Uses of Class
org.assertj.core.api.Condition

Packages that use Condition

Package	Description
org.assertj.core.api
org.assertj.core.api.filter
org.assertj.core.condition
org.assertj.core.error
org.assertj.core.internal

Uses of Condition in org.assertj.core.api

Subclasses of Condition in org.assertj.core.api

Modifier and Type	Class	Description
class	HamcrestCondition<T>	Allows to use a Hamcrest matcher as a condition.

Methods in org.assertj.core.api that return Condition

Modifier and Type	Method	Description
static <T> Condition<T>	Assertions.allOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AllOf
static <T> Condition<T>	Assertions.allOf(Condition<? super T>... conditions)	Creates a new AllOf
static <T> Condition<T>	AssertionsForClassTypes.allOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AllOf
static <T> Condition<T>	AssertionsForClassTypes.allOf(Condition<? super T>... conditions)	Creates a new AllOf
static <T> Condition<T>	BDDAssertions.allOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AllOf
static <T> Condition<T>	BDDAssertions.allOf(Condition<? super T>... conditions)	Creates a new AllOf
static <T> Condition<T>	Java6Assertions.allOf(Iterable<? extends Condition<? super T>> conditions)	Deprecated. Creates a new AllOf
static <T> Condition<T>	Java6Assertions.allOf(Condition<? super T>... conditions)	Deprecated. Creates a new AllOf
default <T> Condition<T>	WithAssertions.allOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AllOf
default <T> Condition<T>	WithAssertions.allOf(Condition<? super T>... conditions)	Creates a new AllOf
static <T> Condition<T>	Assertions.anyOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AnyOf
static <T> Condition<T>	Assertions.anyOf(Condition<? super T>... conditions)	Only delegate to AnyOf.anyOf(Condition...) so that Assertions offers a full feature entry point to all AssertJ features (but you can use AnyOf if you prefer).
static <T> Condition<T>	AssertionsForClassTypes.anyOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AnyOf
static <T> Condition<T>	AssertionsForClassTypes.anyOf(Condition<? super T>... conditions)	Only delegate to AnyOf.anyOf(Condition...) so that Assertions offers a full feature entry point to all AssertJ features (but you can use AnyOf if you prefer).
static <T> Condition<T>	BDDAssertions.anyOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AnyOf
static <T> Condition<T>	BDDAssertions.anyOf(Condition<? super T>... conditions)	Only delegate to AnyOf.anyOf(Condition...) so that Assertions offers a full feature entry point to all AssertJ features (but you can use AnyOf if you prefer).
static <T> Condition<T>	Java6Assertions.anyOf(Iterable<? extends Condition<? super T>> conditions)	Deprecated. Creates a new AnyOf
static <T> Condition<T>	Java6Assertions.anyOf(Condition<? super T>... conditions)	Deprecated. Only delegate to AnyOf.anyOf(Condition...) so that Assertions offers a full feature entry point to all AssertJ features (but you can use AnyOf if you prefer).
default <T> Condition<T>	WithAssertions.anyOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AnyOf
default <T> Condition<T>	WithAssertions.anyOf(Condition<? super T>... conditions)	Only delegate to AnyOf.anyOf(Condition...) so that Assertions offers a full feature entry point to all AssertJ features (but you can use AnyOf if you prefer).
Condition<T>	Condition.describedAs(Description newDescription)	Sets the description of the assertion that is going to be called after.

Methods in org.assertj.core.api with parameters of type Condition

Modifier and Type	Method	Description
static <T> Condition<T>	Assertions.allOf(Condition<? super T>... conditions)	Creates a new AllOf
static <T> Condition<T>	AssertionsForClassTypes.allOf(Condition<? super T>... conditions)	Creates a new AllOf
static <T> Condition<T>	BDDAssertions.allOf(Condition<? super T>... conditions)	Creates a new AllOf
static <T> Condition<T>	Java6Assertions.allOf(Condition<? super T>... conditions)	Deprecated. Creates a new AllOf
default <T> Condition<T>	WithAssertions.allOf(Condition<? super T>... conditions)	Creates a new AllOf
static <T> Condition<T>	Assertions.anyOf(Condition<? super T>... conditions)	Only delegate to AnyOf.anyOf(Condition...) so that Assertions offers a full feature entry point to all AssertJ features (but you can use AnyOf if you prefer).
static <T> Condition<T>	AssertionsForClassTypes.anyOf(Condition<? super T>... conditions)	Only delegate to AnyOf.anyOf(Condition...) so that Assertions offers a full feature entry point to all AssertJ features (but you can use AnyOf if you prefer).
static <T> Condition<T>	BDDAssertions.anyOf(Condition<? super T>... conditions)	Only delegate to AnyOf.anyOf(Condition...) so that Assertions offers a full feature entry point to all AssertJ features (but you can use AnyOf if you prefer).
static <T> Condition<T>	Java6Assertions.anyOf(Condition<? super T>... conditions)	Deprecated. Only delegate to AnyOf.anyOf(Condition...) so that Assertions offers a full feature entry point to all AssertJ features (but you can use AnyOf if you prefer).
default <T> Condition<T>	WithAssertions.anyOf(Condition<? super T>... conditions)	Only delegate to AnyOf.anyOf(Condition...) so that Assertions offers a full feature entry point to all AssertJ features (but you can use AnyOf if you prefer).
SELF	AbstractIterableAssert.are(Condition<? super ELEMENT> condition)	Verifies that each element value satisfies the given condition.
SELF	AbstractObjectArrayAssert.are(Condition<? super ELEMENT> condition)	Verifies that each element value satisfies the given condition
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.are(Condition<? super T> condition)	Verifies that each element value satisfies the given condition
SELF	ObjectEnumerableAssert.are(Condition<? super ELEMENT> condition)	Verifies that each element value satisfies the given condition.
SELF	AbstractIterableAssert.areAtLeast(int times, Condition<? super ELEMENT> condition)	Verifies that there are at least n elements in the actual group satisfying the given condition.
SELF	AbstractObjectArrayAssert.areAtLeast(int times, Condition<? super ELEMENT> condition)	Verifies that there are at least n elements in the actual array satisfying the given condition.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.areAtLeast(int times, Condition<? super T> condition)	Verifies that there are at least n elements in the actual AtomicReferenceArray satisfying the given condition.
SELF	ObjectEnumerableAssert.areAtLeast(int n, Condition<? super ELEMENT> condition)	Verifies that there are at least n elements in the actual group satisfying the given condition.
SELF	AbstractIterableAssert.areAtLeastOne(Condition<? super ELEMENT> condition)	Verifies that there is at least one element in the actual group satisfying the given condition.
SELF	AbstractObjectArrayAssert.areAtLeastOne(Condition<? super ELEMENT> condition)	Verifies that there is at least one element in the actual array satisfying the given condition.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.areAtLeastOne(Condition<? super T> condition)	Verifies that there is at least one element in the actual AtomicReferenceArray satisfying the given condition.
SELF	ObjectEnumerableAssert.areAtLeastOne(Condition<? super ELEMENT> condition)	Verifies that there is at least one element in the actual group satisfying the given condition.
SELF	AbstractIterableAssert.areAtMost(int times, Condition<? super ELEMENT> condition)	Verifies that there are at most n elements in the actual group satisfying the given condition.
SELF	AbstractObjectArrayAssert.areAtMost(int times, Condition<? super ELEMENT> condition)	Verifies that there are at most n elements in the actual array satisfying the given condition.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.areAtMost(int times, Condition<? super T> condition)	Verifies that there are at most n elements in the actual AtomicReferenceArray satisfying the given condition.
SELF	ObjectEnumerableAssert.areAtMost(int n, Condition<? super ELEMENT> condition)	Verifies that there are at most n elements in the actual group satisfying the given condition.
SELF	AbstractIterableAssert.areExactly(int times, Condition<? super ELEMENT> condition)	Verifies that there are exactly n elements in the actual group satisfying the given condition.
SELF	AbstractObjectArrayAssert.areExactly(int times, Condition<? super ELEMENT> condition)	Verifies that there are exactly n elements in the actual array satisfying the given condition.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.areExactly(int times, Condition<? super T> condition)	Verifies that there are exactly n elements in the actual AtomicReferenceArray satisfying the given condition.
SELF	ObjectEnumerableAssert.areExactly(int n, Condition<? super ELEMENT> condition)	Verifies that there are exactly n elements in the actual group satisfying the given condition.
SELF	AbstractIterableAssert.areNot(Condition<? super ELEMENT> condition)	Verifies that each element value does not satisfy the given condition.
SELF	AbstractObjectArrayAssert.areNot(Condition<? super ELEMENT> condition)	Verifies that each element value does not satisfy the given condition
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.areNot(Condition<? super T> condition)	Verifies that each element value does not satisfy the given condition
SELF	ObjectEnumerableAssert.areNot(Condition<? super ELEMENT> condition)	Verifies that each element value does not satisfy the given condition.
SELF	AbstractAssert.doesNotHave(Condition<? super ACTUAL> condition)	Verifies that the actual value does not satisfy the given condition.
SELF	AbstractIterableAssert.doesNotHave(Condition<? super ACTUAL> condition)
SELF	AbstractListAssert.doesNotHave(Condition<? super ACTUAL> condition)
SELF	AbstractMapAssert.doesNotHave(Condition<? super ACTUAL> condition)
static <T> DoesNotHave<T>	Assertions.doesNotHave(Condition<? super T> condition)	Creates a new DoesNotHave.
static <T> DoesNotHave<T>	AssertionsForClassTypes.doesNotHave(Condition<? super T> condition)	Creates a new DoesNotHave.
static <T> DoesNotHave<T>	BDDAssertions.doesNotHave(Condition<? super T> condition)	Creates a new DoesNotHave.
SELF	ExtensionPoints.doesNotHave(Condition<? super ACTUAL> condition)	Verifies that the actual value does not satisfy the given condition.
static <T> DoesNotHave<T>	Java6Assertions.doesNotHave(Condition<? super T> condition)	Deprecated. Creates a new DoesNotHave.
default <T> DoesNotHave<T>	WithAssertions.doesNotHave(Condition<? super T> condition)	Creates a new DoesNotHave.
SELF	AbstractIterableAssert.doNotHave(Condition<? super ELEMENT> condition)	Verifies that all elements do not satisfy the given condition.
SELF	AbstractObjectArrayAssert.doNotHave(Condition<? super ELEMENT> condition)	Verifies that all elements don't satisfy the given condition.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.doNotHave(Condition<? super T> condition)	Verifies that all elements don't satisfy the given condition.
SELF	ObjectEnumerableAssert.doNotHave(Condition<? super ELEMENT> condition)	Verifies that all elements do not satisfy the given condition.
SELF	AbstractIterableAssert.filteredOn(Condition<? super ELEMENT> condition)	Filters the iterable under test keeping only elements matching the given Condition.
SELF	AbstractObjectArrayAssert.filteredOn(Condition<? super ELEMENT> condition)	Filter the array under test into a list composed of the elements matching the given Condition, allowing to perform assertions on the filtered list.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.filteredOn(Condition<? super T> condition)	Filter the array under test keeping only elements matching the given Condition.
SELF	AbstractAssert.has(Condition<? super ACTUAL> condition)	Verifies that the actual value satisfies the given condition.
SELF	AbstractIterableAssert.has(Condition<? super ACTUAL> condition)
SELF	AbstractListAssert.has(Condition<? super ACTUAL> condition)
SELF	AbstractListAssert.has(Condition<? super ELEMENT> condition, Index index)	Verifies that the actual object at the given index in the actual group satisfies the given condition.
SELF	AbstractMapAssert.has(Condition<? super ACTUAL> condition)
SELF	ExtensionPoints.has(Condition<? super ACTUAL> condition)	Verifies that the actual value satisfies the given condition.
SELF	AbstractMapAssert.hasEntrySatisfying(K key, Condition<? super V> valueCondition)	Verifies that the actual map contains a value for the given key that satisfies the given valueCondition.
SELF	AbstractMapAssert.hasEntrySatisfying(Condition<? super Map.Entry<K,V>> entryCondition)	Verifies that the actual map contains an entry satisfying the given entryCondition.
SELF	AbstractMapAssert.hasEntrySatisfying(Condition<? super K> keyCondition, Condition<? super V> valueCondition)	Verifies that the actual map contains an entry with a key satisfying the given keyCondition and a value satisfying the given valueCondition.
SELF	AbstractMapAssert.hasKeySatisfying(Condition<? super K> keyCondition)	Verifies that the actual map contains an entry with a key satisfying the given keyCondition.
SELF	AbstractMapAssert.hasValueSatisfying(Condition<? super V> valueCondition)	Verifies that the actual map contains an entry with a value satisfying the given valueCondition.
SELF	AbstractOptionalAssert.hasValueSatisfying(Condition<? super VALUE> condition)	Verifies that the actual Optional contains a value which satisfies the given Condition.
SELF	AbstractIterableAssert.have(Condition<? super ELEMENT> condition)	Verifies that all elements satisfy the given condition.
SELF	AbstractObjectArrayAssert.have(Condition<? super ELEMENT> condition)	Verifies that all elements satisfy the given condition.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.have(Condition<? super T> condition)	Verifies that all elements satisfy the given condition.
SELF	ObjectEnumerableAssert.have(Condition<? super ELEMENT> condition)	Verifies that all elements satisfy the given condition.
SELF	AbstractIterableAssert.haveAtLeast(int times, Condition<? super ELEMENT> condition)	Verifies that there are at least n elements in the actual group satisfying the given condition.
SELF	AbstractObjectArrayAssert.haveAtLeast(int times, Condition<? super ELEMENT> condition)	Verifies that there are at least n elements in the actual array satisfying the given condition.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.haveAtLeast(int times, Condition<? super T> condition)	Verifies that there are at least n elements in the actual AtomicReferenceArray satisfying the given condition.
SELF	ObjectEnumerableAssert.haveAtLeast(int n, Condition<? super ELEMENT> condition)	Verifies that there are at least n elements in the actual group satisfying the given condition.
SELF	AbstractIterableAssert.haveAtLeastOne(Condition<? super ELEMENT> condition)	Verifies that there is at least one element in the actual group satisfying the given condition.
SELF	AbstractObjectArrayAssert.haveAtLeastOne(Condition<? super ELEMENT> condition)	Verifies that there is at least one element in the actual array satisfying the given condition.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.haveAtLeastOne(Condition<? super T> condition)	Verifies that there is at least one element in the actual AtomicReferenceArray satisfying the given condition.
SELF	ObjectEnumerableAssert.haveAtLeastOne(Condition<? super ELEMENT> condition)	Verifies that there is at least one element in the actual group satisfying the given condition.
SELF	AbstractIterableAssert.haveAtMost(int times, Condition<? super ELEMENT> condition)	Verifies that there are at most n elements in the actual group satisfying the given condition.
SELF	AbstractObjectArrayAssert.haveAtMost(int times, Condition<? super ELEMENT> condition)	Verifies that there are at most n elements in the actual array satisfying the given condition.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.haveAtMost(int times, Condition<? super T> condition)	Verifies that there are at most n elements in the actual AtomicReferenceArray satisfying the given condition.
SELF	ObjectEnumerableAssert.haveAtMost(int n, Condition<? super ELEMENT> condition)	Verifies that there are at most n elements in the actual group satisfying the given condition.
SELF	AbstractIterableAssert.haveExactly(int times, Condition<? super ELEMENT> condition)	Verifies that there are exactly n elements in the actual group satisfying the given condition.
SELF	AbstractObjectArrayAssert.haveExactly(int times, Condition<? super ELEMENT> condition)	Verifies that there are exactly n elements in the actual array satisfying the given condition.
AtomicReferenceArrayAssert<T>	AtomicReferenceArrayAssert.haveExactly(int times, Condition<? super T> condition)	Verifies that there are exactly n elements in the actual AtomicReferenceArray satisfying the given condition.
SELF	ObjectEnumerableAssert.haveExactly(int n, Condition<? super ELEMENT> condition)	Verifies that there are exactly n elements in the actual group satisfying the given condition.
SELF	AbstractAssert.is(Condition<? super ACTUAL> condition)	Verifies that the actual value satisfies the given condition.
SELF	AbstractIterableAssert.is(Condition<? super ACTUAL> condition)
SELF	AbstractListAssert.is(Condition<? super ACTUAL> condition)
SELF	AbstractListAssert.is(Condition<? super ELEMENT> condition, Index index)	Verifies that the actual object at the given index in the actual group satisfies the given condition.
SELF	AbstractMapAssert.is(Condition<? super ACTUAL> condition)
SELF	ExtensionPoints.is(Condition<? super ACTUAL> condition)	Verifies that the actual value satisfies the given condition.
SELF	AbstractAssert.isNot(Condition<? super ACTUAL> condition)	Verifies that the actual value does not satisfy the given condition.
SELF	AbstractIterableAssert.isNot(Condition<? super ACTUAL> condition)
SELF	AbstractListAssert.isNot(Condition<? super ACTUAL> condition)
SELF	AbstractMapAssert.isNot(Condition<? super ACTUAL> condition)
SELF	ExtensionPoints.isNot(Condition<? super ACTUAL> condition)	Verifies that the actual value does not satisfy the given condition.
static <T> Not<T>	Assertions.not(Condition<? super T> condition)	Creates a new Not.
static <T> Not<T>	AssertionsForClassTypes.not(Condition<? super T> condition)	Creates a new Not.
static <T> Not<T>	BDDAssertions.not(Condition<? super T> condition)	Creates a new Not.
static <T> Not<T>	Java6Assertions.not(Condition<? super T> condition)	Deprecated. Creates a new Not.
default <T> Not<T>	WithAssertions.not(Condition<? super T> condition)	Creates a new Not.
SELF	AbstractAssert.satisfies(Condition<? super ACTUAL> condition)	Verifies that the actual value satisfies the given condition.
SELF	ExtensionPoints.satisfies(Condition<? super ACTUAL> condition)	Verifies that the actual value satisfies the given condition.

Method parameters in org.assertj.core.api with type arguments of type Condition

Modifier and Type	Method	Description
static <T> Condition<T>	Assertions.allOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AllOf
static <T> Condition<T>	AssertionsForClassTypes.allOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AllOf
static <T> Condition<T>	BDDAssertions.allOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AllOf
static <T> Condition<T>	Java6Assertions.allOf(Iterable<? extends Condition<? super T>> conditions)	Deprecated. Creates a new AllOf
default <T> Condition<T>	WithAssertions.allOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AllOf
static <T> Condition<T>	Assertions.anyOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AnyOf
static <T> Condition<T>	AssertionsForClassTypes.anyOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AnyOf
static <T> Condition<T>	BDDAssertions.anyOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AnyOf
static <T> Condition<T>	Java6Assertions.anyOf(Iterable<? extends Condition<? super T>> conditions)	Deprecated. Creates a new AnyOf
default <T> Condition<T>	WithAssertions.anyOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AnyOf

Uses of Condition in org.assertj.core.api.filter

Methods in org.assertj.core.api.filter with parameters of type Condition

Modifier and Type	Method	Description
Filters<E>	Filters.being(Condition<? super E> condition)	Filter the underlying group, keeping only elements satisfying the given Condition. Same as Filters.having(Condition) - pick the method you prefer to have the most readable code.
Filters<E>	Filters.having(Condition<? super E> condition)	Filter the underlying group, keeping only elements satisfying the given Condition. Same as Filters.being(Condition) - pick the method you prefer to have the most readable code.

Uses of Condition in org.assertj.core.condition

Subclasses of Condition in org.assertj.core.condition

Modifier and Type	Class	Description
class	AllOf<T>	Returns true if all of the joined conditions are satisfied.
class	AnyOf<T>	Returns true if any of the joined conditions is satisfied.
class	DoesNotHave<T>	Returns true if the condition is not satisfied.
class	Join<T>	Join of two or more Conditions.
class	MappedCondition<FROM,TO>	Container Condition that maps the object under test and then check the resulting mapped value against its nested Condition.
class	Negative<T>	Inverse the condition.
class	NestableCondition<ACTUAL,NESTED>	Building block to define precise conditions on complex objects.
class	Not<T>	Returns true if the condition is not satisfied.
final class	VerboseCondition<T>	Condition that shows the value under test when the condition fails thanks to the specified objectUnderTestDescriptor function.

Methods in org.assertj.core.condition that return Condition

Modifier and Type	Method	Description
static <T> Condition<T>	AllOf.allOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AllOf
static <T> Condition<T>	AllOf.allOf(Condition<? super T>... conditions)	Creates a new AllOf
static <T> Condition<T>	AnyOf.anyOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AnyOf
static <T> Condition<T>	AnyOf.anyOf(Condition<? super T>... conditions)	Creates a new AnyOf
static <ACTUAL, NESTED> Condition<ACTUAL>	NestableCondition.nestable(String descriptionPrefix, Function<? super ACTUAL,? extends NESTED> extractor, Condition<? super NESTED>... conditions)	Creates a new NestableCondition
static <ACTUAL> Condition<ACTUAL>	NestableCondition.nestable(String descriptionPrefix, Condition<? super ACTUAL>... conditions)	Creates a new NestableCondition

Methods in org.assertj.core.condition that return types with arguments of type Condition

Modifier and Type	Method	Description
final Collection<Condition<? super T>>	Join.conditions()	Returns the conditions to join.

Methods in org.assertj.core.condition with parameters of type Condition

Modifier and Type	Method	Description
static <T> Condition<T>	AllOf.allOf(Condition<? super T>... conditions)	Creates a new AllOf
static <T> Condition<T>	AnyOf.anyOf(Condition<? super T>... conditions)	Creates a new AnyOf
static <T> DoesNotHave<T>	DoesNotHave.doesNotHave(Condition<? super T> condition)	Creates a new DoesNotHave.
static <FROM, TO> MappedCondition<FROM,TO>	MappedCondition.mappedCondition(Function<FROM,TO> mapping, Condition<TO> condition)	Creates a new MappedCondition
static <FROM, TO> MappedCondition<FROM,TO>	MappedCondition.mappedCondition(Function<FROM,TO> mapping, Condition<TO> condition, String mappingDescription, Object... args)	Creates a new MappedCondition.
static <ACTUAL, NESTED> Condition<ACTUAL>	NestableCondition.nestable(String descriptionPrefix, Function<? super ACTUAL,? extends NESTED> extractor, Condition<? super NESTED>... conditions)	Creates a new NestableCondition
static <ACTUAL> Condition<ACTUAL>	NestableCondition.nestable(String descriptionPrefix, Condition<? super ACTUAL>... conditions)	Creates a new NestableCondition
static <T> Not<T>	Not.not(Condition<? super T> condition)	Creates a new Not.

Method parameters in org.assertj.core.condition with type arguments of type Condition

Modifier and Type	Method	Description
static <T> Condition<T>	AllOf.allOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AllOf
static <T> Condition<T>	AnyOf.anyOf(Iterable<? extends Condition<? super T>> conditions)	Creates a new AnyOf

Constructors in org.assertj.core.condition with parameters of type Condition

Modifier	Constructor	Description
protected	Join(Condition<? super T>... conditions)	Creates a new Join.
protected	Negative(Condition<? super T> condition)

Constructor parameters in org.assertj.core.condition with type arguments of type Condition

Modifier	Constructor	Description
protected	Join(Iterable<? extends Condition<? super T>> conditions)	Creates a new Join.

Uses of Condition in org.assertj.core.error

Methods in org.assertj.core.error with parameters of type Condition

Modifier and Type	Method	Description
static ErrorMessageFactory	ElementsShouldBe.elementsShouldBe(Object actual, Object notSatisfies, Condition<?> condition)	Creates a new ElementsShouldBe.
static ErrorMessageFactory	ElementsShouldBeAtLeast.elementsShouldBeAtLeast(Object actual, int times, Condition<?> condition)	Creates a new ElementsShouldBeAtLeast.
static ErrorMessageFactory	ElementsShouldBeAtMost.elementsShouldBeAtMost(Object actual, int times, Condition<?> condition)	Creates a new ElementsShouldBeAtMost.
static ErrorMessageFactory	ElementsShouldBeExactly.elementsShouldBeExactly(Object actual, int times, Condition<?> condition)	Creates a new ElementsShouldBeExactly.
static ErrorMessageFactory	ElementsShouldHave.elementsShouldHave(Object actual, Object notSatisfies, Condition<?> condition)	Creates a new ElementsShouldHave.
static ErrorMessageFactory	ElementsShouldHaveAtLeast.elementsShouldHaveAtLeast(Object actual, int times, Condition<?> condition)	Creates a new ElementsShouldHaveAtLeast.
static ErrorMessageFactory	ElementsShouldHaveAtMost.elementsShouldHaveAtMost(Object actual, int times, Condition<?> condition)	Creates a new ElementsShouldHaveAtMost.
static ErrorMessageFactory	ElementsShouldHaveExactly.elementsShouldHaveExactly(Object actual, int times, Condition<?> condition)	Creates a new ElementsShouldHaveExactly.
static ErrorMessageFactory	ElementsShouldNotBe.elementsShouldNotBe(Object actual, Object satisfies, Condition<?> condition)	Creates a new ElementsShouldNotBe.
static ErrorMessageFactory	ElementsShouldNotHave.elementsShouldNotHave(Object actual, Object notSatisfies, Condition<?> condition)	Creates a new ElementsShouldNotHave.
static <T> ErrorMessageFactory	ShouldBe.shouldBe(T actual, Condition<? super T> condition)	Creates a new ShouldBe.
static <T> ErrorMessageFactory	ShouldBeAtIndex.shouldBeAtIndex(List<? extends T> actual, Condition<? super T> condition, Index index, T found)	Creates a new ShouldBeAtIndex.
static ErrorMessageFactory	ConditionAndGroupGenericParameterTypeShouldBeTheSame.shouldBeSameGenericBetweenIterableAndCondition(Object actual, Condition<?> condition)	Creates a new ConditionAndGroupGenericParameterTypeShouldBeTheSame
static <K, V> ErrorMessageFactory	ShouldContainEntry.shouldContainEntry(Map<K,V> actual, Condition<?> entryCondition)	Creates a new ShouldContainEntry.
static <K, V> ErrorMessageFactory	ShouldContainEntry.shouldContainEntry(Map<K,V> actual, Condition<? super K> keyCondition, Condition<? super V> valueCondition)	Creates a new ShouldContainEntry.
static ErrorMessageFactory	ShouldContainKey.shouldContainKey(Object actual, Condition<?> keyCondition)	Creates a new ShouldContainKey.
static ErrorMessageFactory	ShouldContainValue.shouldContainValue(Object actual, Condition<?> valueCondition)	Creates a new ShouldContainValue.
static <T> ErrorMessageFactory	ShouldHave.shouldHave(T actual, Condition<? super T> condition)	Creates a new ShouldHave.
static <T> ErrorMessageFactory	ShouldHaveAtIndex.shouldHaveAtIndex(List<? extends T> actual, Condition<? super T> condition, Index index, T found)	Creates a new ShouldHaveAtIndex.
static <T> ErrorMessageFactory	ShouldNotBe.shouldNotBe(T actual, Condition<? super T> condition)	Creates a new ShouldNotBe.
static <T> ErrorMessageFactory	ShouldNotHave.shouldNotHave(T actual, Condition<? super T> condition)	Creates a new ShouldNotHave.
static <T> ErrorMessageFactory	ShouldSatisfy.shouldSatisfy(T actual, Condition<? super T> condition)

Constructors in org.assertj.core.error with parameters of type Condition

Modifier	Constructor	Description
	ConditionAndGroupGenericParameterTypeShouldBeTheSame(Object actual, Condition<?> condition)

Uses of Condition in org.assertj.core.internal

Methods in org.assertj.core.internal with parameters of type Condition

Modifier and Type	Method	Description
<E> void	Arrays.assertAre(AssertionInfo info, Failures failures, Conditions conditions, Object array, Condition<E> condition)
<T> void	Iterables.assertAre(AssertionInfo info, Iterable<? extends T> actual, Condition<? super T> condition)	Assert that each element of given Iterable satisfies the given condition.
<E> void	ObjectArrays.assertAre(AssertionInfo info, E[] actual, Condition<? super E> condition)	Assert that each element of given array satisfies the given condition.
<E> void	Arrays.assertAreAtLeast(AssertionInfo info, Failures failures, Conditions conditions, Object array, int times, Condition<E> condition)
<E> void	Iterables.assertAreAtLeast(AssertionInfo info, Iterable<? extends E> actual, int times, Condition<? super E> condition)	Assert that there are at least n elements in the actual Iterable satisfying the given condition.
<E> void	ObjectArrays.assertAreAtLeast(AssertionInfo info, E[] actual, int n, Condition<? super E> condition)	Assert that there are at least n array elements satisfying the given condition.
<E> void	Arrays.assertAreAtMost(AssertionInfo info, Failures failures, Conditions conditions, Object array, int times, Condition<E> condition)
<E> void	Iterables.assertAreAtMost(AssertionInfo info, Iterable<? extends E> actual, int n, Condition<? super E> condition)	Assert that there are at most n elements in the actual Iterable satisfying the given condition.
<E> void	ObjectArrays.assertAreAtMost(AssertionInfo info, E[] actual, int n, Condition<? super E> condition)	Assert that there are at most n array elements satisfying the given condition.
<E> void	Arrays.assertAreExactly(AssertionInfo info, Failures failures, Conditions conditions, Object array, int times, Condition<E> condition)
<E> void	Iterables.assertAreExactly(AssertionInfo info, Iterable<? extends E> actual, int times, Condition<? super E> condition)	Verifies that there are exactly n elements in the actual Iterable satisfying the given condition.
<E> void	ObjectArrays.assertAreExactly(AssertionInfo info, E[] actual, int n, Condition<? super E> condition)	Verifies that there are exactly n array elements satisfying the given condition.
<E> void	Arrays.assertAreNot(AssertionInfo info, Failures failures, Conditions conditions, Object array, Condition<E> condition)
<E> void	Iterables.assertAreNot(AssertionInfo info, Iterable<? extends E> actual, Condition<? super E> condition)	Assert that each element of given Iterable not satisfies the given condition.
<E> void	ObjectArrays.assertAreNot(AssertionInfo info, E[] actual, Condition<? super E> condition)	Assert that each element of given array not satisfies the given condition.
<T> void	Conditions.assertDoesNotHave(AssertionInfo info, T actual, Condition<? super T> condition)	Asserts that the actual value does not satisfy the given Condition.
<E> void	Iterables.assertDoNotHave(AssertionInfo info, Iterable<? extends E> actual, Condition<? super E> condition)	Assert that each element of given Iterable not satisfies the given condition.
<E> void	ObjectArrays.assertDoNotHave(AssertionInfo info, E[] actual, Condition<? super E> condition)	Assert that each element of given array not satisfies the given condition.
<T> void	Conditions.assertHas(AssertionInfo info, T actual, Condition<? super T> condition)	Asserts that the actual value satisfies the given Condition.
<T> void	Lists.assertHas(AssertionInfo info, List<? extends T> actual, Condition<? super T> condition, Index index)	Verifies that the given List satisfies the given Condition at the given index.
<K, V> void	Maps.assertHasEntrySatisfying(AssertionInfo info, Map<K,V> actual, K key, Condition<? super V> valueCondition)
<K, V> void	Maps.assertHasEntrySatisfying(AssertionInfo info, Map<K,V> actual, Condition<? super Map.Entry<K,V>> entryCondition)
<K, V> void	Maps.assertHasEntrySatisfyingConditions(AssertionInfo info, Map<K,V> actual, Condition<? super K> keyCondition, Condition<? super V> valueCondition)
<K> void	Maps.assertHasKeySatisfying(AssertionInfo info, Map<K,?> actual, Condition<? super K> keyCondition)
<V> void	Maps.assertHasValueSatisfying(AssertionInfo info, Map<?,V> actual, Condition<? super V> valueCondition)
<E> void	Arrays.assertHave(AssertionInfo info, Failures failures, Conditions conditions, Object array, Condition<E> condition)
<E> void	Iterables.assertHave(AssertionInfo info, Iterable<? extends E> actual, Condition<? super E> condition)	Assert that each element of given Iterable satisfies the given condition.
<E> void	ObjectArrays.assertHave(AssertionInfo info, E[] actual, Condition<? super E> condition)	Assert that each element of given array satisfies the given condition.
<E> void	Arrays.assertHaveAtLeast(AssertionInfo info, Failures failures, Conditions conditions, Object array, int times, Condition<E> condition)
<E> void	Iterables.assertHaveAtLeast(AssertionInfo info, Iterable<? extends E> actual, int times, Condition<? super E> condition)	An alias method of Iterables.assertAreAtLeast(AssertionInfo, Iterable, int, Condition) to provide a richer fluent api (same logic, only error message differs).
<E> void	ObjectArrays.assertHaveAtLeast(AssertionInfo info, E[] actual, int times, Condition<? super E> condition)	An alias method of ObjectArrays.assertAreAtLeast(AssertionInfo, Object[], int, Condition) to provide a richer fluent api (same logic, only error message differs).
<E> void	Arrays.assertHaveAtMost(AssertionInfo info, Failures failures, Conditions conditions, Object array, int times, Condition<E> condition)
<E> void	Iterables.assertHaveAtMost(AssertionInfo info, Iterable<? extends E> actual, int times, Condition<? super E> condition)	An alias method of Iterables.assertAreAtMost(AssertionInfo, Iterable, int, Condition) to provide a richer fluent api (same logic, only error message differs).
<E> void	ObjectArrays.assertHaveAtMost(AssertionInfo info, E[] actual, int times, Condition<? super E> condition)	An alias method of ObjectArrays.assertAreAtMost(AssertionInfo, Object[], int, Condition) to provide a richer fluent api (same logic, only error message differs).
<E> void	Arrays.assertHaveExactly(AssertionInfo info, Failures failures, Conditions conditions, Object array, int times, Condition<E> condition)
<E> void	Iterables.assertHaveExactly(AssertionInfo info, Iterable<? extends E> actual, int times, Condition<? super E> condition)	An alias method of Iterables.assertAreExactly(AssertionInfo, Iterable, int, Condition) to provide a richer fluent api (same logic, only error message differs).
<E> void	ObjectArrays.assertHaveExactly(AssertionInfo info, E[] actual, int times, Condition<? super E> condition)	An alias method of ObjectArrays.assertAreExactly(AssertionInfo, Object[], int, Condition) to provide a richer fluent api (same logic, only error message differs).
<E> void	Arrays.assertHaveNot(AssertionInfo info, Failures failures, Conditions conditions, Object array, Condition<E> condition)
<T> void	Conditions.assertIs(AssertionInfo info, T actual, Condition<? super T> condition)	Asserts that the actual value satisfies the given Condition.
<T> void	Lists.assertIs(AssertionInfo info, List<? extends T> actual, Condition<? super T> condition, Index index)	Verifies that the given List satisfies the given Condition at the given index.
<T> void	Conditions.assertIsNot(AssertionInfo info, T actual, Condition<? super T> condition)	Asserts that the actual value does not satisfy the given Condition.
void	Conditions.assertIsNotNull(Condition<?> condition)	Asserts the given Condition is not null.
void	Conditions.assertIsNotNull(Condition<?> condition, String format, Object... args)	Asserts the given Condition is not null.
<T> void	Conditions.assertSatisfies(AssertionInfo info, T actual, Condition<? super T> condition)