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/*
* Copyright 2001-2013 Artima, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.scalatest.matchers
/**
* Trait extended by matcher objects, which may appear after the word be
, that can match a value of the specified type.
* The value to match is passed to the BeMatcher
's apply
method. The result is a MatchResult
.
* A BeMatcher
is, therefore, a function from the specified type, T
, to a MatchResult
.
*
*
* Although BeMatcher
* and Matcher
represent very similar concepts, they have no inheritance relationship
* because Matcher
is intended for use right after should
or must
* whereas BeMatcher
is intended for use right after be
.
*
*
*
* As an example, you could create BeMatcher[Int]
* called odd
that would match any odd Int
, and one called even
that would match
* any even Int
.
* Given this pair of BeMatcher
s, you could check whether an Int
was odd or even with expressions like:
*
*
*
* num should be (odd)
* num should not be (even)
*
*
*
* Here's is how you might define the odd and even BeMatchers
:
*
*
*
* trait CustomMatchers {
*
* class OddMatcher extends BeMatcher[Int] {
* def apply(left: Int) =
* MatchResult(
* left % 2 == 1,
* left.toString + " was even",
* left.toString + " was odd"
* )
* }
* val odd = new OddMatcher
* val even = not (odd)
* }
*
* // Make them easy to import with:
* // import CustomMatchers._
* object CustomMatchers extends CustomMatchers
*
*
*
* These BeMatcher
s are defined inside a trait to make them easy to mix into any
* suite or spec that needs them.
* The CustomMatchers
companion object exists to make it easy to bring the
* BeMatcher
s defined in this trait into scope via importing, instead of mixing in the trait. The ability
* to import them is useful, for example, when you want to use the matchers defined in a trait in the Scala interpreter console.
*
*
*
* Here's an rather contrived example of how you might use odd
and even
:
*
*
*
* class DoubleYourPleasureSuite extends FunSuite with MustMatchers with CustomMatchers {
*
* def doubleYourPleasure(i: Int): Int = i * 2
*
* test("The doubleYourPleasure method must return proper odd or even values")
*
* val evenNum = 2
* evenNum must be (even)
* doubleYourPleasure(evenNum) must be (even)
*
* val oddNum = 3
* oddNum must be (odd)
* doubleYourPleasure(oddNum) must be (odd) // This will fail
* }
* }
*
*
*
* The last assertion in the above test will fail with this failure message:
*
*
*
* 6 was even
*
*
*
* For more information on MatchResult
and the meaning of its fields, please
* see the documentation for MatchResult
. To understand why BeMatcher
* is contravariant in its type parameter, see the section entitled "Matcher's variance" in the
* documentation for Matcher
.
*
*
* @author Bill Venners
*/
trait BeMatcher[-T] extends Function1[T, MatchResult] { thisBeMatcher =>
/**
* Check to see if the specified object, left
, matches, and report the result in
* the returned MatchResult
. The parameter is named left
, because it is
* usually the value to the left of a should
or must
invocation. For example,
* in:
*
*
* num should be (odd)
*
*
* The be (odd)
expression results in a regular Matcher
that holds
* a reference to odd
, the
* BeMatcher
passed to be
. The should
method invokes apply
* on this matcher, passing in num
, which is therefore the "left
" value. The
* matcher will pass num
(the left
value) to the BeMatcher
's apply
* method.
*
* @param left the value against which to match
* @return the MatchResult
that represents the result of the match
*/
def apply(left: T): MatchResult
/**
* Compose this BeMatcher
with the passed function, returning a new BeMatcher
.
*
*
* This method overrides compose
on Function1
to
* return a more specific function type of BeMatcher
. For example, given
* an odd
matcher defined like this:
*
*
*
* val odd =
* new BeMatcher[Int] {
* def apply(left: Int) =
* MatchResult(
* left % 2 == 1,
* left.toString + " was even",
* left.toString + " was odd"
* )
* }
*
*
*
* You could use odd
like this:
*
*
*
* 3 should be (odd)
* 4 should not be (odd)
*
*
*
* If for some odd reason, you wanted a BeMatcher[String]
that
* checked whether a string, when converted to an Int
,
* was odd, you could make one by composing odd
with
* a function that converts a string to an Int
, like this:
*
*
*
* val oddAsInt = odd compose { (s: String) => s.toInt }
*
*
*
* Now you have a BeMatcher[String]
whose apply
method first
* invokes the converter function to convert the passed string to an Int
,
* then passes the resulting Int
to odd
. Thus, you could use
* oddAsInt
like this:
*
*
*
* "3" should be (oddAsInt)
* "4" should not be (oddAsInt)
*
*/
override def compose[U](g: U => T): BeMatcher[U] =
new BeMatcher[U] {
def apply(u: U) = thisBeMatcher.apply(g(u))
}
}
/**
* Companion object for trait BeMatcher
that provides a
* factory method that creates a BeMatcher[T]
from a
* passed function of type (T => MatchResult)
.
*
* @author Bill Venners
*/
object BeMatcher {
/**
* Factory method that creates a BeMatcher[T]
from a
* passed function of type (T => MatchResult)
.
*
* @author Bill Venners
*/
def apply[T](fun: T => MatchResult)(implicit ev: Manifest[T]): BeMatcher[T] =
new BeMatcher[T] {
def apply(left: T) = fun(left)
override def toString: String = "BeMatcher[" + ev.erasure.getName + "](" + ev.erasure.getName + " => MatchResult)"
}
}