S
- the "self" type of this assertion class. Please read "Emulating 'self types' using Java Generics to simplify fluent API implementation"
for more details.A
- the type of the "actual" value.public abstract class AbstractObjectAssert<S extends AbstractObjectAssert<S,A>,A> extends AbstractAssert<S,A>
Object
s.actual, info, myself
Constructor and Description |
---|
AbstractObjectAssert(A actual,
Class<?> selfType) |
Modifier and Type | Method and Description |
---|---|
S |
as(Description description)
Sets the description of the assertion that is going to be called after.
|
S |
as(String description,
Object... args)
Sets the description of the assertion that is going to be called after.
|
static TypeComparators |
defaultTypeComparators() |
AbstractObjectArrayAssert<?,Object> |
extracting(Function<? super A,Object>... extractors)
Use the given
Function s to extract the values from the object under test into an array, this new array becoming
the object under test. |
AbstractObjectArrayAssert<?,Object> |
extracting(String... propertiesOrFields)
Extract the values of given fields/properties from the object under test into an array, this new array becoming
the object under test.
|
S |
hasFieldOrProperty(String name)
Assert that the actual object has the specified field or property.
|
S |
hasFieldOrPropertyWithValue(String name,
Object value)
Assert that the actual object has the specified field or property with the given value.
|
S |
hasNoNullFieldsOrProperties()
Assert that the actual object has no null fields or properties (inherited ones are taken into account).
|
S |
hasNoNullFieldsOrPropertiesExcept(String... propertiesOrFieldsToIgnore)
Assert that the actual object has no null fields or properties except for the given ones
(inherited ones are taken into account).
|
S |
isEqualToComparingFieldByField(Object other)
Assert that actual object is equal to the given object based on a property/field by property/field comparison (including
inherited ones).
|
S |
isEqualToComparingFieldByFieldRecursively(Object other)
Assert that the object under test (actual) is equal to the given object based on recursive a property/field by property/field comparison (including
inherited ones).
|
S |
isEqualToComparingOnlyGivenFields(Object other,
String... propertiesOrFieldsUsedInComparison)
Assert that the actual object is equal to the given one using a property/field by property/field comparison on the given properties/fields only
(fields can be inherited fields or nested fields).
|
S |
isEqualToIgnoringGivenFields(Object other,
String... propertiesOrFieldsToIgnore)
Assert that the actual object is equal to the given one by comparing their properties/fields except for the given ones
(inherited ones are taken into account).
|
S |
isEqualToIgnoringNullFields(Object other)
Assert that the actual object is equal to the given one by comparing actual's properties/fields with other's
not null properties/fields only (including inherited ones).
|
<T> S |
usingComparatorForFields(Comparator<T> comparator,
String... propertiesOrFields)
Allows to set a specific comparator to compare properties or fields with the given names.
|
<T> S |
usingComparatorForType(Comparator<T> comparator,
Class<T> type)
Allows to set a specific comparator to compare properties or fields with the given type.
|
asList, asString, describedAs, describedAs, descriptionText, doesNotHave, doesNotHaveSameClassAs, equals, failWithMessage, getWritableAssertionInfo, has, hashCode, hasSameClassAs, hasToString, inBinary, inHexadecimal, is, isEqualTo, isExactlyInstanceOf, isIn, isIn, isInstanceOf, isInstanceOfAny, isInstanceOfSatisfying, isNot, isNotEqualTo, isNotExactlyInstanceOf, isNotIn, isNotIn, isNotInstanceOf, isNotInstanceOfAny, isNotNull, isNotOfAnyClassIn, isNotSameAs, isNull, isOfAnyClassIn, isSameAs, matches, matches, overridingErrorMessage, satisfies, setCustomRepresentation, throwAssertionError, usingComparator, usingDefaultComparator, withFailMessage, withRepresentation, withThreadDumpOnError
public static TypeComparators defaultTypeComparators()
public S as(Description description)
AbstractAssert
You must set it before calling the assertion otherwise it is ignored as the failing assertion breaks the chained call by throwing an AssertionError.
This overloaded version of "describedAs" offers more flexibility than the one taking a String
by allowing
users to pass their own implementation of a description. For example, a description that creates its value lazily,
only when an assertion failure occurs.
as
in interface Descriptable<S extends AbstractObjectAssert<S,A>>
as
in class AbstractAssert<S extends AbstractObjectAssert<S,A>,A>
description
- the new description to set.this
object.Descriptable.describedAs(Description)
public S as(String description, Object... args)
AbstractAssert
You must set it before calling the assertion otherwise it is ignored as the failing assertion breaks the chained call by throwing an AssertionError.
The description follows String.format(String, Object...)
syntax.
Example :
try {
// set a bad age to Mr Frodo which is really 33 years old.
frodo.setAge(50);
// specify a test description (call as() before the assertion !), it supports String format syntax.
assertThat(frodo.getAge()).as("check %s's age", frodo.getName()).isEqualTo(33);
} catch (AssertionError e) {
assertThat(e).hasMessage("[check Frodo's age] expected:<[33]> but was:<[50]>");
}
as
in interface Descriptable<S extends AbstractObjectAssert<S,A>>
as
in class AbstractAssert<S extends AbstractObjectAssert<S,A>,A>
description
- the new description to set.args
- optional parameter if description is a format String.this
object.Descriptable.describedAs(String, Object...)
public S isEqualToIgnoringNullFields(Object other)
It means that if an actual field is not null and the corresponding field in other is null, this field will be ignored in comparison, but the opposite will make assertion fail (null field in actual, not null in other) as the field is used in the performed comparison and the values differ.
Note that comparison is not recursive, if one of the field is an Object, it will be compared to the other
field using its equals
method.
If an object has a field and a property with the same name, the property value will be used over the field.
Private fields are used in comparison but this can be disabled using
Assertions.setAllowComparingPrivateFields(boolean)
, if disabled only accessible fields values are
compared, accessible fields include directly accessible fields (e.g. public) or fields with an accessible getter.
The objects to compare can be of different types but the properties/fields used in comparison must exist in both, for example if actual object has a name String field, it is expected other object to also have one.
Example:
TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);
TolkienCharacter mysteriousHobbit = new TolkienCharacter(null, 33, HOBBIT);
// Null fields in other/expected object are ignored, the mysteriousHobbit has null name thus name is ignored
assertThat(frodo).isEqualToIgnoringNullFields(mysteriousHobbit); // OK
// ... but this is not reversible !
assertThat(mysteriousHobbit).isEqualToIgnoringNullFields(frodo); // FAIL
other
- the object to compare actual
to.NullPointerException
- if the actual or other object is null
.AssertionError
- if the actual and the given object are not lenient equals.IntrospectionError
- if one of actual's field to compare can't be found in the other object.public S isEqualToComparingOnlyGivenFields(Object other, String... propertiesOrFieldsUsedInComparison)
equals
implementation of objects to compare does not suit you.
Note that comparison is not recursive, if one of the field is an Object, it will be compared to the other
field using its equals
method.
If an object has a field and a property with the same name, the property value will be used over the field.
Private fields are used in comparison but this can be disabled using
Assertions.setAllowComparingPrivateFields(boolean)
, if disabled only accessible fields values are
compared, accessible fields include directly accessible fields (e.g. public) or fields with an accessible getter.
The objects to compare can be of different types but the properties/fields used in comparison must exist in both, for example if actual object has a name String field, it is expected the other object to also have one.
Example:
TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);
TolkienCharacter sam = new TolkienCharacter("Sam", 38, HOBBIT);
// frodo and sam both are hobbits, so they are equals when comparing only race
assertThat(frodo).isEqualToComparingOnlyGivenFields(sam, "race"); // OK
// they are also equals when comparing only race name (nested field).
assertThat(frodo).isEqualToComparingOnlyGivenFields(sam, "race.name"); // OK
// ... but not when comparing both name and race
assertThat(frodo).isEqualToComparingOnlyGivenFields(sam, "name", "race"); // FAIL
other
- the object to compare actual
to.propertiesOrFieldsUsedInComparison
- properties/fields used in comparison.NullPointerException
- if the actual or other is null
.AssertionError
- if the actual and the given objects are not equals property/field by property/field on given fields.IntrospectionError
- if one of actual's property/field to compare can't be found in the other object.IntrospectionError
- if a property/field does not exist in actual.public S isEqualToIgnoringGivenFields(Object other, String... propertiesOrFieldsToIgnore)
equals
implementation of objects to compare does not suit you.
Note that comparison is not recursive, if one of the property/field is an Object, it will be compared to the other
field using its equals
method.
If an object has a field and a property with the same name, the property value will be used over the field.
Private fields are used in comparison but this can be disabled using
Assertions.setAllowComparingPrivateFields(boolean)
, if disabled only accessible fields values are
compared, accessible fields include directly accessible fields (e.g. public) or fields with an accessible getter.
The objects to compare can be of different types but the properties/fields used in comparison must exist in both, for example if actual object has a name String field, it is expected the other object to also have one.
Example:
TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);
TolkienCharacter sam = new TolkienCharacter("Sam", 38, HOBBIT);
// frodo and sam are equals when ignoring name and age since the only remaining field is race which they share as HOBBIT.
assertThat(frodo).isEqualToIgnoringGivenFields(sam, "name", "age"); // OK
// ... but they are not equals if only age is ignored as their names differ.
assertThat(frodo).isEqualToIgnoringGivenFields(sam, "age"); // FAIL
other
- the object to compare actual
to.propertiesOrFieldsToIgnore
- ignored properties/fields to ignore in comparison.NullPointerException
- if the actual or given object is null
.AssertionError
- if the actual and the given objects are not equals property/field by property/field after ignoring given fields.IntrospectionError
- if one of actual's property/field to compare can't be found in the other object.public S hasNoNullFieldsOrProperties()
If an object has a field and a property with the same name, the property value will be used over the field.
Private fields are checked but this can be disabled using Assertions.setAllowComparingPrivateFields(boolean)
,
if disabled only accessible fields values are
checked, accessible fields include directly accessible fields (e.g. public) or fields with an accessible getter.
Example:
TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);
TolkienCharacter sam = new TolkienCharacter("Sam", 38, null);
// assertion succeeds since all frodo's fields are set
assertThat(frodo).hasNoNullFields();
// assertion succeeds because sam does not have its race set
assertThat(sam).hasNoNullFields();
AssertionError
- if the actual object is null
.AssertionError
- if some fields or properties of the actual object are null.public S hasNoNullFieldsOrPropertiesExcept(String... propertiesOrFieldsToIgnore)
If an object has a field and a property with the same name, the property value will be used over the field.
Private fields are checked but this can be disabled using Assertions.setAllowComparingPrivateFields(boolean)
,
if disabled only accessible fields values are
checked, accessible fields include directly accessible fields (e.g. public) or fields with an accessible getter.
Example:
TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, null);
// assertion succeeds since frodo has only null field is race
assertThat(frodo).hasNoNullFieldsExcept("race");
// ... but if we require the race field, the assertion fails
assertThat(frodo).hasNoNullFieldsExcept("name", "age");
propertiesOrFieldsToIgnore
- properties/fields that won't be chekecd for null.AssertionError
- if the actual object is null
.AssertionError
- if some (non ignored) fields or properties of the actual object are null.public S isEqualToComparingFieldByField(Object other)
equals
implementation of objects to compare does not suit you.
Note that comparison is not recursive, if one of the field is an Object, it will be compared to the other
field using its equals
method.
If an object has a field and a property with the same name, the property value will be used over the field.
Private fields are used in comparison but this can be disabled using
Assertions.setAllowComparingPrivateFields(boolean)
, if disabled only accessible fields values are
compared, accessible fields include directly accessible fields (e.g. public) or fields with an accessible getter.
The objects to compare can be of different types but the properties/fields used in comparison must exist in both, for example if actual object has a name String field, it is expected the other object to also have one.
Example:
// equals not overridden in TolkienCharacter
TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);
TolkienCharacter frodoClone = new TolkienCharacter("Frodo", 33, HOBBIT);
// Fail as equals compares object references
assertThat(frodo).isEqualsTo(frodoClone);
// frodo and frodoClone are equals when doing a field by field comparison.
assertThat(frodo).isEqualToComparingFieldByField(frodoClone);
other
- the object to compare actual
to.AssertionError
- if the actual object is null
.AssertionError
- if the actual and the given objects are not equals property/field by property/field.IntrospectionError
- if one of actual's property/field to compare can't be found in the other object.public <T> S usingComparatorForFields(Comparator<T> comparator, String... propertiesOrFields)
Comparators specified by this method have precedence over comparators added by usingComparatorForType(java.util.Comparator<T>, java.lang.Class<T>)
.
The comparators specified by this method are only used for field by field comparison like isEqualToComparingFieldByField(Object)
.
Example:
public class TolkienCharacter {
private String name;
private double height;
// constructor omitted
}
TolkienCharacter frodo = new TolkienCharacter("Frodo", 1.2);
TolkienCharacter tallerFrodo = new TolkienCharacter("Frodo", 1.3);
TolkienCharacter reallyTallFrodo = new TolkienCharacter("Frodo", 1.9);
Comparator<Double> closeEnough = new Comparator<Double>() {
double precision = 0.5;
public int compare(Double d1, Double d2) {
return Math.abs(d1 - d2) <= precision ? 0 : 1;
}
};
// assertions will pass
assertThat(frodo).usingComparatorForFields(closeEnough, "height")
.isEqualToComparingFieldByField(tallerFrodo);
assertThat(frodo).usingComparatorForFields(closeEnough, "height")
.isEqualToIgnoringNullFields(tallerFrodo);
assertThat(frodo).usingComparatorForFields(closeEnough, "height")
.isEqualToIgnoringGivenFields(tallerFrodo);
assertThat(frodo).usingComparatorForFields(closeEnough, "height")
.isEqualToComparingOnlyGivenFields(tallerFrodo);
// assertion will fail
assertThat(frodo).usingComparatorForFields(closeEnough, "height")
.isEqualToComparingFieldByField(reallyTallFrodo);
comparator
- the Comparator
to usepropertiesOrFields
- the names of the properties and/or fields the comparator should be used forthis
assertions objectpublic <T> S usingComparatorForType(Comparator<T> comparator, Class<T> type)
Comparators specified by usingComparatorForFields(java.util.Comparator<T>, java.lang.String...)
have precedence over comparators specified by this method.
The comparators specified by this method are only used for field by field comparison like isEqualToComparingFieldByField(Object)
.
Example:
public class TolkienCharacter {
private String name;
private double height;
// constructor omitted
}
TolkienCharacter frodo = new TolkienCharacter("Frodo", 1.2);
TolkienCharacter tallerFrodo = new TolkienCharacter("Frodo", 1.3);
TolkienCharacter reallyTallFrodo = new TolkienCharacter("Frodo", 1.9);
Comparator<Double> closeEnough = new Comparator<Double>() {
double precision = 0.5;
public int compare(Double d1, Double d2) {
return Math.abs(d1 - d2) <= precision ? 0 : 1;
}
};
// assertions will pass
assertThat(frodo).usingComparatorForType(closeEnough, Double.class)
.isEqualToComparingFieldByField(tallerFrodo);
assertThat(frodo).usingComparatorForType(closeEnough, Double.class)
.isEqualToIgnoringNullFields(tallerFrodo);
assertThat(frodo).usingComparatorForType(closeEnough, Double.class)
.isEqualToIgnoringGivenFields(tallerFrodo);
assertThat(frodo).usingComparatorForType(closeEnough, Double.class)
.isEqualToComparingOnlyGivenFields(tallerFrodo);
// assertion will fail
assertThat(frodo).usingComparatorForType(closeEnough, Double.class)
.isEqualToComparingFieldByField(reallyTallFrodo);
If multiple compatible comparators have been registered for a given type
, the closest in the inheritance
chain to the given type
is chosen in the following order:
type
type
type
comparator
- the Comparator
to usetype
- the Class
of the type the comparator should be used forthis
assertions objectpublic S hasFieldOrProperty(String name)
Private fields are matched by default but this can be changed by calling Assertions.setAllowExtractingPrivateFields(false)
.
Example:
public class TolkienCharacter {
private String name;
private int age;
// constructor omitted
public String getName() {
return this.name;
}
}
TolkienCharacter frodo = new TolkienCharacter("Frodo", 33);
// assertions will pass :
assertThat(frodo).hasFieldOrProperty("name")
.hasFieldOrProperty("age"); // private field are matched by default
// assertions will fail :
assertThat(frodo).hasFieldOrProperty("not_exists");
assertThat(frodo).hasFieldOrProperty(null);
// disable looking for private fields
Assertions.setAllowExtractingPrivateFields(false);
assertThat(frodo).hasFieldOrProperty("age");
name
- the field/property name to checkAssertionError
- if the actual object is null
.IllegalArgumentException
- if name is null
.AssertionError
- if the actual object has not the given field/propertypublic S hasFieldOrPropertyWithValue(String name, Object value)
Private fields are matched by default but this can be changed by calling Assertions.setAllowExtractingPrivateFields(false)
.
Example:
public class TolkienCharacter {
private String name;
private int age;
// constructor omitted
public String getName() {
return this.name;
}
}
TolkienCharacter frodo = new TolkienCharacter("Frodo", 33);
TolkienCharacter noname = new TolkienCharacter(null, 33);
// assertions will pass :
assertThat(frodo).hasFieldOrProperty("name", "Frodo");
assertThat(frodo).hasFieldOrProperty("age", 33);
assertThat(noname).hasFieldOrProperty("name", null);
// assertions will fail :
assertThat(frodo).hasFieldOrProperty("name", "not_equals");
assertThat(frodo).hasFieldOrProperty(null, 33);
assertThat(frodo).hasFieldOrProperty("age", null);
assertThat(noname).hasFieldOrProperty("name", "Frodo");
// disable extracting private fields
Assertions.setAllowExtractingPrivateFields(false);
assertThat(frodo).hasFieldOrProperty("age", 33);
name
- the field/property name to checkvalue
- the field/property expected valueAssertionError
- if the actual object is null
.IllegalArgumentException
- if name is null
.AssertionError
- if the actual object has not the given field/propertyAssertionError
- if the actual object has the given field/property but not with the expected valuehasFieldOrProperty(java.lang.String)
public AbstractObjectArrayAssert<?,Object> extracting(String... propertiesOrFields)
If you extract "id", "name" and "email" fields/properties then the array will contain the id, name and email values of the object under test, you can then perform array assertions on the extracted values.
Nested fields/properties are supported, specifying "adress.street.number" is equivalent to get the value corresponding to actual.getAdress().getStreet().getNumber()
Private fields can be extracted unless you call Assertions.setAllowExtractingPrivateFields(false)
.
Example:
// Create frodo, setting its name, age and Race (Race having a name property)
TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);
// let's verify Frodo's name, age and race name:
assertThat(frodo).extracting("name", "age", "race.name")
.containsExactly("Frodo", 33, "Hobbit");
A property with the given name is looked for first, if it doesn't exist then a field with the given name is looked
for, if the field is not accessible (i.e. does not exist) an IntrospectionError is thrown.
Note that the order of extracted property/field values is consistent with the iteration order of the array under test.
propertiesOrFields
- the properties/fields to extract from the initial array under testIntrospectionError
- if one of the given name does not match a field or property@SafeVarargs public final AbstractObjectArrayAssert<?,Object> extracting(Function<? super A,Object>... extractors)
Function
s to extract the values from the object under test into an array, this new array becoming
the object under test.
If the given Function
s extract the id, name and email values then the array will contain the id, name and email values
of the object under test, you can then perform array assertions on the extracted values.
Example:
// Create frodo, setting its name, age and Race (Race having a name property)
TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);
// let's verify Frodo's name, age and race name:
assertThat(frodo).extracting(TolkienCharacter::getName,
character -> character.age, // public field
character -> character.getRace().getName())
.containsExactly("Frodo", 33, "Hobbit");
Note that the order of extracted values is consistent with the iteration order of the array under test.
extractors
- the extractor functions to extract a value from an element of the Iterable under test.public S isEqualToComparingFieldByFieldRecursively(Object other)
equals
implementation does not suit you.
The recursive property/field comparison is not applied on fields having a custom equals
implementation, i.e.
the overriden equals
method will be used instead of a field by field comparison.
The recursive comparison handles cycles. By default floats
are compared with a precision of 1.0E-6 and doubles
with 1.0E-15.
You can specify a custom comparator per (nested) fields or type with respectively usingComparatorForFields(Comparator, String...)
and usingComparatorForType(Comparator, Class)
.
The objects to compare can be of different types but must have the same properties/fields. For example if actual object has a name String field, it is expected the other object to also have one. If an object has a field and a property with the same name, the property value will be used over the field.
Example:
public class Person {
public String name;
public double height;
public Home home = new Home();
public Person bestFriend;
// constructor with name and height omitted for brevity
}
public class Home {
public Address address = new Address();
}
public static class Address {
public int number = 1;
}
Person jack = new Person("Jack", 1.80);
jack.home.address.number = 123;
Person jackClone = new Person("Jack", 1.80);
jackClone.home.address.number = 123;
// cycle are handled in comparison
jack.bestFriend = jackClone;
jackClone.bestFriend = jack;
// will fail as equals compares object references
assertThat(jack).isEqualsTo(jackClone);
// jack and jackClone are equals when doing a recursive field by field comparison
assertThat(jack).isEqualToComparingFieldByFieldRecursively(jackClone);
// any type/field can be compared with a a specific comparator.
// let's change jack's height a little bit
jack.height = 1.81;
// assertion fails because of the height difference
// (the default precision comparison for double is 1.0E-15)
assertThat(jack).isEqualToComparingFieldByFieldRecursively(jackClone);
// this succeeds because we allow a 0.5 tolerance on double
assertThat(jack).usingComparatorForType(new DoubleComparator(0.5), Double.class)
.isEqualToComparingFieldByFieldRecursively(jackClone);
// you can set a comparator on specific fields (nested fields are supported)
assertThat(jack).usingComparatorForFields(new DoubleComparator(0.5), "height")
.isEqualToComparingFieldByFieldRecursively(jackClone);
other
- the object to compare actual
to.AssertionError
- if the actual object is null
.AssertionError
- if the actual and the given objects are not deeply equal property/field by property/field.IntrospectionError
- if one property/field to compare can not be found.Copyright © 2014–2016 AssertJ. All rights reserved.