I have a file that's 21056 bytes.

I've written a program in C that reads the entire file into a buffer, and then uses multiple search algorithms to search the file for a token that's 82 chars.

I've used all the implementations of the algorithms from the “Exact String Matching Algorithms” page. I've used: KMP, BM, TBM, and Horspool. And then I used strstr and benchmarked each one.

What I'm wondering is, each time the strstr outperforms all the other algorithms. The only one that is faster sometimes is BM.

Shouldn't strstr be the slowest?

Here's my benchmark code with an example of benchmarking BM:

double get_time()
    return (double)t.QuadPart/(double)f.QuadPart;
before = get_time();
BM(token, strlen(token), buffer, len);
after = get_time();
printf("Time: %f\n\n", after - before);

Could someone explain to me why strstr is outperforming the other search algorithms? I'll post more code on request if needed.

  • 2
    The error is in your code. At least Horspool should consistently outperform strstr – KMP may actually be slower. But since you didn’t post your code, we can’t help you. That said, you can chose your data deliberately to make the naive search win so the choice of input data is also relevant. – Konrad Rudolph Sep 28 '11 at 17:15
  • Are you seriously benchmarking searching for an 80 byte string in a 20k string?... Your sample size is so small you could do it by hand! – Blindy Sep 28 '11 at 17:18
up vote 27 down vote accepted

Why do you think strstr should be slower than all the others? Do you know what algorithm strstr uses? I think it's quite likely that strstr uses a fine-tuned, processor-specific, assembly-coded algorithm of the KMP type or better. In which case you don't stand a chance of out-performing it in C for such small benchmarks.

(The reason I think this is likely is that programmers love to implement such things.)

  • 2
    @Josh It does, don’t be misled. – Konrad Rudolph Sep 28 '11 at 17:34
  • 6
    glibc's implementation. It's not assembler but I'm sure it's heavily optimized. – Piotr Praszmo Sep 28 '11 at 17:35
  • 3
    @Josh: It doesn't, don't be misled! – TonyK Sep 28 '11 at 18:00
  • 2
    @Banthar Colour me surprised. I had looked at multiple strstr implementations (I’ve worked extensively on string search implementations over the last few years) and every implementation I saw was the naive search – which is a good choice, by the way (see above). I’m also surprised that they used BM instead of Horspool for long needles since the latter is known to perform better on average in typical situations (again, see above). – Konrad Rudolph Sep 29 '11 at 6:51
  • 3
    @Konrad: Ah, I see the algorithm description was worded a bit confusingly on the page I linked. But it is indeed a weakness-free algorithm: constant-time and linear-space. That it exists should be better known and appreciated! :) What's more, it's right where it should be: in the library implementation of strstr(). :) – j_random_hacker Sep 29 '11 at 12:32

Horspool, KMP et al are optimal at minimizing the number of byte-comparisons.

However, that's not the bottleneck on a modern processor. On an x86/64 processor, your string is being loaded into L1 cache in cache-line-width chunks (typically 64 bytes). No matter how clever your algorithm is, unless it gives you strides that are larger than that, you gain nothing; and the more complicated Horspool code is (at least one table lookup) can't compete.

Furthermore, you're stuck with the "C" string constraint of null-termination: SOMEWHERE the code has to examine every byte.

strstr() is expected to be optimal for a wide range of cases; e.g. searching for tiny strings like "\r\n" in a short string, as well as much longer ones where some smarter algorithm might have a hope. The basic strchr/memcmp loop is pretty hard to beat across the whole range of likely inputs.

Pretty much all x86-compatible processors since 2003 have supported SSE2. If you disassembled strlen()/x86 for glibc, you may have noticed that it uses some SSE2 PCMPEQ and MOVMASK operations to search for the null terminator 16 bytes at a time. The solution is so efficient that it beats the obvious super-simple loop, for anything longer than the empty string.

I took that idea and came up with a strstr() that beats glibc's strstr() for all cases greater than 1 byte --- where the relative difference is pretty much moot. If you're interested, check out:

BTW you've probably figured out by now that the x86 REP SCASB/REP CMPSB ops fall on their ass for anything longer than 32 bytes, and are not much improvement for shorter strings. Wish Intel had devoted a little more attention to that, than to adding SSE4.2 "string" ops.

For strings large enough to matter, my perf tests show that BNDM is better than Horspool, across the board. BNDM is more tolerant of "pathological" cases, such as targets that heavily repeat the last byte of a pattern. BNDM can also make use of SSE2 (128bit registers) in a way that competes with 32bit registers in efficiency and start-up cost. Source code here.

  • 2
    Have you tried submitting a patch to the glibc? Of course, this requires careful benchmark over a wide range of different inputs but your above explanation seems sound. – Konrad Rudolph Oct 29 '11 at 10:30
  • so given the cache optimization, is it a waste of time to try to outperform the naive search with Horspool? – mikew Mar 5 '13 at 3:40
  • @Mischa, Any advise how to compile this code for windows? I have no idea what is ffs and where to get it. – user626528 Apr 5 '13 at 12:01
  • Wow, so sorry I never answered that. For the record, the MSVC equivalent is _BitScanForward(), but it's a bit clunky. I wrap it as (pardon the code in comments please, O Editor) static inline uint32_t intlowz(uint32_t x) { uint32_t pos; return x ? (_BitScanForward(&pos, x), pos) : 32; } – Mischa May 27 '17 at 23:00

Without seeing your code, it's hard to say exactly. strstr is heavily optimized, and usually written in assembly language. It does things like reading data 4 bytes at a time and comparing them (bit-twiddling if necessary if the alignment isn't right) to minimize memory latency. It can also take advantage of things like SSE to load 16 bytes at a time. If your code is only loading one byte at a time, it's probably getting killed by memory latency.

Use your debugger and step through the disassembly of strstr -- you'll probably find some interesting things in there.

  • The effects of 4-byte-comparisons and SSE on string search are quite limited, unfortunately since there exist linear dependencies between the elements. In particular, you can’t just compare in non-overlapping 4-byte blocks: even if you compare 4 bytes at a time, you still need to compare overlapping blocks, not gaining much. – Konrad Rudolph Sep 29 '11 at 6:56
  • @Konrad: strstr can basically be implemented as a loop around strchr and strcmp/memcmp (with memcmp requiring an initial strlen). strchr can be implemented with some bit-twiddling tricks and doing 4-byte loads. memcmp can load 4 bytes at a time from each of the two comparands and compare those words. If the two operands don't have the same alignment, you keep track of two words at a time and bit-twiddle them to get the misaligned word to compare against the other string. See sysdeps/x86_64/memcmp.S in glibc, for example. – Adam Rosenfield Sep 29 '11 at 17:35
  • @Konrad: you gain something comparing the first 4 bytes of a pattern against a 4byte sliding window, shifting and inserting the next target string byte into the bottom of a 32bit word. It's not a much as you'd wish, since mixing 8 and 32 bit instructions on the same register stalls the instruction pipeline. SSE's a different story: you can compare 16 bytes from the target string with the first byte of the pattern, replicated 16 times. This seriously rocks. See my post below re an article with more details. – Mischa Oct 28 '11 at 18:48

Imagine you want to get something cleaned. You could just clean it yourself, or you could hire ten professional cleaners to clean it. If the cleaning job is an office building, the latter solution would be preferable. If the cleaning job was one window, the former would be preferable.

You never get any payback for the time spent setting up to do the job efficiently because the job doesn't take very long.

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