This page lists the facilities provided by GoogleTest for creating and working
with mock objects. To use them, add #include <gmock/gmock.h>
.
GoogleTest defines the following macros for working with mocks.
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:
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(
mock_object
,
method_name
(
matchers...
))
Creates an expectation 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 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 (_
).
See the Matchers Reference 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:
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(
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:
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.
The With
clause can be used at most once on an expectation and must be the
first clause.
.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:
WillOnce
nor
WillRepeatedly
are specified, the inferred
cardinality is Times(1)
.WillOnce
clauses and no WillRepeatedly
clause, where
n >= 1, the inferred cardinality is Times(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(
sequences...
)
Specifies that the mock function call is expected in a certain sequence.
The parameter sequences...
is any number of 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:
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.
.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
or 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.
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:
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(
action
)
Specifies the mock function's actual behavior when invoked, for a single matching function call.
The parameter action
represents the
action that the function
call will perform. See the Actions Reference 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
.
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:
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(
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
clauses, if any, have been performed.
The parameter action
represents the
action that the function
call will perform. See the Actions Reference 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
.
If any WillOnce
clauses have been specified, matching function calls will
perform those actions before the action specified by WillRepeatedly
. See the
following example:
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()
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:
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(
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 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 (_
).
See the Matchers Reference 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:
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(
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:
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.
The With
clause can be used at most once with each ON_CALL
statement.
.WillByDefault(
action
)
Specifies the default behavior of a matching mock function call.
The parameter action
represents the
action that the function
call will perform. See the Actions Reference 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"
:
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
and
WillRepeatedly
clauses of EXPECT_CALL
.
The WillByDefault
clause must be used exactly once with each ON_CALL
statement.
GoogleTest defines the following classes for working with mocks.
::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:
// 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();
::testing::NiceMock<T>
Represents a mock object that suppresses warnings on
uninteresting calls. 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:
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.
::testing::NaggyMock<T>
Represents a mock object that generates warnings on
uninteresting calls. 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:
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>
.
::testing::StrictMock<T>
Represents a mock object that generates test failures on
uninteresting calls. 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:
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.
::testing::Sequence
Represents a chronological sequence of expectations. See the
InSequence
clause of EXPECT_CALL
for usage.
::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:
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.
::testing::Expectation
Represents a mock function call expectation as created by
EXPECT_CALL
:
using ::testing::Expectation;
Expectation my_expectation = EXPECT_CALL(...);
Useful for specifying sequences of expectations; see the
After
clause of EXPECT_CALL
.
::testing::ExpectationSet
Represents a set of mock function call expectations.
Use the +=
operator to add Expectation
objects to the set:
using ::testing::ExpectationSet;
ExpectationSet my_expectations;
my_expectations += EXPECT_CALL(...);
Useful for specifying sequences of expectations; see the
After
clause of EXPECT_CALL
.