Callback<scoped_ptr<DeleteCounter>(void)> callback =
Bind(&PassThru<scoped_ptr<DeleteCounter> >,
Passed(scoped_ptr<DeleteCounter>(counter)));
EXPECT_FALSE(ptr.get());
EXPECT_EQ(0, deletes);
// Check that ownership can be transferred back out.
scoped_ptr<DeleteCounter> result = callback.Run();
ASSERT_EQ(counter, result.get());
EXPECT_EQ(0, deletes);
// Resetting does not delete since ownership was transferred.
callback.Reset();
EXPECT_EQ(0, deletes);
// Ensure that we actually did get ownership.
result.reset();
EXPECT_EQ(1, deletes);
// Test unbound argument forwarding.
Callback<scoped_ptr<DeleteCounter>(scoped_ptr<DeleteCounter>)> cb_unbound =
Bind(&PassThru<scoped_ptr<DeleteCounter> >);
ptr.reset(new DeleteCounter(&deletes));
cb_unbound.Run(ptr.Pass());
}
// Argument Copy-constructor usage for non-reference parameters.
// - Bound arguments are only copied once.
// - Forwarded arguments are only copied once.
// - Forwarded arguments with coercions are only copied twice (once for the
// coercion, and one for the final dispatch).
TEST_F(BindTest, ArgumentCopies) {
int copies = 0;
int assigns = 0;
CopyCounter counter(&copies, &assigns);
Callback<void(void)> copy_cb =
Bind(&VoidPolymorphic1<CopyCounter>, counter);
EXPECT_GE(1, copies);
EXPECT_EQ(0, assigns);
copies = 0;
assigns = 0;
Callback<void(CopyCounter)> forward_cb =
Bind(&VoidPolymorphic1<CopyCounter>);
forward_cb.Run(counter);
EXPECT_GE(1, copies);
EXPECT_EQ(0, assigns);
copies = 0;
assigns = 0;
DerivedCopyCounter dervied(&copies, &assigns);
Callback<void(CopyCounter)> coerce_cb =
Bind(&VoidPolymorphic1<CopyCounter>);
coerce_cb.Run(CopyCounter(dervied));
EXPECT_GE(2, copies);
EXPECT_EQ(0, assigns);
}
// Callback construction and assignment tests.
// - Construction from an InvokerStorageHolder should not cause ref/deref.
// - Assignment from other callback should only cause one ref
//
// TODO(ajwong): Is there actually a way to test this?
#if defined(OS_WIN)
int __fastcall FastCallFunc(int n) {
return n;
}
int __stdcall StdCallFunc(int n) {
return n;
}
// Windows specific calling convention support.
// - Can bind a __fastcall function.
// - Can bind a __stdcall function.
TEST_F(BindTest, WindowsCallingConventions) {
Callback<int(void)> fastcall_cb = Bind(&FastCallFunc, 1);
EXPECT_EQ(1, fastcall_cb.Run());
Callback<int(void)> stdcall_cb = Bind(&StdCallFunc, 2);
EXPECT_EQ(2, stdcall_cb.Run());
}
#endif
#if (!defined(NDEBUG) || defined(DCHECK_ALWAYS_ON)) && GTEST_HAS_DEATH_TEST
// Test null callbacks cause a DCHECK.
TEST(BindDeathTest, NullCallback) {
base::Callback<void(int)> null_cb;
ASSERT_TRUE(null_cb.is_null());
EXPECT_DEATH(base::Bind(null_cb, 42), "");
}
#endif // (!defined(NDEBUG) || defined(DCHECK_ALWAYS_ON)) &&
// GTEST_HAS_DEATH_TEST
} // namespace
} // namespace base
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