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OCCT/src/math/math_NewtonFunctionSetRoot.cxx
abv d5f74e42d6 0024624: Lost word in license statement in source files 
License statement text corrected; compiler warnings caused by Bison 2.41 disabled for MSVC; a few other compiler warnings on 54-bit Windows eliminated by appropriate type cast
Wrong license statements corrected in several files.
Copyright and license statements added in XSD and GLSL files.
Copyright year updated in some files.
Obsolete documentation files removed from DrawResources.
2014-02-20 16:15:17 +04:00

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// Copyright (c) 1997-1999 Matra Datavision
// Copyright (c) 1999-2014 OPEN CASCADE SAS
//
// This file is part of Open CASCADE Technology software library.
//
// This library is free software; you can redistribute it and/or modify it under
// the terms of the GNU Lesser General Public License version 2.1 as published
// by the Free Software Foundation, with special exception defined in the file
// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
// distribution for complete text of the license and disclaimer of any warranty.
//
// Alternatively, this file may be used under the terms of Open CASCADE
// commercial license or contractual agreement.
//#ifndef DEB
#define No_Standard_RangeError
#define No_Standard_OutOfRange
#define No_Standard_DimensionError
//#endif
#include <math_NewtonFunctionSetRoot.ixx>
#include <math_Recipes.hxx>
#include <math_FunctionSetWithDerivatives.hxx>
Standard_Boolean math_NewtonFunctionSetRoot::IsSolutionReached
// (math_FunctionSetWithDerivatives& F)
(math_FunctionSetWithDerivatives& )
{
for(Standard_Integer i = DeltaX.Lower(); i <= DeltaX.Upper(); i++) {
if(Abs(DeltaX(i)) > TolX(i) || Abs(FValues(i)) > TolF) return Standard_False;
}
return Standard_True;
}
// Constructeurs d'initialisation des champs (pour utiliser Perform)
math_NewtonFunctionSetRoot::math_NewtonFunctionSetRoot(
math_FunctionSetWithDerivatives& F,
const math_Vector& XTol,
const Standard_Real FTol,
const Standard_Integer NbIterations):
TolX(1, F.NbVariables()),
TolF(FTol),
Indx(1, F.NbVariables()),
Scratch(1, F.NbVariables()),
Sol(1, F.NbVariables()),
DeltaX(1, F.NbVariables()),
FValues(1, F.NbVariables()),
Jacobian(1, F.NbVariables(),
1, F.NbVariables()),
Itermax(NbIterations)
{
for (Standard_Integer i = 1; i <= TolX.Length(); i++) {
TolX(i) = XTol(i);
}
}
math_NewtonFunctionSetRoot::math_NewtonFunctionSetRoot(
math_FunctionSetWithDerivatives& F,
const Standard_Real FTol,
const Standard_Integer NbIterations):
TolX(1, F.NbVariables()),
TolF(FTol),
Indx(1, F.NbVariables()),
Scratch(1, F.NbVariables()),
Sol(1, F.NbVariables()),
DeltaX(1, F.NbVariables()),
FValues(1, F.NbVariables()),
Jacobian(1, F.NbVariables(),
1, F.NbVariables()),
Itermax(NbIterations)
{
}
math_NewtonFunctionSetRoot::math_NewtonFunctionSetRoot
(math_FunctionSetWithDerivatives& F,
const math_Vector& StartingPoint,
const math_Vector& XTol,
const Standard_Real FTol,
const Standard_Integer NbIterations) :
TolX(1, F.NbVariables()),
TolF(FTol),
Indx (1, F.NbVariables()),
Scratch (1, F.NbVariables()),
Sol (1, F.NbVariables()),
DeltaX (1, F.NbVariables()),
FValues (1, F.NbVariables()),
Jacobian(1, F.NbVariables(),
1, F.NbVariables()),
Itermax(NbIterations)
{
for (Standard_Integer i = 1; i <= TolX.Length(); i++) {
TolX(i) = XTol(i);
}
math_Vector UFirst(1, F.NbVariables()),
ULast(1, F.NbVariables());
UFirst.Init(RealFirst());
ULast.Init(RealLast());
Perform(F, StartingPoint, UFirst, ULast);
}
math_NewtonFunctionSetRoot::math_NewtonFunctionSetRoot
(math_FunctionSetWithDerivatives& F,
const math_Vector& StartingPoint,
const math_Vector& InfBound,
const math_Vector& SupBound,
const math_Vector& XTol,
const Standard_Real FTol,
const Standard_Integer NbIterations) :
TolX(1, F.NbVariables()),
TolF(FTol),
Indx (1, F.NbVariables()),
Scratch (1, F.NbVariables()),
Sol (1, F.NbVariables()),
DeltaX (1, F.NbVariables()),
FValues (1, F.NbVariables()),
Jacobian(1, F.NbVariables(),
1, F.NbVariables()),
Itermax(NbIterations)
{
for (Standard_Integer i = 1; i <= TolX.Length(); i++) {
TolX(i) = XTol(i);
}
Perform(F, StartingPoint, InfBound, SupBound);
}
void math_NewtonFunctionSetRoot::Delete()
{}
void math_NewtonFunctionSetRoot::SetTolerance
(const math_Vector& XTol)
{
for (Standard_Integer i = 1; i <= TolX.Length(); i++) {
TolX(i) = XTol(i);
}
}
void math_NewtonFunctionSetRoot::Perform(
math_FunctionSetWithDerivatives& F,
const math_Vector& StartingPoint,
const math_Vector& InfBound,
const math_Vector& SupBound)
{
Standard_Real d;
Standard_Boolean OK;
Standard_Integer Error;
Done = Standard_False;
Sol = StartingPoint;
OK = F.Values(Sol, FValues, Jacobian);
if(!OK) return;
for(Iter = 1; Iter <= Itermax; Iter++) {
for(Standard_Integer k = 1; k <= DeltaX.Length(); k++) {
DeltaX(k) = -FValues(k);
}
Error = LU_Decompose(Jacobian, Indx, d, Scratch, 1.0e-30);
if(Error) return;
LU_Solve(Jacobian, Indx, DeltaX);
for(Standard_Integer i = 1; i <= Sol.Length(); i++) {
Sol(i) += DeltaX(i);
// Limitation de Sol dans les bornes [InfBound, SupBound] :
if (Sol(i) <= InfBound(i)) Sol(i) = InfBound(i);
if (Sol(i) >= SupBound(i)) Sol(i) = SupBound(i);
}
OK = F.Values(Sol, FValues, Jacobian);
if(!OK) return;
if(IsSolutionReached(F)) {
State = F.GetStateNumber();
Done = Standard_True;
return;
}
}
}
void math_NewtonFunctionSetRoot::Dump(Standard_OStream& o) const
{
o <<"math_NewtonFunctionSetRoot ";
if (Done) {
o << " Status = Done \n";
o << " Vector solution = " << Sol <<"\n";
o << " Value of the function at this solution = \n";
o << FValues <<"\n";
o << " Number of iterations = " << Iter <<"\n";
}
else {
o << "Status = not Done \n";
}
}
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