Class AbstractDoubleAssert<SELF extends AbstractDoubleAssert<SELF>>
- java.lang.Object
-
- org.assertj.core.api.AbstractAssert<SELF,ACTUAL>
-
- org.assertj.core.api.AbstractObjectAssert<SELF,ACTUAL>
-
- org.assertj.core.api.AbstractComparableAssert<SELF,Double>
-
- org.assertj.core.api.AbstractDoubleAssert<SELF>
-
- Type Parameters:
SELF
- the "self" type of this assertion class. Please read "Emulating 'self types' using Java Generics to simplify fluent API implementation" for more details.
- All Implemented Interfaces:
Assert<SELF,Double>
,ComparableAssert<SELF,Double>
,Descriptable<SELF>
,ExtensionPoints<SELF,Double>
,FloatingPointNumberAssert<SELF,Double>
,NumberAssert<SELF,Double>
- Direct Known Subclasses:
DoubleAssert
public abstract class AbstractDoubleAssert<SELF extends AbstractDoubleAssert<SELF>> extends AbstractComparableAssert<SELF,Double> implements FloatingPointNumberAssert<SELF,Double>
Base class for all implementations of assertions forDouble
s.- Author:
- Drummond Dawson, Yvonne Wang, David DIDIER, Alex Ruiz, Ansgar Konermann, Joel Costigliola, Mikhail Mazursky, Nicolas François
-
-
Field Summary
Fields Modifier and Type Field Description (package private) Doubles
doubles
private boolean
isPrimitive
private static Double
NEGATIVE_ZERO
-
Fields inherited from class org.assertj.core.api.AbstractComparableAssert
comparables
-
Fields inherited from class org.assertj.core.api.AbstractAssert
actual, assertionErrorCreator, conditions, info, myself, objects, throwUnsupportedExceptionOnEquals
-
-
Constructor Summary
Constructors Constructor Description AbstractDoubleAssert(double actual, Class<?> selfType)
AbstractDoubleAssert(Double actual, Class<?> selfType)
-
Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description private void
assertIsPrimitiveNonZero()
private void
assertIsPrimitiveZero()
SELF
isBetween(Double start, Double end)
Verifies that the actual value is in [start, end] range (start included, end included).SELF
isCloseTo(double expected, Offset<Double> offset)
Verifies that the actual number is close to the given one within the given offset value.SELF
isCloseTo(double expected, Percentage percentage)
Verifies that the actual number is close to the given one within the given percentage.
If difference is equal to the percentage value, assertion is considered valid.SELF
isCloseTo(Double expected, Offset<Double> offset)
Verifies that the actual number is close to the given one within the given offset value.SELF
isCloseTo(Double expected, Percentage percentage)
Verifies that the actual number is close to the given one within the given percentage.
If difference is equal to the percentage value, assertion is considered valid.SELF
isEqualTo(double expected)
Verifies that the actual value is equal to the given one.SELF
isEqualTo(double expected, Offset<Double> offset)
Verifies that the actual number is close to the given one within the given offset value.SELF
isEqualTo(Double expected, Offset<Double> offset)
Verifies that the actual number is close to the given one within the given offset value.SELF
isGreaterThan(double other)
Verifies that the actual value is greater than the given one.SELF
isGreaterThanOrEqualTo(double other)
Verifies that the actual value is greater than or equal to the given one.SELF
isLessThan(double other)
Verifies that the actual value is less than the given one.SELF
isLessThanOrEqualTo(double other)
Verifies that the actual value is less than or equal to the given one.SELF
isNaN()
Verifies that the actual value is equal toNaN
.SELF
isNegative()
Verifies that the actual value is negative.SELF
isNotCloseTo(double expected, Offset<Double> offset)
Verifies that the actual number is not close to the given one by less than the given offset.SELF
isNotCloseTo(double expected, Percentage percentage)
Verifies that the actual number is not close to the given one within the given percentage.
If difference is equal to the percentage value, the assertion fails.SELF
isNotCloseTo(Double expected, Offset<Double> offset)
Verifies that the actual number is not close to the given one by less than the given offset.SELF
isNotCloseTo(Double expected, Percentage percentage)
Verifies that the actual number is close to the given one within the given percentage.
If difference is equal to the percentage value, the assertion fails.SELF
isNotEqualTo(double other)
Verifies that the actual value is not equal to the given one.SELF
isNotNaN()
Verifies that the actual value is not equal toNaN
.SELF
isNotNegative()
Verifies that the actual value is non negative (positive or equal zero).SELF
isNotPositive()
Verifies that the actual value is non positive (negative or equal zero).SELF
isNotZero()
Verifies that the actual value is not equal to zero.SELF
isOne()
Verifies that the actual value is equal to one.SELF
isPositive()
Verifies that the actual value is positive.SELF
isStrictlyBetween(Double start, Double end)
Verifies that the actual value is in ]start, end[ range (start excluded, end excluded).SELF
isZero()
Verifies that the actual value is equal to zero.SELF
usingComparator(Comparator<? super Double> customComparator)
Use the given custom comparator instead of relying on actual type A equals method for incoming assertion checks.SELF
usingComparator(Comparator<? super Double> customComparator, String customComparatorDescription)
Use the given custom comparator instead of relying on actual type A equals method for incoming assertion checks.SELF
usingDefaultComparator()
Revert to standard comparison for the incoming assertion checks.-
Methods inherited from class org.assertj.core.api.AbstractComparableAssert
inBinary, inHexadecimal, isEqualByComparingTo, isGreaterThan, isGreaterThanOrEqualTo, isLessThan, isLessThanOrEqualTo, isNotEqualByComparingTo
-
Methods inherited from class org.assertj.core.api.AbstractObjectAssert
as, as, extracting, extracting, extracting, extracting, getComparatorsByType, hasAllNullFieldsOrProperties, hasAllNullFieldsOrPropertiesExcept, hasFieldOrProperty, hasFieldOrPropertyWithValue, hasNoNullFieldsOrProperties, hasNoNullFieldsOrPropertiesExcept, isEqualToComparingFieldByField, isEqualToComparingFieldByFieldRecursively, isEqualToComparingOnlyGivenFields, isEqualToIgnoringGivenFields, isEqualToIgnoringNullFields, newObjectAssert, returns, usingComparatorForFields, usingComparatorForType, usingRecursiveComparison, usingRecursiveComparison, withAssertionState, withComparatorByPropertyOrField, withTypeComparator
-
Methods inherited from class org.assertj.core.api.AbstractAssert
asInstanceOf, asList, asString, describedAs, describedAs, descriptionText, doesNotHave, doesNotHaveSameClassAs, equals, failWithMessage, getWritableAssertionInfo, has, hashCode, hasSameClassAs, hasSameHashCodeAs, hasToString, is, isEqualTo, isExactlyInstanceOf, isIn, isIn, isInstanceOf, isInstanceOfAny, isInstanceOfSatisfying, isNot, isNotEqualTo, isNotExactlyInstanceOf, isNotIn, isNotIn, isNotInstanceOf, isNotInstanceOfAny, isNotNull, isNotOfAnyClassIn, isNotSameAs, isNull, isOfAnyClassIn, isSameAs, matches, matches, newListAssertInstance, overridingErrorMessage, satisfies, satisfies, satisfiesAnyOf, satisfiesAnyOf, setCustomRepresentation, throwAssertionError, withFailMessage, withRepresentation, withThreadDumpOnError
-
-
-
-
Method Detail
-
isNaN
public SELF isNaN()
Verifies that the actual value is equal toNaN
.Example:
// assertions will pass assertThat(Double.NaN).isNaN(); assertThat(0.0 / 0.0).isNaN(); assertThat(0.0F * Float.POSITIVE_INFINITY).isNaN(); // assertions will fail assertThat(1.0).isNaN(); assertThat(-1.0F).isNaN();
- Specified by:
isNaN
in interfaceFloatingPointNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Returns:
- this assertion object.
-
isNotNaN
public SELF isNotNaN()
Verifies that the actual value is not equal toNaN
.Example:
// assertions will pass assertThat(1.0).isNotNaN(); assertThat(-1.0F).isNotNaN(); // assertions will fail assertThat(Double.NaN).isNotNaN(); assertThat(0.0 / 0.0).isNotNaN(); assertThat(0.0F * Float.POSITIVE_INFINITY).isNotNaN();
- Specified by:
isNotNaN
in interfaceFloatingPointNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Returns:
- this assertion object.
-
isZero
public SELF isZero()
Verifies that the actual value is equal to zero.Although
0.0 == -0.0
(primitives),Double(-0.0)
is not zero asDouble.doubleToRawLongBits(0.0) == Double.doubleToRawLongBits(-0.0)
is false.Example:
// assertions will pass assertThat(0.0).isZero(); assertThat(-0.0).isZero(); // assertions will fail assertThat(new Double(-0.0)).isZero(); assertThat(3.142).isZero();
- Specified by:
isZero
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Returns:
- this assertion object.
- Throws:
AssertionError
- if the actual value isnull
.AssertionError
- if the actual value is not equal to zero.
-
isNotZero
public SELF isNotZero()
Verifies that the actual value is not equal to zero.Although
0.0 == -0.0
(primitives),Double(-0.0)
is not zero asDouble.doubleToRawLongBits(0.0) == Double.doubleToRawLongBits(-0.0)
is false.Example:
// assertions will pass assertThat(3.142).isNotZero(); assertThat(new Double(-0.0)).isNotZero(); // assertions will fail assertThat(0.0).isNotZero(); assertThat(new Double(0.0)).isNotZero(); assertThat(-0.0).isNotZero();
- Specified by:
isNotZero
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Returns:
- this assertion object.
- Throws:
AssertionError
- if the actual value isnull
.AssertionError
- if the actual value is equal to zero.
-
isOne
public SELF isOne()
Verifies that the actual value is equal to one.Example:
// assertions will pass assertThat(1).isOne(); assertThat(1.0).isOne(); // assertions will fail assertThat(42).isOne(); assertThat(3.142).isOne();
- Specified by:
isOne
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Returns:
- this assertion object.
-
isPositive
public SELF isPositive()
Verifies that the actual value is positive.Example:
// assertions will pass assertThat(42).isPositive(); assertThat(3.142).isPositive(); // assertions will fail assertThat(0).isPositive(); assertThat(-42).isPositive();
- Specified by:
isPositive
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Returns:
- this assertion object.
-
isNegative
public SELF isNegative()
Verifies that the actual value is negative.Example:
// assertions will pass assertThat(-42).isNegative(); assertThat(-3.124).isNegative(); // assertions will fail assertThat(0).isNegative(); assertThat(42).isNegative();
- Specified by:
isNegative
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Returns:
- this assertion object.
-
isNotNegative
public SELF isNotNegative()
Verifies that the actual value is non negative (positive or equal zero).Example:
// assertions will pass assertThat(42).isNotNegative(); assertThat(0).isNotNegative(); // assertions will fail assertThat(-42).isNotNegative(); assertThat(-3.124).isNotNegative();
- Specified by:
isNotNegative
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Returns:
this
assertion object.
-
isNotPositive
public SELF isNotPositive()
Verifies that the actual value is non positive (negative or equal zero).Example:
// assertions will pass assertThat(-42).isNotPositive(); assertThat(0).isNotPositive(); // assertions will fail assertThat(42).isNotPositive(); assertThat(3.124).isNotPositive();
- Specified by:
isNotPositive
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Returns:
this
assertion object.
-
isCloseTo
public SELF isCloseTo(double expected, Offset<Double> offset)
Verifies that the actual number is close to the given one within the given offset value.When abs(actual - expected) == offset value, the assertion:
- succeeds when using
Assertions.within(Double)
orAssertions.offset(Double)
- fails when using
Assertions.byLessThan(Double)
orOffset.strictOffset(Number)
Breaking change since 2.9.0/3.9.0: using
Assertions.byLessThan(Double)
implies a strict comparison, useAssertions.within(Double)
to get the old behavior.Examples:
// assertions succeed assertThat(8.1).isCloseTo(8.0, within(0.2)); assertThat(8.1).isCloseTo(8.0, offset(0.2)); // alias of within assertThat(8.1).isCloseTo(8.0, byLessThan(0.2)); // strict // assertions succeed when the difference == offset value ... assertThat(8.1).isCloseTo(8.0, within(0.1)); assertThat(8.1).isCloseTo(8.0, offset(0.1)); // ... except when using byLessThan which implies a strict comparison assertThat(0.1).isCloseTo(0.0, byLessThan(0.1)); // strict => fail // this assertion also fails assertThat(8.1).isCloseTo(8.0, within(0.001));
- Parameters:
expected
- the given number to compare the actual value to.offset
- the given positive offset.- Returns:
this
assertion object.- Throws:
NullPointerException
- if the given offset isnull
.NullPointerException
- if the expected number isnull
.AssertionError
- if the actual value is not close to the given one.
- succeeds when using
-
isNotCloseTo
public SELF isNotCloseTo(double expected, Offset<Double> offset)
Verifies that the actual number is not close to the given one by less than the given offset.
When abs(actual - expected) == offset value, the assertion:
- succeeds when using
Assertions.byLessThan(Double)
orOffset.strictOffset(Number)
- fails when using
Assertions.within(Double)
orAssertions.offset(Double)
Breaking change since 2.9.0/3.9.0: using
Assertions.byLessThan(Double)
implies a strict comparison, useAssertions.within(Double)
to get the old behavior.Example:
// assertions succeed assertThat(8.1).isNotCloseTo(8.0, byLessThan(0.01)); assertThat(8.1).isNotCloseTo(8.0, within(0.01)); assertThat(8.1).isNotCloseTo(8.0, offset(0.01)); // diff == offset but isNotCloseTo succeeds as we use byLessThan assertThat(0.1).isNotCloseTo(0.0, byLessThan(0.1)); // assertions fail assertThat(0.1).isNotCloseTo(0.0, within(0.1)); assertThat(0.1).isNotCloseTo(0.0, offset(0.1)); assertThat(8.1).isNotCloseTo(8.0, within(0.2)); assertThat(8.1).isNotCloseTo(8.0, offset(0.2)); assertThat(8.1).isNotCloseTo(8.0, byLessThan(0.2));
- Parameters:
expected
- the given number to compare the actual value to.offset
- the given positive offset.- Returns:
this
assertion object.- Throws:
NullPointerException
- if the given offset isnull
.NullPointerException
- if the expected number isnull
.AssertionError
- if the actual value is close to the given one.- Since:
- 2.6.0 / 3.6.0
- See Also:
Assertions.byLessThan(Double)
- succeeds when using
-
isCloseTo
public SELF isCloseTo(Double expected, Offset<Double> offset)
Verifies that the actual number is close to the given one within the given offset value.When abs(actual - expected) == offset value, the assertion:
- succeeds when using
Assertions.within(Double)
orAssertions.offset(Double)
- fails when using
Assertions.byLessThan(Double)
orOffset.strictOffset(Number)
Breaking change since 2.9.0/3.9.0: using
Assertions.byLessThan(Double)
implies a strict comparison, useAssertions.within(Double)
to get the old behavior.Examples:
// assertions succeed assertThat(8.1).isCloseTo(8.0, within(0.2)); assertThat(8.1).isCloseTo(8.0, offset(0.2)); // alias of within assertThat(8.1).isCloseTo(8.0, byLessThan(0.2)); // strict // assertions succeed when the difference == offset value ... assertThat(8.1).isCloseTo(8.0, within(0.1)); assertThat(8.1).isCloseTo(8.0, offset(0.1)); // ... except when using byLessThan which implies a strict comparison assertThat(0.1).isCloseTo(0.0, byLessThan(0.1)); // strict => fail // this assertion also fails assertThat(8.1).isCloseTo(8.0, within(0.001));
- Specified by:
isCloseTo
in interfaceFloatingPointNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Specified by:
isCloseTo
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Parameters:
expected
- the given number to compare the actual value to.offset
- the given positive offset.- Returns:
this
assertion object.- Throws:
NullPointerException
- if the given offset isnull
.NullPointerException
- if the expected number isnull
.AssertionError
- if the actual value is not close to the given one.
- succeeds when using
-
isNotCloseTo
public SELF isNotCloseTo(Double expected, Offset<Double> offset)
Verifies that the actual number is not close to the given one by less than the given offset.
When abs(actual - expected) == offset value, the assertion:
- succeeds when using
Assertions.byLessThan(Double)
orOffset.strictOffset(Number)
- fails when using
Assertions.within(Double)
orAssertions.offset(Double)
Breaking change since 2.9.0/3.9.0: using
Assertions.byLessThan(Double)
implies a strict comparison, useAssertions.within(Double)
to get the old behavior.Example:
// assertions succeed assertThat(8.1).isNotCloseTo(8.0, byLessThan(0.01)); assertThat(8.1).isNotCloseTo(8.0, within(0.01)); assertThat(8.1).isNotCloseTo(8.0, offset(0.01)); // diff == offset but isNotCloseTo succeeds as we use byLessThan assertThat(0.1).isNotCloseTo(0.0, byLessThan(0.1)); // assertions fail assertThat(8.1).isNotCloseTo(8.0, within(0.1)); assertThat(8.1).isNotCloseTo(8.0, offset(0.1)); assertThat(8.1).isNotCloseTo(8.0, within(0.2)); assertThat(8.1).isNotCloseTo(8.0, offset(0.2)); assertThat(8.1).isNotCloseTo(8.0, byLessThan(0.2));
- Specified by:
isNotCloseTo
in interfaceFloatingPointNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Specified by:
isNotCloseTo
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Parameters:
expected
- the given number to compare the actual value to.offset
- the given positive offset.- Returns:
this
assertion object.- Throws:
NullPointerException
- if the given offset isnull
.NullPointerException
- if the expected number isnull
.AssertionError
- if the actual value is close to the given one.- Since:
- 2.6.0 / 3.6.0
- See Also:
Assertions.byLessThan(Double)
- succeeds when using
-
isCloseTo
public SELF isCloseTo(Double expected, Percentage percentage)
Verifies that the actual number is close to the given one within the given percentage.
If difference is equal to the percentage value, assertion is considered valid.Example with double:
// assertions will pass: assertThat(11.0).isCloseTo(Double.valueOf(10.0), withinPercentage(20d)); // if difference is exactly equals to the computed offset (1.0), it's ok assertThat(11.0).isCloseTo(Double.valueOf(10.0), withinPercentage(10d)); // assertion will fail assertThat(11.0).isCloseTo(Double.valueOf(10.0), withinPercentage(5d));
- Specified by:
isCloseTo
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Parameters:
expected
- the given number to compare the actual value to.percentage
- the given positive percentage.- Returns:
this
assertion object.- Throws:
NullPointerException
- if the given offset isnull
.NullPointerException
- if the expected number isnull
.AssertionError
- if the actual value is not close to the given one.
-
isNotCloseTo
public SELF isNotCloseTo(Double expected, Percentage percentage)
Verifies that the actual number is close to the given one within the given percentage.
If difference is equal to the percentage value, the assertion fails.Example with double:
// assertion will pass: assertThat(11.0).isNotCloseTo(Double.valueOf(10.0), withinPercentage(5d)); // assertions will fail assertThat(11.0).isNotCloseTo(Double.valueOf(10.0), withinPercentage(10d)); assertThat(11.0).isNotCloseTo(Double.valueOf(10.0), withinPercentage(20d));
- Specified by:
isNotCloseTo
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Parameters:
expected
- the given number to compare the actual value to.percentage
- the given positive percentage.- Returns:
this
assertion object.- Throws:
NullPointerException
- if the given offset isnull
.NullPointerException
- if the expected number isnull
.AssertionError
- if the actual value is close to the given one.- Since:
- 2.6.0 / 3.6.0
-
isCloseTo
public SELF isCloseTo(double expected, Percentage percentage)
Verifies that the actual number is close to the given one within the given percentage.
If difference is equal to the percentage value, assertion is considered valid.Example with double:
// assertions will pass: assertThat(11.0).isCloseTo(10.0, withinPercentage(20d)); // if difference is exactly equals to the computed offset (1.0), it's ok assertThat(11.0).isCloseTo(10.0, withinPercentage(10d)); // assertion will fail assertThat(11.0).isCloseTo(10.0, withinPercentage(5d));
- Parameters:
expected
- the given number to compare the actual value to.percentage
- the given positive percentage.- Returns:
this
assertion object.- Throws:
NullPointerException
- if the given offset isnull
.NullPointerException
- if the expected number isnull
.AssertionError
- if the actual value is not close to the given one.
-
isNotCloseTo
public SELF isNotCloseTo(double expected, Percentage percentage)
Verifies that the actual number is not close to the given one within the given percentage.
If difference is equal to the percentage value, the assertion fails.Example with double:
// assertion will pass: assertThat(11.0).isNotCloseTo(10.0, withinPercentage(5d)); // assertions will fail assertThat(11.0).isNotCloseTo(10.0, withinPercentage(10d)); assertThat(11.0).isNotCloseTo(10.0, withinPercentage(20d));
- Parameters:
expected
- the given number to compare the actual value to.percentage
- the given positive percentage.- Returns:
this
assertion object.- Throws:
NullPointerException
- if the given offset isnull
.NullPointerException
- if the expected number isnull
.AssertionError
- if the actual value is close to the given one.- Since:
- 2.6.0 / 3.6.0
-
isEqualTo
public SELF isEqualTo(double expected)
Verifies that the actual value is equal to the given one.Example:
// assertions will pass: assertThat(1.0).isEqualTo(1.0); assertThat(1D).isEqualTo(1.0); // assertions will fail: assertThat(0.0).isEqualTo(1.0); assertThat(-1.0).isEqualTo(1.0);
- Parameters:
expected
- the given value to compare the actual value to.- Returns:
this
assertion object.- Throws:
AssertionError
- if the actual value isnull
.AssertionError
- if the actual value is not equal to the given one.
-
isEqualTo
public SELF isEqualTo(Double expected, Offset<Double> offset)
Verifies that the actual number is close to the given one within the given offset value.This assertion is the same as
FloatingPointNumberAssert.isCloseTo(Number, Offset)
.When abs(actual - expected) == offset value, the assertion:
- succeeds when using
Assertions.within(Double)
orAssertions.offset(Double)
- fails when using
Assertions.byLessThan(Double)
orOffset.strictOffset(Number)
Examples:
// assertions will pass assertThat(8.1).isEqualTo(8.0, within(0.2)); assertThat(8.1).isEqualTo(8.0, offset(0.2)); // alias of within assertThat(8.1).isEqualTo(8.0, byLessThan(0.2)); // strict // assertions succeed when the difference == offset value ... assertThat(8.1).isEqualTo(8.0, within(0.1)); assertThat(8.1).isEqualTo(8.0, offset(0.1)); // ... except when using byLessThan which is strict assertThat(8.1).isEqualTo(8.0, byLessThan(0.1)); // strict => fail // this assertions also fails assertThat(8.1).isEqualTo(8.0, within(0.001));
- Specified by:
isEqualTo
in interfaceFloatingPointNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Parameters:
expected
- the given value to compare the actual value to.offset
- the given positive offset.- Returns:
this
assertion object.
- succeeds when using
-
isEqualTo
public SELF isEqualTo(double expected, Offset<Double> offset)
Verifies that the actual number is close to the given one within the given offset value.This assertion is the same as
isCloseTo(double, Offset)
.When abs(actual - expected) == offset value, the assertion:
- succeeds when using
Assertions.within(Double)
orAssertions.offset(Double)
- fails when using
Assertions.byLessThan(Double)
orOffset.strictOffset(Number)
Examples:
// assertions will pass assertThat(8.1).isEqualTo(8.0, within(0.2)); assertThat(8.1).isEqualTo(8.0, offset(0.2)); // alias of within assertThat(8.1).isEqualTo(8.0, byLessThan(0.2)); // strict // assertions succeed when the difference == offset value ... assertThat(8.1).isEqualTo(8.0, within(0.1)); assertThat(8.1).isEqualTo(8.0, offset(0.1)); // ... except when using byLessThan which implies a strict comparison assertThat(0.1).isEqualTo(0.0, byLessThan(0.1)); // strict => fail // this assertion also fails assertThat(8.1).isEqualTo(8.0, within(0.001));
- Parameters:
expected
- the given value to compare the actual value to.offset
- the given positive offset.- Returns:
this
assertion object.- Throws:
NullPointerException
- if the given offset isnull
.NullPointerException
- if the expected number isnull
.AssertionError
- if the actual value is not equal to the given one.
- succeeds when using
-
isNotEqualTo
public SELF isNotEqualTo(double other)
Verifies that the actual value is not equal to the given one.Example:
// assertions will pass: assertThat(0.0).isNotEqualTo(1.0); assertThat(-1.0).isNotEqualTo(1.0); // assertions will fail: assertThat(1.0).isNotEqualTo(1.0); assertThat(1D).isNotEqualTo(1.0);
- Parameters:
other
- the given value to compare the actual value to.- Returns:
this
assertion object.- Throws:
AssertionError
- if the actual value isnull
.AssertionError
- if the actual value is equal to the given one.
-
isLessThan
public SELF isLessThan(double other)
Verifies that the actual value is less than the given one.Example:
// assertion will pass: assertThat(1.0).isLessThan(2.0); // assertions will fail: assertThat(2.0).isLessThan(1.0); assertThat(1.0).isLessThan(1.0);
- Parameters:
other
- the given value to compare the actual value to.- Returns:
this
assertion object.- Throws:
AssertionError
- if the actual value isnull
.AssertionError
- if the actual value is equal to or greater than the given one.
-
isLessThanOrEqualTo
public SELF isLessThanOrEqualTo(double other)
Verifies that the actual value is less than or equal to the given one.Example:
// assertions will pass: assertThat(-1.0).isLessThanOrEqualTo(1.0); assertThat(1.0).isLessThanOrEqualTo(1.0); // assertion will fail: assertThat(2.0).isLessThanOrEqualTo(1.0);
- Parameters:
other
- the given value to compare the actual value to.- Returns:
this
assertion object.- Throws:
AssertionError
- if the actual value isnull
.AssertionError
- if the actual value is greater than the given one.
-
isGreaterThan
public SELF isGreaterThan(double other)
Verifies that the actual value is greater than the given one.Example:
// assertion will pass: assertThat(2.0).isGreaterThan(1.0); // assertions will fail: assertThat(1.0).isGreaterThan(1.0); assertThat(1.0).isGreaterThan(2.0);
- Parameters:
other
- the given value to compare the actual value to.- Returns:
this
assertion object.- Throws:
AssertionError
- if the actual value isnull
.AssertionError
- if the actual value is equal to or less than the given one.
-
isGreaterThanOrEqualTo
public SELF isGreaterThanOrEqualTo(double other)
Verifies that the actual value is greater than or equal to the given one.Example:
// assertions will pass: assertThat(2.0).isGreaterThanOrEqualTo(1.0); assertThat(1.0).isGreaterThanOrEqualTo(1.0); // assertion will fail: assertThat(1.0).isGreaterThanOrEqualTo(2.0);
- Parameters:
other
- the given value to compare the actual value to.- Returns:
this
assertion object.- Throws:
AssertionError
- if the actual value isnull
.AssertionError
- if the actual value is less than the given one.
-
isBetween
public SELF isBetween(Double start, Double end)
Verifies that the actual value is in [start, end] range (start included, end included).Example:
// assertions will pass assertThat(1d).isBetween(-1d, 2d); assertThat(1d).isBetween(1d, 2d); assertThat(1d).isBetween(0d, 1d); // assertion will fail assertThat(1d).isBetween(2d, 3d);
- Specified by:
isBetween
in interfaceComparableAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Specified by:
isBetween
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Overrides:
isBetween
in classAbstractComparableAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Parameters:
start
- the start value (inclusive), expected not to be null.end
- the end value (inclusive), expected not to be null.- Returns:
- this assertion object.
-
isStrictlyBetween
public SELF isStrictlyBetween(Double start, Double end)
Verifies that the actual value is in ]start, end[ range (start excluded, end excluded).Example:
// assertion will pass assertThat(1d).isStrictlyBetween(-1d, 2d); // assertions will fail assertThat(1d).isStrictlyBetween(1d, 2d); assertThat(1d).isStrictlyBetween(0d, 1d); assertThat(1d).isStrictlyBetween(2d, 3d);
- Specified by:
isStrictlyBetween
in interfaceComparableAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Specified by:
isStrictlyBetween
in interfaceNumberAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Overrides:
isStrictlyBetween
in classAbstractComparableAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Parameters:
start
- the start value (exclusive), expected not to be null.end
- the end value (exclusive), expected not to be null.- Returns:
- this assertion object.
-
usingComparator
public SELF usingComparator(Comparator<? super Double> customComparator)
Description copied from class:AbstractAssert
Use the given custom comparator instead of relying on actual type A equals method for incoming assertion checks.The custom comparator is bound to assertion instance, meaning that if a new assertion instance is created, the default comparison strategy will be used.
Examples :
// frodo and sam are instances of Character with Hobbit race (obviously :). // raceComparator implements Comparator<Character> assertThat(frodo).usingComparator(raceComparator).isEqualTo(sam);
- Specified by:
usingComparator
in interfaceAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Overrides:
usingComparator
in classAbstractComparableAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Parameters:
customComparator
- the comparator to use for the incoming assertion checks.- Returns:
this
assertion object.
-
usingComparator
public SELF usingComparator(Comparator<? super Double> customComparator, String customComparatorDescription)
Description copied from class:AbstractAssert
Use the given custom comparator instead of relying on actual type A equals method for incoming assertion checks.The custom comparator is bound to assertion instance, meaning that if a new assertion instance is created, the default comparison strategy will be used.
Examples :
// frodo and sam are instances of Character with Hobbit race (obviously :). // raceComparator implements Comparator<Character> assertThat(frodo).usingComparator(raceComparator, "Hobbit Race Comparator").isEqualTo(sam);
- Specified by:
usingComparator
in interfaceAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Overrides:
usingComparator
in classAbstractComparableAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Parameters:
customComparator
- the comparator to use for the incoming assertion checks.customComparatorDescription
- comparator description to be used in assertion error messages- Returns:
this
assertion object.
-
usingDefaultComparator
public SELF usingDefaultComparator()
Description copied from class:AbstractAssert
Revert to standard comparison for the incoming assertion checks.This method should be used to disable a custom comparison strategy set by calling
usingComparator
.- Specified by:
usingDefaultComparator
in interfaceAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Overrides:
usingDefaultComparator
in classAbstractComparableAssert<SELF extends AbstractDoubleAssert<SELF>,Double>
- Returns:
this
assertion object.
-
assertIsPrimitiveZero
private void assertIsPrimitiveZero()
-
assertIsPrimitiveNonZero
private void assertIsPrimitiveNonZero()
-
-