org.scalatest.junit.ShouldMatchersForJUnit

MatcherWrapper

class MatcherWrapper[T] extends AnyRef

This class is part of the ScalaTest matchers DSL. Please see the documentation for ShouldMatchers or MustMatchers for an overview of the matchers DSL.

attributes: final
definition classes: Matchers

Inherits

  1. AnyRef
  2. Any

Type Members

  1. class AndBeWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  2. class AndContainWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  3. class AndEndWithWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  4. class AndFullyMatchWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  5. class AndHaveWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  6. class AndIncludeWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  7. class AndNotWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  8. class AndStartWithWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  9. class OrBeWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  10. class OrContainWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  11. class OrEndWithWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  12. class OrFullyMatchWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  13. class OrHaveWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  14. class OrIncludeWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  15. class OrNotWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

  16. class OrStartWithWord extends AnyRef

    This class is part of the ScalaTest matchers DSL

Value Members

  1. def and(notWord: NotWord): AndNotWord

    This method enables the following syntax:

    This method enables the following syntax:

    Map("one" -> 1, "two" -> 2) should (not contain value (5) and not contain value (3))
                                                              
    

  2. def and(endWithWord: EndWithWord): AndEndWithWord

    This method enables the following syntax:

    This method enables the following syntax:

    "1.7" should (endWith regex (decimalRegex) and endWith regex (decimalRegex))
                                               
    

  3. def and(startWithWord: StartWithWord): AndStartWithWord

    This method enables the following syntax:

    This method enables the following syntax:

    "1.78" should (have length (4) and startWith regex ("1.7"))
                                   
    

  4. def and(includeWord: IncludeWord): AndIncludeWord

    This method enables the following syntax:

    This method enables the following syntax:

    "hello, world" should (include regex ("hel*o") and include regex ("wor.d"))
                                              
    

  5. def and(fullyMatchWord: FullyMatchWord): AndFullyMatchWord

    This method enables the following syntax:

    This method enables the following syntax:

    "1.7" should (fullyMatch regex (decimalRegex) and fullyMatch regex (decimalRegex))
                                                  
    

  6. def and(beWord: BeWord): AndBeWord

    This method enables the following syntax:

    This method enables the following syntax:

    isFileMock should (be a ('file) and be a ('file))
                                    
    

  7. def and(containWord: ContainWord): AndContainWord

    This method enables the following syntax:

    This method enables the following syntax:

    Map("one" -> 1, "two" -> 2) should (contain key ("two") and contain key ("one"))
                                                            
    

  8. def and(haveWord: HaveWord): AndHaveWord

    This method enables the following syntax:

    This method enables the following syntax:

    Array(1, 2) should (have size (2) and have size (3 - 1))
                                      
    

  9. def and[U <: T](rightMatcher: Matcher[U]): Matcher[U]

    Returns a matcher whose apply method returns a MatchResult that represents the logical-and of the results of the wrapped and the passed matcher applied to the same value

    Returns a matcher whose apply method returns a MatchResult that represents the logical-and of the results of the wrapped and the passed matcher applied to the same value.

    The reason and has an upper bound on its type parameter is so that the Matcher resulting from an invocation of and will have the correct type parameter. If you call and on a Matcher[Orange], passing in a Matcher[Valencia], the result will have type Matcher[Valencia]. This is correct because both a Matcher[Orange] and a Matcher[Valencia] know how to match a Valencia (but a Matcher[Valencia] doesn't know how to match any old Orange). If you call and on a Matcher[Orange], passing in a Matcher[Fruit], the result will have type Matcher[Orange]. This is also correct because both a Matcher[Orange] and a Matcher[Fruit] know how to match an Orange (but a Matcher[Orange] doesn't know how to match any old Fruit).

  10. def equals(arg0: Any): Boolean

    This method is used to compare the receiver object (this) with the argument object (arg0) for equivalence

    This method is used to compare the receiver object (this) with the argument object (arg0) for equivalence.

    The default implementations of this method is an equivalence relation:

    • It is reflexive: for any instance x of type Any, x.equals(x) should return true.
    • It is symmetric: for any instances x and y of type Any, x.equals(y) should return true if and only if y.equals(x) returns true.
    • It is transitive: for any instances 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.

    returns

    true if the receiver object is equivalent to the argument; false otherwise.

    definition classes: AnyRef ⇐ Any
  11. def hashCode(): Int

    Returns a hash code value for the object

    Returns a hash code value for the object.

    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.

    definition classes: AnyRef ⇐ Any
  12. def or(notWord: NotWord): OrNotWord

    This method enables the following syntax:

    This method enables the following syntax:

    Map("one" -> 1, "two" -> 2) should (not contain value (2) or not contain value (3))
                                                              
    

  13. def or(endWithWord: EndWithWord): OrEndWithWord

    This method enables the following syntax:

    This method enables the following syntax:

    "1.7b" should (endWith regex ("hello") or endWith regex ("7b"))
                                              
    

  14. def or(startWithWord: StartWithWord): OrStartWithWord

    This method enables the following syntax:

    This method enables the following syntax:

    "1.7" should (startWith regex ("hello") or startWith regex ("1.7"))
                                               
    

  15. def or(includeWord: IncludeWord): OrIncludeWord

    This method enables the following syntax:

    This method enables the following syntax:

    "a1.7b" should (include regex ("1.7") or include regex ("1.7"))
                                             
    

  16. def or(fullyMatchWord: FullyMatchWord): OrFullyMatchWord

    This method enables the following syntax:

    This method enables the following syntax:

    "1.7" should (fullyMatch regex ("hello") or fullyMatch regex (decimal))
                                             
    

  17. def or(beWord: BeWord): OrBeWord

    This method enables the following syntax:

    This method enables the following syntax:

    isFileMock should (be a ('file) or be a ('directory))
                                    
    

  18. def or(containWord: ContainWord): OrContainWord

    This method enables the following syntax:

    This method enables the following syntax:

    Map("one" -> 1, "two" -> 2) should (contain value (7) or contain value (1))
                                                          
    

  19. def or(haveWord: HaveWord): OrHaveWord

    This method enables the following syntax:

    This method enables the following syntax:

    Array(1, 2) should (have size (2) and have size (3 - 1))
                                      
    

  20. def or[U <: T](rightMatcher: Matcher[U]): Matcher[U]

    Returns a matcher whose apply method returns a MatchResult that represents the logical-or of the results of this and the passed matcher applied to the same value

    Returns a matcher whose apply method returns a MatchResult that represents the logical-or of the results of this and the passed matcher applied to the same value.

    The reason or has an upper bound on its type parameter is so that the Matcher resulting from an invocation of or will have the correct type parameter. If you call or on a Matcher[Orange], passing in a Matcher[Valencia], the result will have type Matcher[Valencia]. This is correct because both a Matcher[Orange] and a Matcher[Valencia] know how to match a Valencia (but a Matcher[Valencia] doesn't know how to match any old Orange). If you call or on a Matcher[Orange], passing in a Matcher[Fruit], the result will have type Matcher[Orange]. This is also correct because both a Matcher[Orange] and a Matcher[Fruit] know how to match an Orange (but a Matcher[Orange] doesn't know how to match any old Fruit).

  21. def toString(): String

    Returns a string representation of the object

    Returns a string representation of the object.

    The default representation is platform dependent.

    definition classes: AnyRef ⇐ Any

Instance constructors

  1. new MatcherWrapper(leftMatcher: Matcher[T])

  2. new MatcherWrapper()