Class Assertions
- java.lang.Object
-
- org.assertj.core.api.Assertions
-
- All Implemented Interfaces:
InstanceOfAssertFactories
- Direct Known Subclasses:
BDDAssertions
public class Assertions extends Object implements InstanceOfAssertFactories
Entry point for assertion methods for different types. Each method in this class is a static factory for a type-specific assertion object.For example:
int removed = employees.removeFired();
assertThat
(removed).isZero
(); List<Employee> newEmployees = employees.hired(TODAY);assertThat
(newEmployees).hasSize
(6);This class only contains all
assertThat
methods, if you have ambiguous method compilation error, use eitherAssertionsForClassTypes
orAssertionsForInterfaceTypes
and if you need both, fully qualify you assertThat method.Java 8 is picky when choosing the right
assertThat
method if the object under test is generic and bounded, for example if foo is instance of T that extends Exception, java 8 will complain that it can't resolve the properassertThat
method (normallyassertThat(Throwable)
as foo might implement an interface like List, if that occurredassertThat(List)
would also be a possible choice - thus confusing java 8.This why
Assertions
have been split inAssertionsForClassTypes
andAssertionsForInterfaceTypes
(see http://stackoverflow.com/questions/29499847/ambiguous-method-in-java-8-why).- Author:
- Alex Ruiz, Yvonne Wang, David DIDIER, Ted Young, Joel Costigliola, Matthieu Baechler, Mikhail Mazursky, Nicolas François, Julien Meddah, William Bakker, William Delanoue
-
-
Field Summary
-
Fields inherited from interface org.assertj.core.api.InstanceOfAssertFactories
ARRAY, ATOMIC_BOOLEAN, ATOMIC_INTEGER, ATOMIC_INTEGER_ARRAY, ATOMIC_INTEGER_FIELD_UPDATER, ATOMIC_LONG, ATOMIC_LONG_ARRAY, ATOMIC_LONG_FIELD_UPDATER, ATOMIC_MARKABLE_REFERENCE, ATOMIC_REFERENCE, ATOMIC_REFERENCE_ARRAY, ATOMIC_REFERENCE_FIELD_UPDATER, ATOMIC_STAMPED_REFERENCE, BIG_DECIMAL, BIG_INTEGER, BOOLEAN, BOOLEAN_ARRAY, BYTE, BYTE_ARRAY, CHAR_ARRAY, CHAR_SEQUENCE, CHARACTER, CLASS, COMPLETABLE_FUTURE, COMPLETION_STAGE, DATE, DOUBLE, DOUBLE_ARRAY, DOUBLE_PREDICATE, DOUBLE_STREAM, DURATION, FILE, FLOAT, FLOAT_ARRAY, FUTURE, INPUT_STREAM, INSTANT, INT_ARRAY, INT_PREDICATE, INT_STREAM, INTEGER, ITERABLE, ITERATOR, LIST, LOCAL_DATE, LOCAL_DATE_TIME, LOCAL_TIME, LONG, LONG_ADDER, LONG_ARRAY, LONG_PREDICATE, LONG_STREAM, MAP, OFFSET_DATE_TIME, OFFSET_TIME, OPTIONAL, OPTIONAL_DOUBLE, OPTIONAL_INT, OPTIONAL_LONG, PATH, PREDICATE, SHORT, SHORT_ARRAY, SPLITERATOR, STREAM, STRING, STRING_BUFFER, STRING_BUILDER, THROWABLE, URI_TYPE, URL_TYPE, ZONED_DATE_TIME
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Constructor Summary
Constructors Modifier Constructor Description protected
Assertions()
Creates a new
.Assertions
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Method Summary
All Methods Static Methods Concrete Methods Modifier and Type Method Description static <T> Condition<T>
allOf(Iterable<? extends Condition<? super T>> conditions)
Creates a newAllOf
static <T> Condition<T>
allOf(Condition<? super T>... conditions)
Creates a newAllOf
static <T> Condition<T>
anyOf(Iterable<? extends Condition<? super T>> conditions)
Creates a newAnyOf
static <T> Condition<T>
anyOf(Condition<? super T>... conditions)
Only delegate toAnyOf.anyOf(Condition...)
so that Assertions offers a full feature entry point to all AssertJ features (but you can useAnyOf
if you prefer).static <T,ASSERT extends AbstractAssert<?,?>>
InstanceOfAssertFactory<T,ASSERT>as(InstanceOfAssertFactory<T,ASSERT> assertFactory)
A syntax sugar to write fluent assertion with methods having anInstanceOfAssertFactory
parameter.static AbstractBooleanAssert<?>
assertThat(boolean actual)
Creates a new instance of
.BooleanAssert
static AbstractBooleanArrayAssert<?>
assertThat(boolean[] actual)
Creates a new instance of
.BooleanArrayAssert
static AbstractByteAssert<?>
assertThat(byte actual)
Creates a new instance of
.ByteAssert
static AbstractByteArrayAssert<?>
assertThat(byte[] actual)
Creates a new instance of
.ByteArrayAssert
static AbstractCharacterAssert<?>
assertThat(char actual)
Creates a new instance of
.CharacterAssert
static AbstractCharArrayAssert<?>
assertThat(char[] actual)
Creates a new instance of
.CharArrayAssert
static AbstractDoubleAssert<?>
assertThat(double actual)
Creates a new instance of
.DoubleAssert
static AbstractDoubleArrayAssert<?>
assertThat(double[] actual)
Creates a new instance of
.DoubleArrayAssert
static AbstractFloatAssert<?>
assertThat(float actual)
Creates a new instance of
.FloatAssert
static AbstractFloatArrayAssert<?>
assertThat(float[] actual)
Creates a new instance of
.FloatArrayAssert
static AbstractIntegerAssert<?>
assertThat(int actual)
Creates a new instance of
.IntegerAssert
static AbstractIntArrayAssert<?>
assertThat(int[] actual)
Creates a new instance of
.IntArrayAssert
static AbstractLongAssert<?>
assertThat(long actual)
Creates a new instance of
.LongAssert
static AbstractLongArrayAssert<?>
assertThat(long[] actual)
Creates a new instance of
.LongArrayAssert
static AbstractShortAssert<?>
assertThat(short actual)
Creates a new instance of
.ShortAssert
static AbstractShortArrayAssert<?>
assertThat(short[] actual)
Creates a new instance of
.ShortArrayAssert
static <ACTUAL extends Iterable<? extends ELEMENT>,ELEMENT,ELEMENT_ASSERT extends AbstractAssert<ELEMENT_ASSERT,ELEMENT>>
ClassBasedNavigableIterableAssert<?,ACTUAL,ELEMENT,ELEMENT_ASSERT>assertThat(ACTUAL actual, Class<ELEMENT_ASSERT> assertClass)
Creates a new instance of
allowing to navigate to anyClassBasedNavigableIterableAssert
Iterable
element in order to perform assertions on it.static AbstractFileAssert<?>
assertThat(File actual)
Creates a new instance of
.FileAssert
static AbstractInputStreamAssert<?,? extends InputStream>
assertThat(InputStream actual)
Creates a new instance of
.InputStreamAssert
static AbstractBooleanAssert<?>
assertThat(Boolean actual)
Creates a new instance of
.BooleanAssert
static AbstractByteAssert<?>
assertThat(Byte actual)
Creates a new instance of
.ByteAssert
static AbstractCharacterAssert<?>
assertThat(Character actual)
Creates a new instance of
.CharacterAssert
static AbstractCharSequenceAssert<?,? extends CharSequence>
assertThat(CharSequence actual)
Creates a new instance of
.CharSequenceAssert
static ClassAssert
assertThat(Class<?> actual)
Creates a new instance ofClassAssert
static AbstractDoubleAssert<?>
assertThat(Double actual)
Creates a new instance of
.DoubleAssert
static AbstractFloatAssert<?>
assertThat(Float actual)
Creates a new instance of
.FloatAssert
static AbstractIntegerAssert<?>
assertThat(Integer actual)
Creates a new instance of
.IntegerAssert
static <ELEMENT> IterableAssert<ELEMENT>
assertThat(Iterable<? extends ELEMENT> actual)
Creates a new instance of
.IterableAssert
static <ACTUAL extends Iterable<? extends ELEMENT>,ELEMENT,ELEMENT_ASSERT extends AbstractAssert<ELEMENT_ASSERT,ELEMENT>>
FactoryBasedNavigableIterableAssert<?,ACTUAL,ELEMENT,ELEMENT_ASSERT>assertThat(Iterable<? extends ELEMENT> actual, AssertFactory<ELEMENT,ELEMENT_ASSERT> assertFactory)
Creates a new instance of
allowing to navigate to anyFactoryBasedNavigableIterableAssert
Iterable
element in order to perform assertions on it.static AbstractLongAssert<?>
assertThat(Long actual)
Creates a new instance of
.LongAssert
static AbstractShortAssert<?>
assertThat(Short actual)
Creates a new instance of
.ShortAssert
static AbstractStringAssert<?>
assertThat(String actual)
Creates a new instance of
.StringAssert
from aString
static AbstractCharSequenceAssert<?,? extends CharSequence>
assertThat(StringBuffer actual)
Creates a new instance of
from aCharSequenceAssert
StringBuffer
.static AbstractCharSequenceAssert<?,? extends CharSequence>
assertThat(StringBuilder actual)
Creates a new instance of
from aCharSequenceAssert
StringBuilder
.static AbstractThrowableAssert<?,? extends Throwable>
assertThat(Throwable actual)
Creates a new instance of
.ThrowableAssert
static AbstractBigDecimalAssert<?>
assertThat(BigDecimal actual)
Creates a new instance of
.BigDecimalAssert
static AbstractBigIntegerAssert<?>
assertThat(BigInteger actual)
Creates a new instance of
.BigIntegerAssert
static AbstractUriAssert<?>
assertThat(URI actual)
Creates a new instance of
.UriAssert
static AbstractUrlAssert<?>
assertThat(URL actual)
Creates a new instance of
.UrlAssert
static AbstractPathAssert<?>
assertThat(Path actual)
Creates a new instance ofPathAssert
static AbstractDurationAssert<?>
assertThat(Duration actual)
Creates a new instance of
.InstantAssert
static AbstractInstantAssert<?>
assertThat(Instant actual)
Creates a new instance of
.InstantAssert
static AbstractLocalDateAssert<?>
assertThat(LocalDate actual)
Creates a new instance of
.LocalDateAssert
static AbstractLocalDateTimeAssert<?>
assertThat(LocalDateTime actual)
Creates a new instance of
.LocalDateTimeAssert
static AbstractLocalTimeAssert<?>
assertThat(LocalTime actual)
Creates a new instance of
.LocalTimeAssert
static AbstractOffsetDateTimeAssert<?>
assertThat(OffsetDateTime actual)
Creates a new instance of
.OffsetDateTime
static AbstractOffsetTimeAssert<?>
assertThat(OffsetTime actual)
Create assertion forOffsetTime
.static AbstractZonedDateTimeAssert<?>
assertThat(ZonedDateTime actual)
Creates a new instance of
.ZonedDateTimeAssert
static AtomicBooleanAssert
assertThat(AtomicBoolean actual)
Create assertion forAtomicBoolean
.static AtomicIntegerAssert
assertThat(AtomicInteger actual)
Create assertion forAtomicInteger
.static AtomicIntegerArrayAssert
assertThat(AtomicIntegerArray actual)
Create int[] assertion forAtomicIntegerArray
.static <OBJECT> AtomicIntegerFieldUpdaterAssert<OBJECT>
assertThat(AtomicIntegerFieldUpdater<OBJECT> actual)
Create assertion forAtomicIntegerFieldUpdater
.static AtomicLongAssert
assertThat(AtomicLong actual)
Create assertion forAtomicLong
.static AtomicLongArrayAssert
assertThat(AtomicLongArray actual)
Create assertion forAtomicLongArray
.static <OBJECT> AtomicLongFieldUpdaterAssert<OBJECT>
assertThat(AtomicLongFieldUpdater<OBJECT> actual)
Create assertion forAtomicLongFieldUpdater
.static <VALUE> AtomicMarkableReferenceAssert<VALUE>
assertThat(AtomicMarkableReference<VALUE> actual)
Create assertion forAtomicMarkableReference
.static <VALUE> AtomicReferenceAssert<VALUE>
assertThat(AtomicReference<VALUE> actual)
Create assertion forAtomicReference
.static <ELEMENT> AtomicReferenceArrayAssert<ELEMENT>
assertThat(AtomicReferenceArray<ELEMENT> actual)
Create assertion forAtomicReferenceArray
.static <FIELD,OBJECT>
AtomicReferenceFieldUpdaterAssert<FIELD,OBJECT>assertThat(AtomicReferenceFieldUpdater<OBJECT,FIELD> actual)
Create assertion forAtomicReferenceFieldUpdater
.static <VALUE> AtomicStampedReferenceAssert<VALUE>
assertThat(AtomicStampedReference<VALUE> actual)
Create assertion forAtomicStampedReference
.static LongAdderAssert
assertThat(LongAdder actual)
Create assertion forLongAdder
.static <RESULT> CompletableFutureAssert<RESULT>
assertThat(CompletableFuture<RESULT> actual)
Create assertion forCompletableFuture
.static <RESULT> CompletableFutureAssert<RESULT>
assertThat(CompletionStage<RESULT> actual)
Create assertion forCompletionStage
by converting it to aCompletableFuture
and returning aCompletableFutureAssert
.static <RESULT> FutureAssert<RESULT>
assertThat(Future<RESULT> actual)
Create assertion forFuture
.static AbstractDateAssert<?>
assertThat(Date actual)
Creates a new instance of
.DateAssert
static DoublePredicateAssert
assertThat(DoublePredicate actual)
Create assertion forDoublePredicate
.static IntPredicateAssert
assertThat(IntPredicate actual)
Create assertion forIntPredicate
.static LongPredicateAssert
assertThat(LongPredicate actual)
Create assertion forLongPredicate
.static <T> PredicateAssert<T>
assertThat(Predicate<T> actual)
Create assertion forPredicate
.static <ELEMENT> IteratorAssert<ELEMENT>
assertThat(Iterator<? extends ELEMENT> actual)
Creates a new instance of
.IteratorAssert
static <ELEMENT> ListAssert<ELEMENT>
assertThat(List<? extends ELEMENT> actual)
Creates a new instance of
.ListAssert
static <ELEMENT,ACTUAL extends List<? extends ELEMENT>,ELEMENT_ASSERT extends AbstractAssert<ELEMENT_ASSERT,ELEMENT>>
ClassBasedNavigableListAssert<?,ACTUAL,ELEMENT,ELEMENT_ASSERT>assertThat(List<? extends ELEMENT> actual, Class<ELEMENT_ASSERT> assertClass)
Creates a new instance of
allowing to navigate to anyClassBasedNavigableListAssert
List
element in order to perform assertions on it.static <ACTUAL extends List<? extends ELEMENT>,ELEMENT,ELEMENT_ASSERT extends AbstractAssert<ELEMENT_ASSERT,ELEMENT>>
FactoryBasedNavigableListAssert<?,ACTUAL,ELEMENT,ELEMENT_ASSERT>assertThat(List<? extends ELEMENT> actual, AssertFactory<ELEMENT,ELEMENT_ASSERT> assertFactory)
Creates a new instance of
allowing to navigate to anyFactoryBasedNavigableListAssert
List
element in order to perform assertions on it.static <K,V>
MapAssert<K,V>assertThat(Map<K,V> actual)
Creates a new instance of
.MapAssert
static <VALUE> OptionalAssert<VALUE>
assertThat(Optional<VALUE> actual)
Create assertion forOptional
.static OptionalDoubleAssert
assertThat(OptionalDouble actual)
Create assertion forOptionalDouble
.static OptionalIntAssert
assertThat(OptionalInt actual)
Create assertion forOptionalInt
.static OptionalLongAssert
assertThat(OptionalLong actual)
Create assertion forOptionalInt
.static <ELEMENT> SpliteratorAssert<ELEMENT>
assertThat(Spliterator<ELEMENT> actual)
Creates a new instance of
from the givenSpliteratorAssert
Spliterator
.static ListAssert<Double>
assertThat(DoubleStream actual)
Creates a new instance of
from the givenListAssert
DoubleStream
.static ListAssert<Integer>
assertThat(IntStream actual)
Creates a new instance of
from the givenListAssert
IntStream
.static ListAssert<Long>
assertThat(LongStream actual)
Creates a new instance of
from the givenListAssert
LongStream
.static <ELEMENT> ListAssert<ELEMENT>
assertThat(Stream<? extends ELEMENT> actual)
Creates a new instance of
from the givenListAssert
Stream
.static <T> T
assertThat(AssertProvider<T> component)
Delegates the creation of theAssert
to theAssertProvider.assertThat()
of the given component.static <T> ObjectAssert<T>
assertThat(T actual)
Creates a new instance of
.ObjectAssert
static <T> ObjectArrayAssert<T>
assertThat(T[] actual)
Creates a new instance of
.ObjectArrayAssert
static AbstractThrowableAssert<?,? extends Throwable>
assertThatCode(ThrowableAssert.ThrowingCallable shouldRaiseOrNotThrowable)
Allows to capture and then assert on aThrowable
(easier done with lambdas).static <T extends Throwable>
ThrowableTypeAssert<T>assertThatExceptionOfType(Class<? extends T> exceptionType)
Entry point to check that an exception of type T is thrown by a giventhrowingCallable
which allows to chain assertions on the thrown exception.static ThrowableTypeAssert<IllegalArgumentException>
assertThatIllegalArgumentException()
Alias forassertThatExceptionOfType(Class)
forIllegalArgumentException
.static ThrowableTypeAssert<IllegalStateException>
assertThatIllegalStateException()
Alias forassertThatExceptionOfType(Class)
forIllegalStateException
.static ThrowableTypeAssert<IOException>
assertThatIOException()
Alias forassertThatExceptionOfType(Class)
forIOException
.static ThrowableTypeAssert<NullPointerException>
assertThatNullPointerException()
Alias forassertThatExceptionOfType(Class)
forNullPointerException
.static <T> ObjectAssert<T>
assertThatObject(T actual)
Creates a new instance of
for any object.ObjectAssert
static AbstractThrowableAssert<?,? extends Throwable>
assertThatThrownBy(ThrowableAssert.ThrowingCallable shouldRaiseThrowable)
Allows to capture and then assert on aThrowable
(easier done with lambdas).static AbstractThrowableAssert<?,? extends Throwable>
assertThatThrownBy(ThrowableAssert.ThrowingCallable shouldRaiseThrowable, String description, Object... args)
Allows to capture and then assert on aThrowable
likeassertThatThrownBy(ThrowingCallable)
but this method let you set the assertion description the same way you do withas(String, Object...)
.static Index
atIndex(int index)
Only delegate toIndex.atIndex(int)
so that Assertions offers a full feature entry point to all AssertJ features (but you can useIndex
if you prefer).static TemporalUnitOffset
byLessThan(long value, TemporalUnit unit)
Assertions entry point forTemporalUnitOffset
with strict less than condition to use withisCloseTo
temporal assertions.static Offset<Byte>
byLessThan(Byte value)
Assertions entry point for ByteOffset
to use with isCloseTo assertions.static Offset<Double>
byLessThan(Double value)
Build astrictOffset
to use withAbstractDoubleAssert.isCloseTo(double, Offset)
andAbstractDoubleAssert.isNotCloseTo(double, Offset)
assertions.static Offset<Float>
byLessThan(Float value)
Alias foroffset(Float)
to use with isCloseTo assertions.static Offset<Integer>
byLessThan(Integer value)
static Offset<Long>
byLessThan(Long value)
static Offset<Short>
byLessThan(Short value)
Assertions entry point for ShortOffset
to use with isCloseTo assertions.static Offset<BigDecimal>
byLessThan(BigDecimal value)
Assertions entry point for BigDecimalOffset
to use with isCloseTo assertions.static Offset<BigInteger>
byLessThan(BigInteger value)
Assertions entry point for BigIntegerOffset
to use with isCloseTo assertions.static Throwable
catchThrowable(ThrowableAssert.ThrowingCallable shouldRaiseThrowable)
Allows catching aThrowable
more easily when used with Java 8 lambdas.static <THROWABLE extends Throwable>
THROWABLEcatchThrowableOfType(ThrowableAssert.ThrowingCallable shouldRaiseThrowable, Class<THROWABLE> type)
Allows catching aThrowable
of a specific type.static String
contentOf(File file)
Loads the text content of a file with the default character set, so that it can be passed toassertThat(String)
.static String
contentOf(File file, String charsetName)
Loads the text content of a file, so that it can be passed toassertThat(String)
.static String
contentOf(File file, Charset charset)
Loads the text content of a file, so that it can be passed toassertThat(String)
.static String
contentOf(URL url)
Loads the text content of a URL with the default character set, so that it can be passed toassertThat(String)
.static String
contentOf(URL url, String charsetName)
Loads the text content of a URL, so that it can be passed toassertThat(String)
.static String
contentOf(URL url, Charset charset)
Loads the text content of a URL, so that it can be passed toassertThat(String)
.static <T> DoesNotHave<T>
doesNotHave(Condition<? super T> condition)
Creates a new
.DoesNotHave
static <K,V>
MapEntry<K,V>entry(K key, V value)
Only delegate toMapEntry.entry(Object, Object)
so that Assertions offers a full feature entry point to all AssertJ features (but you can useMapEntry
if you prefer).static Properties<Object>
extractProperty(String propertyName)
Only delegate toProperties.extractProperty(String)
so that Assertions offers a full feature entry point to all AssertJ features (but you can useProperties
if you prefer).static <T> Properties<T>
extractProperty(String propertyName, Class<T> propertyType)
Only delegate toProperties.extractProperty(String)
so that Assertions offers a full feature entry point to all AssertJ features (but you can useProperties
if you prefer).static <T> T
fail(String failureMessage)
Throws anAssertionError
with the given message.static <T> T
fail(String failureMessage, Object... args)
Throws anAssertionError
with the given message built asString.format(String, Object...)
.static <T> T
fail(String failureMessage, Throwable realCause)
Throws anAssertionError
with the given message and with theThrowable
that caused the failure.static <T> T
failBecauseExceptionWasNotThrown(Class<? extends Throwable> throwableClass)
Throws anAssertionError
with a message explaining that aThrowable
of given class was expected to be thrown but had not been.static <E> Filters<E>
filter(E[] array)
Only delegate toFilters.filter(Object[])
so that Assertions offers a full feature entry point to all AssertJ features (but you can useFilters
if you prefer).static <E> Filters<E>
filter(Iterable<E> iterableToFilter)
Only delegate toFilters.filter(Object[])
so that Assertions offers a full feature entry point to all AssertJ features (but you can useFilters
if you prefer).static <F,T>
Function<F,T>from(Function<F,T> extractor)
A syntax sugar to write fluent assertion usingAbstractObjectAssert.returns(Object, Function)
.static InFilter
in(Object... values)
Create aFilterOperator
to use infilteredOn(String, FilterOperation)
to express a filter keeping all Iterable elements whose property/field value matches one of the given values.static List<String>
linesOf(File file)
Loads the text content of a file into a list of strings with the default charset, each string corresponding to a line.static List<String>
linesOf(File file, String charsetName)
Loads the text content of a file into a list of strings, each string corresponding to a line.static List<String>
linesOf(File file, Charset charset)
Loads the text content of a file into a list of strings, each string corresponding to a line.static List<String>
linesOf(URL url)
Loads the text content of a URL into a list of strings with the default charset, each string corresponding to a line.static List<String>
linesOf(URL url, String charsetName)
Loads the text content of a URL into a list of strings, each string corresponding to a line.static List<String>
linesOf(URL url, Charset charset)
Loads the text content of a URL into a list of strings, each string corresponding to a line.static NotFilter
not(Object valueNotToMatch)
Create aFilterOperator
to use infilteredOn(String, FilterOperation)
to express a filter keeping all Iterable elements whose property/field value matches does not match the given value.static <T> Not<T>
not(Condition<? super T> condition)
Creates a new
.Not
static NotInFilter
notIn(Object... valuesNotToMatch)
Create aFilterOperator
to use infilteredOn(String, FilterOperation)
to express a filter keeping all Iterable elements whose property/field value matches does not match any of the given values.static Offset<Double>
offset(Double value)
Assertions entry point for doubleOffset
.static Offset<Float>
offset(Float value)
Assertions entry point for floatOffset
.static void
registerCustomDateFormat(String userCustomDateFormatPattern)
Add the given date format to the ones used to parse date String in String based Date assertions likeAbstractDateAssert.isEqualTo(String)
.static void
registerCustomDateFormat(DateFormat userCustomDateFormat)
Add the given date format to the ones used to parse date String in String based Date assertions likeAbstractDateAssert.isEqualTo(String)
.static <T> void
registerFormatterForType(Class<T> type, Function<T,String> formatter)
Assertions error messages uses aRepresentation
to format the different types involved, using this method you can control the formatting of a given type by providing a specific formatter.static void
setAllowComparingPrivateFields(boolean allowComparingPrivateFields)
Globally sets whether the use of private fields is allowed for comparison.static void
setAllowExtractingPrivateFields(boolean allowExtractingPrivateFields)
Globally sets whether
andIterableAssert#extracting(String)
should be allowed to extract private fields, if not and they try it fails with exception.ObjectArrayAssert#extracting(String)
static void
setExtractBareNamePropertyMethods(boolean barenamePropertyMethods)
Globally sets whether the extractor considers bare-named property methods likeString name()
.static void
setLenientDateParsing(boolean value)
Instead of using default strict date/time parsing, it is possible to use lenient parsing mode for default date formats parser to interpret inputs that do not precisely match supported date formats (lenient parsing).static void
setMaxElementsForPrinting(int maxElementsForPrinting)
In error messages, sets the threshold for how many elements from one iterable/array/map will be included in the in the description.static void
setMaxLengthForSingleLineDescription(int maxLengthForSingleLineDescription)
In error messages, sets the threshold when iterable/array formatting will be on one line (if their String description is less than this parameter) or it will be formatted with one element per line.static void
setRemoveAssertJRelatedElementsFromStackTrace(boolean removeAssertJRelatedElementsFromStackTrace)
Sets whether we remove elements related to AssertJ from assertion error stack trace.static <T> T
shouldHaveThrown(Class<? extends Throwable> throwableClass)
Throws anAssertionError
with a message explaining that aThrowable
of given class was expected to be thrown but had not been.static Tuple
tuple(Object... values)
Utility method to build nicely aTuple
when working withAbstractIterableAssert.extracting(String...)
orAbstractObjectArrayAssert.extracting(String...)
static void
useDefaultDateFormatsOnly()
Remove all registered custom date formats => use only the defaults date formats to parse string as date.static void
useDefaultRepresentation()
Fallback to useStandardRepresentation
to revert the effect of callinguseRepresentation(Representation)
.static void
useRepresentation(Representation customRepresentation)
Register aRepresentation
that will be used in all following assertions.static TemporalUnitOffset
within(long value, TemporalUnit unit)
Assertions entry point forTemporalUnitOffset
with with less than or equal condition to use with isCloseTo temporal assertions.static Offset<Byte>
within(Byte value)
Assertions entry point for ByteOffset
to use with isCloseTo assertions.static Offset<Double>
within(Double value)
Alias foroffset(Double)
to use with isCloseTo assertions.static Offset<Float>
within(Float value)
Alias foroffset(Float)
to use with isCloseTo assertions.static Offset<Integer>
within(Integer value)
Assertions entry point for IntegerOffset
to use with isCloseTo assertions.static Offset<Long>
within(Long value)
static Offset<Short>
within(Short value)
Assertions entry point for ShortOffset
to use with isCloseTo assertions.static Offset<BigDecimal>
within(BigDecimal value)
Assertions entry point for BigDecimalOffset
to use with isCloseTo assertions.static Offset<BigInteger>
within(BigInteger value)
Assertions entry point for BigIntegerOffset
to use with isCloseTo assertions.static Percentage
withinPercentage(Double value)
Assertions entry point for DoublePercentage
to use with isCloseTo assertions for percentages.static Percentage
withinPercentage(Integer value)
Assertions entry point for IntegerPercentage
to use with isCloseTo assertions for percentages.static Percentage
withinPercentage(Long value)
Assertions entry point for LongPercentage
to use with isCloseTo assertions for percentages.static Offset<Double>
withPrecision(Double value)
Alias foroffset(Double)
to use with real number assertions.static Offset<Float>
withPrecision(Float value)
Alias foroffset(Float)
to use with real number assertions.
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Constructor Detail
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Assertions
protected Assertions()
Creates a new
.Assertions
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Method Detail
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assertThat
public static <T> PredicateAssert<T> assertThat(Predicate<T> actual)
Create assertion forPredicate
.- Type Parameters:
T
- the type of the value contained in thePredicate
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 3.5.0
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assertThat
public static IntPredicateAssert assertThat(IntPredicate actual)
Create assertion forIntPredicate
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 3.5.0
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assertThat
public static LongPredicateAssert assertThat(LongPredicate actual)
Create assertion forLongPredicate
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 3.5.0
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assertThat
public static DoublePredicateAssert assertThat(DoublePredicate actual)
Create assertion forDoublePredicate
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 3.5.0
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assertThat
public static <RESULT> CompletableFutureAssert<RESULT> assertThat(CompletableFuture<RESULT> actual)
Create assertion forCompletableFuture
.- Type Parameters:
RESULT
- the type of the value contained in theCompletableFuture
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
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assertThat
public static <RESULT> CompletableFutureAssert<RESULT> assertThat(CompletionStage<RESULT> actual)
Create assertion forCompletionStage
by converting it to aCompletableFuture
and returning aCompletableFutureAssert
.If the given
CompletionStage
is null, theCompletableFuture
in the returnedCompletableFutureAssert
will also be null.- Type Parameters:
RESULT
- the type of the value contained in theCompletionStage
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <VALUE> OptionalAssert<VALUE> assertThat(Optional<VALUE> actual)
Create assertion forOptional
.- Type Parameters:
VALUE
- the type of the value contained in theOptional
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static OptionalDoubleAssert assertThat(OptionalDouble actual)
Create assertion forOptionalDouble
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static OptionalIntAssert assertThat(OptionalInt actual)
Create assertion forOptionalInt
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static OptionalLongAssert assertThat(OptionalLong actual)
Create assertion forOptionalInt
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractBigDecimalAssert<?> assertThat(BigDecimal actual)
Creates a new instance of
.BigDecimalAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractBigIntegerAssert<?> assertThat(BigInteger actual)
Creates a new instance of
.BigIntegerAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static AbstractUriAssert<?> assertThat(URI actual)
Creates a new instance of
.UriAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractUrlAssert<?> assertThat(URL actual)
Creates a new instance of
.UrlAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractBooleanAssert<?> assertThat(boolean actual)
Creates a new instance of
.BooleanAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractBooleanAssert<?> assertThat(Boolean actual)
Creates a new instance of
.BooleanAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractBooleanArrayAssert<?> assertThat(boolean[] actual)
Creates a new instance of
.BooleanArrayAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractByteAssert<?> assertThat(byte actual)
Creates a new instance of
.ByteAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractByteAssert<?> assertThat(Byte actual)
Creates a new instance of
.ByteAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractByteArrayAssert<?> assertThat(byte[] actual)
Creates a new instance of
.ByteArrayAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractCharacterAssert<?> assertThat(char actual)
Creates a new instance of
.CharacterAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractCharArrayAssert<?> assertThat(char[] actual)
Creates a new instance of
.CharArrayAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractCharacterAssert<?> assertThat(Character actual)
Creates a new instance of
.CharacterAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static ClassAssert assertThat(Class<?> actual)
Creates a new instance ofClassAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractDoubleAssert<?> assertThat(double actual)
Creates a new instance of
.DoubleAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractDoubleAssert<?> assertThat(Double actual)
Creates a new instance of
.DoubleAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractDoubleArrayAssert<?> assertThat(double[] actual)
Creates a new instance of
.DoubleArrayAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractFileAssert<?> assertThat(File actual)
Creates a new instance of
.FileAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <RESULT> FutureAssert<RESULT> assertThat(Future<RESULT> actual)
Create assertion forFuture
.- Type Parameters:
RESULT
- the type of the value contained in theFuture
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static AbstractInputStreamAssert<?,? extends InputStream> assertThat(InputStream actual)
Creates a new instance of
.InputStreamAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractFloatAssert<?> assertThat(float actual)
Creates a new instance of
.FloatAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractFloatAssert<?> assertThat(Float actual)
Creates a new instance of
.FloatAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractFloatArrayAssert<?> assertThat(float[] actual)
Creates a new instance of
.FloatArrayAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractIntegerAssert<?> assertThat(int actual)
Creates a new instance of
.IntegerAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractIntArrayAssert<?> assertThat(int[] actual)
Creates a new instance of
.IntArrayAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractIntegerAssert<?> assertThat(Integer actual)
Creates a new instance of
.IntegerAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <ACTUAL extends Iterable<? extends ELEMENT>,ELEMENT,ELEMENT_ASSERT extends AbstractAssert<ELEMENT_ASSERT,ELEMENT>> FactoryBasedNavigableIterableAssert<?,ACTUAL,ELEMENT,ELEMENT_ASSERT> assertThat(Iterable<? extends ELEMENT> actual, AssertFactory<ELEMENT,ELEMENT_ASSERT> assertFactory)
Creates a new instance of
allowing to navigate to anyFactoryBasedNavigableIterableAssert
Iterable
element in order to perform assertions on it.Navigational methods provided:
The available assertions after navigating to an element depend on the
ELEMENT_ASSERT
parameter of the givenAssertFactory<ELEMENT, ELEMENT_ASSERT>
(AssertJ can't figure it out because of Java type erasure).Example with
String
element assertions:Iterable<String> hobbits = newHashSet("frodo", "sam", "pippin"); // build an AssertFactory for StringAssert (much nicer with Java 8 lambdas) AssertFactory<String, StringAssert> stringAssertFactory = new AssertFactory<String, StringAssert>() { @Override public StringAssert createAssert(String string) { return new StringAssert(string); } }; // assertion succeeds with String assertions chained after first() assertThat(hobbits, stringAssertFactory).first() .startsWith("fro") .endsWith("do");
- Type Parameters:
ACTUAL
- The actual typeELEMENT
- The actual elements typeELEMENT_ASSERT
- The actual elements AbstractAssert type- Parameters:
actual
- the actual value.assertFactory
- the factory used to create the elements assert instance.- Returns:
- the created assertion object.
- Since:
- 2.5.0 / 3.5.0
-
assertThat
public static <ACTUAL extends Iterable<? extends ELEMENT>,ELEMENT,ELEMENT_ASSERT extends AbstractAssert<ELEMENT_ASSERT,ELEMENT>> ClassBasedNavigableIterableAssert<?,ACTUAL,ELEMENT,ELEMENT_ASSERT> assertThat(ACTUAL actual, Class<ELEMENT_ASSERT> assertClass)
Creates a new instance of
allowing to navigate to anyClassBasedNavigableIterableAssert
Iterable
element in order to perform assertions on it.Navigational methods provided:
The available assertions after navigating to an element depend on the given
assertClass
(AssertJ can't find the element assert type by itself because of Java type erasure).Example with
String
element assertions:Iterable<String> hobbits = newHashSet("frodo", "sam", "pippin"); // assertion succeeds with String assertions chained after first() assertThat(hobbits, StringAssert.class).first() .startsWith("fro") .endsWith("do");
- Type Parameters:
ACTUAL
- The actual typeELEMENT
- The actual elements typeELEMENT_ASSERT
- The actual elements AbstractAssert type- Parameters:
actual
- the actual value.assertClass
- the class used to create the elements assert instance.- Returns:
- the created assertion object.
- Since:
- 2.5.0 / 3.5.0
-
assertThat
public static <ACTUAL extends List<? extends ELEMENT>,ELEMENT,ELEMENT_ASSERT extends AbstractAssert<ELEMENT_ASSERT,ELEMENT>> FactoryBasedNavigableListAssert<?,ACTUAL,ELEMENT,ELEMENT_ASSERT> assertThat(List<? extends ELEMENT> actual, AssertFactory<ELEMENT,ELEMENT_ASSERT> assertFactory)
Creates a new instance of
allowing to navigate to anyFactoryBasedNavigableListAssert
List
element in order to perform assertions on it.Navigational methods provided:
The available assertions after navigating to an element depend on the
ELEMENT_ASSERT
parameter of the givenAssertFactory<ELEMENT, ELEMENT_ASSERT>
(AssertJ can't figure it out because of Java type erasure).Example with
String
element assertions:List<String> hobbits = newArrayList("frodo", "sam", "pippin"); // build an AssertFactory for StringAssert (much nicer with Java 8 lambdas) AssertFactory<String, StringAssert> stringAssertFactory = new AssertFactory<String, StringAssert>() { @Override public StringAssert createAssert(String string) { return new StringAssert(string); } }; // assertion succeeds with String assertions chained after first() assertThat(hobbits, stringAssertFactory).first() .startsWith("fro") .endsWith("do");
- Type Parameters:
ACTUAL
- The actual typeELEMENT
- The actual elements typeELEMENT_ASSERT
- The actual elements AbstractAssert type- Parameters:
actual
- the actual value.assertFactory
- the factory used to create the elements assert instance.- Returns:
- the created assertion object.
- Since:
- 2.5.0 / 3.5.0
-
assertThat
public static <ELEMENT,ACTUAL extends List<? extends ELEMENT>,ELEMENT_ASSERT extends AbstractAssert<ELEMENT_ASSERT,ELEMENT>> ClassBasedNavigableListAssert<?,ACTUAL,ELEMENT,ELEMENT_ASSERT> assertThat(List<? extends ELEMENT> actual, Class<ELEMENT_ASSERT> assertClass)
Creates a new instance of
allowing to navigate to anyClassBasedNavigableListAssert
List
element in order to perform assertions on it.Navigational methods provided:
The available assertions after navigating to an element depend on the given
assertClass
(AssertJ can't find the element assert type by itself because of Java type erasure).Example with
String
element assertions:List<String> hobbits = newArrayList("frodo", "sam", "pippin"); // assertion succeeds with String assertions chained after first() assertThat(hobbits, StringAssert.class).first() .startsWith("fro") .endsWith("do");
- Type Parameters:
ACTUAL
- The actual typeELEMENT
- The actual elements typeELEMENT_ASSERT
- The actual elements AbstractAssert type- Parameters:
actual
- the actual value.assertClass
- the class used to create the elements assert instance.- Returns:
- the created assertion object.
- Since:
- 2.5.0 / 3.5.0
-
assertThat
public static AbstractLongAssert<?> assertThat(long actual)
Creates a new instance of
.LongAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractLongAssert<?> assertThat(Long actual)
Creates a new instance of
.LongAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractLongArrayAssert<?> assertThat(long[] actual)
Creates a new instance of
.LongArrayAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <T> ObjectAssert<T> assertThat(T actual)
Creates a new instance of
.ObjectAssert
- Type Parameters:
T
- the type of the actual value.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <T> ObjectArrayAssert<T> assertThat(T[] actual)
Creates a new instance of
.ObjectArrayAssert
- Type Parameters:
T
- the actual's elements type.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractShortAssert<?> assertThat(short actual)
Creates a new instance of
.ShortAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractShortAssert<?> assertThat(Short actual)
Creates a new instance of
.ShortAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractShortArrayAssert<?> assertThat(short[] actual)
Creates a new instance of
.ShortArrayAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractDateAssert<?> assertThat(Date actual)
Creates a new instance of
.DateAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractZonedDateTimeAssert<?> assertThat(ZonedDateTime actual)
Creates a new instance of
.ZonedDateTimeAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractLocalDateTimeAssert<?> assertThat(LocalDateTime actual)
Creates a new instance of
.LocalDateTimeAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractOffsetDateTimeAssert<?> assertThat(OffsetDateTime actual)
Creates a new instance of
.OffsetDateTime
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractOffsetTimeAssert<?> assertThat(OffsetTime actual)
Create assertion forOffsetTime
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractLocalTimeAssert<?> assertThat(LocalTime actual)
Creates a new instance of
.LocalTimeAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractLocalDateAssert<?> assertThat(LocalDate actual)
Creates a new instance of
.LocalDateAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractInstantAssert<?> assertThat(Instant actual)
Creates a new instance of
.InstantAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 3.7.0
-
assertThat
public static AbstractDurationAssert<?> assertThat(Duration actual)
Creates a new instance of
.InstantAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 3.15.0
-
assertThat
public static AtomicBooleanAssert assertThat(AtomicBoolean actual)
Create assertion forAtomicBoolean
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static AtomicIntegerAssert assertThat(AtomicInteger actual)
Create assertion forAtomicInteger
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static AtomicIntegerArrayAssert assertThat(AtomicIntegerArray actual)
Create int[] assertion forAtomicIntegerArray
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static <OBJECT> AtomicIntegerFieldUpdaterAssert<OBJECT> assertThat(AtomicIntegerFieldUpdater<OBJECT> actual)
Create assertion forAtomicIntegerFieldUpdater
.- Type Parameters:
OBJECT
- the type of the object holding the updatable field.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static LongAdderAssert assertThat(LongAdder actual)
Create assertion forLongAdder
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 3.16.0
-
assertThat
public static AtomicLongAssert assertThat(AtomicLong actual)
Create assertion forAtomicLong
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static AtomicLongArrayAssert assertThat(AtomicLongArray actual)
Create assertion forAtomicLongArray
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static <OBJECT> AtomicLongFieldUpdaterAssert<OBJECT> assertThat(AtomicLongFieldUpdater<OBJECT> actual)
Create assertion forAtomicLongFieldUpdater
.- Type Parameters:
OBJECT
- the type of the object holding the updatable field.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static <VALUE> AtomicReferenceAssert<VALUE> assertThat(AtomicReference<VALUE> actual)
Create assertion forAtomicReference
.- Type Parameters:
VALUE
- the type of the value contained in theAtomicReference
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static <ELEMENT> AtomicReferenceArrayAssert<ELEMENT> assertThat(AtomicReferenceArray<ELEMENT> actual)
Create assertion forAtomicReferenceArray
.- Type Parameters:
ELEMENT
- the type of the value contained in theAtomicReferenceArray
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static <FIELD,OBJECT> AtomicReferenceFieldUpdaterAssert<FIELD,OBJECT> assertThat(AtomicReferenceFieldUpdater<OBJECT,FIELD> actual)
Create assertion forAtomicReferenceFieldUpdater
.- Type Parameters:
FIELD
- the type of the field which gets updated by theAtomicReferenceFieldUpdater
.OBJECT
- the type of the object holding the updatable field.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static <VALUE> AtomicMarkableReferenceAssert<VALUE> assertThat(AtomicMarkableReference<VALUE> actual)
Create assertion forAtomicMarkableReference
.- Type Parameters:
VALUE
- the type of the value contained in theAtomicMarkableReference
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static <VALUE> AtomicStampedReferenceAssert<VALUE> assertThat(AtomicStampedReference<VALUE> actual)
Create assertion forAtomicStampedReference
.- Type Parameters:
VALUE
- the type of the value contained in theAtomicStampedReference
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 2.7.0 / 3.7.0
-
assertThat
public static AbstractThrowableAssert<?,? extends Throwable> assertThat(Throwable actual)
Creates a new instance of
.ThrowableAssert
- Parameters:
actual
- the actual value.- Returns:
- the created
ThrowableAssert
.
-
assertThatThrownBy
public static AbstractThrowableAssert<?,? extends Throwable> assertThatThrownBy(ThrowableAssert.ThrowingCallable shouldRaiseThrowable)
Allows to capture and then assert on aThrowable
(easier done with lambdas).Java 8 example :
If the provided@Test public void testException() { assertThatThrownBy(() -> { throw new Exception("boom!"); }).isInstanceOf(Exception.class) .hasMessageContaining("boom"); }
ThrowableAssert.ThrowingCallable
does not raise an exception, an error is immediately thrown, in that case the test description provided withas(String, Object...)
is not honored.
To use a test description, usecatchThrowable(ThrowableAssert.ThrowingCallable)
as shown below:
Alternatively you can also use// assertion will fail but "display me" won't appear in the error assertThatThrownBy(() -> {}).as("display me") .isInstanceOf(Exception.class); // assertion will fail AND "display me" will appear in the error Throwable thrown = catchThrowable(() -> {}); assertThat(thrown).as("display me") .isInstanceOf(Exception.class);
assertThatCode(ThrowingCallable)
for the test description provided withas(String, Object...)
to always be honored.- Parameters:
shouldRaiseThrowable
- TheThrowableAssert.ThrowingCallable
or lambda with the code that should raise the throwable.- Returns:
- the created
ThrowableAssert
.
-
assertThatThrownBy
public static AbstractThrowableAssert<?,? extends Throwable> assertThatThrownBy(ThrowableAssert.ThrowingCallable shouldRaiseThrowable, String description, Object... args)
Allows to capture and then assert on aThrowable
likeassertThatThrownBy(ThrowingCallable)
but this method let you set the assertion description the same way you do withas(String, Object...)
.Example:
If the provided@Test public void testException() { // if this assertion failed (but it doesn't), the error message would start with [Test explosive code] assertThatThrownBy(() -> { throw new IOException("boom!"); }, "Test explosive code") .isInstanceOf(IOException.class) .hasMessageContaining("boom"); }
ThrowingCallable
does not raise an exception, an error is immediately thrown.The test description provided is honored but not the one with
as(String, Object...)
, example:// assertion will fail but "display me" won't appear in the error message assertThatThrownBy(() -> {}).as("display me") .isInstanceOf(Exception.class); // assertion will fail AND "display me" will appear in the error message assertThatThrownBy(() -> {}, "display me") .isInstanceOf(Exception.class);
- Parameters:
shouldRaiseThrowable
- TheThrowableAssert.ThrowingCallable
or lambda with the code that should raise the throwable.description
- the new description to set.args
- optional parameter if description is a format String.- Returns:
- the created
ThrowableAssert
. - Since:
- 3.9.0
-
assertThatCode
public static AbstractThrowableAssert<?,? extends Throwable> assertThatCode(ThrowableAssert.ThrowingCallable shouldRaiseOrNotThrowable)
Allows to capture and then assert on aThrowable
(easier done with lambdas).The main difference with
assertThatThrownBy(ThrowingCallable)
is that this method does not fail if no exception was thrown.Example :
Contrary toThrowingCallable boomCode = () -> { throw new Exception("boom!"); }; ThrowingCallable doNothing = () -> {}; // assertions succeed assertThatCode(doNothing).doesNotThrowAnyException(); assertThatCode(boomCode).isInstanceOf(Exception.class) .hasMessageContaining("boom"); // assertion fails assertThatCode(boomCode).doesNotThrowAnyException();
assertThatThrownBy(ThrowingCallable)
the test description provided withas(String, Object...)
is always honored as shown below.ThrowingCallable doNothing = () -> {}; // assertion fails and "display me" appears in the assertion error assertThatCode(doNothing).as("display me") .isInstanceOf(Exception.class);
This method was not named
assertThat
because the java compiler reported it ambiguous when used directly with a lambda :(- Parameters:
shouldRaiseOrNotThrowable
- TheThrowableAssert.ThrowingCallable
or lambda with the code that should raise the throwable.- Returns:
- the created
ThrowableAssert
. - Since:
- 3.7.0
-
assertThatObject
public static <T> ObjectAssert<T> assertThatObject(T actual)
Creates a new instance of
for any object.ObjectAssert
This overload is useful, when an overloaded method of assertThat(...) takes precedence over the generic
assertThat(Object)
.Example:
Cast necessary becauseassertThat(List)
"forgets" actual type:
No cast needed, but also no additional list assertions:assertThat(new LinkedList<>(asList("abc"))).matches(list -> ((Deque<String>) list).getFirst().equals("abc"));
assertThatObject(new LinkedList<>(asList("abc"))).matches(list -> list.getFirst().equals("abc"));
- Type Parameters:
T
- the type of the actual value.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 3.12.0
-
catchThrowable
public static Throwable catchThrowable(ThrowableAssert.ThrowingCallable shouldRaiseThrowable)
Allows catching aThrowable
more easily when used with Java 8 lambdas.This caught
Throwable
can then be asserted.If you need to assert on the real type of Throwable caught (e.g. IOException), use
catchThrowableOfType(ThrowableAssert.ThrowingCallable, Class)
.Example:
@Test public void testException() { // when Throwable thrown = catchThrowable(() -> { throw new Exception("boom!"); }); // then assertThat(thrown).isInstanceOf(Exception.class) .hasMessageContaining("boom"); }
- Parameters:
shouldRaiseThrowable
- The lambda with the code that should raise the exception.- Returns:
- The captured exception or
null
if none was raised by the callable. - See Also:
catchThrowableOfType(ThrowableAssert.ThrowingCallable, Class)
-
catchThrowableOfType
public static <THROWABLE extends Throwable> THROWABLE catchThrowableOfType(ThrowableAssert.ThrowingCallable shouldRaiseThrowable, Class<THROWABLE> type)
Allows catching aThrowable
of a specific type.A call is made to
catchThrowable(ThrowingCallable)
, if no exception is thrown it returns null otherwise it checks that the caughtThrowable
has the specified type and casts it making it convenient to perform subtype-specific assertions on it.Example:
class TextException extends Exception { int line; int column; public TextException(String msg, int line, int column) { super(msg); this.line = line; this.column = column; } } TextException textException = catchThrowableOfType(() -> { throw new TextException("boom!", 1, 5); }, TextException.class); // assertions succeed assertThat(textException).hasMessage("boom!"); assertThat(textException.line).isEqualTo(1); assertThat(textException.column).isEqualTo(5); // succeeds as catchThrowableOfType returns null when the code does not thrown any exceptions assertThat(catchThrowableOfType(() -> {}, Exception.class)).isNull(); // fails as TextException is not a RuntimeException catchThrowableOfType(() -> { throw new TextException("boom!", 1, 5); }, RuntimeException.class);
- Type Parameters:
THROWABLE
- theThrowable
type.- Parameters:
shouldRaiseThrowable
- The lambda with the code that should raise the exception.type
- The type of exception that the code is expected to raise.- Returns:
- The captured exception or
null
if none was raised by the callable. - Since:
- 3.9.0
- See Also:
catchThrowable(ThrowableAssert.ThrowingCallable)
-
assertThatExceptionOfType
public static <T extends Throwable> ThrowableTypeAssert<T> assertThatExceptionOfType(Class<? extends T> exceptionType)
Entry point to check that an exception of type T is thrown by a giventhrowingCallable
which allows to chain assertions on the thrown exception.Example:
This method is more or less the same ofassertThatExceptionOfType(IOException.class) .isThrownBy(() -> { throw new IOException("boom!"); }) .withMessage("boom!");
assertThatThrownBy(ThrowableAssert.ThrowingCallable)
but in a more natural way.- Type Parameters:
T
- the exception type.- Parameters:
exceptionType
- the exception type class.- Returns:
- the created
ThrowableTypeAssert
.
-
assertThatNullPointerException
public static ThrowableTypeAssert<NullPointerException> assertThatNullPointerException()
Alias forassertThatExceptionOfType(Class)
forNullPointerException
.- Returns:
- the created
ThrowableTypeAssert
. - Since:
- 3.7.0
-
assertThatIllegalArgumentException
public static ThrowableTypeAssert<IllegalArgumentException> assertThatIllegalArgumentException()
Alias forassertThatExceptionOfType(Class)
forIllegalArgumentException
.- Returns:
- the created
ThrowableTypeAssert
. - Since:
- 3.7.0
-
assertThatIOException
public static ThrowableTypeAssert<IOException> assertThatIOException()
Alias forassertThatExceptionOfType(Class)
forIOException
.- Returns:
- the created
ThrowableTypeAssert
. - Since:
- 3.7.0
-
assertThatIllegalStateException
public static ThrowableTypeAssert<IllegalStateException> assertThatIllegalStateException()
Alias forassertThatExceptionOfType(Class)
forIllegalStateException
.- Returns:
- the created
ThrowableTypeAssert
. - Since:
- 3.7.0
-
setRemoveAssertJRelatedElementsFromStackTrace
public static void setRemoveAssertJRelatedElementsFromStackTrace(boolean removeAssertJRelatedElementsFromStackTrace)
Sets whether we remove elements related to AssertJ from assertion error stack trace.Default is true.
- Parameters:
removeAssertJRelatedElementsFromStackTrace
- flag.
-
fail
public static <T> T fail(String failureMessage)
Throws anAssertionError
with the given message.- Type Parameters:
T
- dummy return value type- Parameters:
failureMessage
- error message.- Returns:
- nothing, it's just to be used in doSomething(optional.orElse(() -> fail("boom")));.
- Throws:
AssertionError
- with the given message.
-
fail
public static <T> T fail(String failureMessage, Object... args)
Throws anAssertionError
with the given message built asString.format(String, Object...)
.- Type Parameters:
T
- dummy return value type- Parameters:
failureMessage
- error message.args
- Arguments referenced by the format specifiers in the format string.- Returns:
- nothing, it's just to be used in doSomething(optional.orElse(() -> fail("b%s", ""oom)));.
- Throws:
AssertionError
- with the given built message.
-
fail
public static <T> T fail(String failureMessage, Throwable realCause)
Throws anAssertionError
with the given message and with theThrowable
that caused the failure.- Type Parameters:
T
- dummy return value type- Parameters:
failureMessage
- the description of the failed assertion. It can benull
.realCause
- cause of the error.- Returns:
- nothing, it's just to be used in doSomething(optional.orElse(() -> fail("boom", cause)));.
- Throws:
AssertionError
- with the given message and with theThrowable
that caused the failure.
-
failBecauseExceptionWasNotThrown
public static <T> T failBecauseExceptionWasNotThrown(Class<? extends Throwable> throwableClass)
Throws anAssertionError
with a message explaining that aThrowable
of given class was expected to be thrown but had not been.shouldHaveThrown(Class)
can be used as a replacement.- Type Parameters:
T
- dummy return value type- Parameters:
throwableClass
- the Throwable class that was expected to be thrown.- Returns:
- nothing, it's just to be used in doSomething(optional.orElse(() -> failBecauseExceptionWasNotThrown(IOException.class)));.
- Throws:
AssertionError
- with a message explaining that aThrowable
of given class was expected to be thrown but had not been.
-
shouldHaveThrown
public static <T> T shouldHaveThrown(Class<? extends Throwable> throwableClass)
Throws anAssertionError
with a message explaining that aThrowable
of given class was expected to be thrown but had not been.- Type Parameters:
T
- dummy return value type- Parameters:
throwableClass
- the Throwable class that was expected to be thrown.- Returns:
- nothing, it's just to be used in doSomething(optional.orElse(() -> shouldHaveThrown(IOException.class)));.
- Throws:
AssertionError
- with a message explaining that aThrowable
of given class was expected to be thrown but had not been.
-
setMaxLengthForSingleLineDescription
public static void setMaxLengthForSingleLineDescription(int maxLengthForSingleLineDescription)
In error messages, sets the threshold when iterable/array formatting will be on one line (if their String description is less than this parameter) or it will be formatted with one element per line.The following array will be formatted on one line as its length < 80:
whereas this array is formatted on multiple lines (one element per line)String[] greatBooks = array("A Game of Thrones", "The Lord of the Rings", "Assassin's Apprentice"); // formatted as: ["A Game of Thrones", "The Lord of the Rings", "Assassin's Apprentice"]
String[] greatBooks = array("A Game of Thrones", "The Lord of the Rings", "Assassin's Apprentice", "Guards! Guards! (Discworld)"); // formatted as: ["A Game of Thrones", "The Lord of the Rings", "Assassin's Apprentice", "Guards! Guards! (Discworld)"]
- Parameters:
maxLengthForSingleLineDescription
- the maximum length for an iterable/array to be displayed on one line
-
setMaxElementsForPrinting
public static void setMaxElementsForPrinting(int maxElementsForPrinting)
In error messages, sets the threshold for how many elements from one iterable/array/map will be included in the in the description. E.q. When this method is called with a value of3
.The following array will be formatted entirely as it's length is <= 3:
whereas this array is formatted only with it's first 3 elements, followed byString[] greatBooks = array("A Game of Thrones", "The Lord of the Rings", "Assassin's Apprentice"); // formatted as: ["A Game of Thrones", "The Lord of the Rings", "Assassin's Apprentice"]
...
:String[] greatBooks = array("A Game of Thrones", "The Lord of the Rings", "Assassin's Apprentice", "Guards! Guards!"); // formatted as: ["A Game of Thrones", "The Lord of the Rings", "Assassin's Apprentice", ...]
- Parameters:
maxElementsForPrinting
- the maximum elements that would be printed from one iterable/array/map- Since:
- 2.6.0 / 3.6.0
-
extractProperty
public static <T> Properties<T> extractProperty(String propertyName, Class<T> propertyType)
Only delegate toProperties.extractProperty(String)
so that Assertions offers a full feature entry point to all AssertJ features (but you can useProperties
if you prefer).Typical usage is to chain
extractProperty
withfrom
method, see examples below :// extract simple property values having a java standard type (here String) assertThat(extractProperty("name", String.class).from(fellowshipOfTheRing)) .contains("Boromir", "Gandalf", "Frodo", "Legolas") .doesNotContain("Sauron", "Elrond"); // extracting property works also with user's types (here Race) assertThat(extractProperty("race", String.class).from(fellowshipOfTheRing)) .contains(HOBBIT, ELF).doesNotContain(ORC); // extract nested property on Race assertThat(extractProperty("race.name", String.class).from(fellowshipOfTheRing)) .contains("Hobbit", "Elf") .doesNotContain("Orc");
- Type Parameters:
T
- the type of value to extract.- Parameters:
propertyName
- the name of the property to be read from the elements of aIterable
. It may be a nested property (e.g. "address.street.number").propertyType
- the type of property to extract- Returns:
- the created
Properties
. - Throws:
NullPointerException
- if the given property name isnull
.IllegalArgumentException
- if the given property name is empty.
-
extractProperty
public static Properties<Object> extractProperty(String propertyName)
Only delegate toProperties.extractProperty(String)
so that Assertions offers a full feature entry point to all AssertJ features (but you can useProperties
if you prefer).Typical usage is to chain
extractProperty
withfrom
method, see examples below :// extract simple property values, as no type has been defined the extracted property will be considered as Object // to define the real property type (here String) use extractProperty("name", String.class) instead. assertThat(extractProperty("name").from(fellowshipOfTheRing)) .contains("Boromir", "Gandalf", "Frodo", "Legolas") .doesNotContain("Sauron", "Elrond"); // extracting property works also with user's types (here Race), even though it will be considered as Object // to define the real property type (here String) use extractProperty("name", Race.class) instead. assertThat(extractProperty("race").from(fellowshipOfTheRing)).contains(HOBBIT, ELF).doesNotContain(ORC); // extract nested property on Race assertThat(extractProperty("race.name").from(fellowshipOfTheRing)).contains("Hobbit", "Elf").doesNotContain("Orc");
- Parameters:
propertyName
- the name of the property to be read from the elements of aIterable
. It may be a nested property (e.g. "address.street.number").- Returns:
- the created
Properties
. - Throws:
NullPointerException
- if the given property name isnull
.IllegalArgumentException
- if the given property name is empty.
-
tuple
public static Tuple tuple(Object... values)
Utility method to build nicely aTuple
when working withAbstractIterableAssert.extracting(String...)
orAbstractObjectArrayAssert.extracting(String...)
-
setAllowExtractingPrivateFields
public static void setAllowExtractingPrivateFields(boolean allowExtractingPrivateFields)
Globally sets whether
andIterableAssert#extracting(String)
should be allowed to extract private fields, if not and they try it fails with exception.ObjectArrayAssert#extracting(String)
- Parameters:
allowExtractingPrivateFields
- allow private fields extraction. Default is true.
-
setAllowComparingPrivateFields
public static void setAllowComparingPrivateFields(boolean allowComparingPrivateFields)
Globally sets whether the use of private fields is allowed for comparison. The following (incomplete) list of methods will be impacted by this change :-
AbstractIterableAssert.usingElementComparatorOnFields(java.lang.String...)
AbstractObjectAssert.isEqualToComparingFieldByField(Object)
false
and these methods try to compare private fields, it will fail with an exception.- Parameters:
allowComparingPrivateFields
- allow private fields comparison. Default is true.
-
-
setExtractBareNamePropertyMethods
public static void setExtractBareNamePropertyMethods(boolean barenamePropertyMethods)
Globally sets whether the extractor considers bare-named property methods likeString name()
. Defaults to enabled.- Parameters:
barenamePropertyMethods
- whether bare-named property methods are found
-
entry
public static <K,V> MapEntry<K,V> entry(K key, V value)
Only delegate toMapEntry.entry(Object, Object)
so that Assertions offers a full feature entry point to all AssertJ features (but you can useMapEntry
if you prefer).Typical usage is to call
entry
in MapAssertcontains
assertion, see examples below :Map<Ring, TolkienCharacter> ringBearers = ... // init omitted assertThat(ringBearers).contains(entry(oneRing, frodo), entry(nenya, galadriel));
- Type Parameters:
K
- the type of keys in the map.V
- the type of values in the map.- Parameters:
key
- the key of the entry to create.value
- the value of the entry to create.- Returns:
- the created
MapEntry
.
-
atIndex
public static Index atIndex(int index)
Only delegate toIndex.atIndex(int)
so that Assertions offers a full feature entry point to all AssertJ features (but you can useIndex
if you prefer).Typical usage :
List<Ring> elvesRings = newArrayList(vilya, nenya, narya); assertThat(elvesRings).contains(vilya, atIndex(0)).contains(nenya, atIndex(1)).contains(narya, atIndex(2));
- Parameters:
index
- the value of the index.- Returns:
- the created
Index
. - Throws:
IllegalArgumentException
- if the given value is negative.
-
offset
public static Offset<Double> offset(Double value)
Assertions entry point for doubleOffset
.Typical usage :
assertThat(0.1).isEqualTo(0.0, offset(0.1));
- Parameters:
value
- the allowed offset- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
offset
public static Offset<Float> offset(Float value)
Assertions entry point for floatOffset
.Typical usage :
assertThat(0.2f).isCloseTo(0.0f, offset(0.2f));
- Parameters:
value
- the allowed offset- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
within
public static Offset<Double> within(Double value)
Alias foroffset(Double)
to use with isCloseTo assertions.Typical usage :
assertThat(0.1).isCloseTo(0.0, within(0.1));
- Parameters:
value
- the allowed offset- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
withPrecision
public static Offset<Double> withPrecision(Double value)
Alias foroffset(Double)
to use with real number assertions.Typical usage :
assertThat(0.1).isEqualTo(0.0, withPrecision(0.1));
- Parameters:
value
- the required precision- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
within
public static Offset<Float> within(Float value)
Alias foroffset(Float)
to use with isCloseTo assertions.Typical usage :
assertThat(8.2f).isCloseTo(8.0f, within(0.2f));
- Parameters:
value
- the allowed offset- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
withPrecision
public static Offset<Float> withPrecision(Float value)
Alias foroffset(Float)
to use with real number assertions.Typical usage :
assertThat(0.2f).isEqualTo(0.0f, withPrecision(0.2f));
- Parameters:
value
- the required precision- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
within
public static Offset<BigDecimal> within(BigDecimal value)
Assertions entry point for BigDecimalOffset
to use with isCloseTo assertions.Typical usage :
assertThat(BigDecimal.TEN).isCloseTo(new BigDecimal("10.5"), within(BigDecimal.ONE));
- Parameters:
value
- the allowed offset- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
within
public static Offset<BigInteger> within(BigInteger value)
Assertions entry point for BigIntegerOffset
to use with isCloseTo assertions.Typical usage :
assertThat(BigInteger.TEN).isCloseTo(new BigInteger("11"), within(new BigInteger("2")));
- Parameters:
value
- the allowed offset- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.- Since:
- 2.7.0 / 3.7.0, 2.7.0 / 3.7.0
-
within
public static Offset<Byte> within(Byte value)
Assertions entry point for ByteOffset
to use with isCloseTo assertions.Typical usage :
assertThat((byte) 10).isCloseTo((byte) 11, within((byte) 1));
- Parameters:
value
- the value of the offset.- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
within
public static Offset<Integer> within(Integer value)
Assertions entry point for IntegerOffset
to use with isCloseTo assertions.Typical usage :
assertThat(10).isCloseTo(11, within(1));
- Parameters:
value
- the value of the offset.- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
within
public static Offset<Short> within(Short value)
Assertions entry point for ShortOffset
to use with isCloseTo assertions.Typical usage :
assertThat(10).isCloseTo(11, within(1));
- Parameters:
value
- the allowed offset- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
within
public static Offset<Long> within(Long value)
Assertions entry point for LongOffset
to use withisCloseTo
assertions.Typical usage :
assertThat(5l).isCloseTo(7l, within(2l));
- Parameters:
value
- the allowed offset- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
within
public static TemporalUnitOffset within(long value, TemporalUnit unit)
Assertions entry point forTemporalUnitOffset
with with less than or equal condition to use with isCloseTo temporal assertions.Typical usage :
LocalTime _07_10 = LocalTime.of(7, 10); LocalTime _07_12 = LocalTime.of(7, 12); assertThat(_07_10).isCloseTo(_07_12, within(5, ChronoUnit.MINUTES));
- Parameters:
value
- the allowed offsetunit
- theTemporalUnit
of the offset- Returns:
- the created
Offset
. - Since:
- 3.7.0
-
withinPercentage
public static Percentage withinPercentage(Double value)
Assertions entry point for DoublePercentage
to use with isCloseTo assertions for percentages.Typical usage :
assertThat(11.0).isCloseTo(10.0, withinPercentage(10.0));
- Parameters:
value
- the required precision percentage- Returns:
- the created
Percentage
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
withinPercentage
public static Percentage withinPercentage(Integer value)
Assertions entry point for IntegerPercentage
to use with isCloseTo assertions for percentages.Typical usage :
assertThat(11).isCloseTo(10, withinPercentage(10));
- Parameters:
value
- the required precision percentage- Returns:
- the created
Percentage
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
withinPercentage
public static Percentage withinPercentage(Long value)
Assertions entry point for LongPercentage
to use with isCloseTo assertions for percentages.Typical usage :
assertThat(11L).isCloseTo(10L, withinPercentage(10L));
- Parameters:
value
- the required precision percentage- Returns:
- the created
Percentage
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
byLessThan
public static Offset<Double> byLessThan(Double value)
Build astrictOffset
to use withAbstractDoubleAssert.isCloseTo(double, Offset)
andAbstractDoubleAssert.isNotCloseTo(double, Offset)
assertions.A strict offset implies a strict comparison which means that
isCloseTo
will fail when abs(actual - expected) == offset.Examples:
// assertion succeeds assertThat(8.1).isCloseTo(8.0, byLessThan(0.2)); // assertions fail assertThat(8.1).isCloseTo(8.0, byLessThan(0.1)); // strict comparison! assertThat(8.1).isCloseTo(8.0, byLessThan(0.01));
- Parameters:
value
- the value of the offset.- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
byLessThan
public static Offset<Float> byLessThan(Float value)
Alias foroffset(Float)
to use with isCloseTo assertions.Typical usage :
assertThat(8.2f).isCloseTo(8.0f, byLessThan(0.5f));
- Parameters:
value
- the value of the offset.- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
byLessThan
public static Offset<BigDecimal> byLessThan(BigDecimal value)
Assertions entry point for BigDecimalOffset
to use with isCloseTo assertions.Typical usage :
assertThat(BigDecimal.TEN).isCloseTo(new BigDecimal("10.5"), byLessThan(BigDecimal.ONE));
- Parameters:
value
- the value of the offset.- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
byLessThan
public static Offset<BigInteger> byLessThan(BigInteger value)
Assertions entry point for BigIntegerOffset
to use with isCloseTo assertions.Typical usage :
assertThat(BigInteger.TEN).isCloseTo(new BigInteger("11"), byLessThan(new BigInteger("2")));
- Parameters:
value
- the value of the offset.- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.- Since:
- 2.7.0 / 3.7.0
-
byLessThan
public static Offset<Byte> byLessThan(Byte value)
Assertions entry point for ByteOffset
to use with isCloseTo assertions.Typical usage :
assertThat((byte) 10).isCloseTo((byte) 11, byLessThan((byte) 2));
- Parameters:
value
- the value of the offset.- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
byLessThan
public static Offset<Integer> byLessThan(Integer value)
Assertions entry point for LongOffset
to use with strictisCloseTo
assertions.Typical usage :
assertThat(10).isCloseTo(12, byLessThan(1));
- Parameters:
value
- the value of the offset.- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
byLessThan
public static Offset<Short> byLessThan(Short value)
Assertions entry point for ShortOffset
to use with isCloseTo assertions.Typical usage :
assertThat((short) 10).isCloseTo((short) 11, byLessThan((short) 2));
- Parameters:
value
- the value of the offset.- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
byLessThan
public static Offset<Long> byLessThan(Long value)
Assertions entry point for LongOffset
to use with strictisCloseTo
assertions.Typical usage :
assertThat(5l).isCloseTo(7l, byLessThan(3l));
- Parameters:
value
- the value of the offset.- Returns:
- the created
Offset
. - Throws:
NullPointerException
- if the given value isnull
.IllegalArgumentException
- if the given value is negative.
-
byLessThan
public static TemporalUnitOffset byLessThan(long value, TemporalUnit unit)
Assertions entry point forTemporalUnitOffset
with strict less than condition to use withisCloseTo
temporal assertions.Typical usage :
LocalTime _07_10 = LocalTime.of(7, 10); LocalTime _07_12 = LocalTime.of(7, 12); assertThat(_07_10).isCloseTo(_07_12, byLessThan(5, ChronoUnit.MINUTES));
- Parameters:
value
- the value of the offset.unit
- theTemporalUnit
of the offset.- Returns:
- the created
Offset
. - Since:
- 3.7.0
-
from
public static <F,T> Function<F,T> from(Function<F,T> extractor)
A syntax sugar to write fluent assertion usingAbstractObjectAssert.returns(Object, Function)
.Example:
Jedi yoda = new Jedi("Yoda", "Green"); assertThat(yoda).returns("Yoda", from(Jedi::getName)) .returns(2.4, from(Jedi::getHeight)) .returns(150, from(Jedi::getWeight));
- Type Parameters:
F
- Type of test subjectT
- Type of the property under the assertion- Parameters:
extractor
- A function to extract test subject's property- Returns:
- same instance of
extractor
-
as
public static <T,ASSERT extends AbstractAssert<?,?>> InstanceOfAssertFactory<T,ASSERT> as(InstanceOfAssertFactory<T,ASSERT> assertFactory)
A syntax sugar to write fluent assertion with methods having anInstanceOfAssertFactory
parameter.Example:
Jedi yoda = new Jedi("Yoda", "Green"); assertThat(yoda).extracting(Jedi::getName, as(InstanceOfAssertFactories.STRING)) .startsWith("Yo");
- Type Parameters:
T
- the type to use for the cast.ASSERT
- the type of the resultingAssert
- Parameters:
assertFactory
- the factory which verifies the type and creates the newAssert
- Returns:
- same instance of
assertFactory
- Since:
- 3.14.0
- See Also:
AbstractObjectAssert.extracting(String, InstanceOfAssertFactory)
,AbstractObjectAssert.extracting(Function, InstanceOfAssertFactory)
,AbstractMapAssert.extractingByKey(Object, InstanceOfAssertFactory)
,AbstractOptionalAssert.get(InstanceOfAssertFactory)
,AbstractIterableAssert.first(InstanceOfAssertFactory)
,AbstractIterableAssert.last(InstanceOfAssertFactory)
,AbstractIterableAssert.element(int, InstanceOfAssertFactory)
-
allOf
@SafeVarargs public static <T> Condition<T> allOf(Condition<? super T>... conditions)
Creates a newAllOf
- Type Parameters:
T
- the type of object the given condition accept.- Parameters:
conditions
- the conditions to evaluate.- Returns:
- the created
AllOf
. - Throws:
NullPointerException
- if the given array isnull
.NullPointerException
- if any of the elements in the given array isnull
.
-
allOf
public static <T> Condition<T> allOf(Iterable<? extends Condition<? super T>> conditions)
Creates a newAllOf
- Type Parameters:
T
- the type of object the given condition accept.- Parameters:
conditions
- the conditions to evaluate.- Returns:
- the created
AllOf
. - Throws:
NullPointerException
- if the given iterable isnull
.NullPointerException
- if any of the elements in the given iterable isnull
.
-
anyOf
@SafeVarargs public static <T> Condition<T> anyOf(Condition<? super T>... conditions)
Only delegate toAnyOf.anyOf(Condition...)
so that Assertions offers a full feature entry point to all AssertJ features (but you can useAnyOf
if you prefer).Typical usage (
jedi
andsith
areCondition
) :assertThat("Vader").is(anyOf(jedi, sith));
- Type Parameters:
T
- the type of object the given condition accept.- Parameters:
conditions
- the conditions to evaluate.- Returns:
- the created
AnyOf
.
-
anyOf
public static <T> Condition<T> anyOf(Iterable<? extends Condition<? super T>> conditions)
Creates a newAnyOf
- Type Parameters:
T
- the type of object the given condition accept.- Parameters:
conditions
- the conditions to evaluate.- Returns:
- the created
AnyOf
. - Throws:
NullPointerException
- if the given iterable isnull
.NullPointerException
- if any of the elements in the given iterable isnull
.
-
doesNotHave
public static <T> DoesNotHave<T> doesNotHave(Condition<? super T> condition)
Creates a new
.DoesNotHave
- Type Parameters:
T
- the type of object the given condition accept.- Parameters:
condition
- the condition to inverse.- Returns:
- The DoesNotHave condition created.
-
not
public static <T> Not<T> not(Condition<? super T> condition)
Creates a new
.Not
- Type Parameters:
T
- the type of object the given condition accept.- Parameters:
condition
- the condition to inverse.- Returns:
- The Not condition created.
-
filter
public static <E> Filters<E> filter(E[] array)
Only delegate toFilters.filter(Object[])
so that Assertions offers a full feature entry point to all AssertJ features (but you can useFilters
if you prefer).Note that the given array is not modified, the filters are performed on an
Iterable
copy of the array.Typical usage with
Condition
:assertThat(filter(players).being(potentialMVP).get()).containsOnly(james, rose);
and with filter language based on java bean property :
assertThat(filter(players).with("pointsPerGame").greaterThan(20).and("assistsPerGame").greaterThan(7).get()) .containsOnly(james, rose);
- Type Parameters:
E
- the array elements type.- Parameters:
array
- the array to filter.- Returns:
- the created
.Filters
-
filter
public static <E> Filters<E> filter(Iterable<E> iterableToFilter)
Only delegate toFilters.filter(Object[])
so that Assertions offers a full feature entry point to all AssertJ features (but you can useFilters
if you prefer).Note that the given
Iterable
is not modified, the filters are performed on a copy.Typical usage with
Condition
:assertThat(filter(players).being(potentialMVP).get()).containsOnly(james, rose);
and with filter language based on java bean property :
assertThat(filter(players).with("pointsPerGame").greaterThan(20) .and("assistsPerGame").greaterThan(7).get()) .containsOnly(james, rose);
-
in
public static InFilter in(Object... values)
Create aFilterOperator
to use infilteredOn(String, FilterOperation)
to express a filter keeping all Iterable elements whose property/field value matches one of the given values.As often, an example helps:
Employee yoda = new Employee(1L, new Name("Yoda"), 800); Employee obiwan = new Employee(2L, new Name("Obiwan"), 800); Employee luke = new Employee(3L, new Name("Luke", "Skywalker"), 26); Employee noname = new Employee(4L, null, 50); List<Employee> employees = newArrayList(yoda, luke, obiwan, noname); assertThat(employees).filteredOn("age", in(800, 26)) .containsOnly(yoda, obiwan, luke);
- Parameters:
values
- values to match (one match is sufficient)- Returns:
- the created "in" filter
-
notIn
public static NotInFilter notIn(Object... valuesNotToMatch)
Create aFilterOperator
to use infilteredOn(String, FilterOperation)
to express a filter keeping all Iterable elements whose property/field value matches does not match any of the given values.As often, an example helps:
Employee yoda = new Employee(1L, new Name("Yoda"), 800); Employee obiwan = new Employee(2L, new Name("Obiwan"), 800); Employee luke = new Employee(3L, new Name("Luke", "Skywalker"), 26); Employee noname = new Employee(4L, null, 50); List<Employee> employees = newArrayList(yoda, luke, obiwan, noname); assertThat(employees).filteredOn("age", notIn(800, 50)) .containsOnly(luke);
- Parameters:
valuesNotToMatch
- values not to match (none of the values must match)- Returns:
- the created "not in" filter
-
not
public static NotFilter not(Object valueNotToMatch)
Create aFilterOperator
to use infilteredOn(String, FilterOperation)
to express a filter keeping all Iterable elements whose property/field value matches does not match the given value.As often, an example helps:
Employee yoda = new Employee(1L, new Name("Yoda"), 800); Employee obiwan = new Employee(2L, new Name("Obiwan"), 800); Employee luke = new Employee(3L, new Name("Luke", "Skywalker"), 26); Employee noname = new Employee(4L, null, 50); List<Employee> employees = newArrayList(yoda, luke, obiwan, noname); assertThat(employees).filteredOn("age", not(800)) .containsOnly(luke, noname);
- Parameters:
valueNotToMatch
- the value not to match- Returns:
- the created "not" filter
-
contentOf
public static String contentOf(File file, Charset charset)
Loads the text content of a file, so that it can be passed toassertThat(String)
.Note that this will load the entire file in memory; for larger files, there might be a more efficient alternative with
assertThat(File)
.- Parameters:
file
- the file.charset
- the character set to use.- Returns:
- the content of the file.
- Throws:
NullPointerException
- if the given charset isnull
.UncheckedIOException
- if an I/O exception occurs.
-
contentOf
public static String contentOf(File file, String charsetName)
Loads the text content of a file, so that it can be passed toassertThat(String)
.Note that this will load the entire file in memory; for larger files, there might be a more efficient alternative with
assertThat(File)
.- Parameters:
file
- the file.charsetName
- the name of the character set to use.- Returns:
- the content of the file.
- Throws:
IllegalArgumentException
- if the given character set is not supported on this platform.UncheckedIOException
- if an I/O exception occurs.
-
contentOf
public static String contentOf(File file)
Loads the text content of a file with the default character set, so that it can be passed toassertThat(String)
.Note that this will load the entire file in memory; for larger files, there might be a more efficient alternative with
assertThat(File)
.- Parameters:
file
- the file.- Returns:
- the content of the file.
- Throws:
UncheckedIOException
- if an I/O exception occurs.
-
linesOf
public static List<String> linesOf(File file)
Loads the text content of a file into a list of strings with the default charset, each string corresponding to a line. The line endings are either \n, \r or \r\n.- Parameters:
file
- the file.- Returns:
- the content of the file.
- Throws:
NullPointerException
- if the given charset isnull
.UncheckedIOException
- if an I/O exception occurs.
-
linesOf
public static List<String> linesOf(File file, Charset charset)
Loads the text content of a file into a list of strings, each string corresponding to a line. The line endings are either \n, \r or \r\n.- Parameters:
file
- the file.charset
- the character set to use.- Returns:
- the content of the file.
- Throws:
NullPointerException
- if the given charset isnull
.UncheckedIOException
- if an I/O exception occurs.
-
linesOf
public static List<String> linesOf(File file, String charsetName)
Loads the text content of a file into a list of strings, each string corresponding to a line. The line endings are either \n, \r or \r\n.- Parameters:
file
- the file.charsetName
- the name of the character set to use.- Returns:
- the content of the file.
- Throws:
NullPointerException
- if the given charset isnull
.UncheckedIOException
- if an I/O exception occurs.
-
contentOf
public static String contentOf(URL url, Charset charset)
Loads the text content of a URL, so that it can be passed toassertThat(String)
.Note that this will load the entire contents in memory.
- Parameters:
url
- the URL.charset
- the character set to use.- Returns:
- the content of the URL.
- Throws:
NullPointerException
- if the given charset isnull
.UncheckedIOException
- if an I/O exception occurs.
-
contentOf
public static String contentOf(URL url, String charsetName)
Loads the text content of a URL, so that it can be passed toassertThat(String)
.Note that this will load the entire contents in memory.
- Parameters:
url
- the URL.charsetName
- the name of the character set to use.- Returns:
- the content of the URL.
- Throws:
IllegalArgumentException
- if the given character set is not supported on this platform.UncheckedIOException
- if an I/O exception occurs.
-
contentOf
public static String contentOf(URL url)
Loads the text content of a URL with the default character set, so that it can be passed toassertThat(String)
.Note that this will load the entire file in memory; for larger files.
- Parameters:
url
- the URL.- Returns:
- the content of the file.
- Throws:
UncheckedIOException
- if an I/O exception occurs.
-
linesOf
public static List<String> linesOf(URL url)
Loads the text content of a URL into a list of strings with the default charset, each string corresponding to a line. The line endings are either \n, \r or \r\n.- Parameters:
url
- the URL.- Returns:
- the content of the file.
- Throws:
NullPointerException
- if the given charset isnull
.UncheckedIOException
- if an I/O exception occurs.
-
linesOf
public static List<String> linesOf(URL url, Charset charset)
Loads the text content of a URL into a list of strings, each string corresponding to a line. The line endings are either \n, \r or \r\n.- Parameters:
url
- the URL.charset
- the character set to use.- Returns:
- the content of the file.
- Throws:
NullPointerException
- if the given charset isnull
.UncheckedIOException
- if an I/O exception occurs.
-
linesOf
public static List<String> linesOf(URL url, String charsetName)
Loads the text content of a URL into a list of strings, each string corresponding to a line. The line endings are either \n, \r or \r\n.- Parameters:
url
- the URL.charsetName
- the name of the character set to use.- Returns:
- the content of the file.
- Throws:
NullPointerException
- if the given charset isnull
.UncheckedIOException
- if an I/O exception occurs.
-
setLenientDateParsing
public static void setLenientDateParsing(boolean value)
Instead of using default strict date/time parsing, it is possible to use lenient parsing mode for default date formats parser to interpret inputs that do not precisely match supported date formats (lenient parsing).With strict parsing, inputs must match exactly date/time format.
Example:
To revert to default strict date parsing, callfinal Date date = Dates.parse("2001-02-03"); final Date dateTime = parseDatetime("2001-02-03T04:05:06"); final Date dateTimeWithMs = parseDatetimeWithMs("2001-02-03T04:05:06.700"); Assertions.setLenientDateParsing(true); // assertions will pass assertThat(date).isEqualTo("2001-01-34"); assertThat(date).isEqualTo("2001-02-02T24:00:00"); assertThat(date).isEqualTo("2001-02-04T-24:00:00.000"); assertThat(dateTime).isEqualTo("2001-02-03T04:05:05.1000"); assertThat(dateTime).isEqualTo("2001-02-03T04:04:66"); assertThat(dateTimeWithMs).isEqualTo("2001-02-03T04:05:07.-300"); // assertions will fail assertThat(date).hasSameTimeAs("2001-02-04"); // different date assertThat(dateTime).hasSameTimeAs("2001-02-03 04:05:06"); // leniency does not help here
setLenientDateParsing(false)
.- Parameters:
value
- whether lenient parsing mode should be enabled or not
-
registerCustomDateFormat
public static void registerCustomDateFormat(DateFormat userCustomDateFormat)
Add the given date format to the ones used to parse date String in String based Date assertions likeAbstractDateAssert.isEqualTo(String)
.User date formats are used before default ones in the order they have been registered (first registered, first used).
AssertJ is gonna use any date formats registered with one of these methods :
AbstractDateAssert.withDateFormat(String)
AbstractDateAssert.withDateFormat(java.text.DateFormat)
registerCustomDateFormat(java.text.DateFormat)
registerCustomDateFormat(String)
Beware that AssertJ will use the newly registered format for all remaining Date assertions in the test suite
To revert to default formats only, call
useDefaultDateFormatsOnly()
orAbstractDateAssert.withDefaultDateFormatsOnly()
.Code examples:
Date date = ... // set to 2003 April the 26th assertThat(date).isEqualTo("2003-04-26"); try { // date with a custom format : failure since the default formats don't match. assertThat(date).isEqualTo("2003/04/26"); } catch (AssertionError e) { assertThat(e).hasMessage("Failed to parse 2003/04/26 with any of these date formats: " + "[yyyy-MM-dd'T'HH:mm:ss.SSSX, yyyy-MM-dd'T'HH:mm:ss.SSS, " + "yyyy-MM-dd'T'HH:mm:ssX, " + "yyyy-MM-dd'T'HH:mm:ss, yyyy-MM-dd]"); } // registering a custom date format to make the assertion pass registerCustomDateFormat(new SimpleDateFormat("yyyy/MM/dd")); // registerCustomDateFormat("yyyy/MM/dd") would work to. assertThat(date).isEqualTo("2003/04/26"); // the default formats are still available and should work assertThat(date).isEqualTo("2003-04-26");
- Parameters:
userCustomDateFormat
- the new Date format used for String based Date assertions.
-
registerCustomDateFormat
public static void registerCustomDateFormat(String userCustomDateFormatPattern)
Add the given date format to the ones used to parse date String in String based Date assertions likeAbstractDateAssert.isEqualTo(String)
.User date formats are used before default ones in the order they have been registered (first registered, first used).
AssertJ is gonna use any date formats registered with one of these methods :
AbstractDateAssert.withDateFormat(String)
AbstractDateAssert.withDateFormat(java.text.DateFormat)
registerCustomDateFormat(java.text.DateFormat)
registerCustomDateFormat(String)
Beware that AssertJ will use the newly registered format for all remaining Date assertions in the test suite.
To revert to default formats only, call
useDefaultDateFormatsOnly()
orAbstractDateAssert.withDefaultDateFormatsOnly()
.Code examples:
Date date = ... // set to 2003 April the 26th assertThat(date).isEqualTo("2003-04-26"); try { // date with a custom format : failure since the default formats don't match. assertThat(date).isEqualTo("2003/04/26"); } catch (AssertionError e) { assertThat(e).hasMessage("Failed to parse 2003/04/26 with any of these date formats: " + "[yyyy-MM-dd'T'HH:mm:ss.SSSX, yyyy-MM-dd'T'HH:mm:ss.SSS, " + "yyyy-MM-dd'T'HH:mm:ssX, " + "yyyy-MM-dd'T'HH:mm:ss, yyyy-MM-dd]"); } // registering a custom date format to make the assertion pass registerCustomDateFormat("yyyy/MM/dd"); assertThat(date).isEqualTo("2003/04/26"); // the default formats are still available and should work assertThat(date).isEqualTo("2003-04-26");
- Parameters:
userCustomDateFormatPattern
- the new Date format pattern used for String based Date assertions.
-
useDefaultDateFormatsOnly
public static void useDefaultDateFormatsOnly()
Remove all registered custom date formats => use only the defaults date formats to parse string as date.Beware that the default formats are expressed in the current local timezone.
Defaults date format are:
yyyy-MM-dd HH:mm:ss.SSSX
yyyy-MM-dd'T'HH:mm:ss.SSS
yyyy-MM-dd HH:mm:ss.SSS
(forTimestamp
String representation support)yyyy-MM-dd'T'HH:mm:ssX
yyyy-MM-dd'T'HH:mm:ss
yyyy-MM-dd
Example of valid string date representations:
2003-04-26T03:01:02.999
2003-04-26 03:01:02.999
2003-04-26T13:01:02
2003-04-26
-
assertThat
public static <T> T assertThat(AssertProvider<T> component)
Delegates the creation of theAssert
to theAssertProvider.assertThat()
of the given component.Read the comments on
AssertProvider
for an example of its usage.- Type Parameters:
T
- the AssertProvider wrapped type.- Parameters:
component
- the component that creates its own assert- Returns:
- the associated
Assert
of the given component
-
assertThat
public static AbstractCharSequenceAssert<?,? extends CharSequence> assertThat(CharSequence actual)
Creates a new instance of
.CharSequenceAssert
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static AbstractCharSequenceAssert<?,? extends CharSequence> assertThat(StringBuilder actual)
Creates a new instance of
from aCharSequenceAssert
StringBuilder
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 3.11.0
-
assertThat
public static AbstractCharSequenceAssert<?,? extends CharSequence> assertThat(StringBuffer actual)
Creates a new instance of
from aCharSequenceAssert
StringBuffer
.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
- Since:
- 3.11.0
-
assertThat
public static AbstractStringAssert<?> assertThat(String actual)
Creates a new instance of
.StringAssert
from aString
- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <ELEMENT> IterableAssert<ELEMENT> assertThat(Iterable<? extends ELEMENT> actual)
Creates a new instance of
.IterableAssert
- Type Parameters:
ELEMENT
- the type of elements.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <ELEMENT> IteratorAssert<ELEMENT> assertThat(Iterator<? extends ELEMENT> actual)
Creates a new instance of
.IteratorAssert
Breaking change in version 3.12.0: this method does not return anymore an
IterableAssert
but anIteratorAssert
.
In order to access assertions fromIterableAssert
, useAbstractIteratorAssert.toIterable()
.IteratorAssert
instances have limited assertions because it does not consume iterator's elements.Examples:
Iterator<String> bestBasketBallPlayers = getBestBasketBallPlayers(); assertThat(bestBasketBallPlayers).hasNext() // Iterator assertion .toIterable() // switch to Iterable assertions .contains("Jordan", "Magic", "Lebron"); // Iterable assertion
- Type Parameters:
ELEMENT
- the type of elements.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <ELEMENT> ListAssert<ELEMENT> assertThat(List<? extends ELEMENT> actual)
Creates a new instance of
.ListAssert
- Type Parameters:
ELEMENT
- the type of elements.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <ELEMENT> ListAssert<ELEMENT> assertThat(Stream<? extends ELEMENT> actual)
Creates a new instance of
from the givenListAssert
Stream
.Be aware that the
Stream
under test will be converted to aList
when an assertion requires to inspect its content. Once this is done theStream
can't be reused as it has already been consumed.Calling multiple methods on the returned
ListAssert
is safe as it only interacts with theList
built from theStream
.Examples:
// you can chain multiple assertions on the Stream as it is converted to a List assertThat(Stream.of(1, 2, 3)).contains(1) .doesNotContain(42);
The following assertion fails as the Stream under test is converted to a List before being compared to the expected Stream:
// FAIL: the Stream under test is converted to a List and compared to a Stream but a List is not a Stream. assertThat(Stream.of(1, 2, 3)).isEqualTo(Stream.of(1, 2, 3));
These assertions succeed as
isEqualTo
andisSameAs
checks references which does not require to convert the Stream to a List.// The following assertions succeed as it only performs reference checking which does not require to convert the Stream to a List Stream<Integer> stream = Stream.of(1, 2, 3); assertThat(stream).isEqualTo(stream) .isSameAs(stream);
- Type Parameters:
ELEMENT
- the type of elements.- Parameters:
actual
- the actualStream
value.- Returns:
- the created assertion object.
-
assertThat
public static ListAssert<Double> assertThat(DoubleStream actual)
Creates a new instance of
from the givenListAssert
DoubleStream
.Be aware that the
DoubleStream
under test will be converted to aList
when an assertion requires to inspect its content. Once this is done theDoubleStream
can't reused as it has already been consumed.Calling multiple methods on the returned
ListAssert
is safe as it only interacts with theList
built from theDoubleStream
.Examples:
// you can chain multiple assertions on the DoubleStream as it is converted to a List assertThat(DoubleStream.of(1.0, 2.0, 3.0)).contains(1.0) .doesNotContain(42.0);
The following assertion fails as the DoubleStream under test is converted to a List before being compared to the expected DoubleStream:
// FAIL: the DoubleStream under test is converted to a List and compared to a DoubleStream but a List is not a DoubleStream. assertThat(DoubleStream.of(1.0, 2.0, 3.0)).isEqualTo(DoubleStream.of(1.0, 2.0, 3.0));
These assertions succeed as
isEqualTo
andisSameAs
checks references which does not require to convert the DoubleStream to a List.// The following assertions succeed as it only performs reference checking which does not require to convert the DoubleStream to a List DoubleStream stream = DoubleStream.of(1.0, 2.0, 3.0); assertThat(stream).isEqualTo(stream) .isSameAs(stream);
- Parameters:
actual
- the actualDoubleStream
value.- Returns:
- the created assertion object.
-
assertThat
public static ListAssert<Long> assertThat(LongStream actual)
Creates a new instance of
from the givenListAssert
LongStream
.Be aware that the
LongStream
under test will be converted to aList
when an assertion requires to inspect its content. Once this is done theLongStream
can't reused as it has already been consumed.Calling multiple methods on the returned
ListAssert
is safe as it only interacts with theList
built from theLongStream
.Examples:
// you can chain multiple assertions on the LongStream as it is converted to a List assertThat(LongStream.of(1, 2, 3)).contains(1) .doesNotContain(42);
The following assertion fails as the LongStream under test is converted to a List before being compared to the expected LongStream:
// FAIL: the LongStream under test is converted to a List and compared to a LongStream but a List is not a LongStream. assertThat(LongStream.of(1, 2, 3)).isEqualTo(LongStream.of(1, 2, 3));
These assertions succeed as
isEqualTo
andisSameAs
checks references which does not require to convert the LongStream to a List.// The following assertions succeed as it only performs reference checking which does not require to convert the LongStream to a List LongStream stream = LongStream.of(1, 2, 3); assertThat(stream).isEqualTo(stream) .isSameAs(stream);
- Parameters:
actual
- the actualLongStream
value.- Returns:
- the created assertion object.
-
assertThat
public static ListAssert<Integer> assertThat(IntStream actual)
Creates a new instance of
from the givenListAssert
IntStream
.Be aware that the
IntStream
under test will be converted to aList
when an assertion requires to inspect its content. Once this is done theIntStream
can't reused as it has already been consumed.Calling multiple methods on the returned
ListAssert
is safe as it only interacts with theList
built from theIntStream
.Examples:
// you can chain multiple assertions on the IntStream as it is converted to a List assertThat(IntStream.of(1, 2, 3)).contains(1) .doesNotContain(42);
The following assertion fails as the IntStream under test is converted to a List before being compared to the expected IntStream:
// FAIL: the IntStream under test is converted to a List and compared to a IntStream but a List is not a IntStream. assertThat(IntStream.of(1, 2, 3)).isEqualTo(IntStream.of(1, 2, 3));
These assertions succeed as
isEqualTo
andisSameAs
checks references which does not require to convert the IntStream to a List.// The following assertions succeed as it only performs reference checking which does not require to convert the IntStream to a List IntStream stream = IntStream.of(1, 2, 3); assertThat(stream).isEqualTo(stream) .isSameAs(stream);
- Parameters:
actual
- the actualIntStream
value.- Returns:
- the created assertion object.
-
assertThat
public static <ELEMENT> SpliteratorAssert<ELEMENT> assertThat(Spliterator<ELEMENT> actual)
Creates a new instance of
from the givenSpliteratorAssert
Spliterator
. Example:Spliterator<Integer> spliterator = Stream.of(1, 2, 3).spliterator(); assertThat(spliterator).hasCharacteristics(Spliterator.SIZED);
- Type Parameters:
ELEMENT
- the type of elements.- Parameters:
actual
- the spliterator to test.- Returns:
- the created assertion object.
- Since:
- 3.14.0
-
assertThat
public static AbstractPathAssert<?> assertThat(Path actual)
Creates a new instance ofPathAssert
- Parameters:
actual
- the path to test- Returns:
- the created assertion object
-
assertThat
public static <K,V> MapAssert<K,V> assertThat(Map<K,V> actual)
Creates a new instance of
.MapAssert
Returned type is
MapAssert
as it overrides method to annotate them withSafeVarargs
avoiding annoying warnings.- Type Parameters:
K
- the type of keys in the map.V
- the type of values in the map.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <T extends Comparable<? super T>> AbstractComparableAssert<?,T> assertThat(T actual)
Creates a new instance of
with standard comparison semantics.GenericComparableAssert
- Type Parameters:
T
- the type of actual.- Parameters:
actual
- the actual value.- Returns:
- the created assertion object.
-
assertThat
public static <T extends AssertDelegateTarget> T assertThat(T assertion)
Returns the given assertion. This method improves code readability by surrounding the given assertion withassertThat
.Consider for example the following MyButton and MyButtonAssert classes:
As MyButtonAssert implements AssertDelegateTarget, you can usepublic class MyButton extends JButton { private boolean blinking; public boolean isBlinking() { return this.blinking; } public void setBlinking(boolean blink) { this.blinking = blink; } } private static class MyButtonAssert implements AssertDelegateTarget { private MyButton button; MyButtonAssert(MyButton button) { this.button = button; } void isBlinking() { // standard assertion from core Assertions.assertThat assertThat(button.isBlinking()).isTrue(); } void isNotBlinking() { // standard assertion from core Assertions.assertThat assertThat(button.isBlinking()).isFalse(); } }
assertThat(buttonAssert).isBlinking();
instead ofbuttonAssert.isBlinking();
to have easier to read assertions:@Test public void AssertDelegateTarget_example() { MyButton button = new MyButton(); MyButtonAssert buttonAssert = new MyButtonAssert(button); // you can encapsulate MyButtonAssert assertions methods within assertThat assertThat(buttonAssert).isNotBlinking(); // same as : buttonAssert.isNotBlinking(); button.setBlinking(true); assertThat(buttonAssert).isBlinking(); // same as : buttonAssert.isBlinking(); }
- Type Parameters:
T
- the generic type of the user-defined assert.- Parameters:
assertion
- the assertion to return.- Returns:
- the given assertion.
-
useRepresentation
public static void useRepresentation(Representation customRepresentation)
Register aRepresentation
that will be used in all following assertions.Representation
are used to format types in assertions error messages.An alternative way of using a different representation is to register one as a service, this approach is described in
Representation
, it requires more work than this method but has the advantage of not having to do anything in your tests and it would be applied to all the tests globallyExample :
private class Example {} private class CustomRepresentation extends StandardRepresentation { // override needed to hook specific formatting @Override public String toStringOf(Object o) { if (o instanceof Example) return "Example"; // fallback to default formatting. return super.toStringOf(o); } // change String representation @Override protected String toStringOf(String s) { return "$" + s + "$"; } } Assertions.useRepresentation(new CustomRepresentation()); // this assertion fails ... assertThat(new Example()).isNull(); // ... with error : // "expected:<[null]> but was:<[Example]>" // this one fails ... assertThat("foo").startsWith("bar"); // ... with error : // Expecting: // <$foo$> // to start with: // <$bar$>
- Parameters:
customRepresentation
- theRepresentation
to use- Since:
- 2.5.0 / 3.5.0
-
registerFormatterForType
public static <T> void registerFormatterForType(Class<T> type, Function<T,String> formatter)
Assertions error messages uses aRepresentation
to format the different types involved, using this method you can control the formatting of a given type by providing a specific formatter.Registering a formatter makes it available for all AssertJ
Representation
:Example :
// without specific formatter assertThat(STANDARD_REPRESENTATION.toStringOf(123L)).isEqualTo("123L"); // register a formatter for Long Assertions.registerFormatterForType(Long.class, value -> "$" + value + "$"); // now Long will be formatted between in $$ in error message. assertThat(STANDARD_REPRESENTATION.toStringOf(longNumber)).isEqualTo("$123$"); // fails with error : expected:<$456$> but was:<$123$> assertThat(123L).isEqualTo(456L);
- Type Parameters:
T
- the type of format.- Parameters:
type
- the class of the type to formatformatter
- the formatterFunction
- Since:
- 3.5.0
-
useDefaultRepresentation
public static void useDefaultRepresentation()
Fallback to useStandardRepresentation
to revert the effect of callinguseRepresentation(Representation)
.- Since:
- 2.5.0 / 3.5.0
-
-