Class ArrayFieldVector<T extends FieldElement<T>>
- java.lang.Object
-
- org.apache.commons.math4.legacy.linear.ArrayFieldVector<T>
-
- Type Parameters:
T
- the type of the field elements
- All Implemented Interfaces:
Serializable
,FieldVector<T>
public class ArrayFieldVector<T extends FieldElement<T>> extends Object implements FieldVector<T>, Serializable
This class implements theFieldVector
interface with aFieldElement
array.- Since:
- 2.0
- See Also:
- Serialized Form
-
-
Constructor Summary
Constructors Constructor Description ArrayFieldVector(int size, T preset)
Construct a vector with preset values.ArrayFieldVector(Field<T> field)
Build a 0-length vector.ArrayFieldVector(Field<T> field, int size)
Construct a vector of zeroes.ArrayFieldVector(Field<T> field, T[] d)
Construct a vector from an array, copying the input array.ArrayFieldVector(Field<T> field, T[] d, boolean copyArray)
Create a new ArrayFieldVector using the input array as the underlying data array.ArrayFieldVector(Field<T> field, T[] d, int pos, int size)
Construct a vector from part of a array.ArrayFieldVector(Field<T> field, T[] v1, T[] v2)
Construct a vector by appending one vector to another vector.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.ArrayFieldVector(FieldVector<T> v)
Construct a vector from another vector, using a deep copy.ArrayFieldVector(FieldVector<T> v1, FieldVector<T> v2)
Construct a vector by appending one vector to another vector.ArrayFieldVector(FieldVector<T> v1, T[] v2)
Construct a vector by appending one vector to another vector.ArrayFieldVector(T[] d)
Construct a vector from an array, copying the input array.ArrayFieldVector(T[] d, boolean copyArray)
Create a new ArrayFieldVector using the input array as the underlying data array.ArrayFieldVector(T[] d, int pos, int size)
Construct a vector from part of a array.ArrayFieldVector(T[] v1, FieldVector<T> v2)
Construct a vector by appending one vector to another vector.ArrayFieldVector(T[] v1, T[] v2)
Construct a vector by appending one vector to another vector.
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Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description ArrayFieldVector<T>
add(ArrayFieldVector<T> v)
Compute the sum ofthis
andv
.FieldVector<T>
add(FieldVector<T> v)
Compute the sum ofthis
andv
.ArrayFieldVector<T>
append(ArrayFieldVector<T> v)
Construct a vector by appending a vector to this vector.FieldVector<T>
append(FieldVector<T> v)
Construct a vector by appending a vector to this vector.FieldVector<T>
append(T in)
Construct a vector by appending a T to this vector.protected void
checkVectorDimensions(int n)
Check if instance dimension is equal to some expected value.protected void
checkVectorDimensions(FieldVector<T> v)
Check if instance and specified vectors have the same dimension.FieldVector<T>
copy()
Returns a (deep) copy of this.T
dotProduct(ArrayFieldVector<T> v)
Compute the dot product.T
dotProduct(FieldVector<T> v)
Compute the dot product.ArrayFieldVector<T>
ebeDivide(ArrayFieldVector<T> v)
Element-by-element division.FieldVector<T>
ebeDivide(FieldVector<T> v)
Element-by-element division.ArrayFieldVector<T>
ebeMultiply(ArrayFieldVector<T> v)
Element-by-element multiplication.FieldVector<T>
ebeMultiply(FieldVector<T> v)
Element-by-element multiplication.boolean
equals(Object other)
Test for the equality of two vectors.T[]
getDataRef()
Returns a reference to the underlying data array.int
getDimension()
Returns the size of the vector.T
getEntry(int index)
Returns the entry in the specified index.Field<T>
getField()
Get the type of field elements of the vector.FieldVector<T>
getSubVector(int index, int n)
Get a subvector from consecutive elements.int
hashCode()
Get a hashCode for the real vector.FieldVector<T>
mapAdd(T d)
Map an addition operation to each entry.FieldVector<T>
mapAddToSelf(T d)
Map an addition operation to each entry.FieldVector<T>
mapDivide(T d)
Map a division operation to each entry.FieldVector<T>
mapDivideToSelf(T d)
Map a division operation to each entry.FieldVector<T>
mapInv()
Map the 1/x function to each entry.FieldVector<T>
mapInvToSelf()
Map the 1/x function to each entry.FieldVector<T>
mapMultiply(T d)
Map a multiplication operation to each entry.FieldVector<T>
mapMultiplyToSelf(T d)
Map a multiplication operation to each entry.FieldVector<T>
mapSubtract(T d)
Map a subtraction operation to each entry.FieldVector<T>
mapSubtractToSelf(T d)
Map a subtraction operation to each entry.FieldMatrix<T>
outerProduct(ArrayFieldVector<T> v)
Compute the outer product.FieldMatrix<T>
outerProduct(FieldVector<T> v)
Compute the outer product.ArrayFieldVector<T>
projection(ArrayFieldVector<T> v)
Find the orthogonal projection of this vector onto another vector.FieldVector<T>
projection(FieldVector<T> v)
Find the orthogonal projection of this vector onto another vector.void
set(int index, ArrayFieldVector<T> v)
Set a set of consecutive elements.void
set(T value)
Set all elements to a single value.void
setEntry(int index, T value)
Set a single element.void
setSubVector(int index, FieldVector<T> v)
Set a set of consecutive elements.ArrayFieldVector<T>
subtract(ArrayFieldVector<T> v)
Computethis
minusv
.FieldVector<T>
subtract(FieldVector<T> v)
Computethis
minusv
.T[]
toArray()
Convert the vector to a T array.T
walkInDefaultOrder(FieldVectorChangingVisitor<T> visitor)
Visits (and possibly alters) all entries of this vector in default order (increasing index).T
walkInDefaultOrder(FieldVectorChangingVisitor<T> visitor, int start, int end)
Visits (and possibly alters) some entries of this vector in default order (increasing index).T
walkInDefaultOrder(FieldVectorPreservingVisitor<T> visitor)
Visits (but does not alter) all entries of this vector in default order (increasing index).T
walkInDefaultOrder(FieldVectorPreservingVisitor<T> visitor, int start, int end)
Visits (but does not alter) some entries of this vector in default order (increasing index).T
walkInOptimizedOrder(FieldVectorChangingVisitor<T> visitor)
Visits (and possibly alters) all entries of this vector in optimized order.T
walkInOptimizedOrder(FieldVectorChangingVisitor<T> visitor, int start, int end)
Visits (and possibly change) some entries of this vector in optimized order.T
walkInOptimizedOrder(FieldVectorPreservingVisitor<T> visitor)
Visits (but does not alter) all entries of this vector in optimized order.T
walkInOptimizedOrder(FieldVectorPreservingVisitor<T> visitor, int start, int end)
Visits (but does not alter) some entries of this vector in optimized order.
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Constructor Detail
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ArrayFieldVector
public ArrayFieldVector(Field<T> field)
Build a 0-length vector. Zero-length vectors may be used to initialize construction of vectors by data gathering. We start with zero-length and use either theArrayFieldVector(FieldVector, FieldVector)
constructor or one of theappend
methods (add(FieldVector)
orappend(ArrayFieldVector)
) to gather data into this vector.- Parameters:
field
- field to which the elements belong
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ArrayFieldVector
public ArrayFieldVector(Field<T> field, int size)
Construct a vector of zeroes.- Parameters:
field
- Field to which the elements belong.size
- Size of the vector.
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ArrayFieldVector
public ArrayFieldVector(int size, T preset)
Construct a vector with preset values.- Parameters:
size
- Size of the vector.preset
- All entries will be set with this value.
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ArrayFieldVector
public ArrayFieldVector(T[] d) throws NullArgumentException, ZeroException
Construct a vector from an array, copying the input array. This constructor needs a non-emptyd
array to retrieve the field from its first element. This implies it cannot build 0 length vectors. To build vectors from any size, one should use theArrayFieldVector(Field, FieldElement[])
constructor.- Parameters:
d
- Array.- Throws:
NullArgumentException
- ifd
isnull
.ZeroException
- ifd
is empty.- See Also:
ArrayFieldVector(Field, FieldElement[])
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ArrayFieldVector
public ArrayFieldVector(Field<T> field, T[] d) throws NullArgumentException
Construct a vector from an array, copying the input array.- Parameters:
field
- Field to which the elements belong.d
- Array.- Throws:
NullArgumentException
- ifd
isnull
.- See Also:
ArrayFieldVector(FieldElement[])
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ArrayFieldVector
public ArrayFieldVector(T[] d, boolean copyArray) throws NullArgumentException, ZeroException
Create a new ArrayFieldVector using the input array as the underlying data array. If an array is built specially in order to be embedded in a ArrayFieldVector and not used directly, thecopyArray
may be set tofalse
. This will prevent the copying and improve performance as no new array will be built and no data will be copied. This constructor needs a non-emptyd
array to retrieve the field from its first element. This implies it cannot build 0 length vectors. To build vectors from any size, one should use theArrayFieldVector(Field, FieldElement[], boolean)
constructor.- Parameters:
d
- Data for the new vector.copyArray
- Iftrue
, the input array will be copied, otherwise it will be referenced.- Throws:
NullArgumentException
- ifd
isnull
.ZeroException
- ifd
is empty.- See Also:
ArrayFieldVector(FieldElement[])
,ArrayFieldVector(Field, FieldElement[], boolean)
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ArrayFieldVector
public ArrayFieldVector(Field<T> field, T[] d, boolean copyArray) throws NullArgumentException
Create a new ArrayFieldVector using the input array as the underlying data array. If an array is built specially in order to be embedded in a ArrayFieldVector and not used directly, thecopyArray
may be set tofalse
. This will prevent the copying and improve performance as no new array will be built and no data will be copied.- Parameters:
field
- Field to which the elements belong.d
- Data for the new vector.copyArray
- Iftrue
, the input array will be copied, otherwise it will be referenced.- Throws:
NullArgumentException
- ifd
isnull
.- See Also:
ArrayFieldVector(FieldElement[], boolean)
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ArrayFieldVector
public ArrayFieldVector(T[] d, int pos, int size) throws NullArgumentException, NumberIsTooLargeException
Construct a vector from part of a array.- Parameters:
d
- Array.pos
- Position of the first entry.size
- Number of entries to copy.- Throws:
NullArgumentException
- ifd
isnull
.NumberIsTooLargeException
- if the size ofd
is less thanpos + size
.
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ArrayFieldVector
public ArrayFieldVector(Field<T> field, T[] d, int pos, int size) throws NullArgumentException, NumberIsTooLargeException
Construct a vector from part of a array.- Parameters:
field
- Field to which the elements belong.d
- Array.pos
- Position of the first entry.size
- Number of entries to copy.- Throws:
NullArgumentException
- ifd
isnull
.NumberIsTooLargeException
- if the size ofd
is less thanpos + size
.
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ArrayFieldVector
public ArrayFieldVector(FieldVector<T> v) throws NullArgumentException
Construct a vector from another vector, using a deep copy.- Parameters:
v
- Vector to copy.- Throws:
NullArgumentException
- ifv
isnull
.
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ArrayFieldVector
public ArrayFieldVector(ArrayFieldVector<T> v) throws NullArgumentException
Construct a vector from another vector, using a deep copy.- Parameters:
v
- Vector to copy.- Throws:
NullArgumentException
- ifv
isnull
.
-
ArrayFieldVector
public ArrayFieldVector(ArrayFieldVector<T> v, boolean deep) throws NullArgumentException
Construct a vector from another vector.- Parameters:
v
- Vector to copy.deep
- Iftrue
perform a deep copy, otherwise perform a shallow copy- Throws:
NullArgumentException
- ifv
isnull
.
-
ArrayFieldVector
public ArrayFieldVector(FieldVector<T> v1, FieldVector<T> v2) throws NullArgumentException
Construct a vector by appending one vector to another vector.- Parameters:
v1
- First vector (will be put in front of the new vector).v2
- Second vector (will be put at back of the new vector).- Throws:
NullArgumentException
- ifv1
orv2
isnull
.- Since:
- 3.2
-
ArrayFieldVector
public ArrayFieldVector(FieldVector<T> v1, T[] v2) throws NullArgumentException
Construct a vector by appending one vector to another vector.- Parameters:
v1
- First vector (will be put in front of the new vector).v2
- Second vector (will be put at back of the new vector).- Throws:
NullArgumentException
- ifv1
orv2
isnull
.- Since:
- 3.2
-
ArrayFieldVector
public ArrayFieldVector(T[] v1, FieldVector<T> v2) throws NullArgumentException
Construct a vector by appending one vector to another vector.- Parameters:
v1
- First vector (will be put in front of the new vector).v2
- Second vector (will be put at back of the new vector).- Throws:
NullArgumentException
- ifv1
orv2
isnull
.- Since:
- 3.2
-
ArrayFieldVector
public ArrayFieldVector(T[] v1, T[] v2) throws NullArgumentException, ZeroException
Construct a vector by appending one vector to another vector. This constructor needs at least one non-empty array to retrieve the field from its first element. This implies it cannot build 0 length vectors. To build vectors from any size, one should use theArrayFieldVector(Field, FieldElement[], FieldElement[])
constructor.- Parameters:
v1
- First vector (will be put in front of the new vector).v2
- Second vector (will be put at back of the new vector).- Throws:
NullArgumentException
- ifv1
orv2
isnull
.ZeroException
- if both arrays are empty.- See Also:
ArrayFieldVector(Field, FieldElement[], FieldElement[])
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ArrayFieldVector
public ArrayFieldVector(Field<T> field, T[] v1, T[] v2) throws NullArgumentException, ZeroException
Construct a vector by appending one vector to another vector.- Parameters:
field
- Field to which the elements belong.v1
- First vector (will be put in front of the new vector).v2
- Second vector (will be put at back of the new vector).- Throws:
NullArgumentException
- ifv1
orv2
isnull
.ZeroException
- if both arrays are empty.- See Also:
ArrayFieldVector(FieldElement[], FieldElement[])
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-
Method Detail
-
getField
public Field<T> getField()
Get the type of field elements of the vector.- Specified by:
getField
in interfaceFieldVector<T extends FieldElement<T>>
- Returns:
- type of field elements of the vector
-
copy
public FieldVector<T> copy()
Returns a (deep) copy of this.- Specified by:
copy
in interfaceFieldVector<T extends FieldElement<T>>
- Returns:
- vector copy
-
add
public FieldVector<T> add(FieldVector<T> v) throws DimensionMismatchException
Compute the sum ofthis
andv
.- Specified by:
add
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
v
- vector to be added- Returns:
this + v
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
-
add
public ArrayFieldVector<T> add(ArrayFieldVector<T> v) throws DimensionMismatchException
Compute the sum ofthis
andv
.- Parameters:
v
- vector to be added- Returns:
this + v
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
-
subtract
public FieldVector<T> subtract(FieldVector<T> v) throws DimensionMismatchException
Computethis
minusv
.- Specified by:
subtract
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
v
- vector to be subtracted- Returns:
this - v
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
-
subtract
public ArrayFieldVector<T> subtract(ArrayFieldVector<T> v) throws DimensionMismatchException
Computethis
minusv
.- Parameters:
v
- vector to be subtracted- Returns:
this - v
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
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mapAdd
public FieldVector<T> mapAdd(T d) throws NullArgumentException
Map an addition operation to each entry.- Specified by:
mapAdd
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
d
- value to be added to each entry- Returns:
this + d
- Throws:
NullArgumentException
- ifd
isnull
.
-
mapAddToSelf
public FieldVector<T> mapAddToSelf(T d) throws NullArgumentException
Map an addition operation to each entry.The instance is changed by this method.
- Specified by:
mapAddToSelf
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
d
- value to be added to each entry- Returns:
- for convenience, return
this
- Throws:
NullArgumentException
- ifd
isnull
.
-
mapSubtract
public FieldVector<T> mapSubtract(T d) throws NullArgumentException
Map a subtraction operation to each entry.- Specified by:
mapSubtract
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
d
- value to be subtracted to each entry- Returns:
this - d
- Throws:
NullArgumentException
- ifd
isnull
-
mapSubtractToSelf
public FieldVector<T> mapSubtractToSelf(T d) throws NullArgumentException
Map a subtraction operation to each entry.The instance is changed by this method.
- Specified by:
mapSubtractToSelf
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
d
- value to be subtracted to each entry- Returns:
- for convenience, return
this
- Throws:
NullArgumentException
- ifd
isnull
-
mapMultiply
public FieldVector<T> mapMultiply(T d) throws NullArgumentException
Map a multiplication operation to each entry.- Specified by:
mapMultiply
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
d
- value to multiply all entries by- Returns:
this * d
- Throws:
NullArgumentException
- ifd
isnull
.
-
mapMultiplyToSelf
public FieldVector<T> mapMultiplyToSelf(T d) throws NullArgumentException
Map a multiplication operation to each entry.The instance is changed by this method.
- Specified by:
mapMultiplyToSelf
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
d
- value to multiply all entries by- Returns:
- for convenience, return
this
- Throws:
NullArgumentException
- ifd
isnull
.
-
mapDivide
public FieldVector<T> mapDivide(T d) throws NullArgumentException, MathArithmeticException
Map a division operation to each entry.- Specified by:
mapDivide
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
d
- value to divide all entries by- Returns:
this / d
- Throws:
NullArgumentException
- ifd
isnull
.MathArithmeticException
- ifd
is zero.
-
mapDivideToSelf
public FieldVector<T> mapDivideToSelf(T d) throws NullArgumentException, MathArithmeticException
Map a division operation to each entry.The instance is changed by this method.
- Specified by:
mapDivideToSelf
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
d
- value to divide all entries by- Returns:
- for convenience, return
this
- Throws:
NullArgumentException
- ifd
isnull
.MathArithmeticException
- ifd
is zero.
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mapInv
public FieldVector<T> mapInv() throws MathArithmeticException
Map the 1/x function to each entry.- Specified by:
mapInv
in interfaceFieldVector<T extends FieldElement<T>>
- Returns:
- a vector containing the result of applying the function to each entry.
- Throws:
MathArithmeticException
- if one of the entries is zero.
-
mapInvToSelf
public FieldVector<T> mapInvToSelf() throws MathArithmeticException
Map the 1/x function to each entry.The instance is changed by this method.
- Specified by:
mapInvToSelf
in interfaceFieldVector<T extends FieldElement<T>>
- Returns:
- for convenience, return
this
- Throws:
MathArithmeticException
- if one of the entries is zero.
-
ebeMultiply
public FieldVector<T> ebeMultiply(FieldVector<T> v) throws DimensionMismatchException
Element-by-element multiplication.- Specified by:
ebeMultiply
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
v
- vector by which instance elements must be multiplied- Returns:
- a vector containing
this[i] * v[i]
for alli
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
-
ebeMultiply
public ArrayFieldVector<T> ebeMultiply(ArrayFieldVector<T> v) throws DimensionMismatchException
Element-by-element multiplication.- Parameters:
v
- vector by which instance elements must be multiplied- Returns:
- a vector containing
this[i] * v[i]
for alli
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
-
ebeDivide
public FieldVector<T> ebeDivide(FieldVector<T> v) throws DimensionMismatchException, MathArithmeticException
Element-by-element division.- Specified by:
ebeDivide
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
v
- vector by which instance elements must be divided- Returns:
- a vector containing
this[i] / v[i]
for alli
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
MathArithmeticException
- if one entry ofv
is zero.
-
ebeDivide
public ArrayFieldVector<T> ebeDivide(ArrayFieldVector<T> v) throws DimensionMismatchException, MathArithmeticException
Element-by-element division.- Parameters:
v
- vector by which instance elements must be divided- Returns:
- a vector containing
this[i] / v[i]
for alli
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
MathArithmeticException
- if one entry ofv
is zero.
-
getDataRef
public T[] getDataRef()
Returns a reference to the underlying data array.Does not make a fresh copy of the underlying data.
- Returns:
- array of entries
-
dotProduct
public T dotProduct(FieldVector<T> v) throws DimensionMismatchException
Compute the dot product.- Specified by:
dotProduct
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
v
- vector with which dot product should be computed- Returns:
- the scalar dot product of
this
andv
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
-
dotProduct
public T dotProduct(ArrayFieldVector<T> v) throws DimensionMismatchException
Compute the dot product.- Parameters:
v
- vector with which dot product should be computed- Returns:
- the scalar dot product of
this
andv
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
-
projection
public FieldVector<T> projection(FieldVector<T> v) throws DimensionMismatchException, MathArithmeticException
Find the orthogonal projection of this vector onto another vector.- Specified by:
projection
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
v
- vector onto whichthis
must be projected- Returns:
- projection of
this
ontov
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
MathArithmeticException
- ifv
is the null vector.
-
projection
public ArrayFieldVector<T> projection(ArrayFieldVector<T> v) throws DimensionMismatchException, MathArithmeticException
Find the orthogonal projection of this vector onto another vector.- Parameters:
v
- vector onto whichthis
must be projected- Returns:
- projection of
this
ontov
- Throws:
DimensionMismatchException
- ifv
is not the same size asthis
MathArithmeticException
- ifv
is the null vector.
-
outerProduct
public FieldMatrix<T> outerProduct(FieldVector<T> v)
Compute the outer product.- Specified by:
outerProduct
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
v
- vector with which outer product should be computed- Returns:
- the matrix outer product between instance and v
-
outerProduct
public FieldMatrix<T> outerProduct(ArrayFieldVector<T> v)
Compute the outer product.- Parameters:
v
- vector with which outer product should be computed- Returns:
- the matrix outer product between instance and v
-
getEntry
public T getEntry(int index)
Returns the entry in the specified index.- Specified by:
getEntry
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
index
- Index location of entry to be fetched.- Returns:
- the vector entry at
index
. - See Also:
FieldVector.setEntry(int, FieldElement)
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getDimension
public int getDimension()
Returns the size of the vector.- Specified by:
getDimension
in interfaceFieldVector<T extends FieldElement<T>>
- Returns:
- size
-
append
public FieldVector<T> append(FieldVector<T> v)
Construct a vector by appending a vector to this vector.- Specified by:
append
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
v
- vector to append to this one.- Returns:
- a new vector
-
append
public ArrayFieldVector<T> append(ArrayFieldVector<T> v)
Construct a vector by appending a vector to this vector.- Parameters:
v
- vector to append to this one.- Returns:
- a new vector
-
append
public FieldVector<T> append(T in)
Construct a vector by appending a T to this vector.- Specified by:
append
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
in
- T to append.- Returns:
- a new vector
-
getSubVector
public FieldVector<T> getSubVector(int index, int n) throws OutOfRangeException, NotPositiveException
Get a subvector from consecutive elements.- Specified by:
getSubVector
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
index
- index of first element.n
- number of elements to be retrieved.- Returns:
- a vector containing n elements.
- Throws:
OutOfRangeException
- if the index is not valid.NotPositiveException
- if the number of elements if not positive.
-
setEntry
public void setEntry(int index, T value)
Set a single element.- Specified by:
setEntry
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
index
- element index.value
- new value for the element.- See Also:
FieldVector.getEntry(int)
-
setSubVector
public void setSubVector(int index, FieldVector<T> v) throws OutOfRangeException
Set a set of consecutive elements.- Specified by:
setSubVector
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
index
- index of first element to be set.v
- vector containing the values to set.- Throws:
OutOfRangeException
- if the index is not valid.
-
set
public void set(int index, ArrayFieldVector<T> v) throws OutOfRangeException
Set a set of consecutive elements.- Parameters:
index
- index of first element to be set.v
- vector containing the values to set.- Throws:
OutOfRangeException
- if the index is invalid.
-
set
public void set(T value)
Set all elements to a single value.- Specified by:
set
in interfaceFieldVector<T extends FieldElement<T>>
- Parameters:
value
- single value to set for all elements
-
toArray
public T[] toArray()
Convert the vector to a T array.The array is independent from vector data, it's elements are copied.
- Specified by:
toArray
in interfaceFieldVector<T extends FieldElement<T>>
- Returns:
- array containing a copy of vector elements
-
checkVectorDimensions
protected void checkVectorDimensions(FieldVector<T> v) throws DimensionMismatchException
Check if instance and specified vectors have the same dimension.- Parameters:
v
- vector to compare instance with- Throws:
DimensionMismatchException
- if the vectors do not have the same dimensions
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checkVectorDimensions
protected void checkVectorDimensions(int n) throws DimensionMismatchException
Check if instance dimension is equal to some expected value.- Parameters:
n
- Expected dimension.- Throws:
DimensionMismatchException
- if the dimension is not equal to the size ofthis
vector.
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walkInDefaultOrder
public T walkInDefaultOrder(FieldVectorPreservingVisitor<T> visitor)
Visits (but does not alter) all entries of this vector in default order (increasing index).- Parameters:
visitor
- the visitor to be used to process the entries of this vector- Returns:
- the value returned by
FieldVectorPreservingVisitor.end()
at the end of the walk - Since:
- 3.3
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walkInDefaultOrder
public T walkInDefaultOrder(FieldVectorPreservingVisitor<T> visitor, int start, int end) throws NumberIsTooSmallException, OutOfRangeException
Visits (but does not alter) some entries of this vector in default order (increasing index).- Parameters:
visitor
- visitor to be used to process the entries of this vectorstart
- the index of the first entry to be visitedend
- the index of the last entry to be visited (inclusive)- Returns:
- the value returned by
FieldVectorPreservingVisitor.end()
at the end of the walk - Throws:
NumberIsTooSmallException
- ifend < start
.OutOfRangeException
- if the indices are not valid.- Since:
- 3.3
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walkInOptimizedOrder
public T walkInOptimizedOrder(FieldVectorPreservingVisitor<T> visitor)
Visits (but does not alter) all entries of this vector in optimized order. The order in which the entries are visited is selected so as to lead to the most efficient implementation; it might depend on the concrete implementation of this abstract class.- Parameters:
visitor
- the visitor to be used to process the entries of this vector- Returns:
- the value returned by
FieldVectorPreservingVisitor.end()
at the end of the walk - Since:
- 3.3
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walkInOptimizedOrder
public T walkInOptimizedOrder(FieldVectorPreservingVisitor<T> visitor, int start, int end) throws NumberIsTooSmallException, OutOfRangeException
Visits (but does not alter) some entries of this vector in optimized order. The order in which the entries are visited is selected so as to lead to the most efficient implementation; it might depend on the concrete implementation of this abstract class.- Parameters:
visitor
- visitor to be used to process the entries of this vectorstart
- the index of the first entry to be visitedend
- the index of the last entry to be visited (inclusive)- Returns:
- the value returned by
FieldVectorPreservingVisitor.end()
at the end of the walk - Throws:
NumberIsTooSmallException
- ifend < start
.OutOfRangeException
- if the indices are not valid.- Since:
- 3.3
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walkInDefaultOrder
public T walkInDefaultOrder(FieldVectorChangingVisitor<T> visitor)
Visits (and possibly alters) all entries of this vector in default order (increasing index).- Parameters:
visitor
- the visitor to be used to process and modify the entries of this vector- Returns:
- the value returned by
FieldVectorChangingVisitor.end()
at the end of the walk - Since:
- 3.3
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walkInDefaultOrder
public T walkInDefaultOrder(FieldVectorChangingVisitor<T> visitor, int start, int end) throws NumberIsTooSmallException, OutOfRangeException
Visits (and possibly alters) some entries of this vector in default order (increasing index).- Parameters:
visitor
- visitor to be used to process the entries of this vectorstart
- the index of the first entry to be visitedend
- the index of the last entry to be visited (inclusive)- Returns:
- the value returned by
FieldVectorChangingVisitor.end()
at the end of the walk - Throws:
NumberIsTooSmallException
- ifend < start
.OutOfRangeException
- if the indices are not valid.- Since:
- 3.3
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walkInOptimizedOrder
public T walkInOptimizedOrder(FieldVectorChangingVisitor<T> visitor)
Visits (and possibly alters) all entries of this vector in optimized order. The order in which the entries are visited is selected so as to lead to the most efficient implementation; it might depend on the concrete implementation of this abstract class.- Parameters:
visitor
- the visitor to be used to process the entries of this vector- Returns:
- the value returned by
FieldVectorChangingVisitor.end()
at the end of the walk - Since:
- 3.3
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walkInOptimizedOrder
public T walkInOptimizedOrder(FieldVectorChangingVisitor<T> visitor, int start, int end) throws NumberIsTooSmallException, OutOfRangeException
Visits (and possibly change) some entries of this vector in optimized order. The order in which the entries are visited is selected so as to lead to the most efficient implementation; it might depend on the concrete implementation of this abstract class.- Parameters:
visitor
- visitor to be used to process the entries of this vectorstart
- the index of the first entry to be visitedend
- the index of the last entry to be visited (inclusive)- Returns:
- the value returned by
FieldVectorChangingVisitor.end()
at the end of the walk - Throws:
NumberIsTooSmallException
- ifend < start
.OutOfRangeException
- if the indices are not valid.- Since:
- 3.3
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