ref: f8935b5778397074d41a48205e5c7f87d7b531fe
dir: /man/2/bloomfilter/
.TH BLOOMFILTER 2 .SH NAME Bloomfilter \- Bloom filters .SH SYNOPSIS .EX include "sets.m"; include "bloomfilter.m"; bloomfilter := load Bloomfilter Bloomfilter->PATH; init: fn(); filter: fn(d: array of byte, logm, k: int): Sets->Set; .EE .SH DESCRIPTION A Bloom filter is a method of representing a set to support probabilistic membership queries. It uses independent hash functions of members of the set to set elements of a bit-vector. .I Init should be called first to initialise the module. .I Filter returns a Set .I s representing the Bloom filter for the single-member set .RI { d }. .I K independent hash functions are used, each of range .RI "[0, 2^" logm ), to return a Bloom filter .RI 2^ logm bits wide. It is an error if .I logm is less than 3 or greater than 30. .PP Bloom filters can be combined by set union. The set represented by Bloom filter .I a is not a subset of another .I b if there are any members in .I a that are not in .IR b . Together, .IR logm , .IR k , and .IR n (the number of members in the set) determine the .I "false positve" rate (the probability that a membership test will not eliminate a member that is not in fact in the set). The probability of a .I "false positive" is approximately (1-e^(-\fIkn\fP/(2^\fIlogm\fP))^\fIk\fP. For a given false positive rate, .IR f , a useful formula to determine appropriate parameters is: \fIk\fP=ceil(-log₂(\fIf\fP)), and \fIlogm\fP=ceil(log₂(\fInk\fP)). .SH EXAMPLES Create a 128 bit-wide bloom filter .I f representing all the elements in the string array .IR elems , with .IR k =6. .EX A, B, None: import Sets; for(i:=0; i<len elems; i++) f = f.X(A|B, filter(array of byte elems[i], 7, 6)); .EE Test whether the string .I s is a member of .IR f . If there were 12 elements in .IR elems , the probability of a false positive would be approximately 0.0063. .EX if(filter(array of byte s, 7, 6).X(A&~B, f).eq(None)) sys->print("'%s' might be a member of f\en", s); .EE .SH SOURCE .B /appl/lib/bloomfilter.b .SH SEE ALSO .IR sets (2)