interface RootExpect<T> : Expect<T>
Represents the root of an Expect chain, intended as extension point for functionality which should only be available on the root.
It exposes the config in contrast to Expect.
abstract val config: RootExpectConfig
The chosen RootExpectConfig. |
abstract fun addAssertion(assertion: Assertion): Expect<T>
Adds the given assertion to this container. |
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abstract fun addAssertionsCreatedBy(assertionCreator: Expect<T>.() -> Unit): Expect<T>
Adds the assertions created by the assertionCreator lambda to this container and adds a failing assertion to this container in case the assertionCreator did not create a single assertion. |
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open fun createAndAddAssertion(description: String, expected: Any?, test: (T) -> Boolean): Expect<T> open fun createAndAddAssertion(description: Translatable, expected: Any?, test: (T) -> Boolean): Expect<T>
Creates a DescriptiveAssertion based on the given description, expected and test and adds it to the container. |
val <T> Expect<T>.and: Expect<T>
Can be used to separate single assertions. |
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val <T> Expect<T>.o: Expect<T>
Inline property referring actually to |
fun <E : Any, T : Iterable<E?>> Expect<T>.all(assertionCreatorOrNull: (Expect<E>.() -> Unit)?): Expect<T>
Expects that the subject of the assertion (an Iterable) has at least one element and
that every element holds all assertions created by the assertionCreatorOrNull or that all elements are |
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infix fun <E : Any, T : Iterable<E?>> Expect<T>.all(assertionCreatorOrNull: (Expect<E>.() -> Unit)?): Expect<T>
Expects that the subject of the assertion (an Iterable) has at least one element and
that every element holds all assertions created by the assertionCreatorOrNull or that all elements are |
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infix fun <T> Expect<T>.and(assertionCreator: Expect<T>.() -> Unit): Expect<T>
Can be used to create a group of sub assertions when using the fluent API. |
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infix fun <T> Expect<T>.and(o: o): Expect<T>
Can be used to separate single assertions. infix fun <T> Expect<T>.and(assertionCreator: Expect<T>.() -> Unit): Expect<T>
Can be used to create a group of sub assertions when using the fluent API. |
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fun <E : Any, T : Iterable<E?>> Expect<T>.any(assertionCreatorOrNull: (Expect<E>.() -> Unit)?): Expect<T>
Expects that the subject of the assertion (an Iterable) contains an entry holding
the assertions created by assertionCreatorOrNull or an entry which is |
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fun <T : Any> Expect<T>. fun <T : Any> Expect<T>.
Turns this Expect into an Assert so that you can use functions which have not yet been migrated to Expect. |
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fun <K, V, T : Map<out K, V>> Expect<T>.asEntries(assertionCreator: Expect<Set<Entry<K, V>>>.() -> Unit): Expect<T>
Turns |
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infix fun <K, V, T : Map<out K, V>> Expect<T>.asEntries(assertionCreator: Expect<Set<Entry<K, V>>>.() -> Unit): Expect<T>
Turns |
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fun <E, T : Sequence<E>> Expect<T>.asIterable(assertionCreator: Expect<Iterable<E>>.() -> Unit): Expect<T>
Expects that the subject of the assertion holds all assertions the given assertionCreator creates for the subject as Iterable. |
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infix fun <E, T : Sequence<E>> Expect<T>.asIterable(assertionCreator: Expect<Iterable<E>>.() -> Unit): Expect<T>
Expects that the subject of the assertion holds all assertions the given assertionCreator creates for the subject as Iterable. |
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fun <E> Expect<Array<E>>.asList(assertionCreator: Expect<List<E>>.() -> Unit): Expect<Array<E>> fun Expect<ByteArray>.asList(assertionCreator: Expect<List<Byte>>.() -> Unit): Expect<ByteArray> fun Expect<CharArray>.asList(assertionCreator: Expect<List<Char>>.() -> Unit): Expect<CharArray> fun Expect<ShortArray>.asList(assertionCreator: Expect<List<Short>>.() -> Unit): Expect<ShortArray> fun Expect<IntArray>.asList(assertionCreator: Expect<List<Int>>.() -> Unit): Expect<IntArray> fun Expect<LongArray>.asList(assertionCreator: Expect<List<Long>>.() -> Unit): Expect<LongArray> fun Expect<FloatArray>.asList(assertionCreator: Expect<List<Float>>.() -> Unit): Expect<FloatArray> fun Expect<DoubleArray>.asList(assertionCreator: Expect<List<Double>>.() -> Unit): Expect<DoubleArray> fun Expect<BooleanArray>.asList(assertionCreator: Expect<List<Boolean>>.() -> Unit): Expect<BooleanArray>
Expects that the subject of the assertion holds all assertions the given assertionCreator creates for the subject as List. |
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fun <T, R> Expect<T>. |
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fun <T, R> Expect<T>. |
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fun <TExpected : Throwable> Expect<out Throwable>.cause(assertionCreator: Expect<TExpected>.() -> Unit): Expect<TExpected>
Expects that the property Throwable.cause of the subject is a TExpected (the same type or a sub-type) and holds all assertions the given assertionCreator creates for it and returns this assertion container. |
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infix fun <TExpected : Throwable> Expect<out Throwable>.cause(assertionCreator: Expect<TExpected>.() -> Unit): Expect<TExpected>
Expects that the property Throwable.cause of the subject is a TExpected (the same type or a sub-type) and holds all assertions the given assertionCreator creates for it and returns this assertion container. |
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fun <T : CharSequence> Expect<T>.contains(expected: Any, vararg otherExpected: Any): Expect<T>
Expects that the subject of the assertion (a CharSequence) contains expected's toString representation and the toString representation of the otherExpected (if given), using a non disjoint search. fun <E, T : Iterable<E>> Expect<T>.contains(expected: E, vararg otherExpected: E): Expect<T>
Expects that the subject of the assertion (an Iterable) contains the expected value and the otherExpected values (if given). fun <E : Any, T : Iterable<E?>> Expect<T>.contains(assertionCreatorOrNull: (Expect<E>.() -> Unit)?): Expect<T>
Expects that the subject of the assertion (an Iterable) contains an entry holding the
assertions created by assertionCreatorOrNull or an entry which is fun <E : Any, T : Iterable<E?>> Expect<T>.contains(assertionCreatorOrNull: (Expect<E>.() -> Unit)?, vararg otherAssertionCreatorsOrNulls: (Expect<E>.() -> Unit)?): Expect<T>
Expects that the subject of the assertion (an Iterable) contains an entry holding the
assertions created by assertionCreatorOrNull or an entry which is fun <K, V, T : Map<out K, V>> Expect<T>.contains(keyValuePair: Pair<K, V>, vararg otherPairs: Pair<K, V>): Expect<T>
Expects that the subject of the assertion (a Map) contains a key as defined by keyValuePair's Pair.first with a corresponding value as defined by keyValuePair's Pair.second -- optionally the same assertions are created for the otherPairs. fun <K, V : Any, T : Map<out K, V?>> Expect<T>.contains(keyValue: KeyValue<K, V>, vararg otherKeyValues: KeyValue<K, V>): Expect<T>
Expects that the subject of the assertion (a Map) contains a key as defined by keyValue's KeyValue.key
with a corresponding value which either holds all assertions keyValue's
KeyValue.valueAssertionCreatorOrNull creates or needs to be |
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infix fun <T : CharSequence> Expect<T>.contains(o: o): CharSequenceContains.Builder<T, NoOpSearchBehaviour>
Creates a CharSequenceContains.Builder based on this Expect which allows to define
a sophisticated infix fun <T : CharSequence> Expect<T>.contains(not: not): NotCheckerOption<T, NotSearchBehaviour>
Creates a CharSequenceContains.Builder based on this Expect which allows to define
more sophisticated infix fun <T : CharSequence> Expect<T>.contains(expected: Any): Expect<T>
Expects that the subject of the assertion (a CharSequence) contains the expected's toString representation. infix fun <T : CharSequence> Expect<T>.contains(values: Values<Any>): Expect<T>
Expects that the subject of the assertion (a CharSequence) contains the toString representation of the given values using a non disjoint search. infix fun <T : CharSequence> Expect<T>.contains(pattern: Regex): Expect<T>
Expects that the subject of the assertion (a CharSequence) contains a sequence which matches the given regular expression pattern. infix fun <T : CharSequence> Expect<T>.contains(patterns: All<Regex>): Expect<T>
Expects that the subject of the assertion (a CharSequence) contains a sequence which matches the given regular expression patterns, using a non disjoint search. infix fun <K, V, T : Map<out K, V>> Expect<T>.contains(keyValuePair: Pair<K, V>): Expect<T>
Expects that the subject of the assertion (a Map) contains a key as defined by keyValuePair's Pair.first with a corresponding value as defined by keyValuePair's Pair.second infix fun <K, V, T : Map<out K, V>> Expect<T>.contains(keyValuePairs: Pairs<K, V>): Expect<T>
Expects the subject of the assertion (a Map) contains for each entry in keyValuePairs, a key as defined by that entry's Pair.first with a corresponding value as defined by entry's Pair.second. infix fun <K, V : Any, T : Map<out K, V?>> Expect<T>.contains(keyValue: KeyValue<K, V>): Expect<T>
Expects that the subject of the assertion (a Map) contains a key as defined by keyValue's KeyValue.key
with a corresponding value which either holds all assertions keyValue's
KeyValue.valueAssertionCreatorOrNull creates or needs to be infix fun <K, V : Any, T : Map<out K, V?>> Expect<T>.contains(keyValues: All<KeyValue<K, V>>): Expect<T>
Expects that the subject of the assertion (a Map) contains for each KeyValue in keyValues,
a key as defined by KeyValue.key with a corresponding value which either holds all
assertions KeyValue's KeyValue.valueAssertionCreatorOrNull creates or needs to be |
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fun <E, T : Iterable<E>> Expect<T>.containsExactly(expected: E, vararg otherExpected: E): Expect<T>
Expects that the subject of the assertion (an Iterable) contains only the expected value and the otherExpected values (if given) in the defined order. fun <E : Any, T : Iterable<E?>> Expect<T>.containsExactly(assertionCreatorOrNull: (Expect<E>.() -> Unit)?): Expect<T>
Expects that the subject of the assertion (an Iterable) contains only an entry holding
the assertions created by assertionCreatorOrNull or only one entry which is fun <E : Any, T : Iterable<E?>> Expect<T>.containsExactly(assertionCreatorOrNull: (Expect<E>.() -> Unit)?, vararg otherAssertionCreatorsOrNulls: (Expect<E>.() -> Unit)?): Expect<T>
Expects that the subject of the assertion (an Iterable) contains only an entry holding
the assertions created by assertionCreatorOrNull or |
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fun <K, T : Map<out K, *>> Expect<T>.containsKey(key: K): Expect<T>
Expects that the subject of the assertion (a Map) contains the given key. |
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infix fun <K, T : Map<out K, *>> Expect<T>.containsKey(key: K): Expect<T>
Expects that the subject of the assertion (a Map) contains the given key. |
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fun <T : CharSequence> Expect<T>.containsNot(expected: Any, vararg otherExpected: Any): Expect<T>
Expects that the subject of the assertion (a CharSequence) does not contain expected's toString representation and neither one of the otherExpected's toString representation (if given). fun <E, T : Iterable<E>> Expect<T>.containsNot(expected: E, vararg otherExpected: E): Expect<T>
Expects that the subject of the assertion (an Iterable) does not contain the expected value and neither one of the otherExpected values (if given). |
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infix fun <T : CharSequence> Expect<T>.containsNot(expected: Any): Expect<T>
Expects that the subject of the assertion (a CharSequence) does not contain expected's toString representation. infix fun <T : CharSequence> Expect<T>.containsNot(values: Values<Any>): Expect<T>
Expects that the subject of the assertion (a CharSequence) does not contain the toString representation of the given values. |
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fun <K, T : Map<out K, *>> Expect<T>.containsNotKey(key: K): Expect<T>
Expects that the subject of the assertion (a Map) does not contain the given key. |
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infix fun <K, T : Map<out K, *>> Expect<T>.containsNotKey(key: K): Expect<T>
Expects that the subject of the assertion (a Map) does not contain the given key. |
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fun <T : CharSequence> Expect<T>.containsRegex(pattern: String, vararg otherPatterns: String): Expect<T> fun <T : CharSequence> Expect<T>.containsRegex(pattern: Regex, vararg otherPatterns: Regex): Expect<T>
Expects that the subject of the assertion (a CharSequence) contains a sequence which matches the given regular expression pattern as well as the otherPatterns (if given), using a non disjoint search. |
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infix fun <T : CharSequence> Expect<T>.containsRegex(pattern: String): Expect<T>
Expects that the subject of the assertion (a CharSequence) contains a sequence which matches the given regular expression pattern. infix fun <T : CharSequence> Expect<T>.containsRegex(patterns: RegexPatterns): Expect<T>
Expects that the subject of the assertion (a CharSequence) contains a sequence which matches the given regular expression patterns, using a non disjoint search. |
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fun <T : Path> Expect<T>.exists(): Expect<T>
Expects that the subject of the assertion (a Path) exists; meaning that there is a file system entry at the location the Path points to. |
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fun <T : Path> Expect<T>.existsNot(): Expect<T>
Expects that the subject of the assertion (a Path) does not exist; meaning that there is no file system entry at the location the Path points to. |
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fun <T, R> Expect<T>. |
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fun <T, R> Expect<T>.feature(property: KProperty1<in T, R>): FeatureExpect<T, R>
Extracts the property out of the current subject of the assertion, creates a new Expect for it and returns it so that subsequent calls are based on the feature. fun <T, R> Expect<T>.feature(property: KProperty1<in T, R>, assertionCreator: Expect<R>.() -> Unit): Expect<T>
Extracts the property out of the current subject of the assertion, creates a new Expect for it, applies an assertion group based on the given assertionCreator for the feature and returns the initial Expect with the current subject. fun <T, R> Expect<T>.feature(f: KFunction1<T, R>): FeatureExpect<T, R>
Extracts the value which is returned when calling f on the current subject of the assertion, creates a new Expect for it and returns it so that subsequent calls are based on the feature. fun <T, R> Expect<T>.feature(f: KFunction1<T, R>, assertionCreator: Expect<R>.() -> Unit): Expect<T>
Extracts the value which is returned when calling f on the current subject of the assertion, creates a new Expect for it, applies an assertion group based on the given assertionCreator for the feature and returns the initial Expect with the current subject. fun <T, A1, R> Expect<T>.feature(f: KFunction2<T, A1, R>, a1: A1): FeatureExpect<T, R>
Extracts the value which is returned when calling f with argument a1 on the current subject of the assertion, creates a new Expect for it and returns it so that subsequent calls are based on the feature. fun <T, A1, R> Expect<T>.feature(f: KFunction2<T, A1, R>, a1: A1, assertionCreator: Expect<R>.() -> Unit): Expect<T>
Extracts the value which is returned when calling f with argument a1 on the current subject of the assertion, creates a new Expect for it, applies an assertion group based on the given assertionCreator for the feature and returns the initial Expect with the current subject. fun <T, A1, A2, R> Expect<T>.feature(f: KFunction3<T, A1, A2, R>, a1: A1, a2: A2): FeatureExpect<T, R>
Extracts the value which is returned when calling f with arguments a1, a2 on the current subject of the assertion, creates a new Expect for it and returns it so that subsequent calls are based on the feature. fun <T, A1, A2, R> Expect<T>.feature(f: KFunction3<T, A1, A2, R>, a1: A1, a2: A2, assertionCreator: Expect<R>.() -> Unit): Expect<T>
Extracts the value which is returned when calling f with argument a1, a2 on the current subject of the assertion, creates a new Expect for it, applies an assertion group based on the given assertionCreator for the feature and returns the initial Expect with the current subject. fun <T, A1, A2, A3, R> Expect<T>.feature(f: KFunction4<T, A1, A2, A3, R>, a1: A1, a2: A2, a3: A3): FeatureExpect<T, R>
Extracts the value which is returned when calling f with arguments a1, a2, a3 on the current subject of the assertion, creates a new Expect for it and returns it so that subsequent calls are based on the feature. fun <T, A1, A2, A3, R> Expect<T>.feature(f: KFunction4<T, A1, A2, A3, R>, a1: A1, a2: A2, a3: A3, assertionCreator: Expect<R>.() -> Unit): Expect<T>
Extracts the value which is returned when calling f with argument a1, a2, a3 on the current subject of the assertion, creates a new Expect for it, applies an assertion group based on the given assertionCreator for the feature and returns the initial Expect with the current subject. fun <T, A1, A2, A3, A4, R> Expect<T>.feature(f: KFunction5<T, A1, A2, A3, A4, R>, a1: A1, a2: A2, a3: A3, a4: A4): FeatureExpect<T, R>
Extracts the value which is returned when calling f with arguments a1, a2, a3, a4 on the current subject of the assertion, creates a new Expect for it and returns it so that subsequent calls are based on the feature. fun <T, A1, A2, A3, A4, R> Expect<T>.feature(f: KFunction5<T, A1, A2, A3, A4, R>, a1: A1, a2: A2, a3: A3, a4: A4, assertionCreator: Expect<R>.() -> Unit): Expect<T>
Extracts the value which is returned when calling f with argument a1, a2, a3, a4 on the current subject of the assertion, creates a new Expect for it, applies an assertion group based on the given assertionCreator for the feature and returns the initial Expect with the current subject. fun <T, A1, A2, A3, A4, A5, R> Expect<T>.feature(f: KFunction6<T, A1, A2, A3, A4, A5, R>, a1: A1, a2: A2, a3: A3, a4: A4, a5: A5): FeatureExpect<T, R>
Extracts the value which is returned when calling f with arguments a1, a2, a3, a4, a5 on the current subject of the assertion, creates a new Expect for it and returns it so that subsequent calls are based on the feature. fun <T, A1, A2, A3, A4, A5, R> Expect<T>.feature(f: KFunction6<T, A1, A2, A3, A4, A5, R>, a1: A1, a2: A2, a3: A3, a4: A4, a5: A5, assertionCreator: Expect<R>.() -> Unit): Expect<T>
Extracts the value which is returned when calling f with argument a1, a2, a3, a4, a5 on the current subject of the assertion, creates a new Expect for it, applies an assertion group based on the given assertionCreator for the feature and returns the initial Expect with the current subject. fun <T, R> Expect<T>.feature(description: String, provider: T.() -> R): FeatureExpect<T, R>
Extracts a feature out of the current subject of the assertion based on the given provider and using the given description, creates a new Expect for it and returns it so that subsequent calls are based on the feature. fun <T, R> Expect<T>.feature(description: String, provider: T.() -> R, assertionCreator: Expect<R>.() -> Unit): Expect<T>
Extracts a feature out of the current subject of the assertion based on the given provider and using the given description, creates a new Expect for it, applies an assertion group based on the given assertionCreator for the feature and returns the initial Expect with the current subject. fun <T, R> Expect<T>.feature(provider: MetaFeatureOption<T>.(T) -> MetaFeature<R>): FeatureExpect<T, R>
Extracts a feature out of the current subject of the assertion, based on the given provider, creates a new Expect for it and returns it so that subsequent calls are based on the feature. fun <T, R> Expect<T>.feature(provider: MetaFeatureOption<T>.(T) -> MetaFeature<R>, assertionCreator: Expect<R>.() -> Unit): Expect<T>
Extracts a feature out of the current subject of the assertion, based on the given provider, creates a new Expect for it, applies an assertion group based on the given assertionCreator for the feature and returns the initial Expect with the current subject. |
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infix fun <T, R> Expect<T>.feature(property: KProperty1<in T, R>): FeatureExpect<T, R>
Extracts the property out of the current subject of the assertion, creates a new Expect for it and returns it so that subsequent calls are based on the feature. infix fun <T, R> Expect<T>.feature(f: KFunction1<T, R>): FeatureExpect<T, R>
Extracts the value which is returned when calling the method f on the current subject of the assertion, creates a new Expect for it and returns it so that subsequent calls are based on the feature. infix fun <T, R> Expect<T>.feature(of: Feature<in T, R>): FeatureExpect<T, R>
Extracts a feature out of the current subject of the assertion using the given Feature.extractor, creates a new Expect for it and returns it so that subsequent calls are based on the feature. infix fun <T, R> Expect<T>.feature(of: FeatureWithCreator<in T, R>): Expect<T>
Extracts a feature out of the current subject of the assertion using the given FeatureWithCreator.extractor, creates a new Expect for it, applies an assertion group based on the given FeatureWithCreator.assertionCreator for the feature and returns the initial Expect with the current subject. infix fun <T, R> Expect<T>.feature(provider: MetaFeatureOption<T>.(T) -> MetaFeature<R>): FeatureExpect<T, R>
Extracts a feature out of the current subject of the assertion, based on the given provider, creates a new Expect for it and returns it so that subsequent calls are based on the feature. infix fun <T, R> Expect<T>.feature(of: MetaFeatureOptionWithCreator<T, R>): Expect<T>
Extracts a feature out of the current subject of the assertion, based on the given MetaFeatureOptionWithCreator creates a new Expect for it, applies an assertion group based on the given MetaFeatureOptionWithCreator.assertionCreator for the feature and returns the initial Expect with the current subject. |
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fun <K, V, T : Pair<K, V>> Expect<T>.first(assertionCreator: Expect<K>.() -> Unit): Expect<T>
Expects that the property Pair.first of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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infix fun <K, V, T : Pair<K, V>> Expect<T>.first(assertionCreator: Expect<K>.() -> Unit): Expect<T>
Expects that the property Pair.first of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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fun <E, T : List<E>> Expect<T>.get(index: Int, assertionCreator: Expect<E>.() -> Unit): Expect<T>
Expects that the given index is within the bounds of the subject of the assertion (a List) and that the element at that position holds all assertions the given assertionCreator creates for it. |
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infix fun <E, T : List<E>> Expect<T>.get(index: IndexWithCreator<E>): Expect<T>
Expects that the given index is within the bounds of the subject of the assertion (a List) and that the element at that position holds all assertions the given IndexWithCreator.assertionCreator creates for it. |
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fun <K, V, T : Map<out K, V>> Expect<T>.getExisting(key: K): Expect<V>
Expects that the subject of the assertion (a Map) contains the given key, creates an Expect for the corresponding value and returns the newly created assertion container, so that further fluent calls are assertions about it. fun <K, V, T : Map<out K, V>> Expect<T>.getExisting(key: K, assertionCreator: Expect<V>.() -> Unit): Expect<T>
Expects that the subject of the assertion (a Map) contains the given key and that the corresponding value holds all assertions the given assertionCreator creates for it. |
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infix fun <K, V, T : Map<out K, V>> Expect<T>.getExisting(key: K): Expect<V>
Expects that the subject of the assertion (a Map) contains the given key, creates an Expect for the corresponding value and returns the newly created assertion container, so that further fluent calls are assertions about it. infix fun <K, V, T : Map<out K, V>> Expect<T>.getExisting(key: KeyWithCreator<K, V>): Expect<T>
Expects that the subject of the assertion (a Map) contains the given key and that the corresponding value holds all assertions the given KeyWithCreator.assertionCreator creates for it. |
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fun <E, T : Iterable<E>> Expect<T>.hasNext(): Expect<T>
Expects that the subject of the assertion (an Iterable) has at least one element. |
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fun <E, T : Iterable<E>> Expect<T>.hasNotNext(): Expect<T>
Expects that the subject of the assertion (an Iterable) does not have next element. |
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fun <T : Collection<*>> Expect<T>.hasSize(expected: Int): Expect<T>
Expects that the subject of the assertion (a Collection) has the given expected size. |
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fun <TSub : Any> Expect<*>.isA(assertionCreator: Expect<TSub>.() -> Unit): Expect<TSub>
Expects that the subject of the assertion is a TSub (the same type or a sub-type) and that it holds all assertions the given assertionCreator creates. |
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infix fun <TSub : Any> Expect<*>.isA(assertionCreator: Expect<TSub>.() -> Unit): Expect<TSub>
Expects that the subject of the assertion is a TSub (the same type or a sub-type) and that it holds all assertions the given assertionCreator creates. |
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fun <T : ChronoLocalDateTime<out ChronoLocalDate>> Expect<T>.isAfter(expected: ChronoLocalDateTime<*>): Expect<T>
Expects that the subject of the assertion (a ChronoLocalDateTime) is after the expected. |
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fun <T : ChronoLocalDateTime<out ChronoLocalDate>> Expect<T>.isAfterOrEqual(expected: ChronoLocalDateTime<*>): Expect<T>
Expects that the subject of the assertion (a ChronoLocalDateTime) is after or equal the expected. |
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fun <T : ChronoLocalDateTime<out ChronoLocalDate>> Expect<T>.isBefore(expected: ChronoLocalDateTime<*>): Expect<T>
Expects that the subject of the assertion (a ChronoLocalDateTime) is before the expected. |
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fun <T : ChronoLocalDateTime<out ChronoLocalDate>> Expect<T>.isBeforeOrEqual(expected: ChronoLocalDateTime<*>): Expect<T>
Expects that the subject of the assertion (a ChronoLocalDateTime) is before or equal the expected. |
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fun <T : Path> Expect<T>.isDirectory(): Expect<T>
Expects that the subject of the assertion (a Path) is a directory; meaning that there is a file system entry at the location the Path points to and that is a directory. |
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fun <T : ChronoLocalDateTime<out ChronoLocalDate>> Expect<T>.isEqual(expected: ChronoLocalDateTime<*>): Expect<T>
Expects that the subject of the assertion (a ChronoLocalDateTime) is equal to the expected. |
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fun <T : BigDecimal> Expect<T>.isEqualIncludingScale(expected: T): Expect<T>
Expects that the subject of the assertion (a BigDecimal) is equal to expected including BigDecimal.scale. |
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fun <TExpected : Throwable> Expect<out Result<*>>.isFailure(): Expect<TExpected>
Expects that the subject of the assertion (a Result) is a Failure and that it encapsulates an exception of type TExpected. fun <TExpected : Throwable> Expect<out Result<*>>.isFailure(assertionCreator: Expect<TExpected>.() -> Unit): Expect<TExpected>
Expects that the subject of the assertion (a Result) is a Failure, it encapsulates an exception of type TExpected and that the exception holds all assertions the given assertionCreator creates. |
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fun <K, V, T : Entry<K, V>> Expect<T>.isKeyValue(key: K, value: V): Expect<T>
Expects that the property Map.Entry.key of the subject of the assertion is equal to the given key and the property Map.Entry.value is equal to the given value. |
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infix fun <K, V, T : Entry<K, V>> Expect<T>.isKeyValue(keyValuePair: Pair<K, V>): Expect<T>
Expects that the property Map.Entry.key of the subject of the assertion is equal to the given key and the property Map.Entry.value is equal to the given value. |
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fun <T : CharSequence> Expect<T>.isNotBlank(): Expect<T>
Expects that the subject of the assertion (a CharSequence) CharSequence.kotlin.text.isNotBlank. |
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fun <T : BigDecimal> Expect<T>.isNotEqualIncludingScale(expected: T): Expect<T>
Expects that the subject of the assertion (a BigDecimal) is not equal to expected including BigDecimal.scale. |
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fun <T : BigDecimal> Expect<T>.isNotNumericallyEqualTo(expected: T): Expect<T>
Expects that the subject of the assertion (a BigDecimal) is not numerically equal to expected. |
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fun <T> Expect<T>.isNotSameAs(expected: T): Expect<T>
Expects that the subject of the assertion is not the same instance as expected. |
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infix fun <T> Expect<T>.isNotSameAs(expected: T): Expect<T>
Expects that the subject of the assertion is not the same instance as expected. |
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fun <T : BigDecimal> Expect<T>.isNumericallyEqualTo(expected: T): Expect<T>
Expects that the subject of the assertion (a BigDecimal) is numerically equal to expected. |
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fun <E, T : Optional<E>> Expect<T>.isPresent(): Expect<E>
Expects that the subject of the assertion (an Optional) is present and returns an Expect for the inner type E. fun <E, T : Optional<E>> Expect<T>.isPresent(assertionCreator: Expect<E>.() -> Unit): Expect<T>
Expects that the subject of the assertion (an Optional) is present and that it holds all assertions the given assertionCreator creates. |
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fun <T : Path> Expect<T>.isReadable(): Expect<T>
Expects that the subject of the assertion (a Path) is readable; meaning that there is a file system entry at the location the Path points to and that the current thread has the permission to read from it. |
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fun <T : Path> Expect<T>.isRegularFile(): Expect<T>
Expects that the subject of the assertion (a Path) is a file; meaning that there is a file system entry at the location the Path points to and that is a regular file. |
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fun <T> Expect<T>.isSameAs(expected: T): Expect<T>
Expects that the subject of the assertion is the same instance as expected. |
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infix fun <T> Expect<T>.isSameAs(expected: T): Expect<T>
Expects that the subject of the assertion is the same instance as expected. |
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fun <E, T : Result<E>> Expect<T>.isSuccess(): Expect<E>
Expects that the subject of the assertion (a Result) is a Success and returns an Expect for the inner type E. fun <E, T : Result<E>> Expect<T>.isSuccess(assertionCreator: Expect<E>.() -> Unit): Expect<T>
Expects that the subject of the assertion (a Result) is a Success and that it holds all assertions the given assertionCreator creates. |
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fun <T : Path> Expect<T>.isWritable(): Expect<T>
Expects that the subject of the assertion (a Path) is writable; meaning that there is a file system entry at the location the Path points to and that the current thread has the permission to write to it. |
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infix fun <T> Expect<T>.it(assertionCreator: Expect<T>.() -> Unit): Expect<T>
Can be used to create a group of sub assertions when using the fluent API. |
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fun <K, V, T : Entry<K, V>> Expect<T>.key(assertionCreator: Expect<K>.() -> Unit): Expect<T>
Expects that the property Map.Entry.key of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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infix fun <K, V, T : Entry<K, V>> Expect<T>.key(assertionCreator: Expect<K>.() -> Unit): Expect<T>
Expects that the property Map.Entry.key of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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fun <K, V, T : Map<out K, V>> Expect<T>.keys(assertionCreator: Expect<Set<K>>.() -> Unit): Expect<T>
Expects that the property Map.keys of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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infix fun <K, V, T : Map<out K, V>> Expect<T>.keys(assertionCreator: Expect<Set<K>>.() -> Unit): Expect<T>
Expects that the property Map.keys of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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fun <E : Comparable<E>, T : Iterable<E>> Expect<T>.max(): Expect<E>
Creates an Expect for the result of calling fun <E : Comparable<E>, T : Iterable<E>> Expect<T>.max(assertionCreator: Expect<E>.() -> Unit): Expect<T>
Expects that the result of calling |
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fun <T : Throwable> Expect<T>.messageContains(expected: Any, vararg otherExpected: Any): Expect<T>
Expects that the property Throwable.message of the subject of the assertion is not null and contains expected's toString representation and the toString representation of the otherExpected (if given), using a non disjoint search. |
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infix fun <T : Throwable> Expect<T>.messageContains(expected: Any): Expect<T>
Expects that the property Throwable.message of the subject of the assertion is not null and contains expected's toString representation using a non disjoint search. infix fun <T : Throwable> Expect<T>.messageContains(values: Values<Any>): Expect<T>
Expects that the property Throwable.message of the subject of the assertion is not null and contains values's toString representation using a non disjoint search. |
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fun <E : Comparable<E>, T : Iterable<E>> Expect<T>.min(): Expect<E>
Creates an Expect for the result of calling fun <E : Comparable<E>, T : Iterable<E>> Expect<T>.min(assertionCreator: Expect<E>.() -> Unit): Expect<T>
Expects that the result of calling |
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fun <E : Any, T : Iterable<E?>> Expect<T>.none(assertionCreatorOrNull: (Expect<E>.() -> Unit)?): Expect<T>
Expects that the subject of the assertion (an Iterable) does not contain a single entry
which holds all assertions created by assertionCreatorOrNull or does not contain a single entry which is |
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infix fun <T : Path> Expect<T>.notTo(exist: exist): Expect<T>
Expects that the subject of the assertion (a Path) does not exist; meaning that there is no file system entry at the location the Path points to. |
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fun <T> Expect<T>.notToBe(expected: T): Expect<T>
Expects that the subject of the assertion is not (equal to) expected. |
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infix fun <T> Expect<T>.notToBe(expected: T): Expect<T>
Expects that the subject of the assertion is not (equal to) expected. infix fun <T : CharSequence> Expect<T>.notToBe(Blank: Blank): Expect<T>
Expects that the subject of the assertion (a CharSequence) CharSequence.kotlin.text.isNotBlank. |
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fun <R, T : () -> R> Expect<T>.notToThrow(assertionCreator: Expect<R>.() -> Unit): Expect<R>
Expects that no Throwable is thrown at all when calling the subject (a lambda with arity 0, i.e. without arguments) and that the corresponding return value holds all assertions the given assertionCreator creates. |
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infix fun <R, T : () -> R> Expect<T>.notToThrow(assertionCreator: Expect<R>.() -> Unit): Expect<R>
Expects that no Throwable is thrown at all when calling the subject (a lambda with arity 0, i.e. without arguments) and that the corresponding return value holds all assertions the given assertionCreator creates. |
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fun <T : Path> Expect<T>.resolve(other: String, assertionCreator: Expect<Path>.() -> Unit): Expect<T>
Expects that other resolves against this Path and that the resolved Path holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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fun <K, V, T : Pair<K, V>> Expect<T>.second(assertionCreator: Expect<V>.() -> Unit): Expect<T>
Expects that the property Pair.second of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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infix fun <K, V, T : Pair<K, V>> Expect<T>.second(assertionCreator: Expect<V>.() -> Unit): Expect<T>
Expects that the property Pair.second of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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infix fun <T : Path> Expect<T>.to(exist: exist): Expect<T>
Expects that the subject of the assertion (a Path) exists; meaning that there is a file system entry at the location the Path points to. |
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fun <T> Expect<T>.toBe(expected: T): Expect<T>
Expects that the subject of the assertion is (equal to) expected. |
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infix fun <T> Expect<T>.toBe(expected: T): Expect<T>
Expects that the subject of the assertion is (equal to) expected. |
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infix fun <T : Path> Expect<T>.toBe(readable: readable): Expect<T>
Expects that the subject of the assertion (a Path) is readable; meaning that there is a file system entry at the location the Path points to and that the current thread has the permission to read from it. infix fun <T : Path> Expect<T>.toBe(writable: writable): Expect<T>
Expects that the subject of the assertion (a Path) is writable; meaning that there is a file system entry at the location the Path points to and that the current thread has the permission to write to it. infix fun <T : Path> Expect<T>.toBe(aRegularFile: aRegularFile): Expect<T>
Expects that the subject of the assertion (a Path) is a file; meaning that there is a file system entry at the location the Path points to and that is a regular file. infix fun <T : Path> Expect<T>.toBe(aDirectory: aDirectory): Expect<T>
Expects that the subject of the assertion (a Path) is a directory; meaning that there is a file system entry at the location the Path points to and that is a directory. |
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fun Expect<Float>.toBeWithErrorTolerance(expected: Float, tolerance: Float): Expect<Float>
Expects that the subject of the assertion (a Float) is equal to expected with an error tolerance (range including bounds). fun Expect<Double>.toBeWithErrorTolerance(expected: Double, tolerance: Double): Expect<Double>
Expects that the subject of the assertion (a Double) is equal to expected with an error tolerance (range including bounds). fun <T : BigDecimal> Expect<T>.toBeWithErrorTolerance(expected: BigDecimal, tolerance: BigDecimal): Expect<T>
Expects that the subject of the assertion is equal to expected with an error tolerance (range including bounds). |
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fun <TExpected : Throwable> Expect<() -> Any?>.toThrow(assertionCreator: Expect<TExpected>.() -> Unit): Expect<TExpected>
Expects that the thrown Throwable is a TExpected (the same type or a sub-type) and that it holds all assertions the given assertionCreator creates. |
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infix fun <TExpected : Throwable> Expect<() -> Any?>.toThrow(assertionCreator: Expect<TExpected>.() -> Unit): Expect<TExpected>
Expects that the thrown Throwable is a TExpected (the same type or a sub-type) and that it holds all assertions the given assertionCreator creates. |
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fun <K, V, T : Entry<K, V>> Expect<T>.value(assertionCreator: Expect<V>.() -> Unit): Expect<T>
Expects that the property Map.Entry.value of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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infix fun <K, V, T : Entry<K, V>> Expect<T>.value(assertionCreator: Expect<V>.() -> Unit): Expect<T>
Expects that the property Map.Entry.value of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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fun <K, V, T : Map<K, V>> Expect<T>.values(assertionCreator: Expect<Collection<V>>.() -> Unit): Expect<T>
Expects that the property Map.keys of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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infix fun <K, V, T : Map<K, V>> Expect<T>.values(assertionCreator: Expect<Collection<V>>.() -> Unit): Expect<T>
Expects that the property Map.keys of the subject of the assertion holds all assertions the given assertionCreator creates for it and returns an Expect for the current subject of the assertion. |
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fun <T> RootExpect<T>.withOptions(configuration: ExpectBuilder.OptionsChooser<T>.() -> Unit): Expect<T>
Uses the given configuration-lambda to create an ExpectOptions which in turn is used to override (parts) of the existing configuration. fun <T> RootExpect<T>.withOptions(options: ExpectOptions<T>): Expect<T>
Uses the given options to override (parts) of the existing configuration. |
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infix fun <T> RootExpect<T>.withOptions(configuration: ExpectBuilder.OptionsChooser<T>.() -> Unit): Expect<T>
Uses the given configuration-lambda to create an ExpectOptions which in turn is used to override (parts) of the existing configuration. infix fun <T> RootExpect<T>.withOptions(options: ExpectOptions<T>): Expect<T>
Uses the given options to override (parts) of the existing configuration. |
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fun <T> RootExpect<T>.withRepresentation(textRepresentation: String): Expect<T>
Wraps the given textRepresentation into a RawString and uses it as representation of the subject instead of the representation that has been defined so far (which defaults to the subject itself). fun <T> RootExpect<T>.withRepresentation(representationProvider: (T) -> Any): Expect<T>
Uses the given representationProvider to retrieve a representation which can be based on the current subject where it is used as new representation of the subject instead of the representation that has been defined so far (which defaults to the subject itself). |
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infix fun <T> RootExpect<T>.withRepresentation(textRepresentation: String): Expect<T>
Wraps the given textRepresentation into a RawString and uses it as representation of the subject instead of the representation that has been defined so far (which defaults to the subject itself). infix fun <T> RootExpect<T>.withRepresentation(representationProvider: (T) -> Any): Expect<T>
Uses the given representationProvider to retrieve a representation which can be based on the current subject where it is used as new representation of the subject instead of the representation that has been defined so far (which defaults to the subject itself). |
interface ReportingAssertionContainer<T> : RootExpect<T>
Represents a container for Assertions and offers the possibility to addAssertions which are reported in case they do not hold. |