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ma_legacy_helpers.c 9.22 KB
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Lawrin Novitsky 提交于 2019-01-18 00:19 . ODBC-210 Warnings fix on OSX
/* Copyright (C) 2000 MySQL AB & MySQL Finland AB & TCX DataKonsult AB
2016 MariaDB Corporation AB
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 see <http://www.gnu.org/licenses>
or write to the Free Software Foundation, Inc.,
51 Franklin St., Fifth Floor, Boston, MA 02110, USA
*/
/********
*
* Code for lists, MADB_DynArray, and MADB_DynString copied (from C/C
*
********/
/*
*************** Code for handling dubble-linked lists in C *********
*/
#include <ma_odbc.h>
/*
How much overhead does malloc have. The code often allocates
something like 1024-MALLOC_OVERHEAD bytes
*/
#define MALLOC_OVERHEAD 8
/* Add a element to start of list */
MADB_List *MADB_ListAdd(MADB_List *root, MADB_List *element)
{
if (root)
{
if (root->prev) /* If add in mid of list */
root->prev->next= element;
element->prev=root->prev;
root->prev=element;
}
else
element->prev=0;
element->next=root;
return(element); /* New root */
}
MADB_List *MADB_ListDelete(MADB_List *root, MADB_List *element)
{
if (element->prev)
element->prev->next=element->next;
else
root=element->next;
if (element->next)
element->next->prev=element->prev;
return root;
}
void MADB_ListFree(MADB_List *root, unsigned int free_data)
{
MADB_List *next;
while (root)
{
next=root->next;
if (free_data)
free(root->data);
free(root);
root=next;
}
}
MADB_List *MADB_ListCons(void *data, MADB_List *list)
{
MADB_List *new_charset=(MADB_List*) malloc(sizeof(MADB_List));
if (!new_charset)
return 0;
new_charset->data=data;
return MADB_ListAdd(list,new_charset);
}
MADB_List *MADB_ListReverse(MADB_List *root)
{
MADB_List *last;
last=root;
while (root)
{
last=root;
root=root->next;
last->next=last->prev;
last->prev=root;
}
return last;
}
unsigned int MADB_ListLength(MADB_List *list)
{
unsigned int count;
for (count=0 ; list ; list=list->next, count++) ;
return count;
}
int MADB_ListWalk(MADB_List *list, MADB_ListWalkAction action, char * argument)
{
int error=0;
while (list)
{
if ((error = (*action)(list->data,argument)))
return error;
list= MADB_LIST_REST(list);
}
return 0;
}
/************************** MADB_DynString ***************************/
/*
Code for handling strings with can grow dynamicly.
Copyright Monty Program KB.
By monty.
*/
my_bool MADB_InitDynamicString(MADB_DynString *str, const char *init_str,
size_t init_alloc, size_t alloc_increment)
{
unsigned int length;
if (!alloc_increment)
alloc_increment=128;
length=1;
if (init_str && (length= (unsigned int) strlen(init_str)+1) < init_alloc)
init_alloc=((length+alloc_increment-1)/alloc_increment)*alloc_increment;
if (!init_alloc)
init_alloc=alloc_increment;
if (!(str->str=(char*) malloc(init_alloc)))
return(TRUE);
str->length=length-1;
if (init_str)
memcpy(str->str,init_str,length);
str->max_length=init_alloc;
str->alloc_increment=alloc_increment;
return(FALSE);
}
my_bool MADB_DynstrSet(MADB_DynString *str, const char *init_str)
{
unsigned int length;
if (init_str && (length= (unsigned int) strlen(init_str)+1) > str->max_length)
{
str->max_length=((length+str->alloc_increment-1)/str->alloc_increment)*
str->alloc_increment;
if (!str->max_length)
str->max_length=str->alloc_increment;
if (!(str->str=(char*) realloc(str->str,str->max_length)))
return(TRUE);
}
if (init_str)
{
str->length=length-1;
memcpy(str->str,init_str,length);
}
else
str->length=0;
return(FALSE);
}
my_bool MADB_DynstrRealloc(MADB_DynString *str, size_t additional_size)
{
if (!additional_size) return(FALSE);
if (str->length + additional_size > str->max_length)
{
str->max_length=((str->length + additional_size+str->alloc_increment-1)/
str->alloc_increment)*str->alloc_increment;
if (!(str->str=(char*) realloc(str->str,str->max_length)))
return(TRUE);
}
return(FALSE);
}
my_bool MADB_DynstrAppend(MADB_DynString *str, const char *append)
{
return MADB_DynstrAppendMem(str,append,strlen(append));
}
my_bool MADB_DynstrAppendMem(MADB_DynString *str, const char *append,
size_t length)
{
char *new_ptr;
if (str->length+length >= str->max_length)
{
size_t new_length=(str->length+length+str->alloc_increment)/
str->alloc_increment;
new_length*=str->alloc_increment;
if (!(new_ptr=(char*) realloc(str->str,new_length)))
return TRUE;
str->str=new_ptr;
str->max_length=new_length;
}
memcpy(str->str + str->length,append,length);
str->length+=length;
str->str[str->length]=0; /* Safety for C programs */
return FALSE;
}
void MADB_DynstrFree(MADB_DynString *str)
{
if (str->str)
{
free(str->str);
str->str=0;
}
}
char *MADB_DynstrMake(register char *dst, register const char *src, size_t length)
{
while (length--)
if (! (*dst++ = *src++))
return dst-1;
*dst=0;
return dst;
}
/************* MADB_DynArray - Handling of arrays that can grow dynamicly. **************/
#undef SAFEMALLOC /* Problems with threads */
/*
Initiate array and alloc space for init_alloc elements. Array is usable
even if space allocation failed
*/
my_bool MADB_InitDynamicArray(MADB_DynArray *array, unsigned int element_size,
unsigned int init_alloc, unsigned int alloc_increment)
{
if (!alloc_increment)
{
alloc_increment=MAX((8192-MALLOC_OVERHEAD)/element_size,16);
if (init_alloc > 8 && alloc_increment > init_alloc * 2)
alloc_increment=init_alloc*2;
}
if (!init_alloc)
init_alloc=alloc_increment;
array->elements=0;
array->max_element=init_alloc;
array->alloc_increment=alloc_increment;
array->size_of_element=element_size;
if (!(array->buffer=(char*) malloc(element_size*init_alloc)))
{
array->max_element=0;
return(TRUE);
}
return(FALSE);
}
my_bool MADB_InsertDynamic(MADB_DynArray *array, void *element)
{
void *buffer;
if (array->elements == array->max_element)
{ /* Call only when nessesary */
if (!(buffer=MADB_AllocDynamic(array)))
return TRUE;
}
else
{
buffer=array->buffer+(array->elements * array->size_of_element);
array->elements++;
}
memcpy(buffer,element,(size_t) array->size_of_element);
return FALSE;
}
/* Alloc room for one element */
unsigned char *MADB_AllocDynamic(MADB_DynArray *array)
{
if (array->elements == array->max_element)
{
char *new_ptr;
if (!(new_ptr=(char*) realloc(array->buffer,(array->max_element+
array->alloc_increment)*
array->size_of_element)))
return 0;
array->buffer=new_ptr;
array->max_element+=array->alloc_increment;
}
return (unsigned char *)array->buffer+(array->elements++ * array->size_of_element);
}
/* remove last element from array and return it */
unsigned char *MADB_PopDynamic(MADB_DynArray *array)
{
if (array->elements)
return (unsigned char *)array->buffer+(--array->elements * array->size_of_element);
return 0;
}
my_bool MADB_SetDynamic(MADB_DynArray *array, void * element, unsigned int idx)
{
if (idx >= array->elements)
{
if (idx >= array->max_element)
{
unsigned int size;
char *new_ptr;
size=(idx+array->alloc_increment)/array->alloc_increment;
size*= array->alloc_increment;
if (!(new_ptr=(char*) realloc(array->buffer,size*
array->size_of_element)))
return TRUE;
array->buffer=new_ptr;
array->max_element=size;
}
memset((array->buffer+array->elements*array->size_of_element), 0,
(idx - array->elements)*array->size_of_element);
array->elements=idx+1;
}
memcpy(array->buffer+(idx * array->size_of_element),element,
(size_t) array->size_of_element);
return FALSE;
}
void MADB_GetDynamic(MADB_DynArray *array, void * element, unsigned int idx)
{
if (idx >= array->elements)
{
memset(element, 0, array->size_of_element);
return;
}
memcpy(element,array->buffer+idx*array->size_of_element,
(size_t) array->size_of_element);
}
void MADB_DeleteDynamic(MADB_DynArray *array)
{
if (array->buffer)
{
free(array->buffer);
array->buffer=0;
array->elements=array->max_element=0;
}
}
void MADB_DeleteDynamicElement(MADB_DynArray *array, unsigned int idx)
{
char *ptr=array->buffer+array->size_of_element*idx;
array->elements--;
memmove(ptr,ptr+array->size_of_element,
(array->elements-idx)*array->size_of_element);
}
void MADB_FreezeSizeDynamic(MADB_DynArray *array)
{
unsigned int elements=MAX(array->elements,1);
if (array->buffer && array->max_element != elements)
{
array->buffer=(char*) realloc(array->buffer,
elements*array->size_of_element);
array->max_element=elements;
}
}
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