ref: 82b046f36f8084a22bbb5d71edd0edd9179561eb
dir: /appl/lib/bloomfilter.b/
implement Bloomfilter; include "sys.m"; sys: Sys; include "sets.m"; sets: Sets; Set: import sets; include "keyring.m"; keyring: Keyring; include "bloomfilter.m"; init() { sys = load Sys Sys->PATH; sets = load Sets Sets->PATH; sets->init(); keyring = load Keyring Keyring->PATH; } Bits: adt { d: array of byte; n: int; # bits used get: fn(bits: self ref Bits, n: int): int; }; filter(d: array of byte, logm, k: int): Set { if(logm < 3 || logm > 30) raise "invalid bloom filter size"; nb := 1 << logm; f := array[nb / 8 + 1] of {* => byte 0}; # one extra zero to make sure set's not inverted. bits := hashbits(d, logm * k); while(k--){ v := bits.get(logm); f[v >> 3] |= byte 1 << (v & 7); } return sets->bytes2set(f); } hashbits(data: array of byte, n: int): ref Bits { d := array[((n + 7) / 8)] of byte; digest := array[Keyring->SHA1dlen] of byte; state := keyring->sha1(data, len data, nil, nil); extra := array[2] of byte; e := 0; for(i := 0; i < len d; i += Keyring->SHA1dlen){ extra[0] = byte e; extra[1] = byte (e>>8); e++; state = keyring->sha1(extra, len extra, digest, state); if(i + Keyring->SHA1dlen > len d) digest = digest[0:len d - i]; d[i:] = digest; } return ref Bits(d, 0); } # XXX could be more efficient. Bits.get(bits: self ref Bits, n: int): int { d := bits.d; v := 0; nb := bits.n; for(i := 0; i < n; i++){ j := nb + i; if(int d[j >> 3] & (1 << (j & 7))) v |= (1 << i); } bits.n += n; return v; }