www.pudn.com > Lapackpp1_1a.zip > lavi.h
// LAPACK++ (V. 1.1)
// (C) 1992-1996 All Rights Reserved.
#ifndef _LA_VECTOR_INT_H_
#define _LA_VECTOR_INT_H_
#include "lafnames.h"
#ifndef _LA_GEN_MAT_INT_H_
#include LA_GEN_MAT_INT_H
#endif
// a vector is simply an nx1 or 1xn, matrix, only that it can
// be constructed and accessed by a single dimension
class LaVectorInt: public LaGenMatInt
{
public:
inline LaVectorInt();
inline LaVectorInt(int);
inline LaVectorInt(int, int);
inline LaVectorInt(int*, int);
inline LaVectorInt(int*, int, int);
inline LaVectorInt(const LaGenMatInt&);
inline int size() const;
inline int inc() const;
inline LaIndex index() const;
inline int start() const;
inline int end() const;
inline LaVectorInt& ref(const LaGenMatInt &);
inline LaVectorInt& inject(const LaGenMatInt &);
inline LaVectorInt& copy(const LaGenMatInt &);
inline int& operator()(int i);
inline int& operator()(int i) const ;
inline LaVectorInt operator()(const LaIndex&);
inline LaVectorInt& operator=(int);
inline LaVectorInt& operator=(const LaGenMatInt&);
};
// NOTE: we default to column vectors, since matrices are column
// oriented.
inline LaVectorInt::LaVectorInt() : LaGenMatInt(0,1) {}
inline LaVectorInt::LaVectorInt(int i) : LaGenMatInt(i,1) {}
// NOTE: one shouldn't be using this method to initalize, but
// it is here so that the constructor can be overloaded with
// a runtime test.
//
inline LaVectorInt::LaVectorInt(int m, int n) : LaGenMatInt(m,n)
{
assert(n==1 || m==1);
}
inline LaVectorInt::LaVectorInt(int *d, int n) :
LaGenMatInt(d,n,1) {}
inline LaVectorInt::LaVectorInt(int *d, int n, int m) :
LaGenMatInt(d,n,m) {}
inline LaVectorInt::LaVectorInt(const LaGenMatInt &G)
{
assert(G.size(0)==1 || G.size(1)==1);
(*this).ref(G);
}
//note that vectors can be either stored columnwise, or row-wise
// this will handle the 0x0 case as well.
inline int LaVectorInt::size() const
{ return LaGenMatInt::size(0)*LaGenMatInt::size(1); }
inline int& LaVectorInt::operator()(int i)
{ if (LaGenMatInt::size(0)==1 )
return LaGenMatInt::operator()(0,i);
else
return LaGenMatInt::operator()(i,0);
}
inline int& LaVectorInt::operator()(int i) const
{ if (LaGenMatInt::size(0)==1 )
return LaGenMatInt::operator()(0,i);
else
return LaGenMatInt::operator()(i,0);
}
inline LaVectorInt LaVectorInt::operator()(const LaIndex& I)
{ if (LaGenMatInt::size(0)==1)
return LaGenMatInt::operator()(LaIndex(0,0),I);
else
return LaGenMatInt::operator()(I,LaIndex(0,0));
}
inline LaVectorInt& LaVectorInt::copy(const LaGenMatInt &A)
{
assert(A.size(0) == 1 || A.size(1) == 1); //make sure rhs is a
// a vector.
LaGenMatInt::copy(A);
return *this;
}
inline LaVectorInt& LaVectorInt::operator=(const LaGenMatInt &A)
{
return inject(A);
}
inline LaVectorInt& LaVectorInt::ref(const LaGenMatInt &A)
{
assert(A.size(0) == 1 || A.size(1) == 1);
LaGenMatInt::ref(A);
return *this;
}
inline LaVectorInt& LaVectorInt::operator=(int d)
{
LaGenMatInt::operator=(d);
return *this;
}
inline LaVectorInt& LaVectorInt::inject(const LaGenMatInt &A)
{
assert(A.size(0) == 1 || A.size(1) == 1);
LaGenMatInt::inject(A);
return *this;
}
inline int LaVectorInt::inc() const
{
if (LaGenMatInt::size(1)==1 )
return LaGenMatInt::inc(0);
else
return LaGenMatInt::inc(1);
}
inline LaIndex LaVectorInt::index() const
{
if (LaGenMatInt::size(1)==1 )
return LaGenMatInt::index(0);
else
return LaGenMatInt::index(1);
}
inline int LaVectorInt::start() const
{
if (LaGenMatInt::size(1)==1 )
return LaGenMatInt::start(0);
else
return LaGenMatInt::start(1);
}
inline int LaVectorInt::end() const
{
if (LaGenMatInt::size(1)==1 )
return LaGenMatInt::end(0);
else
return LaGenMatInt::end(1);
}
#endif
// _LA_VECTOR_INT_H_