ScalaTest 1.1
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org/scalatest/matchers/MatchResult.scala
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case final
class
MatchResult(val
matches : Boolean, val
failureMessage : java.lang.String, val
negatedFailureMessage : java.lang.String, val
midSentenceFailureMessage : java.lang.String, val
midSentenceNegatedFailureMessage : java.lang.String)
extends
scala.ProductMatcher
or
BeMatcher
, which
contains one field that indicates whether the match succeeded and four fields that provide
failure messages to report under different circumstances.
A MatchResult
's matches
field indicates whether a match succeeded. If it succeeded,
matches
will be true
.
The other four fields contain failure message strings, one of which will be presented to the user in case of a match failure. If a match succeeds,
none of these strings will be used, because no failure message will be reported (i.e., because there was no failure
to report). If a match fails (matches
is false
), the failureMessage
(or
midSentenceFailure
—more on that below) will be reported to help the user understand what went wrong.
negatedFailureMessage
The negatedFailureMessage
exists so that it can become the failureMessage
if the matcher is inverted,
which happens, for instance, if it is passed to not
. Here's an example:
val equalSeven = equal (7) val notEqualSeven = not (equalSeven)
The Matcher[Int]
that results from passing 7 to equal
, which is assigned to the equalSeven
variable, will compare Int
s passed to its
apply
method with 7. If 7 is passed, the equalSeven
match will succeed. If anything other than 7 is passed, it
will fail. By contrast, the notEqualSeven
matcher, which results from passing equalSeven
to not
, does
just the opposite. If 7 is passed, the notEqualSeven
match will fail. If anything other than 7 is passed, it will succeed.
For example, if 8 is passed, equalSeven
's MatchResult
will contain:
expression: equalSeven(8) matches: false failureMessage: 8 did not equal 7 negatedFailureMessage: 8 equaled 7
Although the negatedFailureMessage
is nonsensical, it will not be reported to the user. Only the failureMessage
,
which does actually explain what caused the failure, will be reported by the user. If you pass 8 to notEqualSeven
's apply
method, by contrast, the failureMessage
and negatedFailureMessage
will be:
expression: notEqualSeven(8) matches: true failureMessage: 8 equaled 7 negatedFailureMessage: 8 did not equal 7
Note that the messages are swapped from the equalSeven
messages. This swapping was effectively performed by the not
matcher,
which in addition to swapping the failureMessage
and negatedFailureMessage
, also inverted the
matches
value. Thus when you pass the same value to both equalSeven
and notEqualSeven
the matches
field of one MatchResult
will be true
and the other false
. Because the
matches
field of the MatchResult
returned by notEqualSeven(8)
is true
,
the nonsensical failureMessage
, "8 equaled 7
", will not be reported to the user.
If 7 is passed, by contrast, the failureMessage
and negatedFailureMessage
of equalSeven
will be:
expression: equalSeven(7) matches: true failureMessage: 7 did not equal 7 negatedFailureMessage: 7 equaled 7
In this case equalSeven
's failureMessage
is nonsensical, but because the match succeeded, the nonsensical message will
not be reported to the user.
If you pass 7 to notEqualSeven
's apply
method, you'll get:
expression: notEqualSeven(7) matches: false failureMessage: 7 equaled 7 negatedFailureMessage: 7 did not equal 7
Again the messages are swapped from the equalSeven
messages, but this time, the failureMessage
makes sense
and explains what went wrong: the notEqualSeven
match failed because the number passed did in fact equal 7. Since
the match failed, this failure message, "7 equaled 7
", will be reported to the user.
midSentence
" messages
When a ScalaTest matcher expression that involves and
or or
fails, the failure message that
results is composed from the failure messages of the left and right matcher operatnds to and
or or.
For example:
8 should (equal (7) or equal (9))
This above expression would fail with the following failure message reported to the user:
8 did not equal 7, and 8 did not equal 9
This works fine, but what if the failure messages being combined begin with a capital letter, such as:
The name property did not equal "Ricky"
A combination of two such failure messages might result in an abomination of English punctuation, such as:
The name property did not equal "Ricky", and The name property did not equal "Bobby"
Because ScalaTest is an internationalized application, taking all of its strings from a property file
enabling it to be localized, it isn't a good idea to force the first character to lower case. Besides,
it might actually represent a String value which should stay upper case. The midSentenceFailureMessage
exists for this situation. If the failure message is used at the beginning of the sentence, failureMessage
will be used. But if it appears mid-sentence, or at the end of the sentence, midSentenceFailureMessage
will be used. Given these failure message strings:
failureMessage: The name property did not equal "Bobby" midSentenceFailureMessage: the name property did not equal "Bobby"
The resulting failure of the or
expression involving to matchers would make any English teacher proud:
The name property did not equal "Ricky", and the name property did not equal "Bobby"
matches -
indicates whether or not the matcher matchedfailureMessage -
a failure message to report if a match failsnegatedFailureMessage -
a message with a meaning opposite to that of the failure messagemidSentenceFailureMessage -
a failure message suitable for appearing mid-sentencemidSentenceNegatedFailureMessage -
a negated failure message suitable for appearing mid-sentenceAdditional Constructor Summary | |
def
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this
(matches : Boolean, failureMessage : java.lang.String, negatedFailureMessage : java.lang.String) : MatchResult
Constructs a new
MatchResult with passed matches , failureMessage , and
negativeFailureMessage fields. The midSentenceFailureMessage will return the same
string as failureMessage , and the midSentenceNegatedFailureMessage will return the
same string as negatedFailureMessage . |
Method Summary | |
override def
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equals
(arg0 : Any) : Boolean
This method is used to compare the receiver object (
this )
with the argument object (arg0 ) for equivalence. |
override def
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hashCode
: Int
Returns a hash code value for the object.
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override def
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productArity : Int |
override def
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productElement (arg0 : Int) : Any |
override def
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productPrefix : java.lang.String |
override def
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toString
: java.lang.String
Returns a string representation of the object.
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Methods inherited from AnyRef | |
getClass, clone, notify, notifyAll, wait, wait, wait, finalize, ==, !=, eq, ne, synchronized |
Methods inherited from Any | |
==, !=, isInstanceOf, asInstanceOf |
Additional Constructor Details |
def
this(matches : Boolean, failureMessage : java.lang.String, negatedFailureMessage : java.lang.String) : MatchResult
MatchResult
with passed matches
, failureMessage
, and
negativeFailureMessage
fields. The midSentenceFailureMessage
will return the same
string as failureMessage
, and the midSentenceNegatedFailureMessage
will return the
same string as negatedFailureMessage
.matches -
indicates whether or not the matcher matchedfailureMessage -
a failure message to report if a match failsnegatedFailureMessage -
a message with a meaning opposite to that of the failure messageMethod Details |
override
def
hashCode : Int
The default hashing algorithm is platform dependent.
Note that it is allowed for two objects to have identical hash
codes (o1.hashCode.equals(o2.hashCode)
) yet not be
equal (o1.equals(o2)
returns false
). A
degenerate implementation could always return 0
.
However, it is required that if two objects are equal
(o1.equals(o2)
returns true
) that they
have identical hash codes
(o1.hashCode.equals(o2.hashCode)
). Therefore, when
overriding this method, be sure to verify that the behavior is
consistent with the equals
method.
override
def
toString : java.lang.String
The default representation is platform dependent.
this
)
with the argument object (arg0
) for equivalence.
The default implementations of this method is an equivalence relation:
x
of type Any
,
x.equals(x)
should return true
.x
and y
of type
Any
, x.equals(y)
should return true
if and only
if y.equals(x)
returns true
.x
, y
, and z
of type AnyRef
if x.equals(y)
returns true
and
y.equals(z)
returns
true
, then x.equals(z)
should return true
.
If you override this method, you should verify that
your implementation remains an equivalence relation.
Additionally, when overriding this method it is often necessary to
override hashCode
to ensure that objects that are
"equal" (o1.equals(o2)
returns true
)
hash to the same Int
(o1.hashCode.equals(o2.hashCode)
).
arg0 -
the object to compare against this object for equality.true
if the receiver object is equivalent to the argument; false
otherwise. override
def
productPrefix : java.lang.String
override
def
productArity : Int
ScalaTest 1.1
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