- assign(ComplexFunction.DoublyPeriodicOnIndexCrossIntegersCrossIntegers) - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a copy of c
- assign(ComplexFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a copy of the doubly periodic extension of c
- assign(ComplexFunction.DoublyPeriodicOnIntegersCrossIntegers) - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a copy of c
- assign(ComplexFunction.OnIndexCrossIndex) - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a doubly periodic extension of c
- assign(ComplexFunction.OnIndex) - Method in class de.jtem.function.complex.ComplexFunctionOnIndex
-
Become a copy of the tupel c
- assign(Complex[]) - Method in class de.jtem.function.complex.ComplexFunctionOnIndex
-
Interpret the array c
as an n-tupel of Complex numbers
and become a copy of it.
- assign(ComplexFunction.OnIndexCrossIndex) - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndex
-
Become a copy of the function c
- assign(Complex[][]) - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndex
-
Interpret the array c
as a function of two indices
and become a copy of it.
- assign(ComplexFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndexCrossIndex
-
Become a copy of the function c
- assign(Complex[][][]) - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndexCrossIndex
-
Interpret the array c
as a matrix and become a copy of it.
- assign(ComplexFunction.PeriodicOnIndexCrossIntegers) - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIndexCrossIntegers
-
Become a copy of c
- assign(ComplexFunction.OnIndexCrossIndex) - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIndexCrossIntegers
-
Become a copy of the periodic extension of c
- assign(ComplexFunction.PeriodicOnIntegers) - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIntegers
-
Become a copy of c
.
- assign(ComplexFunction.OnIndex) - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIntegers
-
Become the periodic extension of c
.
- assign(ComplexFunction.TriplyPeriodicOnIntegersCrossIntegersCrossIntegers) - Method in class de.jtem.function.complex.ComplexFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a copy of c
- assign(ComplexFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.complex.ComplexFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a copy of the triply periodic extension of c
- assign(IntegerFunction.DoublyPeriodicOnIndexCrossIntegersCrossIntegers) - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a copy of c
- assign(IntegerFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a copy of the doubly periodic extension of c
- assign(IntegerFunction.DoublyPeriodicOnIntegersCrossIntegers) - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a copy of c
- assign(IntegerFunction.OnIndexCrossIndex) - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a doubly periodic extension of c
- assign(IntegerFunction.OnIndex) - Method in class de.jtem.function.integer.IntegerFunctionOnIndex
-
Become a copy of the tupel c
- assign(int[]) - Method in class de.jtem.function.integer.IntegerFunctionOnIndex
-
Interpret the array c
as an n-tupel
and become a copy of it.
- assign(IntegerFunction.OnIndexCrossIndex) - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndex
-
Become a copy of the function c
- assign(int[][]) - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndex
-
Interpret the array c
as a function of two indices
and become a copy of it.
- assign(IntegerFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndexCrossIndex
-
Become a copy of the function c
- assign(int[][][]) - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndexCrossIndex
-
Interpret the array c
as a matrix and become a copy of it.
- assign(IntegerFunction.PeriodicOnIndexCrossIntegers) - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIndexCrossIntegers
-
Become a copy of c
- assign(IntegerFunction.OnIndexCrossIndex) - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIndexCrossIntegers
-
Become a copy of the periodic extension of c
- assign(IntegerFunction.PeriodicOnIntegers) - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIntegers
-
Become a copy of c
.
- assign(IntegerFunction.OnIndex) - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIntegers
-
Become the periodic extension of c
.
- assign(IntegerFunction.TriplyPeriodicOnIntegersCrossIntegersCrossIntegers) - Method in class de.jtem.function.integer.IntegerFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a copy of c
- assign(IntegerFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.integer.IntegerFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a copy of the triply periodic extension of c
- assign(QuaternionFunction.DoublyPeriodicOnIndexCrossIntegersCrossIntegers) - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a copy of c
- assign(QuaternionFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a copy of the doubly periodic extension of c
- assign(QuaternionFunction.DoublyPeriodicOnIntegersCrossIntegers) - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a copy of c
- assign(QuaternionFunction.OnIndexCrossIndex) - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a doubly periodic extension of c
- assign(QuaternionFunction.OnIndex) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndex
-
Become a copy of the tupel c
- assign(Quaternion[]) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndex
-
Interpret the array c
as an n-tupel of Quaternion numbers
and become a copy of it.
- assign(QuaternionFunction.OnIndexCrossIndex) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndex
-
Become a copy of the function c
- assign(Quaternion[][]) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndex
-
Interpret the array c
as a function of two indices
and become a copy of it.
- assign(QuaternionFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndexCrossIndex
-
Become a copy of the function c
- assign(Quaternion[][][]) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndexCrossIndex
-
Interpret the array c
as a matrix and become a copy of it.
- assign(QuaternionFunction.PeriodicOnIndexCrossIntegers) - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIndexCrossIntegers
-
Become a copy of c
- assign(QuaternionFunction.OnIndexCrossIndex) - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIndexCrossIntegers
-
Become a copy of the periodic extension of c
- assign(QuaternionFunction.PeriodicOnIntegers) - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIntegers
-
Become a copy of c
.
- assign(QuaternionFunction.OnIndex) - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIntegers
-
Become the periodic extension of c
.
- assign(QuaternionFunction.TriplyPeriodicOnIntegersCrossIntegersCrossIntegers) - Method in class de.jtem.function.quaternion.QuaternionFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a copy of c
- assign(QuaternionFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.quaternion.QuaternionFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a copy of the triply periodic extension of c
- assign(RealFunction.DoublyPeriodicOnIndexCrossIntegersCrossIntegers) - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a copy of c
- assign(RealFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a copy of the doubly periodic extension of c
- assign(RealFunction.DoublyPeriodicOnIntegersCrossIntegers) - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a copy of c
- assign(RealFunction.OnIndexCrossIndex) - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a doubly periodic extension of c
- assign(RealFunction.OnIndex) - Method in class de.jtem.function.real.RealFunctionOnIndex
-
Become a copy of the tupel c
- assign(double[]) - Method in class de.jtem.function.real.RealFunctionOnIndex
-
Interpret the array c
as an n-tupel
and become a copy of it.
- assign(RealFunction.OnIndexCrossIndex) - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndex
-
Become a copy of the function c
- assign(double[][]) - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndex
-
Interpret the array c
as a function of two indices
and become a copy of it.
- assign(RealFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndexCrossIndex
-
Become a copy of the function c
- assign(double[][][]) - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndexCrossIndex
-
Interpret the array c
as a matrix and become a copy of it.
- assign(RealFunction.PeriodicOnIndexCrossIntegers) - Method in class de.jtem.function.real.RealFunctionPeriodicOnIndexCrossIntegers
-
Become a copy of c
- assign(RealFunction.OnIndexCrossIndex) - Method in class de.jtem.function.real.RealFunctionPeriodicOnIndexCrossIntegers
-
Become a copy of the periodic extension of c
- assign(RealFunction.PeriodicOnIntegers) - Method in class de.jtem.function.real.RealFunctionPeriodicOnIntegers
-
Become a copy of c
.
- assign(RealFunction.OnIndex) - Method in class de.jtem.function.real.RealFunctionPeriodicOnIntegers
-
Become the periodic extension of c
.
- assign(RealFunction.TriplyPeriodicOnIntegersCrossIntegersCrossIntegers) - Method in class de.jtem.function.real.RealFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a copy of c
- assign(RealFunction.OnIndexCrossIndexCrossIndex) - Method in class de.jtem.function.real.RealFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a copy of the triply periodic extension of c
- assignZero() - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Keep the number of layers and the periods but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a matrix with m
layers, m
periodic
rows of period n
, periodic columns of period
m
and all values zero.
- assignZero() - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Keep the number of rows and the period but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a matrix with m
periodic rows of period
n
and all values zero.
- assignZero() - Method in class de.jtem.function.complex.ComplexFunctionOnIndex
-
Keep the number of indices but set all values to zero.
- assignZero(int) - Method in class de.jtem.function.complex.ComplexFunctionOnIndex
-
Become a tupel of n
zeroes.
- assignZero() - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndex
-
Keep the number of rows and columns but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndex
-
Become a matrix with m
rows and n
columns
and all values zero.
- assignZero() - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndexCrossIndex
-
Keep the number of rows and columns but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndexCrossIndex
-
Become a matrix with m
rows and n
columns
and all values zero.
- assignZero() - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIndexCrossIntegers
-
Keep the number of rows and the period but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIndexCrossIntegers
-
Become a matrix with m
periodic rows of period
n
and all values zero.
- assignZero(int) - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIntegers
-
Become a periodic sequence of period n
with all values
equal to zero.
- assignZero() - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIntegers
-
Keep the period but set all values to zero.
- assignZero() - Method in class de.jtem.function.complex.ComplexFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Keep the number of layers and the periods but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.complex.ComplexFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a matrix with m
layers, m
periodic
rows of period n
, periodic columns of period
m
and all values zero.
- assignZero() - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Keep the number of layers and the periods but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a matrix with m
layers, m
periodic
rows of period n
, periodic columns of period
m
and all values zero.
- assignZero() - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Keep the number of rows and the period but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a matrix with m
periodic rows of period
n
and all values zero.
- assignZero() - Method in class de.jtem.function.integer.IntegerFunctionOnIndex
-
Keep the number of indices but set all values to zero.
- assignZero(int) - Method in class de.jtem.function.integer.IntegerFunctionOnIndex
-
Become a tupel of n
zeroes.
- assignZero() - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndex
-
Keep the number of rows and columns but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndex
-
Become a matrix with m
rows and n
columns
and all values zero.
- assignZero() - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndexCrossIndex
-
Keep the number of rows and columns but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndexCrossIndex
-
Become a matrix with m
rows and n
columns
and all values zero.
- assignZero() - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIndexCrossIntegers
-
Keep the number of rows and the period but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIndexCrossIntegers
-
Become a matrix with m
periodic rows of period
n
and all values zero.
- assignZero(int) - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIntegers
-
Become a periodic sequence of period n
with all values
equal to zero.
- assignZero() - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIntegers
-
Keep the period but set all values to zero.
- assignZero() - Method in class de.jtem.function.integer.IntegerFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Keep the number of layers and the periods but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a matrix with m
layers, m
periodic
rows of period n
, periodic columns of period
m
and all values zero.
- assignZero() - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Keep the number of layers and the periods but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a matrix with m
layers, m
periodic
rows of period n
, periodic columns of period
m
and all values zero.
- assignZero() - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Keep the number of rows and the period but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a matrix with m
periodic rows of period
n
and all values zero.
- assignZero() - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndex
-
Keep the number of indices but set all values to zero.
- assignZero(int) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndex
-
Become a tupel of n
zeroes.
- assignZero() - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndex
-
Keep the number of rows and columns but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndex
-
Become a matrix with m
rows and n
columns
and all values zero.
- assignZero() - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndexCrossIndex
-
Keep the number of rows and columns but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndexCrossIndex
-
Become a matrix with m
rows and n
columns
and all values zero.
- assignZero() - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIndexCrossIntegers
-
Keep the number of rows and the period but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIndexCrossIntegers
-
Become a matrix with m
periodic rows of period
n
and all values zero.
- assignZero(int) - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIntegers
-
Become a periodic sequence of period n
with all values
equal to zero.
- assignZero() - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIntegers
-
Keep the period but set all values to zero.
- assignZero() - Method in class de.jtem.function.quaternion.QuaternionFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Keep the number of layers and the periods but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a matrix with m
layers, m
periodic
rows of period n
, periodic columns of period
m
and all values zero.
- assignZero() - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Keep the number of layers and the periods but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Become a matrix with m
layers, m
periodic
rows of period n
, periodic columns of period
m
and all values zero.
- assignZero() - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Keep the number of rows and the period but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Become a matrix with m
periodic rows of period
n
and all values zero.
- assignZero() - Method in class de.jtem.function.real.RealFunctionOnIndex
-
Keep the number of indices but set all values to zero.
- assignZero(int) - Method in class de.jtem.function.real.RealFunctionOnIndex
-
Become a tupel of n
zeroes.
- assignZero() - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndex
-
Keep the number of rows and columns but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndex
-
Become a matrix with m
rows and n
columns
and all values zero.
- assignZero() - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndexCrossIndex
-
Keep the number of rows and columns but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndexCrossIndex
-
Become a matrix with m
rows and n
columns
and all values zero.
- assignZero() - Method in class de.jtem.function.real.RealFunctionPeriodicOnIndexCrossIntegers
-
Keep the number of rows and the period but set all values to zero.
- assignZero(int, int) - Method in class de.jtem.function.real.RealFunctionPeriodicOnIndexCrossIntegers
-
Become a matrix with m
periodic rows of period
n
and all values zero.
- assignZero(int) - Method in class de.jtem.function.real.RealFunctionPeriodicOnIntegers
-
Become a periodic sequence of period n
with all values
equal to zero.
- assignZero() - Method in class de.jtem.function.real.RealFunctionPeriodicOnIntegers
-
Keep the period but set all values to zero.
- assignZero() - Method in class de.jtem.function.real.RealFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Keep the number of layers and the periods but set all values to zero.
- assignZero(int, int, int) - Method in class de.jtem.function.real.RealFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Become a matrix with m
layers, m
periodic
rows of period n
, periodic columns of period
m
and all values zero.
- de.jtem.function - package de.jtem.function
-
Lots of interfaces that describe different domains and functions.
- de.jtem.function.complex - package de.jtem.function.complex
-
- de.jtem.function.integer - package de.jtem.function.integer
-
- de.jtem.function.quaternion - package de.jtem.function.quaternion
-
- de.jtem.function.real - package de.jtem.function.real
-
- Domain - Class in de.jtem.function
-
This class provides interfaces to be implemented by classes modelling
functions defined on various mathematically important standard spaces.
- Domain() - Constructor for class de.jtem.function.Domain
-
- Domain.DoublyPeriodicOnIndexCrossIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of a fine set of indices with the integer plane
and which are periodic in the last two arguments.
- Domain.DoublyPeriodicOnIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of integers with itself and which are
periodic in the both variables.
- Domain.DoublyPeriodicOnIntegersCrossIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of the non-negative integers with the integer
plane and which are periodic in the last two arguments.
- Domain.DoublyPeriodicOnIntervalCrossRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of a closed interval with the real plane
and which are periodic in the last two arguments.
- Domain.DoublyPeriodicOnNonNegativeIntegersCrossIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of the non-negative integers with the integer
plane and which are periodic in the last two arguments.
- Domain.DoublyPeriodicOnNonNegativeRealsCrossRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of the non-negative real numbers with the real
plane and which are periodic in the last two arguments.
- Domain.DoublyPeriodicOnRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the real plane and which are periodic in both variables.
- Domain.DoublyPeriodicOnRealsCrossRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of three copies of the real line and which are
periodic in the last two arguments.
- Domain.OnIndex - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the set of integers between zero and n-1 (elements of which are
referered to as "indices).
- Domain.OnIndexCrossIndex - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of two finite sets of indices.
- Domain.OnIndexCrossIndexCrossIndex - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of three fine sets of indices.
- Domain.OnIndexCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a finite set of indices with the set of
integers.
- Domain.OnIndexCrossIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of a fine set of indices with the integer plane.
- Domain.OnIndexCrossInterval - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a finite set of indices
with a closed interval on the real line.
- Domain.OnIndexCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a finite set of indices with the real line.
- Domain.OnIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have the integers as their domain of
definition.
- Domain.OnIntegersCrossIndex - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
integers with a finite set of indices.
- Domain.OnIntegersCrossIndexCrossIndex - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of the non-negative integers with two finite sets
of indices.
- Domain.OnIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
integers with itself.
- Domain.OnIntegersCrossIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of the non-negative integers with the
integer plane.
- Domain.OnIntegersCrossInterval - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
integers with a closed interval on the real line.
- Domain.OnIntegersCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
integers with the real line.
- Domain.OnInterval - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or differential equations) that have a closed interval of real
numbers as their domain of definition.
- Domain.OnIntervalCrossIndex - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a closed interval with a finite sets of
indices.
- Domain.OnIntervalCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a closed interval with the set of
integers.
- Domain.OnIntervalCrossInterval - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a closed interval on the real line
with another closed interval.
- Domain.OnIntervalCrossIntervalCrossInterval - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of three closed intervals.
- Domain.OnIntervalCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a closed interval with the real line.
- Domain.OnIntervalCrossRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of a closed interval with the real plane.
- Domain.OnNonNegativeIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the set of non-negative integers.
- Domain.OnNonNegativeIntegersCrossIndex - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
non-negative integers with a finite set of indices.
- Domain.OnNonNegativeIntegersCrossIndexCrossIndex - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of the non-negative integers with two finite sets
of indices.
- Domain.OnNonNegativeIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
non-negative integers with the set of integers.
- Domain.OnNonNegativeIntegersCrossIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of the non-negative integers with the
integer plane.
- Domain.OnNonNegativeIntegersCrossInterval - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
non-negative integers with a closed interval on the real line.
- Domain.OnNonNegativeIntegersCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
non-negative integers with the real line.
- Domain.OnNonNegativeReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have the non-negative real numbers
as their domain of definition.
- Domain.OnNonNegativeRealsCrossIndex - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
non-negative real numbers with a finite set of indices.
- Domain.OnNonNegativeRealsCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
non-negative real numbers with the set of integers.
- Domain.OnNonNegativeRealsCrossInterval - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
non-negative real numbers with a closed interval on the real line.
- Domain.OnNonNegativeRealsCrossIntervalCrossInterval - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of the non-negative real numbers with two closed
intervals.
- Domain.OnNonNegativeRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of
non-negative real numbers with the real line.
- Domain.OnNonNegativeRealsCrossRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of the non-negative real numbers with the
real plane.
- Domain.OnReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or differential equations) that have the real line as their domain of
definition.
- Domain.OnRealsCrossIndex - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the real line with a finite set of indices.
- Domain.OnRealsCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the real line with the set of integers.
- Domain.OnRealsCrossInterval - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the real line with a closed interval.
- Domain.OnRealsCrossIntervalCrossInterval - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of the non-negative real numbers with two closed
intervals.
- Domain.OnRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the real plane.
- Domain.OnRealsCrossRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of three copies of the real line.
- Domain.PeriodicOnIndexCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a finite set of indices with the set of
integers and which are periodic in the second variable.
- Domain.PeriodicOnIndexCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a finite set of indices with the real line
and which are periodic in the second variable.
- Domain.PeriodicOnIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have the integers as their domain of
definition and which are periodic.
- Domain.PeriodicOnIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of integers with itself and which are
periodic in the second variable.
- Domain.PeriodicOnIntegersCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of non-negative integers with the real
line and which are periodic in the second variable.
- Domain.PeriodicOnIntervalCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a closed interval with the set of
integers and which are periodic in the second variable.
- Domain.PeriodicOnIntervalCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of a closed interval with the real line
and which are periodic in the second variable.
- Domain.PeriodicOnNonNegativeIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of non-negative integers with the
integers and which are periodic in the second variable.
- Domain.PeriodicOnNonNegativeIntegersCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of non-negative integers with the real
line and which are periodic in the second variable.
- Domain.PeriodicOnNonNegativeRealsCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of non-negative real numbers with the
integers which are periodic in the second variable.
- Domain.PeriodicOnNonNegativeRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the set of non-negative real numbers with the
real line and which are periodic in the second variable.
- Domain.PeriodicOnReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or differential equations) that have the real line as their domain of
definition and which are periodic.
- Domain.PeriodicOnRealsCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of the real line with the set of integers and which
are periodic in the second variable.
- Domain.PeriodicOnRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the real plane and which are periodic in the second variable.
- Domain.TriplyPeriodicOnIntegersCrossIntegersCrossIntegers - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the cartesian product of three copies of the integers and which are
periodic in all three variables.
- Domain.TriplyPeriodicOnRealsCrossRealsCrossReals - Interface in de.jtem.function
-
This interface models mathematical objects (like maps into some other
set or difference equations) that have as their domain of definition
the Cartesian product of three copies of the real line and which are
periodic in the all three arguments.
- setNumIndices(int) - Method in class de.jtem.function.complex.ComplexFunctionOnIndex
-
Do nothing if n
is equal to the current number of
indices, become a tupel of n
zeroes otherwise.
- setNumIndices(int) - Method in class de.jtem.function.integer.IntegerFunctionOnIndex
-
Do nothing if n
is equal to the current number of
indices, become a tupel of n
zeroes otherwise.
- setNumIndices(int) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndex
-
Do nothing if n
is equal to the current number of
indices, become a tupel of n
zeroes otherwise.
- setNumIndices(int) - Method in class de.jtem.function.real.RealFunctionOnIndex
-
Do nothing if n
is equal to the current number of
indices, become a tupel of n
zeroes otherwise.
- setPeriod(int) - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIntegers
-
Do nothing if n
is equal to the current period, become
a periodic sequence with period code>n and all values zero
otherwise.
- setPeriod(int) - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIntegers
-
Do nothing if n
is equal to the current period, become
a periodic sequence with period code>n and all values zero
otherwise.
- setPeriod(int) - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIntegers
-
Do nothing if n
is equal to the current period, become
a periodic sequence with period code>n and all values zero
otherwise.
- setPeriod(int) - Method in class de.jtem.function.real.RealFunctionPeriodicOnIntegers
-
Do nothing if n
is equal to the current period, become
a periodic sequence with period code>n and all values zero
otherwise.
- setSize(int, int, int) - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Do nothing if k
is equal to the current number of layers,
m
is equal to the current second period and
n
is equal to the current period.
- setSize(int, int) - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Do nothing if m
is equal to the current number of rows and
n
is equal to the current period, otherwise become
a doubly periodic matrix with m
rows, n
columns and all values zero.
- setSize(int, int) - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndex
-
Do nothing if m
and n
are equal to the
current numbers of rows and columns, otherwise become a matrix with
m
rows and n
columns and all values zero.
- setSize(int, int, int) - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndexCrossIndex
-
Do nothing if m
and n
are equal to the
current numbers of rows and columns, otherwise become a matrix with
m
rows and n
columns and all values zero.
- setSize(int, int) - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIndexCrossIntegers
-
Do nothing if m
is equal to the current number of rows and
n
is equal to the current period, become
a matrix with m
periodic rows of period code>n
and all values zero otherwise.
- setSize(int, int, int) - Method in class de.jtem.function.complex.ComplexFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Do nothing if k
is equal to the current third period,
m
is equal to the current second period and
n
is equal to the current period.
- setSize(int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Do nothing if k
is equal to the current number of layers,
m
is equal to the current second period and
n
is equal to the current period.
- setSize(int, int) - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Do nothing if m
is equal to the current number of rows and
n
is equal to the current period, otherwise become
a doubly periodic matrix with m
rows, n
columns and all values zero.
- setSize(int, int) - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndex
-
Do nothing if m
and n
are equal to the
current numbers of rows and columns, otherwise become a matrix with
m
rows and n
columns and all values zero.
- setSize(int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndexCrossIndex
-
Do nothing if m
and n
are equal to the
current numbers of rows and columns, otherwise become a matrix with
m
rows and n
columns and all values zero.
- setSize(int, int) - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIndexCrossIntegers
-
Do nothing if m
is equal to the current number of rows and
n
is equal to the current period, become
a matrix with m
periodic rows of period code>n
and all values zero otherwise.
- setSize(int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Do nothing if k
is equal to the current third period,
m
is equal to the current second period and
n
is equal to the current period.
- setSize(int, int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Do nothing if k
is equal to the current number of layers,
m
is equal to the current second period and
n
is equal to the current period.
- setSize(int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Do nothing if m
is equal to the current number of rows and
n
is equal to the current period, otherwise become
a doubly periodic matrix with m
rows, n
columns and all values zero.
- setSize(int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndex
-
Do nothing if m
and n
are equal to the
current numbers of rows and columns, otherwise become a matrix with
m
rows and n
columns and all values zero.
- setSize(int, int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndexCrossIndex
-
Do nothing if m
and n
are equal to the
current numbers of rows and columns, otherwise become a matrix with
m
rows and n
columns and all values zero.
- setSize(int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIndexCrossIntegers
-
Do nothing if m
is equal to the current number of rows and
n
is equal to the current period, become
a matrix with m
periodic rows of period code>n
and all values zero otherwise.
- setSize(int, int, int) - Method in class de.jtem.function.quaternion.QuaternionFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Do nothing if k
is equal to the current third period,
m
is equal to the current second period and
n
is equal to the current period.
- setSize(int, int, int) - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Do nothing if k
is equal to the current number of layers,
m
is equal to the current second period and
n
is equal to the current period.
- setSize(int, int) - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Do nothing if m
is equal to the current number of rows and
n
is equal to the current period, otherwise become
a doubly periodic matrix with m
rows, n
columns and all values zero.
- setSize(int, int) - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndex
-
Do nothing if m
and n
are equal to the
current numbers of rows and columns, otherwise become a matrix with
m
rows and n
columns and all values zero.
- setSize(int, int, int) - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndexCrossIndex
-
Do nothing if m
and n
are equal to the
current numbers of rows and columns, otherwise become a matrix with
m
rows and n
columns and all values zero.
- setSize(int, int) - Method in class de.jtem.function.real.RealFunctionPeriodicOnIndexCrossIntegers
-
Do nothing if m
is equal to the current number of rows and
n
is equal to the current period, become
a matrix with m
periodic rows of period code>n
and all values zero otherwise.
- setSize(int, int, int) - Method in class de.jtem.function.real.RealFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Do nothing if k
is equal to the current third period,
m
is equal to the current second period and
n
is equal to the current period.
- setValueAt(int, int, int, Complex) - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, int, Complex) - Method in class de.jtem.function.complex.ComplexFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, Complex) - Method in class de.jtem.function.complex.ComplexFunctionOnIndex
-
Set the value at index j to x.
- setValueAt(int, int, Complex) - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndex
-
Sets the value at index i,j
to z
.
- setValueAt(int, int, int, Complex) - Method in class de.jtem.function.complex.ComplexFunctionOnIndexCrossIndexCrossIndex
-
Sets the value at index h,i,j
to z
.
- setValueAt(int, int, Complex) - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIndexCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, Complex) - Method in class de.jtem.function.complex.ComplexFunctionPeriodicOnIntegers
-
- setValueAt(int, int, int, Complex) - Method in class de.jtem.function.complex.ComplexFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Sets the value at index h,i,j
to z
.
- setValueAt(int, int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, int) - Method in class de.jtem.function.integer.IntegerFunctionOnIndex
-
Set the value at index j to x.
- setValueAt(int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndex
-
Sets the value at index i,j
to z
.
- setValueAt(int, int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionOnIndexCrossIndexCrossIndex
-
Sets the value at index h,i,j
to z
.
- setValueAt(int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIndexCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, int) - Method in class de.jtem.function.integer.IntegerFunctionPeriodicOnIntegers
-
- setValueAt(int, int, int, int) - Method in class de.jtem.function.integer.IntegerFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Sets the value at index h,i,j
to z
.
- setValueAt(int, int, int, Quaternion) - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, int, Quaternion) - Method in class de.jtem.function.quaternion.QuaternionFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, Quaternion) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndex
-
Set the value at index j to x.
- setValueAt(int, int, Quaternion) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndex
-
Sets the value at index i,j
to z
.
- setValueAt(int, int, int, Quaternion) - Method in class de.jtem.function.quaternion.QuaternionFunctionOnIndexCrossIndexCrossIndex
-
Sets the value at index h,i,j
to z
.
- setValueAt(int, int, Quaternion) - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIndexCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, Quaternion) - Method in class de.jtem.function.quaternion.QuaternionFunctionPeriodicOnIntegers
-
- setValueAt(int, int, int, Quaternion) - Method in class de.jtem.function.quaternion.QuaternionFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Sets the value at index h,i,j
to z
.
- setValueAt(int, int, int, double) - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIndexCrossIntegersCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, int, double) - Method in class de.jtem.function.real.RealFunctionDoublyPeriodicOnIntegersCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, double) - Method in class de.jtem.function.real.RealFunctionOnIndex
-
Set the value at index j to x.
- setValueAt(int, int, double) - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndex
-
Sets the value at index i,j
to z
.
- setValueAt(int, int, int, double) - Method in class de.jtem.function.real.RealFunctionOnIndexCrossIndexCrossIndex
-
Sets the value at index h,i,j
to z
.
- setValueAt(int, int, double) - Method in class de.jtem.function.real.RealFunctionPeriodicOnIndexCrossIntegers
-
Sets the value at index i,j
to z
.
- setValueAt(int, double) - Method in class de.jtem.function.real.RealFunctionPeriodicOnIntegers
-
- setValueAt(int, int, int, double) - Method in class de.jtem.function.real.RealFunctionTriplyPeriodicOnIntegersCrossIntegersCrossIntegers
-
Sets the value at index h,i,j
to z
.