NegZFiniteDouble
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object NegZFiniteDouble
| package anyvals
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the remainder of the division of this value by x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the product of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Returns the sum of this value and x.
Converts this NegZFiniteDouble's value to a string then concatenates the given string.
Converts this NegZFiniteDouble's value to a string then concatenates the given string.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the difference of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns the quotient of this value and x.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is less than or equal to x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns true if this value is greater than or equal to x, false otherwise.
Returns the smallest (closest to 0) NegZFiniteDouble that is greater than or equal to this NegZFiniteDouble
and represents a mathematical integer.
Applies the passed Double => Double function to the underlying Double
value, and if the result is positive, returns the result wrapped in a NegZFiniteDouble,
else throws AssertionError.
Applies the passed Double => Double function to the underlying Double
value, and if the result is positive, returns the result wrapped in a NegZFiniteDouble,
else throws AssertionError.
This method will inspect the result of applying the given function to this
NegZFiniteDouble's underlying Double value and if the result
is greater than 0.0, it will return a NegZFiniteDouble representing that value.
Otherwise, the Double value returned by the given function is
0.0 or negative, so this method will throw AssertionError.
This method differs from a vanilla assert or ensuring
call in that you get something you didn't already have if the assertion
succeeds: a type that promises an Double is positive.
With this method, you are asserting that you are convinced the result of
the computation represented by applying the given function to this NegZFiniteDouble's
value will not produce zero, a negative number, including Double.NegativeInfinity, or Double.NaN.
Instead of producing such invalid values, this method will throw AssertionError.
the Double => Double function to apply to this NegZFiniteDouble's
underlying Double value.
the result of applying this NegZFiniteDouble's underlying Double value to
to the passed function, wrapped in a NegZFiniteDouble if it is positive (else throws AssertionError).
AssertionError if the result of applying this NegZFiniteDouble's underlying Double value to
to the passed function is not positive.
Returns the greatest (closest to infinity) NegZFiniteDouble that is less than or equal to
this NegZFiniteDouble and represents a mathematical integer.
Indicates whether this NegZFiniteDouble has a value that is a whole number: it is finite and it has no fraction part.
Returns this if this > that or that otherwise.
Returns this if this > that or that otherwise.
Returns this if this < that or that otherwise.
Returns this if this < that or that otherwise.
Rounds this NegZFiniteDouble value to the nearest whole number value that can be expressed as an NegZLong, returning the result as a NegZLong.
Converts this NegZFiniteDouble to a Byte.
Converts this NegZFiniteDouble to a Byte.
Converts this NegZFiniteDouble to a Char.
Converts this NegZFiniteDouble to a Char.
Converts an angle measured in radians to an approximately equivalent angle measured in degrees.
Converts an angle measured in radians to an approximately equivalent angle measured in degrees.
the measurement of the angle x in degrees.
Converts this NegZFiniteDouble to a Double.
Converts this NegZFiniteDouble to a Double.
Converts this NegZFiniteDouble to a Float.
Converts this NegZFiniteDouble to a Float.
Converts this NegZFiniteDouble to an Int.
Converts this NegZFiniteDouble to an Int.
Converts this NegZFiniteDouble to a Long.
Converts this NegZFiniteDouble to a Long.
Converts an angle measured in degrees to an approximately equivalent angle measured in radians.
Converts an angle measured in degrees to an approximately equivalent angle measured in radians.
the measurement of the angle x in radians.
Converts this NegZFiniteDouble to a Short.
Converts this NegZFiniteDouble to a Short.
A string representation of this NegZFiniteDouble.
A string representation of this NegZFiniteDouble.
Returns this value, unmodified.
Returns the negation of this value.
The Double value underlying this NegZFiniteDouble.
The Double value underlying this NegZFiniteDouble.
An
AnyValfor finite non-positiveDoubles.Because
NegZFiniteDoubleis anAnyValit will usually be as efficient as anDouble, being boxed only when aDoublewould have been boxed.The
NegZFiniteDouble.applyfactory method is implemented in terms of a macro that checks literals for validity at compile time. CallingNegZFiniteDouble.applywith a literalDoublevalue will either produce a validNegZFiniteDoubleinstance at run time or an error at compile time. Here's an example:scala> import anyvals._ import anyvals._ scala> NegZFiniteDouble(-1.1) res1: org.scalactic.anyvals.NegZFiniteDouble = NegZFiniteDouble(-1.1) scala> NegZFiniteDouble(1.1) <console>:14: error: NegZFiniteDouble.apply can only be invoked on a finite non-positive (i <= 0.0 && i != Double.NegativeInfinity) floating point literal, like NegZFiniteDouble(-1.1). NegZFiniteDouble(1.1) ^NegZFiniteDouble.applycannot be used if the value being passed is a variable (i.e., not a literal), because the macro cannot determine the validity of variables at compile time (just literals). If you try to pass a variable toNegZFiniteDouble.apply, you'll get a compiler error that suggests you use a different factor method,NegZFiniteDouble.from, instead:scala> val x = -1.1 x: Double = -1.1 scala> NegZFiniteDouble(x) <console>:15: error: NegZFiniteDouble.apply can only be invoked on a floating point literal, like NegZFiniteDouble(-1.1). Please use NegZFiniteDouble.from instead. NegZFiniteDouble(x) ^The
NegZFiniteDouble.fromfactory method will inspect the value at runtime and return anOption[NegZFiniteDouble]. If the value is valid,NegZFiniteDouble.fromwill return aSome[NegZFiniteDouble], else it will return aNone. Here's an example:The
NegZFiniteDouble.applyfactory method is marked implicit, so that you can pass literalDoubles into methods that requireNegZFiniteDouble, and get the same compile-time checking you get when callingNegZFiniteDouble.applyexplicitly. Here's an example:scala> def invert(pos: NegZFiniteDouble): Double = Double.MaxValue - pos invert: (pos: org.scalactic.anyvals.NegZFiniteDouble)Double scala> invert(1.1) res6: Double = 1.7976931348623157E308 scala> invert(Double.MaxValue) res8: Double = 0.0 scala> invert(1.1) <console>:15: error: NegZFiniteDouble.apply can only be invoked on a finite non-positive (i <= 0.0 && i != Double.NegativeInfinity) floating point literal, like NegZFiniteDouble(-1.1). invert(1.1) ^This example also demonstrates that the
NegZFiniteDoublecompanion object also defines implicit widening conversions when a similar conversion is provided in Scala. This makes it convenient to use aNegZFiniteDoublewhere aDoubleis needed. An example is the subtraction in the body of theinvertmethod defined above,Double.MaxValue - pos. AlthoughDouble.MaxValueis aDouble, which has no-method that takes aNegZFiniteDouble(the type ofpos), you can still subtractpos, because theNegZFiniteDoublewill be implicitly widened toDouble.