/* -------------------------------------------------------------------- By Bob Jenkins, September 1996. recycle.c You may use this code in any way you wish, and it is free. No warranty. This manages memory for commonly-allocated structures. It allocates RESTART to REMAX items at a time. Timings have shown that, if malloc is used for every new structure, malloc will consume about 90% of the time in a program. This module cuts down the number of mallocs by an order of magnitude. This also decreases memory fragmentation, and freeing structures only requires freeing the root. -------------------------------------------------------------------- */ #include "generic.h" #ifndef RECYCLE # include "recycle.h" #endif reroot *remkroot(size) size_t size; { reroot *r = (reroot *)remalloc(sizeof(reroot), "recycle.c, root"); r->list = (recycle *)0; r->trash = (recycle *)0; r->size = align(size); r->logsize = RESTART; r->numleft = 0; return r; } void refree(r) struct reroot *r; { recycle *temp; if (temp = r->list) while (r->list) { temp = r->list->next; free((char *)r->list); r->list = temp; } free((char *)r); return; } /* to be called from the macro renew only */ char *renewx(r) struct reroot *r; { recycle *temp; if (r->trash) { /* pull a node off the trash heap */ temp = r->trash; r->trash = temp->next; (void)memset((void *)temp, 0, r->size); } else { /* allocate a new block of nodes */ r->numleft = r->size*((Uint32)1<logsize); if (r->numleft < REMAX) ++r->logsize; temp = (recycle *)remalloc(sizeof(recycle) + r->numleft, "recycle.c, data"); temp->next = r->list; r->list = temp; r->numleft-=r->size; temp = (recycle *)((char *)(r->list+1)+r->numleft); } return (char *)temp; } char *remalloc(len, purpose) size_t len; char *purpose; { char *x = (char *)malloc(len); if (!x) { // fprintf(stderr, "malloc of %d failed for %s\n", // len, purpose); // exit(SUCCESS); } return x; }