infix fun <T : CharSequence> CharSequenceContains.CheckerOption<T, NoOpSearchBehaviour>.the(values: Values<Any>): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where the given values
shall be searched, using a non disjoint search.
Notice that a runtime check applies which assures that only CharSequence, Number and Char are passed (this
function expects Any for your convenience, so that you can mix String and Int for instance).
By non disjoint is meant that 'aa' in 'aaaa' is found three times and not only two times.
Also notice, that it does not search for unique matches. Meaning, if the input of the search is 'a' and Values.expected
is defined as 'a' and one Values.otherExpected is defined as 'a' as well, then both match, even though they match the
same sequence in the input of the search. Use an option such as atLeast, atMost and exactly to control
the number of occurrences you expect.
Meaning you might want to use:
to contain exactly 2 the value 'a'
instead of:
to contain atLeast 1 the Values('a', 'a')
values - The values which are expected to be contained within the input of the search.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
IllegalArgumentException - in case one of the values is not a CharSequence, Number or Char.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
@JvmName("valuesIgnoringCase") infix fun <T : CharSequence> CharSequenceContains.CheckerOption<T, IgnoringCaseSearchBehaviour>.the(values: Values<Any>): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where the values
shall be searched (ignoring case), using a non disjoint search.
Notice that a runtime check applies which assures that only CharSequence, Number and Char are passed (this
function expects Any for your convenience, so that you can mix String and Int for instance).
By non disjoint is meant that 'aa' in 'aaaa' is found three times and not only two times.
Also notice, that it does not search for unique matches. Meaning, if the input of the search is 'a' and Values.expected
is defined as 'a' and one Values.otherExpected is defined as 'a' as well, then both match, even though they match the
same sequence in the input of the search. Use an option such as atLeast, atMost and exactly to control
the number of occurrences you expect.
Meaning you might want to use:
to contain ignoring case exactly 2 the value 'a'
instead of:
to contain ignoring case atLeast 1 the Values('a', 'a')
values - The values which are expected to be contained within the input of the search.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
IllegalArgumentException - in case one of the values is not a CharSequence, Number or Char.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
infix fun <T : CharSequence> CharSequenceContains.Builder<T, IgnoringCaseSearchBehaviour>.the(values: Values<Any>): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where the values
shall be searched (ignoring case), using a non disjoint search
where each need to be contained at least once.
Delegates to atLeast 1 the value
By non disjoint is meant that 'aa' in 'aaaa' is found three times and not only two times.
Also notice, that it does not search for unique matches. Meaning, if the input of the search is 'a' and Values.expected
is defined as 'a' and one Values.otherExpected is defined as 'a' as well, then both match, even though they match the
same sequence in the input of the search. Use an option such as atLeast, atMost and exactly to control
the number of occurrences you expect.
Meaning you might want to use:
to contain ignoring case exactly 2 the value 'a'
instead of:
to contain ignoring case atLeast 1 the Values('a', 'a')
values - The values which are expected to be contained within the input of the search.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
IllegalArgumentException - in case one of the values is not a CharSequence, Number or Char.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
infix fun <T : CharSequence> CharSequenceContains.CheckerOption<T, NoOpSearchBehaviour>.the(patterns: RegexPatterns): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where the given regular expression patterns
are expected to have a match, using a non disjoint search.
By non disjoint is meant that 'aa' in 'aaaa' is found three times and not only two times.
Also notice, that it does not search for unique matches. Meaning, if the input of the search is 'ab' and
patterns.pattern is defined as 'a(b)?' and one of the
patterns.otherPatterns is defined as 'a(b)?' as well, then both match, even though
they match the same sequence in the input of the search. Use an option such as atLeast, atMost and exactly to
control the number of occurrences you expect.
Meaning you might want to use:
to contain exactly 2 the regex 'a(b)?'
instead of:
to contain atLeast 1 the RegexPatterns('a(b)?', 'a(b)?')
patterns - The patterns which are expected to have a match against the input of the search.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
@JvmName("regexIgnoringCase") infix fun <T : CharSequence> CharSequenceContains.CheckerOption<T, IgnoringCaseSearchBehaviour>.the(patterns: RegexPatterns): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where the given regular expression patterns
are expected to have a match (ignoring case), using a non disjoint search.
By non disjoint is meant that 'aa' in 'aaaa' is found three times and not only two times.
Also notice, that it does not search for unique matches. Meaning, if the input of the search is 'ab' and
patterns.pattern is defined as 'a(b)?' and one of the
patterns.otherPatterns is defined as 'a(b)?' as well, then both match, even though
they match the same sequence in the input of the search. Use an option such as atLeast, atMost and exactly to
control the number of occurrences you expect.
Meaning you might want to use:
to contain ignoring case exactly 2 the regex 'a(b)?'
instead of:
to contain ignoring case atLeast 1 the RegexPatterns('a(b)?', 'a(b)?')
patterns - The patterns which are expected to have a match against the input of the search.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
infix fun <T : CharSequence> CharSequenceContains.Builder<T, IgnoringCaseSearchBehaviour>.the(patterns: RegexPatterns): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where the given regular expression patterns
are expected to have at least one match (ignoring case), using a non disjoint search.
By non disjoint is meant that 'aa' in 'aaaa' is found three times and not only two times.
Also notice, that it does not search for unique matches. Meaning, if the input of the search is 'ab' and
patterns.pattern is defined as 'a(b)?' and one of the
patterns.otherPatterns is defined as 'a(b)?' as well, then both match, even though
they match the same sequence in the input of the search. Use an option such as atLeast, atMost and exactly to
control the number of occurrences you expect.
Meaning you might want to use:
to contain ignoring case exactly 2 the regex 'a(b)?'
instead of:
to contain ignoring case atLeast 1 the RegexPatterns('a(b)?', 'a(b)?')
patterns - The patterns which are expected to have a match against the input of the search.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
infix fun <E, T : Iterable<E>> IterableContains.CheckerOption<E, T, InAnyOrderSearchBehaviour>.the(values: Values<E>): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where the expected values
shall be searched within the Iterable.
Notice, that it does not search for unique matches. Meaning, if the iterable is setOf('a', 'b') and
values.expected is defined as 'a' and one
values.otherExpected is defined as 'a' as well, then both match,
even though they match the same entry. Use an option such as atLeast, atMost and exactly to control the
number of occurrences you expect.
Meaning you might want to use:
to contain inAny order exactly 2 value 'a'
instead of:
to contain inAny order exactly 1 the Values('a', 'a')
values - The values which are expected to be contained within the Iterable.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
infix fun <E : Any, T : Iterable<E?>> IterableContains.CheckerOption<E?, T, InAnyOrderSearchBehaviour>.the(entries: Entries<E>): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where an entry shall be searched which either
holds all assertions entries.assertionCreatorOrNull might create or
needs to be null in case entries.assertionCreatorOrNull
is defined as null -- likewise an entry (can be the same) is searched for each of
the entries.otherAssertionCreatorsOrNulls.
entries - The parameter object which contains the identification lambdas.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
infix fun <E, T : Iterable<E>> IterableContains.Builder<E, T, InAnyOrderOnlySearchBehaviour>.the(values: Values<E>): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where the expected values
must be contained in Iterable but it does not matter in which order.
values - The values which are expected to be contained within the Iterable.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
infix fun <E : Any, T : Iterable<E?>> IterableContains.Builder<E?, T, InAnyOrderOnlySearchBehaviour>.the(entries: Entries<E>): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where an entry needs to be contained in the
Iterable which holds all assertions entries.assertionCreatorOrNull
might create or it needs to be null in case
entries.assertionCreatorOrNull is defined as null -- likewise an
entry for each entries.otherAssertionCreatorsOrNulls needs to
be contained in the Iterable where it does not matter in which order the entries appear but only as many entries
should be returned by the Iterable as assertion creators are defined.
Notice, that a first-wins strategy applies which means your assertion creator lambdas -- which kind of serve as
identification lambdas -- should be ordered in such a way that the most specific identification lambda appears
first, not that a less specific lambda wins. For instance, given a setOf(1, 2) you should not search for
Entries({ isGreaterThan(0) }, { toBe(1) }) but for Entries({ toBe(1) }, { isGreaterThan(0) })
otherwise isGreaterThan(0) matches 1 before toBe(1) would match it. As a consequence toBe(1) could
only match the entry which is left -- in this case 2 -- and of course this would fail.
entries - The parameter object containing the identification lambdas.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
infix fun <E, T : Iterable<E>> IterableContains.Builder<E, T, InOrderOnlySearchBehaviour>.the(values: Values<E>): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where the Iterable needs to contain only the
expected values in the specified order.
values - The nullable values which are expected to be contained within the Iterable.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
infix fun <E : Any, T : Iterable<E?>> IterableContains.Builder<E?, T, InOrderOnlySearchBehaviour>.the(entries: Entries<E>): AssertionPlant<T> (source)
Finishes the specification of the sophisticated contains assertion where the Iterable needs to contain only an
entry which holds all assertions entries.assertionCreatorOrNull
might create or is null in case entries.assertionCreatorOrNull
is defined as null and likewise a further entry for each
entries.otherAssertionCreatorsOrNulls
(if given) whereas the entries have to appear in the specified order.
This function will be renamed on the JVM level to the with 1.0.0;
entries - The parameter object containing the identification lambdas.
AssertionError - Might throw an AssertionError if the assertion made is not correct.
Return
The AssertionPlant for which the assertion was built to support a fluent API.
infix fun <E, T : Iterable<E>> IterableContains.CheckerOption<E, T, InAnyOrderSearchBehaviour>.the(nullableValues: NullableValues<E>): AssertionPlant<T> (source)infix fun <E : Any, T : Iterable<E?>> IterableContains.CheckerOption<E?, T, InAnyOrderSearchBehaviour>.the(nullableEntries: NullableEntries<E>): AssertionPlant<T> (source)infix fun <E, T : Iterable<E>> IterableContains.Builder<E, T, InAnyOrderOnlySearchBehaviour>.the(nullableValues: NullableValues<E>): AssertionPlant<T> (source)infix fun <E : Any, T : Iterable<E?>> IterableContains.Builder<E?, T, InAnyOrderOnlySearchBehaviour>.the(nullableEntries: NullableEntries<E>): AssertionPlant<T> (source)infix fun <E, T : Iterable<E>> IterableContains.Builder<E, T, InOrderOnlySearchBehaviour>.the(nullableValues: NullableValues<E>): AssertionPlant<T> (source)infix fun <E : Any, T : Iterable<E?>> IterableContains.Builder<E?, T, InOrderOnlySearchBehaviour>.the(nullableEntries: NullableEntries<E>): AssertionPlant<T> (source)