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I was just toying with search algorithms a while ago and after a few benchmarks, I was impressed to see how much faster the old bsearch() was comparend to std::binary_search(). I thought that any decent compiler would be able to replace std::binary_search() by bsearch() when possible, but even though I'm using GCC 4.7, bsearch seems to perform something like 5 times faster than std::binary_search.

So I thought that it would be a great exercise trying to create some kind of wrapper for bsearch with the same interface then std::binary_search. But for an unknown reason, I did not manage to do it. Here's my code:

template<typename InputIterator, class T>
bool binary_search(InputIterator first, InputIterator last, const T& value)
{
    auto cmp = [](const void* a, const void* b)
    {
        return (int) ((*(T*)a) == (*(T*)b));
    };

    std::cout << value << std::endl;
    T* res = (T*) bsearch(&value, first, last-first, sizeof(*first), cmp);
    return res != nullptr;
}

The code compiles fine and does not crash at execution. However, it seems that bsearch stops right after one internal iteration (*res is always equals to the value at the middle of the tab passed as parameter). I can't manage to find why it does not work. So, if possible, a little help would be fine.

Thanks.


For those who ask for the code used to check the speed:

const std::string keyword_str[] = {
    // Some strings
};

int cmp(const void* s1, const void* s2)
{
    return (int) ((*(std::string*)s1) == (*(std::string*)s2));
}

int main()
{
    time_t start, end;
    double dif;
    time (&start);

    // Code
    for (const string& str: keyword_str)
    {
        for (size_t i = 0 ; i < 1000000 ; ++i)
        {
            // std::binary_search (uncomment to check)
            //bool a = std::binary_search(keyword_str, keyword_str+28, str);

            // bsearch
            char** st = (char**) bsearch(&str, keyword_str, 28, sizeof(keyword_str[0]), cmp);
        }
    }

    time (&end);
    dif = difftime (end, start);
    printf("Time spent: %fs.\n", dif);

    return 0;
}
share|improve this question
3  
I'd be interested to see your test case that demonstrates this 5x performance gap. –  James McNellis Jun 5 '12 at 23:45
    
Done. There may be some differences since I had deleted the benchmark code meanwhile, but I think it was that. However, that is not the main point in my question^^ –  Morwenn Jun 5 '12 at 23:56
2  
Those that you name InputIterator need to implement the RandomAccessIterator concept –  K-ballo Jun 5 '12 at 23:58
7  
It's faster because cmp returns (int)false (== 0) for unequal elements. When bsearch sees that 0, it thinks it means "equal" and stops to search. So bsearch usually thinks it found the element quite quickly while std::binary_search does a real search. –  sth Jun 6 '12 at 0:06
2  
It is usually the other way around. std::sort and std::binary_search should be faster than the C functions qsort and bsearch because the templated C++ algorithms can inline the comparisons (assuming you used a comparator type rather than a comparison function), instead of calling out to external function as in the C functions –  newacct Jun 6 '12 at 3:49

3 Answers 3

bsearch takes a function pointer, and cmp is not a function pointer. (EDIT: I was wrong about this. Since cmp doesn't capture any variables -- it's brackets are empty -- it can be passed as a function pointer. This behavior is specified in §5.1.2/6 of the C++11 standard.)

bsearch also doesn't return the right values that the comparison function is expected to return. It should return -1 if the key is less than the array element, 0 if they are equal, and 1 if the key is greater than the array element. Your cmp function returns 0 if they are inequal and 1 if they are equal. As a result, if the first element you're comparing is inequal to the key, then your cmp makes bsearch think they're equal and bsearch stops because it thinks it found the right element immediately.

share|improve this answer
    
Oh, now you say it, I remember how wrong I am for the bsearch function. I did not know for the type of the cmp function though. Since I did not have any compilation error or anything, I just assumed the type was the right one. –  Morwenn Jun 6 '12 at 0:05

In general, it is not possible to use bsearch to implement std::binary_search because bsearch can only search a contiguous array of elements, whereas std::binary_search works on a range of iterators, for any iterator type. It could be a linked list iterator, a deque iterator, or some custom, exotic iterator that the user created. There is obviously no way to search these iterators with bsearch

share|improve this answer

Ok, I'm going to answer my own question to sum up what was said in the other answers: the main error was actually the one that Ken Bloom said: bsearch needs a function returning -1, 0 or 1, so achieving the same behavior as the one strcmp has with c strings. So, I modified the code to this:

template<typename T>
bool binary_search(const T* first, const T* last, const T& value)
{
    auto cmp = [](const void* a, const void* b)
    {
        return ((*(T*)a) < (*(T*)b)) ? -1 : ((*(T*)a) != (*(T*)b));
    };

    T* res = (T*) bsearch(&value, first, last-first, sizeof(*first), cmp);
    return res != nullptr;
}

As sth said, the code was mainly faster because of the inexact comparison: because of my incorrect cmp function, bsearch generally considered an inexact value as the right one and stopped right after the first one.

However, I ran the test again, and it seems that bsearch still performs faster (more like 1.5 times faster than 5 times though) than std::binary_search. To explain that, I would take newacct's answer and assume that since it's not as flexible as std::binary_search is, there are less operations done with bsearch than with std::binary_search.

And no, it can't replace std::binary_search since this version since it can only work with a contiguous array of elements.

Anyway, thank you everyone, you were of great help!

share|improve this answer
    
did you optimize? –  user102008 Jun 7 '12 at 8:27
    
"bsearch generally considered an inexact value as the right one" no, bsearch considered only the unequal values as the right one. your condition was kind-of reversed –  user102008 Jun 7 '12 at 8:28
    
What do you mean there by "optimize"? Anyway, in our case, "inexact" and "unequal" values means the same since the "exact" value to find is the "equal" one, right? –  Morwenn Jun 7 '12 at 9:14
    
optimize as in options to the compiler like -O2 etc. "inexact" could also mean non-strict comparisons like <= –  user102008 Jun 7 '12 at 19:02
    
No, i did not optimize anything. It may indeed make a difference. Ok, sorry for using wrong words, English is far from being my native language. –  Morwenn Jun 7 '12 at 21:18

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