ref: 9ced712a2ad70557a8ceb89ff3b969b92c85f68c
dir: /sys/src/cmd/ktrans/hash.c/
#include <u.h> #include <libc.h> #include "hash.h" typedef struct Hnode Hnode; struct Hnode { int filled; int next; void *key; }; enum{ Tagsize = sizeof(Hnode), }; uvlong shash(char *s) { uvlong hash; hash = 7; for(; *s; s++) hash = hash*31 + *s; return hash; } Hmap* hmapalloc(int nbuckets, int size) { void *store; Hmap *h; int nsz; nsz = Tagsize + size; store = mallocz(sizeof(*h) + (nbuckets * nsz), 1); if(store == nil) sysfatal("hmapalloc: out of memory"); h = store; h->nbs = nbuckets; h->nsz = nsz; h->len = h->cap = nbuckets; h->nodes = store; h->nodes += sizeof(*h); return store; } int hmaprepl(Hmap **store, char *key, void *new, void *old, int freekeys) { Hnode *n; uchar *v; uchar *oldv; Hmap *h; int next; vlong diff; h = *store; oldv = nil; v = h->nodes + (shash(key)%h->nbs) * h->nsz; for(;;){ n = (Hnode*)v; next = n->next; if(n->filled == 0) goto replace; if(strcmp(n->key, key) == 0){ if(freekeys) free(n->key); oldv = v + Tagsize; goto replace; } if(next == 0) break; v = h->nodes + next*h->nsz; } if(h->cap == h->len){ /* figure out way back from a relocation */ diff = v - h->nodes; h->cap *= 2; *store = realloc(*store, sizeof(*h) + h->cap*h->nsz); if(*store == nil) sysfatal("hmaprepl: out of memory"); h = *store; h->nodes = (uchar*)*store + sizeof(*h); memset(h->nodes + h->len*h->nsz, 0, h->nsz); v = h->nodes + diff; n = (Hnode*)v; } n->next = h->len; h->len++; assert(h->len <= h->cap); v = h->nodes + n->next*h->nsz; n = (Hnode*)v; replace: memmove(v + Tagsize, new, h->nsz - Tagsize); n->filled++; n->key = key; n->next = next; if(old != nil && oldv != nil){ memmove(old, oldv, h->nsz - Tagsize); return 1; } return 0; } int hmapupd(Hmap **h, char *key, void *new) { char *prev; prev = hmapkey(*h, key); if(prev == nil) prev = key; return hmaprepl(h, prev, new, nil, 0); } void* _hmapget(Hmap *h, char *key) { Hnode *n; uchar *v; v = h->nodes + (shash(key)%h->nbs)*h->nsz; for(;;){ n = (Hnode*)v; if(n->filled != 0 && strcmp(n->key, key) == 0) return v; if(n->next == 0) break; v = h->nodes + n->next*h->nsz; } return nil; } int hmapget(Hmap *h, char *key, void *dst) { uchar *v; v = _hmapget(h, key); if(v == nil) return -1; if(dst != nil) memmove(dst, v + Tagsize, h->nsz - Tagsize); return 0; } int hmapdel(Hmap *h, char *key, void *dst, int freekey) { uchar *v; Hnode *n; v = _hmapget(h, key); if(v == nil) return -1; n = (Hnode*)v; n->filled = 0; if(freekey) free(n->key); if(dst != nil) memmove(dst, v + Tagsize, h->nsz - Tagsize); return 0; } char* hmapkey(Hmap *h, char *key) { uchar *v; Hnode *n; v = _hmapget(h, key); if(v == nil) return nil; n = (Hnode*)v; return n->key; } Hmap* hmaprehash(Hmap *old, int buckets) { int i; uchar *v; Hnode *n; Hmap *new; if(buckets == 0) buckets = old->len; new = hmapalloc(buckets, old->nsz - Tagsize); for(i=0 ; i < old->len; i++){ v = old->nodes + i*old->nsz; n = (Hnode*)v; hmaprepl(&new, n->key, v + Tagsize, nil, 0); } free(old); return new; } void hmapreset(Hmap *h, int freekeys) { Hnode *n; uchar *v; int i; for(i=0; i < h->len; i++){ v = h->nodes + i*h->nsz; n = (Hnode*)v; if(n->filled == 0) continue; if(freekeys) free(n->key); n->filled = 0; } h->len = 0; }