Path: news.eternal-september.org!eternal-september.org!feeder3.eternal-september.org!panix!.POSTED.spitfire.i.gajendra.net!not-for-mail From: cross@spitfire.i.gajendra.net (Dan Cross) Newsgroups: comp.unix.shell Subject: Re: Bad performance of back-references Date: Sun, 1 Jun 2025 12:52:58 -0000 (UTC) Organization: PANIX Public Access Internet and UNIX, NYC Message-ID: <101hifa$o50$1@reader1.panix.com> References: <101hfq7$22v3c$1@dont-email.me> Injection-Date: Sun, 1 Jun 2025 12:52:58 -0000 (UTC) Injection-Info: reader1.panix.com; posting-host="spitfire.i.gajendra.net:166.84.136.80"; logging-data="24736"; mail-complaints-to="abuse@panix.com" X-Newsreader: trn 4.0-test77 (Sep 1, 2010) Originator: cross@spitfire.i.gajendra.net (Dan Cross) In article <101hfq7$22v3c$1@dont-email.me>, Janis Papanagnou wrote: >In a recent application case I used back-references to find duplicate >strings in large data sets. I tested that with grep as in > > grep -E -o '(.{42}).*\1' > >While this is obviously a neat way to formulate and solve the task in >principle it is impractical for performance reasons.[*] > >Applied on my MB sized data the task did not terminate and I killed >the process after a day. > >I also implemented the desired function explicitly (using two nested >loops) in a couple of languages (interpreted or compiled). All those >hand-crafted and non-optimized implementations terminated and did >that within minutes or up to only few hours (depending on the pattern >length). > >My astonishment is why the back-reference implementation performs so >badly here with 'grep'. > >Janis > >[*] Note: Back-references are not from the Regular Expression functions >class so they cannot be done in O(N) or O(N+K); so I don't expect this >complexity where I use them. This is not the question here, just to be >clear. Your results don't surprise me in the the least. First, "back references" make "regular expressions" not regular, in the formal sense sense that they are no longer isomorphic to deterministic finite automata or their NDFA simulations. Matching DFA is inherently linear, but _creating_ DFAs can be exponential; NDFAs can be created in reasonable time (I forget the exact complexity, I'm afraid) though executing them may be superlinear; regardless it's much better than exponential. Second, most implementations that support backreferences use backtracking to do so, which can be exponential in both space and time. There's some good background information here: https://swtch.com/~rsc/regexp/regexp1.html The bottom line is that regexp that use back tracking are not actually regular expressions, and there is no known way to make them fast generally. - Dan C.