714 lines
22 KiB
C
714 lines
22 KiB
C
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// Copyright (c) 2005-2008 ASCLEPIOS Project, INRIA Sophia-Antipolis (France)
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// All rights reserved.
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//
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// This file is part of the ImageIO Library, and as been adapted for
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// CGAL (www.cgal.org).
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// You can redistribute it and/or modify it under the terms of the
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// GNU Lesser General Public License as published by the Free Software Foundation;
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// either version 3 of the License, or (at your option) any later version.
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//
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// Licensees holding a valid commercial license may use this file in
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// accordance with the commercial license agreement provided with the software.
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//
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// These files are provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
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// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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//
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// $URL$
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// $Id$
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// SPDX-License-Identifier: LGPL-3.0+
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//
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//
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// Author(s) : ASCLEPIOS Project (INRIA Sophia-Antipolis), Laurent Rineau
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/*************************************************************************
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* recline.c - tools for recursive filtering of 1D lines
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*
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* $Id$
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*
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* Copyright©INRIA 1999
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*
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* DESCRIPTION:
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*
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* Recursive filtering of a line (a 1D array)
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* Filter coefficient are static variables.
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*
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*
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* AUTHOR:
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* Gregoire Malandain (greg@sophia.inria.fr)
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*
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* CREATION DATE:
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* June, 9 1998
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*
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* Copyright Gregoire Malandain, INRIA
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*
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* ADDITIONS, CHANGES
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*
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*/
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#ifdef CGAL_HEADER_ONLY
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#define CGAL_INLINE_FUNCTION inline
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#else
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#define CGAL_INLINE_FUNCTION
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#endif
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#include <stdio.h>
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#include <stdlib.h>
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#include <math.h>
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#ifdef CGAL_HEADER_ONLY
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inline int& get_static_verbose_recline()
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{
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static int _VERBOSE_RECLINE_ = 0;
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return _VERBOSE_RECLINE_;
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}
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#else // CGAL_HEADER_ONLY
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static int _VERBOSE_RECLINE_ = 0;
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inline int& get_static_verbose_recline()
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{ return _VERBOSE_RECLINE_; }
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#endif // CGAL_HEADER_ONLY
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#define EXIT_ON_FAILURE 0
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#define EXIT_ON_SUCCESS 1
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CGAL_INLINE_FUNCTION
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void printRecursiveCoefficients( RFcoefficientType *RFC )
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{
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printf( "denominator:\n" );
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printf( "%f %f %f %f\n", RFC->sd1, RFC->sd2, RFC->sd3, RFC->sd4 );
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printf( "positive numerator:\n" );
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printf( "%f %f %f %f\n", RFC->sp0, RFC->sp1, RFC->sp2, RFC->sp3 );
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printf( "negative numerator:\n" );
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printf( "%f %f %f %f %f\n", RFC->sn0, RFC->sn1, RFC->sn2, RFC->sn3, RFC->sn4 );
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printf( "\n" );
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}
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CGAL_INLINE_FUNCTION
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RFcoefficientType * InitRecursiveCoefficients( double x,
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recursiveFilterType type_filter,
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derivativeOrder derivative )
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{
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const char *proc="InitRecursiveCoefficients";
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double ex, k1, k2;
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double a0, a1, c0, c1, omega0, omega1, b0, b1;
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double cos0, sin0, cos1, sin1;
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double sumA=0.0, sumC=0.0, aux;
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RFcoefficientType *RFC = NULL;
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RFC = (RFcoefficientType *)malloc( sizeof(RFcoefficientType) );
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if ( RFC == NULL ) {
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if ( get_static_verbose_recline() != 0 )
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fprintf( stderr, "%s: allocation failed\n", proc );
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return( NULL );
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}
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RFC->sd1 = RFC->sd2 = RFC->sd3 = RFC->sd4 = 0.0;
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RFC->sp0 = RFC->sp1 = RFC->sp2 = RFC->sp3 = 0.0;
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RFC->sn0 = RFC->sn1 = RFC->sn2 = RFC->sn3 = RFC->sn4 = 0.0;
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RFC->type_filter = UNKNOWN_FILTER;
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RFC->derivative = NODERIVATIVE;
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ex = k1 = k2 = 0.0;
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a0 = a1 = c0 = c1 = 0.0;
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b0 = b1 = omega0 = omega1 = 0.0;
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/*--- Selon le type de filtrage (filtres de Deriche,
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ou approximation de la gaussienne), x designe
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soit alpha, soit sigma ---*/
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switch ( type_filter ) {
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case GAUSSIAN_FIDRICH :
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if ( x < 0.1 ) {
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if ( get_static_verbose_recline() != 0 ) {
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fprintf( stderr, "%s: improper value of coefficient (should be >= 0.1).\n", proc );
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}
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free( RFC );
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return( NULL );
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}
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switch ( derivative ) {
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default :
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if ( get_static_verbose_recline() != 0 ) {
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fprintf( stderr, "%s: improper value of derivative order.\n", proc );
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}
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free( RFC );
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return( NULL );
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case DERIVATIVE_0 :
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a0 = 0.6570033214 / x;
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a1 = 1.978946687 / x;
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c0 = -0.2580640608 / x;
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c1 = -0.2391206463 / x;
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omega0 = 0.6512453378;
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omega1 = 2.05339943;
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b0 = 1.906154352;
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b1 = 1.881305409;
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break;
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case DERIVATIVE_1 :
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case DERIVATIVE_1_CONTOURS :
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a0 = -0.1726729496 / x;
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a1 = -2.003565572 / x;
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c0 = 0.1726730777 / x;
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c1 = 0.4440126835 / x;
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b0 = 1.560644213;
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b1 = 1.594202256;
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omega0 = 0.6995461735;
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omega1 = 2.144671764;
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break;
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case DERIVATIVE_2 :
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a0 = -0.7241334169 / x;
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a1 = 1.688628765 / x;
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c0 = 0.3251949838 / x;
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c1 = -0.7211796018 / x;
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b0 = 1.294951143;
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b1 = 1.427007123;
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omega0 = 0.7789803775;
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omega1 = 2.233566862;
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break;
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case DERIVATIVE_3 :
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a0 = 1.285774106 / x;
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a1 = -0.2896378408 / x;
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c0 = -1.28577129 / x;
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c1 = 0.26249833 / x;
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b0 = 1.01162886;
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b1 = 1.273344739;
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omega0 = 0.9474270928;
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omega1 = 2.337607006;
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break;
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}
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omega0 /= x; sin0 = sin( omega0 ); cos0 = cos( omega0 );
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omega1 /= x; sin1 = sin( omega1 ); cos1 = cos( omega1 );
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b0 /= x;
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b1 /= x;
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RFC->sp0 = a0 + c0;
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RFC->sp1 = exp( -b1 ) * (c1 * sin1 - (c0 + 2 * a0) * cos1);
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RFC->sp1 += exp( -b0 ) * (a1 * sin0 - (2 * c0 + a0) * cos0);
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RFC->sp2 = 2.0 * exp( -b0 - b1 )
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* ((a0 + c0) * cos1 * cos0 - cos1 * a1 * sin0 - cos0 * c1 * sin1);
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RFC->sp2 += c0 * exp( -2.0 * b0 ) + a0 * exp( -2.0 * b1 );
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RFC->sp3 = exp( -b1 - 2.0 * b0 ) * (c1 * sin1 - c0 * cos1);
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RFC->sp3 += exp( -b0 - 2.0 * b1 ) * (a1 * sin0 - a0 * cos0);
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RFC->sd1 = -2.0 * exp( -b1 ) * cos1 - 2.0 * exp( -b0 ) * cos0;
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RFC->sd2 = 4.0 * cos1 * cos0 * exp( -b0 - b1 )
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+ exp( -2.0 * b1 ) + exp( -2.0 * b0 );
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RFC->sd3 = -2.0 * cos0 * exp( -b0 - 2.0 * b1 )
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- 2.0 * cos1 * exp( -b1 - 2.0 * b0 );
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RFC->sd4 = exp( -2.0 * b0 - 2.0 * b1 );
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switch ( derivative ) {
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default :
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if ( get_static_verbose_recline() != 0 ) {
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fprintf( stderr, "%s: improper value of derivative order.\n", proc );
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}
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free( RFC );
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return( NULL );
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case DERIVATIVE_0 :
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case DERIVATIVE_2 :
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RFC->sn1 = RFC->sp1 - RFC->sd1 * RFC->sp0;
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RFC->sn2 = RFC->sp2 - RFC->sd2 * RFC->sp0;
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RFC->sn3 = RFC->sp3 - RFC->sd3 * RFC->sp0;
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RFC->sn4 = - RFC->sd4 * RFC->sp0;
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break;
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case DERIVATIVE_1 :
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case DERIVATIVE_1_CONTOURS :
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case DERIVATIVE_3 :
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RFC->sn1 = - RFC->sp1 + RFC->sd1 * RFC->sp0;
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RFC->sn2 = - RFC->sp2 + RFC->sd2 * RFC->sp0;
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RFC->sn3 = - RFC->sp3 + RFC->sd3 * RFC->sp0;
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RFC->sn4 = RFC->sd4 * RFC->sp0;
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}
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RFC->type_filter = type_filter;
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RFC->derivative = derivative;
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break;
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case GAUSSIAN_DERICHE :
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if ( x < 0.1 ) {
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if ( get_static_verbose_recline() != 0 ) {
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fprintf( stderr, "%s: improper value of coefficient (should be >= 0.1).\n", proc );
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}
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free( RFC );
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return( NULL );
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}
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switch ( derivative ) {
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default :
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if ( get_static_verbose_recline() != 0 ) {
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fprintf( stderr, "%s: switch to default coefficients (smoothing).\n", proc );
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}
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derivative = DERIVATIVE_0;
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CGAL_FALLTHROUGH;
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case DERIVATIVE_0 :
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a0 = 1.68;
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omega0 = 0.6318;
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a1 = 3.735;
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b0 = 1.783;
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c0 = -0.6803;
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omega1 = 1.997;
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c1 = -0.2598;
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b1 = 1.723;
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break;
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case DERIVATIVE_1 :
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CGAL_FALLTHROUGH;
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case DERIVATIVE_1_CONTOURS :
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a0 = -0.6472;
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omega0 = 0.6719;
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a1 = -4.531;
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b0 = 1.527;
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c0 = 0.6494;
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omega1 = 2.072;
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c1 = 0.9557;
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b1 = 1.516;
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break;
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case DERIVATIVE_2 :
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a0 = -1.331;
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omega0 = 0.748;
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a1 = 3.661;
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b0 = 1.24;
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c0 = 0.3225;
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omega1 = 2.166;
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c1 = -1.738;
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b1 = 1.314;
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}
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omega0 /= x; sin0 = sin( omega0 ); cos0 = cos( omega0 );
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omega1 /= x; sin1 = sin( omega1 ); cos1 = cos( omega1 );
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b0 /= x;
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b1 /= x;
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/*--- normalisation ---*/
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switch ( derivative ) {
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default :
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CGAL_FALLTHROUGH;
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case DERIVATIVE_0 :
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sumA = 2.0 * a1 * exp( b0 ) * cos0 * cos0 - a0 * sin0 * exp( 2.0 * b0 );
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sumA += a0 * sin0 - 2.0 * a1 * exp( b0 );
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sumA /= ( 2.0 * cos0 * exp( b0 ) - exp( 2.0 * b0 ) - 1 ) * sin0;
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sumC = 2.0 * c1 * exp( b1 ) * cos1 * cos1 - c0 * sin1 * exp( 2.0 * b1 );
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sumC += c0 * sin1 - 2.0 * c1 * exp( b1 );
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sumC /= ( 2.0 * cos1 * exp( b1 ) - exp( 2.0 * b1 ) - 1 ) * sin1;
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break;
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case DERIVATIVE_1 :
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aux = exp( 4.0 * b0 ) - 4.0 * cos0 * exp( 3.0 * b0 );
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aux += 2.0 * exp( 2.0 * b0 ) + 4.0 * cos0 * cos0 * exp( 2.0 * b0 );
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aux += 1.0 - 4.0 * cos0 * exp( b0 );
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sumA = a0 * cos0 - a1 * sin0 + a1 * sin0 * exp( 2.0 * b0 );
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sumA += a0 * cos0 * exp( 2.0 * b0 ) - 2.0 * a0 * exp( b0 );
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sumA *= exp( b0 ) / aux;
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aux = exp( 4.0 * b1 ) - 4.0 * cos1 * exp( 3.0 * b1 );
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aux += 2.0 * exp( 2.0 * b1 ) + 4.0 * cos1 * cos1 * exp( 2.0 * b1 );
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aux += 1.0 - 4.0 * cos1 * exp( b1 );
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sumC = c0 * cos1 - c1 * sin1 + c1 * sin1 * exp( 2.0 * b1 );
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sumC += c0 * cos1 * exp( 2.0 * b1 ) - 2.0 * c0 * exp( b1 );
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sumC *= exp( b1 ) / aux;
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/*--- on multiplie les sommes par 2 car on n'a calcule que des demi-sommes
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et on change le signe car la somme doit etre egale a -1 ---*/
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sumA *= (-2.0);
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sumC *= (-2.0);
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break;
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case DERIVATIVE_1_CONTOURS :
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/*--- la somme de 1 a l'infini est egale a 1 : cela introduit
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un petit biais (reponse un rien superieur a la hauteur du step).
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Avec une somme de 0 a l'infini, c'est pire ---*/
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sumA = a1 * exp( b0 ) - a1 * cos0 * cos0 * exp( b0 );
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sumA += a0 * cos0 * sin0 * exp( b0 ) - a0 * sin0;
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sumA /= sin0 * ( 2.0 * cos0 * exp( b0 ) - exp( 2.0 * b0 ) - 1 );
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sumC = c1 * exp( b1 ) - c1 * cos1 * cos1 * exp( b1 );
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sumC += c0 * cos1 * sin1 * exp( b1 ) - c0 * sin1;
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sumC /= sin1 * ( 2.0 * cos1 * exp( b1 ) - exp( 2.0 * b1 ) - 1 );
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break;
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case DERIVATIVE_2 :
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aux = 12.0 * cos0 * exp( 3.0 * b0 ) - 3.0 * exp( 2.0 * b0 );
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aux += 8.0 * cos0 * cos0 * cos0 * exp( 3.0 * b0 )
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- 12.0 * cos0 * cos0 * exp( 4.0 * b0 );
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aux -= 3.0 * exp( 4.0 * b0 );
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aux += 6.0 * cos0 * exp( 5.0 * b0 ) - exp( 6.0 * b0 )
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+ 6.0 * cos0 * exp( b0 );
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aux -= ( 1.0 + 12.0 * cos0 * cos0 * exp( 2.0 * b0 ) );
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sumA = 4.0 * a0 * sin0 * exp( 3.0 * b0 )
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+ a1 * cos0 * cos0 * exp( 4.0 * b0 );
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sumA -= ( 4.0 * a0 * sin0 * exp( b0 )
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+ 6.0 * a1 * cos0 * cos0 * exp( 2.0 * b0 ) );
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sumA += 2.0 * a1 * cos0 * cos0 * cos0 * exp( b0 )
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- 2.0 * a1 * cos0 * exp( b0 );
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sumA += 2.0 * a1 * cos0 * cos0 * cos0 * exp( 3.0 * b0 )
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- 2.0 * a1 * cos0 * exp( 3.0 * b0 );
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sumA += a1 * cos0 * cos0 - a1 * exp( 4.0 * b0 );
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sumA += 2.0 * a0 * sin0 * cos0 * cos0 * exp( b0 )
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- 2.0 * a0 * sin0 * cos0 * cos0 * exp( 3.0 * b0 );
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sumA -= ( a0 * sin0 * cos0 * exp( 4.0 * b0 ) + a1 );
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sumA += 6.0 * a1 * exp( 2.0 * b0 ) + a0 * cos0 * sin0;
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sumA *= 2.0 * exp( b0 ) / ( aux * sin0 );
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aux = 12.0 * cos1 * exp( 3.0 * b1 ) - 3.0 * exp( 2.0 * b1 );
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aux += 8.0 * cos1 * cos1 * cos1 * exp( 3.0 * b1 )
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- 12.0 * cos1 * cos1 * exp( 4.0 * b1 );
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aux -= 3.0 * exp( 4.0 * b1 );
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aux += 6.0 * cos1 * exp( 5.0 * b1 ) - exp( 6.0 * b1 )
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+ 6.0 * cos1 * exp( b1 );
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aux -= ( 1.0 + 12.0 * cos1 * cos1 * exp( 2.0 * b1 ) );
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||
|
sumC = 4.0 * c0 * sin1 * exp( 3.0 * b1 )
|
||
|
+ c1 * cos1 * cos1 * exp( 4.0 * b1 );
|
||
|
sumC -= ( 4.0 * c0 * sin1 * exp( b1 )
|
||
|
+ 6.0 * c1 * cos1 * cos1 * exp( 2.0 * b1 ) );
|
||
|
sumC += 2.0 * c1 * cos1 * cos1 * cos1 * exp( b1 )
|
||
|
- 2.0 * c1 * cos1 * exp( b1 );
|
||
|
sumC += 2.0 * c1 * cos1 * cos1 * cos1 * exp( 3.0 * b1 )
|
||
|
- 2.0 * c1 * cos1 * exp( 3.0 * b1 );
|
||
|
sumC += c1 * cos1 * cos1 - c1 * exp( 4.0 * b1 );
|
||
|
sumC += 2.0 * c0 * sin1 * cos1 * cos1 * exp( b1 )
|
||
|
- 2.0 * c0 * sin1 * cos1 * cos1 * exp( 3.0 * b1 );
|
||
|
sumC -= ( c0 * sin1 * cos1 * exp( 4.0 * b1 ) + c1 );
|
||
|
sumC += 6.0 * c1 * exp( 2.0 * b1 ) + c0 * cos1 * sin1;
|
||
|
sumC *= 2.0 * exp( b1 ) / ( aux * sin1 );
|
||
|
/*--- on divise les sommes par 2 (la somme doit etre egale a 2) ---*/
|
||
|
sumA /= 2;
|
||
|
sumC /= 2;
|
||
|
}
|
||
|
a0 /= ( sumA + sumC );
|
||
|
a1 /= ( sumA + sumC );
|
||
|
c0 /= ( sumA + sumC );
|
||
|
c1 /= ( sumA + sumC );
|
||
|
|
||
|
/*--- coefficients du calcul recursif ---*/
|
||
|
RFC->sp0 = a0 + c0;
|
||
|
RFC->sp1 = exp( -b1 ) * (c1 * sin1 - (c0 + 2 * a0) * cos1);
|
||
|
RFC->sp1 += exp( -b0 ) * (a1 * sin0 - (2 * c0 + a0) * cos0);
|
||
|
RFC->sp2 = 2.0 * exp( -b0 - b1 )
|
||
|
* ((a0 + c0) * cos1 * cos0 - cos1 * a1 * sin0 - cos0 * c1 * sin1);
|
||
|
RFC->sp2 += c0 * exp( -2.0 * b0 ) + a0 * exp( -2.0 * b1 );
|
||
|
RFC->sp3 = exp( -b1 - 2.0 * b0 ) * (c1 * sin1 - c0 * cos1);
|
||
|
RFC->sp3 += exp( -b0 - 2.0 * b1 ) * (a1 * sin0 - a0 * cos0);
|
||
|
|
||
|
RFC->sd1 = -2.0 * exp( -b1 ) * cos1 - 2.0 * exp( -b0 ) * cos0;
|
||
|
RFC->sd2 = 4.0 * cos1 * cos0 * exp( -b0 - b1 )
|
||
|
+ exp( -2.0 * b1 ) + exp( -2.0 * b0 );
|
||
|
RFC->sd3 = -2.0 * cos0 * exp( -b0 - 2.0 * b1 )
|
||
|
- 2.0 * cos1 * exp( -b1 - 2.0 * b0 );
|
||
|
RFC->sd4 = exp( -2.0 * b0 - 2.0 * b1 );
|
||
|
|
||
|
switch ( derivative ) {
|
||
|
default :
|
||
|
CGAL_FALLTHROUGH;
|
||
|
case DERIVATIVE_0 :
|
||
|
CGAL_FALLTHROUGH;
|
||
|
case DERIVATIVE_2 :
|
||
|
RFC->sn1 = RFC->sp1 - RFC->sd1 * RFC->sp0;
|
||
|
RFC->sn2 = RFC->sp2 - RFC->sd2 * RFC->sp0;
|
||
|
RFC->sn3 = RFC->sp3 - RFC->sd3 * RFC->sp0;
|
||
|
RFC->sn4 = - RFC->sd4 * RFC->sp0;
|
||
|
break;
|
||
|
case DERIVATIVE_1 :
|
||
|
CGAL_FALLTHROUGH;
|
||
|
case DERIVATIVE_1_CONTOURS :
|
||
|
CGAL_FALLTHROUGH;
|
||
|
case DERIVATIVE_3 :
|
||
|
RFC->sn1 = - RFC->sp1 + RFC->sd1 * RFC->sp0;
|
||
|
RFC->sn2 = - RFC->sp2 + RFC->sd2 * RFC->sp0;
|
||
|
RFC->sn3 = - RFC->sp3 + RFC->sd3 * RFC->sp0;
|
||
|
RFC->sn4 = RFC->sd4 * RFC->sp0;
|
||
|
}
|
||
|
|
||
|
RFC->type_filter = type_filter;
|
||
|
RFC->derivative = derivative;
|
||
|
break;
|
||
|
|
||
|
|
||
|
|
||
|
default :
|
||
|
if ( get_static_verbose_recline() != 0 ) {
|
||
|
fprintf( stderr, "%s: switch to default recursive filter (Deriche's filters).\n", proc );
|
||
|
}
|
||
|
type_filter = ALPHA_DERICHE;
|
||
|
CGAL_FALLTHROUGH;
|
||
|
case ALPHA_DERICHE :
|
||
|
|
||
|
if ( (x < 0.1) || (x > 1.9) ) {
|
||
|
if ( get_static_verbose_recline() != 0 ) {
|
||
|
fprintf( stderr, "%s: improper value of coefficient (should be >= 0.1 and <= 1.9).\n", proc );
|
||
|
}
|
||
|
free( RFC );
|
||
|
return( NULL );
|
||
|
}
|
||
|
ex = exp( (-x) );
|
||
|
|
||
|
switch ( derivative ) {
|
||
|
default :
|
||
|
if ( get_static_verbose_recline() != 0 ) {
|
||
|
fprintf( stderr, "%s: switch to default coefficients (smoothing).\n", proc );
|
||
|
}
|
||
|
derivative = DERIVATIVE_0;
|
||
|
CGAL_FALLTHROUGH;
|
||
|
case DERIVATIVE_0 :
|
||
|
RFC->sp0 = (1.0 - ex) * (1.0 - ex) / (1.0 + 2.0 * x * ex - ex * ex);
|
||
|
RFC->sp1 = RFC->sp0 * (x - 1.0) * ex;
|
||
|
RFC->sn1 = RFC->sp0 * (x + 1.0) * ex;
|
||
|
RFC->sn2 = (- RFC->sp0) * ex * ex;
|
||
|
RFC->sd1 = (- 2.0) * ex;
|
||
|
RFC->sd2 = ex * ex;
|
||
|
break;
|
||
|
case DERIVATIVE_1 :
|
||
|
RFC->sp1 = - (1.0 - ex) * (1.0 - ex) * (1.0 - ex) / (2.0 * (1.0 + ex));
|
||
|
RFC->sn1 = (- RFC->sp1);
|
||
|
RFC->sd1 = (- 2.0) * ex;
|
||
|
RFC->sd2 = ex * ex;
|
||
|
break;
|
||
|
case DERIVATIVE_1_CONTOURS :
|
||
|
RFC->sp1 = - (1.0 - ex) * (1.0 - ex);
|
||
|
RFC->sn1 = (- RFC->sp1);
|
||
|
RFC->sd1 = (- 2.0) * ex;
|
||
|
RFC->sd2 = ex * ex;
|
||
|
break;
|
||
|
case DERIVATIVE_2 :
|
||
|
k1 = (- 2.0) * (1.0 - ex) * (1.0 - ex) * (1.0 - ex);
|
||
|
k1 /= (1.0 + ex) * (1.0 + ex) * (1.0 + ex);
|
||
|
k2 = (1.0 - ex * ex) / (2.0 * ex);
|
||
|
RFC->sp0 = k1;
|
||
|
RFC->sp1 = (- k1) * (1.0 + k2) * ex;
|
||
|
RFC->sn1 = k1 * (1.0 - k2) * ex;
|
||
|
RFC->sn2 = (- k1) * ex * ex;
|
||
|
RFC->sd1 = (- 2.0) * ex;
|
||
|
RFC->sd2 = ex * ex;
|
||
|
break;
|
||
|
case DERIVATIVE_3 :
|
||
|
k1 = (1.0 + x) * ex + (x - 1.0);
|
||
|
k2 = (1.0 - ex) / k1;
|
||
|
k1 *= (1.0 - ex) * (1.0 - ex) * (1.0 - ex) * (1.0 - ex);
|
||
|
k1 /= 2.0 * x * x * ex * ex;
|
||
|
k1 /= ex + 1.0;
|
||
|
RFC->sp0 = k1 * x * (k2 + 1.0);
|
||
|
RFC->sp1 = (- k1) * x * (1.0 + k2 + k2*x) * ex;
|
||
|
RFC->sn0 = (- RFC->sp0);
|
||
|
RFC->sn1 = (- RFC->sp1);
|
||
|
RFC->sd1 = (- 2.0) * ex;
|
||
|
RFC->sd2 = ex * ex;
|
||
|
}
|
||
|
RFC->type_filter = type_filter;
|
||
|
RFC->derivative = derivative;
|
||
|
}
|
||
|
|
||
|
return( RFC );
|
||
|
}
|
||
|
|
||
|
|
||
|
|
||
|
CGAL_INLINE_FUNCTION
|
||
|
int RecursiveFilter1D( RFcoefficientType *RFC,
|
||
|
double *in,
|
||
|
double *out,
|
||
|
double *work1,
|
||
|
double *work2,
|
||
|
int dim )
|
||
|
{
|
||
|
const char *proc="RecursiveFilter1D";
|
||
|
double rp0, rp1, rp2, rp3;
|
||
|
double rd1, rd2, rd3, rd4;
|
||
|
double rn0, rn1, rn2, rn3, rn4;
|
||
|
int i;
|
||
|
double *w0, *w1, *w2, *w3, *w4;
|
||
|
double *d0, *d1, *d2, *d3, *d4;
|
||
|
|
||
|
if ( RFC->type_filter == UNKNOWN_FILTER ) {
|
||
|
if ( get_static_verbose_recline() != 0 )
|
||
|
fprintf( stderr, "%s: unknown type of recursive filter.\n", proc );
|
||
|
return( EXIT_ON_FAILURE );
|
||
|
}
|
||
|
if ( RFC->derivative == NODERIVATIVE ) {
|
||
|
if ( get_static_verbose_recline() != 0 )
|
||
|
fprintf( stderr, "%s: unknown type of derivative.\n", proc );
|
||
|
return( EXIT_ON_FAILURE );
|
||
|
}
|
||
|
|
||
|
rd1 = rd2 = rd3 = rd4 = 0.0;
|
||
|
rp0 = rp1 = rp2 = rp3 = 0.0;
|
||
|
rn0 = rn1 = rn2 = rn3 = rn4 = 0.0;
|
||
|
|
||
|
switch( RFC->type_filter ) {
|
||
|
default :
|
||
|
if ( get_static_verbose_recline() != 0 )
|
||
|
fprintf( stderr, "%s: unknown type of recursive filter.\n", proc );
|
||
|
return( EXIT_ON_FAILURE );
|
||
|
case GAUSSIAN_FIDRICH :
|
||
|
CGAL_FALLTHROUGH;
|
||
|
case GAUSSIAN_DERICHE :
|
||
|
/*--- filtrage generique d'ordre 4 ---*/
|
||
|
rp0 = RFC->sp0; rp1 = RFC->sp1; rp2 = RFC->sp2; rp3 = RFC->sp3;
|
||
|
rd1 = RFC->sd1; rd2 = RFC->sd2; rd3 = RFC->sd3; rd4 = RFC->sd4;
|
||
|
rn1 = RFC->sn1; rn2 = RFC->sn2; rn3 = RFC->sn3; rn4 = RFC->sn4;
|
||
|
|
||
|
/* on positionne les pointeurs
|
||
|
*/
|
||
|
w4 = work1; w3 = w4+1; w2 = w3+1; w1 = w2+1; w0 = w1+1;
|
||
|
d3 = in+1; d2 = d3+1; d1 = d2+1; d0 = d1+1;
|
||
|
/*--- calcul de y+ ---*/
|
||
|
*(w4) = rp0 * *(in);
|
||
|
*(w3) = rp0 * *(d3) + rp1 * *(in)
|
||
|
- rd1 * *(w4);
|
||
|
*(w2) = rp0 * *(d2) + rp1 * *(d3) + rp2 * *(in)
|
||
|
- rd1 * *(w3) - rd2 * *(w4);
|
||
|
*(w1) = rp0 * *(d1) + rp1 * *(d2) + rp2 * *(d3) + rp3 * *(in)
|
||
|
- rd1 * *(w2) - rd2 * *(w3) - rd3 * *(w4);
|
||
|
for (i=4; i<dim; i++,w0++,w1++,w2++,w3++,w4++,d0++,d1++,d2++,d3++)
|
||
|
*(w0) = rp0 * *(d0) + rp1 * *(d1) + rp2 * *(d2) + rp3 * *(d3)
|
||
|
- rd1 * *(w1) - rd2 * *(w2) - rd3 * *(w3) - rd4 * *(w4);
|
||
|
|
||
|
/* on positionne les pointeurs
|
||
|
*/
|
||
|
w4 = work2+dim-1; w3 = w4-1; w2 = w3-1; w1 = w2-1; w0 = w1-1;
|
||
|
d4 = in+dim-1; d3 = d4-1; d2 = d3-1; d1 = d2-1;
|
||
|
/*--- calcul de y- ---*/
|
||
|
*(w4) = 0;
|
||
|
*(w3) = rn1 * *(d4);
|
||
|
*(w2) = rn1 * *(d3) + rn2 * *(d4)
|
||
|
- rd1 * *(w3);
|
||
|
*(w1) = rn1 * *(d2) + rn2 * *(d3) + rn3 * *(d4)
|
||
|
- rd1 * *(w2) - rd2 * *(w3);
|
||
|
for (i=dim-5; i>=0; i--,w0--,w1--,w2--,w3--,w4--,d1--,d2--,d3--,d4--)
|
||
|
*(w0) = rn1 * *(d1) + rn2 * *(d2) + rn3 * *(d3) + rn4 * *(d4)
|
||
|
- rd1 * *(w1) - rd2 * *(w2) - rd3 * *(w3) - rd4 * *(w4);
|
||
|
|
||
|
/*--- calcul final ---*/
|
||
|
w1 = work1; w2 = work2; d0 = out;
|
||
|
for (i=0 ; i<dim ; i++,w1++,w2++,d0++)
|
||
|
*d0 = *w1 + *w2;
|
||
|
|
||
|
break;
|
||
|
|
||
|
case ALPHA_DERICHE :
|
||
|
|
||
|
switch( RFC->derivative ) {
|
||
|
default :
|
||
|
CGAL_FALLTHROUGH;
|
||
|
case DERIVATIVE_0 :
|
||
|
CGAL_FALLTHROUGH;
|
||
|
case DERIVATIVE_2 :
|
||
|
|
||
|
rp0 = RFC->sp0; rp1 = RFC->sp1;
|
||
|
rd1 = RFC->sd1; rd2 = RFC->sd2;
|
||
|
rn1 = RFC->sn1; rn2 = RFC->sn2;
|
||
|
|
||
|
/* on positionne les pointeurs
|
||
|
*/
|
||
|
w2 = work1; w1 = w2+1; w0 = w1+1;
|
||
|
d1 = in+1; d0 = d1+1;
|
||
|
/*--- calcul de y+ ---*/
|
||
|
*(w2) = rp0 * *(in);
|
||
|
*(w1) = rp0 * *(d1) + rp1 * *(in)
|
||
|
- rd1 * *(w2);
|
||
|
for (i=2; i<dim; i++,w0++,w1++,w2++,d0++,d1++)
|
||
|
*(w0) = rp0 * *(d0) + rp1 * *(d1)
|
||
|
- rd1 * *(w1) - rd2 * *(w2);
|
||
|
|
||
|
w2 = work2+dim-1; w1 = w2-1; w0 = w1-1;
|
||
|
d2 = in+dim-1; d1 = d2-1;
|
||
|
/*--- calcul de y- ---*/
|
||
|
*(w2) = 0.0;
|
||
|
*(w1) = rn1 * *(d2);
|
||
|
for (i=dim-3; i>=0; i--,w0--,w1--,w2--,d1--,d2--)
|
||
|
*(w0) = rn1 * *(d1) + rn2 * *(d2)
|
||
|
- rd1 * *(w1) - rd2 * *(w2);
|
||
|
|
||
|
/*--- calcul final ---*/
|
||
|
w1 = work1; w2 = work2; d0 = out;
|
||
|
for (i=0 ; i<dim ; i++,w1++,w2++,d0++)
|
||
|
*d0 = *w1 + *w2;
|
||
|
|
||
|
break;
|
||
|
|
||
|
case DERIVATIVE_1 :
|
||
|
CGAL_FALLTHROUGH;
|
||
|
case DERIVATIVE_1_CONTOURS :
|
||
|
rp1 = RFC->sp1;
|
||
|
rn1 = RFC->sn1;
|
||
|
rd1 = RFC->sd1; rd2 = RFC->sd2;
|
||
|
|
||
|
/* on positionne les pointeurs
|
||
|
*/
|
||
|
w2 = work1; w1 = w2+1; w0 = w1+1;
|
||
|
d1 = in+1;
|
||
|
/*--- calcul de y+ ---*/
|
||
|
*(w2) = 0.0;
|
||
|
*(w1) = rp1 * *(in);
|
||
|
for (i=2; i<dim; i++,w0++,w1++,w2++,d1++)
|
||
|
*(w0) = rp1 * *(d1)
|
||
|
- rd1 * *(w1) - rd2 * *(w2);
|
||
|
|
||
|
|
||
|
w2 = work2+dim-1; w1 = w2-1; w0 = w1-1;
|
||
|
d2 = in+dim-1; d1 = d2-1;
|
||
|
/*--- calcul de y- ---*/
|
||
|
*(w2) = 0.0;
|
||
|
*(w1) = rn1 * *(d2);
|
||
|
for (i=dim-3; i>=0; i--,w0--,w1--,w2--,d1--)
|
||
|
*(w0) = rn1 * *(d1)
|
||
|
- rd1 * *(w1) - rd2 * *(w2);
|
||
|
|
||
|
/*--- calcul final ---*/
|
||
|
w1 = work1; w2 = work2; d0 = out;
|
||
|
for (i=0 ; i<dim ; i++,w1++,w2++,d0++)
|
||
|
*d0 = *w1 + *w2;
|
||
|
|
||
|
break;
|
||
|
|
||
|
case DERIVATIVE_3 :
|
||
|
rp0 = RFC->sp0; rp1 = RFC->sp1;
|
||
|
rd1 = RFC->sd1; rd2 = RFC->sd2;
|
||
|
rn0 = RFC->sn0; rn1 = RFC->sn1;
|
||
|
|
||
|
w2 = work1; w1 = w2+1; w0 = w1+1;
|
||
|
d1 = in+1; d0 = d1+1;
|
||
|
/*--- calcul de y+ ---*/
|
||
|
*(w2) = rp0 * *(in);
|
||
|
*(w1) = rp0 * *(d1) + rp1 * *(in)
|
||
|
- rd1 * *(w2);
|
||
|
for (i=2; i<dim; i++,w0++,w1++,w2++,d0++,d1++)
|
||
|
*(w0) = rp0 * *(d0) + rp1 * *(d1)
|
||
|
- rd1 * *(w1) - rd2 * *(w2);
|
||
|
|
||
|
w2 = work2+dim-1; w1 = w2-1; w0 = w1-1;
|
||
|
d2 = in+dim-1; d1 = d2-1; d0 = d1-1;
|
||
|
/*--- calcul de y- ---*/
|
||
|
*(w2) = rn0 * *(d2);
|
||
|
*(w1) = rn0 * *(d1) + rn1 * *(d2)
|
||
|
- rd1 * *(w2);
|
||
|
for (i=dim-3; i>=0; i--,w0--,w1--,w2--,d0--,d1--)
|
||
|
*(w0) = rn0 * *(d0) + rn1 * *(d1)
|
||
|
- rd1 * *(w1) - rd2 * *(w2);
|
||
|
|
||
|
/*--- calcul final ---*/
|
||
|
w1 = work1; w2 = work2; d0 = out;
|
||
|
for (i=0 ; i<dim ; i++,w1++,w2++,d0++)
|
||
|
*d0 = *w1 + *w2;
|
||
|
|
||
|
}
|
||
|
}
|
||
|
return( EXIT_ON_SUCCESS );
|
||
|
}
|
||
|
|
||
|
CGAL_INLINE_FUNCTION
|
||
|
void Recline_verbose ( )
|
||
|
{
|
||
|
get_static_verbose_recline() = 1;
|
||
|
}
|
||
|
CGAL_INLINE_FUNCTION
|
||
|
void Recline_noverbose ( )
|
||
|
{
|
||
|
get_static_verbose_recline() = 0;
|
||
|
}
|