dust3d/thirdparty/cgal/CGAL-5.1/include/CGAL/extended_euclidean_algorithm.h

// Copyright (c) 2006-2007 Max-Planck-Institute Saarbruecken (Germany).
// All rights reserved.
//
// This file is part of CGAL (www.cgal.org)
//
// $URL: https://github.com/CGAL/cgal/blob/v5.1/Algebraic_foundations/include/CGAL/extended_euclidean_algorithm.h $
// $Id: extended_euclidean_algorithm.h 52164b1 2019-10-19T15:34:59+02:00 Sébastien Loriot
// SPDX-License-Identifier: LGPL-3.0-or-later OR LicenseRef-Commercial
//
// Author(s)     : Michael Hemmer, Dominik Huelse
//
// ============================================================================

#ifndef CGAL_EXTENDED_EUCLIDEAN_ALGORITHM_H
#define CGAL_EXTENDED_EUCLIDEAN_ALGORITHM_H 1

#include <CGAL/basic.h>
#include <vector>

namespace CGAL {

// EEA computing the normalized gcd
// Modern Computer Algebra (Hardcover)
// by Joachim von zur Gathen (Author), Juergen Gerhard (Author)
// Publisher: Cambridge University Press; 2 edition (September 1, 2003)
//  Language: English
// ISBN-10: 0521826462
// ISBN-13: 978-0521826464
// pp.: 55

template< class AS >
AS extended_euclidean_algorithm(const AS& f, const AS& g, AS& s_, AS& t_){
    typename Algebraic_structure_traits<AS>::Integral_division idiv;
    typename Algebraic_structure_traits<AS>::Div div;
    typename Algebraic_structure_traits<AS>::Unit_part unit_part;

    std::vector<AS> p,r,s,t,q;
    p.push_back(unit_part(f));
    r.push_back(idiv(f,p[0]));
    s.push_back(idiv(AS(1),p[0]));
    t.push_back(AS(0));
    q.push_back(AS(0));

    p.push_back(unit_part(g));
    r.push_back(idiv(g,p[1]));
    s.push_back(AS(0));
    t.push_back(idiv(AS(1),p[1]));

    int i = 1;
    while(!is_zero(r[i])){
        q.push_back(div(r[i-1],r[i]));
        r.push_back(r[i-1]-q[i]*r[i]);
        p.push_back(unit_part(r[i+1]));
        r[i+1] = idiv(r[i+1],p[i+1]);
        s.push_back(idiv(s[i-1]-q[i]*s[i],p[i+1]));
        t.push_back(idiv(t[i-1]-q[i]*t[i],p[i+1]));
        i++;
    }

    s_=s[i-1];
    t_=t[i-1];
    AS h = r[i-1];
    CGAL_precondition( h == f*s_ + g*t_);
    return h;
}

} //namespace CGAL

#endif // NiX_EXTENDED_EUCLIDEAN_ALGORITHM_H //
Integrate Instant-Meshes 1. Drop windows 32bit support Add windows 64bit support. 2. Remove Script(quickjs) support The current integrated quickjs is a very old version which doesn’t support windows 64bit system. In the future, (TODO)WebAssembly should be integrate as plugin system. 3. Integrate Instant-Meshes Instant-Meshes take less than 1 second on all three platforms. 4. Remove QuadriFlow Current implementation of QuadriFlow is too slow (take about 5 seconds on the example model) to do realtime remeshing. 2020-01-04 10:29:10 +00:00			`// Copyright (c) 2006-2007 Max-Planck-Institute Saarbruecken (Germany).`
			`// All rights reserved.`
			`//`
Update CGAL to 5.1 2020-10-13 12:44:25 +00:00			`// This file is part of CGAL (www.cgal.org)`
Integrate Instant-Meshes 1. Drop windows 32bit support Add windows 64bit support. 2. Remove Script(quickjs) support The current integrated quickjs is a very old version which doesn’t support windows 64bit system. In the future, (TODO)WebAssembly should be integrate as plugin system. 3. Integrate Instant-Meshes Instant-Meshes take less than 1 second on all three platforms. 4. Remove QuadriFlow Current implementation of QuadriFlow is too slow (take about 5 seconds on the example model) to do realtime remeshing. 2020-01-04 10:29:10 +00:00			`//`
Update CGAL to 5.1 2020-10-13 12:44:25 +00:00			`// $URL: https://github.com/CGAL/cgal/blob/v5.1/Algebraic_foundations/include/CGAL/extended_euclidean_algorithm.h $`
			`// $Id: extended_euclidean_algorithm.h 52164b1 2019-10-19T15:34:59+02:00 Sébastien Loriot`
			`// SPDX-License-Identifier: LGPL-3.0-or-later OR LicenseRef-Commercial`
Integrate Instant-Meshes 1. Drop windows 32bit support Add windows 64bit support. 2. Remove Script(quickjs) support The current integrated quickjs is a very old version which doesn’t support windows 64bit system. In the future, (TODO)WebAssembly should be integrate as plugin system. 3. Integrate Instant-Meshes Instant-Meshes take less than 1 second on all three platforms. 4. Remove QuadriFlow Current implementation of QuadriFlow is too slow (take about 5 seconds on the example model) to do realtime remeshing. 2020-01-04 10:29:10 +00:00			`//`
			`// Author(s) : Michael Hemmer, Dominik Huelse`
			`//`
			`// ============================================================================`

			`#ifndef CGAL_EXTENDED_EUCLIDEAN_ALGORITHM_H`
			`#define CGAL_EXTENDED_EUCLIDEAN_ALGORITHM_H 1`

			`#include <CGAL/basic.h>`
			`#include <vector>`

			`namespace CGAL {`

			`// EEA computing the normalized gcd`
			`// Modern Computer Algebra (Hardcover)`
			`// by Joachim von zur Gathen (Author), Juergen Gerhard (Author)`
			`// Publisher: Cambridge University Press; 2 edition (September 1, 2003)`
			`// Language: English`
			`// ISBN-10: 0521826462`
			`// ISBN-13: 978-0521826464`
			`// pp.: 55`

			`template< class AS >`
			`AS extended_euclidean_algorithm(const AS& f, const AS& g, AS& s_, AS& t_){`
			`typename Algebraic_structure_traits<AS>::Integral_division idiv;`
			`typename Algebraic_structure_traits<AS>::Div div;`
			`typename Algebraic_structure_traits<AS>::Unit_part unit_part;`

			`std::vector<AS> p,r,s,t,q;`
			`p.push_back(unit_part(f));`
			`r.push_back(idiv(f,p[0]));`
			`s.push_back(idiv(AS(1),p[0]));`
			`t.push_back(AS(0));`
			`q.push_back(AS(0));`

			`p.push_back(unit_part(g));`
			`r.push_back(idiv(g,p[1]));`
			`s.push_back(AS(0));`
			`t.push_back(idiv(AS(1),p[1]));`

			`int i = 1;`
			`while(!is_zero(r[i])){`
			`q.push_back(div(r[i-1],r[i]));`
			`r.push_back(r[i-1]-q[i]*r[i]);`
			`p.push_back(unit_part(r[i+1]));`
			`r[i+1] = idiv(r[i+1],p[i+1]);`
			`s.push_back(idiv(s[i-1]-q[i]*s[i],p[i+1]));`
			`t.push_back(idiv(t[i-1]-q[i]*t[i],p[i+1]));`
			`i++;`
			`}`

			`s_=s[i-1];`
			`t_=t[i-1];`
			`AS h = r[i-1];`
			`CGAL_precondition( h == fs_ + gt_);`
			`return h;`
			`}`

			`} //namespace CGAL`

			`#endif // NiX_EXTENDED_EUCLIDEAN_ALGORITHM_H //`