// Copyright (c) 1999 // Utrecht University (The Netherlands), // ETH Zurich (Switzerland), // INRIA Sophia-Antipolis (France), // Max-Planck-Institute Saarbruecken (Germany), // and Tel-Aviv University (Israel). All rights reserved. // // This file is part of CGAL (www.cgal.org); you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public License as // published by the Free Software Foundation; either version 3 of the License, // or (at your option) any later version. // // Licensees holding a valid commercial license may use this file in // accordance with the commercial license agreement provided with the software. // // This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE // WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. // // $URL$ // $Id$ // SPDX-License-Identifier: LGPL-3.0+ // // // Author(s) : Sylvain Pion // Stefan Schirra #ifndef CGAL_DETERMINANT_H #define CGAL_DETERMINANT_H #include namespace CGAL { template inline RT determinant( const RT& a00, const RT& a01, const RT& a10, const RT& a11) { // First compute the det2x2 const RT m01 = a00*a11 - a10*a01; return m01; } template CGAL_KERNEL_MEDIUM_INLINE RT determinant( const RT& a00, const RT& a01, const RT& a02, const RT& a10, const RT& a11, const RT& a12, const RT& a20, const RT& a21, const RT& a22) { // First compute the det2x2 const RT m01 = a00*a11 - a10*a01; const RT m02 = a00*a21 - a20*a01; const RT m12 = a10*a21 - a20*a11; // Now compute the minors of rank 3 const RT m012 = m01*a22 - m02*a12 + m12*a02; return m012; } template CGAL_KERNEL_LARGE_INLINE RT determinant( const RT& a00, const RT& a01, const RT& a02, const RT& a03, const RT& a10, const RT& a11, const RT& a12, const RT& a13, const RT& a20, const RT& a21, const RT& a22, const RT& a23, const RT& a30, const RT& a31, const RT& a32, const RT& a33) { // First compute the det2x2 const RT m01 = a10*a01 - a00*a11; const RT m02 = a20*a01 - a00*a21; const RT m03 = a30*a01 - a00*a31; const RT m12 = a20*a11 - a10*a21; const RT m13 = a30*a11 - a10*a31; const RT m23 = a30*a21 - a20*a31; // Now compute the minors of rank 3 const RT m012 = m12*a02 - m02*a12 + m01*a22; const RT m013 = m13*a02 - m03*a12 + m01*a32; const RT m023 = m23*a02 - m03*a22 + m02*a32; const RT m123 = m23*a12 - m13*a22 + m12*a32; // Now compute the minors of rank 4 const RT m0123 = m123*a03 - m023*a13 + m013*a23 - m012*a33; return m0123; } template CGAL_KERNEL_LARGE_INLINE RT determinant( const RT& a00, const RT& a01, const RT& a02, const RT& a03, const RT& a04, const RT& a10, const RT& a11, const RT& a12, const RT& a13, const RT& a14, const RT& a20, const RT& a21, const RT& a22, const RT& a23, const RT& a24, const RT& a30, const RT& a31, const RT& a32, const RT& a33, const RT& a34, const RT& a40, const RT& a41, const RT& a42, const RT& a43, const RT& a44) { // First compute the det2x2 const RT m01 = a10*a01 - a00*a11; const RT m02 = a20*a01 - a00*a21; const RT m03 = a30*a01 - a00*a31; const RT m04 = a40*a01 - a00*a41; const RT m12 = a20*a11 - a10*a21; const RT m13 = a30*a11 - a10*a31; const RT m14 = a40*a11 - a10*a41; const RT m23 = a30*a21 - a20*a31; const RT m24 = a40*a21 - a20*a41; const RT m34 = a40*a31 - a30*a41; // Now compute the minors of rank 3 const RT m012 = m12*a02 - m02*a12 + m01*a22; const RT m013 = m13*a02 - m03*a12 + m01*a32; const RT m014 = m14*a02 - m04*a12 + m01*a42; const RT m023 = m23*a02 - m03*a22 + m02*a32; const RT m024 = m24*a02 - m04*a22 + m02*a42; const RT m034 = m34*a02 - m04*a32 + m03*a42; const RT m123 = m23*a12 - m13*a22 + m12*a32; const RT m124 = m24*a12 - m14*a22 + m12*a42; const RT m134 = m34*a12 - m14*a32 + m13*a42; const RT m234 = m34*a22 - m24*a32 + m23*a42; // Now compute the minors of rank 4 const RT m0123 = m123*a03 - m023*a13 + m013*a23 - m012*a33; const RT m0124 = m124*a03 - m024*a13 + m014*a23 - m012*a43; const RT m0134 = m134*a03 - m034*a13 + m014*a33 - m013*a43; const RT m0234 = m234*a03 - m034*a23 + m024*a33 - m023*a43; const RT m1234 = m234*a13 - m134*a23 + m124*a33 - m123*a43; // Now compute the minors of rank 5 const RT m01234 = m1234*a04 - m0234*a14 + m0134*a24 - m0124*a34 + m0123*a44; return m01234; } template RT determinant( const RT& a00, const RT& a01, const RT& a02, const RT& a03, const RT& a04, const RT& a05, const RT& a10, const RT& a11, const RT& a12, const RT& a13, const RT& a14, const RT& a15, const RT& a20, const RT& a21, const RT& a22, const RT& a23, const RT& a24, const RT& a25, const RT& a30, const RT& a31, const RT& a32, const RT& a33, const RT& a34, const RT& a35, const RT& a40, const RT& a41, const RT& a42, const RT& a43, const RT& a44, const RT& a45, const RT& a50, const RT& a51, const RT& a52, const RT& a53, const RT& a54, const RT& a55) { // First compute the det2x2 const RT m01 = a00*a11 - a10*a01; const RT m02 = a00*a21 - a20*a01; const RT m03 = a00*a31 - a30*a01; const RT m04 = a00*a41 - a40*a01; const RT m05 = a00*a51 - a50*a01; const RT m12 = a10*a21 - a20*a11; const RT m13 = a10*a31 - a30*a11; const RT m14 = a10*a41 - a40*a11; const RT m15 = a10*a51 - a50*a11; const RT m23 = a20*a31 - a30*a21; const RT m24 = a20*a41 - a40*a21; const RT m25 = a20*a51 - a50*a21; const RT m34 = a30*a41 - a40*a31; const RT m35 = a30*a51 - a50*a31; const RT m45 = a40*a51 - a50*a41; // Now compute the minors of rank 3 const RT m012 = m01*a22 - m02*a12 + m12*a02; const RT m013 = m01*a32 - m03*a12 + m13*a02; const RT m014 = m01*a42 - m04*a12 + m14*a02; const RT m015 = m01*a52 - m05*a12 + m15*a02; const RT m023 = m02*a32 - m03*a22 + m23*a02; const RT m024 = m02*a42 - m04*a22 + m24*a02; const RT m025 = m02*a52 - m05*a22 + m25*a02; const RT m034 = m03*a42 - m04*a32 + m34*a02; const RT m035 = m03*a52 - m05*a32 + m35*a02; const RT m045 = m04*a52 - m05*a42 + m45*a02; const RT m123 = m12*a32 - m13*a22 + m23*a12; const RT m124 = m12*a42 - m14*a22 + m24*a12; const RT m125 = m12*a52 - m15*a22 + m25*a12; const RT m134 = m13*a42 - m14*a32 + m34*a12; const RT m135 = m13*a52 - m15*a32 + m35*a12; const RT m145 = m14*a52 - m15*a42 + m45*a12; const RT m234 = m23*a42 - m24*a32 + m34*a22; const RT m235 = m23*a52 - m25*a32 + m35*a22; const RT m245 = m24*a52 - m25*a42 + m45*a22; const RT m345 = m34*a52 - m35*a42 + m45*a32; // Now compute the minors of rank 4 const RT m0123 = m012*a33 - m013*a23 + m023*a13 - m123*a03; const RT m0124 = m012*a43 - m014*a23 + m024*a13 - m124*a03; const RT m0125 = m012*a53 - m015*a23 + m025*a13 - m125*a03; const RT m0134 = m013*a43 - m014*a33 + m034*a13 - m134*a03; const RT m0135 = m013*a53 - m015*a33 + m035*a13 - m135*a03; const RT m0145 = m014*a53 - m015*a43 + m045*a13 - m145*a03; const RT m0234 = m023*a43 - m024*a33 + m034*a23 - m234*a03; const RT m0235 = m023*a53 - m025*a33 + m035*a23 - m235*a03; const RT m0245 = m024*a53 - m025*a43 + m045*a23 - m245*a03; const RT m0345 = m034*a53 - m035*a43 + m045*a33 - m345*a03; const RT m1234 = m123*a43 - m124*a33 + m134*a23 - m234*a13; const RT m1235 = m123*a53 - m125*a33 + m135*a23 - m235*a13; const RT m1245 = m124*a53 - m125*a43 + m145*a23 - m245*a13; const RT m1345 = m134*a53 - m135*a43 + m145*a33 - m345*a13; const RT m2345 = m234*a53 - m235*a43 + m245*a33 - m345*a23; // Now compute the minors of rank 5 const RT m01234 = m0123*a44 - m0124*a34 + m0134*a24 - m0234*a14 + m1234*a04; const RT m01235 = m0123*a54 - m0125*a34 + m0135*a24 - m0235*a14 + m1235*a04; const RT m01245 = m0124*a54 - m0125*a44 + m0145*a24 - m0245*a14 + m1245*a04; const RT m01345 = m0134*a54 - m0135*a44 + m0145*a34 - m0345*a14 + m1345*a04; const RT m02345 = m0234*a54 - m0235*a44 + m0245*a34 - m0345*a24 + m2345*a04; const RT m12345 = m1234*a54 - m1235*a44 + m1245*a34 - m1345*a24 + m2345*a14; // Now compute the minors of rank 6 const RT m012345 = m01234*a55 - m01235*a45 + m01245*a35 - m01345*a25 + m02345*a15 - m12345*a05; return m012345; } } //namespace CGAL #endif // CGAL_DETERMINANT_H