Returns a normalized form of the passed object.
Returns a normalized form of the passed object.
If the passed object is already in normal form, this method may return the same instance passed.
the object to normalize
the normalized form of the passed object
Indicates whether this Uniformity
's normalized
method can “handle” the passed object, if cast to the
appropriate type A
.”“
Indicates whether this Uniformity
's normalized
method can “handle” the passed object, if cast to the
appropriate type A
.
If this method returns true for a particular passed object, it means that if the object is passed
to normalizedOrSame
, that method will return the result of passing it to normalized
.
It does not mean that the object will necessarily be modified when passed to normalizedOrSame
or normalized
.
For example, the lowerCased
field of StringNormalizations
is a Uniformity[String]
that normalizes strings by forcing all characters to lower case:
scala> import org.scalautils._ import org.scalautils._scala> import StringNormalizations._ import StringNormalizations._
scala> lowerCased res0: org.scalautils.Uniformity[String] = lowerCased
scala> lowerCased.normalized("HALLOOO!") res1: String = hallooo!
Now consider two strings held from variables of type AnyRef
:
scala> val yell: AnyRef = "HOWDY" yell: AnyRef = HOWDYscala> val whisper: AnyRef = "howdy" whisper: AnyRef = howdy
As you would expect, when yell
is passed to normalizedCanHandle
, it returns true, and when
yell
is passed to normalizedOrSame
, it returns a lower-cased (normal) form:
scala> lowerCased.normalizedCanHandle(yell) res2: Boolean = truescala> lowerCased.normalizedOrSame(yell) res3: Any = howdy
A similar thing happens, however, when whisper
is passed to normalizedCanHandle
and normalizedOrSame
,
even though in this case the string is already in normal form according to the lowerCased
Uniformity
:
scala> lowerCased.normalizedCanHandle(whisper) res4: Boolean = truescala> lowerCased.normalizedOrSame(whisper) res5: Any = howdy
This illustrates that normalizedCanHandle
does not indicate that the passed object is not in normalized form already, just that
it can be be handled by the normalized
method. This further means that the normalized
method itself
simply ensures that objects are returned in normal form. It need not necessarily change them: if a passed object is already in
normal form, normalized
can (and usually should) return the exact same object. That is in fact what happened when we normalized
whisper
. Since whisper
's value of "hello"
was already in normal form (all lower-cased), normalized
(
invoked by the normalizedOrSame
method) returned the exact same object passed:
scala> val whisperNormed = res5.asInstanceOf[AnyRef] whisperNormed: AnyRef = howdyscala> whisperNormed eq whisper res8: Boolean = true
Returns either the result of passing this object to normalized
, if appropriate, or the same object.
Returns either the result of passing this object to normalized
, if appropriate, or the same object.
Implementations can decide what “appropriate” means, but the intent is that it will usually mean the
value passed is of the type A
. For example, if this is a Uniformity[String]
, appropriate means
that the value (of type Any
) passed is actually an instance of String
. Because of erasure,
however, a Uniformity[List[String]]
will only be able to tell whether a value is a List[_]
,
so it might declare any List[_]
that contains only String
s (determined by invoking
isInstanceOf[String]
on each element) to be appropriate. This means a Uniformity[List[String]]
might normalize
a List[AnyRef]
that happens to contain only Strings
.
the object to normalize, if appropriate
a normalized form of the passed object, if this Uniformity
was able to normalize it, else the same object passed
Returns a new Uniformity
that combines this and the passed Uniformity
.
Returns a new Uniformity
that combines this and the passed Uniformity
.
The normalized
and normalizedOrSame
methods
of the Uniformity
returned by this method return a result
obtained by forwarding the passed value first to this Uniformity
's implementation of the method,
then passing that result to the other Uniformity
's implementation of the method, respectively.
Essentially, the body of the composed normalized
method is:
uniformityPassedToAnd.normalized(uniformityOnWhichAndWasInvoked.normalized(a))
And the body of the composed normalizedOrSame
method is:
uniformityPassedToAnd.normalizedOrSame(uniformityOnWhichAndWasInvoked.normalizedOrSame(a))
The normalizeCanHandle
method of the Uniformity
returned by this method returns a result
obtained by anding the result of forwarding the passed value to this Uniformity
's implementation of the method
with the result of forwarding it to the passed Uniformity
's implementation.
Essentially, the body of the composed normalizeCanHandle
method is:
uniformityOnWhichAndWasInvoked.normalizeCanHandle(a) && uniformityPassedToAnd.normalizeCanHandle(a)
a Uniformity
to 'and' with this one
a Uniformity
representing the composition of this and the passed Uniformity
Returns a new Normalization
that composes this and the passed Normalization
.
Returns a new Normalization
that composes this and the passed Normalization
.
The normalized
method of the Normalization
returned by this method returns a normalized form of the passed
object obtained by forwarding the passed value first to this Normalization
's normalized
method,
then passing that result to the other Normalization
's normalized
method.
Essentially, the body of the composed normalized
method is:
normalizationPassedToAnd.normalized(normalizationOnWhichAndWasInvoked.normalized(a))
a Normalization
to 'and' with this one
a Normalization
representing the composition of this and the passed Normalization
Converts this Uniformity
to a NormalizingEquality[A]
whose normalized
,
normalizedCanHandle
, and normalizedOrSame
methods delegate
to this Uniformity[A]
and whose afterNormalizationEquality
field returns the
implicitly passed Equality[A]
.
Converts this Uniformity
to a NormalizingEquality[A]
whose normalized
,
normalizedCanHandle
, and normalizedOrSame
methods delegate
to this Uniformity[A]
and whose afterNormalizationEquality
field returns the
implicitly passed Equality[A]
.
the Equality
that the returned NormalizingEquality
will delegate to determine equality after normalizing both left and right (if appropriate) sides.
Converts this Normalization
to a NormalizingEquivalence[A]
whose normalized
method delegates to this Normalization[A]
and whose afterNormalizationEquivalence
field returns the
implicitly passed Equivalence[A]
.
Converts this Normalization
to a NormalizingEquivalence[A]
whose normalized
method delegates to this Normalization[A]
and whose afterNormalizationEquivalence
field returns the
implicitly passed Equivalence[A]
.
the Equivalence
that the returned NormalizingEquivalence
will delegate to determine equality after normalizing both left and right (if appropriate) sides.
Defines a custom way to normalize instances of a type that can also handle normalization of that type when passed as
Any
.For example, to normalize
Double
s by truncating off any decimal part, you might write:Given this definition you could use it with the
Explicitly
DSL like this:If you make the
truncated
val
implicit and import or mix in the members ofNormMethods
, you can access the behavior by invoking.norm
onDouble
s.Note that by creating a
Uniformity
rather than just an instance of its supertype,Normalization
, it can be used more generally. For example,Uniformity
s allow you to theExplicitly
DSL withTripleEquals
, whereasNormalization
s requireTypeCheckedTripleEquals
orConversionCheckedTripleEquals
.Uniformity
s also enable you to use theExplicitly
DSL with ScalaTest'sshould
===
,equal
, andcontain
matcher syntax, whereas a plainNormalization
can only be used withshould
===
, and only under eitherTypeCheckedTripleEquals
orConversionCheckedTripleEquals
.the type whose uniformity is being defined