newptr
void newptr(Audio* newa); // Reset extent
newptr(obj);
newptr(0);
newptr(e1);
void *newptr;
newptr = realloc(ptr, MALLOC_SIZE(size));
return newptr;
void *newptr;
newptr = realloc(ptr, MALLOC_SIZE(size));
if (newptr == NULL)
return newptr;
void *newptr;
newptr = realloc(ptr, MALLOC_SIZE(size));
return newptr;
newptr = realloc(ptr, MALLOC_SIZE(size));
if (newptr == NULL)
hi->hi_ptr = newptr;
hp = &SmHeapTable[ptrhash(newptr)];
return newptr;
void *newptr;
newptr = realloc(ptr, MALLOC_SIZE(size));
if (newptr == NULL)
return newptr;
newptr = realloc(ptr, MALLOC_SIZE(size));
if (newptr == NULL)
hi->hi_ptr = newptr;
hp = &SmHeapTable[ptrhash(newptr)];
return newptr;
char *newptr;
newptr = newpath + strlen(newpath);
*newptr++ = '/';
len = sizeof(newpath) - (newptr - newpath);
if (sm_strlcpy(newptr, e->d_name, len) >= len)
*newptr = '\0';
*--newptr = '\0';
void * newptr;
if ((newptr = malloc(size)) == NULL)
(void) memcpy(newptr, ptr, osize);
return (newptr);
BIG_CHUNK_TYPE *newptr;
newptr = (BIG_CHUNK_TYPE *)big_realloc(dest->value,
newptr = (BIG_CHUNK_TYPE *)
if (newptr != NULL) {
if (newptr == NULL) {
dest->value = newptr;
BIG_CHUNK_TYPE *newptr;
newptr = big_malloc(BIGNUM_WORDSIZE * size);
if (newptr != NULL) {
newptr[i] = number->value[i];
number->value = newptr;
void *newptr;
newptr = realloc (ptr, newsize);
if (newptr == NULL && newsize != 0) {
return newptr;
char *newptr;
newptr = realloc(b->base, newsize);
if (newptr == NULL) {
b->base = newptr;
char *newptr = realloc(prof_buf.base, prof_buf.cur);
if (newptr)
prof_buf.base = newptr;
void *newptr;
newptr = realloc(kp->key_data_contents[cnt],
if (newptr == NULL)
kp->key_data_contents[cnt] = newptr;
void *newptr;
newptr = malloc(newsize);
if (newptr == NULL)
(void) memcpy(newptr, ptr, oldsize);
(void) memset((char *)newptr + oldsize, 0, newsize - oldsize);
(void) memcpy(newptr, ptr, newsize);
return (newptr);
char *newptr; /* pointer to user's new block */
newptr = malloc_unlocked(size, 0);
if (newptr == NULL)
if ((char *)ptr != newptr) {
(void) memcpy(newptr, ptr, cpysize);
newptr = ptr;
newptr = malloc_unlocked(size, 0);
if (newptr == NULL)
(void) memcpy(newptr, ptr, cpysize);
return (newptr);
void *newptr;
newptr = malloc_unlocked(size);
return (newptr);
newptr = malloc_unlocked(size);
(void) memcpy(newptr, ptr, osize);
return (newptr);
append_to_bank_list(bank_list_t *newptr)
mem_banks = newptr;
ptr->next = newptr;
bank_list_t *newptr;
newptr = malloc(sizeof (*newptr));
if (newptr == NULL)
newptr->nodeh = bankh;
newptr->iway_count = 0;
newptr->next = NULL;
append_to_bank_list(newptr);
while ((i < segp->ifactor) && (newptr->iway_count < MAX_IWAYS)) {
newptr->iway[newptr->iway_count++] = i;
append_to_bank_list(bank_list_t *newptr)
mem_banks = newptr;
ptr->next = newptr;
bank_list_t *newptr;
newptr = malloc(sizeof (*newptr));
if (newptr == NULL)
newptr->nodeh = bankh;
newptr->iway_count = 0;
newptr->next = NULL;
append_to_bank_list(newptr);
while ((i < segp->ifactor) && (newptr->iway_count < MAX_IWAYS)) {
newptr->iway[newptr->iway_count++] = i;
bank_list_t *newptr;
newptr = malloc(sizeof (*newptr));
if (newptr == NULL)
newptr->nodeh = bankh;
newptr->iway_count = 0;
newptr->next = NULL;
append_to_bank_list(newptr);
while ((i < segp->ifactor) && (newptr->iway_count < MAX_IWAYS)) {
newptr->iway[newptr->iway_count++] = i;
append_to_bank_list(bank_list_t *newptr)
mem_banks = newptr;
ptr->next = newptr;