Package | Description |
---|---|
JSci.maths | |
JSci.maths.algebras |
Provides classes for algebras and their generalisations (vector spaces, modules).
|
JSci.maths.categories | |
JSci.maths.fields |
Provides classes for fields and their generalisations (rings).
|
JSci.maths.polynomials | |
JSci.physics.quantum |
Modifier and Type | Class and Description |
---|---|
class |
Complex
The Complex class encapsulates complex numbers.
|
class |
ComplexDiagonalMatrix
The ComplexDiagonalMatrix class provides an object for encapsulating diagonal matrices containing complex numbers.
|
class |
ComplexMatrix
The ComplexMatrix class provides an object for encapsulating matrices containing complex numbers.
|
class |
ComplexSquareMatrix
The ComplexSquareMatrix class provides an object for encapsulating square matrices containing complex numbers.
|
class |
ComplexTridiagonalMatrix
The ComplexTridiagonalMatrix class provides an object for encapsulating tridiagonal matrices containing complex numbers.
|
class |
DoubleDiagonalMatrix
The DoubleDiagonalMatrix class encapsulates diagonal matrices containing doubles.
|
class |
DoubleMatrix
The DoubleMatrix class provides an object for encapsulating double matrix algebras.
|
class |
DoubleSparseMatrix
The DoubleSparseMatrix class provides an object for encapsulating sparse matrices.
|
class |
DoubleSparseSquareMatrix
The DoubleSparseSquareMatrix class provides an object for encapsulating sparse square matrices.
|
class |
DoubleSquareMatrix
The DoubleSquareMatrix class provides an object for encapsulating square matrices containing doubles.
|
class |
DoubleTridiagonalMatrix
The DoubleTridiagonalMatrix class provides an object for encapsulating tridiagonal matrices containing doubles.
|
class |
IntegerDiagonalMatrix
The IntegerDiagonalMatrix class provides an object for encapsulating diagonal matrices containing integers.
|
class |
IntegerMatrix
The IntegerMatrix class provides an object for encapsulating matrices containing integers.
|
class |
IntegerSquareMatrix
The IntegerSquareMatrix class provides an object for encapsulating square matrices containing integers.
|
class |
IntegerTridiagonalMatrix
The IntegerTridiagonalMatrix class provides an object for encapsulating tridiagonal matrices containing integers.
|
class |
MathDouble
The MathDouble class encapsulates double numbers.
|
class |
MathInteger
The MathInteger class encapsulates integer numbers.
|
class |
Matrix
The Matrix superclass provides an abstract encapsulation for matrices.
|
class |
Quaternion
The Quaternion class encapsulates quaternions.
|
class |
RingMatrix
The RingMatrix class provides an object for encapsulating matrices over an arbitrary ring.
|
class |
Supernumber
The Supernumber class encapsulates supernumbers.
|
Modifier and Type | Field and Description |
---|---|
protected Ring.Member[][] |
RingMatrix.matrix
Array containing the elements of the matrix.
|
Modifier and Type | Method and Description |
---|---|
Ring.Member |
RingMatrix.getElement(int i,
int j)
Returns an element of the matrix.
|
Ring.Member |
MathDouble.multiply(Ring.Member n)
Returns the multiplication of this number and another.
|
Ring.Member |
Complex.multiply(Ring.Member x)
Returns the multiplication of this number and another.
|
Ring.Member |
MathInteger.multiply(Ring.Member n)
Returns the multiplication of this number and another.
|
Ring.Member |
ComplexMatrix.multiply(Ring.Member m)
Returns the multiplication of this matrix and another.
|
Ring.Member |
RingMatrix.multiply(Ring.Member m)
Returns the multiplication of this matrix and another.
|
Ring.Member |
Supernumber.multiply(Ring.Member z)
Returns the multiplication of this number and another.
|
Ring.Member |
DoubleMatrix.multiply(Ring.Member m)
Returns the multiplication of this matrix and another.
|
Ring.Member |
IntegerMatrix.multiply(Ring.Member m)
Returns the multiplication of this matrix and another.
|
Ring.Member |
Quaternion.multiply(Ring.Member x)
Returns the multiplication of this number and another.
|
Modifier and Type | Method and Description |
---|---|
Ring.Member |
MathDouble.multiply(Ring.Member n)
Returns the multiplication of this number and another.
|
Ring.Member |
Complex.multiply(Ring.Member x)
Returns the multiplication of this number and another.
|
Ring.Member |
MathInteger.multiply(Ring.Member n)
Returns the multiplication of this number and another.
|
Ring.Member |
ComplexMatrix.multiply(Ring.Member m)
Returns the multiplication of this matrix and another.
|
Ring.Member |
RingMatrix.multiply(Ring.Member m)
Returns the multiplication of this matrix and another.
|
Ring.Member |
Supernumber.multiply(Ring.Member z)
Returns the multiplication of this number and another.
|
Ring.Member |
DoubleMatrix.multiply(Ring.Member m)
Returns the multiplication of this matrix and another.
|
Ring.Member |
IntegerMatrix.multiply(Ring.Member m)
Returns the multiplication of this matrix and another.
|
Ring.Member |
Quaternion.multiply(Ring.Member x)
Returns the multiplication of this number and another.
|
Module.Member |
Complex.scalarMultiply(Ring.Member x)
Returns the multiplication of this number by a complex scalar.
|
Module.Member |
DoubleVector.scalarMultiply(Ring.Member x)
Returns the multiplication of this vector by a scalar.
|
Module.Member |
IntegerVector.scalarMultiply(Ring.Member x)
Returns the multiplication of this vector by a scalar.
|
Module.Member |
ComplexVector.scalarMultiply(Ring.Member x)
Returns the multiplication of this vector by a scalar.
|
Module.Member |
ComplexMatrix.scalarMultiply(Ring.Member x)
Returns the multiplication of this matrix by a scalar.
|
Module.Member |
RingMatrix.scalarMultiply(Ring.Member r)
Returns the multiplication of this matrix by a scalar.
|
Module.Member |
DoubleMatrix.scalarMultiply(Ring.Member x)
Returns the multiplication of this matrix by a scalar.
|
Module.Member |
IntegerMatrix.scalarMultiply(Ring.Member x)
Returns the multiplication of this matrix by a scalar.
|
Module.Member |
Quaternion.scalarMultiply(Ring.Member x)
Returns the multiplication of this number by a real scalar.
|
void |
RingMatrix.setElement(int i,
int j,
Ring.Member r)
Sets the value of an element of the matrix.
|
Constructor and Description |
---|
RingMatrix(Ring.Member[][] array)
Constructs a matrix by wrapping an array.
|
Modifier and Type | Interface and Description |
---|---|
static interface |
Algebra.Member
This interface defines a member of an algebra.
|
static interface |
CStarAlgebra.Member
This interface defines a member of a C*-algebra.
|
Modifier and Type | Method and Description |
---|---|
Module.Member |
Module.Member.scalarMultiply(Ring.Member r)
The scalar multiplication law.
|
Modifier and Type | Method and Description |
---|---|
Module.Member |
Hilb.LinearMap.scalarMultiply(Ring.Member z) |
Modifier and Type | Interface and Description |
---|---|
static interface |
Field.Member
This interface defines a member of a field.
|
Modifier and Type | Method and Description |
---|---|
Ring.Member |
Ring.Member.multiply(Ring.Member r)
The multiplication law.
|
Ring.Member |
IntegerRing.one()
Returns the integer number one.
|
Ring.Member |
Ring.one()
Returns the unit element.
|
Ring.Member |
RealField.one()
Returns the real number one.
|
Ring.Member |
ComplexField.one()
Returns the complex number one.
|
Modifier and Type | Method and Description |
---|---|
boolean |
IntegerRing.isOne(Ring.Member r)
Returns true if the integer number is equal to one.
|
boolean |
Ring.isOne(Ring.Member r)
Returns true if the member is the unit element.
|
boolean |
RealField.isOne(Ring.Member r)
Returns true if the real number is equal to one.
|
boolean |
ComplexField.isOne(Ring.Member r)
Returns true if the complex number is equal to one.
|
Ring.Member |
Ring.Member.multiply(Ring.Member r)
The multiplication law.
|
Modifier and Type | Interface and Description |
---|---|
interface |
Polynomial
A Polynomial as a
Ring.Member over a Field |
Modifier and Type | Class and Description |
---|---|
class |
ComplexPolynomial
A Polynomial over the complex field.
|
class |
RealPolynomial
A Polynomial as a
Ring.Member over a real Field |
Modifier and Type | Method and Description |
---|---|
Ring.Member |
ComplexPolynomial.multiply(Ring.Member r)
The multiplication law.
|
Ring.Member |
RealPolynomial.multiply(Ring.Member r)
The multiplication law.
|
Ring.Member |
ComplexPolynomialRing.one()
Returns the unit element.
|
Ring.Member |
RealPolynomialRing.one()
Returns the unit element.
|
Modifier and Type | Method and Description |
---|---|
boolean |
ComplexPolynomialRing.isOne(Ring.Member r)
Returns true if the member is the unit element.
|
boolean |
RealPolynomialRing.isOne(Ring.Member r)
Returns true if the member is the unit element.
|
Ring.Member |
ComplexPolynomial.multiply(Ring.Member r)
The multiplication law.
|
Ring.Member |
RealPolynomial.multiply(Ring.Member r)
The multiplication law.
|
Modifier and Type | Class and Description |
---|---|
class |
GammaMatrix
The GammaMatrix class provides an object for encapsulating the gamma matrices.
|
Modifier and Type | Method and Description |
---|---|
Module.Member |
KetVector.scalarMultiply(Ring.Member x)
Returns the multiplication of this ket vector by a scalar.
|
Module.Member |
BraVector.scalarMultiply(Ring.Member x)
Returns the multiplication of this bra vector by a scalar.
|