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1 // Copyright 2007, Google Inc.
2 // All rights reserved.
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29 
30 
31 // Google Mock - a framework for writing C++ mock classes.
32 //
33 // This file tests the built-in actions.
34 
35 // Silence C4800 (C4800: 'int *const ': forcing value
36 // to bool 'true' or 'false') for MSVC 14,15
37 #ifdef _MSC_VER
38 #if _MSC_VER <= 1900
39 #  pragma warning(push)
40 #  pragma warning(disable:4800)
41 #endif
42 #endif
43 
44 #include "gmock/gmock-actions.h"
45 #include <algorithm>
46 #include <iterator>
47 #include <memory>
48 #include <string>
49 #include "gmock/gmock.h"
50 #include "gmock/internal/gmock-port.h"
51 #include "gtest/gtest.h"
52 #include "gtest/gtest-spi.h"
53 
54 namespace {
55 
56 // This list should be kept sorted.
57 using testing::Action;
58 using testing::ActionInterface;
59 using testing::Assign;
60 using testing::ByMove;
61 using testing::ByRef;
62 using testing::DefaultValue;
63 using testing::DoDefault;
64 using testing::IgnoreResult;
65 using testing::Invoke;
66 using testing::InvokeWithoutArgs;
67 using testing::MakePolymorphicAction;
68 using testing::Ne;
69 using testing::PolymorphicAction;
70 using testing::Return;
71 using testing::ReturnNull;
72 using testing::ReturnRef;
73 using testing::ReturnRefOfCopy;
74 using testing::SetArgPointee;
75 using testing::SetArgumentPointee;
76 using testing::Unused;
77 using testing::_;
78 using testing::get;
79 using testing::internal::BuiltInDefaultValue;
80 using testing::internal::Int64;
81 using testing::internal::UInt64;
82 using testing::make_tuple;
83 using testing::tuple;
84 using testing::tuple_element;
85 
86 #if !GTEST_OS_WINDOWS_MOBILE
87 using testing::SetErrnoAndReturn;
88 #endif
89 
90 // Tests that BuiltInDefaultValue<T*>::Get() returns NULL.
TEST(BuiltInDefaultValueTest,IsNullForPointerTypes)91 TEST(BuiltInDefaultValueTest, IsNullForPointerTypes) {
92   EXPECT_TRUE(BuiltInDefaultValue<int*>::Get() == NULL);
93   EXPECT_TRUE(BuiltInDefaultValue<const char*>::Get() == NULL);
94   EXPECT_TRUE(BuiltInDefaultValue<void*>::Get() == NULL);
95 }
96 
97 // Tests that BuiltInDefaultValue<T*>::Exists() return true.
TEST(BuiltInDefaultValueTest,ExistsForPointerTypes)98 TEST(BuiltInDefaultValueTest, ExistsForPointerTypes) {
99   EXPECT_TRUE(BuiltInDefaultValue<int*>::Exists());
100   EXPECT_TRUE(BuiltInDefaultValue<const char*>::Exists());
101   EXPECT_TRUE(BuiltInDefaultValue<void*>::Exists());
102 }
103 
104 // Tests that BuiltInDefaultValue<T>::Get() returns 0 when T is a
105 // built-in numeric type.
TEST(BuiltInDefaultValueTest,IsZeroForNumericTypes)106 TEST(BuiltInDefaultValueTest, IsZeroForNumericTypes) {
107   EXPECT_EQ(0U, BuiltInDefaultValue<unsigned char>::Get());
108   EXPECT_EQ(0, BuiltInDefaultValue<signed char>::Get());
109   EXPECT_EQ(0, BuiltInDefaultValue<char>::Get());
110 #if GMOCK_HAS_SIGNED_WCHAR_T_
111   EXPECT_EQ(0U, BuiltInDefaultValue<unsigned wchar_t>::Get());
112   EXPECT_EQ(0, BuiltInDefaultValue<signed wchar_t>::Get());
113 #endif
114 #if GMOCK_WCHAR_T_IS_NATIVE_
115 #if !defined(__WCHAR_UNSIGNED__)
116   EXPECT_EQ(0, BuiltInDefaultValue<wchar_t>::Get());
117 #else
118   EXPECT_EQ(0U, BuiltInDefaultValue<wchar_t>::Get());
119 #endif
120 #endif
121   EXPECT_EQ(0U, BuiltInDefaultValue<unsigned short>::Get());  // NOLINT
122   EXPECT_EQ(0, BuiltInDefaultValue<signed short>::Get());  // NOLINT
123   EXPECT_EQ(0, BuiltInDefaultValue<short>::Get());  // NOLINT
124   EXPECT_EQ(0U, BuiltInDefaultValue<unsigned int>::Get());
125   EXPECT_EQ(0, BuiltInDefaultValue<signed int>::Get());
126   EXPECT_EQ(0, BuiltInDefaultValue<int>::Get());
127   EXPECT_EQ(0U, BuiltInDefaultValue<unsigned long>::Get());  // NOLINT
128   EXPECT_EQ(0, BuiltInDefaultValue<signed long>::Get());  // NOLINT
129   EXPECT_EQ(0, BuiltInDefaultValue<long>::Get());  // NOLINT
130   EXPECT_EQ(0U, BuiltInDefaultValue<UInt64>::Get());
131   EXPECT_EQ(0, BuiltInDefaultValue<Int64>::Get());
132   EXPECT_EQ(0, BuiltInDefaultValue<float>::Get());
133   EXPECT_EQ(0, BuiltInDefaultValue<double>::Get());
134 }
135 
136 // Tests that BuiltInDefaultValue<T>::Exists() returns true when T is a
137 // built-in numeric type.
TEST(BuiltInDefaultValueTest,ExistsForNumericTypes)138 TEST(BuiltInDefaultValueTest, ExistsForNumericTypes) {
139   EXPECT_TRUE(BuiltInDefaultValue<unsigned char>::Exists());
140   EXPECT_TRUE(BuiltInDefaultValue<signed char>::Exists());
141   EXPECT_TRUE(BuiltInDefaultValue<char>::Exists());
142 #if GMOCK_HAS_SIGNED_WCHAR_T_
143   EXPECT_TRUE(BuiltInDefaultValue<unsigned wchar_t>::Exists());
144   EXPECT_TRUE(BuiltInDefaultValue<signed wchar_t>::Exists());
145 #endif
146 #if GMOCK_WCHAR_T_IS_NATIVE_
147   EXPECT_TRUE(BuiltInDefaultValue<wchar_t>::Exists());
148 #endif
149   EXPECT_TRUE(BuiltInDefaultValue<unsigned short>::Exists());  // NOLINT
150   EXPECT_TRUE(BuiltInDefaultValue<signed short>::Exists());  // NOLINT
151   EXPECT_TRUE(BuiltInDefaultValue<short>::Exists());  // NOLINT
152   EXPECT_TRUE(BuiltInDefaultValue<unsigned int>::Exists());
153   EXPECT_TRUE(BuiltInDefaultValue<signed int>::Exists());
154   EXPECT_TRUE(BuiltInDefaultValue<int>::Exists());
155   EXPECT_TRUE(BuiltInDefaultValue<unsigned long>::Exists());  // NOLINT
156   EXPECT_TRUE(BuiltInDefaultValue<signed long>::Exists());  // NOLINT
157   EXPECT_TRUE(BuiltInDefaultValue<long>::Exists());  // NOLINT
158   EXPECT_TRUE(BuiltInDefaultValue<UInt64>::Exists());
159   EXPECT_TRUE(BuiltInDefaultValue<Int64>::Exists());
160   EXPECT_TRUE(BuiltInDefaultValue<float>::Exists());
161   EXPECT_TRUE(BuiltInDefaultValue<double>::Exists());
162 }
163 
164 // Tests that BuiltInDefaultValue<bool>::Get() returns false.
TEST(BuiltInDefaultValueTest,IsFalseForBool)165 TEST(BuiltInDefaultValueTest, IsFalseForBool) {
166   EXPECT_FALSE(BuiltInDefaultValue<bool>::Get());
167 }
168 
169 // Tests that BuiltInDefaultValue<bool>::Exists() returns true.
TEST(BuiltInDefaultValueTest,BoolExists)170 TEST(BuiltInDefaultValueTest, BoolExists) {
171   EXPECT_TRUE(BuiltInDefaultValue<bool>::Exists());
172 }
173 
174 // Tests that BuiltInDefaultValue<T>::Get() returns "" when T is a
175 // string type.
TEST(BuiltInDefaultValueTest,IsEmptyStringForString)176 TEST(BuiltInDefaultValueTest, IsEmptyStringForString) {
177 #if GTEST_HAS_GLOBAL_STRING
178   EXPECT_EQ("", BuiltInDefaultValue< ::string>::Get());
179 #endif  // GTEST_HAS_GLOBAL_STRING
180 
181   EXPECT_EQ("", BuiltInDefaultValue< ::std::string>::Get());
182 }
183 
184 // Tests that BuiltInDefaultValue<T>::Exists() returns true when T is a
185 // string type.
TEST(BuiltInDefaultValueTest,ExistsForString)186 TEST(BuiltInDefaultValueTest, ExistsForString) {
187 #if GTEST_HAS_GLOBAL_STRING
188   EXPECT_TRUE(BuiltInDefaultValue< ::string>::Exists());
189 #endif  // GTEST_HAS_GLOBAL_STRING
190 
191   EXPECT_TRUE(BuiltInDefaultValue< ::std::string>::Exists());
192 }
193 
194 // Tests that BuiltInDefaultValue<const T>::Get() returns the same
195 // value as BuiltInDefaultValue<T>::Get() does.
TEST(BuiltInDefaultValueTest,WorksForConstTypes)196 TEST(BuiltInDefaultValueTest, WorksForConstTypes) {
197   EXPECT_EQ("", BuiltInDefaultValue<const std::string>::Get());
198   EXPECT_EQ(0, BuiltInDefaultValue<const int>::Get());
199   EXPECT_TRUE(BuiltInDefaultValue<char* const>::Get() == NULL);
200   EXPECT_FALSE(BuiltInDefaultValue<const bool>::Get());
201 }
202 
203 // A type that's default constructible.
204 class MyDefaultConstructible {
205  public:
MyDefaultConstructible()206   MyDefaultConstructible() : value_(42) {}
207 
value() const208   int value() const { return value_; }
209 
210  private:
211   int value_;
212 };
213 
214 // A type that's not default constructible.
215 class MyNonDefaultConstructible {
216  public:
217   // Does not have a default ctor.
MyNonDefaultConstructible(int a_value)218   explicit MyNonDefaultConstructible(int a_value) : value_(a_value) {}
219 
value() const220   int value() const { return value_; }
221 
222  private:
223   int value_;
224 };
225 
226 #if GTEST_LANG_CXX11
227 
TEST(BuiltInDefaultValueTest,ExistsForDefaultConstructibleType)228 TEST(BuiltInDefaultValueTest, ExistsForDefaultConstructibleType) {
229   EXPECT_TRUE(BuiltInDefaultValue<MyDefaultConstructible>::Exists());
230 }
231 
TEST(BuiltInDefaultValueTest,IsDefaultConstructedForDefaultConstructibleType)232 TEST(BuiltInDefaultValueTest, IsDefaultConstructedForDefaultConstructibleType) {
233   EXPECT_EQ(42, BuiltInDefaultValue<MyDefaultConstructible>::Get().value());
234 }
235 
236 #endif  // GTEST_LANG_CXX11
237 
TEST(BuiltInDefaultValueTest,DoesNotExistForNonDefaultConstructibleType)238 TEST(BuiltInDefaultValueTest, DoesNotExistForNonDefaultConstructibleType) {
239   EXPECT_FALSE(BuiltInDefaultValue<MyNonDefaultConstructible>::Exists());
240 }
241 
242 // Tests that BuiltInDefaultValue<T&>::Get() aborts the program.
TEST(BuiltInDefaultValueDeathTest,IsUndefinedForReferences)243 TEST(BuiltInDefaultValueDeathTest, IsUndefinedForReferences) {
244   EXPECT_DEATH_IF_SUPPORTED({
245     BuiltInDefaultValue<int&>::Get();
246   }, "");
247   EXPECT_DEATH_IF_SUPPORTED({
248     BuiltInDefaultValue<const char&>::Get();
249   }, "");
250 }
251 
TEST(BuiltInDefaultValueDeathTest,IsUndefinedForNonDefaultConstructibleType)252 TEST(BuiltInDefaultValueDeathTest, IsUndefinedForNonDefaultConstructibleType) {
253   EXPECT_DEATH_IF_SUPPORTED({
254     BuiltInDefaultValue<MyNonDefaultConstructible>::Get();
255   }, "");
256 }
257 
258 // Tests that DefaultValue<T>::IsSet() is false initially.
TEST(DefaultValueTest,IsInitiallyUnset)259 TEST(DefaultValueTest, IsInitiallyUnset) {
260   EXPECT_FALSE(DefaultValue<int>::IsSet());
261   EXPECT_FALSE(DefaultValue<MyDefaultConstructible>::IsSet());
262   EXPECT_FALSE(DefaultValue<const MyNonDefaultConstructible>::IsSet());
263 }
264 
265 // Tests that DefaultValue<T> can be set and then unset.
TEST(DefaultValueTest,CanBeSetAndUnset)266 TEST(DefaultValueTest, CanBeSetAndUnset) {
267   EXPECT_TRUE(DefaultValue<int>::Exists());
268   EXPECT_FALSE(DefaultValue<const MyNonDefaultConstructible>::Exists());
269 
270   DefaultValue<int>::Set(1);
271   DefaultValue<const MyNonDefaultConstructible>::Set(
272       MyNonDefaultConstructible(42));
273 
274   EXPECT_EQ(1, DefaultValue<int>::Get());
275   EXPECT_EQ(42, DefaultValue<const MyNonDefaultConstructible>::Get().value());
276 
277   EXPECT_TRUE(DefaultValue<int>::Exists());
278   EXPECT_TRUE(DefaultValue<const MyNonDefaultConstructible>::Exists());
279 
280   DefaultValue<int>::Clear();
281   DefaultValue<const MyNonDefaultConstructible>::Clear();
282 
283   EXPECT_FALSE(DefaultValue<int>::IsSet());
284   EXPECT_FALSE(DefaultValue<const MyNonDefaultConstructible>::IsSet());
285 
286   EXPECT_TRUE(DefaultValue<int>::Exists());
287   EXPECT_FALSE(DefaultValue<const MyNonDefaultConstructible>::Exists());
288 }
289 
290 // Tests that DefaultValue<T>::Get() returns the
291 // BuiltInDefaultValue<T>::Get() when DefaultValue<T>::IsSet() is
292 // false.
TEST(DefaultValueDeathTest,GetReturnsBuiltInDefaultValueWhenUnset)293 TEST(DefaultValueDeathTest, GetReturnsBuiltInDefaultValueWhenUnset) {
294   EXPECT_FALSE(DefaultValue<int>::IsSet());
295   EXPECT_TRUE(DefaultValue<int>::Exists());
296   EXPECT_FALSE(DefaultValue<MyNonDefaultConstructible>::IsSet());
297   EXPECT_FALSE(DefaultValue<MyNonDefaultConstructible>::Exists());
298 
299   EXPECT_EQ(0, DefaultValue<int>::Get());
300 
301   EXPECT_DEATH_IF_SUPPORTED({
302     DefaultValue<MyNonDefaultConstructible>::Get();
303   }, "");
304 }
305 
306 #if GTEST_HAS_STD_UNIQUE_PTR_
TEST(DefaultValueTest,GetWorksForMoveOnlyIfSet)307 TEST(DefaultValueTest, GetWorksForMoveOnlyIfSet) {
308   EXPECT_TRUE(DefaultValue<std::unique_ptr<int>>::Exists());
309   EXPECT_TRUE(DefaultValue<std::unique_ptr<int>>::Get() == NULL);
310   DefaultValue<std::unique_ptr<int>>::SetFactory([] {
311     return std::unique_ptr<int>(new int(42));
312   });
313   EXPECT_TRUE(DefaultValue<std::unique_ptr<int>>::Exists());
314   std::unique_ptr<int> i = DefaultValue<std::unique_ptr<int>>::Get();
315   EXPECT_EQ(42, *i);
316 }
317 #endif  // GTEST_HAS_STD_UNIQUE_PTR_
318 
319 // Tests that DefaultValue<void>::Get() returns void.
TEST(DefaultValueTest,GetWorksForVoid)320 TEST(DefaultValueTest, GetWorksForVoid) {
321   return DefaultValue<void>::Get();
322 }
323 
324 // Tests using DefaultValue with a reference type.
325 
326 // Tests that DefaultValue<T&>::IsSet() is false initially.
TEST(DefaultValueOfReferenceTest,IsInitiallyUnset)327 TEST(DefaultValueOfReferenceTest, IsInitiallyUnset) {
328   EXPECT_FALSE(DefaultValue<int&>::IsSet());
329   EXPECT_FALSE(DefaultValue<MyDefaultConstructible&>::IsSet());
330   EXPECT_FALSE(DefaultValue<MyNonDefaultConstructible&>::IsSet());
331 }
332 
333 // Tests that DefaultValue<T&>::Exists is false initiallly.
TEST(DefaultValueOfReferenceTest,IsInitiallyNotExisting)334 TEST(DefaultValueOfReferenceTest, IsInitiallyNotExisting) {
335   EXPECT_FALSE(DefaultValue<int&>::Exists());
336   EXPECT_FALSE(DefaultValue<MyDefaultConstructible&>::Exists());
337   EXPECT_FALSE(DefaultValue<MyNonDefaultConstructible&>::Exists());
338 }
339 
340 // Tests that DefaultValue<T&> can be set and then unset.
TEST(DefaultValueOfReferenceTest,CanBeSetAndUnset)341 TEST(DefaultValueOfReferenceTest, CanBeSetAndUnset) {
342   int n = 1;
343   DefaultValue<const int&>::Set(n);
344   MyNonDefaultConstructible x(42);
345   DefaultValue<MyNonDefaultConstructible&>::Set(x);
346 
347   EXPECT_TRUE(DefaultValue<const int&>::Exists());
348   EXPECT_TRUE(DefaultValue<MyNonDefaultConstructible&>::Exists());
349 
350   EXPECT_EQ(&n, &(DefaultValue<const int&>::Get()));
351   EXPECT_EQ(&x, &(DefaultValue<MyNonDefaultConstructible&>::Get()));
352 
353   DefaultValue<const int&>::Clear();
354   DefaultValue<MyNonDefaultConstructible&>::Clear();
355 
356   EXPECT_FALSE(DefaultValue<const int&>::Exists());
357   EXPECT_FALSE(DefaultValue<MyNonDefaultConstructible&>::Exists());
358 
359   EXPECT_FALSE(DefaultValue<const int&>::IsSet());
360   EXPECT_FALSE(DefaultValue<MyNonDefaultConstructible&>::IsSet());
361 }
362 
363 // Tests that DefaultValue<T&>::Get() returns the
364 // BuiltInDefaultValue<T&>::Get() when DefaultValue<T&>::IsSet() is
365 // false.
TEST(DefaultValueOfReferenceDeathTest,GetReturnsBuiltInDefaultValueWhenUnset)366 TEST(DefaultValueOfReferenceDeathTest, GetReturnsBuiltInDefaultValueWhenUnset) {
367   EXPECT_FALSE(DefaultValue<int&>::IsSet());
368   EXPECT_FALSE(DefaultValue<MyNonDefaultConstructible&>::IsSet());
369 
370   EXPECT_DEATH_IF_SUPPORTED({
371     DefaultValue<int&>::Get();
372   }, "");
373   EXPECT_DEATH_IF_SUPPORTED({
374     DefaultValue<MyNonDefaultConstructible>::Get();
375   }, "");
376 }
377 
378 // Tests that ActionInterface can be implemented by defining the
379 // Perform method.
380 
381 typedef int MyGlobalFunction(bool, int);
382 
383 class MyActionImpl : public ActionInterface<MyGlobalFunction> {
384  public:
Perform(const tuple<bool,int> & args)385   virtual int Perform(const tuple<bool, int>& args) {
386     return get<0>(args) ? get<1>(args) : 0;
387   }
388 };
389 
TEST(ActionInterfaceTest,CanBeImplementedByDefiningPerform)390 TEST(ActionInterfaceTest, CanBeImplementedByDefiningPerform) {
391   MyActionImpl my_action_impl;
392   (void)my_action_impl;
393 }
394 
TEST(ActionInterfaceTest,MakeAction)395 TEST(ActionInterfaceTest, MakeAction) {
396   Action<MyGlobalFunction> action = MakeAction(new MyActionImpl);
397 
398   // When exercising the Perform() method of Action<F>, we must pass
399   // it a tuple whose size and type are compatible with F's argument
400   // types.  For example, if F is int(), then Perform() takes a
401   // 0-tuple; if F is void(bool, int), then Perform() takes a
402   // tuple<bool, int>, and so on.
403   EXPECT_EQ(5, action.Perform(make_tuple(true, 5)));
404 }
405 
406 // Tests that Action<F> can be contructed from a pointer to
407 // ActionInterface<F>.
TEST(ActionTest,CanBeConstructedFromActionInterface)408 TEST(ActionTest, CanBeConstructedFromActionInterface) {
409   Action<MyGlobalFunction> action(new MyActionImpl);
410 }
411 
412 // Tests that Action<F> delegates actual work to ActionInterface<F>.
TEST(ActionTest,DelegatesWorkToActionInterface)413 TEST(ActionTest, DelegatesWorkToActionInterface) {
414   const Action<MyGlobalFunction> action(new MyActionImpl);
415 
416   EXPECT_EQ(5, action.Perform(make_tuple(true, 5)));
417   EXPECT_EQ(0, action.Perform(make_tuple(false, 1)));
418 }
419 
420 // Tests that Action<F> can be copied.
TEST(ActionTest,IsCopyable)421 TEST(ActionTest, IsCopyable) {
422   Action<MyGlobalFunction> a1(new MyActionImpl);
423   Action<MyGlobalFunction> a2(a1);  // Tests the copy constructor.
424 
425   // a1 should continue to work after being copied from.
426   EXPECT_EQ(5, a1.Perform(make_tuple(true, 5)));
427   EXPECT_EQ(0, a1.Perform(make_tuple(false, 1)));
428 
429   // a2 should work like the action it was copied from.
430   EXPECT_EQ(5, a2.Perform(make_tuple(true, 5)));
431   EXPECT_EQ(0, a2.Perform(make_tuple(false, 1)));
432 
433   a2 = a1;  // Tests the assignment operator.
434 
435   // a1 should continue to work after being copied from.
436   EXPECT_EQ(5, a1.Perform(make_tuple(true, 5)));
437   EXPECT_EQ(0, a1.Perform(make_tuple(false, 1)));
438 
439   // a2 should work like the action it was copied from.
440   EXPECT_EQ(5, a2.Perform(make_tuple(true, 5)));
441   EXPECT_EQ(0, a2.Perform(make_tuple(false, 1)));
442 }
443 
444 // Tests that an Action<From> object can be converted to a
445 // compatible Action<To> object.
446 
447 class IsNotZero : public ActionInterface<bool(int)> {  // NOLINT
448  public:
Perform(const tuple<int> & arg)449   virtual bool Perform(const tuple<int>& arg) {
450     return get<0>(arg) != 0;
451   }
452 };
453 
454 #if !GTEST_OS_SYMBIAN
455 // Compiling this test on Nokia's Symbian compiler fails with:
456 //  'Result' is not a member of class 'testing::internal::Function<int>'
457 //  (point of instantiation: '@unnamed@gmock_actions_test_cc@::
458 //      ActionTest_CanBeConvertedToOtherActionType_Test::TestBody()')
459 // with no obvious fix.
TEST(ActionTest,CanBeConvertedToOtherActionType)460 TEST(ActionTest, CanBeConvertedToOtherActionType) {
461   const Action<bool(int)> a1(new IsNotZero);  // NOLINT
462   const Action<int(char)> a2 = Action<int(char)>(a1);  // NOLINT
463   EXPECT_EQ(1, a2.Perform(make_tuple('a')));
464   EXPECT_EQ(0, a2.Perform(make_tuple('\0')));
465 }
466 #endif  // !GTEST_OS_SYMBIAN
467 
468 // The following two classes are for testing MakePolymorphicAction().
469 
470 // Implements a polymorphic action that returns the second of the
471 // arguments it receives.
472 class ReturnSecondArgumentAction {
473  public:
474   // We want to verify that MakePolymorphicAction() can work with a
475   // polymorphic action whose Perform() method template is either
476   // const or not.  This lets us verify the non-const case.
477   template <typename Result, typename ArgumentTuple>
Perform(const ArgumentTuple & args)478   Result Perform(const ArgumentTuple& args) { return get<1>(args); }
479 };
480 
481 // Implements a polymorphic action that can be used in a nullary
482 // function to return 0.
483 class ReturnZeroFromNullaryFunctionAction {
484  public:
485   // For testing that MakePolymorphicAction() works when the
486   // implementation class' Perform() method template takes only one
487   // template parameter.
488   //
489   // We want to verify that MakePolymorphicAction() can work with a
490   // polymorphic action whose Perform() method template is either
491   // const or not.  This lets us verify the const case.
492   template <typename Result>
Perform(const tuple<> &) const493   Result Perform(const tuple<>&) const { return 0; }
494 };
495 
496 // These functions verify that MakePolymorphicAction() returns a
497 // PolymorphicAction<T> where T is the argument's type.
498 
ReturnSecondArgument()499 PolymorphicAction<ReturnSecondArgumentAction> ReturnSecondArgument() {
500   return MakePolymorphicAction(ReturnSecondArgumentAction());
501 }
502 
503 PolymorphicAction<ReturnZeroFromNullaryFunctionAction>
ReturnZeroFromNullaryFunction()504 ReturnZeroFromNullaryFunction() {
505   return MakePolymorphicAction(ReturnZeroFromNullaryFunctionAction());
506 }
507 
508 // Tests that MakePolymorphicAction() turns a polymorphic action
509 // implementation class into a polymorphic action.
TEST(MakePolymorphicActionTest,ConstructsActionFromImpl)510 TEST(MakePolymorphicActionTest, ConstructsActionFromImpl) {
511   Action<int(bool, int, double)> a1 = ReturnSecondArgument();  // NOLINT
512   EXPECT_EQ(5, a1.Perform(make_tuple(false, 5, 2.0)));
513 }
514 
515 // Tests that MakePolymorphicAction() works when the implementation
516 // class' Perform() method template has only one template parameter.
TEST(MakePolymorphicActionTest,WorksWhenPerformHasOneTemplateParameter)517 TEST(MakePolymorphicActionTest, WorksWhenPerformHasOneTemplateParameter) {
518   Action<int()> a1 = ReturnZeroFromNullaryFunction();
519   EXPECT_EQ(0, a1.Perform(make_tuple()));
520 
521   Action<void*()> a2 = ReturnZeroFromNullaryFunction();
522   EXPECT_TRUE(a2.Perform(make_tuple()) == NULL);
523 }
524 
525 // Tests that Return() works as an action for void-returning
526 // functions.
TEST(ReturnTest,WorksForVoid)527 TEST(ReturnTest, WorksForVoid) {
528   const Action<void(int)> ret = Return();  // NOLINT
529   return ret.Perform(make_tuple(1));
530 }
531 
532 // Tests that Return(v) returns v.
TEST(ReturnTest,ReturnsGivenValue)533 TEST(ReturnTest, ReturnsGivenValue) {
534   Action<int()> ret = Return(1);  // NOLINT
535   EXPECT_EQ(1, ret.Perform(make_tuple()));
536 
537   ret = Return(-5);
538   EXPECT_EQ(-5, ret.Perform(make_tuple()));
539 }
540 
541 // Tests that Return("string literal") works.
TEST(ReturnTest,AcceptsStringLiteral)542 TEST(ReturnTest, AcceptsStringLiteral) {
543   Action<const char*()> a1 = Return("Hello");
544   EXPECT_STREQ("Hello", a1.Perform(make_tuple()));
545 
546   Action<std::string()> a2 = Return("world");
547   EXPECT_EQ("world", a2.Perform(make_tuple()));
548 }
549 
550 // Test struct which wraps a vector of integers. Used in
551 // 'SupportsWrapperReturnType' test.
552 struct IntegerVectorWrapper {
553   std::vector<int> * v;
IntegerVectorWrapper__anon3eb9bdba0111::IntegerVectorWrapper554   IntegerVectorWrapper(std::vector<int>& _v) : v(&_v) {}  // NOLINT
555 };
556 
557 // Tests that Return() works when return type is a wrapper type.
TEST(ReturnTest,SupportsWrapperReturnType)558 TEST(ReturnTest, SupportsWrapperReturnType) {
559   // Initialize vector of integers.
560   std::vector<int> v;
561   for (int i = 0; i < 5; ++i) v.push_back(i);
562 
563   // Return() called with 'v' as argument. The Action will return the same data
564   // as 'v' (copy) but it will be wrapped in an IntegerVectorWrapper.
565   Action<IntegerVectorWrapper()> a = Return(v);
566   const std::vector<int>& result = *(a.Perform(make_tuple()).v);
567   EXPECT_THAT(result, ::testing::ElementsAre(0, 1, 2, 3, 4));
568 }
569 
570 // Tests that Return(v) is covaraint.
571 
572 struct Base {
operator ==__anon3eb9bdba0111::Base573   bool operator==(const Base&) { return true; }
574 };
575 
576 struct Derived : public Base {
operator ==__anon3eb9bdba0111::Derived577   bool operator==(const Derived&) { return true; }
578 };
579 
TEST(ReturnTest,IsCovariant)580 TEST(ReturnTest, IsCovariant) {
581   Base base;
582   Derived derived;
583   Action<Base*()> ret = Return(&base);
584   EXPECT_EQ(&base, ret.Perform(make_tuple()));
585 
586   ret = Return(&derived);
587   EXPECT_EQ(&derived, ret.Perform(make_tuple()));
588 }
589 
590 // Tests that the type of the value passed into Return is converted into T
591 // when the action is cast to Action<T(...)> rather than when the action is
592 // performed. See comments on testing::internal::ReturnAction in
593 // gmock-actions.h for more information.
594 class FromType {
595  public:
FromType(bool * is_converted)596   explicit FromType(bool* is_converted) : converted_(is_converted) {}
converted() const597   bool* converted() const { return converted_; }
598 
599  private:
600   bool* const converted_;
601 
602   GTEST_DISALLOW_ASSIGN_(FromType);
603 };
604 
605 class ToType {
606  public:
607   // Must allow implicit conversion due to use in ImplicitCast_<T>.
ToType(const FromType & x)608   ToType(const FromType& x) { *x.converted() = true; }  // NOLINT
609 };
610 
TEST(ReturnTest,ConvertsArgumentWhenConverted)611 TEST(ReturnTest, ConvertsArgumentWhenConverted) {
612   bool converted = false;
613   FromType x(&converted);
614   Action<ToType()> action(Return(x));
615   EXPECT_TRUE(converted) << "Return must convert its argument in its own "
616                          << "conversion operator.";
617   converted = false;
618   action.Perform(tuple<>());
619   EXPECT_FALSE(converted) << "Action must NOT convert its argument "
620                           << "when performed.";
621 }
622 
623 class DestinationType {};
624 
625 class SourceType {
626  public:
627   // Note: a non-const typecast operator.
operator DestinationType()628   operator DestinationType() { return DestinationType(); }
629 };
630 
TEST(ReturnTest,CanConvertArgumentUsingNonConstTypeCastOperator)631 TEST(ReturnTest, CanConvertArgumentUsingNonConstTypeCastOperator) {
632   SourceType s;
633   Action<DestinationType()> action(Return(s));
634 }
635 
636 // Tests that ReturnNull() returns NULL in a pointer-returning function.
TEST(ReturnNullTest,WorksInPointerReturningFunction)637 TEST(ReturnNullTest, WorksInPointerReturningFunction) {
638   const Action<int*()> a1 = ReturnNull();
639   EXPECT_TRUE(a1.Perform(make_tuple()) == NULL);
640 
641   const Action<const char*(bool)> a2 = ReturnNull();  // NOLINT
642   EXPECT_TRUE(a2.Perform(make_tuple(true)) == NULL);
643 }
644 
645 #if GTEST_HAS_STD_UNIQUE_PTR_
646 // Tests that ReturnNull() returns NULL for shared_ptr and unique_ptr returning
647 // functions.
TEST(ReturnNullTest,WorksInSmartPointerReturningFunction)648 TEST(ReturnNullTest, WorksInSmartPointerReturningFunction) {
649   const Action<std::unique_ptr<const int>()> a1 = ReturnNull();
650   EXPECT_TRUE(a1.Perform(make_tuple()) == nullptr);
651 
652   const Action<std::shared_ptr<int>(std::string)> a2 = ReturnNull();
653   EXPECT_TRUE(a2.Perform(make_tuple("foo")) == nullptr);
654 }
655 #endif  // GTEST_HAS_STD_UNIQUE_PTR_
656 
657 // Tests that ReturnRef(v) works for reference types.
TEST(ReturnRefTest,WorksForReference)658 TEST(ReturnRefTest, WorksForReference) {
659   const int n = 0;
660   const Action<const int&(bool)> ret = ReturnRef(n);  // NOLINT
661 
662   EXPECT_EQ(&n, &ret.Perform(make_tuple(true)));
663 }
664 
665 // Tests that ReturnRef(v) is covariant.
TEST(ReturnRefTest,IsCovariant)666 TEST(ReturnRefTest, IsCovariant) {
667   Base base;
668   Derived derived;
669   Action<Base&()> a = ReturnRef(base);
670   EXPECT_EQ(&base, &a.Perform(make_tuple()));
671 
672   a = ReturnRef(derived);
673   EXPECT_EQ(&derived, &a.Perform(make_tuple()));
674 }
675 
676 // Tests that ReturnRefOfCopy(v) works for reference types.
TEST(ReturnRefOfCopyTest,WorksForReference)677 TEST(ReturnRefOfCopyTest, WorksForReference) {
678   int n = 42;
679   const Action<const int&()> ret = ReturnRefOfCopy(n);
680 
681   EXPECT_NE(&n, &ret.Perform(make_tuple()));
682   EXPECT_EQ(42, ret.Perform(make_tuple()));
683 
684   n = 43;
685   EXPECT_NE(&n, &ret.Perform(make_tuple()));
686   EXPECT_EQ(42, ret.Perform(make_tuple()));
687 }
688 
689 // Tests that ReturnRefOfCopy(v) is covariant.
TEST(ReturnRefOfCopyTest,IsCovariant)690 TEST(ReturnRefOfCopyTest, IsCovariant) {
691   Base base;
692   Derived derived;
693   Action<Base&()> a = ReturnRefOfCopy(base);
694   EXPECT_NE(&base, &a.Perform(make_tuple()));
695 
696   a = ReturnRefOfCopy(derived);
697   EXPECT_NE(&derived, &a.Perform(make_tuple()));
698 }
699 
700 // Tests that DoDefault() does the default action for the mock method.
701 
702 class MockClass {
703  public:
MockClass()704   MockClass() {}
705 
706   MOCK_METHOD1(IntFunc, int(bool flag));  // NOLINT
707   MOCK_METHOD0(Foo, MyNonDefaultConstructible());
708 #if GTEST_HAS_STD_UNIQUE_PTR_
709   MOCK_METHOD0(MakeUnique, std::unique_ptr<int>());
710   MOCK_METHOD0(MakeUniqueBase, std::unique_ptr<Base>());
711   MOCK_METHOD0(MakeVectorUnique, std::vector<std::unique_ptr<int>>());
712   MOCK_METHOD1(TakeUnique, int(std::unique_ptr<int>));
713   MOCK_METHOD2(TakeUnique,
714                int(const std::unique_ptr<int>&, std::unique_ptr<int>));
715 #endif
716 
717  private:
718   GTEST_DISALLOW_COPY_AND_ASSIGN_(MockClass);
719 };
720 
721 // Tests that DoDefault() returns the built-in default value for the
722 // return type by default.
TEST(DoDefaultTest,ReturnsBuiltInDefaultValueByDefault)723 TEST(DoDefaultTest, ReturnsBuiltInDefaultValueByDefault) {
724   MockClass mock;
725   EXPECT_CALL(mock, IntFunc(_))
726       .WillOnce(DoDefault());
727   EXPECT_EQ(0, mock.IntFunc(true));
728 }
729 
730 // Tests that DoDefault() throws (when exceptions are enabled) or aborts
731 // the process when there is no built-in default value for the return type.
TEST(DoDefaultDeathTest,DiesForUnknowType)732 TEST(DoDefaultDeathTest, DiesForUnknowType) {
733   MockClass mock;
734   EXPECT_CALL(mock, Foo())
735       .WillRepeatedly(DoDefault());
736 #if GTEST_HAS_EXCEPTIONS
737   EXPECT_ANY_THROW(mock.Foo());
738 #else
739   EXPECT_DEATH_IF_SUPPORTED({
740     mock.Foo();
741   }, "");
742 #endif
743 }
744 
745 // Tests that using DoDefault() inside a composite action leads to a
746 // run-time error.
747 
VoidFunc(bool)748 void VoidFunc(bool /* flag */) {}
749 
TEST(DoDefaultDeathTest,DiesIfUsedInCompositeAction)750 TEST(DoDefaultDeathTest, DiesIfUsedInCompositeAction) {
751   MockClass mock;
752   EXPECT_CALL(mock, IntFunc(_))
753       .WillRepeatedly(DoAll(Invoke(VoidFunc),
754                             DoDefault()));
755 
756   // Ideally we should verify the error message as well.  Sadly,
757   // EXPECT_DEATH() can only capture stderr, while Google Mock's
758   // errors are printed on stdout.  Therefore we have to settle for
759   // not verifying the message.
760   EXPECT_DEATH_IF_SUPPORTED({
761     mock.IntFunc(true);
762   }, "");
763 }
764 
765 // Tests that DoDefault() returns the default value set by
766 // DefaultValue<T>::Set() when it's not overriden by an ON_CALL().
TEST(DoDefaultTest,ReturnsUserSpecifiedPerTypeDefaultValueWhenThereIsOne)767 TEST(DoDefaultTest, ReturnsUserSpecifiedPerTypeDefaultValueWhenThereIsOne) {
768   DefaultValue<int>::Set(1);
769   MockClass mock;
770   EXPECT_CALL(mock, IntFunc(_))
771       .WillOnce(DoDefault());
772   EXPECT_EQ(1, mock.IntFunc(false));
773   DefaultValue<int>::Clear();
774 }
775 
776 // Tests that DoDefault() does the action specified by ON_CALL().
TEST(DoDefaultTest,DoesWhatOnCallSpecifies)777 TEST(DoDefaultTest, DoesWhatOnCallSpecifies) {
778   MockClass mock;
779   ON_CALL(mock, IntFunc(_))
780       .WillByDefault(Return(2));
781   EXPECT_CALL(mock, IntFunc(_))
782       .WillOnce(DoDefault());
783   EXPECT_EQ(2, mock.IntFunc(false));
784 }
785 
786 // Tests that using DoDefault() in ON_CALL() leads to a run-time failure.
TEST(DoDefaultTest,CannotBeUsedInOnCall)787 TEST(DoDefaultTest, CannotBeUsedInOnCall) {
788   MockClass mock;
789   EXPECT_NONFATAL_FAILURE({  // NOLINT
790     ON_CALL(mock, IntFunc(_))
791       .WillByDefault(DoDefault());
792   }, "DoDefault() cannot be used in ON_CALL()");
793 }
794 
795 // Tests that SetArgPointee<N>(v) sets the variable pointed to by
796 // the N-th (0-based) argument to v.
TEST(SetArgPointeeTest,SetsTheNthPointee)797 TEST(SetArgPointeeTest, SetsTheNthPointee) {
798   typedef void MyFunction(bool, int*, char*);
799   Action<MyFunction> a = SetArgPointee<1>(2);
800 
801   int n = 0;
802   char ch = '\0';
803   a.Perform(make_tuple(true, &n, &ch));
804   EXPECT_EQ(2, n);
805   EXPECT_EQ('\0', ch);
806 
807   a = SetArgPointee<2>('a');
808   n = 0;
809   ch = '\0';
810   a.Perform(make_tuple(true, &n, &ch));
811   EXPECT_EQ(0, n);
812   EXPECT_EQ('a', ch);
813 }
814 
815 #if !((GTEST_GCC_VER_ && GTEST_GCC_VER_ < 40000) || GTEST_OS_SYMBIAN)
816 // Tests that SetArgPointee<N>() accepts a string literal.
817 // GCC prior to v4.0 and the Symbian compiler do not support this.
TEST(SetArgPointeeTest,AcceptsStringLiteral)818 TEST(SetArgPointeeTest, AcceptsStringLiteral) {
819   typedef void MyFunction(std::string*, const char**);
820   Action<MyFunction> a = SetArgPointee<0>("hi");
821   std::string str;
822   const char* ptr = NULL;
823   a.Perform(make_tuple(&str, &ptr));
824   EXPECT_EQ("hi", str);
825   EXPECT_TRUE(ptr == NULL);
826 
827   a = SetArgPointee<1>("world");
828   str = "";
829   a.Perform(make_tuple(&str, &ptr));
830   EXPECT_EQ("", str);
831   EXPECT_STREQ("world", ptr);
832 }
833 
TEST(SetArgPointeeTest,AcceptsWideStringLiteral)834 TEST(SetArgPointeeTest, AcceptsWideStringLiteral) {
835   typedef void MyFunction(const wchar_t**);
836   Action<MyFunction> a = SetArgPointee<0>(L"world");
837   const wchar_t* ptr = NULL;
838   a.Perform(make_tuple(&ptr));
839   EXPECT_STREQ(L"world", ptr);
840 
841 # if GTEST_HAS_STD_WSTRING
842 
843   typedef void MyStringFunction(std::wstring*);
844   Action<MyStringFunction> a2 = SetArgPointee<0>(L"world");
845   std::wstring str = L"";
846   a2.Perform(make_tuple(&str));
847   EXPECT_EQ(L"world", str);
848 
849 # endif
850 }
851 #endif
852 
853 // Tests that SetArgPointee<N>() accepts a char pointer.
TEST(SetArgPointeeTest,AcceptsCharPointer)854 TEST(SetArgPointeeTest, AcceptsCharPointer) {
855   typedef void MyFunction(bool, std::string*, const char**);
856   const char* const hi = "hi";
857   Action<MyFunction> a = SetArgPointee<1>(hi);
858   std::string str;
859   const char* ptr = NULL;
860   a.Perform(make_tuple(true, &str, &ptr));
861   EXPECT_EQ("hi", str);
862   EXPECT_TRUE(ptr == NULL);
863 
864   char world_array[] = "world";
865   char* const world = world_array;
866   a = SetArgPointee<2>(world);
867   str = "";
868   a.Perform(make_tuple(true, &str, &ptr));
869   EXPECT_EQ("", str);
870   EXPECT_EQ(world, ptr);
871 }
872 
TEST(SetArgPointeeTest,AcceptsWideCharPointer)873 TEST(SetArgPointeeTest, AcceptsWideCharPointer) {
874   typedef void MyFunction(bool, const wchar_t**);
875   const wchar_t* const hi = L"hi";
876   Action<MyFunction> a = SetArgPointee<1>(hi);
877   const wchar_t* ptr = NULL;
878   a.Perform(make_tuple(true, &ptr));
879   EXPECT_EQ(hi, ptr);
880 
881 # if GTEST_HAS_STD_WSTRING
882 
883   typedef void MyStringFunction(bool, std::wstring*);
884   wchar_t world_array[] = L"world";
885   wchar_t* const world = world_array;
886   Action<MyStringFunction> a2 = SetArgPointee<1>(world);
887   std::wstring str;
888   a2.Perform(make_tuple(true, &str));
889   EXPECT_EQ(world_array, str);
890 # endif
891 }
892 
893 // Tests that SetArgumentPointee<N>(v) sets the variable pointed to by
894 // the N-th (0-based) argument to v.
TEST(SetArgumentPointeeTest,SetsTheNthPointee)895 TEST(SetArgumentPointeeTest, SetsTheNthPointee) {
896   typedef void MyFunction(bool, int*, char*);
897   Action<MyFunction> a = SetArgumentPointee<1>(2);
898 
899   int n = 0;
900   char ch = '\0';
901   a.Perform(make_tuple(true, &n, &ch));
902   EXPECT_EQ(2, n);
903   EXPECT_EQ('\0', ch);
904 
905   a = SetArgumentPointee<2>('a');
906   n = 0;
907   ch = '\0';
908   a.Perform(make_tuple(true, &n, &ch));
909   EXPECT_EQ(0, n);
910   EXPECT_EQ('a', ch);
911 }
912 
913 // Sample functions and functors for testing Invoke() and etc.
Nullary()914 int Nullary() { return 1; }
915 
916 class NullaryFunctor {
917  public:
operator ()()918   int operator()() { return 2; }
919 };
920 
921 bool g_done = false;
VoidNullary()922 void VoidNullary() { g_done = true; }
923 
924 class VoidNullaryFunctor {
925  public:
operator ()()926   void operator()() { g_done = true; }
927 };
928 
929 class Foo {
930  public:
Foo()931   Foo() : value_(123) {}
932 
Nullary() const933   int Nullary() const { return value_; }
934 
935  private:
936   int value_;
937 };
938 
939 // Tests InvokeWithoutArgs(function).
TEST(InvokeWithoutArgsTest,Function)940 TEST(InvokeWithoutArgsTest, Function) {
941   // As an action that takes one argument.
942   Action<int(int)> a = InvokeWithoutArgs(Nullary);  // NOLINT
943   EXPECT_EQ(1, a.Perform(make_tuple(2)));
944 
945   // As an action that takes two arguments.
946   Action<int(int, double)> a2 = InvokeWithoutArgs(Nullary);  // NOLINT
947   EXPECT_EQ(1, a2.Perform(make_tuple(2, 3.5)));
948 
949   // As an action that returns void.
950   Action<void(int)> a3 = InvokeWithoutArgs(VoidNullary);  // NOLINT
951   g_done = false;
952   a3.Perform(make_tuple(1));
953   EXPECT_TRUE(g_done);
954 }
955 
956 // Tests InvokeWithoutArgs(functor).
TEST(InvokeWithoutArgsTest,Functor)957 TEST(InvokeWithoutArgsTest, Functor) {
958   // As an action that takes no argument.
959   Action<int()> a = InvokeWithoutArgs(NullaryFunctor());  // NOLINT
960   EXPECT_EQ(2, a.Perform(make_tuple()));
961 
962   // As an action that takes three arguments.
963   Action<int(int, double, char)> a2 =  // NOLINT
964       InvokeWithoutArgs(NullaryFunctor());
965   EXPECT_EQ(2, a2.Perform(make_tuple(3, 3.5, 'a')));
966 
967   // As an action that returns void.
968   Action<void()> a3 = InvokeWithoutArgs(VoidNullaryFunctor());
969   g_done = false;
970   a3.Perform(make_tuple());
971   EXPECT_TRUE(g_done);
972 }
973 
974 // Tests InvokeWithoutArgs(obj_ptr, method).
TEST(InvokeWithoutArgsTest,Method)975 TEST(InvokeWithoutArgsTest, Method) {
976   Foo foo;
977   Action<int(bool, char)> a =  // NOLINT
978       InvokeWithoutArgs(&foo, &Foo::Nullary);
979   EXPECT_EQ(123, a.Perform(make_tuple(true, 'a')));
980 }
981 
982 // Tests using IgnoreResult() on a polymorphic action.
TEST(IgnoreResultTest,PolymorphicAction)983 TEST(IgnoreResultTest, PolymorphicAction) {
984   Action<void(int)> a = IgnoreResult(Return(5));  // NOLINT
985   a.Perform(make_tuple(1));
986 }
987 
988 // Tests using IgnoreResult() on a monomorphic action.
989 
ReturnOne()990 int ReturnOne() {
991   g_done = true;
992   return 1;
993 }
994 
TEST(IgnoreResultTest,MonomorphicAction)995 TEST(IgnoreResultTest, MonomorphicAction) {
996   g_done = false;
997   Action<void()> a = IgnoreResult(Invoke(ReturnOne));
998   a.Perform(make_tuple());
999   EXPECT_TRUE(g_done);
1000 }
1001 
1002 // Tests using IgnoreResult() on an action that returns a class type.
1003 
ReturnMyNonDefaultConstructible(double)1004 MyNonDefaultConstructible ReturnMyNonDefaultConstructible(double /* x */) {
1005   g_done = true;
1006   return MyNonDefaultConstructible(42);
1007 }
1008 
TEST(IgnoreResultTest,ActionReturningClass)1009 TEST(IgnoreResultTest, ActionReturningClass) {
1010   g_done = false;
1011   Action<void(int)> a =
1012       IgnoreResult(Invoke(ReturnMyNonDefaultConstructible));  // NOLINT
1013   a.Perform(make_tuple(2));
1014   EXPECT_TRUE(g_done);
1015 }
1016 
TEST(AssignTest,Int)1017 TEST(AssignTest, Int) {
1018   int x = 0;
1019   Action<void(int)> a = Assign(&x, 5);
1020   a.Perform(make_tuple(0));
1021   EXPECT_EQ(5, x);
1022 }
1023 
TEST(AssignTest,String)1024 TEST(AssignTest, String) {
1025   ::std::string x;
1026   Action<void(void)> a = Assign(&x, "Hello, world");
1027   a.Perform(make_tuple());
1028   EXPECT_EQ("Hello, world", x);
1029 }
1030 
TEST(AssignTest,CompatibleTypes)1031 TEST(AssignTest, CompatibleTypes) {
1032   double x = 0;
1033   Action<void(int)> a = Assign(&x, 5);
1034   a.Perform(make_tuple(0));
1035   EXPECT_DOUBLE_EQ(5, x);
1036 }
1037 
1038 #if !GTEST_OS_WINDOWS_MOBILE
1039 
1040 class SetErrnoAndReturnTest : public testing::Test {
1041  protected:
SetUp()1042   virtual void SetUp() { errno = 0; }
TearDown()1043   virtual void TearDown() { errno = 0; }
1044 };
1045 
TEST_F(SetErrnoAndReturnTest,Int)1046 TEST_F(SetErrnoAndReturnTest, Int) {
1047   Action<int(void)> a = SetErrnoAndReturn(ENOTTY, -5);
1048   EXPECT_EQ(-5, a.Perform(make_tuple()));
1049   EXPECT_EQ(ENOTTY, errno);
1050 }
1051 
TEST_F(SetErrnoAndReturnTest,Ptr)1052 TEST_F(SetErrnoAndReturnTest, Ptr) {
1053   int x;
1054   Action<int*(void)> a = SetErrnoAndReturn(ENOTTY, &x);
1055   EXPECT_EQ(&x, a.Perform(make_tuple()));
1056   EXPECT_EQ(ENOTTY, errno);
1057 }
1058 
TEST_F(SetErrnoAndReturnTest,CompatibleTypes)1059 TEST_F(SetErrnoAndReturnTest, CompatibleTypes) {
1060   Action<double()> a = SetErrnoAndReturn(EINVAL, 5);
1061   EXPECT_DOUBLE_EQ(5.0, a.Perform(make_tuple()));
1062   EXPECT_EQ(EINVAL, errno);
1063 }
1064 
1065 #endif  // !GTEST_OS_WINDOWS_MOBILE
1066 
1067 // Tests ByRef().
1068 
1069 // Tests that ReferenceWrapper<T> is copyable.
TEST(ByRefTest,IsCopyable)1070 TEST(ByRefTest, IsCopyable) {
1071   const std::string s1 = "Hi";
1072   const std::string s2 = "Hello";
1073 
1074   ::testing::internal::ReferenceWrapper<const std::string> ref_wrapper =
1075       ByRef(s1);
1076   const std::string& r1 = ref_wrapper;
1077   EXPECT_EQ(&s1, &r1);
1078 
1079   // Assigns a new value to ref_wrapper.
1080   ref_wrapper = ByRef(s2);
1081   const std::string& r2 = ref_wrapper;
1082   EXPECT_EQ(&s2, &r2);
1083 
1084   ::testing::internal::ReferenceWrapper<const std::string> ref_wrapper1 =
1085       ByRef(s1);
1086   // Copies ref_wrapper1 to ref_wrapper.
1087   ref_wrapper = ref_wrapper1;
1088   const std::string& r3 = ref_wrapper;
1089   EXPECT_EQ(&s1, &r3);
1090 }
1091 
1092 // Tests using ByRef() on a const value.
TEST(ByRefTest,ConstValue)1093 TEST(ByRefTest, ConstValue) {
1094   const int n = 0;
1095   // int& ref = ByRef(n);  // This shouldn't compile - we have a
1096                            // negative compilation test to catch it.
1097   const int& const_ref = ByRef(n);
1098   EXPECT_EQ(&n, &const_ref);
1099 }
1100 
1101 // Tests using ByRef() on a non-const value.
TEST(ByRefTest,NonConstValue)1102 TEST(ByRefTest, NonConstValue) {
1103   int n = 0;
1104 
1105   // ByRef(n) can be used as either an int&,
1106   int& ref = ByRef(n);
1107   EXPECT_EQ(&n, &ref);
1108 
1109   // or a const int&.
1110   const int& const_ref = ByRef(n);
1111   EXPECT_EQ(&n, &const_ref);
1112 }
1113 
1114 // Tests explicitly specifying the type when using ByRef().
TEST(ByRefTest,ExplicitType)1115 TEST(ByRefTest, ExplicitType) {
1116   int n = 0;
1117   const int& r1 = ByRef<const int>(n);
1118   EXPECT_EQ(&n, &r1);
1119 
1120   // ByRef<char>(n);  // This shouldn't compile - we have a negative
1121                       // compilation test to catch it.
1122 
1123   Derived d;
1124   Derived& r2 = ByRef<Derived>(d);
1125   EXPECT_EQ(&d, &r2);
1126 
1127   const Derived& r3 = ByRef<const Derived>(d);
1128   EXPECT_EQ(&d, &r3);
1129 
1130   Base& r4 = ByRef<Base>(d);
1131   EXPECT_EQ(&d, &r4);
1132 
1133   const Base& r5 = ByRef<const Base>(d);
1134   EXPECT_EQ(&d, &r5);
1135 
1136   // The following shouldn't compile - we have a negative compilation
1137   // test for it.
1138   //
1139   // Base b;
1140   // ByRef<Derived>(b);
1141 }
1142 
1143 // Tests that Google Mock prints expression ByRef(x) as a reference to x.
TEST(ByRefTest,PrintsCorrectly)1144 TEST(ByRefTest, PrintsCorrectly) {
1145   int n = 42;
1146   ::std::stringstream expected, actual;
1147   testing::internal::UniversalPrinter<const int&>::Print(n, &expected);
1148   testing::internal::UniversalPrint(ByRef(n), &actual);
1149   EXPECT_EQ(expected.str(), actual.str());
1150 }
1151 
1152 #if GTEST_HAS_STD_UNIQUE_PTR_
1153 
UniquePtrSource()1154 std::unique_ptr<int> UniquePtrSource() {
1155   return std::unique_ptr<int>(new int(19));
1156 }
1157 
VectorUniquePtrSource()1158 std::vector<std::unique_ptr<int>> VectorUniquePtrSource() {
1159   std::vector<std::unique_ptr<int>> out;
1160   out.emplace_back(new int(7));
1161   return out;
1162 }
1163 
TEST(MockMethodTest,CanReturnMoveOnlyValue_Return)1164 TEST(MockMethodTest, CanReturnMoveOnlyValue_Return) {
1165   MockClass mock;
1166   std::unique_ptr<int> i(new int(19));
1167   EXPECT_CALL(mock, MakeUnique()).WillOnce(Return(ByMove(std::move(i))));
1168   EXPECT_CALL(mock, MakeVectorUnique())
1169       .WillOnce(Return(ByMove(VectorUniquePtrSource())));
1170   Derived* d = new Derived;
1171   EXPECT_CALL(mock, MakeUniqueBase())
1172       .WillOnce(Return(ByMove(std::unique_ptr<Derived>(d))));
1173 
1174   std::unique_ptr<int> result1 = mock.MakeUnique();
1175   EXPECT_EQ(19, *result1);
1176 
1177   std::vector<std::unique_ptr<int>> vresult = mock.MakeVectorUnique();
1178   EXPECT_EQ(1u, vresult.size());
1179   EXPECT_NE(nullptr, vresult[0]);
1180   EXPECT_EQ(7, *vresult[0]);
1181 
1182   std::unique_ptr<Base> result2 = mock.MakeUniqueBase();
1183   EXPECT_EQ(d, result2.get());
1184 }
1185 
TEST(MockMethodTest,CanReturnMoveOnlyValue_DoAllReturn)1186 TEST(MockMethodTest, CanReturnMoveOnlyValue_DoAllReturn) {
1187   testing::MockFunction<void()> mock_function;
1188   MockClass mock;
1189   std::unique_ptr<int> i(new int(19));
1190   EXPECT_CALL(mock_function, Call());
1191   EXPECT_CALL(mock, MakeUnique()).WillOnce(DoAll(
1192       InvokeWithoutArgs(&mock_function, &testing::MockFunction<void()>::Call),
1193       Return(ByMove(std::move(i)))));
1194 
1195   std::unique_ptr<int> result1 = mock.MakeUnique();
1196   EXPECT_EQ(19, *result1);
1197 }
1198 
TEST(MockMethodTest,CanReturnMoveOnlyValue_Invoke)1199 TEST(MockMethodTest, CanReturnMoveOnlyValue_Invoke) {
1200   MockClass mock;
1201 
1202   // Check default value
1203   DefaultValue<std::unique_ptr<int>>::SetFactory([] {
1204     return std::unique_ptr<int>(new int(42));
1205   });
1206   EXPECT_EQ(42, *mock.MakeUnique());
1207 
1208   EXPECT_CALL(mock, MakeUnique()).WillRepeatedly(Invoke(UniquePtrSource));
1209   EXPECT_CALL(mock, MakeVectorUnique())
1210       .WillRepeatedly(Invoke(VectorUniquePtrSource));
1211   std::unique_ptr<int> result1 = mock.MakeUnique();
1212   EXPECT_EQ(19, *result1);
1213   std::unique_ptr<int> result2 = mock.MakeUnique();
1214   EXPECT_EQ(19, *result2);
1215   EXPECT_NE(result1, result2);
1216 
1217   std::vector<std::unique_ptr<int>> vresult = mock.MakeVectorUnique();
1218   EXPECT_EQ(1u, vresult.size());
1219   EXPECT_NE(nullptr, vresult[0]);
1220   EXPECT_EQ(7, *vresult[0]);
1221 }
1222 
TEST(MockMethodTest,CanTakeMoveOnlyValue)1223 TEST(MockMethodTest, CanTakeMoveOnlyValue) {
1224   MockClass mock;
1225   auto make = [](int i) { return std::unique_ptr<int>(new int(i)); };
1226 
1227   EXPECT_CALL(mock, TakeUnique(_)).WillRepeatedly([](std::unique_ptr<int> i) {
1228     return *i;
1229   });
1230   // DoAll() does not compile, since it would move from its arguments twice.
1231   // EXPECT_CALL(mock, TakeUnique(_, _))
1232   //     .WillRepeatedly(DoAll(Invoke([](std::unique_ptr<int> j) {}),
1233   //     Return(1)));
1234   EXPECT_CALL(mock, TakeUnique(testing::Pointee(7)))
1235       .WillOnce(Return(-7))
1236       .RetiresOnSaturation();
1237   EXPECT_CALL(mock, TakeUnique(testing::IsNull()))
1238       .WillOnce(Return(-1))
1239       .RetiresOnSaturation();
1240 
1241   EXPECT_EQ(5, mock.TakeUnique(make(5)));
1242   EXPECT_EQ(-7, mock.TakeUnique(make(7)));
1243   EXPECT_EQ(7, mock.TakeUnique(make(7)));
1244   EXPECT_EQ(7, mock.TakeUnique(make(7)));
1245   EXPECT_EQ(-1, mock.TakeUnique({}));
1246 
1247   // Some arguments are moved, some passed by reference.
1248   auto lvalue = make(6);
1249   EXPECT_CALL(mock, TakeUnique(_, _))
1250       .WillOnce([](const std::unique_ptr<int>& i, std::unique_ptr<int> j) {
1251         return *i * *j;
1252       });
1253   EXPECT_EQ(42, mock.TakeUnique(lvalue, make(7)));
1254 
1255   // The unique_ptr can be saved by the action.
1256   std::unique_ptr<int> saved;
1257   EXPECT_CALL(mock, TakeUnique(_)).WillOnce([&saved](std::unique_ptr<int> i) {
1258     saved = std::move(i);
1259     return 0;
1260   });
1261   EXPECT_EQ(0, mock.TakeUnique(make(42)));
1262   EXPECT_EQ(42, *saved);
1263 }
1264 
1265 #endif  // GTEST_HAS_STD_UNIQUE_PTR_
1266 
1267 #if GTEST_LANG_CXX11
1268 // Tests for std::function based action.
1269 
Add(int val,int & ref,int * ptr)1270 int Add(int val, int& ref, int* ptr) {  // NOLINT
1271   int result = val + ref + *ptr;
1272   ref = 42;
1273   *ptr = 43;
1274   return result;
1275 }
1276 
Deref(std::unique_ptr<int> ptr)1277 int Deref(std::unique_ptr<int> ptr) { return *ptr; }
1278 
1279 struct Double {
1280   template <typename T>
operator ()__anon3eb9bdba0111::Double1281   T operator()(T t) { return 2 * t; }
1282 };
1283 
UniqueInt(int i)1284 std::unique_ptr<int> UniqueInt(int i) {
1285   return std::unique_ptr<int>(new int(i));
1286 }
1287 
TEST(FunctorActionTest,ActionFromFunction)1288 TEST(FunctorActionTest, ActionFromFunction) {
1289   Action<int(int, int&, int*)> a = &Add;
1290   int x = 1, y = 2, z = 3;
1291   EXPECT_EQ(6, a.Perform(std::forward_as_tuple(x, y, &z)));
1292   EXPECT_EQ(42, y);
1293   EXPECT_EQ(43, z);
1294 
1295   Action<int(std::unique_ptr<int>)> a1 = &Deref;
1296   EXPECT_EQ(7, a1.Perform(std::make_tuple(UniqueInt(7))));
1297 }
1298 
TEST(FunctorActionTest,ActionFromLambda)1299 TEST(FunctorActionTest, ActionFromLambda) {
1300   Action<int(bool, int)> a1 = [](bool b, int i) { return b ? i : 0; };
1301   EXPECT_EQ(5, a1.Perform(make_tuple(true, 5)));
1302   EXPECT_EQ(0, a1.Perform(make_tuple(false, 5)));
1303 
1304   std::unique_ptr<int> saved;
1305   Action<void(std::unique_ptr<int>)> a2 = [&saved](std::unique_ptr<int> p) {
1306     saved = std::move(p);
1307   };
1308   a2.Perform(make_tuple(UniqueInt(5)));
1309   EXPECT_EQ(5, *saved);
1310 }
1311 
TEST(FunctorActionTest,PolymorphicFunctor)1312 TEST(FunctorActionTest, PolymorphicFunctor) {
1313   Action<int(int)> ai = Double();
1314   EXPECT_EQ(2, ai.Perform(make_tuple(1)));
1315   Action<double(double)> ad = Double();  // Double? Double double!
1316   EXPECT_EQ(3.0, ad.Perform(make_tuple(1.5)));
1317 }
1318 
TEST(FunctorActionTest,TypeConversion)1319 TEST(FunctorActionTest, TypeConversion) {
1320   // Numeric promotions are allowed.
1321   const Action<bool(int)> a1 = [](int i) { return i > 1; };
1322   const Action<int(bool)> a2 = Action<int(bool)>(a1);
1323   EXPECT_EQ(1, a1.Perform(make_tuple(42)));
1324   EXPECT_EQ(0, a2.Perform(make_tuple(42)));
1325 
1326   // Implicit constructors are allowed.
1327   const Action<bool(std::string)> s1 = [](std::string s) { return !s.empty(); };
1328   const Action<int(const char*)> s2 = Action<int(const char*)>(s1);
1329   EXPECT_EQ(0, s2.Perform(make_tuple("")));
1330   EXPECT_EQ(1, s2.Perform(make_tuple("hello")));
1331 
1332   // Also between the lambda and the action itself.
1333   const Action<bool(std::string)> x = [](Unused) { return 42; };
1334   EXPECT_TRUE(x.Perform(make_tuple("hello")));
1335 }
1336 
TEST(FunctorActionTest,UnusedArguments)1337 TEST(FunctorActionTest, UnusedArguments) {
1338   // Verify that users can ignore uninteresting arguments.
1339   Action<int(int, double y, double z)> a =
1340       [](int i, Unused, Unused) { return 2 * i; };
1341   tuple<int, double, double> dummy = make_tuple(3, 7.3, 9.44);
1342   EXPECT_EQ(6, a.Perform(dummy));
1343 }
1344 
1345 // Test that basic built-in actions work with move-only arguments.
1346 // FIXME: Currently, almost all ActionInterface-based actions will not
1347 // work, even if they only try to use other, copyable arguments. Implement them
1348 // if necessary (but note that DoAll cannot work on non-copyable types anyway -
1349 // so maybe it's better to make users use lambdas instead.
TEST(MoveOnlyArgumentsTest,ReturningActions)1350 TEST(MoveOnlyArgumentsTest, ReturningActions) {
1351   Action<int(std::unique_ptr<int>)> a = Return(1);
1352   EXPECT_EQ(1, a.Perform(make_tuple(nullptr)));
1353 
1354   a = testing::WithoutArgs([]() { return 7; });
1355   EXPECT_EQ(7, a.Perform(make_tuple(nullptr)));
1356 
1357   Action<void(std::unique_ptr<int>, int*)> a2 = testing::SetArgPointee<1>(3);
1358   int x = 0;
1359   a2.Perform(make_tuple(nullptr, &x));
1360   EXPECT_EQ(x, 3);
1361 }
1362 
1363 #endif  // GTEST_LANG_CXX11
1364 
1365 }  // Unnamed namespace
1366 
1367 #ifdef _MSC_VER
1368 #if _MSC_VER == 1900
1369 #  pragma warning(pop)
1370 #endif
1371 #endif
1372 
1373