S
- the "self" type of this assertion class. Please read "Emulating 'self types' using Java Generics to simplify fluent API implementation"
for more details.public abstract class AbstractDoubleAssert<S extends AbstractDoubleAssert<S>> extends AbstractComparableAssert<S,Double> implements FloatingPointNumberAssert<S,Double>
Double
s.actual, info, myself
Modifier | Constructor and Description |
---|---|
protected |
AbstractDoubleAssert(Double actual,
Class<?> selfType) |
Modifier and Type | Method and Description |
---|---|
S |
isBetween(Double start,
Double end)
Verifies that the actual value is in [start, end] range (start included, end included).
|
S |
isCloseTo(double other,
Offset<Double> offset)
Verifies that the actual number is close to the given one within the given offset.
If difference is equal to offset value, assertion is considered valid. |
S |
isCloseTo(Double other,
Offset<Double> offset)
Verifies that the actual number is close to the given one within the given offset.
If difference is equal to offset value, assertion is considered valid. |
S |
isEqualTo(double expected)
Verifies that the actual value is equal to the given one.
|
S |
isEqualTo(double expected,
Offset<Double> offset)
Verifies that the actual value is close to the given one by less than the given offset.
If difference is equal to offset value, assertion is considered valid. |
S |
isEqualTo(Double expected,
Offset<Double> offset)
Verifies that the actual value is close to the given one by less than the given offset.
If difference is equal to offset value, assertion is considered valid. |
S |
isGreaterThan(double other)
Verifies that the actual value is greater than the given one.
|
S |
isGreaterThanOrEqualTo(double other)
Verifies that the actual value is greater than or equal to the given one.
|
S |
isLessThan(double other)
Verifies that the actual value is less than the given one.
|
S |
isLessThanOrEqualTo(double other)
Verifies that the actual value is less than or equal to the given one.
|
S |
isNaN()
Verifies that the actual value is equal to
NaN . |
S |
isNegative()
Verifies that the actual value is negative.
|
S |
isNotEqualTo(double other)
Verifies that the actual value is not equal to the given one.
|
S |
isNotNaN()
Verifies that the actual value is not equal to
NaN . |
S |
isNotNegative()
Verifies that the actual value is non negative (positive or equal zero).
|
S |
isNotPositive()
Verifies that the actual value is non positive (negative or equal zero).
|
S |
isNotZero()
Verifies that the actual value is not equal to zero.
|
S |
isPositive()
Verifies that the actual value is positive.
|
S |
isStrictlyBetween(Double start,
Double end)
Verifies that the actual value is in ]start, end[ range (start excluded, end excluded).
|
S |
isZero()
Verifies that the actual value is equal to zero.
|
S |
usingComparator(Comparator<? super Double> customComparator)
Use given custom comparator instead of relying on actual type A equals method for incoming assertion checks.
|
S |
usingDefaultComparator()
Revert to standard comparison for incoming assertion checks.
|
inBinary, inHexadecimal, isGreaterThan, isGreaterThanOrEqualTo, isLessThan, isLessThanOrEqualTo
isEqualToComparingFieldByField, isEqualToComparingOnlyGivenFields, isEqualToIgnoringGivenFields, isEqualToIgnoringNullFields
as, as, asList, asString, describedAs, describedAs, descriptionText, doesNotHave, doesNotHaveSameClassAs, equals, failWithMessage, getWritableAssertionInfo, has, hashCode, hasSameClassAs, is, isEqualTo, isExactlyInstanceOf, isIn, isIn, isInstanceOf, isInstanceOfAny, isNot, isNotEqualTo, isNotExactlyInstanceOf, isNotIn, isNotIn, isNotInstanceOf, isNotInstanceOfAny, isNotNull, isNotOfAnyClassIn, isNotSameAs, isNull, isOfAnyClassIn, isSameAs, overridingErrorMessage, withThreadDumpOnError
public S isNaN()
NaN
.isNaN
in interface FloatingPointNumberAssert<S extends AbstractDoubleAssert<S>,Double>
public S isNotNaN()
NaN
.isNotNaN
in interface FloatingPointNumberAssert<S extends AbstractDoubleAssert<S>,Double>
public S isZero()
isZero
in interface NumberAssert<S extends AbstractDoubleAssert<S>,Double>
public S isNotZero()
isNotZero
in interface NumberAssert<S extends AbstractDoubleAssert<S>,Double>
public S isPositive()
isPositive
in interface NumberAssert<S extends AbstractDoubleAssert<S>,Double>
public S isNegative()
isNegative
in interface NumberAssert<S extends AbstractDoubleAssert<S>,Double>
public S isNotNegative()
isNotNegative
in interface NumberAssert<S extends AbstractDoubleAssert<S>,Double>
this
assertion object.public S isNotPositive()
isNotPositive
in interface NumberAssert<S extends AbstractDoubleAssert<S>,Double>
this
assertion object.public S isCloseTo(double other, Offset<Double> offset)
Example:
// assertion will pass
assertThat(8.1).isCloseTo(8.0, within(0.2));
// you can use offset if you prefer
assertThat(8.1).isCloseTo(8.0, offset(0.2));
// if difference is exactly equals to 0.1, it's ok
assertThat(8.1).isCloseTo(8.0, within(0.1));
// assertion will fail
assertThat(8.1).isCloseTo(8.0, within(0.01));
other
- the given number to compare the actual value to.offset
- the given positive offset.this
assertion object.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.public S isCloseTo(Double other, Offset<Double> offset)
Example with double:
// assertions will pass:
assertThat(8.1).isCloseTo(new Double(8.0), within(0.2));
// you can use offset if you prefer
assertThat(8.1).isCloseTo(new Double(8.0), offset(0.2));
// if difference is exactly equals to the offset (0.1), it's ok
assertThat(8.1).isCloseTo(new Double(8.0), within(0.1));
// assertion will fail
assertThat(8.1).isCloseTo(new Double(8.0), within(0.01));
isCloseTo
in interface FloatingPointNumberAssert<S extends AbstractDoubleAssert<S>,Double>
other
- the given number to compare the actual value to.offset
- the given positive offset.this
assertion object.public S isEqualTo(double expected)
expected
- the given value to compare the actual value to.this
assertion object.AssertionError
- if the actual value is null
.AssertionError
- if the actual value is not equal to the given one.public S isEqualTo(Double expected, Offset<Double> offset)
Example with double:
// assertion will pass:
assertThat(8.1).isEqualTo(new Double(8.0), offset(0.2));
// if difference is exactly equals to the offset (0.1), it's ok
assertThat(8.1).isEqualTo(new Double(8.0), offset(0.1));
// within is an alias of offset
assertThat(8.1).isEqualTo(new Double(8.0), within(0.1));
// assertion will fail
assertThat(8.1).isEqualTo(new Double(8.0), offset(0.01));
isEqualTo
in interface FloatingPointNumberAssert<S extends AbstractDoubleAssert<S>,Double>
expected
- the given value to compare the actual value to.offset
- the given positive offset.this
assertion object.public S isEqualTo(double expected, Offset<Double> offset)
Example with double:
// assertion will pass:
assertThat(8.1).isEqualTo(8.0, offset(0.2));
// if difference is exactly equals to the offset (0.1), it's ok
assertThat(8.1).isEqualTo(8.0, offset(0.1));
// within is an alias of offset
assertThat(8.1).isEqualTo(8.0, within(0.1));
// assertion will fail
assertThat(8.1).isEqualTo(8.0, offset(0.01));
expected
- the given value to compare the actual value to.offset
- the given positive offset.this
assertion object.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.public S isNotEqualTo(double other)
other
- the given value to compare the actual value to.this
assertion object.AssertionError
- if the actual value is null
.AssertionError
- if the actual value is equal to the given one.public S isLessThan(double other)
other
- the given value to compare the actual value to.this
assertion object.AssertionError
- if the actual value is null
.AssertionError
- if the actual value is equal to or greater than the given one.public S isLessThanOrEqualTo(double other)
other
- the given value to compare the actual value to.this
assertion object.AssertionError
- if the actual value is null
.AssertionError
- if the actual value is greater than the given one.public S isGreaterThan(double other)
other
- the given value to compare the actual value to.this
assertion object.AssertionError
- if the actual value is null
.AssertionError
- if the actual value is equal to or less than the given one.public S isGreaterThanOrEqualTo(double other)
other
- the given value to compare the actual value to.this
assertion object.AssertionError
- if the actual value is null
.AssertionError
- if the actual value is less than the given one.public S isBetween(Double start, Double end)
// these assertions succeed ...
assertThat(12).isBetween(10, 14);
assertThat(12).isBetween(12, 14);
assertThat(12).isBetween(10, 12);
// ... but these one fails
assertThat(12).isBetween(14, 16);
isBetween
in interface NumberAssert<S extends AbstractDoubleAssert<S>,Double>
start
- the start value (inclusive), expected not to be null.end
- the end value (inclusive), expected not to be null.public S isStrictlyBetween(Double start, Double end)
// this assertion succeeds ...
assertThat(12).isBetween(10, 14);
// ... but these one fails
assertThat(12).isBetween(12, 14);
assertThat(12).isBetween(10, 12);
assertThat(12).isBetween(16, 18);
isStrictlyBetween
in interface NumberAssert<S extends AbstractDoubleAssert<S>,Double>
start
- the start value (exclusive), expected not to be null.end
- the end value (exclusive), expected not to be null.public S usingComparator(Comparator<? super Double> customComparator)
AbstractAssert
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);
usingComparator
in interface Assert<S extends AbstractDoubleAssert<S>,Double>
usingComparator
in class AbstractComparableAssert<S extends AbstractDoubleAssert<S>,Double>
customComparator
- the comparator to use for incoming assertion checks.this
assertion object.public S usingDefaultComparator()
AbstractAssert
This method should be used to disable a custom comparison strategy set by calling Assert.usingComparator(Comparator)
.
usingDefaultComparator
in interface Assert<S extends AbstractDoubleAssert<S>,Double>
usingDefaultComparator
in class AbstractComparableAssert<S extends AbstractDoubleAssert<S>,Double>
this
assertion object.Copyright © 2013-2015 AssertJ. All Rights Reserved.