qse/ase/lib/cmn/str_dyn.c

262 lines
5.0 KiB
C

/*
* $Id: str_dyn.c 373 2008-09-23 11:27:24Z baconevi $
*
* {License}
*/
#include <ase/cmn/str.h>
#include "mem.h"
ase_str_t* ase_str_open (ase_mmgr_t* mmgr, ase_size_t ext, ase_size_t capa)
{
ase_str_t* str;
str = (ase_str_t*) ASE_MMGR_ALLOC (mmgr, ASE_SIZEOF(ase_str_t) + ext);
if (str == ASE_NULL) return ASE_NULL;
if (ase_str_init (str, mmgr, capa) == ASE_NULL)
{
ASE_MMGR_FREE (mmgr, str);
return ASE_NULL;
}
return str;
}
void ase_str_close (ase_str_t* str)
{
ase_str_fini (str);
ASE_MMGR_FREE (str->mmgr, str);
}
ase_str_t* ase_str_init (ase_str_t* str, ase_mmgr_t* mmgr, ase_size_t capa)
{
ASE_MEMSET (str, 0, ASE_SIZEOF(ase_str_t));
str->mmgr = mmgr;
str->sizer = ASE_NULL;
if (capa == 0) str->ptr = ASE_NULL;
else
{
str->ptr = (ase_char_t*) ASE_MMGR_ALLOC (
mmgr, ASE_SIZEOF(ase_char_t) * (capa + 1));
if (str->ptr == ASE_NULL) return ASE_NULL;
str->ptr[0] = ASE_T('\0');
}
str->len = 0;
str->capa = capa;
return str;
}
void ase_str_fini (ase_str_t* str)
{
if (str->ptr != ASE_NULL) ASE_MMGR_FREE (str->mmgr, str->ptr);
}
int ase_str_yield (ase_str_t* str, ase_xstr_t* buf, int new_capa)
{
ase_char_t* tmp;
if (new_capa == 0) tmp = ASE_NULL;
else
{
tmp = (ase_char_t*) ASE_MMGR_ALLOC (
str->mmgr, ASE_SIZEOF(ase_char_t) * (new_capa + 1));
if (tmp == ASE_NULL) return -1;
tmp[0] = ASE_T('\0');
}
if (buf != ASE_NULL)
{
buf->ptr = str->ptr;
buf->len = str->len;
}
str->ptr = tmp;
str->len = 0;
str->capa = new_capa;
return 0;
}
ase_sizer_t ase_str_getsizer (ase_str_t* str)
{
return str->sizer;
}
void ase_str_setsizer (ase_str_t* str, ase_sizer_t sizer)
{
str->sizer = sizer;
}
ase_size_t ase_str_getcapa (ase_str_t* str)
{
return str->capa;
}
ase_size_t ase_str_setcapa (ase_str_t* str, ase_size_t capa)
{
ase_char_t* tmp;
if (str->mmgr->realloc != ASE_NULL && str->ptr != ASE_NULL)
{
tmp = (ase_char_t*) ASE_MMGR_REALLOC (
str->mmgr, str->ptr,
ASE_SIZEOF(ase_char_t)*(capa+1));
if (tmp == ASE_NULL) return (ase_size_t)-1;
}
else
{
tmp = (ase_char_t*) ASE_MMGR_ALLOC (
str->mmgr, ASE_SIZEOF(ase_char_t)*(capa+1));
if (tmp == ASE_NULL) return (ase_size_t)-1;
if (str->ptr != ASE_NULL)
{
ase_size_t ncopy = (str->len <= capa)? str->len: capa;
ASE_MEMCPY (tmp, str->ptr,
ASE_SIZEOF(ase_char_t)*(ncopy+1));
ASE_MMGR_FREE (str->mmgr, str->ptr);
}
}
if (capa < str->len)
{
str->len = capa;
tmp[capa] = ASE_T('\0');
}
str->capa = capa;
str->ptr = tmp;
return str->capa;
}
void ase_str_clear (ase_str_t* str)
{
str->len = 0;
str->ptr[0] = ASE_T('\0');
}
void ase_str_swap (ase_str_t* str, ase_str_t* str1)
{
ase_str_t tmp;
tmp.ptr = str->ptr;
tmp.len = str->len;
tmp.capa = str->capa;
tmp.mmgr = str->mmgr;
str->ptr = str1->ptr;
str->len = str1->len;
str->capa = str1->capa;
str->mmgr = str1->mmgr;
str1->ptr = tmp.ptr;
str1->len = tmp.len;
str1->capa = tmp.capa;
str1->mmgr = tmp.mmgr;
}
ase_size_t ase_str_cpy (ase_str_t* str, const ase_char_t* s)
{
/* TODO: improve it */
return ase_str_ncpy (str, s, ase_strlen(s));
}
ase_size_t ase_str_ncpy (ase_str_t* str, const ase_char_t* s, ase_size_t len)
{
ase_char_t* buf;
if (len > str->capa || str->ptr == ASE_NULL)
{
buf = (ase_char_t*) ASE_MMGR_ALLOC (
str->mmgr, ASE_SIZEOF(ase_char_t) * (len + 1));
if (buf == ASE_NULL) return (ase_size_t)-1;
if (str->ptr != ASE_NULL) ASE_MMGR_FREE (str->mmgr, str->ptr);
str->capa = len;
str->ptr = buf;
}
str->len = ase_strncpy (str->ptr, s, len);
str->ptr[str->len] = ASE_T('\0');
return str->len;
}
ase_size_t ase_str_cat (ase_str_t* str, const ase_char_t* s)
{
/* TODO: improve it */
return ase_str_ncat (str, s, ase_strlen(s));
}
ase_size_t ase_str_ncat (ase_str_t* str, const ase_char_t* s, ase_size_t len)
{
if (len > str->capa - str->len)
{
ase_size_t ncapa;
if (str->sizer == ASE_NULL)
{
/* increase the capacity by the length to add */
ncapa = str->len + len;
/* if the new capacity is less than the double,
* just double it */
if (ncapa < str->capa * 2) ncapa = str->capa * 2;
}
else
{
/* let the user determine the new capacity.
* pass the minimum capacity required as a hint */
ncapa = str->sizer (str, str->len + len);
/* if no change in capacity, return current length */
if (ncapa == str->capa) return str->len;
}
if (ase_str_setcapa (str, ncapa) == (ase_size_t)-1)
{
return (ase_size_t)-1;
}
}
if (len > str->capa - str->len)
{
/* copy as many characters as the number of cells available.
* if the capacity has been decreased, len is adjusted here */
len = str->capa - str->len;
}
if (len > 0)
{
ASE_MEMCPY (&str->ptr[str->len], s, len*ASE_SIZEOF(*s));
str->len += len;
str->ptr[str->len] = ASE_T('\0');
}
return str->len;
}
ase_size_t ase_str_ccat (ase_str_t* str, ase_char_t c)
{
return ase_str_ncat (str, &c, 1);
}
ase_size_t ase_str_nccat (ase_str_t* str, ase_char_t c, ase_size_t len)
{
while (len > 0)
{
if (ase_str_ncat (str, &c, 1) == (ase_size_t)-1)
{
return (ase_size_t)-1;
}
len--;
}
return str->len;
}