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fe493fb636
AnalysisSystemForRadionucli.../include/armadillo_bits/podarray_meat.hpp
wanglong fe493fb636 Initial commit on main branch
2024-06-04 15:25:02 +08:00

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// Copyright (C) 2008-2012 National ICT Australia (NICTA)
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
// -------------------------------------------------------------------
//
// Written by Conrad Sanderson - http://conradsanderson.id.au
//! \addtogroup podarray
//! @{
template<typename eT>
arma_hot
inline
podarray<eT>::~podarray()
{
arma_extra_debug_sigprint_this(this);
if(n_elem > podarray_prealloc_n_elem::val )
{
memory::release( mem );
}
}
template<typename eT>
inline
podarray<eT>::podarray()
: n_elem(0)
, mem (0)
{
arma_extra_debug_sigprint_this(this);
}
template<typename eT>
inline
podarray<eT>::podarray(const podarray& x)
: n_elem(x.n_elem)
{
arma_extra_debug_sigprint();
const uword x_n_elem = x.n_elem;
init_cold(x_n_elem);
arrayops::copy( memptr(), x.memptr(), x_n_elem );
}
template<typename eT>
inline
const podarray<eT>&
podarray<eT>::operator=(const podarray& x)
{
arma_extra_debug_sigprint();
if(this != &x)
{
const uword x_n_elem = x.n_elem;
init_warm(x_n_elem);
arrayops::copy( memptr(), x.memptr(), x_n_elem );
}
return *this;
}
template<typename eT>
arma_hot
arma_inline
podarray<eT>::podarray(const uword new_n_elem)
: n_elem(new_n_elem)
{
arma_extra_debug_sigprint_this(this);
init_cold(new_n_elem);
}
template<typename eT>
arma_inline
podarray<eT>::podarray(const eT* X, const uword new_n_elem)
: n_elem(new_n_elem)
{
arma_extra_debug_sigprint_this(this);
init_cold(new_n_elem);
arrayops::copy( memptr(), X, new_n_elem );
}
template<typename eT>
template<typename T1>
inline
podarray<eT>::podarray(const Proxy<T1>& P)
: n_elem(P.get_n_elem())
{
arma_extra_debug_sigprint_this(this);
const uword P_n_elem = P.get_n_elem();
init_cold(P_n_elem);
eT* out_mem = (*this).memptr();
if(Proxy<T1>::prefer_at_accessor == false)
{
typename Proxy<T1>::ea_type A = P.get_ea();
uword i,j;
for(i=0, j=1; j < P_n_elem; i+=2, j+=2)
{
const eT val_i = A[i];
const eT val_j = A[j];
out_mem[i] = val_i;
out_mem[j] = val_j;
}
if(i < P_n_elem)
{
out_mem[i] = A[i];
}
}
else
{
const uword P_n_rows = P.get_n_rows();
const uword P_n_cols = P.get_n_cols();
if(P_n_rows != 1)
{
uword count = 0;
for(uword col=0; col < P_n_cols; ++col)
for(uword row=0; row < P_n_rows; ++row, ++count)
{
out_mem[count] = P.at(row,col);
}
}
else
{
for(uword col=0; col < P_n_cols; ++col)
{
out_mem[col] = P.at(0,col);
}
}
}
}
template<typename eT>
arma_inline
eT
podarray<eT>::operator[] (const uword i) const
{
return mem[i];
}
template<typename eT>
arma_inline
eT&
podarray<eT>::operator[] (const uword i)
{
return access::rw(mem[i]);
}
template<typename eT>
arma_inline
eT
podarray<eT>::operator() (const uword i) const
{
arma_debug_check( (i >= n_elem), "podarray::operator(): index out of bounds");
return mem[i];
}
template<typename eT>
arma_inline
eT&
podarray<eT>::operator() (const uword i)
{
arma_debug_check( (i >= n_elem), "podarray::operator(): index out of bounds");
return access::rw(mem[i]);
}
template<typename eT>
inline
void
podarray<eT>::set_min_size(const uword min_n_elem)
{
arma_extra_debug_sigprint();
if(min_n_elem > n_elem)
{
init_warm(min_n_elem);
}
}
template<typename eT>
inline
void
podarray<eT>::set_size(const uword new_n_elem)
{
arma_extra_debug_sigprint();
init_warm(new_n_elem);
}
template<typename eT>
inline
void
podarray<eT>::reset()
{
arma_extra_debug_sigprint();
init_warm(0);
}
template<typename eT>
inline
void
podarray<eT>::fill(const eT val)
{
arma_extra_debug_sigprint();
arrayops::inplace_set(memptr(), val, n_elem);
}
template<typename eT>
inline
void
podarray<eT>::zeros()
{
arma_extra_debug_sigprint();
arrayops::fill_zeros(memptr(), n_elem);
}
template<typename eT>
inline
void
podarray<eT>::zeros(const uword new_n_elem)
{
arma_extra_debug_sigprint();
init_warm(new_n_elem);
arrayops::fill_zeros(memptr(), n_elem);
}
template<typename eT>
arma_inline
eT*
podarray<eT>::memptr()
{
return mem;
}
template<typename eT>
arma_inline
const eT*
podarray<eT>::memptr() const
{
return mem;
}
template<typename eT>
arma_hot
inline
void
podarray<eT>::copy_row(const Mat<eT>& A, const uword row)
{
const uword cols = A.n_cols;
// note: this function assumes that the podarray has been set to the correct size beforehand
eT* out = memptr();
switch(cols)
{
default:
{
uword i,j;
for(i=0, j=1; j < cols; i+=2, j+=2)
{
const eT tmp_i = A.at(row, i);
const eT tmp_j = A.at(row, j);
out[i] = tmp_i;
out[j] = tmp_j;
}
if(i < cols)
{
out[i] = A.at(row, i);
}
}
break;
case 8: out[7] = A.at(row, 7);
case 7: out[6] = A.at(row, 6);
case 6: out[5] = A.at(row, 5);
case 5: out[4] = A.at(row, 4);
case 4: out[3] = A.at(row, 3);
case 3: out[2] = A.at(row, 2);
case 2: out[1] = A.at(row, 1);
case 1: out[0] = A.at(row, 0);
case 0: ;
}
}
template<typename eT>
arma_hot
inline
void
podarray<eT>::init_cold(const uword new_n_elem)
{
arma_extra_debug_sigprint();
if(new_n_elem <= podarray_prealloc_n_elem::val )
{
mem = mem_local;
}
else
{
mem = memory::acquire<eT>(new_n_elem);
}
}
template<typename eT>
inline
void
podarray<eT>::init_warm(const uword new_n_elem)
{
arma_extra_debug_sigprint();
if(n_elem == new_n_elem)
{
return;
}
if(n_elem > podarray_prealloc_n_elem::val )
{
memory::release( mem );
}
if(new_n_elem <= podarray_prealloc_n_elem::val )
{
mem = mem_local;
}
else
{
mem = memory::acquire<eT>(new_n_elem);
}
access::rw(n_elem) = new_n_elem;
}
//! @}
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