Return this duration multiplied by the scalar factor.
Return this duration multiplied by the scalar factor. When involving non-finite factors the semantics match those of Double.
AttributesIllegalArgumentException in case of a finite overflow: the range of a finite duration is +-(2^63-1)ns, and no conversion to infinite durations takes place.
Return the sum of that duration and this.
Return the sum of that duration and this. When involving non-finite summands the semantics match those of Double.
AttributesIllegalArgumentException in case of a finite overflow: the range of a finite duration is +-(2^63-1)ns, and no conversion to infinite durations takes place.
Return the difference of that duration and this.
Return the difference of that duration and this. When involving non-finite summands the semantics match those of Double.
AttributesIllegalArgumentException in case of a finite overflow: the range of a finite duration is +-(2^63-1)ns, and no conversion to infinite durations takes place.
Return this duration divided by the scalar factor.
Return this duration divided by the scalar factor. When involving non-finite factors the semantics match those of Double.
AttributesIllegalArgumentException in case of a finite overflow: the range of a finite duration is +-(2^63-1)ns, and no conversion to infinite durations takes place.
Return the quotient of this and that duration as floating-point number.
Return the quotient of this and that duration as floating-point number. The semantics are determined by Double as if calculating the quotient of the nanosecond lengths of both factors.
AttributesThis method returns whether this duration is finite, which is not the same as !isInfinite for Double because this method also returns false for Duration.Undefined.
This method returns whether this duration is finite, which is not the same as !isInfinite for Double because this method also returns false for Duration.Undefined.
Obtain the length of this Duration measured in the unit obtained by the unit method.
Obtain the length of this Duration measured in the unit obtained by the unit method.
Return duration which is equal to this duration but with a coarsest Unit, or self in case it is already the coarsest Unit
Return duration which is equal to this duration but with a coarsest Unit, or self in case it is already the coarsest Unit
Examples:
Duration(60, MINUTES).toCoarsest // Duration(1, HOURS)
Duration(1000, MILLISECONDS).toCoarsest // Duration(1, SECONDS)
Duration(48, HOURS).toCoarsest // Duration(2, DAYS)
Duration(5, SECONDS).toCoarsest // Duration(5, SECONDS)
Return the length of this duration measured in whole days, rounding towards zero.
Return the length of this duration measured in whole days, rounding towards zero.
AttributesReturn the length of this duration measured in whole hours, rounding towards zero.
Return the length of this duration measured in whole hours, rounding towards zero.
AttributesReturn the length of this duration measured in whole microseconds, rounding towards zero.
Return the length of this duration measured in whole microseconds, rounding towards zero.
AttributesReturn the length of this duration measured in whole milliseconds, rounding towards zero.
Return the length of this duration measured in whole milliseconds, rounding towards zero.
AttributesReturn the length of this duration measured in whole minutes, rounding towards zero.
Return the length of this duration measured in whole minutes, rounding towards zero.
AttributesReturn the length of this duration measured in whole nanoseconds, rounding towards zero.
Return the length of this duration measured in whole nanoseconds, rounding towards zero.
AttributesReturn the length of this duration measured in whole seconds, rounding towards zero.
Return the length of this duration measured in whole seconds, rounding towards zero.
AttributesReturn the number of nanoseconds as floating point number, scaled down to the given unit.
Return the number of nanoseconds as floating point number, scaled down to the given unit. The result may not precisely represent this duration due to the Double datatype's inherent limitations (mantissa size effectively 53 bits). Non-finite durations are represented as - Duration.Undefined is mapped to Double.NaN - Duration.Inf is mapped to Double.PositiveInfinity - Duration.MinusInf is mapped to Double.NegativeInfinity
AttributesObtain the time unit in which the length of this duration is measured.
Obtain the time unit in which the length of this duration is measured.
AttributesReturn this duration divided by the scalar factor.
Return this duration divided by the scalar factor. When involving non-finite factors the semantics match those of Double.
AttributesIllegalArgumentException in case of a finite overflow: the range of a finite duration is +-(2^63-1)ns, and no conversion to infinite durations takes place.
Return the quotient of this and that duration as floating-point number.
Return the quotient of this and that duration as floating-point number. The semantics are determined by Double as if calculating the quotient of the nanosecond lengths of both factors.
AttributesReturn the larger of this and that duration as determined by the natural ordering.
Return the larger of this and that duration as determined by the natural ordering.
AttributesReturn the smaller of this and that duration as determined by the natural ordering.
Return the smaller of this and that duration as determined by the natural ordering.
AttributesReturn the difference of that duration and this.
Return the difference of that duration and this. When involving non-finite summands the semantics match those of Double.
AttributesIllegalArgumentException in case of a finite overflow: the range of a finite duration is +-(2^63-1)ns, and no conversion to infinite durations takes place.
Return this duration multiplied by the scalar factor.
Return this duration multiplied by the scalar factor. When involving non-finite factors the semantics match those of Double.
AttributesIllegalArgumentException in case of a finite overflow: the range of a finite duration is +-(2^63-1)ns, and no conversion to infinite durations takes place.
Return the sum of that duration and this.
Return the sum of that duration and this. When involving non-finite summands the semantics match those of Double.
AttributesIllegalArgumentException in case of a finite overflow: the range of a finite duration is +-(2^63-1)ns, and no conversion to infinite durations takes place.
Swaps the elements of this Tuple.
Swaps the elements of this Tuple.
a new Tuple where the first element is the second element of this Tuple and the second element is the first element of this Tuple.
Return a new tuple by prepending the element to this tuple. This operation is O(this.size)
Return a new tuple by prepending the element to this tuple. This operation is O(this.size)
Return a new tuple by concatenating this tuple with that tuple. This operation is O(this.size + that.size)
Return a new tuple by concatenating this tuple with that tuple. This operation is O(this.size + that.size)
Return a copy of this tuple with an element appended
Return a copy of this tuple with an element appended
Returns true if this is less than that
Returns true if this is less than or equal to that.
Returns true if this is less than or equal to that.
Returns true if this is greater than that.
Returns true if this is greater than or equal to that.
Returns true if this is greater than or equal to that.
Get the i-th element of this tuple. Equivalent to productElement but with a precise return type.
Get the i-th element of this tuple. Equivalent to productElement but with a precise return type.
AttributesResult of comparing this with operand that.
Given a tuple (a1, ..., am), returns the tuple (an+1, ..., am) consisting all its elements except the first n ones.
Given a tuple (a1, ..., am), returns the tuple (an+1, ..., am) consisting all its elements except the first n ones.
Get the head of this tuple
Get the initial part of the tuple without its last element
Get the initial part of the tuple without its last element
AttributesGet the last of this tuple
Called on a tuple (a1, ..., an), returns a new tuple (f(a1), ..., f(an)). The result is typed as (F[A1], ..., F[An]) if the tuple type is fully known. If the tuple is of the form a1 *: ... *: Tuple (that is, the tail is not known to be the cons type.
Called on a tuple (a1, ..., an), returns a new tuple (f(a1), ..., f(an)). The result is typed as (F[A1], ..., F[An]) if the tuple type is fully known. If the tuple is of the form a1 *: ... *: Tuple (that is, the tail is not known to be the cons type.
An iterator over the names of all the elements of this product.
An iterator over the names of all the elements of this product.
AttributesAn iterator over all the elements of this product.
An iterator over all the elements of this product.
Attributesin the default implementation, an Iterator[Any]
Given a tuple (a1, ..., am), returns the reversed tuple (am, ..., a1) consisting all its elements.
Given a tuple (a1, ..., am), returns the reversed tuple (am, ..., a1) consisting all its elements.
Return the size (or arity) of the tuple
Return the size (or arity) of the tuple
AttributesGiven a tuple (a1, ..., am), returns a pair of the tuple (a1, ..., an) consisting of the first n elements, and the tuple (an+1, ..., am) consisting of the remaining elements.
Given a tuple (a1, ..., am), returns a pair of the tuple (a1, ..., an) consisting of the first n elements, and the tuple (an+1, ..., am) consisting of the remaining elements.
Get the tail of this tuple. This operation is O(this.size)
Get the tail of this tuple. This operation is O(this.size)
AttributesGiven a tuple (a1, ..., am), returns the tuple (a1, ..., an) consisting of its first n elements.
Given a tuple (a1, ..., am), returns the tuple (a1, ..., an) consisting of its first n elements.
Create a copy of this tuple as an Array
Create a copy of this tuple as an Array
AttributesCreate a copy of this tuple as an IArray
Create a copy of this tuple as an IArray
AttributesCreate a copy of this tuple as a List
Create a copy of this tuple as a List
AttributesGiven two tuples, (a1, ..., an) and (b1, ..., bn), returns a tuple ((a1, b1), ..., (an, bn)). If the two tuples have different sizes, the extra elements of the larger tuple will be disregarded. The result is typed as ((A1, B1), ..., (An, Bn)) if at least one of the tuple types has a EmptyTuple tail. Otherwise the result type is (A1, B1) *: ... *: (Ai, Bi) *: Tuple
Given two tuples, (a1, ..., an) and (b1, ..., bn), returns a tuple ((a1, b1), ..., (an, bn)). If the two tuples have different sizes, the extra elements of the larger tuple will be disregarded. The result is typed as ((A1, B1), ..., (An, Bn)) if at least one of the tuple types has a EmptyTuple tail. Otherwise the result type is (A1, B1) *: ... *: (Ai, Bi) *: Tuple
Result of comparing this with operand that.
Result of comparing this with operand that.
Implement this method to determine how instances of A will be sorted.
Returns x where:
x < 0 when this < that
x == 0 when this == that
x > 0 when this > that
RetroSearch is an open source project built by @garambo | Open a GitHub Issue
Search and Browse the WWW like it's 1997 | Search results from DuckDuckGo
HTML:
3.2
| Encoding:
UTF-8
| Version:
0.7.4