// Copyright (c) 2011 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/callback.h" #include "base/callback_internal.h" #include "base/memory/scoped_ptr.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { class HelperObject { public: HelperObject() : next_number_(0) { } int GetNextNumber() { return ++next_number_; } void GetNextNumberArg(int* number) { *number = GetNextNumber(); } private: int next_number_; }; struct FakeInvoker { static void DoInvoke(internal::InvokerStorageBase*) { } }; // White-box testpoints to inject into a Callback<> object for checking // comparators and emptiness APIs. class FakeInvokerStorage1 : public internal::InvokerStorageBase { public: typedef FakeInvoker Invoker; }; class FakeInvokerStorage2 : public internal::InvokerStorageBase { public: typedef FakeInvoker Invoker; }; TEST(CallbackOld, OneArg) { HelperObject obj; scoped_ptr<Callback1<int*>::Type> callback( NewCallback(&obj, &HelperObject::GetNextNumberArg)); int number = 0; callback->Run(&number); EXPECT_EQ(number, 1); } TEST(CallbackOld, ReturnValue) { HelperObject obj; scoped_ptr<CallbackWithReturnValue<int>::Type> callback( NewCallbackWithReturnValue(&obj, &HelperObject::GetNextNumber)); EXPECT_EQ(callback->Run(), 1); } class CallbackTest : public ::testing::Test { public: CallbackTest() : callback_a_(MakeInvokerStorageHolder(new FakeInvokerStorage1())), callback_b_(MakeInvokerStorageHolder(new FakeInvokerStorage2())) { } virtual ~CallbackTest() { } protected: Callback<void(void)> callback_a_; const Callback<void(void)> callback_b_; // Ensure APIs work with const. Callback<void(void)> null_callback_; }; // Ensure we can create unbound callbacks. We need this to be able to store // them in class members that can be initialized later. TEST_F(CallbackTest, DefaultConstruction) { Callback<void(void)> c0; Callback<void(int)> c1; Callback<void(int,int)> c2; Callback<void(int,int,int)> c3; Callback<void(int,int,int,int)> c4; Callback<void(int,int,int,int,int)> c5; Callback<void(int,int,int,int,int,int)> c6; EXPECT_TRUE(c0.is_null()); EXPECT_TRUE(c1.is_null()); EXPECT_TRUE(c2.is_null()); EXPECT_TRUE(c3.is_null()); EXPECT_TRUE(c4.is_null()); EXPECT_TRUE(c5.is_null()); EXPECT_TRUE(c6.is_null()); } TEST_F(CallbackTest, IsNull) { EXPECT_TRUE(null_callback_.is_null()); EXPECT_FALSE(callback_a_.is_null()); EXPECT_FALSE(callback_b_.is_null()); } TEST_F(CallbackTest, Equals) { EXPECT_TRUE(callback_a_.Equals(callback_a_)); EXPECT_FALSE(callback_a_.Equals(callback_b_)); EXPECT_FALSE(callback_b_.Equals(callback_a_)); // We should compare based on instance, not type. Callback<void(void)> callback_c( MakeInvokerStorageHolder(new FakeInvokerStorage1())); Callback<void(void)> callback_a2 = callback_a_; EXPECT_TRUE(callback_a_.Equals(callback_a2)); EXPECT_FALSE(callback_a_.Equals(callback_c)); // Empty, however, is always equal to empty. Callback<void(void)> empty2; EXPECT_TRUE(null_callback_.Equals(empty2)); } TEST_F(CallbackTest, Reset) { // Resetting should bring us back to empty. ASSERT_FALSE(callback_a_.is_null()); ASSERT_FALSE(callback_a_.Equals(null_callback_)); callback_a_.Reset(); EXPECT_TRUE(callback_a_.is_null()); EXPECT_TRUE(callback_a_.Equals(null_callback_)); } } // namespace } // namespace base