Portable Half-Life SDK. GoldSource and Xash3D. Crossplatform.
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// -*- c++ -*-
/*
* MICO --- a free CORBA implementation
* Copyright (C) 1997-98 Kay Roemer & Arno Puder
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
* Send comments and/or bug reports to:
* mico@informatik.uni-frankfurt.de
*/
#ifndef __ministl_simplevec_h__
#define __ministl_simplevec_h__
#include <ministl/ministl.h>
#ifndef __GNUG__
#include <ministl/bool.h>
#endif
#include <ministl/defalloc.h>
template<class T>
class simplevec {
public:
typedef T* iterator;
typedef const T* const_iterator;
typedef unsigned long size_type;
private:
size_type _last, _size;
T *_buf;
public:
const_iterator begin () const
{
return &_buf[0];
}
iterator begin ()
{
return &_buf[0];
}
const_iterator end () const
{
return &_buf[_last];
}
iterator end ()
{
return &_buf[_last];
}
size_type capacity () const
{
return _size;
}
size_type size () const
{
return _last;
}
private:
static T *alloc (size_type n)
{
return (T *)::operator new ((size_t)(n * sizeof (T)));
}
static void dealloc (T *buf)
{
if (buf)
::operator delete (buf);
}
void reserve (iterator where, size_type n)
{
if (_last + n <= _size) {
memmove (where+n, where, (end()-where)*sizeof(T));
} else {
long sz = _last+n;
sz = (_size == 0) ? _max_(sz, 5) : _max_(sz, 2*_size);
T *nbuf = alloc (sz);
if (_buf) {
memcpy (nbuf, begin(), (where-begin())*sizeof(T));
memcpy (nbuf + (where-begin()) + n, where,
(end()-where)*sizeof(T));
dealloc (_buf);
}
_buf = nbuf;
_size = sz;
}
}
public:
void reserve (size_type sz)
{
if (_size < sz) {
sz = (_size == 0) ? _max_(sz, 5) : _max_(sz, 2*_size);
T *nbuf = alloc (sz);
if (_buf) {
memcpy (nbuf, begin(), size()*sizeof(T));
dealloc (_buf);
}
_buf = nbuf;
_size = sz;
}
}
simplevec ()
: _last (0), _size (0), _buf (0)
{
}
simplevec (size_type n, const T& t = T())
: _last (0), _size (0), _buf (0)
{
insert (begin(), n, t);
}
simplevec (const_iterator first, const_iterator last)
: _last (0), _size (0), _buf (0)
{
insert (begin(), first, last);
}
simplevec (const simplevec<T> &v)
: _last (0), _size (0), _buf (0)
{
reserve (v._last);
memcpy (_buf, v.begin(), v.size()*sizeof(T));
_last = v._last;
}
simplevec<T> &operator= (const simplevec<T> &v)
{
if (this != &v) {
_last = 0;
reserve (v._last);
memcpy (_buf, v.begin(), v.size()*sizeof(T));
_last = v._last;
}
return *this;
}
~simplevec ()
{
dealloc (_buf);
}
const T &front () const
{
//ministl_assert (size() > 0);
return _buf[0];
}
T &front ()
{
//ministl_assert (size() > 0);
return _buf[0];
}
const T &back () const
{
//ministl_assert (size() > 0);
return _buf[_last-1];
}
T &back ()
{
//ministl_assert (size() > 0);
return _buf[_last-1];
}
bool empty () const
{
return _last == 0;
}
void clear ()
{
_last = 0;
}
void push_back (const T &t)
{
reserve (_last+1);
*end() = t;
++_last;
}
void pop_back ()
{
//ministl_assert (size() > 0);
--_last;
}
const T &operator[] (size_type idx) const
{
//ministl_assert (idx < size());
return _buf[idx];
}
T &operator[] (size_type idx)
{
//ministl_assert (idx < size());
return _buf[idx];
}
iterator insert (iterator pos, const T &t)
{
//ministl_assert (pos <= end());
long at = pos - begin();
reserve (pos, 1);
pos = begin()+at;
*pos = t;
++_last;
return pos;
}
iterator insert (iterator pos, const_iterator first, const_iterator last)
{
//ministl_assert (pos <= end());
long n = last - first;
long at = pos - begin();
if (n > 0) {
reserve (pos, n);
pos = begin()+at;
memcpy (pos, first, (last-first)*sizeof(T));
_last += n;
}
return pos;
}
iterator insert (iterator pos, size_type n, const T &t)
{
//ministl_assert (pos <= end());
long at = pos - begin();
if (n > 0) {
reserve (pos, n);
pos = begin()+at;
for (int i = 0; i < n; ++i)
pos[i] = t;
_last += n;
}
return pos;
}
void erase (iterator first, iterator last)
{
if (last != first) {
memmove (first, last, (end()-last)*sizeof(T));
_last -= last - first;
}
}
void erase (iterator pos)
{
if (pos != end()) {
memmove (pos, pos+1, (end()-(pos+1))*sizeof(T));
--_last;
}
}
};
template<class T>
bool operator== (const simplevec<T> &v1, const simplevec<T> &v2)
{
if (v1.size() != v2.size())
return false;
return !v1.size() || !memcmp (&v1[0], &v2[0], v1.size()*sizeof(T));
}
template<class T>
bool operator< (const simplevec<T> &v1, const simplevec<T> &v2)
{
unsigned long minlast = _min_ (v1.size(), v2.size());
for (unsigned long i = 0; i < minlast; ++i) {
if (v1[i] < v2[i])
return true;
if (v2[i] < v1[i])
return false;
}
return v1.size() < v2.size();
}
#endif