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I'm trying to evaluate if comparing two string get slower as their length increases. My calculations suggest comparing strings should take an amortized constant time, but my Python experiments yield strange results:

Here is a plot of string length (1 to 400) versus time in milliseconds. Automatic garbage collection is disabled, and gc.collect is run between every iteration.

Time vs string length

I'm comparing 1 million random strings each time, counting matches as follows.The process is repeated 50 times before taking the min of all measured times.

for index in range(COUNT):
    if v1[index] == v2[index]:
        matches += 1
        non_matches += 1

What might account for the sudden increase around length 64?

Note: The following snippet can be used to try to reproduce the problem assuming v1 and v2 are two lists of random strings of length n and COUNT is their length.

timeit.timeit("for i in range(COUNT): v1[i] == v2[i]",
  "from __main__ import COUNT, v1, v2", number=50)

Further note: I've made two extra tests: comparing string with is instead of == suppresses the problem completely, and the performance is about 210ms/1M comparisons. Since interning has been mentioned, I made sure to add a white space after each string, which should prevent interning; that doesn't change anything. Is it something else than interning then?

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You should probably include the exact version of Python, just in case it makes a difference. – Zan Lynx Sep 28 '12 at 22:27
I'm using 3.2.3 on Windows – Clément Sep 28 '12 at 22:29
Since the strings are random, the comparison process will almost always stop at the first character. So what you are most likely seeing is just memory management issues - newing them, filling them with random contents, etc. – Mike Dunlavey Sep 29 '12 at 1:13
@MikeDunlavey: Python does not compare strings on a character by character base - it uses a hash of the strings for doing so. – jsbueno Sep 29 '12 at 3:12
@Mike,I'm not timing the creation, only the comparison. – Clément Sep 29 '12 at 8:18
up vote 9 down vote accepted

Python can 'intern' short strings; stores them in a special cache, and re-uses string objects from that cache.

When then comparing strings, it'll first test if it is the same pointer (e.g. an interned string):

if (a == b) {
    switch (op) {
    case Py_EQ:case Py_LE:case Py_GE:
        result = Py_True;
        goto out;
// ...

Only if that pointer comparison fails does it use a size check and memcmp to compare the strings.

Interning normally only takes place for identifiers (function names, arguments, attributes, etc.) however, not for string values created at runtime.

Another possible culprit is string constants; string literals used in code are stored as constants at compile time and reused throughout; again only one object is created and identity tests are faster on those.

For string objects that are not the same, Python tests for equal length, equal first characters then uses the memcmp() function on the internal C strings. If your strings are not interned or otherwise are reusing the same objects, all other speed characteristics come down to the memcmp() function.

share|improve this answer
I thought that was the case but the interning pattern on my machine seems highly irregular: repeating id('ss') will give same results, but repeating id('ssssss') will give different ones each time. And repeating id('sssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssss') will return the same results again too. Do you know why? Maybe I should ask it as a separate question.. – K Z Sep 28 '12 at 22:53
In my Python 2.7.3, id('ss') gives different results each time, while id('ssssss') and id on the long string` consistently return the same number. – Fred Foo Sep 28 '12 at 22:57
@larsmans I am also on python 2.7.3 on OS X. What I am not sure is whether "short strings" are interned and long strings aren't. Because id(LONG_STRING) will give me the same results too for certain lengths. – K Z Sep 28 '12 at 23:00
Store the string in a variable; interning does not always make the string immortal; it'll re-use the memory address for new strings. Sometimes running id('onestring') then id('anotherstring') gives the same memory address too. – Martijn Pieters Sep 28 '12 at 23:02
@larsmans: _ is set to the return value of id(), not the string literal you called it on. :-) – Martijn Pieters Sep 28 '12 at 23:08

I am just making wild guesses but you asked "what might" rather than what does so here are some possibilities:

  • The CPU cache line size is 64 bytes and longer strings cause a cache miss.
  • Python might store strings of 64 bytes in one kind of structure and longer strings in a more complicated structure.
  • Related to the last one: it might zero-pad strings into a 64-byte array and is able to use very fast SSE2 vector instructions to match two strings.
share|improve this answer
Hi Zan, thanks for the answer! I looked at Python's implementation, but I couldn't find anything like this... Do you know where I could look? Also, do you know what could account for the steady increase for lengths from ~64 to ~100? – Clément Sep 28 '12 at 22:34
I looked at the source. There doesn't seem to be anything going on with how python handles strings that changes at that length, but the cache miss sounds very reasonable. – BostonJohn Sep 28 '12 at 23:04

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