SELF |
AbstractOptionalDoubleAssert.hasValueCloseTo(Double expectedValue,
Percentage percentage) |
Verifies that the actual OptionalDouble has a value close to the expected value, within the given
percentage.
If the difference is equal to the percentage value, the assertion is considered valid.
|
AtomicIntegerAssert |
AtomicIntegerAssert.hasValueCloseTo(int expected,
Percentage percentage) |
Verifies that the actual atomic has a value close to the given one within the given percentage.
If difference is equal to the percentage value, assertion is considered valid.
|
AtomicLongAssert |
AtomicLongAssert.hasValueCloseTo(long expected,
Percentage percentage) |
Verifies that the actual atomic has a value close to the given one within the given percentage.
If difference is equal to the percentage value, assertion is considered valid.
|
SELF |
AbstractBigDecimalAssert.isCloseTo(BigDecimal 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 |
AbstractBigIntegerAssert.isCloseTo(BigInteger 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 |
AbstractByteAssert.isCloseTo(byte 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 |
AbstractByteAssert.isCloseTo(Byte 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 |
AbstractDoubleAssert.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 |
AbstractDoubleAssert.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 |
AbstractFloatAssert.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 |
AbstractFloatAssert.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 |
AbstractIntegerAssert.isCloseTo(int 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 |
AbstractIntegerAssert.isCloseTo(Integer 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 |
AbstractLongAdderAssert.isCloseTo(Long expected,
Percentage percentage) |
|
SELF |
AbstractLongAssert.isCloseTo(long 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 |
AbstractLongAssert.isCloseTo(Long 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 |
AbstractShortAssert.isCloseTo(short 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 |
AbstractShortAssert.isCloseTo(Short 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 |
NumberAssert.isCloseTo(ACTUAL 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 |
AbstractBigDecimalAssert.isNotCloseTo(BigDecimal expected,
Percentage percentage) |
Verifies that the actual number is not close to the given one by the given percentage.
If difference is equal to the percentage value, the assertion fails.
|
SELF |
AbstractBigIntegerAssert.isNotCloseTo(BigInteger expected,
Percentage percentage) |
Verifies that the actual number is not close to the given one by the given percentage.
If difference is equal to the percentage value, the assertion fails.
|
SELF |
AbstractByteAssert.isNotCloseTo(byte expected,
Percentage percentage) |
Verifies that the actual number is not close to the given one by the given percentage.
If difference is equal to the percentage value, the assertion fails.
|
SELF |
AbstractByteAssert.isNotCloseTo(Byte expected,
Percentage percentage) |
Verifies that the actual number is not close to the given one b the given percentage.
If difference is equal to the percentage value, the assertion fails.
|
SELF |
AbstractDoubleAssert.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 |
AbstractDoubleAssert.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 |
AbstractFloatAssert.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 |
AbstractFloatAssert.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 |
AbstractIntegerAssert.isNotCloseTo(int expected,
Percentage percentage) |
Verifies that the actual number is not close to the given one by the given percentage.
If difference is equal to the percentage value, the assertion fails.
|
SELF |
AbstractIntegerAssert.isNotCloseTo(Integer expected,
Percentage percentage) |
Verifies that the actual number is not close to the given one by the given percentage.
If difference is equal to the percentage value, the assertion fails.
|
SELF |
AbstractLongAdderAssert.isNotCloseTo(Long expected,
Percentage percentage) |
|
SELF |
AbstractLongAssert.isNotCloseTo(long 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 |
AbstractLongAssert.isNotCloseTo(Long 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 |
AbstractShortAssert.isNotCloseTo(short 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 |
AbstractShortAssert.isNotCloseTo(Short 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 |
NumberAssert.isNotCloseTo(ACTUAL 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.
|