doc / ch.tutteli.atrium.api.infix.en_GB / contains

contains

infix fun <T : CharSequence> Expect<T>.contains(o: o): CharSequenceContains.EntryPointStep<T, NoOpSearchBehaviour>

Starts a sophisticated contains assertion building process based on this Expect.

Parameters

o - The filler object o.

Return
The newly created builder.

infix fun <T : CharSequence> Expect<T>.contains(expected: CharSequenceOrNumberOrChar): Expect<T>

Expects that the subject of the assertion (a CharSequence) contains the expected's toString representation.

It is a shortcut for contains o atLeast 1 value expected.

Notice that a runtime check applies which assures that only CharSequence, Number and Char are passed. This function expects CharSequenceOrNumberOrChar (which is a typealias for Any) for your convenience, so that you can mix String and Int for instance.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

IllegalArgumentException - in case expected is not a CharSequence, Number or Char.

Return
This assertion container to support a fluent API.

infix fun <T : CharSequence> Expect<T>.contains(values: Values<CharSequenceOrNumberOrChar>): Expect<T>

Expects that the subject of the assertion (a CharSequence) contains the toString representation of the given values using a non disjoint search.

It is a shortcut for contains o atLeast 1 the values(expected, *otherExpected).

Notice that a runtime check applies which assures that only CharSequence, Number and Char are passed. This function expects CharSequenceOrNumberOrChar (which is a typealias for 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 is defined as values("a", "a"), 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: contains o exactly 2 value "a" instead of: contains values("a", "a")

Parameters

values - The values which are expected to be contained within the input of the search -- use the function values(t, ...) to create a Values.

Exceptions

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
This assertion container to support a fluent API.

infix fun <T : CharSequence> Expect<T>.contains(pattern: Regex): Expect<T>

Expects that the subject of the assertion (a CharSequence) contains a sequence which matches the given regular expression pattern.

It is a shortcut for contains o atLeast 1 matchFor pattern.

Parameters

pattern - The pattern which is expected to have a match against the input of the search.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
This assertion container to support a fluent API.

infix fun <T : CharSequence> Expect<T>.contains(regexPatterns: RegexPatterns): Expect<T>

Expects that the subject of the assertion (a CharSequence) contains a sequence which matches the given regular expression regexPatterns, using a non disjoint search.

It is a shortcut for contains o atLeast 1 the regexPatterns(pattern, *otherPatterns).

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 RegexPatterns is defined as regexPatterns("a(b)?", "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: contains o exactly 2 regex "a(b)?" instead of: contains o atLeast 1 the regexPatterns("a(b)?", "a(b)?")

Parameters

regexPatterns - The patterns which are expected to have a match against the input of the search -- use the function regexPatterns(t, ...) to create a RegexPatterns.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
This assertion container to support a fluent API.

infix fun <T : CharSequence> Expect<T>.contains(patterns: All<Regex>): Expect<T>

Expects that the subject of the assertion (a CharSequence) contains a sequence which matches the given regular expression patterns, using a non disjoint search.

It is a shortcut for contains o atLeast 1 regex All(pattern, *otherPatterns).

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 All is defined as all(Regex("a(b)?"), Regex("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: contains o exactly 2 regex "a(b)?" instead of: contains o atLeast 1 the all(Regex("a(b)?"), Regex("a(b)?"))

Parameters

patterns - The patterns which are expected to have a match against the input of the search -- use the function all(Regex(...), ...) to create a All.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
This assertion container to support a fluent API.

infix fun <E, T : Iterable<E>> Expect<T>.contains(expected: E): Expect<T>

Expects that the subject of the assertion (an Iterable) contains the expected value.

It is a shortcut for contains o inAny order atLeast 1 value expected

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
An Expect for the current subject of the assertion.

infix fun <E, T : Iterable<E>> Expect<T>.contains(values: Values<E>): Expect<T>

Expects that the subject of the assertion (an Iterable) contains the expected values.

It is a shortcut for contains o inAny order atLeast 1 the values(...)

Notice, that it does not search for unique matches. Meaning, if the iterable is setOf('a', 'b') and Values is defined as values("a", "a"), 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: contains o inAny order exactly 2 value 'a' instead of: contains values('a', 'a')`

Parameters

values - The values which are expected to be contained within the Iterable -- use the function values(t, ...) to create a Values.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
An Expect for the current subject of the assertion.

infix fun <E : Any, T : Iterable<E?>> Expect<T>.contains(assertionCreatorOrNull: (Expect<E>.() -> Unit)?): Expect<T>

Expects that the subject of the assertion (an Iterable) contains an entry holding the assertions created by assertionCreatorOrNull or an entry which is null in case assertionCreatorOrNull is defined as null.

It is a shortcut for contains o inAny order atLeast 1 entry assertionCreatorOrNull

Parameters

assertionCreatorOrNull - The identification lambda which creates the assertions which the entry we are looking for has to hold; or in other words, the function which defines whether an entry is the one we are looking for or not. In case it is defined as null, then an entry is identified if it is null as well.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
An Expect for the current subject of the assertion.

infix fun <E : Any, T : Iterable<E?>> Expect<T>.contains(entries: Entries<E>): Expect<T>

Expects that the subject of the assertion (an Iterable) contains an entry holding the assertions created by entries.assertionCreatorOrNull or an entry which is null in case entries.assertionCreatorOrNull is defined as null -- likewise an entry (can be the same) is searched for each of the entries.otherAssertionCreatorsOrNulls.

It is a shortcut for contains o inAny order atLeast 1 the entries({ ... }, ...)

Parameters

entries - The entries which are expected to be contained within the Iterable -- use the function entries(t, ...) to create an Entries.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
An Expect for the current subject of the assertion.

infix fun <E, T : Iterable<E>> Expect<T>.contains(noDuplicates: noDuplicates): Expect<T>

Expects that the subject of the assertion (an Iterable) does not have duplicate elements.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
An Expect for the current subject of the assertion.

Since
0.14.0

infix fun <K, V, T : Map<out K, V>> Expect<T>.contains(keyValuePair: Pair<K, V>): Expect<T>

Expects that the subject of the assertion (a Map) contains a key as defined by keyValuePair's Pair.first with a corresponding value as defined by keyValuePair's Pair.second

Delegates to 'contains Pairs(keyValuePair)'.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
An Expect for the current subject of the assertion.

infix fun <K, V, T : Map<out K, V>> Expect<T>.contains(keyValuePairs: Pairs<K, V>): Expect<T>

Expects the subject of the assertion (a Map) contains for each entry in keyValuePairs, a key as defined by that entry's Pair.first with a corresponding value as defined by entry's Pair.second.

Notice, that it does not search for unique matches. Meaning, if the map is mapOf('a' to 1) and one of the Pair in keyValuePairs is defined as 'a' to 1 and another one is defined as 'a' to 1 as well, then both match, even though they match the same entry.

Parameters

keyValuePairs - The key-value Pairs expected to be contained within this Map -- use the function pairs(x to y, ...) to create a Pairs.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
An Expect for the current subject of the assertion.

inline infix fun <K, reified V : Any, T : Map<out K, V?>> Expect<T>.contains(keyValue: KeyWithValueCreator<K, V>): Expect<T>

Expects that the subject of the assertion (a Map) contains a key as defined by keyValue's KeyWithValueCreator.key with a corresponding value which either holds all assertions keyValue's KeyWithValueCreator.valueAssertionCreatorOrNull creates or needs to be null in case KeyWithValueCreator.valueAssertionCreatorOrNull is defined as null

Parameters

keyValue - The KeyWithValueCreator whose key is expected to be contained within this Map and where the corresponding value holds all assertions the KeyWithValueCreator.valueAssertionCreatorOrNull creates or needs to be null in case KeyWithValueCreator.valueAssertionCreatorOrNull is defined as null -- use the function keyValue(x) { ... } to create a KeyWithValueCreator.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
An Expect for the current subject of the assertion.

inline infix fun <K, reified V : Any, T : Map<out K, V?>> Expect<T>.contains(keyValues: All<KeyWithValueCreator<K, V>>): Expect<T>

Expects that the subject of the assertion (a Map) contains for each KeyWithValueCreator in keyValues, a key as defined by KeyWithValueCreator.key with a corresponding value which either holds all assertions KeyWithValueCreator's KeyWithValueCreator.valueAssertionCreatorOrNull creates or needs to be null in case KeyWithValueCreator.valueAssertionCreatorOrNull is defined as null

Notice, that it does not search for unique matches. Meaning, if the map is mapOf('a' to 1) and one KeyWithValueCreator in keyValues is defined as Key('a') { isGreaterThan(0) } and another one is defined as Key('a') { isLessThan(2) } , then both match, even though they match the same entry.

Exceptions

AssertionError - Might throw an AssertionError if the assertion made is not correct.

Return
An Expect for the current subject of the assertion.