Interface SelfDeclaringScalar<S extends SelfDeclaringScalar<S>>
- All Superinterfaces:
AccessScalar<S>, Comparable<S>, Field<Scalar<S>>, Group, Group.Additive<Scalar<S>>, Group.Multiplicative<Scalar<S>>, NormedVectorSpace<Scalar<S>, S>, NumberContext.Enforceable<S>, NumberDefinition, Operation, Operation.Addition<Scalar<S>>, Operation.Division<Scalar<S>>, Operation.Multiplication<Scalar<S>>, Operation.Subtraction<Scalar<S>>, Ring<Scalar<S>>, Scalar<S>, ScalarOperation, ScalarOperation.Addition<Scalar<S>, S>, ScalarOperation.Division<Scalar<S>, S>, ScalarOperation.Multiplication<Scalar<S>, S>, ScalarOperation.Subtraction<Scalar<S>, S>, Tensor<S, Scalar<S>>, VectorSpace<Scalar<S>, S>
- All Known Implementing Classes:
Amount, ComplexNumber, ExactDecimal, Money, Price, Quadruple, Quantity, Quaternion, RationalNumber
interface SelfDeclaringScalar<S extends SelfDeclaringScalar<S>>
extends Scalar<S>, NumberContext.Enforceable<S>
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Nested Class Summary
Nested classes/interfaces inherited from interface Group
Group.Additive<T>, Group.Multiplicative<T>Nested classes/interfaces inherited from interface Operation
Operation.Addition<T>, Operation.Division<T>, Operation.Multiplication<T>, Operation.Subtraction<T>Nested classes/interfaces inherited from interface Scalar
Scalar.Factory<N>Nested classes/interfaces inherited from interface ScalarOperation
ScalarOperation.Addition<T,N>, ScalarOperation.Division<T, N>, ScalarOperation.Multiplication<T, N>, ScalarOperation.Subtraction<T, N> -
Method Summary
Modifier and TypeMethodDescriptionadd(double scalarAddend) default Sadd(float scalarAddend) This method will (most likely) be moved to some other interface in the future! Just have to figure out where it fits...divide(double scalarDivisor) default Sdivide(float scalarDivisor) invert()The multiplicative inverse.multiply(double scalarMultiplicand) default Smultiply(float scalarMultiplicand) negate()The additive inverse of this.power(int power) Multiply by itselfpowertimes.signum()this == this.signum().multiply(this.norm())subtract(double scalarSubtrahend) default Ssubtract(float scalarSubtrahend) Methods inherited from interface AccessScalar
getMethods inherited from interface Comparable
compareToMethods inherited from interface NormedVectorSpace
isSmall, normMethods inherited from interface NumberContext.Enforceable
enforceMethods inherited from interface NumberDefinition
booleanValue, byteValue, doubleValue, floatValue, intValue, longValue, shortValueMethods inherited from interface Scalar
add, dimensions, divide, isAbsolute, isZero, multiply, rank, subtract, toBigDecimal, toPlainString, toStringMethods inherited from interface Tensor
components, isSameShape
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Method Details
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add
- Specified by:
addin interfaceScalarOperation.Addition<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this + scalarAddend.
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add
- Specified by:
addin interfaceScalarOperation.Addition<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this + scalarAddend.
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add
- Specified by:
addin interfaceScalarOperation.Addition<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this + scalarAddend.
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conjugate
S conjugate()Description copied from interface:VectorSpaceThis method will (most likely) be moved to some other interface in the future! Just have to figure out where it fits...
The conjugate transpose of a matrix and/or the conjugate of a scalar/field like ComplexNumber or Quaternion.
The conjugate transpose of a real matrix is simply its transpose.
- Specified by:
conjugatein interfaceVectorSpace<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>
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divide
- Specified by:
dividein interfaceScalarOperation.Division<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this / scalarDivisor.
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divide
- Specified by:
dividein interfaceScalarOperation.Division<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this / scalarDivisor.
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divide
- Specified by:
dividein interfaceScalarOperation.Division<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this / scalarDivisor.
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invert
S invert()Description copied from interface:Group.MultiplicativeThe multiplicative inverse.- Specified by:
invertin interfaceGroup.Multiplicative<S extends SelfDeclaringScalar<S>>- Returns:
IDENTITY / this.
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multiply
- Specified by:
multiplyin interfaceScalarOperation.Multiplication<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this * scalarMultiplicand.
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multiply
- Specified by:
multiplyin interfaceScalarOperation.Multiplication<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this * scalarMultiplicand.
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multiply
- Specified by:
multiplyin interfaceScalarOperation.Multiplication<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this * multiplicand.
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negate
S negate()Description copied from interface:Group.AdditiveThe additive inverse of this.- Specified by:
negatein interfaceGroup.Additive<S extends SelfDeclaringScalar<S>>- Returns:
-this.
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power
Description copied from interface:Operation.MultiplicationMultiply by itselfpowertimes.- Specified by:
powerin interfaceOperation.Multiplication<S extends SelfDeclaringScalar<S>>
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signum
S signum()Description copied from interface:NormedVectorSpacethis == this.signum().multiply(this.norm())- Specified by:
signumin interfaceNormedVectorSpace<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
- A unit "vector"
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subtract
- Specified by:
subtractin interfaceScalarOperation.Subtraction<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this - scalarSubtrahend.
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subtract
- Specified by:
subtractin interfaceScalarOperation.Subtraction<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this - scalarSubtrahend.
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subtract
- Specified by:
subtractin interfaceScalarOperation.Subtraction<Scalar<S extends SelfDeclaringScalar<S>>, S extends SelfDeclaringScalar<S>>- Returns:
this - scalarSubtrahend.
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