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tnt_array1d.h
/*
*
* Template Numerical Toolkit (TNT)
*
* Mathematical and Computational Sciences Division
* National Institute of Technology,
* Gaithersburg, MD USA
*
*
* This software was developed at the National Institute of Standards and
* Technology (NIST) by employees of the Federal Government in the course
* of their official duties. Pursuant to title 17 Section 105 of the
* United States Code, this software is not subject to copyright protection
* and is in the public domain. NIST assumes no responsibility whatsoever for
* its use by other parties, and makes no guarantees, expressed or implied,
* about its quality, reliability, or any other characteristic.
*
*/



#ifndef TNT_ARRAY1D_H
#define TNT_ARRAY1D_H

//#include <cstdlib>
#include <iostream>

#ifdef TNT_BOUNDS_CHECK
#include <assert.h>
#endif


#include "tnt_i_refvec.h"

namespace TNT
{

template <class T>
00039 class Array1D 
{

  private:

        /* ... */
    i_refvec<T> v_;
    int n_;
    T* data_;                       /* this normally points to v_.begin(), but
                             * could also point to a portion (subvector)
                                           * of v_.
                            */

    void copy_(T* p, const T*  q, int len) const;
    void set_(T* begin,  T* end, const T& val);
 

  public:

    typedef         T   value_type;


               Array1D();
      explicit Array1D(int n);
               Array1D(int n, const T &a);
               Array1D(int n,  T *a);
    inline   Array1D(const Array1D &A);
      inline   operator T*();
      inline   operator const T*();
      inline   Array1D & operator=(const T &a);
      inline   Array1D & operator=(const Array1D &A);
      inline   Array1D & ref(const Array1D &A);
               Array1D copy() const;
                 Array1D & inject(const Array1D & A);
      inline   T& operator[](int i);
      inline   const T& operator[](int i) const;
      inline       int dim1() const;
      inline   int dim() const;
              ~Array1D();


      /* ... extended interface ... */

      inline int ref_count() const;
      inline Array1D<T> subarray(int i0, int i1);

};




template <class T>
Array1D<T>::Array1D() : v_(), n_(0), data_(0) {}

template <class T>
Array1D<T>::Array1D(const Array1D<T> &A) : v_(A.v_),  n_(A.n_), 
            data_(A.data_)
{
#ifdef TNT_DEBUG
      std::cout << "Created Array1D(const Array1D<T> &A) \n";
#endif

}


template <class T>
Array1D<T>::Array1D(int n) : v_(n), n_(n), data_(v_.begin())
{
#ifdef TNT_DEBUG
      std::cout << "Created Array1D(int n) \n";
#endif
}

template <class T>
Array1D<T>::Array1D(int n, const T &val) : v_(n), n_(n), data_(v_.begin()) 
{
#ifdef TNT_DEBUG
      std::cout << "Created Array1D(int n, const T& val) \n";
#endif
      set_(data_, data_+ n, val);

}

template <class T>
Array1D<T>::Array1D(int n, T *a) : v_(a), n_(n) , data_(v_.begin())
{
#ifdef TNT_DEBUG
      std::cout << "Created Array1D(int n, T* a) \n";
#endif
}

template <class T>
inline Array1D<T>::operator T*()
{
      return &(v_[0]);
}


template <class T>
inline Array1D<T>::operator const T*()
{
      return &(v_[0]);
}



template <class T>
inline T& Array1D<T>::operator[](int i) 
{ 
#ifdef TNT_BOUNDS_CHECK
      assert(i>= 0);
      assert(i < n_);
#endif
      return data_[i]; 
}

template <class T>
inline const T& Array1D<T>::operator[](int i) const 
{ 
#ifdef TNT_BOUNDS_CHECK
      assert(i>= 0);
      assert(i < n_);
#endif
      return data_[i]; 
}


      

template <class T>
Array1D<T> & Array1D<T>::operator=(const T &a)
{
      set_(data_, data_+n_, a);
      return *this;
}

template <class T>
Array1D<T> Array1D<T>::copy() const
{
      Array1D A( n_);
      copy_(A.data_, data_, n_);

      return A;
}


template <class T>
Array1D<T> & Array1D<T>::inject(const Array1D &A)
{
      if (A.n_ == n_)
            copy_(data_, A.data_, n_);

      return *this;
}





template <class T>
Array1D<T> & Array1D<T>::ref(const Array1D<T> &A)
{
      if (this != &A)
      {
            v_ = A.v_;        /* operator= handles the reference counting. */
            n_ = A.n_;
            data_ = A.data_; 
            
      }
      return *this;
}

template <class T>
Array1D<T> & Array1D<T>::operator=(const Array1D<T> &A)
{
      return ref(A);
}

template <class T>
inline int Array1D<T>::dim1() const { return n_; }

template <class T>
inline int Array1D<T>::dim() const { return n_; }

template <class T>
Array1D<T>::~Array1D() {}


/* ............................ exented interface ......................*/

template <class T>
inline int Array1D<T>::ref_count() const
{
      return v_.ref_count();
}

template <class T>
inline Array1D<T> Array1D<T>::subarray(int i0, int i1)
{
      if ((i0 > 0) && (i1 < n_) || (i0 <= i1))
      {
            Array1D<T> X(*this);  /* create a new instance of this array. */
            X.n_ = i1-i0+1;
            X.data_ += i0;

            return X;
      }
      else
      {
            return Array1D<T>();
      }
}


/* private internal functions */


template <class T>
void Array1D<T>::set_(T* begin, T* end, const T& a)
{
      for (T* p=begin; p<end; p++)
            *p = a;

}

template <class T>
void Array1D<T>::copy_(T* p, const T* q, int len) const
{
      T *end = p + len;
      while (p<end )
            *p++ = *q++;

}


} /* namespace TNT */

#endif
/* TNT_ARRAY1D_H */


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