Class QRDecomposition<N extends Comparable<N>>
- All Implemented Interfaces:
MatrixDecomposition<N>
,MatrixDecomposition.Determinant<N>
,MatrixDecomposition.EconomySize<N>
,MatrixDecomposition.Ordered<N>
,MatrixDecomposition.RankRevealing<N>
,MatrixDecomposition.Solver<N>
,QR<N>
,Provider2D
,Provider2D.Determinant<N>
,Provider2D.Inverse<Optional<MatrixStore<N>>>
,Provider2D.Rank
,Provider2D.Solution<Optional<MatrixStore<N>>>
,DeterminantTask<N>
,InverterTask<N>
,MatrixTask<N>
,SolverTask<N>
,InvertibleFactor<N>
,Structure1D
,Structure2D
- Direct Known Subclasses:
QRDecomposition.C128
,QRDecomposition.H256
,QRDecomposition.Q128
,QRDecomposition.R064
,QRDecomposition.R128
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Nested Class Summary
Nested ClassesModifier and TypeClassDescription(package private) static final class
(package private) static final class
(package private) static final class
(package private) static final class
(package private) static final class
Nested classes/interfaces inherited from interface org.ojalgo.matrix.transformation.InvertibleFactor
InvertibleFactor.IdentityFactor<N extends Comparable<N>>
Nested classes/interfaces inherited from interface org.ojalgo.matrix.decomposition.MatrixDecomposition
MatrixDecomposition.Determinant<N extends Comparable<N>>, MatrixDecomposition.EconomySize<N extends Comparable<N>>, MatrixDecomposition.Factory<D extends MatrixDecomposition<?>>, MatrixDecomposition.Hermitian<N extends Comparable<N>>, MatrixDecomposition.Ordered<N extends Comparable<N>>, MatrixDecomposition.Pivoting<N extends Comparable<N>>, MatrixDecomposition.RankRevealing<N extends Comparable<N>>, MatrixDecomposition.Solver<N extends Comparable<N>>, MatrixDecomposition.Values<N extends Comparable<N>>
Nested classes/interfaces inherited from interface org.ojalgo.matrix.Provider2D
Provider2D.Condition, Provider2D.Determinant<N extends Comparable<N>>, Provider2D.Eigenpairs, Provider2D.Hermitian, Provider2D.Inverse<M>, Provider2D.Rank, Provider2D.Solution<M>, Provider2D.Symmetric, Provider2D.Trace<N extends Comparable<N>>
Nested classes/interfaces inherited from interface org.ojalgo.matrix.decomposition.QR
QR.Factory<N extends Comparable<N>>
Nested classes/interfaces inherited from interface org.ojalgo.structure.Structure1D
Structure1D.BasicMapper<T>, Structure1D.IndexMapper<T>, Structure1D.IntIndex, Structure1D.LongIndex, Structure1D.LoopCallback
Nested classes/interfaces inherited from interface org.ojalgo.structure.Structure2D
Structure2D.IntRowColumn, Structure2D.Logical<S extends Structure2D,
B extends Structure2D.Logical<S, B>>, Structure2D.LongRowColumn, Structure2D.ReducibleTo1D<R extends Structure1D>, Structure2D.Reshapable, Structure2D.RowColumnKey<R, C>, Structure2D.RowColumnMapper<R, C> -
Field Summary
FieldsModifier and TypeFieldDescriptionprivate final boolean
private int
Fields inherited from interface org.ojalgo.matrix.decomposition.MatrixDecomposition
TYPICAL
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Constructor Summary
ConstructorsModifierConstructorDescriptionprotected
QRDecomposition
(PhysicalStore.Factory<N, ? extends DecompositionStore<N>> factory, boolean fullSize) -
Method Summary
Modifier and TypeMethodDescriptionvoid
btran
(PhysicalStore<N> arg) Backwards-transformationcalculateDeterminant
(Access2D<?> matrix) protected boolean
int
countSignificant
(double threshold) boolean
decompose
(Access2D.Collectable<N, ? super PhysicalStore<N>> matrix) A matrix' determinant is the product of its eigenvalues.getInverse
(PhysicalStore<N> preallocated) Implementing this method is optional.protected DecompositionStore
<N> getL()
getQ()
getR()
double
getSolution
(Access2D.Collectable<N, ? super PhysicalStore<N>> rhs) [A][X]=[B] or [this][return]=[rhs]getSolution
(Access2D.Collectable<N, ? super PhysicalStore<N>> rhs, PhysicalStore<N> preallocated) Solve [A]*[X]=[B] by first solving [Q]*[Y]=[B] and then [R]*[X]=[Y].The output must be a "right inverse" and a "generalised inverse".invert
(Access2D<?> original, PhysicalStore<N> preallocated) Exactly how (if at all) a specific implementation makes use ofpreallocated
is not specified by this interface.boolean
boolean
Please note that producing a pseudoinverse and/or a least squares solution is ok! The return value, of this method, is not an indication of if the decomposed matrix is square, has full rank, is postive definite or whatever.preallocate
(Structure2D template) Will create a PhysicalStore instance suitable for use withInverterTask.invert(Access2D, PhysicalStore)
.preallocate
(Structure2D templateBody, Structure2D templateRHS) Will create a PhysicalStore instance suitable for use withSolverTask.solve(Access2D, Access2D, PhysicalStore)
.void
reset()
Delete computed results, and resets attributes to default values[A][X]=[B] or [body][return]=[rhs]solve
(Access2D<?> body, Access2D<?> rhs, PhysicalStore<N> preallocated) Exactly how (if at all) a specific implementation makes use ofpreallocated
is not specified by this interface.Methods inherited from class org.ojalgo.matrix.decomposition.InPlaceDecomposition
getColDim, getInPlace, getInverse, getRowDim, setInPlace
Methods inherited from class org.ojalgo.matrix.decomposition.GenericDecomposition
aggregator, allocate, collect, copy, function, makeArray, makeDiagonal, makeEye, makeHouseholder, makeIdentity, makeRotation, makeRotation, makeZero, makeZero, scalar, wrap
Methods inherited from class org.ojalgo.matrix.decomposition.AbstractDecomposition
computed, countColumns, countRows, getDimensionalEpsilon, isAspectRatioNormal, isComputed
Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
Methods inherited from interface org.ojalgo.matrix.task.InverterTask
preallocate
Methods inherited from interface org.ojalgo.matrix.transformation.InvertibleFactor
btran
Methods inherited from interface org.ojalgo.matrix.decomposition.MatrixDecomposition
isComputed
Methods inherited from interface org.ojalgo.matrix.decomposition.MatrixDecomposition.Determinant
toDeterminantProvider
Methods inherited from interface org.ojalgo.matrix.decomposition.MatrixDecomposition.RankRevealing
getRank, isFullRank
Methods inherited from interface org.ojalgo.matrix.decomposition.MatrixDecomposition.Solver
compute, ftran, ftran, getInverse, invert, solve, toInverseProvider, toSolutionProvider
Methods inherited from interface org.ojalgo.matrix.decomposition.QR
isOrdered, reconstruct
Methods inherited from interface org.ojalgo.matrix.task.SolverTask
preallocate
Methods inherited from interface org.ojalgo.structure.Structure2D
count, countColumns, countRows, firstInColumn, firstInRow, getColDim, getMaxDim, getMinDim, getRowDim, isEmpty, isFat, isScalar, isSquare, isTall, isVector, limitOfColumn, limitOfRow, size
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Field Details
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myFullSize
private final boolean myFullSize -
myNumberOfHouseholderTransformations
private int myNumberOfHouseholderTransformations
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Constructor Details
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QRDecomposition
protected QRDecomposition(PhysicalStore.Factory<N, ? extends DecompositionStore<N>> factory, boolean fullSize)
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Method Details
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btran
Description copied from interface:InvertibleFactor
Backwards-transformationSolve [x]T[A] = [b]T (equivalent to [A]T[x] = [b]) by transforming [b] into [x] in-place.
- Specified by:
btran
in interfaceInvertibleFactor<N extends Comparable<N>>
- Parameters:
arg
- [b] transformed into [x]
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calculateDeterminant
- Specified by:
calculateDeterminant
in interfaceDeterminantTask<N extends Comparable<N>>
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countSignificant
public int countSignificant(double threshold) - Specified by:
countSignificant
in interfaceMatrixDecomposition.RankRevealing<N extends Comparable<N>>
- Parameters:
threshold
- Significance limit- Returns:
- The number of elements in the diagonal matrix that are greater than the threshold
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decompose
- Specified by:
decompose
in interfaceMatrixDecomposition<N extends Comparable<N>>
- Parameters:
matrix
- A matrix to decompose- Returns:
- true if decomposition suceeded; false if not
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getDeterminant
Description copied from interface:MatrixDecomposition.Determinant
A matrix' determinant is the product of its eigenvalues.
- Specified by:
getDeterminant
in interfaceMatrixDecomposition.Determinant<N extends Comparable<N>>
- Specified by:
getDeterminant
in interfaceProvider2D.Determinant<N extends Comparable<N>>
- Returns:
- The matrix' determinant
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getInverse
Description copied from interface:MatrixDecomposition.Solver
Implementing this method is optional.
Exactly how a specific implementation makes use of
preallocated
is not specified by this interface. It must be documented for each implementation.Should produce the same results as calling
MatrixDecomposition.Solver.getInverse()
.- Specified by:
getInverse
in interfaceMatrixDecomposition.Solver<N extends Comparable<N>>
- Overrides:
getInverse
in classInPlaceDecomposition<N extends Comparable<N>>
- Parameters:
preallocated
- Preallocated memory for the results, possibly some intermediate results. You must assume this is modified, but you cannot assume it will contain the full/final/correct solution. UseInverterTask.preallocate(int, int)
orInverterTask.preallocate(Structure2D)
to get a suitable instance.- Returns:
- The inverse, this is where you get the solution
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getQ
- Specified by:
getQ
in interfaceQR<N extends Comparable<N>>
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getR
- Specified by:
getR
in interfaceQR<N extends Comparable<N>>
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getRankThreshold
public double getRankThreshold()- Specified by:
getRankThreshold
in interfaceMatrixDecomposition.RankRevealing<N extends Comparable<N>>
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getSolution
Description copied from interface:MatrixDecomposition.Solver
[A][X]=[B] or [this][return]=[rhs]- Specified by:
getSolution
in interfaceMatrixDecomposition.Solver<N extends Comparable<N>>
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getSolution
public MatrixStore<N> getSolution(Access2D.Collectable<N, ? super PhysicalStore<N>> rhs, PhysicalStore<N> preallocated) Solve [A]*[X]=[B] by first solving [Q]*[Y]=[B] and then [R]*[X]=[Y]. [X] minimises the 2-norm of [Q]*[R]*[X]-[B].- Specified by:
getSolution
in interfaceMatrixDecomposition.Solver<N extends Comparable<N>>
- Parameters:
rhs
- The right hand side [B]preallocated
- Preallocated memory for the results, possibly some intermediate results. You must assume this is modified, but you cannot assume it will contain the full/final/correct solution. UseSolverTask.preallocate(int, int, int)
orSolverTask.preallocate(Structure2D, Structure2D)
to get a suitable instance.- Returns:
- [X] "preallocated" is used to form the results, but the solution is in the returned MatrixStore.
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invert
Description copied from interface:InverterTask
The output must be a "right inverse" and a "generalised inverse".- Specified by:
invert
in interfaceInverterTask<N extends Comparable<N>>
- Throws:
RecoverableCondition
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invert
public MatrixStore<N> invert(Access2D<?> original, PhysicalStore<N> preallocated) throws RecoverableCondition Description copied from interface:InverterTask
Exactly how (if at all) a specific implementation makes use of
preallocated
is not specified by this interface. It must be documented for each implementation.Should produce the same results as calling
InverterTask.invert(Access2D)
.Use
InverterTask.preallocate(Structure2D)
to obtain a suitbalepreallocated
.- Specified by:
invert
in interfaceInverterTask<N extends Comparable<N>>
- Parameters:
preallocated
- Preallocated memory for the results, possibly some intermediate results. You must assume this is modified, but you cannot assume it will contain the full/ /correct solution.- Returns:
- The inverse
- Throws:
RecoverableCondition
- TODO
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isFullSize
public boolean isFullSize()- Specified by:
isFullSize
in interfaceMatrixDecomposition.EconomySize<N extends Comparable<N>>
- Returns:
- True if it will generate a full sized decomposition.
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isSolvable
public boolean isSolvable()Description copied from interface:MatrixDecomposition.Solver
Please note that producing a pseudoinverse and/or a least squares solution is ok! The return value, of this method, is not an indication of if the decomposed matrix is square, has full rank, is postive definite or whatever. It's that in combination with the specific decomposition algorithm's capabilities.- Specified by:
isSolvable
in interfaceMatrixDecomposition.Solver<N extends Comparable<N>>
- Overrides:
isSolvable
in classAbstractDecomposition<N extends Comparable<N>>
- Returns:
- true if this matrix decomposition is in a state to be able to deliver an inverse or an equation system solution (with some degree of numerical stability).
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preallocate
Description copied from interface:InverterTask
Will create a PhysicalStore instance suitable for use with
InverterTask.invert(Access2D, PhysicalStore)
.When inverting a matrix (mxn) the preallocated memory/matrix will typically be nxm (and of course most of the time A is square).
- Specified by:
preallocate
in interfaceInverterTask<N extends Comparable<N>>
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preallocate
Description copied from interface:SolverTask
Will create a PhysicalStore instance suitable for use with
SolverTask.solve(Access2D, Access2D, PhysicalStore)
. The dimensions of the returned instance is not specified by this interface - it is specified by the behaviour/requirements of each implementation.When solving an equation system [A][X]=[B] ([mxn][nxb]=[mxb]) the preallocated memory/matrix will typically be either mxb or nxb.
- Specified by:
preallocate
in interfaceSolverTask<N extends Comparable<N>>
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reset
public void reset()Description copied from interface:MatrixDecomposition
Delete computed results, and resets attributes to default values- Specified by:
reset
in interfaceMatrixDecomposition<N extends Comparable<N>>
- Overrides:
reset
in classAbstractDecomposition<N extends Comparable<N>>
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solve
Description copied from interface:SolverTask
[A][X]=[B] or [body][return]=[rhs]- Specified by:
solve
in interfaceSolverTask<N extends Comparable<N>>
- Throws:
RecoverableCondition
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solve
public MatrixStore<N> solve(Access2D<?> body, Access2D<?> rhs, PhysicalStore<N> preallocated) throws RecoverableCondition Description copied from interface:SolverTask
Exactly how (if at all) a specific implementation makes use of
preallocated
is not specified by this interface. It must be documented for each implementation.Should produce the same results as calling
SolverTask.solve(Access2D, Access2D)
.Use
SolverTask.preallocate(Structure2D, Structure2D)
to obtain a suitbalepreallocated
.- Specified by:
solve
in interfaceSolverTask<N extends Comparable<N>>
- Parameters:
rhs
- The Right Hand Side, wont be modfiedpreallocated
- Preallocated memory for the results, possibly some intermediate results. You must assume this is modified, but you cannot assume it will contain the full/ /correct solution.- Returns:
- The solution
- Throws:
RecoverableCondition
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checkSolvability
protected boolean checkSolvability()- Overrides:
checkSolvability
in classAbstractDecomposition<N extends Comparable<N>>
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getL
- Returns:
- L as in RT.
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