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This commit is contained in:
jiri 2009-11-11 19:00:13 +00:00
parent 344a4f4764
commit b7d1d691b7

View File

@ -30,6 +30,7 @@
#include "sparsemat.h" #include "sparsemat.h"
#include "vec.h" #include "vec.h"
#include "mat.h" #include "mat.h"
#include "smat.h"
#include <map> #include <map>
#include <list> #include <list>
@ -52,11 +53,13 @@ public:
SparseSMat(const SPMatindex n); SparseSMat(const SPMatindex n);
SparseSMat(const SparseSMat &rhs); SparseSMat(const SparseSMat &rhs);
SparseSMat(const SparseMat<T> &rhs); SparseSMat(const SparseMat<T> &rhs);
SparseSMat(const NRSMat<T> &rhs);
SparseSMat & operator=(const SparseSMat &rhs); SparseSMat & operator=(const SparseSMat &rhs);
void copyonwrite(); void copyonwrite();
void clear(); void resize(const SPMatindex n);
void clear() {resize(nn);}
void simplify(); void simplify();
~SparseSMat() {clear();}; ~SparseSMat();
// //
SparseSMat & operator=(const T a); //assign a to diagonal SparseSMat & operator=(const T a); //assign a to diagonal
SparseSMat & operator+=(const T a); //assign a to diagonal SparseSMat & operator+=(const T a); //assign a to diagonal
@ -65,11 +68,72 @@ public:
SparseSMat & operator+=(const SparseSMat &rhs); SparseSMat & operator+=(const SparseSMat &rhs);
SparseSMat & operator-=(const SparseSMat &rhs); SparseSMat & operator-=(const SparseSMat &rhs);
void gemv(const T beta, NRVec<T> &r, const char trans, const T alpha, const NRVec<T> &x) const; void gemv(const T beta, NRVec<T> &r, const char trans, const T alpha, const NRVec<T> &x) const;
void gemm(const T beta, const SparseSMat &a, const char transa, const SparseSMat &b, const char transb, const T alpha); const SparseSMat operator*(const SparseSMat &rhs) const; //!!!NOT A GENERAL ROUTINE, JUST FOR THE CASES WHEN THE RESULT STAYS SYMMETRIC
const SparseSMat operator*(const SparseSMat &rhs) const;
const typename LA_traits<T>::normtype norm(const T scalar=(T)0) const; const typename LA_traits<T>::normtype norm(const T scalar=(T)0) const;
void add(const SPMatindex n, const SPMatindex m, const T elem); void add(const SPMatindex n, const SPMatindex m, const T elem, const bool both=true);
unsigned int length() const; unsigned int length() const;
int nrows() const {return nn;}
int ncols() const {return nn;}
class iterator {//not efficient, just for output to ostreams
private:
matel<T> *p;
matel<T> my;
SPMatindex row;
typename std::map<SPMatindex,T>::iterator *col;
typename std::map<SPMatindex,T>::iterator mycol;
SPMatindex mynn;
std::map<SPMatindex,T> **myv;
public:
//compiler-generated iterator & operator=(const iterator &rhs);
//compiler-generated iterator(const iterator &rhs);
iterator(): p(NULL),row(0),col(NULL),mynn(0),myv(NULL) {};
iterator(const SparseSMat &rhs) : mynn(rhs.nn), myv(rhs.v), col(NULL) {row=0; p= &my; operator++();}
iterator operator++() {
if(col) //finish column list
{
++mycol;
if(mycol != myv[row]->end())
{
p->row = row;
p->col = mycol->first;
p->elem = mycol->second;
return *this;
}
else
{
col=NULL;
++row; if(row==mynn) {p=NULL; return *this;} //end()
}
}
nextrow:
while(myv[row]==NULL) {++row; if(row==mynn) {p=NULL; return *this;}} //end()
//we are at next nonempty row
col = &mycol;
mycol = myv[row]->begin();
if(mycol == myv[row]->end()) {col=NULL;
++row;
if(row==mynn) {p=NULL; return *this;} else goto nextrow;
}
//first column of new row
p->row = row;
p->col = mycol->first;
p->elem = mycol->second;
return *this;
};
iterator(matel<T> *q) {p=q; col=NULL;}//just for end()
//compiler-generated ~iterator() {};
bool operator!=(const iterator &rhs) const {return p!=rhs.p;} //only for comparison with end()
bool operator==(const iterator &rhs) const {return p==rhs.p;} //only for comparison with end()
matel<T> & operator*() const {return *p;}
matel<T> * operator->() const {return p;}
bool notend() const {return (bool)p;};
};
iterator begin() const {return iterator(*this);}
iterator end() const {return iterator(NULL);}
}; };
template <typename T> template <typename T>
@ -92,13 +156,13 @@ if(count) (*count)++;
template <typename T> template <typename T>
void SparseSMat<T>::clear() SparseSMat<T>::~SparseSMat()
{ {
if(!count) return; if(!count) return;
if(--(*count) <= 0) { if(--(*count) <= 0) {
if(v) if(v)
{ {
for(SPMatindex i=0; i<nn; ++i) if(v[i]) delete[] v[i]; for(SPMatindex i=0; i<nn; ++i) if(v[i]) delete v[i];
delete[] (v); delete[] (v);
} }
delete count; delete count;
@ -106,6 +170,43 @@ void SparseSMat<T>::clear()
} }
template <typename T>
void SparseSMat<T>::resize(const SPMatindex n)
{
if(!count)
{
if(n==0) return;
count = new int(1);
nn=n;
v= new std::map<SPMatindex,T> * [nn];
for(SPMatindex i=0; i<nn; ++i) v[i]=NULL;
return;
}
if(*count > 1) //it was shared
{
(*count)--;
if(n)
{
count = new int(1);
nn=n;
v= new std::map<SPMatindex,T> * [nn];
for(SPMatindex i=0; i<nn; ++i) v[i]=NULL;
}
else {v=NULL; nn=0; count=NULL;}
}
else //it was not shared
{
//delete all trees
for(SPMatindex i=0; i<nn; ++i) if(v[i]) {delete[] v[i]; v[i]=NULL;}
if(n!=nn)
{
nn=n;
for(SPMatindex i=0; i<nn; ++i) v[i]=NULL;
}
}
}
template <typename T> template <typename T>
SparseSMat<T> & SparseSMat<T>::operator=(const SparseSMat &rhs) SparseSMat<T> & SparseSMat<T>::operator=(const SparseSMat &rhs)
@ -150,7 +251,7 @@ void SparseSMat<T>::copyonwrite()
template <typename T> template <typename T>
void SparseSMat<T>::add(const SPMatindex n, const SPMatindex m, const T elem) void SparseSMat<T>::add(const SPMatindex n, const SPMatindex m, const T elem, const bool both)
{ {
#ifdef DEBUG #ifdef DEBUG
if(n>=nn || m>=nn) laerror("illegal index in SparseSMat::add()"); if(n>=nn || m>=nn) laerror("illegal index in SparseSMat::add()");
@ -162,7 +263,7 @@ typename std::map<SPMatindex,T>::iterator p;
p= v[n]->find(m); p= v[n]->find(m);
if(p!=v[n]->end()) p->second+=elem; else (*v[n])[m] = elem; if(p!=v[n]->end()) p->second+=elem; else (*v[n])[m] = elem;
if(n!=m) if(n!=m && both) //add also transposed
{ {
p= v[m]->find(n); p= v[m]->find(n);
if(p!=v[m]->end()) p->second+=elem; else (*v[m])[n] = elem; if(p!=v[m]->end()) p->second+=elem; else (*v[m])[n] = elem;
@ -188,5 +289,46 @@ for(SPMatindex i=0; i<nn; ++i) if(v[i])
} }
} }
template <typename T>
std::ostream & operator<<(std::ostream &s, const SparseSMat<T> &x)
{
SPMatindex n;
n = x.nrows();
s << n << " "<< n<< std::endl;
typename SparseSMat<T>::iterator p(x);
for(;
p.notend();
++p)
s << (int)p->row << ' ' << (int)p->col << ' ' << (typename LA_traits_io<T>::IOtype) p->elem << '\n';
s << "-1 -1\n";
return s;
}
template <class T>
std::istream& operator>>(std::istream &s, SparseSMat<T> &x)
{
SPMatindex n,m;
long i,j;
s >> n >> m;
if(n!=m) laerror("SparseSMat must be square");
x.resize(n);
s >> i >> j;
typename LA_traits_io<T>::IOtype tmp;
while(i>=0 && j>=0)
{
s>>tmp;
x.add(i,j,tmp,false);
s >> i >> j;
}
return s;
}
#endif //_SPARSESMAT_H_ #endif //_SPARSESMAT_H_