// Copyright 2007, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Author: wan@google.com (Zhanyong Wan) // Google Mock - a framework for writing C++ mock classes. // // This file tests the spec builder syntax. #include "gmock/gmock-spec-builders.h" #include // NOLINT #include #include #include "gmock/gmock.h" #include "gmock/internal/gmock-port.h" #include "gtest/gtest.h" #include "gtest/gtest-spi.h" #include "gtest/internal/gtest-port.h" namespace testing { namespace internal { // Helper class for testing the Expectation class template. class ExpectationTester { public: // Sets the call count of the given expectation to the given number. void SetCallCount(int n, ExpectationBase* exp) { exp->call_count_ = n; } }; } // namespace internal } // namespace testing namespace { using testing::_; using testing::AnyNumber; using testing::AtLeast; using testing::AtMost; using testing::Between; using testing::Cardinality; using testing::CardinalityInterface; using testing::ContainsRegex; using testing::Const; using testing::DoAll; using testing::DoDefault; using testing::Eq; using testing::Expectation; using testing::ExpectationSet; using testing::GMOCK_FLAG(verbose); using testing::Gt; using testing::InSequence; using testing::Invoke; using testing::InvokeWithoutArgs; using testing::IsSubstring; using testing::Lt; using testing::Message; using testing::Mock; using testing::Ne; using testing::Return; using testing::Sequence; using testing::SetArgPointee; using testing::internal::ExpectationTester; using testing::internal::FormatFileLocation; using testing::internal::kErrorVerbosity; using testing::internal::kInfoVerbosity; using testing::internal::kWarningVerbosity; using testing::internal::String; using testing::internal::linked_ptr; using testing::internal::string; #if GTEST_HAS_STREAM_REDIRECTION using testing::HasSubstr; using testing::internal::CaptureStdout; using testing::internal::GetCapturedStdout; #endif class Incomplete; class MockIncomplete { public: // This line verifies that a mock method can take a by-reference // argument of an incomplete type. MOCK_METHOD1(ByRefFunc, void(const Incomplete& x)); }; // Tells Google Mock how to print a value of type Incomplete. void PrintTo(const Incomplete& x, ::std::ostream* os); TEST(MockMethodTest, CanInstantiateWithIncompleteArgType) { // Even though this mock class contains a mock method that takes // by-reference an argument whose type is incomplete, we can still // use the mock, as long as Google Mock knows how to print the // argument. MockIncomplete incomplete; EXPECT_CALL(incomplete, ByRefFunc(_)) .Times(AnyNumber()); } // The definition of the printer for the argument type doesn't have to // be visible where the mock is used. void PrintTo(const Incomplete& /* x */, ::std::ostream* os) { *os << "incomplete"; } class Result {}; class MockA { public: MockA() {} MOCK_METHOD1(DoA, void(int n)); // NOLINT MOCK_METHOD1(ReturnResult, Result(int n)); // NOLINT MOCK_METHOD2(Binary, bool(int x, int y)); // NOLINT MOCK_METHOD2(ReturnInt, int(int x, int y)); // NOLINT private: GTEST_DISALLOW_COPY_AND_ASSIGN_(MockA); }; class MockB { public: MockB() {} MOCK_CONST_METHOD0(DoB, int()); // NOLINT MOCK_METHOD1(DoB, int(int n)); // NOLINT private: GTEST_DISALLOW_COPY_AND_ASSIGN_(MockB); }; class ReferenceHoldingMock { public: ReferenceHoldingMock() {} MOCK_METHOD1(AcceptReference, void(linked_ptr*)); private: GTEST_DISALLOW_COPY_AND_ASSIGN_(ReferenceHoldingMock); }; // Tests that EXPECT_CALL and ON_CALL compile in a presence of macro // redefining a mock method name. This could happen, for example, when // the tested code #includes Win32 API headers which define many APIs // as macros, e.g. #define TextOut TextOutW. #define Method MethodW class CC { public: virtual ~CC() {} virtual int Method() = 0; }; class MockCC : public CC { public: MockCC() {} MOCK_METHOD0(Method, int()); private: GTEST_DISALLOW_COPY_AND_ASSIGN_(MockCC); }; // Tests that a method with expanded name compiles. TEST(OnCallSyntaxTest, CompilesWithMethodNameExpandedFromMacro) { MockCC cc; ON_CALL(cc, Method()); } // Tests that the method with expanded name not only compiles but runs // and returns a correct value, too. TEST(OnCallSyntaxTest, WorksWithMethodNameExpandedFromMacro) { MockCC cc; ON_CALL(cc, Method()).WillByDefault(Return(42)); EXPECT_EQ(42, cc.Method()); } // Tests that a method with expanded name compiles. TEST(ExpectCallSyntaxTest, CompilesWithMethodNameExpandedFromMacro) { MockCC cc; EXPECT_CALL(cc, Method()); cc.Method(); } // Tests that it works, too. TEST(ExpectCallSyntaxTest, WorksWithMethodNameExpandedFromMacro) { MockCC cc; EXPECT_CALL(cc, Method()).WillOnce(Return(42)); EXPECT_EQ(42, cc.Method()); } #undef Method // Done with macro redefinition tests. // Tests that ON_CALL evaluates its arguments exactly once as promised // by Google Mock. TEST(OnCallSyntaxTest, EvaluatesFirstArgumentOnce) { MockA a; MockA* pa = &a; ON_CALL(*pa++, DoA(_)); EXPECT_EQ(&a + 1, pa); } TEST(OnCallSyntaxTest, EvaluatesSecondArgumentOnce) { MockA a; int n = 0; ON_CALL(a, DoA(n++)); EXPECT_EQ(1, n); } // Tests that the syntax of ON_CALL() is enforced at run time. TEST(OnCallSyntaxTest, WithIsOptional) { MockA a; ON_CALL(a, DoA(5)) .WillByDefault(Return()); ON_CALL(a, DoA(_)) .With(_) .WillByDefault(Return()); } TEST(OnCallSyntaxTest, WithCanAppearAtMostOnce) { MockA a; EXPECT_NONFATAL_FAILURE({ // NOLINT ON_CALL(a, ReturnResult(_)) .With(_) .With(_) .WillByDefault(Return(Result())); }, ".With() cannot appear more than once in an ON_CALL()"); } TEST(OnCallSyntaxTest, WillByDefaultIsMandatory) { MockA a; EXPECT_DEATH_IF_SUPPORTED({ ON_CALL(a, DoA(5)); a.DoA(5); }, ""); } TEST(OnCallSyntaxTest, WillByDefaultCanAppearAtMostOnce) { MockA a; EXPECT_NONFATAL_FAILURE({ // NOLINT ON_CALL(a, DoA(5)) .WillByDefault(Return()) .WillByDefault(Return()); }, ".WillByDefault() must appear exactly once in an ON_CALL()"); } // Tests that EXPECT_CALL evaluates its arguments exactly once as // promised by Google Mock. TEST(ExpectCallSyntaxTest, EvaluatesFirstArgumentOnce) { MockA a; MockA* pa = &a; EXPECT_CALL(*pa++, DoA(_)); a.DoA(0); EXPECT_EQ(&a + 1, pa); } TEST(ExpectCallSyntaxTest, EvaluatesSecondArgumentOnce) { MockA a; int n = 0; EXPECT_CALL(a, DoA(n++)); a.DoA(0); EXPECT_EQ(1, n); } // Tests that the syntax of EXPECT_CALL() is enforced at run time. TEST(ExpectCallSyntaxTest, WithIsOptional) { MockA a; EXPECT_CALL(a, DoA(5)) .Times(0); EXPECT_CALL(a, DoA(6)) .With(_) .Times(0); } TEST(ExpectCallSyntaxTest, WithCanAppearAtMostOnce) { MockA a; EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(6)) .With(_) .With(_); }, ".With() cannot appear more than once in an EXPECT_CALL()"); a.DoA(6); } TEST(ExpectCallSyntaxTest, WithMustBeFirstClause) { MockA a; EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(1)) .Times(1) .With(_); }, ".With() must be the first clause in an EXPECT_CALL()"); a.DoA(1); EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(2)) .WillOnce(Return()) .With(_); }, ".With() must be the first clause in an EXPECT_CALL()"); a.DoA(2); } TEST(ExpectCallSyntaxTest, TimesCanBeInferred) { MockA a; EXPECT_CALL(a, DoA(1)) .WillOnce(Return()); EXPECT_CALL(a, DoA(2)) .WillOnce(Return()) .WillRepeatedly(Return()); a.DoA(1); a.DoA(2); a.DoA(2); } TEST(ExpectCallSyntaxTest, TimesCanAppearAtMostOnce) { MockA a; EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(1)) .Times(1) .Times(2); }, ".Times() cannot appear more than once in an EXPECT_CALL()"); a.DoA(1); a.DoA(1); } TEST(ExpectCallSyntaxTest, TimesMustBeBeforeInSequence) { MockA a; Sequence s; EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(1)) .InSequence(s) .Times(1); }, ".Times() cannot appear after "); a.DoA(1); } TEST(ExpectCallSyntaxTest, InSequenceIsOptional) { MockA a; Sequence s; EXPECT_CALL(a, DoA(1)); EXPECT_CALL(a, DoA(2)) .InSequence(s); a.DoA(1); a.DoA(2); } TEST(ExpectCallSyntaxTest, InSequenceCanAppearMultipleTimes) { MockA a; Sequence s1, s2; EXPECT_CALL(a, DoA(1)) .InSequence(s1, s2) .InSequence(s1); a.DoA(1); } TEST(ExpectCallSyntaxTest, InSequenceMustBeBeforeAfter) { MockA a; Sequence s; Expectation e = EXPECT_CALL(a, DoA(1)) .Times(AnyNumber()); EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(2)) .After(e) .InSequence(s); }, ".InSequence() cannot appear after "); a.DoA(2); } TEST(ExpectCallSyntaxTest, InSequenceMustBeBeforeWillOnce) { MockA a; Sequence s; EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(1)) .WillOnce(Return()) .InSequence(s); }, ".InSequence() cannot appear after "); a.DoA(1); } TEST(ExpectCallSyntaxTest, AfterMustBeBeforeWillOnce) { MockA a; Expectation e = EXPECT_CALL(a, DoA(1)); EXPECT_NONFATAL_FAILURE({ EXPECT_CALL(a, DoA(2)) .WillOnce(Return()) .After(e); }, ".After() cannot appear after "); a.DoA(1); a.DoA(2); } TEST(ExpectCallSyntaxTest, WillIsOptional) { MockA a; EXPECT_CALL(a, DoA(1)); EXPECT_CALL(a, DoA(2)) .WillOnce(Return()); a.DoA(1); a.DoA(2); } TEST(ExpectCallSyntaxTest, WillCanAppearMultipleTimes) { MockA a; EXPECT_CALL(a, DoA(1)) .Times(AnyNumber()) .WillOnce(Return()) .WillOnce(Return()) .WillOnce(Return()); } TEST(ExpectCallSyntaxTest, WillMustBeBeforeWillRepeatedly) { MockA a; EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(1)) .WillRepeatedly(Return()) .WillOnce(Return()); }, ".WillOnce() cannot appear after "); a.DoA(1); } TEST(ExpectCallSyntaxTest, WillRepeatedlyIsOptional) { MockA a; EXPECT_CALL(a, DoA(1)) .WillOnce(Return()); EXPECT_CALL(a, DoA(2)) .WillOnce(Return()) .WillRepeatedly(Return()); a.DoA(1); a.DoA(2); a.DoA(2); } TEST(ExpectCallSyntaxTest, WillRepeatedlyCannotAppearMultipleTimes) { MockA a; EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(1)) .WillRepeatedly(Return()) .WillRepeatedly(Return()); }, ".WillRepeatedly() cannot appear more than once in an " "EXPECT_CALL()"); } TEST(ExpectCallSyntaxTest, WillRepeatedlyMustBeBeforeRetiresOnSaturation) { MockA a; EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(1)) .RetiresOnSaturation() .WillRepeatedly(Return()); }, ".WillRepeatedly() cannot appear after "); } TEST(ExpectCallSyntaxTest, RetiresOnSaturationIsOptional) { MockA a; EXPECT_CALL(a, DoA(1)); EXPECT_CALL(a, DoA(1)) .RetiresOnSaturation(); a.DoA(1); a.DoA(1); } TEST(ExpectCallSyntaxTest, RetiresOnSaturationCannotAppearMultipleTimes) { MockA a; EXPECT_NONFATAL_FAILURE({ // NOLINT EXPECT_CALL(a, DoA(1)) .RetiresOnSaturation() .RetiresOnSaturation(); }, ".RetiresOnSaturation() cannot appear more than once"); a.DoA(1); } TEST(ExpectCallSyntaxTest, DefaultCardinalityIsOnce) { { MockA a; EXPECT_CALL(a, DoA(1)); a.DoA(1); } EXPECT_NONFATAL_FAILURE({ // NOLINT MockA a; EXPECT_CALL(a, DoA(1)); }, "to be called once"); EXPECT_NONFATAL_FAILURE({ // NOLINT MockA a; EXPECT_CALL(a, DoA(1)); a.DoA(1); a.DoA(1); }, "to be called once"); } #if GTEST_HAS_STREAM_REDIRECTION // Tests that Google Mock doesn't print a warning when the number of // WillOnce() is adequate. TEST(ExpectCallSyntaxTest, DoesNotWarnOnAdequateActionCount) { CaptureStdout(); { MockB b; // It's always fine to omit WillOnce() entirely. EXPECT_CALL(b, DoB()) .Times(0); EXPECT_CALL(b, DoB(1)) .Times(AtMost(1)); EXPECT_CALL(b, DoB(2)) .Times(1) .WillRepeatedly(Return(1)); // It's fine for the number of WillOnce()s to equal the upper bound. EXPECT_CALL(b, DoB(3)) .Times(Between(1, 2)) .WillOnce(Return(1)) .WillOnce(Return(2)); // It's fine for the number of WillOnce()s to be smaller than the // upper bound when there is a WillRepeatedly(). EXPECT_CALL(b, DoB(4)) .Times(AtMost(3)) .WillOnce(Return(1)) .WillRepeatedly(Return(2)); // Satisfies the above expectations. b.DoB(2); b.DoB(3); } EXPECT_STREQ("", GetCapturedStdout().c_str()); } // Tests that Google Mock warns on having too many actions in an // expectation compared to its cardinality. TEST(ExpectCallSyntaxTest, WarnsOnTooManyActions) { CaptureStdout(); { MockB b; // Warns when the number of WillOnce()s is larger than the upper bound. EXPECT_CALL(b, DoB()) .Times(0) .WillOnce(Return(1)); // #1 EXPECT_CALL(b, DoB()) .Times(AtMost(1)) .WillOnce(Return(1)) .WillOnce(Return(2)); // #2 EXPECT_CALL(b, DoB(1)) .Times(1) .WillOnce(Return(1)) .WillOnce(Return(2)) .RetiresOnSaturation(); // #3 // Warns when the number of WillOnce()s equals the upper bound and // there is a WillRepeatedly(). EXPECT_CALL(b, DoB()) .Times(0) .WillRepeatedly(Return(1)); // #4 EXPECT_CALL(b, DoB(2)) .Times(1) .WillOnce(Return(1)) .WillRepeatedly(Return(2)); // #5 // Satisfies the above expectations. b.DoB(1); b.DoB(2); } const String output = GetCapturedStdout(); EXPECT_PRED_FORMAT2( IsSubstring, "Too many actions specified in EXPECT_CALL(b, DoB())...\n" "Expected to be never called, but has 1 WillOnce().", output); // #1 EXPECT_PRED_FORMAT2( IsSubstring, "Too many actions specified in EXPECT_CALL(b, DoB())...\n" "Expected to be called at most once, " "but has 2 WillOnce()s.", output); // #2 EXPECT_PRED_FORMAT2( IsSubstring, "Too many actions specified in EXPECT_CALL(b, DoB(1))...\n" "Expected to be called once, but has 2 WillOnce()s.", output); // #3 EXPECT_PRED_FORMAT2( IsSubstring, "Too many actions specified in EXPECT_CALL(b, DoB())...\n" "Expected to be never called, but has 0 WillOnce()s " "and a WillRepeatedly().", output); // #4 EXPECT_PRED_FORMAT2( IsSubstring, "Too many actions specified in EXPECT_CALL(b, DoB(2))...\n" "Expected to be called once, but has 1 WillOnce() " "and a WillRepeatedly().", output); // #5 } // Tests that Google Mock warns on having too few actions in an // expectation compared to its cardinality. TEST(ExpectCallSyntaxTest, WarnsOnTooFewActions) { MockB b; EXPECT_CALL(b, DoB()) .Times(Between(2, 3)) .WillOnce(Return(1)); CaptureStdout(); b.DoB(); const String output = GetCapturedStdout(); EXPECT_PRED_FORMAT2( IsSubstring, "Too few actions specified in EXPECT_CALL(b, DoB())...\n" "Expected to be called between 2 and 3 times, " "but has only 1 WillOnce().", output); b.DoB(); } #endif // GTEST_HAS_STREAM_REDIRECTION // Tests the semantics of ON_CALL(). // Tests that the built-in default action is taken when no ON_CALL() // is specified. TEST(OnCallTest, TakesBuiltInDefaultActionWhenNoOnCall) { MockB b; EXPECT_CALL(b, DoB()); EXPECT_EQ(0, b.DoB()); } // Tests that the built-in default action is taken when no ON_CALL() // matches the invocation. TEST(OnCallTest, TakesBuiltInDefaultActionWhenNoOnCallMatches) { MockB b; ON_CALL(b, DoB(1)) .WillByDefault(Return(1)); EXPECT_CALL(b, DoB(_)); EXPECT_EQ(0, b.DoB(2)); } // Tests that the last matching ON_CALL() action is taken. TEST(OnCallTest, PicksLastMatchingOnCall) { MockB b; ON_CALL(b, DoB(_)) .WillByDefault(Return(3)); ON_CALL(b, DoB(2)) .WillByDefault(Return(2)); ON_CALL(b, DoB(1)) .WillByDefault(Return(1)); EXPECT_CALL(b, DoB(_)); EXPECT_EQ(2, b.DoB(2)); } // Tests the semantics of EXPECT_CALL(). // Tests that any call is allowed when no EXPECT_CALL() is specified. TEST(ExpectCallTest, AllowsAnyCallWhenNoSpec) { MockB b; EXPECT_CALL(b, DoB()); // There is no expectation on DoB(int). b.DoB(); // DoB(int) can be called any number of times. b.DoB(1); b.DoB(2); } // Tests that the last matching EXPECT_CALL() fires. TEST(ExpectCallTest, PicksLastMatchingExpectCall) { MockB b; EXPECT_CALL(b, DoB(_)) .WillRepeatedly(Return(2)); EXPECT_CALL(b, DoB(1)) .WillRepeatedly(Return(1)); EXPECT_EQ(1, b.DoB(1)); } // Tests lower-bound violation. TEST(ExpectCallTest, CatchesTooFewCalls) { EXPECT_NONFATAL_FAILURE({ // NOLINT MockB b; EXPECT_CALL(b, DoB(5)) .Times(AtLeast(2)); b.DoB(5); }, "Actual function call count doesn't match EXPECT_CALL(b, DoB(5))...\n" " Expected: to be called at least twice\n" " Actual: called once - unsatisfied and active"); } // Tests that the cardinality can be inferred when no Times(...) is // specified. TEST(ExpectCallTest, InfersCardinalityWhenThereIsNoWillRepeatedly) { { MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)) .WillOnce(Return(2)); EXPECT_EQ(1, b.DoB()); EXPECT_EQ(2, b.DoB()); } EXPECT_NONFATAL_FAILURE({ // NOLINT MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)) .WillOnce(Return(2)); EXPECT_EQ(1, b.DoB()); }, "to be called twice"); { // NOLINT MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)) .WillOnce(Return(2)); EXPECT_EQ(1, b.DoB()); EXPECT_EQ(2, b.DoB()); EXPECT_NONFATAL_FAILURE(b.DoB(), "to be called twice"); } } TEST(ExpectCallTest, InfersCardinality1WhenThereIsWillRepeatedly) { { MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)) .WillRepeatedly(Return(2)); EXPECT_EQ(1, b.DoB()); } { // NOLINT MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)) .WillRepeatedly(Return(2)); EXPECT_EQ(1, b.DoB()); EXPECT_EQ(2, b.DoB()); EXPECT_EQ(2, b.DoB()); } EXPECT_NONFATAL_FAILURE({ // NOLINT MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)) .WillRepeatedly(Return(2)); }, "to be called at least once"); } // Tests that the n-th action is taken for the n-th matching // invocation. TEST(ExpectCallTest, NthMatchTakesNthAction) { MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)) .WillOnce(Return(2)) .WillOnce(Return(3)); EXPECT_EQ(1, b.DoB()); EXPECT_EQ(2, b.DoB()); EXPECT_EQ(3, b.DoB()); } // Tests that the WillRepeatedly() action is taken when the WillOnce(...) // list is exhausted. TEST(ExpectCallTest, TakesRepeatedActionWhenWillListIsExhausted) { MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)) .WillRepeatedly(Return(2)); EXPECT_EQ(1, b.DoB()); EXPECT_EQ(2, b.DoB()); EXPECT_EQ(2, b.DoB()); } #if GTEST_HAS_STREAM_REDIRECTION // Tests that the default action is taken when the WillOnce(...) list is // exhausted and there is no WillRepeatedly(). TEST(ExpectCallTest, TakesDefaultActionWhenWillListIsExhausted) { MockB b; EXPECT_CALL(b, DoB(_)) .Times(1); EXPECT_CALL(b, DoB()) .Times(AnyNumber()) .WillOnce(Return(1)) .WillOnce(Return(2)); CaptureStdout(); EXPECT_EQ(0, b.DoB(1)); // Shouldn't generate a warning as the // expectation has no action clause at all. EXPECT_EQ(1, b.DoB()); EXPECT_EQ(2, b.DoB()); const String output1 = GetCapturedStdout(); EXPECT_STREQ("", output1.c_str()); CaptureStdout(); EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB()); const String output2 = GetCapturedStdout(); EXPECT_THAT(output2.c_str(), HasSubstr("Actions ran out in EXPECT_CALL(b, DoB())...\n" "Called 3 times, but only 2 WillOnce()s are specified" " - returning default value.")); EXPECT_THAT(output2.c_str(), HasSubstr("Actions ran out in EXPECT_CALL(b, DoB())...\n" "Called 4 times, but only 2 WillOnce()s are specified" " - returning default value.")); } TEST(FunctionMockerTest, ReportsExpectCallLocationForExhausedActions) { MockB b; std::string expect_call_location = FormatFileLocation(__FILE__, __LINE__ + 1); EXPECT_CALL(b, DoB()).Times(AnyNumber()).WillOnce(Return(1)); EXPECT_EQ(1, b.DoB()); CaptureStdout(); EXPECT_EQ(0, b.DoB()); const String output = GetCapturedStdout(); // The warning message should contain the call location. EXPECT_PRED_FORMAT2(IsSubstring, expect_call_location, output); } TEST(FunctionMockerTest, ReportsDefaultActionLocationOfUninterestingCalls) { std::string on_call_location; CaptureStdout(); { MockB b; on_call_location = FormatFileLocation(__FILE__, __LINE__ + 1); ON_CALL(b, DoB(_)).WillByDefault(Return(0)); b.DoB(0); } EXPECT_PRED_FORMAT2(IsSubstring, on_call_location, GetCapturedStdout()); } #endif // GTEST_HAS_STREAM_REDIRECTION // Tests that an uninteresting call performs the default action. TEST(UninterestingCallTest, DoesDefaultAction) { // When there is an ON_CALL() statement, the action specified by it // should be taken. MockA a; ON_CALL(a, Binary(_, _)) .WillByDefault(Return(true)); EXPECT_TRUE(a.Binary(1, 2)); // When there is no ON_CALL(), the default value for the return type // should be returned. MockB b; EXPECT_EQ(0, b.DoB()); } // Tests that an unexpected call performs the default action. TEST(UnexpectedCallTest, DoesDefaultAction) { // When there is an ON_CALL() statement, the action specified by it // should be taken. MockA a; ON_CALL(a, Binary(_, _)) .WillByDefault(Return(true)); EXPECT_CALL(a, Binary(0, 0)); a.Binary(0, 0); bool result = false; EXPECT_NONFATAL_FAILURE(result = a.Binary(1, 2), "Unexpected mock function call"); EXPECT_TRUE(result); // When there is no ON_CALL(), the default value for the return type // should be returned. MockB b; EXPECT_CALL(b, DoB(0)) .Times(0); int n = -1; EXPECT_NONFATAL_FAILURE(n = b.DoB(1), "Unexpected mock function call"); EXPECT_EQ(0, n); } // Tests that when an unexpected void function generates the right // failure message. TEST(UnexpectedCallTest, GeneratesFailureForVoidFunction) { // First, tests the message when there is only one EXPECT_CALL(). MockA a1; EXPECT_CALL(a1, DoA(1)); a1.DoA(1); // Ideally we should match the failure message against a regex, but // EXPECT_NONFATAL_FAILURE doesn't support that, so we test for // multiple sub-strings instead. EXPECT_NONFATAL_FAILURE( a1.DoA(9), "Unexpected mock function call - returning directly.\n" " Function call: DoA(9)\n" "Google Mock tried the following 1 expectation, but it didn't match:"); EXPECT_NONFATAL_FAILURE( a1.DoA(9), " Expected arg #0: is equal to 1\n" " Actual: 9\n" " Expected: to be called once\n" " Actual: called once - saturated and active"); // Next, tests the message when there are more than one EXPECT_CALL(). MockA a2; EXPECT_CALL(a2, DoA(1)); EXPECT_CALL(a2, DoA(3)); a2.DoA(1); EXPECT_NONFATAL_FAILURE( a2.DoA(2), "Unexpected mock function call - returning directly.\n" " Function call: DoA(2)\n" "Google Mock tried the following 2 expectations, but none matched:"); EXPECT_NONFATAL_FAILURE( a2.DoA(2), "tried expectation #0: EXPECT_CALL(a2, DoA(1))...\n" " Expected arg #0: is equal to 1\n" " Actual: 2\n" " Expected: to be called once\n" " Actual: called once - saturated and active"); EXPECT_NONFATAL_FAILURE( a2.DoA(2), "tried expectation #1: EXPECT_CALL(a2, DoA(3))...\n" " Expected arg #0: is equal to 3\n" " Actual: 2\n" " Expected: to be called once\n" " Actual: never called - unsatisfied and active"); a2.DoA(3); } // Tests that an unexpected non-void function generates the right // failure message. TEST(UnexpectedCallTest, GeneartesFailureForNonVoidFunction) { MockB b1; EXPECT_CALL(b1, DoB(1)); b1.DoB(1); EXPECT_NONFATAL_FAILURE( b1.DoB(2), "Unexpected mock function call - returning default value.\n" " Function call: DoB(2)\n" " Returns: 0\n" "Google Mock tried the following 1 expectation, but it didn't match:"); EXPECT_NONFATAL_FAILURE( b1.DoB(2), " Expected arg #0: is equal to 1\n" " Actual: 2\n" " Expected: to be called once\n" " Actual: called once - saturated and active"); } // Tests that Google Mock explains that an retired expectation doesn't // match the call. TEST(UnexpectedCallTest, RetiredExpectation) { MockB b; EXPECT_CALL(b, DoB(1)) .RetiresOnSaturation(); b.DoB(1); EXPECT_NONFATAL_FAILURE( b.DoB(1), " Expected: the expectation is active\n" " Actual: it is retired"); } // Tests that Google Mock explains that an expectation that doesn't // match the arguments doesn't match the call. TEST(UnexpectedCallTest, UnmatchedArguments) { MockB b; EXPECT_CALL(b, DoB(1)); EXPECT_NONFATAL_FAILURE( b.DoB(2), " Expected arg #0: is equal to 1\n" " Actual: 2\n"); b.DoB(1); } // Tests that Google Mock explains that an expectation with // unsatisfied pre-requisites doesn't match the call. TEST(UnexpectedCallTest, UnsatisifiedPrerequisites) { Sequence s1, s2; MockB b; EXPECT_CALL(b, DoB(1)) .InSequence(s1); EXPECT_CALL(b, DoB(2)) .Times(AnyNumber()) .InSequence(s1); EXPECT_CALL(b, DoB(3)) .InSequence(s2); EXPECT_CALL(b, DoB(4)) .InSequence(s1, s2); ::testing::TestPartResultArray failures; { ::testing::ScopedFakeTestPartResultReporter reporter(&failures); b.DoB(4); // Now 'failures' contains the Google Test failures generated by // the above statement. } // There should be one non-fatal failure. ASSERT_EQ(1, failures.size()); const ::testing::TestPartResult& r = failures.GetTestPartResult(0); EXPECT_EQ(::testing::TestPartResult::kNonFatalFailure, r.type()); // Verifies that the failure message contains the two unsatisfied // pre-requisites but not the satisfied one. #if GTEST_USES_PCRE EXPECT_THAT(r.message(), ContainsRegex( // PCRE has trouble using (.|\n) to match any character, but // supports the (?s) prefix for using . to match any character. "(?s)the following immediate pre-requisites are not satisfied:\n" ".*: pre-requisite #0\n" ".*: pre-requisite #1")); #elif GTEST_USES_POSIX_RE EXPECT_THAT(r.message(), ContainsRegex( // POSIX RE doesn't understand the (?s) prefix, but has no trouble // with (.|\n). "the following immediate pre-requisites are not satisfied:\n" "(.|\n)*: pre-requisite #0\n" "(.|\n)*: pre-requisite #1")); #else // We can only use Google Test's own simple regex. EXPECT_THAT(r.message(), ContainsRegex( "the following immediate pre-requisites are not satisfied:")); EXPECT_THAT(r.message(), ContainsRegex(": pre-requisite #0")); EXPECT_THAT(r.message(), ContainsRegex(": pre-requisite #1")); #endif // GTEST_USES_PCRE b.DoB(1); b.DoB(3); b.DoB(4); } TEST(UndefinedReturnValueTest, ReturnValueIsMandatory) { MockA a; // TODO(wan@google.com): We should really verify the output message, // but we cannot yet due to that EXPECT_DEATH only captures stderr // while Google Mock logs to stdout. EXPECT_DEATH_IF_SUPPORTED(a.ReturnResult(1), ""); } // Tests that an excessive call (one whose arguments match the // matchers but is called too many times) performs the default action. TEST(ExcessiveCallTest, DoesDefaultAction) { // When there is an ON_CALL() statement, the action specified by it // should be taken. MockA a; ON_CALL(a, Binary(_, _)) .WillByDefault(Return(true)); EXPECT_CALL(a, Binary(0, 0)); a.Binary(0, 0); bool result = false; EXPECT_NONFATAL_FAILURE(result = a.Binary(0, 0), "Mock function called more times than expected"); EXPECT_TRUE(result); // When there is no ON_CALL(), the default value for the return type // should be returned. MockB b; EXPECT_CALL(b, DoB(0)) .Times(0); int n = -1; EXPECT_NONFATAL_FAILURE(n = b.DoB(0), "Mock function called more times than expected"); EXPECT_EQ(0, n); } // Tests that when a void function is called too many times, // the failure message contains the argument values. TEST(ExcessiveCallTest, GeneratesFailureForVoidFunction) { MockA a; EXPECT_CALL(a, DoA(_)) .Times(0); EXPECT_NONFATAL_FAILURE( a.DoA(9), "Mock function called more times than expected - returning directly.\n" " Function call: DoA(9)\n" " Expected: to be never called\n" " Actual: called once - over-saturated and active"); } // Tests that when a non-void function is called too many times, the // failure message contains the argument values and the return value. TEST(ExcessiveCallTest, GeneratesFailureForNonVoidFunction) { MockB b; EXPECT_CALL(b, DoB(_)); b.DoB(1); EXPECT_NONFATAL_FAILURE( b.DoB(2), "Mock function called more times than expected - " "returning default value.\n" " Function call: DoB(2)\n" " Returns: 0\n" " Expected: to be called once\n" " Actual: called twice - over-saturated and active"); } // Tests using sequences. TEST(InSequenceTest, AllExpectationInScopeAreInSequence) { MockA a; { InSequence dummy; EXPECT_CALL(a, DoA(1)); EXPECT_CALL(a, DoA(2)); } EXPECT_NONFATAL_FAILURE({ // NOLINT a.DoA(2); }, "Unexpected mock function call"); a.DoA(1); a.DoA(2); } TEST(InSequenceTest, NestedInSequence) { MockA a; { InSequence dummy; EXPECT_CALL(a, DoA(1)); { InSequence dummy2; EXPECT_CALL(a, DoA(2)); EXPECT_CALL(a, DoA(3)); } } EXPECT_NONFATAL_FAILURE({ // NOLINT a.DoA(1); a.DoA(3); }, "Unexpected mock function call"); a.DoA(2); a.DoA(3); } TEST(InSequenceTest, ExpectationsOutOfScopeAreNotAffected) { MockA a; { InSequence dummy; EXPECT_CALL(a, DoA(1)); EXPECT_CALL(a, DoA(2)); } EXPECT_CALL(a, DoA(3)); EXPECT_NONFATAL_FAILURE({ // NOLINT a.DoA(2); }, "Unexpected mock function call"); a.DoA(3); a.DoA(1); a.DoA(2); } // Tests that any order is allowed when no sequence is used. TEST(SequenceTest, AnyOrderIsOkByDefault) { { MockA a; MockB b; EXPECT_CALL(a, DoA(1)); EXPECT_CALL(b, DoB()) .Times(AnyNumber()); a.DoA(1); b.DoB(); } { // NOLINT MockA a; MockB b; EXPECT_CALL(a, DoA(1)); EXPECT_CALL(b, DoB()) .Times(AnyNumber()); b.DoB(); a.DoA(1); } } // Tests that the calls must be in strict order when a complete order // is specified. TEST(SequenceTest, CallsMustBeInStrictOrderWhenSaidSo) { MockA a; Sequence s; EXPECT_CALL(a, ReturnResult(1)) .InSequence(s) .WillOnce(Return(Result())); EXPECT_CALL(a, ReturnResult(2)) .InSequence(s) .WillOnce(Return(Result())); EXPECT_CALL(a, ReturnResult(3)) .InSequence(s) .WillOnce(Return(Result())); EXPECT_DEATH_IF_SUPPORTED({ a.ReturnResult(1); a.ReturnResult(3); a.ReturnResult(2); }, ""); EXPECT_DEATH_IF_SUPPORTED({ a.ReturnResult(2); a.ReturnResult(1); a.ReturnResult(3); }, ""); a.ReturnResult(1); a.ReturnResult(2); a.ReturnResult(3); } // Tests specifying a DAG using multiple sequences. TEST(SequenceTest, CallsMustConformToSpecifiedDag) { MockA a; MockB b; Sequence x, y; EXPECT_CALL(a, ReturnResult(1)) .InSequence(x) .WillOnce(Return(Result())); EXPECT_CALL(b, DoB()) .Times(2) .InSequence(y); EXPECT_CALL(a, ReturnResult(2)) .InSequence(x, y) .WillRepeatedly(Return(Result())); EXPECT_CALL(a, ReturnResult(3)) .InSequence(x) .WillOnce(Return(Result())); EXPECT_DEATH_IF_SUPPORTED({ a.ReturnResult(1); b.DoB(); a.ReturnResult(2); }, ""); EXPECT_DEATH_IF_SUPPORTED({ a.ReturnResult(2); }, ""); EXPECT_DEATH_IF_SUPPORTED({ a.ReturnResult(3); }, ""); EXPECT_DEATH_IF_SUPPORTED({ a.ReturnResult(1); b.DoB(); b.DoB(); a.ReturnResult(3); a.ReturnResult(2); }, ""); b.DoB(); a.ReturnResult(1); b.DoB(); a.ReturnResult(3); } TEST(SequenceTest, Retirement) { MockA a; Sequence s; EXPECT_CALL(a, DoA(1)) .InSequence(s); EXPECT_CALL(a, DoA(_)) .InSequence(s) .RetiresOnSaturation(); EXPECT_CALL(a, DoA(1)) .InSequence(s); a.DoA(1); a.DoA(2); a.DoA(1); } // Tests Expectation. TEST(ExpectationTest, ConstrutorsWork) { MockA a; Expectation e1; // Default ctor. // Ctor from various forms of EXPECT_CALL. Expectation e2 = EXPECT_CALL(a, DoA(2)); Expectation e3 = EXPECT_CALL(a, DoA(3)).With(_); { Sequence s; Expectation e4 = EXPECT_CALL(a, DoA(4)).Times(1); Expectation e5 = EXPECT_CALL(a, DoA(5)).InSequence(s); } Expectation e6 = EXPECT_CALL(a, DoA(6)).After(e2); Expectation e7 = EXPECT_CALL(a, DoA(7)).WillOnce(Return()); Expectation e8 = EXPECT_CALL(a, DoA(8)).WillRepeatedly(Return()); Expectation e9 = EXPECT_CALL(a, DoA(9)).RetiresOnSaturation(); Expectation e10 = e2; // Copy ctor. EXPECT_THAT(e1, Ne(e2)); EXPECT_THAT(e2, Eq(e10)); a.DoA(2); a.DoA(3); a.DoA(4); a.DoA(5); a.DoA(6); a.DoA(7); a.DoA(8); a.DoA(9); } TEST(ExpectationTest, AssignmentWorks) { MockA a; Expectation e1; Expectation e2 = EXPECT_CALL(a, DoA(1)); EXPECT_THAT(e1, Ne(e2)); e1 = e2; EXPECT_THAT(e1, Eq(e2)); a.DoA(1); } // Tests ExpectationSet. TEST(ExpectationSetTest, MemberTypesAreCorrect) { ::testing::StaticAssertTypeEq(); } TEST(ExpectationSetTest, ConstructorsWork) { MockA a; Expectation e1; const Expectation e2; ExpectationSet es1; // Default ctor. ExpectationSet es2 = EXPECT_CALL(a, DoA(1)); // Ctor from EXPECT_CALL. ExpectationSet es3 = e1; // Ctor from Expectation. ExpectationSet es4(e1); // Ctor from Expectation; alternative syntax. ExpectationSet es5 = e2; // Ctor from const Expectation. ExpectationSet es6(e2); // Ctor from const Expectation; alternative syntax. ExpectationSet es7 = es2; // Copy ctor. EXPECT_EQ(0, es1.size()); EXPECT_EQ(1, es2.size()); EXPECT_EQ(1, es3.size()); EXPECT_EQ(1, es4.size()); EXPECT_EQ(1, es5.size()); EXPECT_EQ(1, es6.size()); EXPECT_EQ(1, es7.size()); EXPECT_THAT(es3, Ne(es2)); EXPECT_THAT(es4, Eq(es3)); EXPECT_THAT(es5, Eq(es4)); EXPECT_THAT(es6, Eq(es5)); EXPECT_THAT(es7, Eq(es2)); a.DoA(1); } TEST(ExpectationSetTest, AssignmentWorks) { ExpectationSet es1; ExpectationSet es2 = Expectation(); es1 = es2; EXPECT_EQ(1, es1.size()); EXPECT_THAT(*(es1.begin()), Eq(Expectation())); EXPECT_THAT(es1, Eq(es2)); } TEST(ExpectationSetTest, InsertionWorks) { ExpectationSet es1; Expectation e1; es1 += e1; EXPECT_EQ(1, es1.size()); EXPECT_THAT(*(es1.begin()), Eq(e1)); MockA a; Expectation e2 = EXPECT_CALL(a, DoA(1)); es1 += e2; EXPECT_EQ(2, es1.size()); ExpectationSet::const_iterator it1 = es1.begin(); ExpectationSet::const_iterator it2 = it1; ++it2; EXPECT_TRUE(*it1 == e1 || *it2 == e1); // e1 must be in the set. EXPECT_TRUE(*it1 == e2 || *it2 == e2); // e2 must be in the set too. a.DoA(1); } TEST(ExpectationSetTest, SizeWorks) { ExpectationSet es; EXPECT_EQ(0, es.size()); es += Expectation(); EXPECT_EQ(1, es.size()); MockA a; es += EXPECT_CALL(a, DoA(1)); EXPECT_EQ(2, es.size()); a.DoA(1); } TEST(ExpectationSetTest, IsEnumerable) { ExpectationSet es; EXPECT_THAT(es.begin(), Eq(es.end())); es += Expectation(); ExpectationSet::const_iterator it = es.begin(); EXPECT_THAT(it, Ne(es.end())); EXPECT_THAT(*it, Eq(Expectation())); ++it; EXPECT_THAT(it, Eq(es.end())); } // Tests the .After() clause. TEST(AfterTest, SucceedsWhenPartialOrderIsSatisfied) { MockA a; ExpectationSet es; es += EXPECT_CALL(a, DoA(1)); es += EXPECT_CALL(a, DoA(2)); EXPECT_CALL(a, DoA(3)) .After(es); a.DoA(1); a.DoA(2); a.DoA(3); } TEST(AfterTest, SucceedsWhenTotalOrderIsSatisfied) { MockA a; MockB b; // The following also verifies that const Expectation objects work // too. Do not remove the const modifiers. const Expectation e1 = EXPECT_CALL(a, DoA(1)); const Expectation e2 = EXPECT_CALL(b, DoB()) .Times(2) .After(e1); EXPECT_CALL(a, DoA(2)).After(e2); a.DoA(1); b.DoB(); b.DoB(); a.DoA(2); } // Calls must be in strict order when specified so. TEST(AfterDeathTest, CallsMustBeInStrictOrderWhenSpecifiedSo) { MockA a; MockB b; Expectation e1 = EXPECT_CALL(a, DoA(1)); Expectation e2 = EXPECT_CALL(b, DoB()) .Times(2) .After(e1); EXPECT_CALL(a, ReturnResult(2)) .After(e2) .WillOnce(Return(Result())); a.DoA(1); // If a call to ReturnResult() violates the specified order, no // matching expectation will be found, and thus the default action // will be done. Since the return type of ReturnResult() is not a // built-in type, gmock won't know what to return and will thus // abort the program. Therefore a death test can tell us whether // gmock catches the order violation correctly. // // gtest and gmock print messages to stdout, which isn't captured by // death tests. Therefore we have to match with an empty regular // expression in all the EXPECT_DEATH()s. EXPECT_DEATH_IF_SUPPORTED(a.ReturnResult(2), ""); b.DoB(); EXPECT_DEATH_IF_SUPPORTED(a.ReturnResult(2), ""); b.DoB(); a.ReturnResult(2); } // Calls must satisfy the partial order when specified so. TEST(AfterDeathTest, CallsMustSatisfyPartialOrderWhenSpecifiedSo) { MockA a; Expectation e = EXPECT_CALL(a, DoA(1)); const ExpectationSet es = EXPECT_CALL(a, DoA(2)); EXPECT_CALL(a, ReturnResult(3)) .After(e, es) .WillOnce(Return(Result())); EXPECT_DEATH_IF_SUPPORTED(a.ReturnResult(3), ""); a.DoA(2); EXPECT_DEATH_IF_SUPPORTED(a.ReturnResult(3), ""); a.DoA(1); a.ReturnResult(3); } // .After() can be combined with .InSequence(). TEST(AfterDeathTest, CanBeUsedWithInSequence) { MockA a; Sequence s; Expectation e = EXPECT_CALL(a, DoA(1)); EXPECT_CALL(a, DoA(2)).InSequence(s); EXPECT_CALL(a, ReturnResult(3)) .InSequence(s).After(e) .WillOnce(Return(Result())); a.DoA(1); EXPECT_DEATH_IF_SUPPORTED(a.ReturnResult(3), ""); a.DoA(2); a.ReturnResult(3); } // .After() can be called multiple times. TEST(AfterTest, CanBeCalledManyTimes) { MockA a; Expectation e1 = EXPECT_CALL(a, DoA(1)); Expectation e2 = EXPECT_CALL(a, DoA(2)); Expectation e3 = EXPECT_CALL(a, DoA(3)); EXPECT_CALL(a, DoA(4)) .After(e1) .After(e2) .After(e3); a.DoA(3); a.DoA(1); a.DoA(2); a.DoA(4); } // .After() accepts up to 5 arguments. TEST(AfterTest, AcceptsUpToFiveArguments) { MockA a; Expectation e1 = EXPECT_CALL(a, DoA(1)); Expectation e2 = EXPECT_CALL(a, DoA(2)); Expectation e3 = EXPECT_CALL(a, DoA(3)); ExpectationSet es1 = EXPECT_CALL(a, DoA(4)); ExpectationSet es2 = EXPECT_CALL(a, DoA(5)); EXPECT_CALL(a, DoA(6)) .After(e1, e2, e3, es1, es2); a.DoA(5); a.DoA(2); a.DoA(4); a.DoA(1); a.DoA(3); a.DoA(6); } // .After() allows input to contain duplicated Expectations. TEST(AfterTest, AcceptsDuplicatedInput) { MockA a; Expectation e1 = EXPECT_CALL(a, DoA(1)); Expectation e2 = EXPECT_CALL(a, DoA(2)); ExpectationSet es; es += e1; es += e2; EXPECT_CALL(a, ReturnResult(3)) .After(e1, e2, es, e1) .WillOnce(Return(Result())); a.DoA(1); EXPECT_DEATH_IF_SUPPORTED(a.ReturnResult(3), ""); a.DoA(2); a.ReturnResult(3); } // An Expectation added to an ExpectationSet after it has been used in // an .After() has no effect. TEST(AfterTest, ChangesToExpectationSetHaveNoEffectAfterwards) { MockA a; ExpectationSet es1 = EXPECT_CALL(a, DoA(1)); Expectation e2 = EXPECT_CALL(a, DoA(2)); EXPECT_CALL(a, DoA(3)) .After(es1); es1 += e2; a.DoA(1); a.DoA(3); a.DoA(2); } // Tests that Google Mock correctly handles calls to mock functions // after a mock object owning one of their pre-requisites has died. // Tests that calls that satisfy the original spec are successful. TEST(DeletingMockEarlyTest, Success1) { MockB* const b1 = new MockB; MockA* const a = new MockA; MockB* const b2 = new MockB; { InSequence dummy; EXPECT_CALL(*b1, DoB(_)) .WillOnce(Return(1)); EXPECT_CALL(*a, Binary(_, _)) .Times(AnyNumber()) .WillRepeatedly(Return(true)); EXPECT_CALL(*b2, DoB(_)) .Times(AnyNumber()) .WillRepeatedly(Return(2)); } EXPECT_EQ(1, b1->DoB(1)); delete b1; // a's pre-requisite has died. EXPECT_TRUE(a->Binary(0, 1)); delete b2; // a's successor has died. EXPECT_TRUE(a->Binary(1, 2)); delete a; } // Tests that calls that satisfy the original spec are successful. TEST(DeletingMockEarlyTest, Success2) { MockB* const b1 = new MockB; MockA* const a = new MockA; MockB* const b2 = new MockB; { InSequence dummy; EXPECT_CALL(*b1, DoB(_)) .WillOnce(Return(1)); EXPECT_CALL(*a, Binary(_, _)) .Times(AnyNumber()); EXPECT_CALL(*b2, DoB(_)) .Times(AnyNumber()) .WillRepeatedly(Return(2)); } delete a; // a is trivially satisfied. EXPECT_EQ(1, b1->DoB(1)); EXPECT_EQ(2, b2->DoB(2)); delete b1; delete b2; } // Tests that it's OK to delete a mock object itself in its action. // Suppresses warning on unreferenced formal parameter in MSVC with // -W4. #ifdef _MSC_VER # pragma warning(push) # pragma warning(disable:4100) #endif ACTION_P(Delete, ptr) { delete ptr; } #ifdef _MSC_VER # pragma warning(pop) #endif TEST(DeletingMockEarlyTest, CanDeleteSelfInActionReturningVoid) { MockA* const a = new MockA; EXPECT_CALL(*a, DoA(_)).WillOnce(Delete(a)); a->DoA(42); // This will cause a to be deleted. } TEST(DeletingMockEarlyTest, CanDeleteSelfInActionReturningValue) { MockA* const a = new MockA; EXPECT_CALL(*a, ReturnResult(_)) .WillOnce(DoAll(Delete(a), Return(Result()))); a->ReturnResult(42); // This will cause a to be deleted. } // Tests that calls that violate the original spec yield failures. TEST(DeletingMockEarlyTest, Failure1) { MockB* const b1 = new MockB; MockA* const a = new MockA; MockB* const b2 = new MockB; { InSequence dummy; EXPECT_CALL(*b1, DoB(_)) .WillOnce(Return(1)); EXPECT_CALL(*a, Binary(_, _)) .Times(AnyNumber()); EXPECT_CALL(*b2, DoB(_)) .Times(AnyNumber()) .WillRepeatedly(Return(2)); } delete a; // a is trivially satisfied. EXPECT_NONFATAL_FAILURE({ b2->DoB(2); }, "Unexpected mock function call"); EXPECT_EQ(1, b1->DoB(1)); delete b1; delete b2; } // Tests that calls that violate the original spec yield failures. TEST(DeletingMockEarlyTest, Failure2) { MockB* const b1 = new MockB; MockA* const a = new MockA; MockB* const b2 = new MockB; { InSequence dummy; EXPECT_CALL(*b1, DoB(_)); EXPECT_CALL(*a, Binary(_, _)) .Times(AnyNumber()); EXPECT_CALL(*b2, DoB(_)) .Times(AnyNumber()); } EXPECT_NONFATAL_FAILURE(delete b1, "Actual: never called"); EXPECT_NONFATAL_FAILURE(a->Binary(0, 1), "Unexpected mock function call"); EXPECT_NONFATAL_FAILURE(b2->DoB(1), "Unexpected mock function call"); delete a; delete b2; } class EvenNumberCardinality : public CardinalityInterface { public: // Returns true iff call_count calls will satisfy this cardinality. virtual bool IsSatisfiedByCallCount(int call_count) const { return call_count % 2 == 0; } // Returns true iff call_count calls will saturate this cardinality. virtual bool IsSaturatedByCallCount(int /* call_count */) const { return false; } // Describes self to an ostream. virtual void DescribeTo(::std::ostream* os) const { *os << "called even number of times"; } }; Cardinality EvenNumber() { return Cardinality(new EvenNumberCardinality); } TEST(ExpectationBaseTest, AllPrerequisitesAreSatisfiedWorksForNonMonotonicCardinality) { MockA* a = new MockA; Sequence s; EXPECT_CALL(*a, DoA(1)) .Times(EvenNumber()) .InSequence(s); EXPECT_CALL(*a, DoA(2)) .Times(AnyNumber()) .InSequence(s); EXPECT_CALL(*a, DoA(3)) .Times(AnyNumber()); a->DoA(3); a->DoA(1); EXPECT_NONFATAL_FAILURE(a->DoA(2), "Unexpected mock function call"); EXPECT_NONFATAL_FAILURE(delete a, "to be called even number of times"); } // The following tests verify the message generated when a mock // function is called. struct Printable { }; inline void operator<<(::std::ostream& os, const Printable&) { os << "Printable"; } struct Unprintable { Unprintable() : value(0) {} int value; }; class MockC { public: MockC() {} MOCK_METHOD6(VoidMethod, void(bool cond, int n, string s, void* p, const Printable& x, Unprintable y)); MOCK_METHOD0(NonVoidMethod, int()); // NOLINT private: GTEST_DISALLOW_COPY_AND_ASSIGN_(MockC); }; class VerboseFlagPreservingFixture : public testing::Test { protected: // The code needs to work when both ::string and ::std::string are defined // and the flag is implemented as a testing::internal::String. In this // case, without the call to c_str(), the compiler will complain that it // cannot figure out what overload of string constructor to use. // TODO(vladl@google.com): Use internal::string instead of String for // string flags in Google Test. VerboseFlagPreservingFixture() : saved_verbose_flag_(GMOCK_FLAG(verbose).c_str()) {} ~VerboseFlagPreservingFixture() { GMOCK_FLAG(verbose) = saved_verbose_flag_; } private: const string saved_verbose_flag_; GTEST_DISALLOW_COPY_AND_ASSIGN_(VerboseFlagPreservingFixture); }; #if GTEST_HAS_STREAM_REDIRECTION // Tests that an uninteresting mock function call generates a warning // containing the stack trace. TEST(FunctionCallMessageTest, UninterestingCallGeneratesFyiWithStackTrace) { MockC c; CaptureStdout(); c.VoidMethod(false, 5, "Hi", NULL, Printable(), Unprintable()); const String output = GetCapturedStdout(); EXPECT_PRED_FORMAT2(IsSubstring, "GMOCK WARNING", output); EXPECT_PRED_FORMAT2(IsSubstring, "Stack trace:", output); # ifndef NDEBUG // We check the stack trace content in dbg-mode only, as opt-mode // may inline the call we are interested in seeing. // Verifies that a void mock function's name appears in the stack // trace. EXPECT_PRED_FORMAT2(IsSubstring, "VoidMethod(", output); // Verifies that a non-void mock function's name appears in the // stack trace. CaptureStdout(); c.NonVoidMethod(); const String output2 = GetCapturedStdout(); EXPECT_PRED_FORMAT2(IsSubstring, "NonVoidMethod(", output2); # endif // NDEBUG } // Tests that an uninteresting mock function call causes the function // arguments and return value to be printed. TEST(FunctionCallMessageTest, UninterestingCallPrintsArgumentsAndReturnValue) { // A non-void mock function. MockB b; CaptureStdout(); b.DoB(); const String output1 = GetCapturedStdout(); EXPECT_PRED_FORMAT2( IsSubstring, "Uninteresting mock function call - returning default value.\n" " Function call: DoB()\n" " Returns: 0\n", output1.c_str()); // Makes sure the return value is printed. // A void mock function. MockC c; CaptureStdout(); c.VoidMethod(false, 5, "Hi", NULL, Printable(), Unprintable()); const String output2 = GetCapturedStdout(); EXPECT_THAT(output2.c_str(), ContainsRegex( "Uninteresting mock function call - returning directly\\.\n" " Function call: VoidMethod" "\\(false, 5, \"Hi\", NULL, @.+ " "Printable, 4-byte object <00-00 00-00>\\)")); // A void function has no return value to print. } // Tests how the --gmock_verbose flag affects Google Mock's output. class GMockVerboseFlagTest : public VerboseFlagPreservingFixture { public: // Verifies that the given Google Mock output is correct. (When // should_print is true, the output should match the given regex and // contain the given function name in the stack trace. When it's // false, the output should be empty.) void VerifyOutput(const String& output, bool should_print, const string& expected_substring, const string& function_name) { if (should_print) { EXPECT_THAT(output.c_str(), HasSubstr(expected_substring)); # ifndef NDEBUG // We check the stack trace content in dbg-mode only, as opt-mode // may inline the call we are interested in seeing. EXPECT_THAT(output.c_str(), HasSubstr(function_name)); # else // Suppresses 'unused function parameter' warnings. static_cast(function_name); # endif // NDEBUG } else { EXPECT_STREQ("", output.c_str()); } } // Tests how the flag affects expected calls. void TestExpectedCall(bool should_print) { MockA a; EXPECT_CALL(a, DoA(5)); EXPECT_CALL(a, Binary(_, 1)) .WillOnce(Return(true)); // A void-returning function. CaptureStdout(); a.DoA(5); VerifyOutput( GetCapturedStdout(), should_print, "Mock function call matches EXPECT_CALL(a, DoA(5))...\n" " Function call: DoA(5)\n" "Stack trace:\n", "DoA"); // A non-void-returning function. CaptureStdout(); a.Binary(2, 1); VerifyOutput( GetCapturedStdout(), should_print, "Mock function call matches EXPECT_CALL(a, Binary(_, 1))...\n" " Function call: Binary(2, 1)\n" " Returns: true\n" "Stack trace:\n", "Binary"); } // Tests how the flag affects uninteresting calls. void TestUninterestingCall(bool should_print) { MockA a; // A void-returning function. CaptureStdout(); a.DoA(5); VerifyOutput( GetCapturedStdout(), should_print, "\nGMOCK WARNING:\n" "Uninteresting mock function call - returning directly.\n" " Function call: DoA(5)\n" "Stack trace:\n", "DoA"); // A non-void-returning function. CaptureStdout(); a.Binary(2, 1); VerifyOutput( GetCapturedStdout(), should_print, "\nGMOCK WARNING:\n" "Uninteresting mock function call - returning default value.\n" " Function call: Binary(2, 1)\n" " Returns: false\n" "Stack trace:\n", "Binary"); } }; // Tests that --gmock_verbose=info causes both expected and // uninteresting calls to be reported. TEST_F(GMockVerboseFlagTest, Info) { GMOCK_FLAG(verbose) = kInfoVerbosity; TestExpectedCall(true); TestUninterestingCall(true); } // Tests that --gmock_verbose=warning causes uninteresting calls to be // reported. TEST_F(GMockVerboseFlagTest, Warning) { GMOCK_FLAG(verbose) = kWarningVerbosity; TestExpectedCall(false); TestUninterestingCall(true); } // Tests that --gmock_verbose=warning causes neither expected nor // uninteresting calls to be reported. TEST_F(GMockVerboseFlagTest, Error) { GMOCK_FLAG(verbose) = kErrorVerbosity; TestExpectedCall(false); TestUninterestingCall(false); } // Tests that --gmock_verbose=SOME_INVALID_VALUE has the same effect // as --gmock_verbose=warning. TEST_F(GMockVerboseFlagTest, InvalidFlagIsTreatedAsWarning) { GMOCK_FLAG(verbose) = "invalid"; // Treated as "warning". TestExpectedCall(false); TestUninterestingCall(true); } #endif // GTEST_HAS_STREAM_REDIRECTION // A helper class that generates a failure when printed. We use it to // ensure that Google Mock doesn't print a value (even to an internal // buffer) when it is not supposed to do so. class PrintMeNot {}; void PrintTo(PrintMeNot /* dummy */, ::std::ostream* /* os */) { ADD_FAILURE() << "Google Mock is printing a value that shouldn't be " << "printed even to an internal buffer."; } class LogTestHelper { public: LogTestHelper() {} MOCK_METHOD1(Foo, PrintMeNot(PrintMeNot)); private: GTEST_DISALLOW_COPY_AND_ASSIGN_(LogTestHelper); }; class GMockLogTest : public VerboseFlagPreservingFixture { protected: LogTestHelper helper_; }; TEST_F(GMockLogTest, DoesNotPrintGoodCallInternallyIfVerbosityIsWarning) { GMOCK_FLAG(verbose) = kWarningVerbosity; EXPECT_CALL(helper_, Foo(_)) .WillOnce(Return(PrintMeNot())); helper_.Foo(PrintMeNot()); // This is an expected call. } TEST_F(GMockLogTest, DoesNotPrintGoodCallInternallyIfVerbosityIsError) { GMOCK_FLAG(verbose) = kErrorVerbosity; EXPECT_CALL(helper_, Foo(_)) .WillOnce(Return(PrintMeNot())); helper_.Foo(PrintMeNot()); // This is an expected call. } TEST_F(GMockLogTest, DoesNotPrintWarningInternallyIfVerbosityIsError) { GMOCK_FLAG(verbose) = kErrorVerbosity; ON_CALL(helper_, Foo(_)) .WillByDefault(Return(PrintMeNot())); helper_.Foo(PrintMeNot()); // This should generate a warning. } // Tests Mock::AllowLeak(). TEST(AllowLeakTest, AllowsLeakingUnusedMockObject) { MockA* a = new MockA; Mock::AllowLeak(a); } TEST(AllowLeakTest, CanBeCalledBeforeOnCall) { MockA* a = new MockA; Mock::AllowLeak(a); ON_CALL(*a, DoA(_)).WillByDefault(Return()); a->DoA(0); } TEST(AllowLeakTest, CanBeCalledAfterOnCall) { MockA* a = new MockA; ON_CALL(*a, DoA(_)).WillByDefault(Return()); Mock::AllowLeak(a); } TEST(AllowLeakTest, CanBeCalledBeforeExpectCall) { MockA* a = new MockA; Mock::AllowLeak(a); EXPECT_CALL(*a, DoA(_)); a->DoA(0); } TEST(AllowLeakTest, CanBeCalledAfterExpectCall) { MockA* a = new MockA; EXPECT_CALL(*a, DoA(_)).Times(AnyNumber()); Mock::AllowLeak(a); } TEST(AllowLeakTest, WorksWhenBothOnCallAndExpectCallArePresent) { MockA* a = new MockA; ON_CALL(*a, DoA(_)).WillByDefault(Return()); EXPECT_CALL(*a, DoA(_)).Times(AnyNumber()); Mock::AllowLeak(a); } // Tests that we can verify and clear a mock object's expectations // when none of its methods has expectations. TEST(VerifyAndClearExpectationsTest, NoMethodHasExpectations) { MockB b; ASSERT_TRUE(Mock::VerifyAndClearExpectations(&b)); // There should be no expectations on the methods now, so we can // freely call them. EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB(1)); } // Tests that we can verify and clear a mock object's expectations // when some, but not all, of its methods have expectations *and* the // verification succeeds. TEST(VerifyAndClearExpectationsTest, SomeMethodsHaveExpectationsAndSucceed) { MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)); b.DoB(); ASSERT_TRUE(Mock::VerifyAndClearExpectations(&b)); // There should be no expectations on the methods now, so we can // freely call them. EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB(1)); } // Tests that we can verify and clear a mock object's expectations // when some, but not all, of its methods have expectations *and* the // verification fails. TEST(VerifyAndClearExpectationsTest, SomeMethodsHaveExpectationsAndFail) { MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)); bool result = true; EXPECT_NONFATAL_FAILURE(result = Mock::VerifyAndClearExpectations(&b), "Actual: never called"); ASSERT_FALSE(result); // There should be no expectations on the methods now, so we can // freely call them. EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB(1)); } // Tests that we can verify and clear a mock object's expectations // when all of its methods have expectations. TEST(VerifyAndClearExpectationsTest, AllMethodsHaveExpectations) { MockB b; EXPECT_CALL(b, DoB()) .WillOnce(Return(1)); EXPECT_CALL(b, DoB(_)) .WillOnce(Return(2)); b.DoB(); b.DoB(1); ASSERT_TRUE(Mock::VerifyAndClearExpectations(&b)); // There should be no expectations on the methods now, so we can // freely call them. EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB(1)); } // Tests that we can verify and clear a mock object's expectations // when a method has more than one expectation. TEST(VerifyAndClearExpectationsTest, AMethodHasManyExpectations) { MockB b; EXPECT_CALL(b, DoB(0)) .WillOnce(Return(1)); EXPECT_CALL(b, DoB(_)) .WillOnce(Return(2)); b.DoB(1); bool result = true; EXPECT_NONFATAL_FAILURE(result = Mock::VerifyAndClearExpectations(&b), "Actual: never called"); ASSERT_FALSE(result); // There should be no expectations on the methods now, so we can // freely call them. EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB(1)); } // Tests that we can call VerifyAndClearExpectations() on the same // mock object multiple times. TEST(VerifyAndClearExpectationsTest, CanCallManyTimes) { MockB b; EXPECT_CALL(b, DoB()); b.DoB(); Mock::VerifyAndClearExpectations(&b); EXPECT_CALL(b, DoB(_)) .WillOnce(Return(1)); b.DoB(1); Mock::VerifyAndClearExpectations(&b); Mock::VerifyAndClearExpectations(&b); // There should be no expectations on the methods now, so we can // freely call them. EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB(1)); } // Tests that we can clear a mock object's default actions when none // of its methods has default actions. TEST(VerifyAndClearTest, NoMethodHasDefaultActions) { MockB b; // If this crashes or generates a failure, the test will catch it. Mock::VerifyAndClear(&b); EXPECT_EQ(0, b.DoB()); } // Tests that we can clear a mock object's default actions when some, // but not all of its methods have default actions. TEST(VerifyAndClearTest, SomeMethodsHaveDefaultActions) { MockB b; ON_CALL(b, DoB()) .WillByDefault(Return(1)); Mock::VerifyAndClear(&b); // Verifies that the default action of int DoB() was removed. EXPECT_EQ(0, b.DoB()); } // Tests that we can clear a mock object's default actions when all of // its methods have default actions. TEST(VerifyAndClearTest, AllMethodsHaveDefaultActions) { MockB b; ON_CALL(b, DoB()) .WillByDefault(Return(1)); ON_CALL(b, DoB(_)) .WillByDefault(Return(2)); Mock::VerifyAndClear(&b); // Verifies that the default action of int DoB() was removed. EXPECT_EQ(0, b.DoB()); // Verifies that the default action of int DoB(int) was removed. EXPECT_EQ(0, b.DoB(0)); } // Tests that we can clear a mock object's default actions when a // method has more than one ON_CALL() set on it. TEST(VerifyAndClearTest, AMethodHasManyDefaultActions) { MockB b; ON_CALL(b, DoB(0)) .WillByDefault(Return(1)); ON_CALL(b, DoB(_)) .WillByDefault(Return(2)); Mock::VerifyAndClear(&b); // Verifies that the default actions (there are two) of int DoB(int) // were removed. EXPECT_EQ(0, b.DoB(0)); EXPECT_EQ(0, b.DoB(1)); } // Tests that we can call VerifyAndClear() on a mock object multiple // times. TEST(VerifyAndClearTest, CanCallManyTimes) { MockB b; ON_CALL(b, DoB()) .WillByDefault(Return(1)); Mock::VerifyAndClear(&b); Mock::VerifyAndClear(&b); ON_CALL(b, DoB(_)) .WillByDefault(Return(1)); Mock::VerifyAndClear(&b); EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB(1)); } // Tests that VerifyAndClear() works when the verification succeeds. TEST(VerifyAndClearTest, Success) { MockB b; ON_CALL(b, DoB()) .WillByDefault(Return(1)); EXPECT_CALL(b, DoB(1)) .WillOnce(Return(2)); b.DoB(); b.DoB(1); ASSERT_TRUE(Mock::VerifyAndClear(&b)); // There should be no expectations on the methods now, so we can // freely call them. EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB(1)); } // Tests that VerifyAndClear() works when the verification fails. TEST(VerifyAndClearTest, Failure) { MockB b; ON_CALL(b, DoB(_)) .WillByDefault(Return(1)); EXPECT_CALL(b, DoB()) .WillOnce(Return(2)); b.DoB(1); bool result = true; EXPECT_NONFATAL_FAILURE(result = Mock::VerifyAndClear(&b), "Actual: never called"); ASSERT_FALSE(result); // There should be no expectations on the methods now, so we can // freely call them. EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB(1)); } // Tests that VerifyAndClear() works when the default actions and // expectations are set on a const mock object. TEST(VerifyAndClearTest, Const) { MockB b; ON_CALL(Const(b), DoB()) .WillByDefault(Return(1)); EXPECT_CALL(Const(b), DoB()) .WillOnce(DoDefault()) .WillOnce(Return(2)); b.DoB(); b.DoB(); ASSERT_TRUE(Mock::VerifyAndClear(&b)); // There should be no expectations on the methods now, so we can // freely call them. EXPECT_EQ(0, b.DoB()); EXPECT_EQ(0, b.DoB(1)); } // Tests that we can set default actions and expectations on a mock // object after VerifyAndClear() has been called on it. TEST(VerifyAndClearTest, CanSetDefaultActionsAndExpectationsAfterwards) { MockB b; ON_CALL(b, DoB()) .WillByDefault(Return(1)); EXPECT_CALL(b, DoB(_)) .WillOnce(Return(2)); b.DoB(1); Mock::VerifyAndClear(&b); EXPECT_CALL(b, DoB()) .WillOnce(Return(3)); ON_CALL(b, DoB(_)) .WillByDefault(Return(4)); EXPECT_EQ(3, b.DoB()); EXPECT_EQ(4, b.DoB(1)); } // Tests that calling VerifyAndClear() on one mock object does not // affect other mock objects (either of the same type or not). TEST(VerifyAndClearTest, DoesNotAffectOtherMockObjects) { MockA a; MockB b1; MockB b2; ON_CALL(a, Binary(_, _)) .WillByDefault(Return(true)); EXPECT_CALL(a, Binary(_, _)) .WillOnce(DoDefault()) .WillOnce(Return(false)); ON_CALL(b1, DoB()) .WillByDefault(Return(1)); EXPECT_CALL(b1, DoB(_)) .WillOnce(Return(2)); ON_CALL(b2, DoB()) .WillByDefault(Return(3)); EXPECT_CALL(b2, DoB(_)); b2.DoB(0); Mock::VerifyAndClear(&b2); // Verifies that the default actions and expectations of a and b1 // are still in effect. EXPECT_TRUE(a.Binary(0, 0)); EXPECT_FALSE(a.Binary(0, 0)); EXPECT_EQ(1, b1.DoB()); EXPECT_EQ(2, b1.DoB(0)); } TEST(VerifyAndClearTest, DestroyingChainedMocksDoesNotDeadlockThroughExpectations) { linked_ptr a(new MockA); ReferenceHoldingMock test_mock; // EXPECT_CALL stores a reference to a inside test_mock. EXPECT_CALL(test_mock, AcceptReference(_)) .WillRepeatedly(SetArgPointee<0>(a)); // Throw away the reference to the mock that we have in a. After this, the // only reference to it is stored by test_mock. a.reset(); // When test_mock goes out of scope, it destroys the last remaining reference // to the mock object originally pointed to by a. This will cause the MockA // destructor to be called from inside the ReferenceHoldingMock destructor. // The state of all mocks is protected by a single global lock, but there // should be no deadlock. } TEST(VerifyAndClearTest, DestroyingChainedMocksDoesNotDeadlockThroughDefaultAction) { linked_ptr a(new MockA); ReferenceHoldingMock test_mock; // ON_CALL stores a reference to a inside test_mock. ON_CALL(test_mock, AcceptReference(_)) .WillByDefault(SetArgPointee<0>(a)); // Throw away the reference to the mock that we have in a. After this, the // only reference to it is stored by test_mock. a.reset(); // When test_mock goes out of scope, it destroys the last remaining reference // to the mock object originally pointed to by a. This will cause the MockA // destructor to be called from inside the ReferenceHoldingMock destructor. // The state of all mocks is protected by a single global lock, but there // should be no deadlock. } // Tests that a mock function's action can call a mock function // (either the same function or a different one) either as an explicit // action or as a default action without causing a dead lock. It // verifies that the action is not performed inside the critical // section. TEST(SynchronizationTest, CanCallMockMethodInAction) { MockA a; MockC c; ON_CALL(a, DoA(_)) .WillByDefault(IgnoreResult(InvokeWithoutArgs(&c, &MockC::NonVoidMethod))); EXPECT_CALL(a, DoA(1)); EXPECT_CALL(a, DoA(1)) .WillOnce(Invoke(&a, &MockA::DoA)) .RetiresOnSaturation(); EXPECT_CALL(c, NonVoidMethod()); a.DoA(1); // This will match the second EXPECT_CALL() and trigger another a.DoA(1), // which will in turn match the first EXPECT_CALL() and trigger a call to // c.NonVoidMethod() that was specified by the ON_CALL() since the first // EXPECT_CALL() did not specify an action. } } // namespace // Allows the user to define his own main and then invoke gmock_main // from it. This might be necessary on some platforms which require // specific setup and teardown. #if GMOCK_RENAME_MAIN int gmock_main(int argc, char **argv) { #else int main(int argc, char **argv) { #endif // GMOCK_RENAME_MAIN testing::InitGoogleMock(&argc, argv); // Ensures that the tests pass no matter what value of // --gmock_catch_leaked_mocks and --gmock_verbose the user specifies. testing::GMOCK_FLAG(catch_leaked_mocks) = true; testing::GMOCK_FLAG(verbose) = testing::internal::kWarningVerbosity; return RUN_ALL_TESTS(); }