Package | Description |
---|---|
org.hipparchus.linear |
Linear algebra support.
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Modifier and Type | Method | Description |
---|---|---|
ArrayFieldVector<T> |
ArrayFieldVector.add(ArrayFieldVector<T> v) |
Compute the sum of
this and v . |
ArrayFieldVector<T> |
ArrayFieldVector.append(ArrayFieldVector<T> v) |
Construct a vector by appending a vector to this vector.
|
ArrayFieldVector<T> |
ArrayFieldVector.ebeDivide(ArrayFieldVector<T> v) |
Element-by-element division.
|
ArrayFieldVector<T> |
ArrayFieldVector.ebeMultiply(ArrayFieldVector<T> v) |
Element-by-element multiplication.
|
ArrayFieldVector<T> |
ArrayFieldVector.projection(ArrayFieldVector<T> v) |
Find the orthogonal projection of this vector onto another vector.
|
ArrayFieldVector<T> |
ArrayFieldVector.subtract(ArrayFieldVector<T> v) |
Compute
this minus v . |
Modifier and Type | Method | Description |
---|---|---|
ArrayFieldVector<T> |
ArrayFieldVector.add(ArrayFieldVector<T> v) |
Compute the sum of
this and v . |
ArrayFieldVector<T> |
ArrayFieldVector.append(ArrayFieldVector<T> v) |
Construct a vector by appending a vector to this vector.
|
T |
ArrayFieldVector.dotProduct(ArrayFieldVector<T> v) |
Compute the dot product.
|
ArrayFieldVector<T> |
ArrayFieldVector.ebeDivide(ArrayFieldVector<T> v) |
Element-by-element division.
|
ArrayFieldVector<T> |
ArrayFieldVector.ebeMultiply(ArrayFieldVector<T> v) |
Element-by-element multiplication.
|
FieldMatrix<T> |
ArrayFieldVector.outerProduct(ArrayFieldVector<T> v) |
Compute the outer product.
|
ArrayFieldVector<T> |
ArrayFieldVector.projection(ArrayFieldVector<T> v) |
Find the orthogonal projection of this vector onto another vector.
|
void |
ArrayFieldVector.set(int index,
ArrayFieldVector<T> v) |
Set a set of consecutive elements.
|
ArrayFieldVector<T> |
ArrayFieldVector.subtract(ArrayFieldVector<T> v) |
Compute
this minus v . |
Constructor | Description |
---|---|
ArrayFieldVector(ArrayFieldVector<T> v) |
Construct a vector from another vector, using a deep copy.
|
ArrayFieldVector(ArrayFieldVector<T> v,
boolean deep) |
Construct a vector from another vector.
|
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