C-XSC - A C++ Class Library for Extended Scientific Computing 2.5.4
civecrmat.inl
1/*
2** CXSC is a C++ library for eXtended Scientific Computing (V 2.5.4)
3**
4** Copyright (C) 1990-2000 Institut fuer Angewandte Mathematik,
5** Universitaet Karlsruhe, Germany
6** (C) 2000-2014 Wiss. Rechnen/Softwaretechnologie
7** Universitaet Wuppertal, Germany
8**
9** This library is free software; you can redistribute it and/or
10** modify it under the terms of the GNU Library General Public
11** License as published by the Free Software Foundation; either
12** version 2 of the License, or (at your option) any later version.
13**
14** This library is distributed in the hope that it will be useful,
15** but WITHOUT ANY WARRANTY; without even the implied warranty of
16** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
17** Library General Public License for more details.
18**
19** You should have received a copy of the GNU Library General Public
20** License along with this library; if not, write to the Free
21** Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
22*/
23
24/* CVS $Id: civecrmat.inl,v 1.24 2014/01/30 17:23:44 cxsc Exp $ */
25
26// Here are definitions for civector x rmatrix-Functions
27#ifndef _CXSC_CIVECRMAT_INL_INCLUDED
28#define _CXSC_CIVECRMAT_INL_INCLUDED
29
30namespace cxsc {
31
32 INLINE civector::civector(const rmatrix &sl)
33#if(CXSC_INDEX_CHECK)
34
35#else
36 noexcept
37#endif
38 { _vmconstr<civector,rmatrix,cinterval>(*this,sl); }
40#if(CXSC_INDEX_CHECK)
41
42#else
43 noexcept
44#endif
45 { _vmsconstr<civector,rmatrix_slice,cinterval>(*this,sl); }
46 INLINE civector::civector(const rmatrix_subv &v) noexcept:l(v.lb),u(v.ub),size(v.size)
47 {
48 dat=new cinterval[size];
49 for (int i=0, j=v.start;i<v.size;i++,j+=v.offset)
50 dat[i]=v.dat[j];
51 }
52 INLINE civector _civector(const rmatrix &sl)
53#if(CXSC_INDEX_CHECK)
54
55#else
56 noexcept
57#endif
58 { return civector(sl); }
59 INLINE civector _civector(const rmatrix_slice &sl)
60#if(CXSC_INDEX_CHECK)
61
62#else
63 noexcept
64#endif
65 { return civector(sl); }
66
67 INLINE civector &civector::operator =(const rmatrix_subv &mv) noexcept { return _vmvassign<civector,rmatrix_subv,cinterval>(*this,mv); }
68 INLINE civector_slice &civector_slice::operator =(const rmatrix_subv &mv) noexcept { return _vsvassign(*this,rvector(mv)); }
70#if(CXSC_INDEX_CHECK)
71
72#else
73 noexcept
74#endif
75 { return _vmassign<civector,rmatrix,cinterval>(*this,m); }
77#if(CXSC_INDEX_CHECK)
78
79#else
80 noexcept
81#endif
82 { return _vmassign<civector,rmatrix,cinterval>(*this,rmatrix(m)); }
84#if(CXSC_INDEX_CHECK)
85
86#else
87 noexcept
88#endif
89 { return _vsvassign(*this,rvector(m)); }
91#if(CXSC_INDEX_CHECK)
92
93#else
94 noexcept
95#endif
96 { return _vsvassign(*this,civector(rmatrix(m))); }
97
98 INLINE civector operator *(const rmatrix &m,const civector &v)
99#if(CXSC_INDEX_CHECK)
100
101#else
102 noexcept
103#endif
104 { return _mvcimult<rmatrix,civector,civector>(m,v); }
105 INLINE civector operator *(const rmatrix_slice &ms,const civector &v)
106#if(CXSC_INDEX_CHECK)
107
108#else
109 noexcept
110#endif
111 { return _msvcimult<rmatrix_slice,civector,civector>(ms,v); }
112 INLINE civector operator *(const civector &v,const rmatrix &m)
113#if(CXSC_INDEX_CHECK)
114
115#else
116 noexcept
117#endif
118 { return _vmcimult<civector,rmatrix,civector>(v,m); }
119 INLINE civector operator *(const civector &v,const rmatrix_slice &ms)
120#if(CXSC_INDEX_CHECK)
121
122#else
123 noexcept
124#endif
125 { return _vmscimult<civector,rmatrix_slice,civector>(v,ms); }
126 INLINE civector &operator *=(civector &v,const rmatrix &m)
127#if(CXSC_INDEX_CHECK)
128
129#else
130 noexcept
131#endif
132 { return _vmcimultassign<civector,rmatrix,cinterval>(v,m); }
133 INLINE civector &operator *=(civector &v,const rmatrix_slice &ms)
134#if(CXSC_INDEX_CHECK)
135
136#else
137 noexcept
138#endif
139 { return _vmscimultassign<civector,rmatrix_slice,cinterval>(v,ms); }
140
141 INLINE civector operator *(const civector_slice &v,const rmatrix &m)
142#if(CXSC_INDEX_CHECK)
143
144#else
145 noexcept
146#endif
147 { return _vmcimult<civector,rmatrix,civector>(civector(v),m); }
149#if(CXSC_INDEX_CHECK)
150
151#else
152 noexcept
153#endif
154 { return _vsmcimultassign<civector_slice,rmatrix,cinterval>(*this,m); }
155
156} // namespace cxsc
157
158#endif
159
The Scalar Type cinterval.
Definition cinterval.hpp:55
The Data Type civector_slice.
civector_slice & operator*=(const cinterval &r) noexcept
Implementation of multiplication and allocation operation.
Definition civector.inl:720
civector_slice & operator=(const scivector_slice &sl)
Implementation of standard assigning operator.
The Data Type civector.
Definition civector.hpp:57
civector & operator=(const civector &rv) noexcept
Implementation of standard assigning operator.
Definition civector.inl:339
civector() noexcept
Constructor of class civector.
Definition civector.inl:31
The Data Type rmatrix_slice.
Definition rmatrix.hpp:1443
The Data Type rmatrix_subv.
Definition rmatrix.hpp:54
The Data Type rmatrix.
Definition rmatrix.hpp:471
The Data Type rvector.
Definition rvector.hpp:58
The namespace cxsc, providing all functionality of the class library C-XSC.
Definition cdot.cpp:29
cimatrix & operator*=(cimatrix &m, const cinterval &c) noexcept
Implementation of multiplication and allocation operation.
civector operator*(const cimatrix_subv &rv, const cinterval &s) noexcept
Implementation of multiplication operation.
Definition cimatrix.inl:731