/* copyright (c) 2022 grunfink - MIT license */ #ifndef _XS_SET_H #define _XS_SET_H typedef struct _xs_set { int elems; /* number of hash entries */ int used; /* number of used hash entries */ d_char *list; /* list of stored data */ int hash[0]; /* hashed offsets */ } xs_set; xs_set *xs_set_new(int elems); void xs_set_free(xs_set *s); int xs_set_add(xs_set *s, char *data); #ifdef XS_IMPLEMENTATION xs_set *xs_set_new(int elems) /* creates a new set with a maximum of size hashed data */ { int sz = sizeof(struct _xs_set) + sizeof(int) * elems; xs_set *s = calloc(sz, 1); /* initialize */ s->elems = elems; s->list = xs_list_new(); return s; } void xs_set_free(xs_set *s) /* frees a set */ { free(s->list); free(s); } unsigned int _xs_set_hash(char *data, int size) { unsigned int hash = 0x666; int n; for (n = 0; n < size; n++) { hash ^= data[n]; hash *= 111111111; } return hash ^ hash >> 16; } int xs_set_add(xs_set *s, char *data) /* adds the data to the set */ /* returns: 1 if added, 0 if already there, -1 if it's full */ { unsigned int hash, i; int sz = xs_size(data); hash = _xs_set_hash(data, sz); while (s->hash[(i = hash % s->elems)]) { /* get the pointer to the stored data */ char *p = &s->list[s->hash[i]]; /* already here? */ if (memcmp(p, data, sz) == 0) return 0; /* try next value */ hash++; } /* is it full? fail */ if (s->used == s->elems / 2) return -1; /* store the position */ s->hash[i] = xs_size(s->list); /* add the data */ s->list = xs_list_append_m(s->list, data, sz); s->used++; return 1; } #endif /* XS_IMPLEMENTATION */ #endif /* XS_SET_H */