trait EasyMockSugar extends AnyRef
Trait that provides some basic syntax sugar for EasyMock.
Using the EasyMock API directly, you create a mock with:
val mockCollaborator = createMock(classOf[Collaborator])
With this trait, you can shorten that to:
val mockCollaborator = mock[Collaborator]
After creating mocks, you set expectations on them, using syntax like this:
mockCollaborator.documentAdded("Document") mockCollaborator.documentChanged("Document") expectLastCall().times(3)
If you wish to highlight which statements are setting expectations on the mock (versus
which ones are actually using the mock), you can place them in an expecting
clause, provided by this trait, like this:
expecting { mockCollaborator.documentAdded("Document") mockCollaborator.documentChanged("Document") lastCall.times(3) }
Using an expecting
clause is optional, because it does nothing but visually indicate
which statements are setting expectations on mocks. (Note: this trait also provides the lastCall
method, which just calls expectLastCall
.)
Once you've set expectations on the mock objects, you must invoke replay
on
the mocks to indicate you are done setting expectations, and will start using the mock.
After using the mock, you must invoke verify
to check to make sure the mock
was used in accordance with the expectations you set on it. Here's how that looks when you
use the EasyMock API directly:
replay(mockCollaborator) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) verify(mockCollaborator)
This trait enables you to use the following, more declarative syntax instead:
whenExecuting(mockCollaborator) { classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) }
The whenExecuting
method will pass the mockCollaborator
to
replay
, execute the passed function (your code that uses the mock), and
call verify
, passing in the mockCollaborator
. If you want to
use multiple mocks, you can pass multiple mocks to whenExecuting
.
To summarize, here's what a typical test using EasyMockSugar
looks like:
val mockCollaborator = mock[Collaborator]
expecting { mockCollaborator.documentAdded("Document") mockCollaborator.documentChanged("Document") lastCall.times(3) }
whenExecuting(mockCollaborator) { classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) }
An alternative approach is to place your mock objects in a MockObjects
holder object referenced
from an implicit val
, then use the overloaded variant of whenExecuting
that
takes an implicit MockObjects
parameter. Here's how that would look:
implicit val mocks = MockObjects(mock[Collaborator])
expecting { mockCollaborator.documentAdded("Document") mockCollaborator.documentChanged("Document") lastCall.times(3) }
whenExecuting { classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) }
Note: As of ScalaTest 1.3, this trait supports EasyMock 3, with no dependencies on EasyMock class extension.
- Annotations
- @deprecated
- Deprecated
EasyMockSugar has been moved from org.scalatest.easymock to org.scalatestplus.easymock. Please update your imports, as this deprecated type alias will be removed in a future version of ScalaTest.
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- EasyMockSugar.scala
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case class
MockObjects(mocks: AnyRef*) extends Product with Serializable
Holder class for a collection of mocks that can be passed implicitly to one form of the overloaded
whenExecuting
method.Holder class for a collection of mocks that can be passed implicitly to one form of the overloaded
whenExecuting
method.- mocks
one or more mock objects that you intend to pass to
whenExecuting
- Exceptions thrown
IllegalArgumentException
if no mocks are passed
Value Members
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final
def
!=(arg0: Any): Boolean
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final
def
##(): Int
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final
def
==(arg0: Any): Boolean
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final
def
asInstanceOf[T0]: T0
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implicit
def
call[T](value: T): IExpectationSetters[T]
Implicit conversion that invokes the
expect
method on theEasyMock
companion object (i.e., the staticexpect
method in Java classorg.easymock.EasyMock
).Implicit conversion that invokes the
expect
method on theEasyMock
companion object (i.e., the staticexpect
method in Java classorg.easymock.EasyMock
).In a ScalaTest
Suite
, theexpect
method defined inAssertions
, and inherited bySuite
, interferes with theexpect
method if imported fromEasyMock
. You can invoke it by qualifying it, i.e.,EasyMock.expect
, or by changing its name on import, like this:import org.easymock.EasyMock.{expect => easyMockExpect, _}
But if you mix in this trait, you can just invoke
call
instead.You can use this method, for example, to chain expectations like this:
expecting { call(mock.getName).andReturn("Ben Franklin") }
Note: the name of this methods is
call
, notexpectCall
because "expect" appears in the surroundingexpecting
clause provided by this trait.Moreover, because this method is marked
implicit
, you will usually be able to simply leave it off. So long as the result of the method call you are expecting doesn't have a method that satisfies the subsequent invocation (such asandReturn
in this example), the Scala compiler will invokecall
for you implicitly. Here's how that looks:expecting { mock.getName.andReturn("Ben Franklin") }
- value
- the result of invoking a method on mock prior to invoking
replay
.
-
def
clone(): AnyRef
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final
def
eq(arg0: AnyRef): Boolean
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def
equals(arg0: Any): Boolean
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def
expecting(unused: Any): Unit
Provides a visual clue to readers of the code that a set of statements are expectations being set on mocks.
Provides a visual clue to readers of the code that a set of statements are expectations being set on mocks.
Using the EasyMock API directly, you set expectations on a mock object with syntax like:
mockCollaborator.documentAdded("Document") mockCollaborator.documentChanged("Document") expectLastCall().times(3)
This
expecting
method can make it more obvious which portion of your test code is devoted to setting expectations on mock objects. For example:expecting { mockCollaborator.documentAdded("Document") mockCollaborator.documentChanged("Document") lastCall.times(3) }
Using an
expecting
clause is optional, because it does nothing besides visually indicate which statements are setting expectations on mocks. Note: this trait also provides thelastCall
method, which just callsexpectLastCall
. This allows you to avoid writing "expect" twice. Also, the reasonexpecting
doesn't take a by-name parameter, execute that, then callreplay
is because you would then need to pass your mock object or objects intoexpecting
. Since you already need to pass the mocks intowhenExecuting
so thatverify
can be invoked on them, it yields more concise client code to havewhenExecuting
invokereplay
on the mocks first rather than havingexpecting
invokereplay
last. -
def
finalize(): Unit
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final
def
getClass(): Class[_]
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def
hashCode(): Int
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final
def
isInstanceOf[T0]: Boolean
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def
lastCall[T]: IExpectationSetters[T]
Invokes the
expectLastCall
method on theEasyMock
companion object (i.e., the staticexpect
method in Java classorg.easymock.EasyMock
).Invokes the
expectLastCall
method on theEasyMock
companion object (i.e., the staticexpect
method in Java classorg.easymock.EasyMock
).This method is provided simply to allow you to avoid repeating "expect" inside an
expecting
clause. Here's an example that uses theexpectLastCall
directly to express the expectation that thegetName
method will be invoked three times on a mock, each time returning"Ben Franklin"
:expecting { mock.getName.andReturn("Ben Franklin") expectLastCall.times(3) }
Using this method, you can compress this to:
expecting { mock.getName.andReturn("Ben Franklin") lastCall.times(3) }
-
def
mock[T <: AnyRef](implicit classTag: ClassTag[T]): T
Invokes the
createMock
method on theEasyMock
companion object (i.e., the staticcreateMock
method in Java classorg.easymock.classextension.EasyMock
).Invokes the
createMock
method on theEasyMock
companion object (i.e., the staticcreateMock
method in Java classorg.easymock.classextension.EasyMock
).Using the EasyMock API directly, you create a mock with:
val mockCollaborator = createMock(classOf[Collaborator])
Using this method, you can shorten that to:
val mockCollaborator = mock[Collaborator]
-
final
def
ne(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
-
def
niceMock[T <: AnyRef](implicit classTag: ClassTag[T]): T
Invokes the
createNiceMock
method on theEasyMock
companion object (i.e., the staticcreateNiceMock
method in Java classorg.easymock.classextension.EasyMock
).Invokes the
createNiceMock
method on theEasyMock
companion object (i.e., the staticcreateNiceMock
method in Java classorg.easymock.classextension.EasyMock
).Using the EasyMock API directly, you create a nice mock with:
val mockCollaborator = createNiceMock(classOf[Collaborator])
Using this trait, you can shorten that to:
val mockCollaborator = niceMock[Collaborator]
-
final
def
notify(): Unit
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- @native()
-
final
def
notifyAll(): Unit
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- @native()
-
def
strictMock[T <: AnyRef](implicit classTag: ClassTag[T]): T
Invokes the
createStrictMock
method on theEasyMock
companion object (i.e., the staticcreateStrictMock
method in Java classorg.easymock.classextension.EasyMock
).Invokes the
createStrictMock
method on theEasyMock
companion object (i.e., the staticcreateStrictMock
method in Java classorg.easymock.classextension.EasyMock
).Using the EasyMock API directly, you create a strict mock with:
val mockCollaborator = createStrictMock(classOf[Collaborator])
Using this trait, you can shorten that to:
val mockCollaborator = strictMock[Collaborator]
-
final
def
synchronized[T0](arg0: ⇒ T0): T0
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def
toString(): String
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final
def
wait(): Unit
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- @throws( ... )
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final
def
wait(arg0: Long, arg1: Int): Unit
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- @throws( ... )
-
final
def
wait(arg0: Long): Unit
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- @native() @throws( ... )
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def
whenExecuting(fun: ⇒ Unit)(implicit mocks: MockObjects): Unit
Invokes
replay
on the mock object or objects passed via an implicit parameter, executes the passed function, then invokesverify
on the passed mock object or objects.Invokes
replay
on the mock object or objects passed via an implicit parameter, executes the passed function, then invokesverify
on the passed mock object or objects.Once you've set expectations on some mock objects, you must invoke
replay
on the mocks to indicate you are done setting expectations, and will start using the mocks. After using the mocks, you must invokeverify
to check to make sure the mocks were used in accordance with the expectations you set on it. Here's how that looks when you use the EasyMock API directly:replay(mock) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) verify(mock)
This method enables you to use the following, more declarative syntax instead:
implicit val mocks = MockObjects(mockCollaborator)
whenExecuting { classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) }If you are working with multiple mock objects at once, you simply pass them all to
MockObjects
, like this:implicit val mocks = MockObjects(mock1, mock2, mock3)
The
whenExecuting
method will first invokeEasyMock.reply
once for each mock you supplied, execute the passed function, then invokeEasyMock.verify
once for each mock you supplied. If an exception is thrown by the passed function,whenExecuting
will complete abruptly with that same exception without executing verify on any of the mocks. -
def
whenExecuting(mocks: AnyRef*)(fun: ⇒ Unit): Unit
Invokes
replay
on the passed mock object or objects, executes the passed function, then invokesverify
on the passed mock object or objects.Invokes
replay
on the passed mock object or objects, executes the passed function, then invokesverify
on the passed mock object or objects.Once you've set expectations on some mock objects, you must invoke
replay
on the mocks to indicate you are done setting expectations, and will start using the mocks. After using the mocks, you must invokeverify
to check to make sure the mocks were used in accordance with the expectations you set on it. Here's how that looks when you use the EasyMock API directly:replay(mock) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) verify(mock)
This method enables you to use the following, more declarative syntax instead:
whenExecuting(mockCollaborator) { classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) classUnderTest.addDocument("Document", new Array[Byte](0)) }
If you are working with multiple mock objects at once, you simply pass them all to
whenExecuting
, like this:whenExecuting(mock1, mock2, mock3) { // ... }
The
whenExecuting
method will first invokeEasyMock.reply
once for each mock you supplied, execute the passed function, then invokeEasyMock.verify
once for each mock you supplied. If an exception is thrown by the passed function,whenExecuting
will complete abruptly with that same exception without executing verify on any of the mocks.- mocks
one or more mock objects to invoke
replay
before using andverify
after using.
- Exceptions thrown
IllegalArgumentException
if no mocks are passed