525 lines
23 KiB
Markdown
Executable File
525 lines
23 KiB
Markdown
Executable File
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# Defining a Mock Class #
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## Mocking a Normal Class ##
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Given
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```
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class Foo {
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...
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virtual ~Foo();
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virtual int GetSize() const = 0;
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virtual string Describe(const char* name) = 0;
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virtual string Describe(int type) = 0;
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virtual bool Process(Bar elem, int count) = 0;
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};
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```
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(note that `~Foo()` **must** be virtual) we can define its mock as
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```
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#include <gmock/gmock.h>
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class MockFoo : public Foo {
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MOCK_CONST_METHOD0(GetSize, int());
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MOCK_METHOD1(Describe, string(const char* name));
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MOCK_METHOD1(Describe, string(int type));
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MOCK_METHOD2(Process, bool(Bar elem, int count));
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};
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```
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To create a "nice" mock object which ignores all uninteresting calls,
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or a "strict" mock object, which treats them as failures:
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```
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NiceMock<MockFoo> nice_foo; // The type is a subclass of MockFoo.
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StrictMock<MockFoo> strict_foo; // The type is a subclass of MockFoo.
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```
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## Mocking a Class Template ##
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To mock
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```
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template <typename Elem>
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class StackInterface {
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public:
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...
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virtual ~StackInterface();
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virtual int GetSize() const = 0;
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virtual void Push(const Elem& x) = 0;
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};
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```
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(note that `~StackInterface()` **must** be virtual) just append `_T` to the `MOCK_*` macros:
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```
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template <typename Elem>
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class MockStack : public StackInterface<Elem> {
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public:
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...
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MOCK_CONST_METHOD0_T(GetSize, int());
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MOCK_METHOD1_T(Push, void(const Elem& x));
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};
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```
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## Specifying Calling Conventions for Mock Functions ##
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If your mock function doesn't use the default calling convention, you
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can specify it by appending `_WITH_CALLTYPE` to any of the macros
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described in the previous two sections and supplying the calling
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convention as the first argument to the macro. For example,
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```
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MOCK_METHOD_1_WITH_CALLTYPE(STDMETHODCALLTYPE, Foo, bool(int n));
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MOCK_CONST_METHOD2_WITH_CALLTYPE(STDMETHODCALLTYPE, Bar, int(double x, double y));
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```
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where `STDMETHODCALLTYPE` is defined by `<objbase.h>` on Windows.
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# Using Mocks in Tests #
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The typical flow is:
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1. Import the Google Mock names you need to use. All Google Mock names are in the `testing` namespace unless they are macros or otherwise noted.
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1. Create the mock objects.
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1. Optionally, set the default actions of the mock objects.
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1. Set your expectations on the mock objects (How will they be called? What wil they do?).
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1. Exercise code that uses the mock objects; if necessary, check the result using [Google Test](http://code.google.com/p/googletest/) assertions.
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1. When a mock objects is destructed, Google Mock automatically verifies that all expectations on it have been satisfied.
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Here is an example:
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```
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using ::testing::Return; // #1
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TEST(BarTest, DoesThis) {
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MockFoo foo; // #2
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ON_CALL(foo, GetSize()) // #3
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.WillByDefault(Return(1));
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// ... other default actions ...
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EXPECT_CALL(foo, Describe(5)) // #4
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.Times(3)
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.WillRepeatedly(Return("Category 5"));
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// ... other expectations ...
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EXPECT_EQ("good", MyProductionFunction(&foo)); // #5
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} // #6
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```
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# Setting Default Actions #
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Google Mock has a **built-in default action** for any function that
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returns `void`, `bool`, a numeric value, or a pointer.
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To customize the default action for functions with return type `T` globally:
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```
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using ::testing::DefaultValue;
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DefaultValue<T>::Set(value); // Sets the default value to be returned.
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// ... use the mocks ...
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DefaultValue<T>::Clear(); // Resets the default value.
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```
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To customize the default action for a particular method, use `ON_CALL()`:
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```
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ON_CALL(mock_object, method(matchers))
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.With(multi_argument_matcher) ?
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.WillByDefault(action);
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```
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# Setting Expectations #
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`EXPECT_CALL()` sets **expectations** on a mock method (How will it be
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called? What will it do?):
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```
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EXPECT_CALL(mock_object, method(matchers))
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.With(multi_argument_matcher) ?
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.Times(cardinality) ?
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.InSequence(sequences) *
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.After(expectations) *
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.WillOnce(action) *
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.WillRepeatedly(action) ?
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.RetiresOnSaturation(); ?
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```
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If `Times()` is omitted, the cardinality is assumed to be:
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* `Times(1)` when there is neither `WillOnce()` nor `WillRepeatedly()`;
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* `Times(n)` when there are `n WillOnce()`s but no `WillRepeatedly()`, where `n` >= 1; or
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* `Times(AtLeast(n))` when there are `n WillOnce()`s and a `WillRepeatedly()`, where `n` >= 0.
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A method with no `EXPECT_CALL()` is free to be invoked _any number of times_, and the default action will be taken each time.
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# Matchers #
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A **matcher** matches a _single_ argument. You can use it inside
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`ON_CALL()` or `EXPECT_CALL()`, or use it to validate a value
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directly:
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| `EXPECT_THAT(value, matcher)` | Asserts that `value` matches `matcher`. |
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|:------------------------------|:----------------------------------------|
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| `ASSERT_THAT(value, matcher)` | The same as `EXPECT_THAT(value, matcher)`, except that it generates a **fatal** failure. |
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Built-in matchers (where `argument` is the function argument) are
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divided into several categories:
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## Wildcard ##
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|`_`|`argument` can be any value of the correct type.|
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|:--|:-----------------------------------------------|
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|`A<type>()` or `An<type>()`|`argument` can be any value of type `type`. |
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## Generic Comparison ##
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|`Eq(value)` or `value`|`argument == value`|
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|:---------------------|:------------------|
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|`Ge(value)` |`argument >= value`|
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|`Gt(value)` |`argument > value` |
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|`Le(value)` |`argument <= value`|
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|`Lt(value)` |`argument < value` |
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|`Ne(value)` |`argument != value`|
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|`IsNull()` |`argument` is a `NULL` pointer (raw or smart).|
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|`NotNull()` |`argument` is a non-null pointer (raw or smart).|
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|`Ref(variable)` |`argument` is a reference to `variable`.|
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|`TypedEq<type>(value)`|`argument` has type `type` and is equal to `value`. You may need to use this instead of `Eq(value)` when the mock function is overloaded.|
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Except `Ref()`, these matchers make a _copy_ of `value` in case it's
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modified or destructed later. If the compiler complains that `value`
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doesn't have a public copy constructor, try wrap it in `ByRef()`,
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e.g. `Eq(ByRef(non_copyable_value))`. If you do that, make sure
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`non_copyable_value` is not changed afterwards, or the meaning of your
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matcher will be changed.
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## Floating-Point Matchers ##
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|`DoubleEq(a_double)`|`argument` is a `double` value approximately equal to `a_double`, treating two NaNs as unequal.|
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|:-------------------|:----------------------------------------------------------------------------------------------|
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|`FloatEq(a_float)` |`argument` is a `float` value approximately equal to `a_float`, treating two NaNs as unequal. |
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|`NanSensitiveDoubleEq(a_double)`|`argument` is a `double` value approximately equal to `a_double`, treating two NaNs as equal. |
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|`NanSensitiveFloatEq(a_float)`|`argument` is a `float` value approximately equal to `a_float`, treating two NaNs as equal. |
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The above matchers use ULP-based comparison (the same as used in
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[Google Test](http://code.google.com/p/googletest/)). They
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automatically pick a reasonable error bound based on the absolute
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value of the expected value. `DoubleEq()` and `FloatEq()` conform to
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the IEEE standard, which requires comparing two NaNs for equality to
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return false. The `NanSensitive*` version instead treats two NaNs as
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equal, which is often what a user wants.
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## String Matchers ##
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The `argument` can be either a C string or a C++ string object:
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|`ContainsRegex(string)`|`argument` matches the given regular expression.|
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|:----------------------|:-----------------------------------------------|
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|`EndsWith(suffix)` |`argument` ends with string `suffix`. |
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|`HasSubstr(string)` |`argument` contains `string` as a sub-string. |
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|`MatchesRegex(string)` |`argument` matches the given regular expression with the match starting at the first character and ending at the last character.|
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|`StartsWith(prefix)` |`argument` starts with string `prefix`. |
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|`StrCaseEq(string)` |`argument` is equal to `string`, ignoring case. |
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|`StrCaseNe(string)` |`argument` is not equal to `string`, ignoring case.|
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|`StrEq(string)` |`argument` is equal to `string`. |
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|`StrNe(string)` |`argument` is not equal to `string`. |
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`StrCaseEq()`, `StrCaseNe()`, `StrEq()`, and `StrNe()` work for wide
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strings as well.
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## Container Matchers ##
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Most STL-style containers support `==`, so you can use
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`Eq(expected_container)` or simply `expected_container` to match a
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container exactly. If you want to write the elements in-line,
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match them more flexibly, or get more informative messages, you can use:
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| `Contains(e)` | `argument` contains an element that matches `e`, which can be either a value or a matcher. |
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|:--------------|:-------------------------------------------------------------------------------------------|
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|`ElementsAre(e0, e1, ..., en)`|`argument` has `n + 1` elements, where the i-th element matches `ei`, which can be a value or a matcher. 0 to 10 arguments are allowed.|
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|`ElementsAreArray(array)` or `ElementsAreArray(array, count)`|The same as `ElementsAre()` except that the expected element values/matchers come from a C-style array.|
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| `ContainerEq(container)` | The same as `Eq(container)` except that the failure message also includes which elements are in one container but not the other. |
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These matchers can also match:
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1. a native array passed by reference (e.g. in `Foo(const int (&a)[5])`), and
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1. an array passed as a pointer and a count (e.g. in `Bar(const T* buffer, int len)` -- see [Multi-argument Matchers](#Multiargument_Matchers.md)).
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where the array may be multi-dimensional (i.e. its elements can be arrays).
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## Member Matchers ##
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|`Field(&class::field, m)`|`argument.field` (or `argument->field` when `argument` is a plain pointer) matches matcher `m`, where `argument` is an object of type _class_.|
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|:------------------------|:---------------------------------------------------------------------------------------------------------------------------------------------|
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|`Key(e)` |`argument.first` matches `e`, which can be either a value or a matcher. E.g. `Contains(Key(Le(5)))` can verify that a `map` contains a key `<= 5`.|
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|`Pair(m1, m2)` |`argument` is an `std::pair` whose `first` field matches `m1` and `second` field matches `m2`. |
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|`Property(&class::property, m)`|`argument.property()` (or `argument->property()` when `argument` is a plain pointer) matches matcher `m`, where `argument` is an object of type _class_.|
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## Matching the Result of a Function or Functor ##
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|`ResultOf(f, m)`|`f(argument)` matches matcher `m`, where `f` is a function or functor.|
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|:---------------|:---------------------------------------------------------------------|
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## Pointer Matchers ##
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|`Pointee(m)`|`argument` (either a smart pointer or a raw pointer) points to a value that matches matcher `m`.|
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|:-----------|:-----------------------------------------------------------------------------------------------|
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## Multiargument Matchers ##
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These are matchers on tuple types. They can be used in
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`.With()`. The following can be used on functions with <i>two<br>
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arguments</i> `x` and `y`:
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|`Eq()`|`x == y`|
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|:-----|:-------|
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|`Ge()`|`x >= y`|
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|`Gt()`|`x > y` |
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|`Le()`|`x <= y`|
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|`Lt()`|`x < y` |
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|`Ne()`|`x != y`|
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You can use the following selectors to pick a subset of the arguments
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(or reorder them) to participate in the matching:
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|`AllArgs(m)`|Equivalent to `m`. Useful as syntactic sugar in `.With(AllArgs(m))`.|
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|:-----------|:-------------------------------------------------------------------|
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|`Args<N1, N2, ..., Nk>(m)`|The `k` selected (using 0-based indices) arguments match `m`, e.g. `Args<1, 2>(Contains(5))`.|
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## Composite Matchers ##
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You can make a matcher from one or more other matchers:
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|`AllOf(m1, m2, ..., mn)`|`argument` matches all of the matchers `m1` to `mn`.|
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|:-----------------------|:---------------------------------------------------|
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|`AnyOf(m1, m2, ..., mn)`|`argument` matches at least one of the matchers `m1` to `mn`.|
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|`Not(m)` |`argument` doesn't match matcher `m`. |
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## Adapters for Matchers ##
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|`MatcherCast<T>(m)`|casts matcher `m` to type `Matcher<T>`.|
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|:------------------|:--------------------------------------|
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|`SafeMatcherCast<T>(m)`| [safely casts](V1_5_CookBook#Casting_Matchers.md) matcher `m` to type `Matcher<T>`. |
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|`Truly(predicate)` |`predicate(argument)` returns something considered by C++ to be true, where `predicate` is a function or functor.|
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## Matchers as Predicates ##
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|`Matches(m)`|a unary functor that returns `true` if the argument matches `m`.|
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|:-----------|:---------------------------------------------------------------|
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|`ExplainMatchResult(m, value, result_listener)`|returns `true` if `value` matches `m`, explaining the result to `result_listener`.|
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|`Value(x, m)`|returns `true` if the value of `x` matches `m`. |
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## Defining Matchers ##
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| `MATCHER(IsEven, "") { return (arg % 2) == 0; }` | Defines a matcher `IsEven()` to match an even number. |
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|:-------------------------------------------------|:------------------------------------------------------|
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| `MATCHER_P(IsDivisibleBy, n, "") { *result_listener << "where the remainder is " << (arg % n); return (arg % n) == 0; }` | Defines a macher `IsDivisibleBy(n)` to match a number divisible by `n`. |
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| `MATCHER_P2(IsBetween, a, b, "is between %(a)s and %(b)s") { return a <= arg && arg <= b; }` | Defines a matcher `IsBetween(a, b)` to match a value in the range [`a`, `b`]. |
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**Notes:**
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1. The `MATCHER*` macros cannot be used inside a function or class.
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1. The matcher body must be _purely functional_ (i.e. it cannot have any side effect, and the result must not depend on anything other than the value being matched and the matcher parameters).
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1. You can use `PrintToString(x)` to convert a value `x` of any type to a string.
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## Matchers as Test Assertions ##
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|`ASSERT_THAT(expression, m)`|Generates a [fatal failure](http://code.google.com/p/googletest/wiki/GoogleTestPrimer#Assertions) if the value of `expression` doesn't match matcher `m`.|
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|:---------------------------|:--------------------------------------------------------------------------------------------------------------------------------------------------------|
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|`EXPECT_THAT(expression, m)`|Generates a non-fatal failure if the value of `expression` doesn't match matcher `m`. |
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# Actions #
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**Actions** specify what a mock function should do when invoked.
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## Returning a Value ##
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|`Return()`|Return from a `void` mock function.|
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|:---------|:----------------------------------|
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|`Return(value)`|Return `value`. |
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|`ReturnArg<N>()`|Return the `N`-th (0-based) argument.|
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|`ReturnNew<T>(a1, ..., ak)`|Return `new T(a1, ..., ak)`; a different object is created each time.|
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|`ReturnNull()`|Return a null pointer. |
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|`ReturnRef(variable)`|Return a reference to `variable`. |
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## Side Effects ##
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|`Assign(&variable, value)`|Assign `value` to variable.|
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|:-------------------------|:--------------------------|
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| `DeleteArg<N>()` | Delete the `N`-th (0-based) argument, which must be a pointer. |
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| `SaveArg<N>(pointer)` | Save the `N`-th (0-based) argument to `*pointer`. |
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| `SetArgReferee<N>(value)` | Assign value to the variable referenced by the `N`-th (0-based) argument. |
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|`SetArgumentPointee<N>(value)`|Assign `value` to the variable pointed by the `N`-th (0-based) argument.|
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|`SetArrayArgument<N>(first, last)`|Copies the elements in source range [`first`, `last`) to the array pointed to by the `N`-th (0-based) argument, which can be either a pointer or an iterator. The action does not take ownership of the elements in the source range.|
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|`SetErrnoAndReturn(error, value)`|Set `errno` to `error` and return `value`.|
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|`Throw(exception)` |Throws the given exception, which can be any copyable value. Available since v1.1.0.|
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## Using a Function or a Functor as an Action ##
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|`Invoke(f)`|Invoke `f` with the arguments passed to the mock function, where `f` can be a global/static function or a functor.|
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|:----------|:-----------------------------------------------------------------------------------------------------------------|
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|`Invoke(object_pointer, &class::method)`|Invoke the {method on the object with the arguments passed to the mock function. |
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|`InvokeWithoutArgs(f)`|Invoke `f`, which can be a global/static function or a functor. `f` must take no arguments. |
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|`InvokeWithoutArgs(object_pointer, &class::method)`|Invoke the method on the object, which takes no arguments. |
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|`InvokeArgument<N>(arg1, arg2, ..., argk)`|Invoke the mock function's `N`-th (0-based) argument, which must be a function or a functor, with the `k` arguments.|
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The return value of the invoked function is used as the return value
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of the action.
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When defining a function or functor to be used with `Invoke*()`, you can declare any unused parameters as `Unused`:
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```
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double Distance(Unused, double x, double y) { return sqrt(x*x + y*y); }
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...
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EXPECT_CALL(mock, Foo("Hi", _, _)).WillOnce(Invoke(Distance));
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```
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In `InvokeArgument<N>(...)`, if an argument needs to be passed by reference, wrap it inside `ByRef()`. For example,
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```
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InvokeArgument<2>(5, string("Hi"), ByRef(foo))
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```
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calls the mock function's #2 argument, passing to it `5` and `string("Hi")` by value, and `foo` by reference.
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## Default Action ##
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|`DoDefault()`|Do the default action (specified by `ON_CALL()` or the built-in one).|
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|:------------|:--------------------------------------------------------------------|
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**Note:** due to technical reasons, `DoDefault()` cannot be used inside a composite action - trying to do so will result in a run-time error.
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## Composite Actions ##
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|`DoAll(a1, a2, ..., an)`|Do all actions `a1` to `an` and return the result of `an` in each invocation. The first `n - 1` sub-actions must return void. |
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|:-----------------------|:-----------------------------------------------------------------------------------------------------------------------------|
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|`IgnoreResult(a)` |Perform action `a` and ignore its result. `a` must not return void. |
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|`WithArg<N>(a)` |Pass the `N`-th (0-based) argument of the mock function to action `a` and perform it. |
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|`WithArgs<N1, N2, ..., Nk>(a)`|Pass the selected (0-based) arguments of the mock function to action `a` and perform it. |
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|`WithoutArgs(a)` |Perform action `a` without any arguments. |
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## Defining Actions ##
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| `ACTION(Sum) { return arg0 + arg1; }` | Defines an action `Sum()` to return the sum of the mock function's argument #0 and #1. |
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|:--------------------------------------|:---------------------------------------------------------------------------------------|
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| `ACTION_P(Plus, n) { return arg0 + n; }` | Defines an action `Plus(n)` to return the sum of the mock function's argument #0 and `n`. |
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| `ACTION_Pk(Foo, p1, ..., pk) { statements; }` | Defines a parameterized action `Foo(p1, ..., pk)` to execute the given `statements`. |
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The `ACTION*` macros cannot be used inside a function or class.
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# Cardinalities #
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These are used in `Times()` to specify how many times a mock function will be called:
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|`AnyNumber()`|The function can be called any number of times.|
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|:------------|:----------------------------------------------|
|
|
|`AtLeast(n)` |The call is expected at least `n` times. |
|
|
|`AtMost(n)` |The call is expected at most `n` times. |
|
|
|`Between(m, n)`|The call is expected between `m` and `n` (inclusive) times.|
|
|
|`Exactly(n) or n`|The call is expected exactly `n` times. In particular, the call should never happen when `n` is 0.|
|
|
|
|
# Expectation Order #
|
|
|
|
By default, the expectations can be matched in _any_ order. If some
|
|
or all expectations must be matched in a given order, there are two
|
|
ways to specify it. They can be used either independently or
|
|
together.
|
|
|
|
## The After Clause ##
|
|
|
|
```
|
|
using ::testing::Expectation;
|
|
...
|
|
Expectation init_x = EXPECT_CALL(foo, InitX());
|
|
Expectation init_y = EXPECT_CALL(foo, InitY());
|
|
EXPECT_CALL(foo, Bar())
|
|
.After(init_x, init_y);
|
|
```
|
|
says that `Bar()` can be called only after both `InitX()` and
|
|
`InitY()` have been called.
|
|
|
|
If you don't know how many pre-requisites an expectation has when you
|
|
write it, you can use an `ExpectationSet` to collect them:
|
|
|
|
```
|
|
using ::testing::ExpectationSet;
|
|
...
|
|
ExpectationSet all_inits;
|
|
for (int i = 0; i < element_count; i++) {
|
|
all_inits += EXPECT_CALL(foo, InitElement(i));
|
|
}
|
|
EXPECT_CALL(foo, Bar())
|
|
.After(all_inits);
|
|
```
|
|
says that `Bar()` can be called only after all elements have been
|
|
initialized (but we don't care about which elements get initialized
|
|
before the others).
|
|
|
|
Modifying an `ExpectationSet` after using it in an `.After()` doesn't
|
|
affect the meaning of the `.After()`.
|
|
|
|
## Sequences ##
|
|
|
|
When you have a long chain of sequential expectations, it's easier to
|
|
specify the order using **sequences**, which don't require you to given
|
|
each expectation in the chain a different name. <i>All expected<br>
|
|
calls</i> in the same sequence must occur in the order they are
|
|
specified.
|
|
|
|
```
|
|
using ::testing::Sequence;
|
|
Sequence s1, s2;
|
|
...
|
|
EXPECT_CALL(foo, Reset())
|
|
.InSequence(s1, s2)
|
|
.WillOnce(Return(true));
|
|
EXPECT_CALL(foo, GetSize())
|
|
.InSequence(s1)
|
|
.WillOnce(Return(1));
|
|
EXPECT_CALL(foo, Describe(A<const char*>()))
|
|
.InSequence(s2)
|
|
.WillOnce(Return("dummy"));
|
|
```
|
|
says that `Reset()` must be called before _both_ `GetSize()` _and_
|
|
`Describe()`, and the latter two can occur in any order.
|
|
|
|
To put many expectations in a sequence conveniently:
|
|
```
|
|
using ::testing::InSequence;
|
|
{
|
|
InSequence dummy;
|
|
|
|
EXPECT_CALL(...)...;
|
|
EXPECT_CALL(...)...;
|
|
...
|
|
EXPECT_CALL(...)...;
|
|
}
|
|
```
|
|
says that all expected calls in the scope of `dummy` must occur in
|
|
strict order. The name `dummy` is irrelevant.)
|
|
|
|
# Verifying and Resetting a Mock #
|
|
|
|
Google Mock will verify the expectations on a mock object when it is destructed, or you can do it earlier:
|
|
```
|
|
using ::testing::Mock;
|
|
...
|
|
// Verifies and removes the expectations on mock_obj;
|
|
// returns true iff successful.
|
|
Mock::VerifyAndClearExpectations(&mock_obj);
|
|
...
|
|
// Verifies and removes the expectations on mock_obj;
|
|
// also removes the default actions set by ON_CALL();
|
|
// returns true iff successful.
|
|
Mock::VerifyAndClear(&mock_obj);
|
|
```
|
|
|
|
You can also tell Google Mock that a mock object can be leaked and doesn't
|
|
need to be verified:
|
|
```
|
|
Mock::AllowLeak(&mock_obj);
|
|
```
|
|
|
|
# Mock Classes #
|
|
|
|
Google Mock defines a convenient mock class template
|
|
```
|
|
class MockFunction<R(A1, ..., An)> {
|
|
public:
|
|
MOCK_METHODn(Call, R(A1, ..., An));
|
|
};
|
|
```
|
|
See this [recipe](V1_5_CookBook#Using_Check_Points.md) for one application of it.
|
|
|
|
# Flags #
|
|
|
|
| `--gmock_catch_leaked_mocks=0` | Don't report leaked mock objects as failures. |
|
|
|:-------------------------------|:----------------------------------------------|
|
|
| `--gmock_verbose=LEVEL` | Sets the default verbosity level (`info`, `warning`, or `error`) of Google Mock messages. | |