doc / ch.tutteli.atrium.creating / AssertionPlant

AssertionPlant

interface AssertionPlant<out T : Any> : BaseAssertionPlant<T, AssertionPlant<T>>

Represents a plant for Assertions based on a non nullable subject.

It is the entry point for most assertion functions and provides only a reduced set of ReportingAssertionPlant which is actually created when a user of Atrium is using an assertion verb function.

Parameters

T - The type of the subject of this AssertionPlant.

Inherited Properties

maybeSubject

open val maybeSubject: Option<T>

Either Some wrapping the subject of an Assertion or None in case a previous subject change could not be carried out.

subjectProvider

abstract val subjectProvider: () -> T

The provider which provides subject.

Functions

addAssertionsCreatedBy

abstract fun addAssertionsCreatedBy(assertionCreator: AssertionPlant<T>.() -> Unit): AssertionPlant<T>

Adds the assertions created by the assertionCreator lambda to this plant.

createAndAddAssertion

open fun createAndAddAssertion(description: Translatable, expected: Any, test: () -> Boolean): AssertionPlant<T>

Creates a DescriptiveAssertion based on the given description, expected and test and adds it to the plant.

Inherited Functions

addAssertion

abstract fun addAssertion(assertion: Assertion): A

Adds the given assertion to this plant.

Extension Properties

and

val <T : Any> AssertionPlant<T>.and: AssertionPlant<T>

Can be used to separate assertions when using the fluent API.

and

val <T : Any> AssertionPlant<T>.and: AssertionPlant<T>

Can be used to separate assertions when using the fluent API.

contains

val <T : CharSequence> Assert<T>.contains: CharSequenceContains.Builder<T, NoOpSearchBehaviour>

Creates a CharSequenceContains.Builder based on this AssertionPlant which allows to define more sophisticated contains assertions.

contains

val <T : CharSequence> Assert<T>.contains: CharSequenceContains.Builder<T, NoOpSearchBehaviour>

Creates a CharSequenceContains.Builder based on this AssertionPlant which allows to define more sophisticated contains assertions.

containsNot

val <T : CharSequence> Assert<T>.containsNot: NotCheckerOption<T, NotSearchBehaviour>

Creates a CharSequenceContains.Builder based on this AssertionPlant which allows to define more sophisticated contains not assertions.

containsNot

val <T : CharSequence> Assert<T>.containsNot: NotCheckerOption<T, NotSearchBehaviour>

Creates a CharSequenceContains.Builder based on this AssertionPlant which allows to define more sophisticated contains not assertions.

enthaelt

val <T : CharSequence> Assert<T>.enthaelt: CharSequenceContains.Builder<T, NoOpSearchBehaviour>

Creates a CharSequenceContains.Builder based on this AssertionPlant which allows to define more sophisticated contains assertions.

enthaeltNicht

val <T : CharSequence> Assert<T>.enthaeltNicht: NotCheckerOption<T, NotSearchBehaviour>

Creates a CharSequenceContains.Builder based on this AssertionPlant which allows to define more sophisticated contains not assertions.

first

val <K : Any> Assert<Pair<K, *>>.first: Assert<K>

Creates an AssertionPlant for the Assert.subject's property first so that further fluent calls are assertions about it.

first

val <K : Any> Assert<Pair<K, *>>.first: Assert<K>

Creates an AssertionPlant for the Assert.subject's property first so that further fluent calls are assertions about it.

first

val <K : Any> Assert<Pair<K, *>>.first: Assert<K>

Creates an AssertionPlant for the Assert.subject's property first so that further fluent calls are assertions about it.

key

val <K : Any> Assert<Entry<K, *>>.key: Assert<K>

Creates an AssertionPlant for the Assert.subject's property key so that further fluent calls are assertions about it.

key

val <K : Any> Assert<Entry<K, *>>.key: Assert<K>

Creates an AssertionPlant for the Assert.subject's property key so that further fluent calls are assertions about it.

key

val <K : Any> Assert<Entry<K, *>>.key: Assert<K>

Creates an AssertionPlant for the Assert.subject's property key so that further fluent calls are assertions about it.

keys

val <K, V> Assert<Map<out K, V>>.keys: Assert<Set<K>>

Creates an AssertionPlant for the Assert.subject's property keys so that further fluent calls are assertions about it.

keys

val <K> Assert<Map<K, *>>.keys: Assert<Set<K>>

Creates an AssertionPlant for the Assert.subject's property keys so that further fluent calls are assertions about it.

keys

val <K, V> Assert<Map<out K, V>>.keys: Assert<Set<K>>

Creates an AssertionPlant for the Assert.subject's property keys so that further fluent calls are assertions about it.

o

val <T : Any> Assert<T>.o: Assert<T>

Inline property referring actually to this and allows to write nicer sub-assertions.

second

val <V : Any> Assert<Pair<*, V>>.second: Assert<V>

Creates an AssertionPlant for the Assert.subject's property second so that further fluent calls are assertions about it.

second

val <V : Any> Assert<Pair<*, V>>.second: Assert<V>

Creates an AssertionPlant for the Assert.subject's property second so that further fluent calls are assertions about it.

second

val <V : Any> Assert<Pair<*, V>>.second: Assert<V>

Creates an AssertionPlant for the Assert.subject's property second so that further fluent calls are assertions about it.

size

val Assert<Collection<*>>.size: Assert<Int>

Creates an AssertionPlant for the Assert.subject's property size so that further fluent calls are assertions about it.

size

val Assert<Collection<*>>.size: Assert<Int>

Creates an AssertionPlant for the Assert.subject's property size so that further fluent calls are assertions about it.

size

val Assert<Collection<*>>.size: Assert<Int>

Creates an AssertionPlant for the Assert.subject's property size so that further fluent calls are assertions about it.

und

val <T : Any> Assert<T>.und: Assert<T>

Can be used to separate assertions when using the fluent API.

value

val <V : Any> Assert<Entry<*, V>>.value: Assert<V>

Creates an AssertionPlant for the Assert.subject's property value so that further fluent calls are assertions about it.

value

val <V : Any> Assert<Entry<*, V>>.value: Assert<V>

Creates an AssertionPlant for the Assert.subject's property value so that further fluent calls are assertions about it.

value

val <V : Any> Assert<Entry<*, V>>.value: Assert<V>

Creates an AssertionPlant for the Assert.subject's property value so that further fluent calls are assertions about it.

values

val <K, V> Assert<Map<out K, V>>.values: Assert<Collection<V>>

Creates an AssertionPlant for the Assert.subject's property values so that further fluent calls are assertions about it.

values

val <V> Assert<Map<*, V>>.values: Assert<Collection<V>>

Creates an AssertionPlant for the Assert.subject's property values so that further fluent calls are assertions about it.

values

val <K, V> Assert<Map<out K, V>>.values: Assert<Collection<V>>

Creates an AssertionPlant for the Assert.subject's property values so that further fluent calls are assertions about it.

Extension Functions

all

fun <E : Any, T : Iterable<E?>> Assert<T>.all(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject has at least one element and that every element holds all assertions created by the assertionCreatorOrNull or that all elements are null in case assertionCreatorOrNull is defined as null.

all

infix fun <E : Any, T : Iterable<E?>> Assert<T>.all(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject has at least one element and that every element holds all assertions created by the assertionCreatorOrNull or that all elements are null in case assertionCreatorOrNull is defined as null.

infix fun <E : Any, T : Iterable<E?>> Assert<T>.all(nullableEntry: NullableEntry<E>): AssertionPlant<T>

alle

fun <E : Any, T : Iterable<E?>> Assert<T>.alle(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject has at least one element and that every element holds all assertions created by the assertionCreatorOrNull or that all elements are null in case assertionCreatorOrNull is defined as null.

alleDerNullable

fun <E : Any, T : Iterable<E?>> Assert<T>.alleDerNullable(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

allOfNullable

fun <E : Any, T : Iterable<E?>> Assert<T>.allOfNullable(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

and

infix fun <T : Any> AssertionPlant<T>.and(assertionCreator: Assert<T>.() -> Unit): AssertionPlant<T>

Can be used to create a group of sub assertions when using the fluent API.

and

infix fun <T : Any> AssertionPlant<T>.and(assertionCreator: Assert<T>.() -> Unit): AssertionPlant<T>

Can be used to create a group of sub assertions when using the fluent API.

and

infix fun <T : Any> AssertionPlant<T>.and(assertionCreator: Assert<T>.() -> Unit): AssertionPlant<T>

Can be used to create a group of sub assertions when using the fluent API.

and

infix fun <T : Any> AssertionPlant<T>.and(assertionCreator: Assert<T>.() -> Unit): AssertionPlant<T>

Can be used to create a group of sub assertions when using the fluent API.

any

fun <E : Any, T : Iterable<E?>> Assert<T>.any(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject contains an entry holding the assertions created by assertionCreatorOrNull or an entry which is null in case assertionCreatorOrNull is defined as null.

any

infix fun <E : Any, T : Iterable<E?>> Assert<T>.any(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject contains an entry holding the assertions created by the assertionCreatorOrNull or an entry which is null in case assertionCreatorOrNull is defined as null.

infix fun <E : Any, T : Iterable<E?>> Assert<T>.any(nullableEntry: NullableEntry<E>): AssertionPlant<T>

anyOfNullable

fun <E : Any, T : Iterable<E?>> Assert<T>.anyOfNullable(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

asEntries

fun <K, V> Assert<Map<out K, V>>.asEntries(): Assert<Set<Entry<K, V>>>

Turns Assert<Map<out K, V>> into Assert<Set<Map.Entry<K, V>>>.

fun <K, V> Assert<Map<out K, V>>.asEntries(assertionCreator: Assert<Set<Entry<K, V>>>.() -> Unit): Assert<Set<Entry<K, V>>>

Turns Assert<Map<out K, V>> into Assert<Set<Map.Entry<K, V>>> and makes the assertion that the assertions the given assertionCreator might create hold.

asEntries

fun <K, V> Assert<Map<out K, V>>.asEntries(): Assert<Set<Entry<K, V>>>

Turns Assert<Map<K, V>> into Assert<Set<Map.Entry<K, V>>>.

fun <K, V> Assert<Map<out K, V>>.asEntries(assertionCreator: Assert<Set<Entry<K, V>>>.() -> Unit): Assert<Set<Entry<K, V>>>

Turns Assert<Map<K, V>> into Assert<Set<Map.Entry<K, V>>> and makes the assertion that the assertions the given assertionCreator might create hold.

asEntries

fun <K, V> Assert<Map<out K, V>>.asEntries(): Assert<Set<Entry<K, V>>>

Turns Assert<Map<out K, V>> into Assert<Set<Map.Entry<K, V>>>.

infix fun <K, V> Assert<Map<out K, V>>.asEntries(assertionCreator: Assert<Set<Entry<K, V>>>.() -> Unit): Assert<Set<Entry<K, V>>>

Turns Assert<Map<out K, V>> into Assert<Set<Map.Entry<K, V>>> and makes the assertion that the assertions the given assertionCreator might create hold.

asExpect

fun <T, A : BaseAssertionPlant<T, *>> A.asExpect(): Expect<T>

Turns Assert or AssertionPlantNullable into an Expect so that you can use new functionality which is not available on Assert/AssertionPlantNullable.

asIterable

fun <E> Assert<Array<out E>>.asIterable(): Assert<Iterable<E>>

Turns Assert<Array<E>> into Assert<Iterable<E>>.

fun <E> Assert<Array<out E>>.asIterable(assertionCreator: Assert<Iterable<E>>.() -> Unit): Assert<Iterable<E>>

Turns Assert<Array<E>> into Assert<Iterable<E>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<ByteArray>.asIterable(): Assert<Iterable<Byte>>

Turns Assert<CharArray> into Assert<Iterable<Byte>>.

fun Assert<ByteArray>.asIterable(assertionCreator: Assert<Iterable<Byte>>.() -> Unit): Assert<Iterable<Byte>>

Turns Assert<CharArray> into Assert<Iterable<Byte>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<CharArray>.asIterable(): Assert<Iterable<Char>>

Turns Assert<CharArray> into Assert<Iterable<Char>>.

fun Assert<CharArray>.asIterable(assertionCreator: Assert<Iterable<Char>>.() -> Unit): Assert<Iterable<Char>>

Turns Assert<CharArray> into Assert<Iterable<Char>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<ShortArray>.asIterable(): Assert<Iterable<Short>>

Turns Assert<ShortArray> into Assert<Iterable<Short>>.

fun Assert<ShortArray>.asIterable(assertionCreator: Assert<Iterable<Short>>.() -> Unit): Assert<Iterable<Short>>

Turns Assert<ShortArray> into Assert<Iterable<Short>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<IntArray>.asIterable(): Assert<Iterable<Int>>

Turns Assert<IntArray> into Assert<Iterable<Int>>.

fun Assert<IntArray>.asIterable(assertionCreator: Assert<Iterable<Int>>.() -> Unit): Assert<Iterable<Int>>

Turns Assert<IntArray> into Assert<Iterable<Int>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<LongArray>.asIterable(): Assert<Iterable<Long>>

Turns Assert<LongArray> into Assert<Iterable<Double>>.

fun Assert<LongArray>.asIterable(assertionCreator: Assert<Iterable<Long>>.() -> Unit): Assert<Iterable<Long>>

Turns Assert<LongArray> into Assert<Iterable<Double>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<FloatArray>.asIterable(): Assert<Iterable<Float>>

Turns Assert<FloatArray> into Assert<Iterable<Float>>.

fun Assert<FloatArray>.asIterable(assertionCreator: Assert<Iterable<Float>>.() -> Unit): Assert<Iterable<Float>>

Turns Assert<FloatArray> into Assert<Iterable<Float>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<DoubleArray>.asIterable(): Assert<Iterable<Double>>

Turns Assert<DoubleArray> into Assert<Iterable<Double>>.

fun Assert<DoubleArray>.asIterable(assertionCreator: Assert<Iterable<Double>>.() -> Unit): Assert<Iterable<Double>>

Turns Assert<DoubleArray> into Assert<Iterable<Double>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<BooleanArray>.asIterable(): Assert<Iterable<Boolean>>

Turns Assert<BooleanArray> into Assert<Iterable<Boolean>>.

fun Assert<BooleanArray>.asIterable(assertionCreator: Assert<Iterable<Boolean>>.() -> Unit): Assert<Iterable<Boolean>>

Turns Assert<BooleanArray> into Assert<Iterable<Boolean>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun <E> Assert<Sequence<E>>.asIterable(): Assert<Iterable<E>>

Turns Assert<Sequence<E>> into Assert<Iterable<E>>.

asIterable

fun <E> Assert<Array<out E>>.asIterable(): Assert<Iterable<E>>

Turns Assert<Array<E>> into Assert<Iterable<E>>.

fun <E> Assert<Array<out E>>.asIterable(assertionCreator: Assert<Iterable<E>>.() -> Unit): Assert<Iterable<E>>

Turns Assert<Array<E>> into Assert<Iterable<E>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<ByteArray>.asIterable(): Assert<Iterable<Byte>>

Turns Assert<CharArray> into Assert<Iterable<Byte>>.

fun Assert<ByteArray>.asIterable(assertionCreator: Assert<Iterable<Byte>>.() -> Unit): Assert<Iterable<Byte>>

Turns Assert<CharArray> into Assert<Iterable<Byte>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<CharArray>.asIterable(): Assert<Iterable<Char>>

Turns Assert<CharArray> into Assert<Iterable<Char>>.

fun Assert<CharArray>.asIterable(assertionCreator: Assert<Iterable<Char>>.() -> Unit): Assert<Iterable<Char>>

Turns Assert<CharArray> into Assert<Iterable<Char>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<ShortArray>.asIterable(): Assert<Iterable<Short>>

Turns Assert<ShortArray> into Assert<Iterable<Short>>.

fun Assert<ShortArray>.asIterable(assertionCreator: Assert<Iterable<Short>>.() -> Unit): Assert<Iterable<Short>>

Turns Assert<ShortArray> into Assert<Iterable<Short>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<IntArray>.asIterable(): Assert<Iterable<Int>>

Turns Assert<IntArray> into Assert<Iterable<Int>>.

fun Assert<IntArray>.asIterable(assertionCreator: Assert<Iterable<Int>>.() -> Unit): Assert<Iterable<Int>>

Turns Assert<IntArray> into Assert<Iterable<Int>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<LongArray>.asIterable(): Assert<Iterable<Long>>

Turns Assert<LongArray> into Assert<Iterable<Double>>.

fun Assert<LongArray>.asIterable(assertionCreator: Assert<Iterable<Long>>.() -> Unit): Assert<Iterable<Long>>

Turns Assert<LongArray> into Assert<Iterable<Double>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<FloatArray>.asIterable(): Assert<Iterable<Float>>

Turns Assert<FloatArray> into Assert<Iterable<Float>>.

fun Assert<FloatArray>.asIterable(assertionCreator: Assert<Iterable<Float>>.() -> Unit): Assert<Iterable<Float>>

Turns Assert<FloatArray> into Assert<Iterable<Float>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<DoubleArray>.asIterable(): Assert<Iterable<Double>>

Turns Assert<DoubleArray> into Assert<Iterable<Double>>.

fun Assert<DoubleArray>.asIterable(assertionCreator: Assert<Iterable<Double>>.() -> Unit): Assert<Iterable<Double>>

Turns Assert<DoubleArray> into Assert<Iterable<Double>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<BooleanArray>.asIterable(): Assert<Iterable<Boolean>>

Turns Assert<BooleanArray> into Assert<Iterable<Boolean>>.

fun Assert<BooleanArray>.asIterable(assertionCreator: Assert<Iterable<Boolean>>.() -> Unit): Assert<Iterable<Boolean>>

Turns Assert<BooleanArray> into Assert<Iterable<Boolean>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun <E> Assert<Sequence<E>>.asIterable(): Assert<Iterable<E>>

Turns Assert<Sequence<E>> into Assert<Iterable<E>>.

asIterable

fun <E> Assert<Array<out E>>.asIterable(): Assert<Iterable<E>>

Turns Assert<Array<E>> into Assert<Iterable<E>>.

infix fun <E> Assert<Array<out E>>.asIterable(assertionCreator: Assert<Iterable<E>>.() -> Unit): Assert<Iterable<E>>

Turns Assert<Array<E>> into Assert<Iterable<E>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<ByteArray>.asIterable(): Assert<Iterable<Byte>>

Turns Assert<CharArray> into Assert<Iterable<Byte>>.

infix fun Assert<ByteArray>.asIterable(assertionCreator: Assert<Iterable<Byte>>.() -> Unit): Assert<Iterable<Byte>>

Turns Assert<CharArray> into Assert<Iterable<Byte>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<CharArray>.asIterable(): Assert<Iterable<Char>>

Turns Assert<CharArray> into Assert<Iterable<Char>>.

infix fun Assert<CharArray>.asIterable(assertionCreator: Assert<Iterable<Char>>.() -> Unit): Assert<Iterable<Char>>

Turns Assert<CharArray> into Assert<Iterable<Char>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<ShortArray>.asIterable(): Assert<Iterable<Short>>

Turns Assert<ShortArray> into Assert<Iterable<Short>>.

infix fun Assert<ShortArray>.asIterable(assertionCreator: Assert<Iterable<Short>>.() -> Unit): Assert<Iterable<Short>>

Turns Assert<ShortArray> into Assert<Iterable<Short>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<IntArray>.asIterable(): Assert<Iterable<Int>>

Turns Assert<IntArray> into Assert<Iterable<Int>>.

infix fun Assert<IntArray>.asIterable(assertionCreator: Assert<Iterable<Int>>.() -> Unit): Assert<Iterable<Int>>

Turns Assert<IntArray> into Assert<Iterable<Int>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<LongArray>.asIterable(): Assert<Iterable<Long>>

Turns Assert<LongArray> into Assert<Iterable<Double>>.

infix fun Assert<LongArray>.asIterable(assertionCreator: Assert<Iterable<Long>>.() -> Unit): Assert<Iterable<Long>>

Turns Assert<LongArray> into Assert<Iterable<Double>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<FloatArray>.asIterable(): Assert<Iterable<Float>>

Turns Assert<FloatArray> into Assert<Iterable<Float>>.

infix fun Assert<FloatArray>.asIterable(assertionCreator: Assert<Iterable<Float>>.() -> Unit): Assert<Iterable<Float>>

Turns Assert<FloatArray> into Assert<Iterable<Float>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<DoubleArray>.asIterable(): Assert<Iterable<Double>>

Turns Assert<DoubleArray> into Assert<Iterable<Double>>.

infix fun Assert<DoubleArray>.asIterable(assertionCreator: Assert<Iterable<Double>>.() -> Unit): Assert<Iterable<Double>>

Turns Assert<DoubleArray> into Assert<Iterable<Double>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun Assert<BooleanArray>.asIterable(): Assert<Iterable<Boolean>>

Turns Assert<BooleanArray> into Assert<Iterable<Boolean>>.

infix fun Assert<BooleanArray>.asIterable(assertionCreator: Assert<Iterable<Boolean>>.() -> Unit): Assert<Iterable<Boolean>>

Turns Assert<BooleanArray> into Assert<Iterable<Boolean>> and makes the assertion that the assertions the given assertionCreator might create hold.

fun <E> Assert<Sequence<E>>.asIterable(): Assert<Iterable<E>>

Turns Assert<Sequence<E>> into Assert<Iterable<E>>.

assert

fun <T : Any, R : Any> Assert<T>.assert(newSubject: R): Assert<R>

assertThat

fun <T : Any, R : Any> Assert<T>.assertThat(newSubject: R): Assert<R>

beginntMit

fun <T : CharSequence> Assert<T>.beginntMit(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject starts with expected.

beginntNichtMit

fun <T : CharSequence> Assert<T>.beginntNichtMit(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject does not start with expected.

contains

fun <T : CharSequence> Assert<T>.contains(expected: Any, vararg otherExpected: Any): AssertionPlant<T>

Makes the assertion that the Assert.subject contains expected's toString representation and the toString representation of the otherExpected (if given), using a non disjoint search.

fun <E, T : Iterable<E>> Assert<T>.contains(expected: E, vararg otherExpected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject contains expected and the otherExpected (if given).

fun <E : Any, T : Iterable<E>> Assert<T>.contains(assertionCreator: Assert<E>.() -> Unit, vararg otherAssertionCreators: Assert<E>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject contains an entry holding the assertions created by the assertionCreator and an additional entry for each otherAssertionCreators (if given) where it does not matter in which order the entries appear.

contains

infix fun <T : CharSequence> Assert<T>.contains(expected: Any): AssertionPlant<T>

Makes the assertion that the Assert.subject contains the toString representation of the given expected using a non disjoint search.

infix fun <T : CharSequence> Assert<T>.contains(values: Values<Any>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains the given values representation using a non disjoint search.

infix fun <T : CharSequence> Assert<T>.contains(defaultTranslationOf: DefaultTranslationsOf): AssertionPlant<T>

Makes the assertion that the Assert.subject contains DefaultTranslationsOf.expected's getDefault representation and the getDefault representations of the DefaultTranslationsOf.otherExpected (if given), using a non disjoint search.

infix fun <T : CharSequence> Assert<T>.contains(patterns: RegexPatterns): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a sequence which matches the given patterns using a non disjoint search.

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

Makes the assertion that the Assert.subject contains the expected value.

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

Makes the assertion that the Assert.subject contains the expected values.

infix fun <E, T : Iterable<E>> Assert<T>.contains(objects: Objects<E>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains the expected objects.

infix fun <E : Any, T : Iterable<E>> Assert<T>.contains(assertionCreator: Assert<E>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject contains an entry holding the assertions created by the assertionCreator where it does not matter in which order the entries appear.

infix fun <E : Any, T : Iterable<E>> Assert<T>.contains(entries: Entries<E, Assert<E>.() -> Unit>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains an entry holding the assertions created by the Entries.assertionCreator and an additional entry for each Entries.otherAssertionCreators (if given) where it does not matter in which order the entries appear.

contains

fun <T : CharSequence> Assert<T>.contains(expected: Any, vararg otherExpected: Any): AssertionPlant<T>

Makes the assertion that the Assert.subject contains expected's toString representation and the toString representation of the otherExpected (if given), using a non disjoint search.

fun <E, T : Iterable<E>> Assert<T>.contains(expected: E, vararg otherExpected: E): AssertionPlant<T>

c Makes the assertion that the Assert.subject contains the expected value and the otherExpected values (if given).

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

Makes the assertion that the Assert.subject contains an entry holding the assertions created by assertionCreatorOrNull or an entry which is null in case assertionCreatorOrNull is defined as null.

fun <E : Any, T : Iterable<E?>> Assert<T>.contains(assertionCreatorOrNull: (Assert<E>.() -> Unit)?, vararg otherAssertionCreatorsOrNulls: (Assert<E>.() -> Unit)?): AssertionPlant<T>

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

fun <K, V, T : Map<out K, V>> Assert<T>.contains(keyValuePair: Pair<K, V>, vararg otherPairs: Pair<K, V>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a key as defined by keyValuePair's Pair.first with a corresponding value as defined by keyValuePair's Pair.second -- optionally the same assertions are created for the otherPairs.

fun <K, V : Any, T : Map<out K, V?>> Assert<T>.contains(keyValue: KeyValue<K, V>, vararg otherKeyValues: KeyValue<K, V>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a key as defined by keyValue's KeyValue.key with a corresponding value which either holds all assertions keyValue's KeyValue.valueAssertionCreatorOrNull might create or needs to be null in case KeyValue.valueAssertionCreatorOrNull is defined as null -- optionally the same assertions are created for the otherKeyValues.

contains

infix fun <T : CharSequence> Assert<T>.contains(expected: Any): AssertionPlant<T>

Makes the assertion that the Assert.subject contains the toString representation of the given expected using a non disjoint search.

infix fun <T : CharSequence> Assert<T>.contains(values: Values<Any>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains the given values representation using a non disjoint search.

infix fun <T : CharSequence> Assert<T>.contains(patterns: RegexPatterns): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a sequence which matches the given patterns using a non disjoint search.

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

Makes the assertion that the Assert.subject contains the expected value.

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

Makes the assertion that the Assert.subject contains the expected values.

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

Makes the assertion that the Assert.subject contains an entry holding the assertions created by assertionCreatorOrNull or an entry which is null in case assertionCreatorOrNull is defined as null.

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

Makes the assertion that the Assert.subject 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.

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

Makes the assertion that the Assert.subject contains a key as defined by keyValuePair's Pair.first with a corresponding value as defined by keyValuePair's Pair.second.

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

Makes the assertion that the Assert.subject contains for each entry in keyValuePairs, a key as defined by entry's Pair.first with a corresponding value as defined by entry's Pair.second.

infix fun <K, V : Any, T : Map<out K, V?>> Assert<T>.contains(keyValue: KeyValue<K, V>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a key as defined by keyValue's KeyValue.key with a corresponding value which either holds all assertions keyValue's KeyValue.valueAssertionCreatorOrNull might create or needs to be null in case KeyValue.valueAssertionCreatorOrNull is defined as null.

infix fun <K, V : Any, T : Map<out K, V?>> Assert<T>.contains(keyValues: All<KeyValue<K, V>>): AssertionPlant<T>

Makes the assertion that for each of the KeyValue in keyValues, the Assert.subject contains a key as defined by keyValue's KeyValue.key with a corresponding value which either holds all assertions keyValue's KeyValue.valueAssertionCreatorOrNull might create or needs to be null in case KeyValue.valueAssertionCreatorOrNull is defined as null.

infix fun <E, T : Iterable<E>> Assert<T>.contains(nullableValue: NullableValue<E>): AssertionPlant<T>
infix fun <E, T : Iterable<E>> Assert<T>.contains(nullableValues: NullableValues<E>): AssertionPlant<T>
infix fun <E : Any, T : Iterable<E?>> Assert<T>.contains(nullableEntry: NullableEntry<E>): AssertionPlant<T>
infix fun <E : Any, T : Iterable<E?>> Assert<T>.contains(nullableEntries: NullableEntries<E>): AssertionPlant<T>

containsDefaultTranslationOf

fun <T : CharSequence> Assert<T>.containsDefaultTranslationOf(expected: Translatable, vararg otherExpected: Translatable): AssertionPlant<T>

Makes the assertion that the Assert.subject contains expected's getDefault representation and the getDefault representations of the otherExpected (if given), using a non disjoint search.

containsDefaultTranslationOf

infix fun <T : CharSequence> Assert<T>.containsDefaultTranslationOf(translatable: Translatable): AssertionPlant<T>

Makes the assertion that the Assert.subject contains the getDefault representation of the given translatable.

containsExactly

fun <E, T : Iterable<E>> Assert<T>.containsExactly(expected: E, vararg otherExpected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only the expected value and the otherExpected values (if given) in the defined order.

fun <E : Any, T : Iterable<E?>> Assert<T>.containsExactly(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only an entry holding the assertions created by assertionCreatorOrNull or only one entry which is null in case assertionCreatorOrNull is defined as null.

fun <E : Any, T : Iterable<E?>> Assert<T>.containsExactly(assertionCreatorOrNull: (Assert<E>.() -> Unit)?, vararg otherAssertionCreatorsOrNulls: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only an entry holding the assertions created by assertionCreatorOrNull or null in case assertionCreatorOrNull is defined as null and likewise an additional entry for each otherAssertionCreatorsOrNulls (if given) whereas the entries have to appear in the defined order.

containsExactly

infix fun <E, T : Iterable<E>> Assert<T>.containsExactly(expected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only the expected value.

infix fun <E, T : Iterable<E>> Assert<T>.containsExactly(values: Values<E>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only the expected values in the defined order.

infix fun <E : Any, T : Iterable<E?>> Assert<T>.containsExactly(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only one entry which is holding the assertions created by assertionCreatorOrNull or only one entry which is null in case assertionCreatorOrNull is defined as null.

infix fun <E : Any, T : Iterable<E?>> Assert<T>.containsExactly(entries: Entries<E>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only an entry holding the assertions created by entries.assertionCreatorOrNull or null in case entries.assertionCreatorOrNull is defined as null and likewise an additional entry for each entries.otherAssertionCreatorsOrNulls (if given) whereas the entries have to appear in the defined order.

containsKey

fun <K> Assert<Map<out K, *>>.containsKey(key: K): AssertionPlant<Map<out K, *>>

Makes the assertion that the Assert.subject contains the given key.

containsKey

infix fun <K> Assert<Map<out K, *>>.containsKey(key: K): AssertionPlant<Map<out K, *>>

Makes the assertion that the Assert.subject contains the given key.

containsNot

fun <T : CharSequence> Assert<T>.containsNot(expected: Any, vararg otherExpected: Any): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain expected's toString representation and neither one of the otherExpected's toString representation (if given).

fun <E, T : Iterable<E>> Assert<T>.containsNot(expected: E, vararg otherExpected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain expected and neither one of the otherExpected (if given).

containsNot

infix fun <T : CharSequence> Assert<T>.containsNot(expected: Any): AssertionPlant<T>

Makes the assertion that the Assert.subject does not expected's toString representation.

infix fun <T : CharSequence> Assert<T>.containsNot(values: Values<Any>): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain the toString representation of the given values.

infix fun <T : CharSequence> Assert<T>.containsNot(defaultTranslationsOf: DefaultTranslationsOf): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain DefaultTranslationsOf.expected's getDefault representation and neither one of the DefaultTranslationsOf.otherExpected's getDefault representation (if given).

infix fun <E, T : Iterable<E>> Assert<T>.containsNot(expected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain the expected value.

infix fun <E, T : Iterable<E>> Assert<T>.containsNot(values: Values<E>): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain the expected values.

infix fun <E, T : Iterable<E>> Assert<T>.containsNot(objects: Objects<E>): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain the expected objects.

containsNot

fun <T : CharSequence> Assert<T>.containsNot(expected: Any, vararg otherExpected: Any): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain expected's toString representation and neither one of the otherExpected's toString representation (if given).

fun <E, T : Iterable<E>> Assert<T>.containsNot(expected: E, vararg otherExpected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain the expected value and neither one of the otherExpected values (if given).

containsNot

infix fun <T : CharSequence> Assert<T>.containsNot(expected: Any): AssertionPlant<T>

Makes the assertion that the Assert.subject does not expected's toString representation.

infix fun <T : CharSequence> Assert<T>.containsNot(values: Values<Any>): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain the toString representation of the given values.

infix fun <E, T : Iterable<E>> Assert<T>.containsNot(expected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain the expected value.

infix fun <E, T : Iterable<E>> Assert<T>.containsNot(values: Values<E>): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain the expected values.

containsNotDefaultTranslationOf

fun <T : CharSequence> Assert<T>.containsNotDefaultTranslationOf(expected: Translatable, vararg otherExpected: Translatable): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain expected's getDefault representation and neither one of the otherExpected's getDefault representation (if given).

containsNotKey

fun <K> Assert<Map<out K, *>>.containsNotKey(key: K): AssertionPlant<Map<out K, *>>

Makes the assertion that the Assert.subject does not contain the given key.

containsNotKey

infix fun <K> Assert<Map<out K, *>>.containsNotKey(key: K): AssertionPlant<Map<out K, *>>

Makes the assertion that the Assert.subject does not contain the given key.

containsNullableEntries

fun <E : Any, T : Iterable<E?>> Assert<T>.containsNullableEntries(assertionCreatorOrNull: (Assert<E>.() -> Unit)?, vararg otherAssertionCreatorsOrNulls: (Assert<E>.() -> Unit)?): AssertionPlant<T>

containsNullableEntry

fun <E : Any, T : Iterable<E?>> Assert<T>.containsNullableEntry(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

containsNullableValue

fun <E, T : Iterable<E>> Assert<T>.containsNullableValue(expectedOrNull: E): AssertionPlant<T>

containsNullableValues

fun <E, T : Iterable<E>> Assert<T>.containsNullableValues(expectedOrNull: E, vararg otherExpectedOrNulls: E): AssertionPlant<T>

containsRegex

fun <T : CharSequence> Assert<T>.containsRegex(pattern: String, vararg otherPatterns: String): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a sequence which matches the given regular expression pattern as well as the otherPatterns (if given), using a non disjoint search.

containsRegex

infix fun <T : CharSequence> Assert<T>.containsRegex(pattern: String): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a sequence which matches the given pattern.

containsRegex

fun <T : CharSequence> Assert<T>.containsRegex(pattern: String, vararg otherPatterns: String): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a sequence which matches the given regular expression pattern as well as the otherPatterns (if given), using a non disjoint search.

containsRegex

infix fun <T : CharSequence> Assert<T>.containsRegex(pattern: String): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a sequence which matches the given pattern.

containsStrictly

fun <E, T : Iterable<E>> Assert<T>.containsStrictly(expected: E, vararg otherExpected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only expected and the otherExpected (if given) in the defined order.

fun <E : Any, T : Iterable<E>> Assert<T>.containsStrictly(assertionCreator: Assert<E>.() -> Unit, vararg otherAssertionCreators: Assert<E>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only an entry holding the assertions created by the assertionCreator and an additional entry for each otherAssertionCreators (if given) in the defined order holding the assertions created by them.

containsStrictly

infix fun <E, T : Iterable<E>> Assert<T>.containsStrictly(expected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only the expected value.

infix fun <E, T : Iterable<E>> Assert<T>.containsStrictly(values: Values<E>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only the expected values in the defined order.

infix fun <E, T : Iterable<E>> Assert<T>.containsStrictly(objects: Objects<E>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only the expected objects in the defined order.

infix fun <E : Any, T : Iterable<E>> Assert<T>.containsStrictly(assertionCreator: Assert<E>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only one entry which is holding the assertions created by the assertionCreator.

infix fun <E : Any, T : Iterable<E>> Assert<T>.containsStrictly(entries: Entries<E, Assert<E>.() -> Unit>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only an entry holding the assertions created by the Entries.assertionCreator and an additional entry for each Entries.otherAssertionCreators (if given) in the defined order holding the assertions created by them.

containsStrictly

fun <E : Any, T : Iterable<E>> Assert<T>.containsStrictly(expected: E, vararg otherExpected: E): AssertionPlant<T>
fun <E : Any, T : Iterable<E>> Assert<T>.containsStrictly(assertionCreator: Assert<E>.() -> Unit, vararg otherAssertionCreators: Assert<E>.() -> Unit): AssertionPlant<T>

containsStrictly

infix fun <E : Any, T : Iterable<E>> Assert<T>.containsStrictly(expected: E): AssertionPlant<T>
infix fun <E, T : Iterable<E>> Assert<T>.containsStrictly(expected: NullableValue<E>): AssertionPlant<T>
infix fun <E : Any, T : Iterable<E>> Assert<T>.containsStrictly(values: Values<E>): AssertionPlant<T>
infix fun <E, T : Iterable<E>> Assert<T>.containsStrictly(nullableValues: NullableValues<E>): AssertionPlant<T>
infix fun <E : Any, T : Iterable<E>> Assert<T>.containsStrictly(assertionCreator: Assert<E>.() -> Unit): AssertionPlant<T>
infix fun <E : Any, T : Iterable<E?>> Assert<T>.containsStrictly(nullableEntry: NullableEntry<E>): AssertionPlant<T>
infix fun <E : Any, T : Iterable<E>> Assert<T>.containsStrictly(entries: Entries<E>): AssertionPlant<T>
infix fun <E : Any, T : Iterable<E?>> Assert<T>.containsStrictly(nullableEntries: NullableEntries<E>): AssertionPlant<T>

containsStrictlyNullableEntries

fun <E : Any, T : Iterable<E?>> Assert<T>.containsStrictlyNullableEntries(assertionCreatorOrNull: (Assert<E>.() -> Unit)?, vararg otherAssertionCreatorsOrNulls: (Assert<E>.() -> Unit)?): AssertionPlant<T>

containsStrictlyNullableEntry

fun <E : Any, T : Iterable<E?>> Assert<T>.containsStrictlyNullableEntry(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

containsStrictlyNullableValue

fun <E, T : Iterable<E>> Assert<T>.containsStrictlyNullableValue(expectedOrNull: E): AssertionPlant<T>

containsStrictlyNullableValues

fun <E, T : Iterable<E>> Assert<T>.containsStrictlyNullableValues(expectedOrNull: E, vararg otherExpectedOrNulls: E): AssertionPlant<T>

endetMit

fun <T : CharSequence> Assert<T>.endetMit(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject ends with expected.

endetNichtMit

fun <T : CharSequence> Assert<T>.endetNichtMit(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject does not end with expected.

endsNotWith

fun <T : CharSequence> Assert<T>.endsNotWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject does not end with expected.

endsNotWith

infix fun <T : CharSequence> Assert<T>.endsNotWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject does not end with expected.

endsNotWith

fun <T : CharSequence> Assert<T>.endsNotWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject does not end with expected.

endsNotWith

infix fun <T : CharSequence> Assert<T>.endsNotWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject does not end with expected.

endsWith

fun <T : CharSequence> Assert<T>.endsWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject ends with expected.

endsWith

infix fun <T : CharSequence> Assert<T>.endsWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject ends with expected.

endsWith

fun <T : CharSequence> Assert<T>.endsWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject ends with expected.

endsWith

infix fun <T : CharSequence> Assert<T>.endsWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject ends with expected.

enthaelt

fun <T : CharSequence> Assert<T>.enthaelt(expected: Any, vararg otherExpected: Any): AssertionPlant<T>

Makes the assertion that the Assert.subject contains expected's toString representation and the toString representation of the otherExpected (if given), using a non disjoint search.

fun <E, T : Iterable<E>> Assert<T>.enthaelt(expected: E, vararg otherExpected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject contains the expected value and the otherExpected values (if given).

fun <E : Any, T : Iterable<E?>> Assert<T>.enthaelt(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject contains an entry holding the assertions created by assertionCreatorOrNull or an entry which is null in case assertionCreatorOrNull is defined as null.

fun <E : Any, T : Iterable<E?>> Assert<T>.enthaelt(assertionCreatorOrNull: (Assert<E>.() -> Unit)?, vararg otherAssertionCreatorsOrNulls: (Assert<E>.() -> Unit)?): AssertionPlant<T>

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

fun <K, V, T : Map<out K, V>> Assert<T>.enthaelt(entry: Pair<K, V>, vararg otherEntries: Pair<K, V>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a key as defined by entry's Pair.first with a corresponding value as defined by entry's Pair.second -- optionally the same assertions are created for the otherEntries.

fun <K, V : Any, T : Map<out K, V?>> Assert<T>.enthaelt(keyValue: KeyValue<K, V>, vararg otherKeyValues: KeyValue<K, V>): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a key as defined by keyValue's KeyValue.key with a corresponding value which either holds all assertions keyValue's KeyValue.valueAssertionCreatorOrNull might create or needs to be null in case KeyValue.valueAssertionCreatorOrNull is defined as null -- optionally the same assertions are created for the otherKeyValues.

enthaeltExakt

fun <E, T : Iterable<E>> Assert<T>.enthaeltExakt(expected: E, vararg otherExpected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only the expected value and the otherExpected values (if given) in the defined order.

fun <E : Any, T : Iterable<E?>> Assert<T>.enthaeltExakt(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only an entry holding the assertions created by assertionCreatorOrNull or only one entry which is null in case assertionCreatorOrNull is defined as null.

fun <E : Any, T : Iterable<E?>> Assert<T>.enthaeltExakt(assertionCreatorOrNull: (Assert<E>.() -> Unit)?, vararg otherAssertionCreatorsOrNulls: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject contains only an entry holding the assertions created by assertionCreatorOrNull or null in case assertionCreatorOrNull is defined as null and likewise an additional entry for each otherAssertionCreatorsOrNulls (if given) whereas the entries have to appear in the defined order.

enthaeltKey

fun <K> Assert<Map<out K, *>>.enthaeltKey(key: K): AssertionPlant<Map<out K, *>>

Makes the assertion that the Assert.subject contains the given key.

enthaeltNicht

fun <T : CharSequence> Assert<T>.enthaeltNicht(expected: Any, vararg otherExpected: Any): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain expected's toString representation and neither one of the otherExpected's toString representation (if given).

fun <E, T : Iterable<E>> Assert<T>.enthaeltNicht(expected: E, vararg otherExpected: E): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain the expected value and neither one of the otherExpected values (if given).

enthaeltNichtDieStandardUebersetzungVon

fun <T : CharSequence> Assert<T>.enthaeltNichtDieStandardUebersetzungVon(expected: Translatable, vararg otherExpected: Translatable): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain expected's getDefault representation and neither one of the otherExpected's getDefault representation (if given).

enthaeltNichtKey

fun <K> Assert<Map<out K, *>>.enthaeltNichtKey(key: K): AssertionPlant<Map<out K, *>>

Makes the assertion that the Assert.subject does not contain the given key.

enthaeltNullableEintraege

fun <E : Any, T : Iterable<E?>> Assert<T>.enthaeltNullableEintraege(assertionCreatorOrNull: (Assert<E>.() -> Unit)?, vararg otherAssertionCreatorsOrNulls: (Assert<E>.() -> Unit)?): AssertionPlant<T>

enthaeltNullableEintrag

fun <E : Any, T : Iterable<E?>> Assert<T>.enthaeltNullableEintrag(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

enthaeltNullableWert

fun <E, T : Iterable<E>> Assert<T>.enthaeltNullableWert(expectedOrNull: E): AssertionPlant<T>

enthaeltNullableWerte

fun <E, T : Iterable<E>> Assert<T>.enthaeltNullableWerte(expectedOrNull: E, vararg otherExpectedOrNulls: E): AssertionPlant<T>

enthaeltRegex

fun <T : CharSequence> Assert<T>.enthaeltRegex(pattern: String, vararg otherPatterns: String): AssertionPlant<T>

Makes the assertion that the Assert.subject contains a sequence which matches the given regular expression pattern as well as the otherPatterns (if given), using a non disjoint search.

enthaeltStandardUebersetzungVon

fun <T : CharSequence> Assert<T>.enthaeltStandardUebersetzungVon(expected: Translatable, vararg otherExpected: Translatable): AssertionPlant<T>

Makes the assertion that the Assert.subject contains expected's getDefault representation and the getDefault representations of the otherExpected (if given), using a non disjoint search.

enthaeltStrikt

fun <E : Any, T : Iterable<E?>> Assert<T>.enthaeltStrikt(assertionCreator: (Assert<E>.() -> Unit)?, vararg otherAssertionCreators: (Assert<E>.() -> Unit)?): AssertionPlant<T>
fun <E : Any, T : Iterable<E>> Assert<T>.enthaeltStrikt(expected: E, vararg otherExpected: E): AssertionPlant<T>

enthaeltStriktNullableEintraege

fun <E : Any, T : Iterable<E?>> Assert<T>.enthaeltStriktNullableEintraege(assertionCreatorOrNull: (Assert<E>.() -> Unit)?, vararg otherAssertionCreatorsOrNulls: (Assert<E>.() -> Unit)?): AssertionPlant<T>

enthaeltStriktNullableEintrag

fun <E : Any, T : Iterable<E?>> Assert<T>.enthaeltStriktNullableEintrag(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

enthaeltStriktNullableWert

fun <E, T : Iterable<E>> Assert<T>.enthaeltStriktNullableWert(expectedOrNull: E): AssertionPlant<T>

enthaeltStriktNullableWerte

fun <E, T : Iterable<E>> Assert<T>.enthaeltStriktNullableWerte(expectedOrNull: E, vararg otherExpectedOrNulls: E): AssertionPlant<T>

expect

fun <T : Any, R : Any> Assert<T>.expect(newSubject: R): Assert<R>

first

fun <K : Any, V> Assert<Pair<K, V>>.first(assertionCreator: Assert<K>.() -> Unit): AssertionPlant<Pair<K, V>>

Makes the assertion that the Assert.subject's property first holds all assertions the given assertionCreator might create for it.

first

fun <K : Any, V> Assert<Pair<K, V>>.first(assertionCreator: Assert<K>.() -> Unit): AssertionPlant<Pair<K, V>>

Makes the assertion that the Assert.subject's property first holds all assertions the given assertionCreator might create for it.

first

infix fun <K : Any, V> Assert<Pair<K, V>>.first(assertionCreator: Assert<K>.() -> Unit): AssertionPlant<Pair<K, V>>

Makes the assertion that the Assert.subject's property first holds all assertions the given assertionCreator might create for it.

get

fun <E : Any, T : List<E>> Assert<T>.get(index: Int): Assert<E>

Makes the assertion that the given index is within the bounds of Assert.subject, creates a feature assertion plant for the corresponding element and returns the newly created plant.

fun <E : Any, T : List<E>> Assert<T>.get(index: Int, assertionCreator: Assert<E>.() -> Unit): AssertionPlant<T>

Makes the assertion that the given index is within the bounds of Assert.subject and that the corresponding element holds all assertions the given assertionCreator might create for it.

get

fun <E : Any, T : List<E>> Assert<T>.get(index: Int): Assert<E>

Makes the assertion that the given index is within the bounds of Assert.subject, creates a feature assertion plant for the corresponding element and returns the newly created plant.

fun <E : Any, T : List<E>> Assert<T>.get(index: Int, assertionCreator: Assert<E>.() -> Unit): AssertionPlant<T>

Makes the assertion that the given index is within the bounds of Assert.subject and that the corresponding element holds all assertions the given assertionCreator might create for it.

get

infix fun <E : Any, T : List<E>> Assert<T>.get(index: Int): AssertionPlant<E>

Makes the assertion that the given index is within the bounds of Assert.subject, creates a feature assertion plant for the corresponding element and returns the newly created plant.

infix fun <E : Any, T : List<E>> Assert<T>.get(index: Index): ListGetOption<E, T>

Prepares the assertion about the return value of calling get with the given index.

getExistierend

fun <K, V : Any, T : Map<out K, V>> Assert<T>.getExistierend(key: K): Assert<V>

Makes the assertion that the Assert.subject contains the given key, creates a feature assertion plant for corresponding value and returns the newly created plant.

fun <K, V : Any, T : Map<out K, V>> Assert<T>.getExistierend(key: K, assertionCreator: Assert<V>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject contains the given key and that the corresponding value holds all assertions the given assertionCreator might create for it.

getExisting

fun <K, V : Any, T : Map<out K, V>> Assert<T>.getExisting(key: K): Assert<V>

Makes the assertion that the Assert.subject contains the given key, creates a feature assertion plant for the corresponding value and returns the newly created plant.

fun <K, V : Any, T : Map<out K, V>> Assert<T>.getExisting(key: K, assertionCreator: Assert<V>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject contains the given key and that the corresponding value holds all assertions the given assertionCreator might create for it.

getExisting

infix fun <K, V : Any, T : Map<out K, V>> Assert<T>.getExisting(key: K): Assert<V>

Makes the assertion that the Assert.subject contains the given key, creates a feature assertion plant for the corresponding value and returns the newly created plant.

infix fun <K, V : Any, T : Map<out K, V>> Assert<T>.getExisting(key: Key<K>): MapGetOption<K, V, T>

Prepares the assertion about the return value of calling get with the given key.

hasSize

fun <T : Collection<*>> Assert<T>.hasSize(size: Int): AssertionPlant<T>

Makes the assertion that the Assert.subject's Collection.size is size.

hasSize

infix fun <T : Collection<*>> Assert<T>.hasSize(size: Int): AssertionPlant<T>

Makes the assertion that the Assert.subject's Collection.size is size.

hasSize

fun <T : Collection<*>> Assert<T>.hasSize(size: Int): AssertionPlant<T>

Makes the assertion that the Assert.subject's Collection.size is size.

hasSize

infix fun <T : Collection<*>> Assert<T>.hasSize(size: Int): AssertionPlant<T>

Makes the assertion that the Assert.subject's Collection.size is size.

hatDieGroesse

fun <T : Collection<*>> Assert<T>.hatDieGroesse(size: Int): AssertionPlant<T>

Makes the assertion that the Assert.subject's Collection.size is size.

irgendEiner

fun <E : Any, T : Iterable<E?>> Assert<T>.irgendEiner(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject contains an entry holding the assertions created by assertionCreatorOrNull or an entry which is null in case assertionCreatorOrNull is defined as null.

irgendEinNullable

fun <E : Any, T : Iterable<E?>> Assert<T>.irgendEinNullable(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

isA

fun <TSub : Any> Assert<Any>.isA(assertionCreator: AssertionPlant<TSub>.() -> Unit): Unit

Makes the assertion that the Assert.subject is a TSub (the same type or a sub-type) and if so, uses assertionCreator which could create further assertions which are added as a group.

isA

infix fun <TSub : Any> Assert<Any>.isA(assertionCreator: AssertionPlant<TSub>.() -> Unit): Unit

Makes the assertion that the Assert.subject is a TSub (the same type or a sub-type) and if so, uses assertionCreator which could create further assertions which are added as a group.

isA

fun <TSub : Any> Assert<Any>.isA(assertionCreator: AssertionPlant<TSub>.() -> Unit): Unit

Makes the assertion that the Assert.subject is a TSub (the same type or a sub-type) and if so, uses assertionCreator which could create further assertions which are added as a group.

isA

infix fun <TSub : Any> Assert<Any>.isA(assertionCreator: AssertionPlant<TSub>.() -> Unit): Unit

Makes the assertion that the Assert.subject is a TSub (the same type or a sub-type) and if so, uses assertionCreator which could create further assertions which are added as a group.

isEmpty

fun <T : CharSequence> Assert<T>.isEmpty(): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isEmpty.

isEmpty

fun <T : CharSequence> Assert<T>.isEmpty(): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isEmpty.

isEqualIncludingScale

fun <T : BigDecimal> Assert<T>.isEqualIncludingScale(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is equal to expected including BigDecimal.scale.

isEqualIncludingScale

infix fun <T : BigDecimal> Assert<T>.isEqualIncludingScale(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is (equal to) expected including BigDecimal.scale.

isEqualIncludingScale

fun <T : BigDecimal> Assert<T>.isEqualIncludingScale(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is equal to expected including BigDecimal.scale.

isEqualIncludingScale

infix fun <T : BigDecimal> Assert<T>.isEqualIncludingScale(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is (equal to) expected including BigDecimal.scale.

isFalse

fun Assert<Boolean>.isFalse(): AssertionPlant<Boolean>

Makes the assertion that the Assert.subject is false.

isGreaterOrEquals

fun <T : Comparable<T>> Assert<T>.isGreaterOrEquals(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is greater than or equals expected.

isGreaterOrEquals

infix fun <T : Comparable<T>> Assert<T>.isGreaterOrEquals(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is greater than or equals expected.

isGreaterOrEquals

fun <T : Comparable<T>> Assert<T>.isGreaterOrEquals(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is greater than or equals expected.

isGreaterOrEquals

infix fun <T : Comparable<T>> Assert<T>.isGreaterOrEquals(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is greater than or equals expected.

isGreaterThan

fun <T : Comparable<T>> Assert<T>.isGreaterThan(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is greater than expected.

isGreaterThan

infix fun <T : Comparable<T>> Assert<T>.isGreaterThan(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is greater than expected.

isGreaterThan

fun <T : Comparable<T>> Assert<T>.isGreaterThan(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is greater than expected.

isGreaterThan

infix fun <T : Comparable<T>> Assert<T>.isGreaterThan(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is greater than expected.

isKeyValue

fun <K : Any, V : Any> Assert<Entry<K, V>>.isKeyValue(key: K, value: V): Assert<Entry<K, V>>

Makes the assertion that the Assert.subject's Map.Entry.key is (equal to) the given key and Map.Entry.value is value.

isKeyValue

infix fun <K : Any, V : Any> Assert<Entry<K, V>>.isKeyValue(keyValuePair: Pair<K, V>): Assert<Entry<K, V>>

Makes the assertion that the Assert.subject's Map.Entry.key is (equal to) the given Pair.first and Map.Entry.value is Pair.second.

isLessOrEquals

fun <T : Comparable<T>> Assert<T>.isLessOrEquals(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is less than or equals expected.

isLessOrEquals

infix fun <T : Comparable<T>> Assert<T>.isLessOrEquals(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is less than or equals expected.

isLessOrEquals

fun <T : Comparable<T>> Assert<T>.isLessOrEquals(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is less than or equals expected.

isLessOrEquals

infix fun <T : Comparable<T>> Assert<T>.isLessOrEquals(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is less than or equals expected.

isLessThan

fun <T : Comparable<T>> Assert<T>.isLessThan(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is less than expected.

isLessThan

infix fun <T : Comparable<T>> Assert<T>.isLessThan(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is less than expected.

isLessThan

fun <T : Comparable<T>> Assert<T>.isLessThan(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is less than expected.

isLessThan

infix fun <T : Comparable<T>> Assert<T>.isLessThan(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is less than expected.

isNotBlank

fun <T : CharSequence> Assert<T>.isNotBlank(): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isNotBlank.

isNotEmpty

fun <T : CharSequence> Assert<T>.isNotEmpty(): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isNotEmpty.

isNotEmpty

fun <T : CharSequence> Assert<T>.isNotEmpty(): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isNotEmpty.

isNotEqualIncludingScale

fun <T : BigDecimal> Assert<T>.isNotEqualIncludingScale(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not equal to expected including BigDecimal.scale.

isNotEqualIncludingScale

infix fun <T : BigDecimal> Assert<T>.isNotEqualIncludingScale(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not equal to expected including BigDecimal.scale.

isNotEqualIncludingScale

fun <T : BigDecimal> Assert<T>.isNotEqualIncludingScale(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not equal to expected including BigDecimal.scale.

isNotEqualIncludingScale

infix fun <T : BigDecimal> Assert<T>.isNotEqualIncludingScale(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not equal to expected including BigDecimal.scale.

isNotNumericallyEqualTo

fun <T : BigDecimal> Assert<T>.isNotNumericallyEqualTo(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not numerically equal to expected.

isNotNumericallyEqualTo

infix fun <T : BigDecimal> Assert<T>.isNotNumericallyEqualTo(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not numerically equal to expected.

isNotNumericallyEqualTo

fun <T : BigDecimal> Assert<T>.isNotNumericallyEqualTo(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not numerically equal to expected.

isNotNumericallyEqualTo

infix fun <T : BigDecimal> Assert<T>.isNotNumericallyEqualTo(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not numerically equal to expected.

isNotSame

fun <T : Any> Assert<T>.isNotSame(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not the same instance as expected.

isNotSame

infix fun <T : Any> Assert<T>.isNotSame(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not the same instance as expected.

isNotSameAs

fun <T : Any> Assert<T>.isNotSameAs(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not the same instance as expected.

isNotSameAs

infix fun <T : Any> Assert<T>.isNotSameAs(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not the same instance as expected.

isNumericallyEqualTo

fun <T : BigDecimal> Assert<T>.isNumericallyEqualTo(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is numerically equal to expected.

isNumericallyEqualTo

infix fun <T : BigDecimal> Assert<T>.isNumericallyEqualTo(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is numerically equal to expected.

isNumericallyEqualTo

fun <T : BigDecimal> Assert<T>.isNumericallyEqualTo(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is numerically equal to expected.

isNumericallyEqualTo

infix fun <T : BigDecimal> Assert<T>.isNumericallyEqualTo(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is numerically equal to expected.

isSame

fun <T : Any> Assert<T>.isSame(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is the same instance as expected.

isSame

infix fun <T : Any> Assert<T>.isSame(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is the same instance as expected.

isSameAs

fun <T : Any> Assert<T>.isSameAs(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is the same instance as expected.

isSameAs

infix fun <T : Any> Assert<T>.isSameAs(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is the same instance as expected.

ist

fun <T : Any> Assert<T>.ist(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is (equal to) expected.

istEin

fun <TSub : Any> Assert<Any>.istEin(assertionCreator: AssertionPlant<TSub>.() -> Unit): Unit

Makes the assertion that the Assert.subject is a TSub (the same type or a sub-type) and if so, uses assertionCreator which could create further assertions which are added as a group.

istFalse

fun Assert<Boolean>.istFalse(): AssertionPlant<Boolean>

Makes the assertion that the Assert.subject is false.

istGleichInklusiveScale

fun <T : BigDecimal> Assert<T>.istGleichInklusiveScale(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is equal to expected including BigDecimal.scale.

istGroesserAls

fun <T : Comparable<T>> Assert<T>.istGroesserAls(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is greater than expected.

istGroesserOderGleich

fun <T : Comparable<T>> Assert<T>.istGroesserOderGleich(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is greater than or equals expected.

istKeyValue

fun <K : Any, V : Any> Assert<Entry<K, V>>.istKeyValue(key: K, value: V): Assert<Entry<K, V>>

Makes the assertion that the Assert.subject's Map.Entry.key is (equal to) the given key and Map.Entry.value is value.

istKleinerAls

fun <T : Comparable<T>> Assert<T>.istKleinerAls(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is less than expected.

istKleinerOderGleich

fun <T : Comparable<T>> Assert<T>.istKleinerOderGleich(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is less than or equals expected.

istLeer

fun <T : CharSequence> Assert<T>.istLeer(): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isEmpty.

istMitFehlerToleranz

fun Assert<Float>.istMitFehlerToleranz(expected: Float, tolerance: Float): AssertionPlant<Float>
fun Assert<Double>.istMitFehlerToleranz(expected: Double, tolerance: Double): AssertionPlant<Double>
fun <T : BigDecimal> Assert<T>.istMitFehlerToleranz(expected: T, tolerance: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is equal to expected with an error tolerance (range including bounds).

istNicht

fun <T : Any> Assert<T>.istNicht(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not (equal to) expected.

istNichtBlank

fun <T : CharSequence> Assert<T>.istNichtBlank(): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isNotBlank.

istNichtGleichInklusiveScale

fun <T : BigDecimal> Assert<T>.istNichtGleichInklusiveScale(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not equal to expected including BigDecimal.scale.

istNichtLeer

fun <T : CharSequence> Assert<T>.istNichtLeer(): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isNotEmpty.

istNichtNumerischGleichWie

fun <T : BigDecimal> Assert<T>.istNichtNumerischGleichWie(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not numerically equal to expected.

istNichtSelbeInstanzWie

fun <T : Any> Assert<T>.istNichtSelbeInstanzWie(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not the same instance as expected.

istNumerischGleichWie

fun <T : BigDecimal> Assert<T>.istNumerischGleichWie(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is numerically equal to expected.

isTrue

fun Assert<Boolean>.isTrue(): AssertionPlant<Boolean>

Makes the assertion that the Assert.subject is true.

istSelbeInstanzWie

fun <T : Any> Assert<T>.istSelbeInstanzWie(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is the same instance as expected.

istTrue

fun Assert<Boolean>.istTrue(): AssertionPlant<Boolean>

Makes the assertion that the Assert.subject is true.

keiner

fun <E : Any, T : Iterable<E?>> Assert<T>.keiner(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain a single entry which holds all assertions created by assertionCreatorOrNull or does not contain a single entry which is null in case assertionCreatorOrNull is defined as null.

keinerDerNullable

fun <E : Any, T : Iterable<E?>> Assert<T>.keinerDerNullable(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

key

fun <K : Any, V> Assert<Entry<K, V>>.key(assertionCreator: Assert<K>.() -> Unit): AssertionPlant<Entry<K, V>>

Makes the assertion that the Assert.subject's property key holds all assertions the given assertionCreator might create for it.

key

fun <K : Any, V> Assert<Entry<K, V>>.key(assertionCreator: Assert<K>.() -> Unit): AssertionPlant<Entry<K, V>>

Makes the assertion that the Assert.subject's property key holds all assertions the given assertionCreator might create for it.

key

infix fun <K : Any, V> Assert<Entry<K, V>>.key(assertionCreator: Assert<K>.() -> Unit): AssertionPlant<Entry<K, V>>

Makes the assertion that the Assert.subject's property key holds all assertions the given assertionCreator might create for it.

keys

fun <K, V, T : Map<out K, V>> Assert<T>.keys(assertionCreator: Assert<Set<K>>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject's property keys holds all assertions the given assertionCreator might create for it.

keys

fun <K, V, T : Map<K, V>> Assert<T>.keys(assertionCreator: Assert<Set<K>>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject's property keys holds all assertions the given assertionCreator might create for it.

keys

infix fun <K, V, T : Map<out K, V>> Assert<T>.keys(assertionCreator: Assert<Set<K>>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject's property keys holds all assertions the given assertionCreator might create.

message

fun <T : Throwable> Assert<T>.message(assertionCreator: Assert<String>.() -> Unit): Unit

Creates an AssertionPlantNullable for the message of the plant's subject (which is a Throwable) and makes the assertion that message isNotNull and uses assertionCreator which might create further Assertions which are lazily evaluated at the end.

message

infix fun <T : Throwable> Assert<T>.message(assertionCreator: Assert<String>.() -> Unit): Unit

Creates an AssertionPlantNullable for the message of the plant's subject (which is a Throwable) and makes the assertion that the message ought notToBeNull and uses assertionCreator which might create further Assertions which are lazily evaluated at the end.

message

fun <T : Throwable> Assert<T>.message(assertionCreator: Assert<String>.() -> Unit): Unit

Creates an AssertionPlantNullable for the message of the plant's subject (which is a Throwable) and makes the assertion that message istNichtNull and uses assertionCreator which might create further Assertions which are lazily evaluated at the end.

message

fun <T : Throwable> Assert<T>.message(assertionCreator: Assert<String>.() -> Unit): Unit

Creates an AssertionPlantNullable for the message of the plant's subject (which is a Throwable) and makes the assertion that message notToBeNull and uses assertionCreator which might create further Assertions which are lazily evaluated at the end.

message

infix fun <T : Throwable> Assert<T>.message(assertionCreator: Assert<String>.() -> Unit): Unit

Creates an AssertionPlantNullable for the message of the plant's subject (which is a Throwable) and makes the assertion that the message ought notToBeNull and uses assertionCreator which might create further Assertions which are lazily evaluated at the end.

messageContains

fun <T : Throwable> Assert<T>.messageContains(expected: Any, vararg otherExpected: Any): Unit

Creates the assertion that the Throwable's message is not null (see message) contains expected's toString representation and the toString representation of the otherExpected (if given), using a non disjoint search.

messageContains

infix fun <T : Throwable> Assert<T>.messageContains(expected: Any): Unit

Creates the assertion that the Throwable's message is not null (see message) and contains the toString representation of the given expected using a non disjoint search.

infix fun <T : Throwable> Assert<T>.messageContains(values: Values<Any>): Unit

Creates the assertion that the Throwable's message is not null (see message) and contains the toString representation of the given values using a non disjoint search.

messageEnthaelt

fun <T : Throwable> Assert<T>.messageEnthaelt(expected: Any, vararg otherExpected: Any): Unit

Creates the assertion that the Throwable's message is not null (see message) contains expected's toString representation and the toString representation of the otherExpected (if given), using a non disjoint search.

none

fun <E : Any, T : Iterable<E?>> Assert<T>.none(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain a single entry which holds all assertions created by assertionCreatorOrNull or does not contain a single entry which is null in case assertionCreatorOrNull is defined as null.

none

infix fun <E : Any, T : Iterable<E?>> Assert<T>.none(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

Makes the assertion that the Assert.subject does not contain a single entry which holds all assertions created by assertionCreatorOrNull or does not contain a single entry which is null in case assertionCreatorOrNull is defined as null.

infix fun <E : Any, T : Iterable<E?>> Assert<T>.none(nullableEntry: NullableEntry<E>): AssertionPlant<T>

noneOfNullable

fun <E : Any, T : Iterable<E?>> Assert<T>.noneOfNullable(assertionCreatorOrNull: (Assert<E>.() -> Unit)?): AssertionPlant<T>

notTo

infix fun <T : CharSequence> Assert<T>.notTo(contain: contain): NotCheckerOption<T, NotSearchBehaviour>

Creates a CharSequenceContains.Builder based on this AssertionPlant which allows to define more sophisticated contains not assertions.

notTo

infix fun <T : CharSequence> Assert<T>.notTo(contain: contain): NotCheckerOption<T, NotSearchBehaviour>

Creates a CharSequenceContains.Builder based on this AssertionPlant which allows to define more sophisticated contains not assertions.

notToBe

fun <T : Any> Assert<T>.notToBe(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not (equal to) expected.

notToBe

infix fun <T : Any> Assert<T>.notToBe(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not (equal to) expected.

infix fun <T : CharSequence> Assert<T>.notToBe(onlyEmptyAllowed: Empty): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isNotEmpty.

notToBe

fun <T : Any> Assert<T>.notToBe(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not (equal to) expected.

notToBe

infix fun <T : Any> Assert<T>.notToBe(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is not (equal to) expected.

infix fun <T : Any> Assert<T>.notToBe(keyword: Keyword): Nothinginfix fun <T : CharSequence> Assert<T>.notToBe(Empty: Empty): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isNotEmpty.

infix fun <T : CharSequence> Assert<T>.notToBe(Blank: Blank): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isNotBlank.

property

fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty0<TProperty>): AssertionPlant<TProperty>

Creates an AssertionPlant for the given property which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the given property, to the current plant.

fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty0<TProperty>, assertionCreator: AssertionPlant<TProperty>.() -> Unit): AssertionPlant<TProperty>

Creates an AssertionPlant for the given property which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the given property, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

property

fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty0<TProperty>): AssertionPlant<TProperty>

Creates an AssertionPlant for the given property which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the given property, to the current plant.

fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty0<TProperty>, assertionCreator: AssertionPlant<TProperty>.() -> Unit): AssertionPlant<TProperty>

Creates an AssertionPlant for the given property which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the given property, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

property

fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty0<TProperty>): AssertionPlant<TProperty>
fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty1<T, TProperty>): AssertionPlant<TProperty>

Creates an AssertionPlant for the given property which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the given property, to the current plant.

fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty0<TProperty>, assertionCreator: Assert<TProperty>.() -> Unit): AssertionPlant<TProperty>
fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty1<T, TProperty>, assertionCreator: Assert<TProperty>.() -> Unit): AssertionPlant<TProperty>

Creates an AssertionPlant for the given property which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the given property, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

property

fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty0<TProperty>): AssertionPlant<TProperty>
fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty1<T, TProperty>): AssertionPlant<TProperty>

Creates an AssertionPlant for the given property which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the given property, to the current plant.

fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty0<TProperty>, assertionCreator: Assert<TProperty>.() -> Unit): AssertionPlant<TProperty>
fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty1<T, TProperty>, assertionCreator: Assert<TProperty>.() -> Unit): AssertionPlant<TProperty>

Creates an AssertionPlant for the given property which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the given property, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

property

fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty0<TProperty>): AssertionPlant<TProperty>
fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty1<T, TProperty>): AssertionPlant<TProperty>

Creates an AssertionPlant for the given property which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the given property, to the current plant.

fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty0<TProperty>, assertionCreator: Assert<TProperty>.() -> Unit): AssertionPlant<TProperty>
fun <T : Any, TProperty : Any> Assert<T>.property(property: KProperty1<T, TProperty>, assertionCreator: Assert<TProperty>.() -> Unit): AssertionPlant<TProperty>

Creates an AssertionPlant for the given property which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the given property, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

returnValueOf

fun <T : Any, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction0<TReturnValue>): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction0<TReturnValue>, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction1<T1, TReturnValue>, arg1: T1): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction1<T1, TReturnValue>, arg1: T1, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction2<T1, T2, TReturnValue>, arg1: T1, arg2: T2): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1 and arg2, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction2<T1, T2, TReturnValue>, arg1: T1, arg2: T2, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1 and arg2, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction3<T1, T2, T3, TReturnValue>, arg1: T1, arg2: T2, arg3: T3): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2 and arg3, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction3<T1, T2, T3, TReturnValue>, arg1: T1, arg2: T2, arg3: T3, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2 and arg3, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, T4, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction4<T1, T2, T3, T4, TReturnValue>, arg1: T1, arg2: T2, arg3: T3, arg4: T4): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3 and arg4, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, T4, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction4<T1, T2, T3, T4, TReturnValue>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3 and arg4, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, T4, T5, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction5<T1, T2, T3, T4, T5, TReturnValue>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3, arg4 and arg5, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, T4, T5, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction5<T1, T2, T3, T4, T5, TReturnValue>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3, arg4 and arg5, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

returnValueOf

fun <T : Any, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction0<TReturnValue>): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction0<TReturnValue>, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction1<T1, TReturnValue>, arg1: T1): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction1<T1, TReturnValue>, arg1: T1, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction2<T1, T2, TReturnValue>, arg1: T1, arg2: T2): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1 and arg2, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction2<T1, T2, TReturnValue>, arg1: T1, arg2: T2, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1 and arg2, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction3<T1, T2, T3, TReturnValue>, arg1: T1, arg2: T2, arg3: T3): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2 and arg3, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction3<T1, T2, T3, TReturnValue>, arg1: T1, arg2: T2, arg3: T3, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2 and arg3, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, T4, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction4<T1, T2, T3, T4, TReturnValue>, arg1: T1, arg2: T2, arg3: T3, arg4: T4): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3 and arg4, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, T4, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction4<T1, T2, T3, T4, TReturnValue>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3 and arg4, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, T4, T5, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction5<T1, T2, T3, T4, T5, TReturnValue>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3, arg4 and arg5, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, T4, T5, TReturnValue : Any> Assert<T>.returnValueOf(method: KFunction5<T1, T2, T3, T4, T5, TReturnValue>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5, assertionCreator: AssertionPlant<TReturnValue>.() -> Unit): AssertionPlant<TReturnValue>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3, arg4 and arg5, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

returnValueOf

fun <T : Any, R : Any> Assert<T>.returnValueOf(method: KFunction0<R>): AssertionPlant<R>
fun <T : Any, R : Any> Assert<T>.returnValueOf(method: KFunction1<T, R>): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, R : Any> Assert<T>.returnValueOf(method: KFunction0<R>, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, R : Any> Assert<T>.returnValueOf(method: KFunction1<T, R>, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, R : Any> Assert<T>.returnValueOf(method: KFunction1<T1, R>, arg1: T1): AssertionPlant<R>
fun <T : Any, T1, R : Any> Assert<T>.returnValueOf(method: KFunction2<T, T1, R>, arg1: T1): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, R : Any> Assert<T>.returnValueOf(method: KFunction1<T1, R>, arg1: T1, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, R : Any> Assert<T>.returnValueOf(method: KFunction2<T, T1, R>, arg1: T1, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, R : Any> Assert<T>.returnValueOf(method: KFunction2<T1, T2, R>, arg1: T1, arg2: T2): AssertionPlant<R>
fun <T : Any, T1, T2, R : Any> Assert<T>.returnValueOf(method: KFunction3<T, T1, T2, R>, arg1: T1, arg2: T2): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1 and arg2, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, R : Any> Assert<T>.returnValueOf(method: KFunction2<T1, T2, R>, arg1: T1, arg2: T2, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, R : Any> Assert<T>.returnValueOf(method: KFunction3<T, T1, T2, R>, arg1: T1, arg2: T2, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1 and arg2, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, R : Any> Assert<T>.returnValueOf(method: KFunction3<T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3): AssertionPlant<R>
fun <T : Any, T1, T2, T3, R : Any> Assert<T>.returnValueOf(method: KFunction4<T, T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2 and arg3, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, R : Any> Assert<T>.returnValueOf(method: KFunction3<T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, T3, R : Any> Assert<T>.returnValueOf(method: KFunction4<T, T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2 and arg3, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.returnValueOf(method: KFunction4<T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.returnValueOf(method: KFunction5<T, T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3 and arg4, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.returnValueOf(method: KFunction4<T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.returnValueOf(method: KFunction5<T, T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3 and arg4, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.returnValueOf(method: KFunction5<T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.returnValueOf(method: KFunction6<T, T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3, arg4 and arg5, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.returnValueOf(method: KFunction5<T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.returnValueOf(method: KFunction6<T, T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3, arg4 and arg5, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

returnValueOf

fun <T : Any, R : Any> Assert<T>.returnValueOf(method: KFunction0<R>): AssertionPlant<R>
fun <T : Any, R : Any> Assert<T>.returnValueOf(method: KFunction1<T, R>): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, R : Any> Assert<T>.returnValueOf(method: KFunction0<R>, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, R : Any> Assert<T>.returnValueOf(method: KFunction1<T, R>, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, R : Any> Assert<T>.returnValueOf(method: KFunction1<T1, R>, arg1: T1): AssertionPlant<R>
fun <T : Any, T1, R : Any> Assert<T>.returnValueOf(method: KFunction2<T, T1, R>, arg1: T1): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, R : Any> Assert<T>.returnValueOf(method: KFunction1<T1, R>, arg1: T1, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, R : Any> Assert<T>.returnValueOf(method: KFunction2<T, T1, R>, arg1: T1, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, R : Any> Assert<T>.returnValueOf(method: KFunction2<T1, T2, R>, arg1: T1, arg2: T2): AssertionPlant<R>
fun <T : Any, T1, T2, R : Any> Assert<T>.returnValueOf(method: KFunction3<T, T1, T2, R>, arg1: T1, arg2: T2): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1 and arg2, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, R : Any> Assert<T>.returnValueOf(method: KFunction2<T1, T2, R>, arg1: T1, arg2: T2, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, R : Any> Assert<T>.returnValueOf(method: KFunction3<T, T1, T2, R>, arg1: T1, arg2: T2, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1 and arg2, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, R : Any> Assert<T>.returnValueOf(method: KFunction3<T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3): AssertionPlant<R>
fun <T : Any, T1, T2, T3, R : Any> Assert<T>.returnValueOf(method: KFunction4<T, T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2 and arg3, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, R : Any> Assert<T>.returnValueOf(method: KFunction3<T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, T3, R : Any> Assert<T>.returnValueOf(method: KFunction4<T, T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2 and arg3, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.returnValueOf(method: KFunction4<T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.returnValueOf(method: KFunction5<T, T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3 and arg4, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.returnValueOf(method: KFunction4<T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.returnValueOf(method: KFunction5<T, T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3 and arg4, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.returnValueOf(method: KFunction5<T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.returnValueOf(method: KFunction6<T, T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3, arg4 and arg5, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.returnValueOf(method: KFunction5<T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.returnValueOf(method: KFunction6<T, T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3, arg4 and arg5, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

rueckgabewertVon

fun <T : Any, R : Any> Assert<T>.rueckgabewertVon(method: KFunction0<R>): AssertionPlant<R>
fun <T : Any, R : Any> Assert<T>.rueckgabewertVon(method: KFunction1<T, R>): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, R : Any> Assert<T>.rueckgabewertVon(method: KFunction0<R>, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, R : Any> Assert<T>.rueckgabewertVon(method: KFunction1<T, R>, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, R : Any> Assert<T>.rueckgabewertVon(method: KFunction1<T1, R>, arg1: T1): AssertionPlant<R>
fun <T : Any, T1, R : Any> Assert<T>.rueckgabewertVon(method: KFunction2<T, T1, R>, arg1: T1): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, R : Any> Assert<T>.rueckgabewertVon(method: KFunction1<T1, R>, arg1: T1, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, R : Any> Assert<T>.rueckgabewertVon(method: KFunction2<T, T1, R>, arg1: T1, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, R : Any> Assert<T>.rueckgabewertVon(method: KFunction2<T1, T2, R>, arg1: T1, arg2: T2): AssertionPlant<R>
fun <T : Any, T1, T2, R : Any> Assert<T>.rueckgabewertVon(method: KFunction3<T, T1, T2, R>, arg1: T1, arg2: T2): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1 and arg2, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, R : Any> Assert<T>.rueckgabewertVon(method: KFunction2<T1, T2, R>, arg1: T1, arg2: T2, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, R : Any> Assert<T>.rueckgabewertVon(method: KFunction3<T, T1, T2, R>, arg1: T1, arg2: T2, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1 and arg2, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, R : Any> Assert<T>.rueckgabewertVon(method: KFunction3<T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3): AssertionPlant<R>
fun <T : Any, T1, T2, T3, R : Any> Assert<T>.rueckgabewertVon(method: KFunction4<T, T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2 and arg3, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, R : Any> Assert<T>.rueckgabewertVon(method: KFunction3<T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, T3, R : Any> Assert<T>.rueckgabewertVon(method: KFunction4<T, T1, T2, T3, R>, arg1: T1, arg2: T2, arg3: T3, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2 and arg3, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.rueckgabewertVon(method: KFunction4<T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.rueckgabewertVon(method: KFunction5<T, T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3 and arg4, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.rueckgabewertVon(method: KFunction4<T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, R : Any> Assert<T>.rueckgabewertVon(method: KFunction5<T, T1, T2, T3, T4, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3 and arg4, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.rueckgabewertVon(method: KFunction5<T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.rueckgabewertVon(method: KFunction6<T, T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3, arg4 and arg5, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant.

fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.rueckgabewertVon(method: KFunction5<T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>
fun <T : Any, T1, T2, T3, T4, T5, R : Any> Assert<T>.rueckgabewertVon(method: KFunction6<T, T1, T2, T3, T4, T5, R>, arg1: T1, arg2: T2, arg3: T3, arg4: T4, arg5: T5, assertionCreator: Assert<R>.() -> Unit): AssertionPlant<R>

Creates an AssertionPlant, for the value returned by calling method with arg1, arg2, arg3, arg4 and arg5, which eventually adds AssertionGroups with a FeatureAssertionGroupType, containing the assertions created for the return value, to the current plant -- starting with a group consisting of the Assertions created by the assertionCreator lambda.

second

fun <K, V : Any> Assert<Pair<K, V>>.second(assertionCreator: Assert<V>.() -> Unit): AssertionPlant<Pair<K, V>>

Makes the assertion that the Assert.subject's property second holds all assertions the given assertionCreator might create for it.

second

fun <K, V : Any> Assert<Pair<K, V>>.second(assertionCreator: Assert<V>.() -> Unit): AssertionPlant<Pair<K, V>>

Makes the assertion that the Assert.subject's property second holds all assertions the given assertionCreator might create for it.

second

infix fun <K, V : Any> Assert<Pair<K, V>>.second(assertionCreator: Assert<V>.() -> Unit): AssertionPlant<Pair<K, V>>

Makes the assertion that the Assert.subject's property second holds all assertions the given assertionCreator might create for it.

size

fun <E, T : Collection<E>> Assert<T>.size(assertionCreator: Assert<Int>.() -> Unit): Assert<T>

Makes the assertion that the Assert.subject's property size holds all assertions the given assertionCreator might create for it.

size

fun <E, T : Collection<E>> Assert<T>.size(assertionCreator: Assert<Int>.() -> Unit): Assert<T>

Makes the assertion that the Assert.subject's property size holds all assertions the given assertionCreator might create for it.

size

infix fun <E, T : Collection<E>> Assert<T>.size(assertionCreator: Assert<Int>.() -> Unit): Assert<T>

Makes the assertion that the Assert.subject's property size holds all assertions the given assertionCreator might create for it.

startsNotWith

fun <T : CharSequence> Assert<T>.startsNotWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject does not start with expected.

startsNotWith

infix fun <T : CharSequence> Assert<T>.startsNotWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject does not start with expected.

startsNotWith

fun <T : CharSequence> Assert<T>.startsNotWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject does not start with expected.

startsNotWith

infix fun <T : CharSequence> Assert<T>.startsNotWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject does not start with expected.

startsWith

fun <T : CharSequence> Assert<T>.startsWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject starts with expected.

startsWith

infix fun <T : CharSequence> Assert<T>.startsWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject starts with expected.

startsWith

fun <T : CharSequence> Assert<T>.startsWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject starts with expected.

startsWith

infix fun <T : CharSequence> Assert<T>.startsWith(expected: CharSequence): AssertionPlant<T>

Makes the assertion that the Assert.subject starts with expected.

to

infix fun <T : CharSequence> Assert<T>.to(contain: contain): CharSequenceContains.Builder<T, NoOpSearchBehaviour>

Creates a CharSequenceContains.Builder based on this AssertionPlant which allows to define a sophisticated contains assertions.

to

infix fun <T : CharSequence> Assert<T>.to(contain: contain): CharSequenceContains.Builder<T, NoOpSearchBehaviour>

Creates a CharSequenceContains.Builder based on this AssertionPlant which allows to define a sophisticated contains assertions.

toBe

fun <T : Any> Assert<T>.toBe(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is (equal to) expected.

toBe

infix fun <T : Any> Assert<T>.toBe(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is (equal to) expected.

infix fun <T : CharSequence> Assert<T>.toBe(Empty: Empty): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isEmpty.

toBe

fun <T : Any> Assert<T>.toBe(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is (equal to) expected.

toBe

infix fun <T : Any> Assert<T>.toBe(expected: T): AssertionPlant<T>

Makes the assertion that the Assert.subject is (equal to) expected.

infix fun <T : Any> Assert<T>.toBe(keyword: Keyword): Nothinginfix fun <T : CharSequence> Assert<T>.toBe(Empty: Empty): AssertionPlant<T>

Makes the assertion that the Assert.subject CharSequence.kotlin.text.isEmpty.

toBeWithErrorTolerance

fun Assert<Float>.toBeWithErrorTolerance(expected: Float, tolerance: Float): AssertionPlant<Float>
fun Assert<Double>.toBeWithErrorTolerance(expected: Double, tolerance: Double): AssertionPlant<Double>
fun Assert<BigDecimal>.toBeWithErrorTolerance(expected: BigDecimal, tolerance: BigDecimal): AssertionPlant<BigDecimal>

Makes the assertion that the Assert.subject is equal to expected with an error tolerance (range including bounds).

toBeWithErrorTolerance

fun Assert<Float>.toBeWithErrorTolerance(expected: Float, tolerance: Float): AssertionPlant<Float>
fun Assert<Double>.toBeWithErrorTolerance(expected: Double, tolerance: Double): AssertionPlant<Double>
fun Assert<BigDecimal>.toBeWithErrorTolerance(expected: BigDecimal, tolerance: BigDecimal): AssertionPlant<BigDecimal>

Makes the assertion that the Assert.subject is equal to expected with an error tolerance (range including bounds).

und

infix fun <T : Any> AssertionPlant<T>.und(assertionCreator: Assert<T>.() -> Unit): AssertionPlant<T>

Can be used to create a group of sub assertions when using the fluent API.

value

fun <K, V : Any> Assert<Entry<K, V>>.value(assertionCreator: Assert<V>.() -> Unit): AssertionPlant<Entry<K, V>>

Makes the assertion that the Assert.subject's property value holds all assertions the given assertionCreator might create for it.

value

fun <K, V : Any> Assert<Entry<K, V>>.value(assertionCreator: Assert<V>.() -> Unit): AssertionPlant<Entry<K, V>>

Makes the assertion that the Assert.subject's property value holds all assertions the given assertionCreator might create for it.

value

infix fun <K, V : Any> Assert<Entry<K, V>>.value(assertionCreator: Assert<V>.() -> Unit): AssertionPlant<Entry<K, V>>

Makes the assertion that the Assert.subject's property value holds all assertions the given assertionCreator might create for it.

values

fun <K, V, T : Map<out K, V>> Assert<T>.values(assertionCreator: Assert<Collection<V>>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject's property values holds all assertions the given assertionCreator might create for it.

values

fun <K, V, T : Map<K, V>> Assert<T>.values(assertionCreator: Assert<Collection<V>>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject's property values holds all assertions the given assertionCreator might create for it.

values

infix fun <K, V, T : Map<out K, V>> Assert<T>.values(assertionCreator: Assert<Collection<V>>.() -> Unit): AssertionPlant<T>

Makes the assertion that the Assert.subject's property values holds all assertions the given assertionCreator might create.

Inheritors

CheckingAssertionPlant

interface CheckingAssertionPlant<out T : Any> : AssertionPlant<T>

Represents a plant for Assertions and offers the possibility to check whether allAssertionsHold which have been added to this plant (since the last check).

CollectingAssertionPlant

interface CollectingAssertionPlant<out T : Any> : AssertionPlant<T>, BaseCollectingAssertionPlant<T, AssertionPlant<T>, CollectingAssertionPlant<T>>

Represents an AssertionPlant which is intended to serve as receiver object for lambdas which create Assertions, in which this assertion plant collects the so created assertions.

ReportingAssertionPlant

interface ReportingAssertionPlant<out T : Any> : AssertionPlant<T>, BaseReportingAssertionPlant<T, AssertionPlant<T>>

Represents a plant for Assertions and offers the possibility to addAssertions and to report them.