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/*
* wee-arraylist.c - array lists management
*
* Copyright (C) 2014-2019 Sébastien Helleu <flashcode@flashtux.org>
*
* This file is part of WeeChat, the extensible chat client.
*
* WeeChat is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* WeeChat 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with WeeChat. If not, see <https://www.gnu.org/licenses/>.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdlib.h>
#include <string.h>
#include "weechat.h"
#include "wee-arraylist.h"
#include "wee-log.h"
#include "wee-string.h"
/*
* Compares two arraylist entries (default comparator).
* It just compares pointers.
*
* Returns:
* -1: pointer1 < pointer2
* 0: pointer1 == pointer2
* 1: pointer1 > pointer2
*/
int
arraylist_cmp_default_cb (void *data, struct t_arraylist *arraylist,
void *pointer1, void *pointer2)
{
/* make C compiler happy */
(void) data;
(void) arraylist;
if (pointer1 < pointer2)
return -1;
if (pointer1 > pointer2)
return 1;
return 0;
}
/*
* Creates a new arraylist.
*
* Returns pointer to arraylist, NULL if error.
*/
struct t_arraylist *
arraylist_new (int initial_size,
int sorted,
int allow_duplicates,
t_arraylist_cmp *callback_cmp, void *callback_cmp_data,
t_arraylist_free *callback_free, void *callback_free_data)
{
struct t_arraylist *new_arraylist;
/* check arguments */
if (initial_size < 0)
return NULL;
new_arraylist = malloc (sizeof (*new_arraylist));
if (!new_arraylist)
return NULL;
new_arraylist->size = 0;
if (initial_size > 0)
{
new_arraylist->size_alloc = initial_size;
new_arraylist->size_alloc_min = initial_size;
new_arraylist->data = calloc (initial_size,
sizeof (*new_arraylist->data));
if (!new_arraylist->data)
{
free (new_arraylist);
return NULL;
}
}
else
{
new_arraylist->size_alloc = 0;
new_arraylist->size_alloc_min = 0;
new_arraylist->data = NULL;
}
new_arraylist->sorted = sorted;
new_arraylist->allow_duplicates = allow_duplicates;
new_arraylist->callback_cmp = (callback_cmp) ?
callback_cmp : &arraylist_cmp_default_cb;
new_arraylist->callback_cmp_data = (callback_cmp) ?
callback_cmp_data : NULL;
new_arraylist->callback_free = callback_free;
new_arraylist->callback_free_data = callback_free_data;
return new_arraylist;
}
/*
* Returns the size of an arraylist (number of elements).
*/
int
arraylist_size (struct t_arraylist *arraylist)
{
if (!arraylist)
return 0;
return arraylist->size;
}
/*
* Returns the pointer to an arraylist element, by index.
*/
void *
arraylist_get (struct t_arraylist *arraylist, int index)
{
if (!arraylist || (index < 0) || (index >= arraylist->size))
return NULL;
return arraylist->data[index];
}
/*
* Adjusts the allocated size of arraylist to add one element (if needed),
* so that the list has enough allocated data to store (current_size + 1)
* elements.
*
* Returns:
* 1: OK
* 0: error
*/
int
arraylist_grow (struct t_arraylist *arraylist)
{
int new_size_alloc;
void **data;
if (!arraylist)
return 0;
/* if we have enough space allocated, do nothing */
if (arraylist->size + 1 <= arraylist->size_alloc)
return 1;
new_size_alloc = (arraylist->size_alloc < 2) ?
2 : arraylist->size_alloc + (arraylist->size_alloc / 2);
data = realloc (arraylist->data,
new_size_alloc * sizeof (*arraylist->data));
if (!data)
return 0;
arraylist->data = data;
memset (&arraylist->data[arraylist->size_alloc],
0,
(new_size_alloc - arraylist->size_alloc) *
sizeof (*arraylist->data));
arraylist->size_alloc = new_size_alloc;
return 1;
}
/*
* Adjusts the allocated size of arraylist to remove one element (if needed),
* so that the list has enough allocated data to store (current size - 1)
* elements.
*
* Returns:
* 1: OK
* 0: error
*/
int
arraylist_shrink (struct t_arraylist *arraylist)
{
int new_size_alloc;
void **data;
if (!arraylist)
return 0;
/* we don't shrink if we are below the min allocated size */
if ((arraylist->size_alloc == 0)
|| (arraylist->size_alloc <= arraylist->size_alloc_min))
{
return 1;
}
/* clear the arraylist if current allocated size is 1 */
if (arraylist->size_alloc == 1)
{
free (arraylist->data);
arraylist->data = NULL;
arraylist->size_alloc = 0;
return 1;
}
new_size_alloc = arraylist->size_alloc - (arraylist->size_alloc / 2);
if (arraylist->size - 1 >= new_size_alloc)
return 1;
data = realloc (arraylist->data,
new_size_alloc * sizeof (*arraylist->data));
if (!data)
return 0;
arraylist->data = data;
arraylist->size_alloc = new_size_alloc;
return 1;
}
/*
* Performs a binary search in the arraylist to find an element
* (this function must be called only if the arraylist is sorted).
*
* If "index" is not NULL, it is set with the index of element found (or -1 if
* element was not found).
*
* If "index_insert" is not NULL, it is set with the index that must be used to
* insert the element in the arraylist (to keep arraylist sorted).
*
* Returns pointer to element found, NULL if not found.
*/
void *
arraylist_binary_search (struct t_arraylist *arraylist, void *pointer,
int *index, int *index_insert)
{
int ret_index, ret_index_insert, start, end, middle, rc;
void *ret_pointer;
ret_index = -1;
ret_index_insert = -1;
ret_pointer = NULL;
if (!arraylist)
goto end;
start = 0;
end = arraylist->size - 1;
/*
* statistically we often add at the end, or before first element, so
* first check these cases (for performance), before doing the binary
* search
*/
rc = (arraylist->callback_cmp) (arraylist->callback_cmp_data,
arraylist,
pointer,
arraylist->data[end]);
if (rc == 0)
{
ret_index = end;
/* by convention, add an element with same value after the last one */
ret_index_insert = end + 1;
ret_pointer = arraylist->data[end];
goto end;
}
if (rc > 0)
{
ret_index = -1;
ret_index_insert = -1;
ret_pointer = NULL;
goto end;
}
if (arraylist->size == 1)
{
ret_index = -1;
ret_index_insert = 0;
ret_pointer = NULL;
goto end;
}
rc = (arraylist->callback_cmp) (arraylist->callback_cmp_data,
arraylist,
pointer,
arraylist->data[start]);
if (rc == 0)
{
ret_index = start;
ret_index_insert = start + 1;
ret_pointer = arraylist->data[start];
goto end;
}
if (rc < 0)
{
ret_index = -1;
ret_index_insert = start;
ret_pointer = NULL;
goto end;
}
if (arraylist->size == 2)
{
ret_index = -1;
ret_index_insert = end;
ret_pointer = NULL;
goto end;
}
start++;
end--;
/* perform a binary search to find the index */
while (start <= end)
{
middle = (start + end) / 2;
rc = (arraylist->callback_cmp) (arraylist->callback_cmp_data,
arraylist,
pointer,
arraylist->data[middle]);
if (rc == 0)
{
ret_index = middle;
ret_index_insert = middle + 1;
ret_pointer = arraylist->data[middle];
goto end;
}
if (rc < 0)
end = middle - 1;
else
start = middle + 1;
if (start > end)
{
ret_index = -1;
ret_index_insert = (rc < 0) ? middle : middle + 1;
ret_pointer = NULL;
}
}
end:
if ((ret_index >= 0) && arraylist->allow_duplicates)
{
/*
* in case of duplicates in table, the index of element found
* is the first element with the value, and the index for
* insert is the last element with the value + 1
*/
start = ret_index - 1;
while (start >= 0)
{
rc = (arraylist->callback_cmp) (
arraylist->callback_cmp_data,
arraylist,
pointer,
arraylist->data[start]);
if (rc != 0)
break;
start--;
}
start++;
end = ret_index + 1;
while (end < arraylist->size)
{
rc = (arraylist->callback_cmp) (
arraylist->callback_cmp_data,
arraylist,
pointer,
arraylist->data[end]);
if (rc != 0)
break;
end++;
}
end--;
ret_index = start;
ret_index_insert = end + 1;
ret_pointer = arraylist->data[start];
}
if (index)
*index = ret_index;
if (index_insert)
*index_insert = ret_index_insert;
return ret_pointer;
}
/*
* Performs a standard search in the arraylist to find an element
* (this function must be called only if the arraylist is NOT sorted).
*
* If "index" is not NULL, it is set with the index of element found (or -1 if
* element was not found).
*
* If "index_insert" is not NULL, it is set to -1 (elements are always added
* at the end of list when it is not sorted).
*
* Returns pointer to element found, NULL if not found.
*/
void *
arraylist_standard_search (struct t_arraylist *arraylist, void *pointer,
int *index, int *index_insert)
{
int i;
if (!arraylist)
goto end;
for (i = 0; i < arraylist->size; i++)
{
if ((arraylist->callback_cmp) (arraylist->callback_cmp_data,
arraylist, arraylist->data[i],
pointer) == 0)
{
if (index)
*index = i;
if (index_insert)
*index_insert = -1;
return arraylist->data[i];
}
}
end:
if (index)
*index = -1;
if (index_insert)
*index_insert = -1;
return NULL;
}
/*
* Searches an element in the arraylist.
*
* If "index" is not NULL, it is set with the index of element found (or -1 if
* element was not found).
*
* If "index_insert" is not NULL, it is set with the index that must be used to
* insert the element in the arraylist (to keep arraylist sorted).
*
* Returns pointer to element found, NULL if not found.
*/
void *
arraylist_search (struct t_arraylist *arraylist, void *pointer,
int *index, int *index_insert)
{
if (index)
*index = -1;
if (index_insert)
*index_insert = -1;
if (!arraylist || (arraylist->size == 0))
return NULL;
if (arraylist->sorted)
{
return arraylist_binary_search (arraylist, pointer,
index, index_insert);
}
else
{
return arraylist_standard_search (arraylist, pointer,
index, index_insert);
}
}
/*
* Inserts an element at a given index (and shifts next elements by one
* position), or at automatic index if the arraylist is sorted.
*
* If the index is negative and that the arraylist is not sorted, the element
* is added at the end of arraylist.
*
* If the arraylist is sorted, the argument "index" is ignored (the element
* will be inserted at appropriate position, to keep arraylist sorted).
*
* Returns the index of the new element (>= 0) or -1 if error.
*/
int
arraylist_insert (struct t_arraylist *arraylist, int index, void *pointer)
{
int index_insert, i;
if (!arraylist)
return -1;
if (arraylist->sorted)
{
(void) arraylist_search (arraylist, pointer, &index, &index_insert);
if ((index >= 0) && !arraylist->allow_duplicates)
{
while ((index < arraylist->size)
&& (((arraylist->callback_cmp) (
arraylist->callback_cmp_data,
arraylist, arraylist->data[index],
pointer)) == 0))
{
arraylist_remove (arraylist, index);
}
}
else
index = index_insert;
}
else if (!arraylist->allow_duplicates)
{
/*
* arraylist is not sorted and does not allow duplicates, then we
* remove any element with the same value
*/
i = 0;
while (i < arraylist->size)
{
if ((arraylist->callback_cmp) (arraylist->callback_cmp_data,
arraylist, arraylist->data[i],
pointer) == 0)
{
arraylist_remove (arraylist, i);
}
else
i++;
}
}
/* if index is negative or too big, add at the end */
if ((index < 0) || (index > arraylist->size))
index = arraylist->size;
if (!arraylist_grow (arraylist))
return -1;
/* shift next elements by one position */
if (index < arraylist->size)
{
memmove (&arraylist->data[index + 1],
&arraylist->data[index],
(arraylist->size - index) * sizeof (*arraylist->data));
}
/* set element */
arraylist->data[index] = pointer;
(arraylist->size)++;
return index;
}
/*
* Adds an element at the end of arraylist (or in the middle if the arraylist
* is sorted).
*
* Returns the index of the new element (>= 0) or -1 if error.
*/
int
arraylist_add (struct t_arraylist *arraylist, void *pointer)
{
if (!arraylist)
return -1;
return arraylist_insert (arraylist, -1, pointer);
}
/*
* Removes one element from the arraylist.
*
* Returns the index removed or -1 if error.
*/
int
arraylist_remove (struct t_arraylist *arraylist, int index)
{
if (!arraylist || (index < 0) || (index >= arraylist->size))
return -1;
if (arraylist->callback_free)
{
(arraylist->callback_free) (arraylist->callback_free_data,
arraylist,
arraylist->data[index]);
}
if (index < arraylist->size - 1)
{
memmove (&arraylist->data[index],
&arraylist->data[index + 1],
(arraylist->size - index - 1) * sizeof (*arraylist->data));
memset (&arraylist->data[arraylist->size - 1], 0,
sizeof (*arraylist->data));
}
else
{
memset (&arraylist->data[index], 0, sizeof (*arraylist->data));
}
arraylist_shrink (arraylist);
(arraylist->size)--;
return index;
}
/*
* Removes all elements in the arraylist.
*
* Returns:
* 1: OK
* 0: error
*/
int
arraylist_clear (struct t_arraylist *arraylist)
{
int i;
if (!arraylist)
return 0;
if (arraylist->callback_free)
{
for (i = 0; i < arraylist->size; i++)
{
(arraylist->callback_free) (arraylist->callback_free_data,
arraylist,
arraylist->data[i]);
}
}
if (arraylist->data)
{
if (arraylist->size_alloc != arraylist->size_alloc_min)
{
free (arraylist->data);
arraylist->data = NULL;
arraylist->size_alloc = 0;
if (arraylist->size_alloc_min > 0)
{
arraylist->data = calloc (arraylist->size_alloc_min,
sizeof (*arraylist->data));
if (!arraylist->data)
return 0;
arraylist->size_alloc = arraylist->size_alloc_min;
}
}
else if (arraylist->size_alloc > 0)
{
memset (arraylist->data,
0,
arraylist->size_alloc * sizeof (*arraylist->data));
}
}
arraylist->size = 0;
return 1;
}
/*
* Frees an arraylist.
*/
void
arraylist_free (struct t_arraylist *arraylist)
{
int i;
if (!arraylist)
return;
if (arraylist->callback_free)
{
for (i = 0; i < arraylist->size; i++)
{
(arraylist->callback_free) (arraylist->callback_free_data,
arraylist,
arraylist->data[i]);
}
}
if (arraylist->data)
free (arraylist->data);
free (arraylist);
}
/*
* Prints an arraylist in WeeChat log file (usually for crash dump).
*/
void
arraylist_print_log (struct t_arraylist *arraylist, const char *name)
{
int i;
log_printf ("");
log_printf ("[arraylist %s (addr:0x%lx)]", name, arraylist);
log_printf (" size . . . . . . . . . : %d", arraylist->size);
log_printf (" size_alloc . . . . . . : %d", arraylist->size_alloc);
log_printf (" size_alloc_min . . . . : %d", arraylist->size_alloc_min);
log_printf (" sorted . . . . . . . . : %d", arraylist->sorted);
log_printf (" allow_duplicates . . . : %d", arraylist->allow_duplicates);
log_printf (" data . . . . . . . . . : 0x%lx", arraylist->data);
if (arraylist->data)
{
for (i = 0; i < arraylist->size_alloc; i++)
{
log_printf (" data[%08d] . . . : 0x%lx",
i, arraylist->data[i]);
}
}
log_printf (" callback_cmp . . . . . : 0x%lx", arraylist->callback_cmp);
log_printf (" callback_cmp_data. . . : 0x%lx",
arraylist->callback_cmp_data);
log_printf (" callback_free. . . . . : 0x%lx", arraylist->callback_free);
log_printf (" callback_free_data . . : 0x%lx",
arraylist->callback_free_data);
}
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