201 lines
5.8 KiB
C++
Executable File
201 lines
5.8 KiB
C++
Executable File
// Copyright (c) 2000 Max-Planck-Institute Saarbruecken (Germany).
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// All rights reserved.
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//
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// This file is part of CGAL (www.cgal.org); you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public License as
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// published by the Free Software Foundation; either version 3 of the License,
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// 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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// This file is 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) : Michael Seel
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// Andreas Fabri
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namespace CGAL{
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namespace Nef {
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inline
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void Polynomial<int>::euclidean_div(
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const Polynomial<int>& f, const Polynomial<int>& g,
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Polynomial<int>& q, Polynomial<int>& r)
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{
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r = f; r.copy_on_write();
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int rd=r.degree(), gd=g.degree(), qd;
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if ( rd < gd ) { q = Polynomial<int>(int(0)); }
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else { qd = rd-gd+1; q = Polynomial<int>(std::size_t(qd)); }
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while ( rd >= gd && !(r.is_zero())) {
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int S = r[rd] / g[gd];
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qd = rd-gd;
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q.coeff(qd) += S;
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r.minus_offsetmult(g,S,qd);
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rd = r.degree();
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}
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CGAL_postcondition( f==q*g+r );
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}
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inline
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void Polynomial<int>::pseudo_div(
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const Polynomial<int>& f, const Polynomial<int>& g,
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Polynomial<int>& q, Polynomial<int>& r, int& D)
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{
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CGAL_NEF_TRACEN("pseudo_div "<<f<<" , "<< g);
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int fd=f.degree(), gd=g.degree();
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if ( fd<gd )
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{ q = Polynomial<int>(0); r = f; D = 1;
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CGAL_postcondition(Polynomial<int>(D)*f==q*g+r); return;
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}
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// now we know fd >= gd and f>=g
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int qd=fd-gd, delta=qd+1, rd=fd;
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{ q = Polynomial<int>( std::size_t(delta) ); }; // workaround for SUNPRO
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int G = g[gd]; // highest order coeff of g
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D = G; while (--delta) D*=G; // D = G^delta
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Polynomial<int> res = Polynomial<int>(D)*f;
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CGAL_NEF_TRACEN(" pseudo_div start "<<res<<" "<<qd<<" "<<q.degree());
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while (qd >= 0) {
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int F = res[rd]; // highest order coeff of res
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int t = F/G; // ensured to be integer by multiplication of D
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q.coeff(qd) = t; // store q coeff
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res.minus_offsetmult(g,t,qd);
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if (res.is_zero()) break;
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rd = res.degree();
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qd = rd - gd;
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}
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r = res;
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CGAL_postcondition(Polynomial<int>(D)*f==q*g+r);
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CGAL_NEF_TRACEN(" returning "<<q<<", "<<r<<", "<< D);
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}
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inline
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Polynomial<int> Polynomial<int>::gcd(
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const Polynomial<int>& p1, const Polynomial<int>& p2)
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{ CGAL_NEF_TRACEN("gcd("<<p1<<" , "<<p2<<")");
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if ( p1.is_zero() ) {
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if ( p2.is_zero() ) return Polynomial<int>(int(1));
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else return p2.abs();
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}
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if ( p2.is_zero() )
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return p1.abs();
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Polynomial<int> f1 = p1.abs();
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Polynomial<int> f2 = p2.abs();
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int f1c = f1.content(), f2c = f2.content();
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f1 /= f1c; f2 /= f2c;
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int F = CGAL::gcd(f1c,f2c);
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Polynomial<int> q,r; int M=1,D;
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bool first = true;
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while ( ! f2.is_zero() ) {
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Polynomial<int>::pseudo_div(f1,f2,q,r,D);
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if (!first) M*=D;
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CGAL_NEF_TRACEV(f1);CGAL_NEF_TRACEV(f2);CGAL_NEF_TRACEV(q);CGAL_NEF_TRACEV(r);CGAL_NEF_TRACEV(M);
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r /= r.content();
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f1=f2; f2=r;
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first=false;
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}
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CGAL_NEF_TRACEV(f1.content());
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return Polynomial<int>(F)*f1.abs();
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}
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inline
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void Polynomial<double>::euclidean_div(
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const Polynomial<double>& f, const Polynomial<double>& g,
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Polynomial<double>& q, Polynomial<double>& r)
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{
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r = f; r.copy_on_write();
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int rd=r.degree(), gd=g.degree(), qd;
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if ( rd < gd ) { q = Polynomial<double>(double(0)); }
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else { qd = rd-gd+1; q = Polynomial<double>(std::size_t(qd)); }
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while ( rd >= gd && !(r.is_zero())) {
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double S = r[rd] / g[gd];
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qd = rd-gd;
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q.coeff(qd) += S;
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r.minus_offsetmult(g,S,qd);
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rd = r.degree();
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}
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CGAL_postcondition( f==q*g+r );
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}
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inline
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void Polynomial<double>::pseudo_div(
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const Polynomial<double>& f, const Polynomial<double>& g,
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Polynomial<double>& q, Polynomial<double>& r, double& D)
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{
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CGAL_NEF_TRACEN("pseudo_div "<<f<<" , "<< g);
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int fd=f.degree(), gd=g.degree();
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if ( fd<gd )
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{ q = Polynomial<double>(0); r = f; D = 1;
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CGAL_postcondition(Polynomial<double>(D)*f==q*g+r); return;
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}
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// now we know fd >= gd and f>=g
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int qd=fd-gd, delta=qd+1, rd=fd;
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q = Polynomial<double>( std::size_t(delta) );
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double G = g[gd]; // highest order coeff of g
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D = G; while (--delta) D*=G; // D = G^delta
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Polynomial<double> res = Polynomial<double>(D)*f;
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CGAL_NEF_TRACEN(" pseudo_div start "<<res<<" "<<qd<<" "<<q.degree());
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while (qd >= 0) {
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double F = res[rd]; // highest order coeff of res
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double t = F/G; // ensured to be integer by multiplication of D
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q.coeff(qd) = t; // store q coeff
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res.minus_offsetmult(g,t,qd);
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if (res.is_zero()) break;
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rd = res.degree();
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qd = rd - gd;
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}
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r = res;
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CGAL_postcondition(Polynomial<double>(D)*f==q*g+r);
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CGAL_NEF_TRACEN(" returning "<<q<<", "<<r<<", "<< D);
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}
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inline
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Polynomial<double> Polynomial<double>::gcd(
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const Polynomial<double>& p1, const Polynomial<double>& p2)
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{ CGAL_NEF_TRACEN("gcd("<<p1<<" , "<<p2<<")");
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if ( p1.is_zero() ) {
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if ( p2.is_zero() ) return Polynomial<double>(double(1));
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else return p2.abs();
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}
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if ( p2.is_zero() )
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return p1.abs();
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Polynomial<double> f1 = p1.abs();
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Polynomial<double> f2 = p2.abs();
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double f1c = f1.content(), f2c = f2.content();
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f1 /= f1c; f2 /= f2c;
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Polynomial<double> q,r; double M=1,D;
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bool first = true;
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while ( ! f2.is_zero() ) {
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Polynomial<double>::pseudo_div(f1,f2,q,r,D);
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if (!first) M*=D;
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CGAL_NEF_TRACEV(f1);CGAL_NEF_TRACEV(f2);CGAL_NEF_TRACEV(q);CGAL_NEF_TRACEV(r);CGAL_NEF_TRACEV(M);
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r /= r.content();
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f1=f2; f2=r;
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first=false;
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}
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CGAL_NEF_TRACEV(f1.content());
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return Polynomial<double>(1)*f1.abs();
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}
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} // end namespace Nef
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}//end namespace CGAL
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