org.assertj.core.api

Class AbstractFloatAssert<SELF extends AbstractFloatAssert<SELF>>

java.lang.Object

org.assertj.core.api.AbstractAssert<SELF,ACTUAL>

org.assertj.core.api.AbstractObjectAssert<SELF,ACTUAL>

org.assertj.core.api.AbstractComparableAssert<SELF,Float>

org.assertj.core.api.AbstractFloatAssert<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,Float>, ComparableAssert<SELF,Float>, Descriptable<SELF>, ExtensionPoints<SELF,Float>, FloatingPointNumberAssert<SELF,Float>, NumberAssert<SELF,Float>

Direct Known Subclasses:

FloatAssert

public abstract class AbstractFloatAssert<SELF extends AbstractFloatAssert<SELF>>
extends AbstractComparableAssert<SELF,Float>
implements FloatingPointNumberAssert<SELF,Float>

Base class for all implementations of assertions for Floats.

Author:

Drummond Dawson, Yvonne Wang, Alex Ruiz, Ansgar Konermann, Mikhail Mazursky, Nicolas François

Field Summary

Fields inherited from class org.assertj.core.api.AbstractAssert

actual, info, myself

Constructor Summary

Constructors

Constructor and Description
AbstractFloatAssert(float actual, Class<?> selfType)
AbstractFloatAssert(Float actual, Class<?> selfType)

Method Summary

Methods

Modifier and Type	Method and Description
SELF	isBetween(Float start, Float end) Verifies that the actual value is in [start, end] range (start included, end included).
SELF	isCloseTo(float expected, Offset<Float> offset) Verifies that the actual number is close to the given one within the given offset value.
SELF	isCloseTo(Float expected, Offset<Float> offset) Verifies that the actual number is close to the given one within the given offset value.
SELF	isCloseTo(float 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(Float 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(float expected) Verifies that the actual value is equal to the given one.
SELF	isEqualTo(float expected, Offset<Float> offset) Verifies that the actual number is close to the given one within the given offset value.
SELF	isEqualTo(Float expected, Offset<Float> offset) Verifies that the actual number is close to the given one within the given offset value.
SELF	isGreaterThan(float other) Verifies that the actual value is greater than the given one.
SELF	isGreaterThanOrEqualTo(float other) Verifies that the actual value is greater than or equal to the given one.
SELF	isLessThan(float other) Verifies that the actual value is less than the given one.
SELF	isLessThanOrEqualTo(float other) Verifies that the actual value is less than or equal to the given one.
SELF	isNaN() Verifies that the actual value is equal to NaN.
SELF	isNegative() Verifies that the actual value is negative.
SELF	isNotCloseTo(float expected, Offset<Float> offset) Verifies that the actual number is not close to the given one by less than the given offset.
SELF	isNotCloseTo(Float expected, Offset<Float> offset) Verifies that the actual number is not close to the given one by less than the given offset.
SELF	isNotCloseTo(float 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(Float 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	isNotEqualTo(float other) Verifies that the actual value is not equal to the given one.
SELF	isNotNaN() Verifies that the actual value is not equal to NaN.
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(Float start, Float 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 Float> customComparator) Use given custom comparator instead of relying on actual type A equals method for incoming assertion checks.
SELF	usingComparator(Comparator<? super Float> customComparator, String customComparatorDescription) Use given custom comparator instead of relying on actual type A equals method for incoming assertion checks.
SELF	usingDefaultComparator() Revert to standard comparison for 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, hasFieldOrProperty, hasFieldOrPropertyWithValue, hasNoNullFieldsOrProperties, hasNoNullFieldsOrPropertiesExcept, isEqualToComparingFieldByField, isEqualToComparingFieldByFieldRecursively, isEqualToComparingOnlyGivenFields, isEqualToIgnoringGivenFields, isEqualToIgnoringNullFields, usingComparatorForFields, usingComparatorForType

Methods inherited from class org.assertj.core.api.AbstractAssert

asList, asString, describedAs, describedAs, descriptionText, doesNotHave, doesNotHaveSameClassAs, equals, failWithMessage, getWritableAssertionInfo, has, hashCode, hasSameClassAs, hasSameHashCodeAs, hasToString, is, isEqualTo, isExactlyInstanceOf, isIn, isIn, isInstanceOf, isInstanceOfAny, isNot, isNotEqualTo, isNotExactlyInstanceOf, isNotIn, isNotIn, isNotInstanceOf, isNotInstanceOfAny, isNotNull, isNotOfAnyClassIn, isNotSameAs, isNull, isOfAnyClassIn, isSameAs, overridingErrorMessage, setCustomRepresentation, throwAssertionError, withFailMessage, withRepresentation, withThreadDumpOnError

Methods inherited from class java.lang.Object

clone, finalize, getClass, notify, notifyAll, toString, wait, wait, wait

Constructor Detail

AbstractFloatAssert

public AbstractFloatAssert(Float actual,
                   Class<?> selfType)

AbstractFloatAssert

public AbstractFloatAssert(float actual,
                   Class<?> selfType)

Method Detail

isNaN

public SELF isNaN()

Verifies that the actual value is equal to NaN.

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 interface FloatingPointNumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Returns:

this assertion object.

isNotNaN

public SELF isNotNaN()

Verifies that the actual value is not equal to NaN.

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 interface FloatingPointNumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Returns:

this assertion object.

isZero

public SELF isZero()

Verifies that the actual value is equal to zero.

Although 0.0f == -0.0f (primitives), Float(-0.0f) is not zero as Float.floatToIntBits(0.0f) == Float.floatToIntBits(-0.0f) is false.

Example:

 // assertions will pass
 assertThat(0.0f).isZero();
 assertThat(-0.0f).isZero();

 // assertions will fail
 assertThat(new Float(-0.0)).isZero();
 assertThat(3.142f).isZero();

Specified by:

isZero in interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Returns:

this assertion object.

Throws:

AssertionError - if the actual value is null.

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 0.0f == -0.0f (primitives), Float(-0.0f) is not zero as Float.floatToIntBits(0.0f) == Float.floatToIntBits(-0.0f) is false.

Example:

 // assertions will pass
 assertThat(3.142f).isNotZero();
 assertThat(new Float(-0.0f)).isNotZero();

 // assertions will fail
 assertThat(0.0f).isNotZero();
 assertThat(new Float(0.0f)).isNotZero();
 assertThat(-0.0f).isNotZero();

Specified by:

isNotZero in interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Returns:

this assertion object.

Throws:

AssertionError - if the actual value is null.

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 interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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 interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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 interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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 interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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 interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Returns:

this assertion object.

isEqualTo

public SELF isEqualTo(float expected)

Verifies that the actual value is equal to the given one.

Example:

 // assertions will pass:
 assertThat(1.0f).isEqualTo(1.0f);
 assertThat(1f).isEqualTo(1.0f);
 
 // assertions will fail:
 assertThat(0.0f).isEqualTo(1.0f);
 assertThat(-1.0f).isEqualTo(1.0f);

Parameters:

expected - the given value to compare the actual value to.

Returns:

this assertion object.

Throws:

AssertionError - if the actual value is null.

AssertionError - if the actual value is not equal to the given one.

isCloseTo

public SELF isCloseTo(float expected,
             Offset<Float> 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(Float) or Assertions.offset(Float)
• fails when using Assertions.byLessThan(Float) or Offset.strictOffset(Number)

Breaking change since 2.9.0/3.9.0: using Assertions.byLessThan(Float) implies a strict comparison, use Assertions.within(Float) to get the old behavior.

Examples:

 // assertions succeed
 assertThat(8.1f).isCloseTo(8.0f, within(0.2f));
 assertThat(8.1f).isCloseTo(8.0f, offset(0.2f)); // alias of within 
 assertThat(8.1f).isCloseTo(8.0f, byLessThan(0.2f)); // strict

 // assertions succeed when the difference == offset value ...  
 assertThat(0.1f).isCloseTo(0.0f, within(0.1f));
 assertThat(0.1f).isCloseTo(0.0f, offset(0.1f));
 // ... except when using byLessThan which implies a strict comparison
 assertThat(0.1f).isCloseTo(0.0f, byLessThan(0.1f)); // strict => fail
 
 // this assertion also fails
 assertThat(8.1f).isCloseTo(8.0f, within(0.001f));

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 is null.

NullPointerException - if the expected number is null.

AssertionError - if the actual value is not close to the given one.

isNotCloseTo

public SELF isNotCloseTo(float expected,
                Offset<Float> 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(Float) or Offset.strictOffset(Number)
• fails when using Assertions.within(Float) or Assertions.offset(Float)

Breaking change since 2.9.0/3.9.0: using Assertions.byLessThan(Float) implies a strict comparison, use Assertions.within(Float) to get the old behavior.

Example:

 // assertions succeed
 assertThat(8.1f).isNotCloseTo(8.0f, byLessThan(0.01f));
 assertThat(8.1f).isNotCloseTo(8.0f, within(0.01f));
 assertThat(8.1f).isNotCloseTo(8.0f, offset(0.01f));
 // diff == offset but isNotCloseTo succeeds as we use byLessThan
 assertThat(0.1f).isNotCloseTo(0.0f, byLessThan(0.1f));   

 // assertions fail
 assertThat(0.1f).isNotCloseTo(0.0f, within(0.1f));
 assertThat(0.1f).isNotCloseTo(0.0f, offset(0.1f));
 assertThat(8.1f).isNotCloseTo(8.0f, within(0.2f));
 assertThat(8.1f).isNotCloseTo(8.0f, offset(0.2f));
 assertThat(8.1f).isNotCloseTo(8.0f, byLessThan(0.2f));

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 is null.

NullPointerException - if the expected number is null.

AssertionError - if the actual value is close to the given one.

Since:

2.6.0 / 3.6.0

See Also:

Assertions.byLessThan(Float)

isCloseTo

public SELF isCloseTo(Float expected,
             Offset<Float> 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(Float) or Assertions.offset(Float)
• fails when using Assertions.byLessThan(Float) or Offset.strictOffset(Number)

Breaking change since 2.9.0/3.9.0: using Assertions.byLessThan(Float) implies a strict comparison, use Assertions.within(Float) to get the old behavior.

Examples:

 // assertions succeed
 assertThat(8.1f).isCloseTo(8.0f, within(0.2f));
 assertThat(8.1f).isCloseTo(8.0f, offset(0.2f)); // alias of within 
 assertThat(8.1f).isCloseTo(8.0f, byLessThan(0.2f)); // strict

 // assertions succeed when the difference == offset value ...  
 assertThat(0.1f).isCloseTo(0.0f, within(0.1f));
 assertThat(0.1f).isCloseTo(0.0f, offset(0.1f));
 // ... except when using byLessThan which implies a strict comparison
 assertThat(0.1f).isCloseTo(0.0f, byLessThan(0.1f)); // strict => fail
 
 // this assertion also fails
 assertThat(8.1f).isCloseTo(8.0f, within(0.001f));

Specified by:

isCloseTo in interface FloatingPointNumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Specified by:

isCloseTo in interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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 is null.

NullPointerException - if the expected number is null.

AssertionError - if the actual value is not close to the given one.

isNotCloseTo

public SELF isNotCloseTo(Float expected,
                Offset<Float> 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(Float) or Offset.strictOffset(Number)
• fails when using Assertions.within(Float) or Assertions.offset(Float)

Breaking change since 2.9.0/3.9.0: using Assertions.byLessThan(Float) implies a strict comparison, use Assertions.within(Float) to get the old behavior.

Example:

 // assertions succeed
 assertThat(8.1f).isNotCloseTo(8.0f, byLessThan(0.01f));
 assertThat(8.1f).isNotCloseTo(8.0f, within(0.01f));
 assertThat(8.1f).isNotCloseTo(8.0f, offset(0.01f));
 // diff == offset but isNotCloseTo succeeds as we use byLessThan
 assertThat(0.1f).isNotCloseTo(0.0f, byLessThan(0.1f));   

 // assertions fail
 assertThat(0.1f).isNotCloseTo(0.0f, within(0.1f));
 assertThat(0.1f).isNotCloseTo(0.0f, offset(0.1f));
 assertThat(8.1f).isNotCloseTo(8.0f, within(0.2f));
 assertThat(8.1f).isNotCloseTo(8.0f, offset(0.2f));
 assertThat(8.1f).isNotCloseTo(8.0f, byLessThan(0.2f));

Specified by:

isNotCloseTo in interface FloatingPointNumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Specified by:

isNotCloseTo in interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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 is null.

NullPointerException - if the expected number is null.

AssertionError - if the actual value is close to the given one.

Since:

2.6.0 / 3.6.0

See Also:

Assertions.byLessThan(Float)

isCloseTo

public SELF isCloseTo(Float 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 float:

 // assertions will pass:
 assertThat(11.0f).isCloseTo(new Float(10.0f), withinPercentage(20f));

 // if difference is exactly equals to the computed offset (1.0), it's ok
 assertThat(11.0f).isCloseTo(new Float(10.0f), withinPercentage(10f));

 // assertion will fail
 assertThat(11.0f).isCloseTo(new Float(10.0f), withinPercentage(5f));

Specified by:

isCloseTo in interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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 is null.

NullPointerException - if the expected number is null.

AssertionError - if the actual value is not close to the given one.

isNotCloseTo

public SELF isNotCloseTo(Float 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 float:

 // assertion will pass:
 assertThat(11.0f).isNotCloseTo(new Float(10.0f), withinPercentage(5f));

 // assertions will fail
 assertThat(11.0f).isNotCloseTo(new Float(10.0f), withinPercentage(10f));
 assertThat(11.0f).isNotCloseTo(new Float(10.0f), withinPercentage(20f));

Specified by:

isNotCloseTo in interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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 is null.

NullPointerException - if the expected number is null.

AssertionError - if the actual value is close to the given one.

Since:

2.6.0 / 3.6.0

isCloseTo

public SELF isCloseTo(float 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 float:

 // assertions will pass:
 assertThat(11.0f).isCloseTo(10.0f, withinPercentage(20f));

 // if difference is exactly equals to the computed offset (1.0), it's ok
 assertThat(11.0f).isCloseTo(10.0f, withinPercentage(10f));

 // assertion will fail
 assertThat(11.0f).isCloseTo(10.0f, withinPercentage(5f));

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 is null.

NullPointerException - if the expected number is null.

AssertionError - if the actual value is not close to the given one.

isNotCloseTo

public SELF isNotCloseTo(float 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 float:

 // assertion will pass:
 assertThat(11.0f).isNotCloseTo(10.0f, withinPercentage(5f));

 // assertions will fail
 assertThat(11.0f).isNotCloseTo(10.0f, withinPercentage(10f));
 assertThat(11.0f).isNotCloseTo(10.0f, withinPercentage(20f));

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 is null.

NullPointerException - if the expected number is null.

AssertionError - if the actual value is close to the given one.

Since:

2.6.0 / 3.6.0

isEqualTo

public SELF isEqualTo(Float expected,
             Offset<Float> offset)

Verifies that the actual number is close to the given one within the given offset value.

This assertion is the same as isCloseTo(float, Offset).

When abs(actual - expected) == offset value, the assertion:

• succeeds when using Assertions.within(Float) or Assertions.offset(Float)
• fails when using Assertions.byLessThan(Float) or Offset.strictOffset(Number)

Examples:

 // assertions will pass
 assertThat(8.1f).isEqualTo(8.0f, within(0.2f));
 assertThat(8.1f).isEqualTo(8.0f, offset(0.2f)); // alias of within 
 assertThat(8.1f).isEqualTo(8.0f, byLessThan(0.2f)); // strict

 // assertions succeed when the difference == offset value ...
 assertThat(0.1f).isEqualTo(0.0f, within(0.1f));
 assertThat(0.1f).isEqualTo(0.0f, offset(0.1f));
 // ... except when using byLessThan which implies a strict comparison
 assertThat(0.1f).isEqualTo(0.0f, byLessThan(0.1f)); // strict => fail
 
 // this assertion also fails
 assertThat(0.1f).isEqualTo(0.0f, within(0.001f));

Specified by:

isEqualTo in interface FloatingPointNumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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 is null.

NullPointerException - if the expected number is null.

AssertionError - if the actual value is not equal to the given one.

isEqualTo

public SELF isEqualTo(float expected,
             Offset<Float> offset)

Verifies that the actual number is close to the given one within the given offset value.

This assertion is the same as isCloseTo(float, Offset).

When abs(actual - expected) == offset value, the assertion:

• succeeds when using Assertions.within(Float) or Assertions.offset(Float)
• fails when using Assertions.byLessThan(Float) or Offset.strictOffset(Number)

Examples:

 // assertions will pass
 assertThat(8.1f).isEqualTo(8.0f, within(0.2f));
 assertThat(8.1f).isEqualTo(8.0f, offset(0.2f)); // alias of within 
 assertThat(8.1f).isEqualTo(8.0f, byLessThan(0.2f)); // strict

 // assertions succeed when the difference == offset value ...
 assertThat(0.1f).isEqualTo(0.0f, within(0.1f));
 assertThat(0.1f).isEqualTo(0.0f, offset(0.1f));
 // ... except when using byLessThan which implies a strict comparison
 assertThat(0.1f).isEqualTo(0.0f, byLessThan(0.1f)); // strict => fail
 
 // this assertion also fails
 assertThat(0.1f).isEqualTo(0.0f, within(0.001f));

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 is null.

NullPointerException - if the expected number is null.

AssertionError - if the actual value is not equal to the given one.

isNotEqualTo

public SELF isNotEqualTo(float other)

Verifies that the actual value is not equal to the given one.

Example:

 // assertions will pass:
 assertThat(0.0f).isNotEqualTo(1.0f);
 assertThat(-1.0f).isNotEqualTo(1.0f);
 
 // assertions will fail:
 assertThat(1.0f).isNotEqualTo(1.0f);
 assertThat(1f).isNotEqualTo(1.0f);

Parameters:

other - the given value to compare the actual value to.

Returns:

this assertion object.

Throws:

AssertionError - if the actual value is null.

AssertionError - if the actual value is equal to the given one.

isLessThan

public SELF isLessThan(float other)

Verifies that the actual value is less than the given one.

Example:

 // assertions will pass:
 assertThat(1.0f).isLessThan(2.0f);
 assertThat(1.0f).isLessThan(1.01f);
 
 // assertions will fail:
 assertThat(2.0f).isLessThan(1.0f);
 assertThat(1.0f).isLessThan(1.0f);

Parameters:

other - the given value to compare the actual value to.

Returns:

this assertion object.

Throws:

AssertionError - if the actual value is null.

AssertionError - if the actual value is equal to or greater than the given one.

isLessThanOrEqualTo

public SELF isLessThanOrEqualTo(float other)

Verifies that the actual value is less than or equal to the given one.

Example:

 // assertions will pass:
 assertThat(-1.0f).isLessThanOrEqualTo(1.0f);
 assertThat(1.0f).isLessThanOrEqualTo(1.0f);
 
 // assertion will fail:
 assertThat(2.0f).isLessThanOrEqualTo(1.0f);

Parameters:

other - the given value to compare the actual value to.

Returns:

this assertion object.

Throws:

AssertionError - if the actual value is null.

AssertionError - if the actual value is greater than the given one.

isGreaterThan

public SELF isGreaterThan(float other)

Verifies that the actual value is greater than the given one.

Example:

 // assertions will pass:
 assertThat(2.0f).isGreaterThan(1.0f);
 assertThat(2.0f).isGreaterThan(1.99f);
 
 // assertions will fail:
 assertThat(1.0f).isGreaterThan(1.0f);
 assertThat(1.0f).isGreaterThan(2.0f);

Parameters:

other - the given value to compare the actual value to.

Returns:

this assertion object.

Throws:

AssertionError - if the actual value is null.

AssertionError - if the actual value is equal to or less than the given one.

isGreaterThanOrEqualTo

public SELF isGreaterThanOrEqualTo(float other)

Verifies that the actual value is greater than or equal to the given one.

Example:

 // assertions will pass:
 assertThat(2.0f).isGreaterThanOrEqualTo(1.0f);
 assertThat(1.0f).isGreaterThanOrEqualTo(1.0f);
 
 // assertions will fail:
 assertThat(1.0f).isGreaterThanOrEqualTo(2.0f);
 assertThat(1.0f).isGreaterThanOrEqualTo(0.99f);

Parameters:

other - the given value to compare the actual value to.

Returns:

this assertion object.

Throws:

AssertionError - if the actual value is null.

AssertionError - if the actual value is less than the given one.

isBetween

public SELF isBetween(Float start,
             Float end)

Verifies that the actual value is in [start, end] range (start included, end included).

Example:

 // assertions will pass
 assertThat(1f).isBetween(-1f, 2f);
 assertThat(1f).isBetween(1f, 2f);
 assertThat(1f).isBetween(0f, 1f);

 // assertion will fail
 assertThat(1f).isBetween(2f, 3f);

Specified by:

isBetween in interface ComparableAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Specified by:

isBetween in interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Overrides:

isBetween in class AbstractComparableAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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(Float start,
                     Float end)

Verifies that the actual value is in ]start, end[ range (start excluded, end excluded).

Example:

 // assertion will pass
 assertThat(1f).isStrictlyBetween(-1f, 2f);

 // assertions will fail
 assertThat(1f).isStrictlyBetween(1f, 2f);
 assertThat(1f).isStrictlyBetween(0f, 1f);
 assertThat(1f).isStrictlyBetween(2f, 3f);

Specified by:

isStrictlyBetween in interface ComparableAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Specified by:

isStrictlyBetween in interface NumberAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Overrides:

isStrictlyBetween in class AbstractComparableAssert<SELF extends AbstractFloatAssert<SELF>,Float>

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 Float> customComparator)

Description copied from class: AbstractAssert

Use given custom comparator instead of relying on actual type A equals method for incoming assertion checks.

Custom comparator is bound to assertion instance, meaning that if a new assertion is created, it will use default comparison strategy. 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 interface Assert<SELF extends AbstractFloatAssert<SELF>,Float>

Overrides:

usingComparator in class AbstractComparableAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Parameters:

customComparator - the comparator to use for incoming assertion checks.

Returns:

this assertion object.

usingComparator

public SELF usingComparator(Comparator<? super Float> customComparator,
                   String customComparatorDescription)

Description copied from class: AbstractAssert

Use given custom comparator instead of relying on actual type A equals method for incoming assertion checks.

Custom comparator is bound to assertion instance, meaning that if a new assertion is created, it will use default comparison strategy. 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 interface Assert<SELF extends AbstractFloatAssert<SELF>,Float>

Overrides:

usingComparator in class AbstractComparableAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Parameters:

customComparator - the comparator to use for incoming assertion checks.

customComparatorDescription - comparator description to be used in assertion messages

Returns:

this assertion object.

usingDefaultComparator

public SELF usingDefaultComparator()

Description copied from class: AbstractAssert

Revert to standard comparison for incoming assertion checks.

This method should be used to disable a custom comparison strategy set by calling Assert.usingComparator(Comparator).

Specified by:

usingDefaultComparator in interface Assert<SELF extends AbstractFloatAssert<SELF>,Float>

Overrides:

usingDefaultComparator in class AbstractComparableAssert<SELF extends AbstractFloatAssert<SELF>,Float>

Returns:

this assertion object.