C-XSC - A C++ Class Library for Extended Scientific Computing
2.5.4
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00001 /* 00002 ** CXSC is a C++ library for eXtended Scientific Computing (V 2.5.4) 00003 ** 00004 ** Copyright (C) 1990-2000 Institut fuer Angewandte Mathematik, 00005 ** Universitaet Karlsruhe, Germany 00006 ** (C) 2000-2014 Wiss. Rechnen/Softwaretechnologie 00007 ** Universitaet Wuppertal, Germany 00008 ** 00009 ** This library is free software; you can redistribute it and/or 00010 ** modify it under the terms of the GNU Library General Public 00011 ** License as published by the Free Software Foundation; either 00012 ** version 2 of the License, or (at your option) any later version. 00013 ** 00014 ** This library is distributed in the hope that it will be useful, 00015 ** but WITHOUT ANY WARRANTY; without even the implied warranty of 00016 ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 00017 ** Library General Public License for more details. 00018 ** 00019 ** You should have received a copy of the GNU Library General Public 00020 ** License along with this library; if not, write to the Free 00021 ** Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA 00022 */ 00023 00024 /* CVS $Id: livecrmat.hpp,v 1.24 2014/01/30 17:23:47 cxsc Exp $ */ 00025 00026 // Here are definitions for l_ivector x rmatrix-Functions 00027 #ifndef _CXSC_LIVECRMAT_HPP_INCLUDED 00028 #define _CXSC_LIVECRMAT_HPP_INCLUDED 00029 00030 namespace cxsc { 00031 00033 INLINE l_ivector _l_ivector(const rmatrix &sl) 00034 #if(CXSC_INDEX_CHECK) 00035 throw(ERROR_RMATRIX_TYPE_CAST_OF_THICK_OBJ); 00036 #else 00037 throw(); 00038 #endif 00039 00040 INLINE l_ivector _l_ivector(const rmatrix_slice &sl) 00041 #if(CXSC_INDEX_CHECK) 00042 throw(ERROR_RMATRIX_TYPE_CAST_OF_THICK_OBJ); 00043 #else 00044 throw(); 00045 #endif 00046 00048 INLINE void accumulate(idotprecision &dp, const rmatrix_subv & rv1, const l_ivector &rv2) 00049 #if(CXSC_INDEX_CHECK) 00050 throw(OP_WITH_WRONG_DIM); 00051 #else 00052 throw(); 00053 #endif 00054 00055 INLINE void accumulate(idotprecision &dp, const l_ivector & rv1, const rmatrix_subv &rv2) 00056 #if(CXSC_INDEX_CHECK) 00057 throw(OP_WITH_WRONG_DIM); 00058 #else 00059 throw(); 00060 #endif 00061 00062 INLINE void accumulate(idotprecision &dp, const rmatrix_subv & rv1, const l_ivector_slice &rv2) 00063 #if(CXSC_INDEX_CHECK) 00064 throw(OP_WITH_WRONG_DIM); 00065 #else 00066 throw(); 00067 #endif 00068 00069 INLINE void accumulate(idotprecision &dp, const l_ivector_slice & rv1, const rmatrix_subv &rv2) 00070 #if(CXSC_INDEX_CHECK) 00071 throw(OP_WITH_WRONG_DIM); 00072 #else 00073 throw(); 00074 #endif 00075 00076 00078 INLINE l_ivector operator *(const rmatrix &m,const l_ivector &v) 00079 #if(CXSC_INDEX_CHECK) 00080 throw(ERROR_RMATRIX_OP_WITH_WRONG_DIM); 00081 #else 00082 throw(); 00083 #endif 00084 00085 INLINE l_ivector operator *(const rmatrix_slice &ms,const l_ivector &v) 00086 #if(CXSC_INDEX_CHECK) 00087 throw(ERROR_RMATRIX_OP_WITH_WRONG_DIM); 00088 #else 00089 throw(); 00090 #endif 00091 00092 INLINE l_ivector operator *(const l_ivector &v,const rmatrix &m) 00093 #if(CXSC_INDEX_CHECK) 00094 throw(ERROR_RMATRIX_OP_WITH_WRONG_DIM); 00095 #else 00096 throw(); 00097 #endif 00098 00099 INLINE l_ivector operator *(const l_ivector &v,const rmatrix_slice &ms) 00100 #if(CXSC_INDEX_CHECK) 00101 throw(ERROR_RMATRIX_OP_WITH_WRONG_DIM); 00102 #else 00103 throw(); 00104 #endif 00105 00106 INLINE l_ivector &operator *=(l_ivector &v,const rmatrix &m) 00107 #if(CXSC_INDEX_CHECK) 00108 throw(ERROR_RMATRIX_OP_WITH_WRONG_DIM); 00109 #else 00110 throw(); 00111 #endif 00112 00113 INLINE l_ivector &operator *=(l_ivector &v,const rmatrix_slice &ms) 00114 #if(CXSC_INDEX_CHECK) 00115 throw(ERROR_RMATRIX_OP_WITH_WRONG_DIM); 00116 #else 00117 throw(); 00118 #endif 00119 00121 INLINE l_ivector operator *(const l_ivector_slice &v,const rmatrix &m) 00122 #if(CXSC_INDEX_CHECK) 00123 throw(ERROR_RMATRIX_OP_WITH_WRONG_DIM); 00124 #else 00125 throw(); 00126 #endif 00127 00128 } // namespace cxsc 00129 00130 #endif 00131