final class ResultOfCollectedAny[T] extends AnyRef
This class is part of the ScalaTest matchers DSL. Please see the documentation for InspectorsMatchers
for an overview of
the matchers DSL.
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- Matchers.scala
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- ResultOfCollectedAny
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- final def !=(arg0: Any): Boolean
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- final def isInstanceOf[T0]: Boolean
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- Any
- def must(fullyMatchWord: FullyMatchWord)(implicit ev: <:<[T, String]): ResultOfFullyMatchWordForCollectedString
This method enables syntax such as the following:
This method enables syntax such as the following:
all(string) must fullyMatch regex ("""(-)?(\d+)(\.\d*)?""") ^
- def must(includeWord: IncludeWord)(implicit ev: <:<[T, String]): ResultOfIncludeWordForCollectedString
This method enables syntax such as the following:
This method enables syntax such as the following:
all(string) must include regex ("wo.ld") ^
- def must(endWithWord: EndWithWord)(implicit ev: <:<[T, String]): ResultOfEndWithWordForCollectedString
This method enables syntax such as the following:
This method enables syntax such as the following:
all(string) must endWith regex ("wo.ld") ^
- def must(startWithWord: StartWithWord)(implicit ev: <:<[T, String]): ResultOfStartWithWordForCollectedString
This method enables syntax such as the following:
This method enables syntax such as the following:
all(string) must startWith regex ("Hel*o") ^
- def must(notExist: ResultOfNotExist)(implicit existence: Existence[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) must not (exist) ^
- def must(existWord: ExistWord)(implicit existence: Existence[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) must exist ^
- def must(containWord: ContainWord): ResultOfContainWordForCollectedAny[T]
This method enables syntax such as the following:
This method enables syntax such as the following:
all (xs) must contain oneOf (1, 2, 3) ^
- def must(inv: TripleEqualsInvocationOnSpread[T])(implicit ev: Numeric[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all (xs) must === (100 +- 1) ^
- def must[U](inv: TripleEqualsInvocation[U])(implicit constraint: CanEqual[T, U]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all (xs) must === (b) ^
- def must(haveWord: HaveWord): ResultOfHaveWordForCollectedExtent[T]
This method enables syntax such as the following:
This method enables syntax such as the following:
all (results) must have length (3) ^ all (results) must have size (3) ^
- def must(notWord: NotWord): ResultOfNotWordForCollectedAny[T]
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) must not equal (3) ^
- def must(beWord: BeWord): ResultOfBeWordForCollectedAny[T]
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) must be theSameInstanceAs anotherObject ^
- def must[TYPECLASS1[_], TYPECLASS2[_]](rightMatcherFactory2: MatcherFactory2[T, TYPECLASS1, TYPECLASS2])(implicit typeClass1: TYPECLASS1[T], typeClass2: TYPECLASS2[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) must (equal (expected) and have length 12) ^
- def must[TYPECLASS1[_]](rightMatcherFactory1: MatcherFactory1[T, TYPECLASS1])(implicit typeClass1: TYPECLASS1[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) must equal (3) ^
- def must(rightMatcher: Matcher[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) must be (3) ^
- def mustBe[U <: T](resultOfAnWordApplication: ResultOfAnWordToBePropertyMatcherApplication[U])(implicit ev: <:<[T, AnyRef]): Assertion
This method enables the following syntax, where
excellentRead
refers to aBePropertyMatcher[Book]
:This method enables the following syntax, where
excellentRead
refers to aBePropertyMatcher[Book]
:all(xs) mustBe an (excellentRead) ^
- def mustBe[U <: T](resultOfAWordApplication: ResultOfAWordToBePropertyMatcherApplication[U])(implicit ev: <:<[T, AnyRef]): Assertion
This method enables the following syntax, where
goodRead
refers to aBePropertyMatcher[Book]
:This method enables the following syntax, where
goodRead
refers to aBePropertyMatcher[Book]
:all(xs) mustBe a (goodRead) ^
- def mustBe[U <: T](bePropertyMatcher: BePropertyMatcher[U])(implicit ev: <:<[T, AnyRef]): Assertion
This method enables the following syntax, where
excellentRead
refers to aBePropertyMatcher[Book]
:This method enables the following syntax, where
excellentRead
refers to aBePropertyMatcher[Book]
:all(xs) mustBe excellentRead ^
- def mustBe(o: Null)(implicit ev: <:<[T, AnyRef]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe null ^
- def mustBe(resultOfAnWordApplication: ResultOfAnWordToSymbolApplication)(implicit toAnyRef: <:<[T, AnyRef]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe an ('empty) ^
- def mustBe(resultOfAWordApplication: ResultOfAWordToSymbolApplication)(implicit toAnyRef: <:<[T, AnyRef]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe a ('empty) ^
- def mustBe(symbol: Symbol)(implicit toAnyRef: <:<[T, AnyRef]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe 'empty ^
- def mustBe(resultOfSameInstanceAsApplication: ResultOfTheSameInstanceAsApplication)(implicit toAnyRef: <:<[T, AnyRef]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) mustBe theSameInstanceAs (anotherObject) ^
- def mustBe(spread: Spread[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) mustBe 7.1 +- 0.2 ^
- def mustBe(beMatcher: BeMatcher[T]): Assertion
This method enables the following syntax, where
odd
refers to aBeMatcher[Int]
:This method enables the following syntax, where
odd
refers to aBeMatcher[Int]
:testing all(xs) mustBe odd ^
- def mustBe(comparison: ResultOfGreaterThanOrEqualToComparison[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(8, 9, 10) mustBe >= (7) ^
- def mustBe(comparison: ResultOfGreaterThanComparison[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(8, 9, 10) mustBe > (7) ^
- def mustBe(comparison: ResultOfLessThanOrEqualToComparison[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(4, 5, 6) mustBe <= (7) ^
- def mustBe(comparison: ResultOfLessThanComparison[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(4, 5, 6) mustBe < (7) ^
- def mustBe(right: Any): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all (xs) mustBe 7 ^
- def mustBe(anType: ResultOfAnTypeInvocation[_]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe an [Type] ^
- def mustBe(aType: ResultOfATypeInvocation[_]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe a [Type] ^
- def mustBe(definedWord: DefinedWord)(implicit definition: Definition[T]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe defined ^
- def mustBe(emptyWord: EmptyWord)(implicit emptiness: Emptiness[T]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe empty ^
- def mustBe(writableWord: WritableWord)(implicit writability: Writability[T]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe writable ^
- def mustBe(readableWord: ReadableWord)(implicit readability: Readability[T]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe readable ^
- def mustBe(sortedWord: SortedWord)(implicit sortable: Sortable[T]): Assertion
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustBe sorted ^
- def mustEqual(right: Null)(implicit ev: <:<[T, AnyRef]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
result mustEqual null ^
- def mustEqual(spread: Spread[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
result mustEqual 7.1 +- 0.2 ^doCollected
- def mustEqual(right: Any)(implicit equality: Equality[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all (xs) mustEqual 7 ^
- def mustNot(includeWord: IncludeWord)(implicit ev: <:<[T, String]): ResultOfIncludeWordForCollectedString
This method enables syntax such as the following:
This method enables syntax such as the following:
all(string) mustNot include regex ("wo.ld") ^
- def mustNot(endWithWord: EndWithWord)(implicit ev: <:<[T, String]): ResultOfEndWithWordForCollectedString
This method enables syntax such as the following:
This method enables syntax such as the following:
all(string) mustNot endWith regex ("wo.ld") ^
- def mustNot(startWithWord: StartWithWord)(implicit ev: <:<[T, String]): ResultOfStartWithWordForCollectedString
This method enables syntax such as the following:
This method enables syntax such as the following:
all(string) mustNot startWith regex ("Hel*o") ^
- def mustNot(fullyMatchWord: FullyMatchWord)(implicit ev: <:<[T, String]): ResultOfFullyMatchWordForCollectedString
This method enables syntax such as the following:
This method enables syntax such as the following:
all(string) mustNot fullyMatch regex ("""(-)?(\d+)(\.\d*)?""") ^
- def mustNot(existWord: ExistWord)(implicit existence: Existence[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) mustNot exist ^
- def mustNot(containWord: ContainWord): ResultOfContainWordForCollectedAny[T]
This method enables syntax such as the following:
This method enables syntax such as the following:
all (xs) mustNot contain (oneOf (1, 2, 3)) ^
- def mustNot(beWord: BeWord): ResultOfBeWordForCollectedAny[T]
This method enables the following syntax:
This method enables the following syntax:
all(xs) mustNot be theSameInstanceAs anotherInstance ^
- def mustNot[TYPECLASS1[_]](rightMatcherFactory1: MatcherFactory1[T, TYPECLASS1])(implicit typeClass1: TYPECLASS1[T]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) mustNot (equal (3)) ^
- def mustNot[U <: T](rightMatcherX1: Matcher[U]): Assertion
This method enables syntax such as the following:
This method enables syntax such as the following:
all(xs) mustNot (be (3)) ^
- final def ne(arg0: AnyRef): Boolean
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- final def notify(): Unit
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- def toString(): String
Overrides to return pretty toString.
Overrides to return pretty toString.
- returns
"ResultOfCollectedAny([collected], [xs])"
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- ResultOfCollectedAny → AnyRef → Any
- final def wait(): Unit
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- @throws(classOf[java.lang.InterruptedException])
- final def wait(arg0: Long, arg1: Int): Unit
- Definition Classes
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- final def wait(arg0: Long): Unit
- Definition Classes
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