assimp/contrib/googletest/docs/reference/mocking.md

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# Mocking Reference
This page lists the facilities provided by GoogleTest for creating and working
with mock objects. To use them, include the header
`gmock/gmock.h`.
## Macros {#macros}
GoogleTest defines the following macros for working with mocks.
### MOCK_METHOD {#MOCK_METHOD}
`MOCK_METHOD(`*`return_type`*`,`*`method_name`*`, (`*`args...`*`));` \
`MOCK_METHOD(`*`return_type`*`,`*`method_name`*`, (`*`args...`*`),
(`*`specs...`*`));`
Defines a mock method *`method_name`* with arguments `(`*`args...`*`)` and
return type *`return_type`* within a mock class.
The parameters of `MOCK_METHOD` mirror the method declaration. The optional
fourth parameter *`specs...`* is a comma-separated list of qualifiers. The
following qualifiers are accepted:
| Qualifier | Meaning |
| -------------------------- | -------------------------------------------- |
| `const` | Makes the mocked method a `const` method. Required if overriding a `const` method. |
| `override` | Marks the method with `override`. Recommended if overriding a `virtual` method. |
| `noexcept` | Marks the method with `noexcept`. Required if overriding a `noexcept` method. |
| `Calltype(`*`calltype`*`)` | Sets the call type for the method, for example `Calltype(STDMETHODCALLTYPE)`. Useful on Windows. |
| `ref(`*`qualifier`*`)` | Marks the method with the given reference qualifier, for example `ref(&)` or `ref(&&)`. Required if overriding a method that has a reference qualifier. |
Note that commas in arguments prevent `MOCK_METHOD` from parsing the arguments
correctly if they are not appropriately surrounded by parentheses. See the
following example:
```cpp
class MyMock {
public:
// The following 2 lines will not compile due to commas in the arguments:
MOCK_METHOD(std::pair<bool, int>, GetPair, ()); // Error!
MOCK_METHOD(bool, CheckMap, (std::map<int, double>, bool)); // Error!
// One solution - wrap arguments that contain commas in parentheses:
MOCK_METHOD((std::pair<bool, int>), GetPair, ());
MOCK_METHOD(bool, CheckMap, ((std::map<int, double>), bool));
// Another solution - use type aliases:
using BoolAndInt = std::pair<bool, int>;
MOCK_METHOD(BoolAndInt, GetPair, ());
using MapIntDouble = std::map<int, double>;
MOCK_METHOD(bool, CheckMap, (MapIntDouble, bool));
};
```
`MOCK_METHOD` must be used in the `public:` section of a mock class definition,
regardless of whether the method being mocked is `public`, `protected`, or
`private` in the base class.
### EXPECT_CALL {#EXPECT_CALL}
`EXPECT_CALL(`*`mock_object`*`,`*`method_name`*`(`*`matchers...`*`))`
Creates an [expectation](../gmock_for_dummies.md#setting-expectations) that the
method *`method_name`* of the object *`mock_object`* is called with arguments
that match the given matchers *`matchers...`*. `EXPECT_CALL` must precede any
code that exercises the mock object.
The parameter *`matchers...`* is a comma-separated list of
[matchers](../gmock_for_dummies.md#matchers-what-arguments-do-we-expect) that
correspond to each argument of the method *`method_name`*. The expectation will
apply only to calls of *`method_name`* whose arguments match all of the
matchers. If `(`*`matchers...`*`)` is omitted, the expectation behaves as if
each argument's matcher were a [wildcard matcher (`_`)](matchers.md#wildcard).
See the [Matchers Reference](matchers.md) for a list of all built-in matchers.
The following chainable clauses can be used to modify the expectation, and they
must be used in the following order:
```cpp
EXPECT_CALL(mock_object, method_name(matchers...))
.With(multi_argument_matcher) // Can be used at most once
.Times(cardinality) // Can be used at most once
.InSequence(sequences...) // Can be used any number of times
.After(expectations...) // Can be used any number of times
.WillOnce(action) // Can be used any number of times
.WillRepeatedly(action) // Can be used at most once
.RetiresOnSaturation(); // Can be used at most once
```
See details for each modifier clause below.
#### With {#EXPECT_CALL.With}
`.With(`*`multi_argument_matcher`*`)`
Restricts the expectation to apply only to mock function calls whose arguments
as a whole match the multi-argument matcher *`multi_argument_matcher`*.
GoogleTest passes all of the arguments as one tuple into the matcher. The
parameter *`multi_argument_matcher`* must thus be a matcher of type
`Matcher<std::tuple<A1, ..., An>>`, where `A1, ..., An` are the types of the
function arguments.
For example, the following code sets the expectation that
`my_mock.SetPosition()` is called with any two arguments, the first argument
being less than the second:
```cpp
using ::testing::_;
using ::testing::Lt;
...
EXPECT_CALL(my_mock, SetPosition(_, _))
.With(Lt());
```
GoogleTest provides some built-in matchers for 2-tuples, including the `Lt()`
matcher above. See [Multi-argument Matchers](matchers.md#MultiArgMatchers).
The `With` clause can be used at most once on an expectation and must be the
first clause.
#### Times {#EXPECT_CALL.Times}
`.Times(`*`cardinality`*`)`
Specifies how many times the mock function call is expected.
The parameter *`cardinality`* represents the number of expected calls and can be
one of the following, all defined in the `::testing` namespace:
| Cardinality | Meaning |
| ------------------- | --------------------------------------------------- |
| `AnyNumber()` | The function can be called any number of times. |
| `AtLeast(n)` | The function call is expected at least *n* times. |
| `AtMost(n)` | The function call is expected at most *n* times. |
| `Between(m, n)` | The function call is expected between *m* and *n* times, inclusive. |
| `Exactly(n)` or `n` | The function call is expected exactly *n* times. If *n* is 0, the call should never happen. |
If the `Times` clause is omitted, GoogleTest infers the cardinality as follows:
* If neither [`WillOnce`](#EXPECT_CALL.WillOnce) nor
[`WillRepeatedly`](#EXPECT_CALL.WillRepeatedly) are specified, the inferred
cardinality is `Times(1)`.
* If there are *n* `WillOnce` clauses and no `WillRepeatedly` clause, where
*n* >= 1, the inferred cardinality is `Times(n)`.
* If there are *n* `WillOnce` clauses and one `WillRepeatedly` clause, where
*n* >= 0, the inferred cardinality is `Times(AtLeast(n))`.
The `Times` clause can be used at most once on an expectation.
#### InSequence {#EXPECT_CALL.InSequence}
`.InSequence(`*`sequences...`*`)`
Specifies that the mock function call is expected in a certain sequence.
The parameter *`sequences...`* is any number of [`Sequence`](#Sequence) objects.
Expected calls assigned to the same sequence are expected to occur in the order
the expectations are declared.
For example, the following code sets the expectation that the `Reset()` method
of `my_mock` is called before both `GetSize()` and `Describe()`, and `GetSize()`
and `Describe()` can occur in any order relative to each other:
```cpp
using ::testing::Sequence;
Sequence s1, s2;
...
EXPECT_CALL(my_mock, Reset())
.InSequence(s1, s2);
EXPECT_CALL(my_mock, GetSize())
.InSequence(s1);
EXPECT_CALL(my_mock, Describe())
.InSequence(s2);
```
The `InSequence` clause can be used any number of times on an expectation.
See also the [`InSequence` class](#InSequence).
#### After {#EXPECT_CALL.After}
`.After(`*`expectations...`*`)`
Specifies that the mock function call is expected to occur after one or more
other calls.
The parameter *`expectations...`* can be up to five
[`Expectation`](#Expectation) or [`ExpectationSet`](#ExpectationSet) objects.
The mock function call is expected to occur after all of the given expectations.
For example, the following code sets the expectation that the `Describe()`
method of `my_mock` is called only after both `InitX()` and `InitY()` have been
called.
```cpp
using ::testing::Expectation;
...
Expectation init_x = EXPECT_CALL(my_mock, InitX());
Expectation init_y = EXPECT_CALL(my_mock, InitY());
EXPECT_CALL(my_mock, Describe())
.After(init_x, init_y);
```
The `ExpectationSet` object is helpful when the number of prerequisites for an
expectation is large or variable, for example:
```cpp
using ::testing::ExpectationSet;
...
ExpectationSet all_inits;
// Collect all expectations of InitElement() calls
for (int i = 0; i < element_count; i++) {
all_inits += EXPECT_CALL(my_mock, InitElement(i));
}
EXPECT_CALL(my_mock, Describe())
.After(all_inits); // Expect Describe() call after all InitElement() calls
```
The `After` clause can be used any number of times on an expectation.
#### WillOnce {#EXPECT_CALL.WillOnce}
`.WillOnce(`*`action`*`)`
Specifies the mock function's actual behavior when invoked, for a single
matching function call.
The parameter *`action`* represents the
[action](../gmock_for_dummies.md#actions-what-should-it-do) that the function
call will perform. See the [Actions Reference](actions.md) for a list of
built-in actions.
The use of `WillOnce` implicitly sets a cardinality on the expectation when
`Times` is not specified. See [`Times`](#EXPECT_CALL.Times).
Each matching function call will perform the next action in the order declared.
For example, the following code specifies that `my_mock.GetNumber()` is expected
to be called exactly 3 times and will return `1`, `2`, and `3` respectively on
the first, second, and third calls:
```cpp
using ::testing::Return;
...
EXPECT_CALL(my_mock, GetNumber())
.WillOnce(Return(1))
.WillOnce(Return(2))
.WillOnce(Return(3));
```
The `WillOnce` clause can be used any number of times on an expectation. Unlike
`WillRepeatedly`, the action fed to each `WillOnce` call will be called at most
once, so may be a move-only type and/or have an `&&`-qualified call operator.
#### WillRepeatedly {#EXPECT_CALL.WillRepeatedly}
`.WillRepeatedly(`*`action`*`)`
Specifies the mock function's actual behavior when invoked, for all subsequent
matching function calls. Takes effect after the actions specified in the
[`WillOnce`](#EXPECT_CALL.WillOnce) clauses, if any, have been performed.
The parameter *`action`* represents the
[action](../gmock_for_dummies.md#actions-what-should-it-do) that the function
call will perform. See the [Actions Reference](actions.md) for a list of
built-in actions.
The use of `WillRepeatedly` implicitly sets a cardinality on the expectation
when `Times` is not specified. See [`Times`](#EXPECT_CALL.Times).
If any `WillOnce` clauses have been specified, matching function calls will
perform those actions before the action specified by `WillRepeatedly`. See the
following example:
```cpp
using ::testing::Return;
...
EXPECT_CALL(my_mock, GetName())
.WillRepeatedly(Return("John Doe")); // Return "John Doe" on all calls
EXPECT_CALL(my_mock, GetNumber())
.WillOnce(Return(42)) // Return 42 on the first call
.WillRepeatedly(Return(7)); // Return 7 on all subsequent calls
```
The `WillRepeatedly` clause can be used at most once on an expectation.
#### RetiresOnSaturation {#EXPECT_CALL.RetiresOnSaturation}
`.RetiresOnSaturation()`
Indicates that the expectation will no longer be active after the expected
number of matching function calls has been reached.
The `RetiresOnSaturation` clause is only meaningful for expectations with an
upper-bounded cardinality. The expectation will *retire* (no longer match any
function calls) after it has been *saturated* (the upper bound has been
reached). See the following example:
```cpp
using ::testing::_;
using ::testing::AnyNumber;
...
EXPECT_CALL(my_mock, SetNumber(_)) // Expectation 1
.Times(AnyNumber());
EXPECT_CALL(my_mock, SetNumber(7)) // Expectation 2
.Times(2)
.RetiresOnSaturation();
```
In the above example, the first two calls to `my_mock.SetNumber(7)` match
expectation 2, which then becomes inactive and no longer matches any calls. A
third call to `my_mock.SetNumber(7)` would then match expectation 1. Without
`RetiresOnSaturation()` on expectation 2, a third call to `my_mock.SetNumber(7)`
would match expectation 2 again, producing a failure since the limit of 2 calls
was exceeded.
The `RetiresOnSaturation` clause can be used at most once on an expectation and
must be the last clause.
### ON_CALL {#ON_CALL}
`ON_CALL(`*`mock_object`*`,`*`method_name`*`(`*`matchers...`*`))`
Defines what happens when the method *`method_name`* of the object
*`mock_object`* is called with arguments that match the given matchers
*`matchers...`*. Requires a modifier clause to specify the method's behavior.
*Does not* set any expectations that the method will be called.
The parameter *`matchers...`* is a comma-separated list of
[matchers](../gmock_for_dummies.md#matchers-what-arguments-do-we-expect) that
correspond to each argument of the method *`method_name`*. The `ON_CALL`
specification will apply only to calls of *`method_name`* whose arguments match
all of the matchers. If `(`*`matchers...`*`)` is omitted, the behavior is as if
each argument's matcher were a [wildcard matcher (`_`)](matchers.md#wildcard).
See the [Matchers Reference](matchers.md) for a list of all built-in matchers.
The following chainable clauses can be used to set the method's behavior, and
they must be used in the following order:
```cpp
ON_CALL(mock_object, method_name(matchers...))
.With(multi_argument_matcher) // Can be used at most once
.WillByDefault(action); // Required
```
See details for each modifier clause below.
#### With {#ON_CALL.With}
`.With(`*`multi_argument_matcher`*`)`
Restricts the specification to only mock function calls whose arguments as a
whole match the multi-argument matcher *`multi_argument_matcher`*.
GoogleTest passes all of the arguments as one tuple into the matcher. The
parameter *`multi_argument_matcher`* must thus be a matcher of type
`Matcher<std::tuple<A1, ..., An>>`, where `A1, ..., An` are the types of the
function arguments.
For example, the following code sets the default behavior when
`my_mock.SetPosition()` is called with any two arguments, the first argument
being less than the second:
```cpp
using ::testing::_;
using ::testing::Lt;
using ::testing::Return;
...
ON_CALL(my_mock, SetPosition(_, _))
.With(Lt())
.WillByDefault(Return(true));
```
GoogleTest provides some built-in matchers for 2-tuples, including the `Lt()`
matcher above. See [Multi-argument Matchers](matchers.md#MultiArgMatchers).
The `With` clause can be used at most once with each `ON_CALL` statement.
#### WillByDefault {#ON_CALL.WillByDefault}
`.WillByDefault(`*`action`*`)`
Specifies the default behavior of a matching mock function call.
The parameter *`action`* represents the
[action](../gmock_for_dummies.md#actions-what-should-it-do) that the function
call will perform. See the [Actions Reference](actions.md) for a list of
built-in actions.
For example, the following code specifies that by default, a call to
`my_mock.Greet()` will return `"hello"`:
```cpp
using ::testing::Return;
...
ON_CALL(my_mock, Greet())
.WillByDefault(Return("hello"));
```
The action specified by `WillByDefault` is superseded by the actions specified
on a matching `EXPECT_CALL` statement, if any. See the
[`WillOnce`](#EXPECT_CALL.WillOnce) and
[`WillRepeatedly`](#EXPECT_CALL.WillRepeatedly) clauses of `EXPECT_CALL`.
The `WillByDefault` clause must be used exactly once with each `ON_CALL`
statement.
## Classes {#classes}
GoogleTest defines the following classes for working with mocks.
### DefaultValue {#DefaultValue}
`::testing::DefaultValue<T>`
Allows a user to specify the default value for a type `T` that is both copyable
and publicly destructible (i.e. anything that can be used as a function return
type). For mock functions with a return type of `T`, this default value is
returned from function calls that do not specify an action.
Provides the static methods `Set()`, `SetFactory()`, and `Clear()` to manage the
default value:
```cpp
// Sets the default value to be returned. T must be copy constructible.
DefaultValue<T>::Set(value);
// Sets a factory. Will be invoked on demand. T must be move constructible.
T MakeT();
DefaultValue<T>::SetFactory(&MakeT);
// Unsets the default value.
DefaultValue<T>::Clear();
```
### NiceMock {#NiceMock}
`::testing::NiceMock<T>`
Represents a mock object that suppresses warnings on
[uninteresting calls](../gmock_cook_book.md#uninteresting-vs-unexpected). The
template parameter `T` is any mock class, except for another `NiceMock`,
`NaggyMock`, or `StrictMock`.
Usage of `NiceMock<T>` is analogous to usage of `T`. `NiceMock<T>` is a subclass
of `T`, so it can be used wherever an object of type `T` is accepted. In
addition, `NiceMock<T>` can be constructed with any arguments that a constructor
of `T` accepts.
For example, the following code suppresses warnings on the mock `my_mock` of
type `MockClass` if a method other than `DoSomething()` is called:
```cpp
using ::testing::NiceMock;
...
NiceMock<MockClass> my_mock("some", "args");
EXPECT_CALL(my_mock, DoSomething());
... code that uses my_mock ...
```
`NiceMock<T>` only works for mock methods defined using the `MOCK_METHOD` macro
directly in the definition of class `T`. If a mock method is defined in a base
class of `T`, a warning might still be generated.
`NiceMock<T>` might not work correctly if the destructor of `T` is not virtual.
### NaggyMock {#NaggyMock}
`::testing::NaggyMock<T>`
Represents a mock object that generates warnings on
[uninteresting calls](../gmock_cook_book.md#uninteresting-vs-unexpected). The
template parameter `T` is any mock class, except for another `NiceMock`,
`NaggyMock`, or `StrictMock`.
Usage of `NaggyMock<T>` is analogous to usage of `T`. `NaggyMock<T>` is a
subclass of `T`, so it can be used wherever an object of type `T` is accepted.
In addition, `NaggyMock<T>` can be constructed with any arguments that a
constructor of `T` accepts.
For example, the following code generates warnings on the mock `my_mock` of type
`MockClass` if a method other than `DoSomething()` is called:
```cpp
using ::testing::NaggyMock;
...
NaggyMock<MockClass> my_mock("some", "args");
EXPECT_CALL(my_mock, DoSomething());
... code that uses my_mock ...
```
Mock objects of type `T` by default behave the same way as `NaggyMock<T>`.
### StrictMock {#StrictMock}
`::testing::StrictMock<T>`
Represents a mock object that generates test failures on
[uninteresting calls](../gmock_cook_book.md#uninteresting-vs-unexpected). The
template parameter `T` is any mock class, except for another `NiceMock`,
`NaggyMock`, or `StrictMock`.
Usage of `StrictMock<T>` is analogous to usage of `T`. `StrictMock<T>` is a
subclass of `T`, so it can be used wherever an object of type `T` is accepted.
In addition, `StrictMock<T>` can be constructed with any arguments that a
constructor of `T` accepts.
For example, the following code generates a test failure on the mock `my_mock`
of type `MockClass` if a method other than `DoSomething()` is called:
```cpp
using ::testing::StrictMock;
...
StrictMock<MockClass> my_mock("some", "args");
EXPECT_CALL(my_mock, DoSomething());
... code that uses my_mock ...
```
`StrictMock<T>` only works for mock methods defined using the `MOCK_METHOD`
macro directly in the definition of class `T`. If a mock method is defined in a
base class of `T`, a failure might not be generated.
`StrictMock<T>` might not work correctly if the destructor of `T` is not
virtual.
### Sequence {#Sequence}
`::testing::Sequence`
Represents a chronological sequence of expectations. See the
[`InSequence`](#EXPECT_CALL.InSequence) clause of `EXPECT_CALL` for usage.
### InSequence {#InSequence}
`::testing::InSequence`
An object of this type causes all expectations encountered in its scope to be
put in an anonymous sequence.
This allows more convenient expression of multiple expectations in a single
sequence:
```cpp
using ::testing::InSequence;
{
InSequence seq;
// The following are expected to occur in the order declared.
EXPECT_CALL(...);
EXPECT_CALL(...);
...
EXPECT_CALL(...);
}
```
The name of the `InSequence` object does not matter.
### Expectation {#Expectation}
`::testing::Expectation`
Represents a mock function call expectation as created by
[`EXPECT_CALL`](#EXPECT_CALL):
```cpp
using ::testing::Expectation;
Expectation my_expectation = EXPECT_CALL(...);
```
Useful for specifying sequences of expectations; see the
[`After`](#EXPECT_CALL.After) clause of `EXPECT_CALL`.
### ExpectationSet {#ExpectationSet}
`::testing::ExpectationSet`
Represents a set of mock function call expectations.
Use the `+=` operator to add [`Expectation`](#Expectation) objects to the set:
```cpp
using ::testing::ExpectationSet;
ExpectationSet my_expectations;
my_expectations += EXPECT_CALL(...);
```
Useful for specifying sequences of expectations; see the
[`After`](#EXPECT_CALL.After) clause of `EXPECT_CALL`.