#include <AppDef_ResConstraintOfTheGradient.hxx>
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| | AppDef_ResConstraintOfTheGradient (const AppDef_MultiLine &SSP, AppParCurves_MultiCurve &SCurv, const Standard_Integer FirstPoint, const Standard_Integer LastPoint, const Handle< AppParCurves_HArray1OfConstraintCouple > &Constraints, const math_Matrix &Bern, const math_Matrix &DerivativeBern, const Standard_Real Tolerance=1.0e-10) |
| | Given a MultiLine SSP with constraints points, this algorithm finds the best curve solution to approximate it. The poles from SCurv issued for example from the least squares are used as a guess solution for the uzawa algorithm. The tolerance used in the Uzawa algorithms is Tolerance. A is the Bernstein matrix associated to the MultiLine and DA is the derivative bernstein matrix.(They can come from an approximation with ParLeastSquare.) The MultiCurve is modified. New MultiPoles are given. More...
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| Standard_Boolean | IsDone () const |
| | returns True if all has been correctly done. More...
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| Standard_Real | Error () const |
| | returns the maximum difference value between the curve and the given points. More...
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| const math_Matrix & | ConstraintMatrix () const |
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| const math_Vector & | Duale () const |
| | returns the duale variables of the system. More...
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| const math_Matrix & | ConstraintDerivative (const AppDef_MultiLine &SSP, const math_Vector &Parameters, const Standard_Integer Deg, const math_Matrix &DA) |
| | Returns the derivative of the constraint matrix. More...
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| const math_Matrix & | InverseMatrix () const |
| | returns the Inverse of Cont*Transposed(Cont), where Cont is the constraint matrix for the algorithm. More...
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◆ AppDef_ResConstraintOfTheGradient()
Given a MultiLine SSP with constraints points, this algorithm finds the best curve solution to approximate it. The poles from SCurv issued for example from the least squares are used as a guess solution for the uzawa algorithm. The tolerance used in the Uzawa algorithms is Tolerance. A is the Bernstein matrix associated to the MultiLine and DA is the derivative bernstein matrix.(They can come from an approximation with ParLeastSquare.) The MultiCurve is modified. New MultiPoles are given.
◆ ConstraintDerivative()
Returns the derivative of the constraint matrix.
◆ ConstraintMatrix()
| const math_Matrix& AppDef_ResConstraintOfTheGradient::ConstraintMatrix |
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const |
◆ Duale()
| const math_Vector& AppDef_ResConstraintOfTheGradient::Duale |
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const |
returns the duale variables of the system.
◆ Error()
returns the maximum difference value between the curve and the given points.
◆ InverseMatrix()
| const math_Matrix& AppDef_ResConstraintOfTheGradient::InverseMatrix |
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const |
returns the Inverse of Cont*Transposed(Cont), where Cont is the constraint matrix for the algorithm.
◆ IsDone()
returns True if all has been correctly done.
◆ NbColumns()
is internally used for the fields creation.
◆ NbConstraints()
is used internally to create the fields.
The documentation for this class was generated from the following file:
