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I am interested if it is known what algorithms PHP uses for explode/implode functions, and what are their time complexities?

Thank you in advance.

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3  
O(N), I suppose. I don't see how you could do any better or any worse. –  NullUserException Dec 28 '12 at 23:40
    
Why do you even care? –  Kamil Tomšík Dec 28 '12 at 23:49
1  
@KamilTomšík- This could be hugely important in a program that makes lots of calls to explode/implode on large data sets. If the function is superlinear, then it would be a very bad idea to try using these functions in a large program and the OP would be better off reimplementing them to be faster. If they're somehow sublinear, then it would be great to know because it would be worth rewriting code to try to use explode/implode more frequently. –  templatetypedef Dec 28 '12 at 23:54
    
@KamilTomšík I need to know the running time of the program using explode. as simple as that. –  Headshota Dec 28 '12 at 23:58

3 Answers 3

In string.c you can see the algorithm. It starts at about 1021 line..

    if (p2 == NULL) {
    add_next_index_stringl(return_value, p1, Z_STRLEN_P(str), 1);
    } else {
    do {
        add_next_index_stringl(return_value, p1, p2 - p1, 1);
        p1 = p2 + Z_STRLEN_P(delim);
    } while ((p2 = php_memnstr(p1, Z_STRVAL_P(delim), Z_STRLEN_P(delim), endp)) != NULL &&
             --limit > 1);

    if (p1 <= endp)
        add_next_index_stringl(return_value, p1, endp-p1, 1);
    }

Its just a single loop So I'd call it has O(N) complexity. And check carefully the code. Its scanning the string and adding the result to return_value. So yes. Its linear.

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1  
One quick question - what is the complexity of Z_STRLEN_P? If this isn't O(1), then the complexity would probably be more accurately O(mn), where n is the string length and m is the length of the delimiter. –  templatetypedef Dec 29 '12 at 0:02
    
@templatetypedef that is O(1). Because delim is a zval and this macro is pointing to (zval).value.str.val –  shiplu.mokadd.im Dec 29 '12 at 0:05

Short answer: For a single byte delimiter, explode’s time complexeity is in Ο(N‍); but for multiple byte delimiters, its time complexity is Ο(N2).

implode is clearly in Ο(N‍) as it simply glues the pieces together.

Extended answer: The basic algorithm of explode is to search for occurrences of delimiter in string and copy the enclosed substrings into a new array.

To find the positions of delimiter in string, it uses the internal function zend_memnstr (php_memnstr is just an alias for zebd_memnstr). For a single byte, it simply calls memchr that does a linear search (thus in Ο(N)).

But for delimiter values longer than one byte, it calls memchr to search for positions of the first byte of delimiter in string, tests if the last byte of delimiter is present at the expected position in string, and calls memcmp to also check the bytes in between. So it basically checks whether delimiter is contained in string for any possible position. This already sounds suspiciously like Ο(N2).

Now let’s have a look at the worst case for this algorithm where both the first and the last byte of the pattern fit but the second-last doesn’t, e.g.:

string:     aaaabaaaa
delimiter:  aaaaaa

aaaabaaaa
aaaaXa      (1+1+5)
 aaaX?a     (1+1+4)
  aaX??a    (1+1+3)
   aX???a   (1+1+2)

A X represents a mismatch in memcmp and ? unknown bytes. The value in parentheses is the time complexity in uniform measure. This would sum up to

Σ (2+i) for i from M-floor(N/2) to ceil(N/2)

or

(N-‍M+1)·2 + Σ i - Σ j for i from 1 to ceil(N/2), j from 1 to M-floor(N/2)-1.

Since Σ i for i from 1 to N can be expressed by N·(N+1)/2 = (N2+N)/2, we can also write:

(N-‍M+1)·2 + (ceil(N/2)2+ceil(N/2))/2 - ((M-floor(N/2)-1)2+(M-floor(N/2)-1))/2

For simplicity, let’s assume both N and M are always even, so we can omit the ‘ceil’s and ‘floor’s:

(N-‍M+1)·2 + ((N/2+1)2+N/2+1)/2 - ((M-‍N/2-1)2+(M-‍N/2)-1)/2
= (N-‍M+1)·2 + N2/8+3·N/4+1 - ((M-‍N/2-1)2+(M-‍N/2)-1)/2

Furthermore, we can estimate the values up: N-‍M < N and M-‍N/2-1 < N. Thus we get:

N·2 + N2/8+3·N/4+1 - (N2+N)/2
< N·2 + N2+4·N - N2+N

This proofs that explode with multiple byte delimiters is in Ο(N2).

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Excellent answer! –  Headshota Dec 29 '12 at 11:03

According to PHP sources on github it is linear, you can check explode() here: https://github.com/php/php-src/blob/master/ext/standard/string.c#L1009

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