2009-11-11 23:07:25 +01:00
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/*
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LA: linear algebra C++ interface library
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Copyright (C) 2008 Jiri Pittner <jiri.pittner@jh-inst.cas.cz> or <jiri@pittnerovi.com>
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <string>
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#include <cmath>
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#include <stdlib.h>
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#include <sys/types.h>
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#include <sys/stat.h>
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#include <fcntl.h>
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#include <errno.h>
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#include "sparsesmat.h"
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2009-11-12 22:01:19 +01:00
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namespace LA {
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2010-01-07 17:10:12 +01:00
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//dense times sparse (not necessarily symmetric)
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template <typename T>
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2010-01-11 11:12:28 +01:00
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SparseSMat<T> NRMat<T>::operator*(const SparseSMat<T> &rhs) const
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2010-01-07 17:10:12 +01:00
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{
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SparseSMat<T> r(nn,rhs.ncols());
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if(mm!=rhs.nrows()) laerror("incompatible sizes in NRMat*SparseSMat");
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2010-01-11 11:12:28 +01:00
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for(SPMatindex k=0; k<mm; ++k) //summation loop
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2010-01-07 17:10:12 +01:00
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{
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std::map<SPMatindex,T> * kl = rhs.line(k);
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if(kl)
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{
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//gather the data
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typename std::map<SPMatindex,T>::iterator p;
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int i,j;
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NRVec<T> kline(kl->size());
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NRVec<SPMatindex> klineind(kl->size());
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for(p=kl->begin(), i=0; p!=kl->end(); ++p,++i)
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{
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klineind[i] = p->first;
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kline[i] = p->second;
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}
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NRVec<T> kcol = column(k);
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//multiply
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NRMat<T> prod=kcol.otimes(kline,false,1.);
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//scatter the results
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for(i=0; i<prod.nrows(); ++i) for(j=0; j<prod.ncols(); ++j)
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add(i,klineind[j],prod(i,j),false);
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}
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}
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r.simplify();
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return r;
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}
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//matrix is assummed symmetric, no transposition, but possibly make conjugation
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2009-11-11 23:07:25 +01:00
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template <typename T>
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void SparseSMat<T>::gemm(const T beta, const SparseSMat &a, const char transa, const SparseSMat &b, const char transb, const T alpha)
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{
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(*this) *= beta;
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if(alpha==(T)0) return;
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2010-01-11 11:12:28 +01:00
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if(a.nn!=a.mm || b.nn!=b.mm || nn!=mm) laerror("SparseSMat::gemm implemented only for square symmetric matrices");
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2009-11-11 23:07:25 +01:00
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if(a.nn!=b.nn || a.nn!=nn) laerror("incompatible sizes in SparseSMat::gemm");
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copyonwrite();
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for(SPMatindex k=0; k<nn; ++k) //summation loop
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if(a.v[k] && b.v[k]) //nonempty in both
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{
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NRVec<T> av(a.v[k]->size());
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NRVec<T> bv(b.v[k]->size());
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NRVec<SPMatindex> ai(a.v[k]->size());
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NRVec<SPMatindex> bi(b.v[k]->size());
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//gather the data
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typename std::map<SPMatindex,T>::iterator p;
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int i,j;
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2010-01-07 17:10:12 +01:00
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if(tolower(transa)=='c')
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for(p=a.v[k]->begin(), i=0; p!=a.v[k]->end(); ++p,++i) { ai[i] = p->first; av[i] = LA_traits<T>::conjugate(p->second); }
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else
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for(p=a.v[k]->begin(), i=0; p!=a.v[k]->end(); ++p,++i) { ai[i] = p->first; av[i] = p->second; }
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2010-01-11 11:12:28 +01:00
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for(p=b.v[k]->begin(), i=0; p!=b.v[k]->end(); ++p,++i) { bi[i] = p->first; bv[i] = p->second; }
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2009-11-11 23:07:25 +01:00
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//make multiply via blas
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2010-01-11 11:12:28 +01:00
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NRMat<T> prod=av.otimes(bv,tolower(transb)=='c',alpha);
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2009-11-11 23:07:25 +01:00
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2009-11-12 12:09:30 +01:00
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//scatter the results -- probably the computational bottleneck
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2009-11-11 23:07:25 +01:00
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for(i=0; i<prod.nrows(); ++i) for(j=0; j<prod.ncols(); ++j)
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add(ai[i],bi[j],prod(i,j),false);
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}
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2009-11-12 22:01:19 +01:00
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simplify();
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2009-11-11 23:07:25 +01:00
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}
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template <class T>
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SparseSMat<T> & SparseSMat<T>::operator*=(const T &a)
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{
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if(!count) laerror("operator*= on undefined lhs");
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if(a==(T)1) return *this;
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if(a==(T)0) {clear(); return *this;}
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copyonwrite();
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for(SPMatindex i=0; i<nn; ++i) if(v[i])
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{
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typename std::map<SPMatindex,T>::iterator p;
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for(p=v[i]->begin(); p!=v[i]->end(); ++p) p->second *= a;
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}
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return *this;
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}
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2009-11-12 12:09:30 +01:00
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template <class T>
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void SparseSMat<T>::axpy(const T alpha, const SparseSMat &x, const bool transp)
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{
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2010-01-11 11:12:28 +01:00
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if(nn!=x.nn || mm!=x.mm) laerror("incompatible matrix dimensions in SparseSMat::axpy");
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2009-11-12 12:09:30 +01:00
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if(alpha==(T)0) return;
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copyonwrite();
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for(SPMatindex i=0; i<nn; ++i) if(x.v[i])
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{
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if(!v[i]) v[i] = new std::map<SPMatindex,T>;
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2010-01-07 17:10:12 +01:00
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typename std::map<SPMatindex,T>::iterator p,q;
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for(p=x.v[i]->begin(); p!=x.v[i]->end(); ++p)
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{
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q=v[i]->find(p->first);
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if(q!=v[i]->end()) q->second += p->second * alpha;
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else (*v[i])[p->first] = p->second * alpha;
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}
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2009-11-12 12:09:30 +01:00
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}
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2009-11-12 13:34:32 +01:00
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simplify();
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2009-11-12 12:09:30 +01:00
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}
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template <class T>
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void SparseSMat<T>::gemv(const T beta, NRVec<T> &r, const char trans, const T alpha, const NRVec<T> &x) const
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{
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2010-01-11 11:12:28 +01:00
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if(nn!=r.size() || mm!= x.size()) laerror("incompatible matrix vector dimensions in SparseSMat::gemv");
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2010-01-17 21:28:38 +01:00
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if(tolower(trans)!='n') laerror("transposition not implemented yet in SparseSMat::gemv");
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2009-11-12 12:09:30 +01:00
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r *= beta;
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if(alpha == (T)0) return;
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r.copyonwrite();
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for(SPMatindex i=0; i<nn; ++i) if(v[i])
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{
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typename std::map<SPMatindex,T>::iterator p;
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for(p=v[i]->begin(); p!=v[i]->end(); ++p) r[i] += x[p->first] * p->second * alpha ;
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}
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}
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2009-11-11 23:07:25 +01:00
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2009-11-12 13:34:32 +01:00
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template <class T>
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SparseSMat<T> & SparseSMat<T>::operator=(const T &a)
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{
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clear();
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for(SPMatindex i=0; i<nn; ++i)
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{
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if(!v[i]) v[i] = new std::map<SPMatindex,T>;
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(*v[i])[i] = a;
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}
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return *this;
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}
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template <class T>
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SparseSMat<T> & SparseSMat<T>::operator+=(const T &a)
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{
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copyonwrite();
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for(SPMatindex i=0; i<nn; ++i)
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{
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if(v[i])
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{
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typename std::map<SPMatindex,T>::iterator p;
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p= v[i]->find(i);
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if(p!=v[i]->end()) p->second+=a; else (*v[i])[i] = a;
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}
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else {v[i] = new std::map<SPMatindex,T>; (*v[i])[i] = a;}
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}
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return *this;
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}
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template <class T>
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SparseSMat<T> & SparseSMat<T>::operator-=(const T &a)
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{
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copyonwrite();
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for(SPMatindex i=0; i<nn; ++i)
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{
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if(v[i])
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{
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typename std::map<SPMatindex,T>::iterator p;
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p= v[i]->find(i);
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if(p!=v[i]->end()) p->second-=a; else (*v[i])[i] = -a;
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}
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else {v[i] = new std::map<SPMatindex,T>; (*v[i])[i] = -a;}
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}
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return *this;
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}
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2010-01-07 17:10:12 +01:00
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2009-11-12 13:34:32 +01:00
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template <class T>
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typename LA_traits<T>::normtype SparseSMat<T>::norm(const T scalar) const
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{
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typename LA_traits<T>::normtype sum=0;
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for(SPMatindex i=0; i<nn; ++i)
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2010-01-07 17:10:12 +01:00
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if(v[i]) //line present
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2009-11-12 13:34:32 +01:00
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{
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typename std::map<SPMatindex,T>::iterator p;
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2010-01-07 17:10:12 +01:00
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bool diagonal_present=false;
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for(p=v[i]->begin(); p!=v[i]->end(); ++p) //loop over all existing elements
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{
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if(i==p->first) {diagonal_present=true; sum += LA_traits<T>::sqrabs(p->second - scalar);}
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else sum += LA_traits<T>::sqrabs(p->second);
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}
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if(!diagonal_present) sum += LA_traits<T>::sqrabs(scalar); //there was zero on the diagonal
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2009-11-12 13:34:32 +01:00
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}
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2010-01-07 17:10:12 +01:00
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else sum += LA_traits<T>::sqrabs(scalar); //missing whole line, subtracted diagonal element contributes
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2009-11-12 13:34:32 +01:00
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2009-11-12 22:01:19 +01:00
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return std::sqrt(sum);
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2009-11-12 13:34:32 +01:00
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}
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2010-01-07 17:10:12 +01:00
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//get diagonal, do not construct a new object, but store in existing one
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template <class T>
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const T* SparseSMat<T>::diagonalof(NRVec<T> &r, const bool divide, bool cache) const
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{
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2010-01-11 11:12:28 +01:00
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if(nn!=mm) laerror("non-square matrix in SparseSMat::diagonalof");
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2010-01-07 17:10:12 +01:00
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if(nn!=r.size()) laerror("incompatible vector size in diagonalof()");
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NRVec<T> *rr;
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r.copyonwrite();
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if(divide) {rr=new NRVec<T>(nn); *rr=(T)0;}
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else {r=(T)0; rr=&r;}
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for(SPMatindex i=0; i<nn; ++i)
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if(v[i])
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{
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typename std::map<SPMatindex,T>::iterator p;
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p= v[i]->find(i);
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if(p!=v[i]->end()) (*rr)[i] += p->second;
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}
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if(divide)
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{
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for(unsigned int i=0; i<nn; ++i) if((*rr)[i]!=0.) r[i]/=(*rr)[i];
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delete rr;
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}
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return divide?NULL:&r[0];
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}
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template <class T>
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void SparseSMat<T>::get(int fd, bool dimen, bool transp) {
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errno=0;
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SPMatindex dim[2];
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if(dimen) {
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if(2*sizeof(SPMatindex)!=read(fd,&dim,2*sizeof(SPMatindex))) laerror("read() error in SparseSMat::get ");
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2010-01-11 11:12:28 +01:00
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resize(dim[0],dim[1]);
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2010-01-07 17:10:12 +01:00
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}
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else copyonwrite();
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do {
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if(2*sizeof(SPMatindex)!=read(fd,&dim,2*sizeof(SPMatindex))) laerror("read() error 2 in SparseSMat::get");
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if(dim[0]==(SPMatindex) -1 || dim[1]==(SPMatindex) -1) break;
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typename LA_traits_io<T>::IOtype tmp;
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LA_traits<T>::get(fd,tmp,dimen,transp); // general way to work when elem is some complex class again
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if(transp) add(dim[0],dim[1],tmp,false); else add(dim[1],dim[0],tmp,false);
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}
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while(1);
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}
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template <class T>
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void SparseSMat<T>::put(int fd, bool dimen, bool transp) const {
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errno=0;
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if(dimen) {
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if(sizeof(SPMatindex)!=write(fd,&nn,sizeof(SPMatindex))) laerror("cannot write() 1 in SparseSMat::put");
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2010-01-11 11:12:28 +01:00
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if(sizeof(SPMatindex)!=write(fd,&mm,sizeof(SPMatindex))) laerror("cannot write() 2 in SparseSMat::put");
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2010-01-07 17:10:12 +01:00
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}
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typename SparseSMat<T>::iterator p(*this);
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for(; p.notend(); ++p) {
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if(sizeof(SPMatindex)!=write(fd,&(p->row),sizeof(SPMatindex))) laerror("cannot write() 3 in SparseSMat::put");
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if(sizeof(SPMatindex)!=write(fd,&(p->col),sizeof(SPMatindex))) laerror("cannot write() 4 in SparseSMat::put");
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typename LA_traits_io<T>::IOtype tmp = p->elem;
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LA_traits<T>::put(fd,tmp,dimen,transp); // general way to work when elem is some non-scalar class again
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}
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SPMatindex sentinel[2];
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sentinel[0] = sentinel[1] = (SPMatindex) -1;
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if(2*sizeof(SPMatindex) != write(fd,&sentinel,2*sizeof(SPMatindex))) laerror("cannot write() 5 in SparseSMat::put");
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}
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2009-11-12 13:34:32 +01:00
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2009-11-11 23:07:25 +01:00
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#define INSTANTIZE(T) \
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template void SparseSMat<T>::gemm(const T beta, const SparseSMat &a, const char transa, const SparseSMat &b, const char transb, const T alpha); \
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template SparseSMat<T> & SparseSMat<T>::operator*=(const T &a); \
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2009-11-12 12:09:30 +01:00
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template void SparseSMat<T>::gemv(const T beta, NRVec<T> &r, const char trans, const T alpha, const NRVec<T> &x) const; \
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template void SparseSMat<T>::axpy(const T alpha, const SparseSMat &x, const bool transp); \
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2009-11-12 13:34:32 +01:00
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template SparseSMat<T> & SparseSMat<T>::operator=(const T &a); \
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template SparseSMat<T> & SparseSMat<T>::operator+=(const T &a); \
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template SparseSMat<T> & SparseSMat<T>::operator-=(const T &a); \
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template LA_traits<T>::normtype SparseSMat<T>::norm(const T scalar) const; \
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2010-01-07 17:10:12 +01:00
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template const T* SparseSMat<T>::diagonalof(NRVec<T> &r, const bool divide, bool cache) const; \
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template void SparseSMat<T>::get(int fd, bool dimen, bool transp); \
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template void SparseSMat<T>::put(int fd, bool dimen, bool transp) const; \
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2009-11-12 12:09:30 +01:00
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2009-11-11 23:07:25 +01:00
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INSTANTIZE(double)
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INSTANTIZE(complex<double>)
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//// forced instantization of functions in the header in the corresponding object file
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template class SparseSMat<double>;
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template class SparseSMat<complex<double> >;
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2010-01-07 17:10:12 +01:00
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/*activate this if needed
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template void SparseSMat<NRMat<double> >::put(int fd, bool dimen, bool transp) const;
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template void SparseSMat<NRMat<double> >::get(int fd, bool dimen, bool transp);
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*/
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2009-11-12 22:01:19 +01:00
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}//namespace
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