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[unix-history] / gnu / lib / libg++ / g++-include / gen / XPlex.ccP

// This may look like C code, but it is really -*- C++ -*-
/* 
Copyright (C) 1988 Free Software Foundation
   written by Doug Lea (dl@rocky.oswego.edu)
   based on code by Marc Shapiro (shapiro@sor.inria.fr)

This file is part of the GNU C++ Library.  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, 675 Mass Ave, Cambridge, MA 02139, USA.
*/

#ifdef __GNUG__
#pragma implementation
#endif
#include "<T>.XPlex.h"


<T>XPlex:: <T>XPlex()
{
 lo = fnc = 0;
 csize = DEFAULT_INITIAL_CAPACITY;
 <T>* data = new <T>[csize];
 set_cache(new <T>IChunk(data,  lo, lo, fnc, lo+csize));
 hd = ch;
}

<T>XPlex:: <T>XPlex(int chunksize)
{
 if (chunksize == 0) error("invalid constructor specification");
 lo = fnc = 0;
 if (chunksize > 0)
 {
   csize = chunksize;
   <T>* data = new <T>[csize];
   set_cache(new <T>IChunk(data,  lo, lo, fnc, csize));
   hd = ch;
 }
 else
 {
   csize = -chunksize;
   <T>* data = new <T>[csize];
   set_cache(new <T>IChunk(data,  chunksize, lo, fnc, fnc));
   hd = ch;
 }
}


<T>XPlex:: <T>XPlex(int l, int chunksize)
{
 if (chunksize == 0) error("invalid constructor specification");
 lo = fnc = l;
 if (chunksize > 0)
 {
   csize = chunksize;
   <T>* data = new <T>[csize];
   set_cache(new <T>IChunk(data,  lo, lo, fnc, csize+lo));
   hd = ch;
 }
 else
 {
   csize = -chunksize;
   <T>* data = new <T>[csize];
   set_cache(new <T>IChunk(data,  chunksize+lo, lo, fnc, fnc));
   hd = ch;
 }
}

void <T>XPlex::make_initial_chunks(int up)
{
 int need = fnc - lo;
 hd = 0;
 if (up)
 {
   int l = lo;
   do
   {
     int sz;
     if (need >= csize)
       sz = csize;
     else
       sz = need;
     <T>* data = new <T> [csize];
     <T>IChunk* h = new <T>IChunk(data,  l, l, l+sz, l+csize);
     if (hd != 0)
       h->link_to_next(hd);
     else
       hd = h;
     l += sz;
     need -= sz;
   } while (need > 0);
 }
 else
 {
   int hi = fnc;
   do
   {
     int sz;
     if (need >= csize)
       sz = csize;
     else
       sz = need;
     <T>* data = new <T> [csize];
     <T>IChunk* h = new <T>IChunk(data,  hi-csize, hi-sz, hi, hi);
     if (hd != 0)
       h->link_to_next(hd);
     hd = h;
     hi -= sz;
     need -= sz;
   } while (need > 0);
 }
 set_cache(hd);
}

<T>XPlex:: <T>XPlex(int l, int hi, const <T&> initval, int chunksize)
{
 lo = l;
 fnc = hi + 1;
 if (chunksize == 0)
 {
   csize = fnc - l;
   make_initial_chunks(1);
 }
 else if (chunksize < 0)
 {
   csize = -chunksize;
   make_initial_chunks(0);
 }
 else
 {
   csize = chunksize;
   make_initial_chunks(1);
 }
 fill(initval);
}

<T>XPlex::<T>XPlex(const <T>XPlex& a)
{
 lo = a.lo;
 fnc = a.fnc;
 csize = a.csize;
 make_initial_chunks();
 for (int i = a.low(); i < a.fence(); a.next(i)) (*this)[i] = a[i];
}

void <T>XPlex::operator= (const <T>XPlex& a)
{
 if (&a != this)
 {
   invalidate();
   lo = a.lo;
   fnc = a.fnc;
   csize = a.csize;
   make_initial_chunks();
   for (int i = a.low(); i < a.fence(); a.next(i)) (*this)[i] = a[i];
 }
}


void <T>XPlex::cache(int idx) const
{
 const <T>IChunk* tail = tl();
 const <T>IChunk* t = ch;
 while (idx >= t->fence_index())
 {
   if (t == tail) index_error();
   t = (t->next());
 }
 while (idx < t->low_index())
 {
   if (t == hd) index_error();
   t = (t->prev());
 }
 set_cache(t);
}


void <T>XPlex::cache(const <T>* p) const
{
 const <T>IChunk* old = ch;
 const <T>IChunk* t = ch;
 while (!t->actual_pointer(p))
 {
   t = (t->next());
   if (t == old) index_error();
 }
 set_cache(t);
}

int <T>XPlex::owns(Pix px) const
{
 <T>* p = (<T>*)px;
 const <T>IChunk* old = ch;
 const <T>IChunk* t = ch;
 while (!t->actual_pointer(p))
 {
   t = (t->next());
   if (t == old) { set_cache(t); return 0; }
 }
 set_cache(t);
 return 1;
}


<T>* <T>XPlex::dosucc(const <T>* p) const
{
 if (p == 0) return 0;
 const <T>IChunk* old = ch;
 const <T>IChunk* t = ch;

 while (!t->actual_pointer(p))
 {
   t = (t->next());
   if (t == old)  return 0;
 }
 int i = t->index_of(p) + 1;
 if (i >= fnc) return 0;
 if (i >= t->fence_index()) t = (t->next());
 set_cache(t);
 return (t->pointer_to(i));
}

<T>* <T>XPlex::dopred(const <T>* p) const
{
 if (p == 0) return 0;
 const <T>IChunk* old = ch;
 const <T>IChunk* t = ch;
 while (!t->actual_pointer(p))
 {
   t = (t->prev());
   if (t == old) return 0;
 }
 int i = t->index_of(p) - 1;
 if (i < lo) return 0;
 if (i < t->low_index()) t = (t->prev());
 set_cache(t);
 return (t->pointer_to(i));
}


int <T>XPlex::add_high(const <T&> elem)
{
 <T>IChunk* t = tl();
 if (!t->can_grow_high())
 {
   if (t-><T>IChunk::empty() && one_chunk())
     t->clear(fnc);
   else
   {
     <T>* data = new <T> [csize];
     t = (new <T>IChunk(data,  fnc, fnc, fnc,fnc+csize));
     t->link_to_prev(tl());
   }
 }
 *((t-><T>IChunk::grow_high())) = elem;
 set_cache(t);
 return fnc++;
}

int <T>XPlex::del_high ()
{
 if (empty()) empty_error();
 <T>IChunk* t = tl();
 t-><T>IChunk::shrink_high();
 if (t-><T>IChunk::empty() && !one_chunk())
 {
   <T>IChunk* pred = t->prev();
   del_chunk(t);
   t = pred;
 }
 set_cache(t);
 return --fnc - 1;
}

int <T>XPlex::add_low (const <T&> elem)
{
 <T>IChunk* t = hd;
 if (!t->can_grow_low())
 {
   if (t-><T>IChunk::empty() && one_chunk())
     t->cleardown(lo);
   else
   {
     <T>* data = new <T> [csize];
     hd = new <T>IChunk(data,  lo-csize, lo, lo, lo);
     hd->link_to_next(t);
     t = hd;
   }
 }
 *((t-><T>IChunk::grow_low())) = elem;
 set_cache(t);
 return --lo;
}


int <T>XPlex::del_low ()
{
 if (empty()) empty_error();
 <T>IChunk* t = hd;
 t-><T>IChunk::shrink_low();
 if (t-><T>IChunk::empty() && !one_chunk())
 {
   hd = t->next();
   del_chunk(t);
   t = hd;
 }
 set_cache(t);
 return ++lo;
}

void <T>XPlex::reverse()
{
 <T> tmp;
 int l = lo;
 int h = fnc - 1;
 <T>IChunk* loch = hd;
 <T>IChunk* hich = tl();
 while (l < h)
 {
   <T>* lptr = loch->pointer_to(l);
   <T>* hptr = hich->pointer_to(h);
   tmp = *lptr;
   *lptr = *hptr;
   *hptr = tmp;
   if (++l >= loch->fence_index()) loch = loch->next();
   if (--h < hich->low_index()) hich = hich->prev();
 }
}

void <T>XPlex::fill(const <T&> x)
{
 for (int i = lo; i < fnc; ++i) (*this)[i] = x;
}

void <T>XPlex::fill(const <T&> x, int l, int hi)
{
 for (int i = l; i <= hi; ++i) (*this)[i] = x;
}


void <T>XPlex::clear()
{
 if (fnc != lo)
 {
   <T>IChunk* t = tl();
   while (t != hd)
   {
     <T>IChunk* prv = t->prev();
     del_chunk(t);
     t = prv;
   }
   t-><T>IChunk::clear(lo);
   set_cache(t);
   fnc = lo;
 }
}


int <T>XPlex::OK () const
{
 int v = hd != 0 && ch != 0;     // at least one chunk

 v &= fnc == tl()->fence_index();// last chunk fence == plex fence
 v &= lo == ((hd))-><T>IChunk::low_index();    // first lo == plex lo

// loop for others:
 int found_ch = 0;                   // to make sure ch is in list;
 const <T>IChunk* t = (hd);
 for (;;)
 {
   if (t == ch) ++found_ch;
   v &= t-><T>IChunk::OK();              // each chunk is OK
   if (t == tl())
     break;
   else                              // and has indices contiguous to succ
   {
     v &= t->top_index() == t->next()->base_index();
     if (t != hd)                  // internal chunks full
     {
       v &= !t->empty();
       v &= !t->can_grow_low();
       v &= !t->can_grow_high();
     }
     t = t->next();
   }
 }
 v &= found_ch == 1;
 if (!v) error("invariant failure");
 return v;
}