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I'm implementing the binary search algorithm in C++, but the algorithm isn't returning the correct value. The code can be found here.

template<class T>
int binary_search(T search_value, T search_array[]) {

    int mid; /* The middle element of the remaining array to be searched. */
    int min = 0; /* The first index of the array. */
    /* This forumla gives us the size of the array. */
    int max = sizeof(search_array)/sizeof(search_array[0]);

    /* Continue searching until min >= max. */
    while (min < max) {
        /* Compute the value of mid using a formula that won't produce a number
         * larger than the maximum allowed value of an integer. */
        mid = (max-min)/2 + min;

        /* Depending the whether search_value is larger or smaller than the
         * value of whatever is at search_array[mid], set one of mid and max
         * equal to mid. */
        if (search_value > search_array[mid])
            min = mid + 1;
        else if (search_value < search_array[mid])
            max = mid + 1;
        else {
            return mid;

    return -1;

Given an array {0, 1, 3, 5, 7, 9} and searching for 3, the function should return 2, the index of 3 in the array. My function is returning -1 though, which means 3 was not found in the array. Where's the problem?

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Seems like a pretty trivial test case to step through in the debugger.. –  Blorgbeard Feb 13 '12 at 21:59
The first. Using sizeof-construction for receiving array size in function is a bad idea. Make one more argument in function, something like int array_size –  mikithskegg Feb 13 '12 at 22:00
Have you tried to debug? –  littleadv Feb 13 '12 at 22:01
If it is not homework: why don't you use STL binary_search? –  Naszta Feb 13 '12 at 22:02
I was just reading about binary search the other day in "Data Structures and Program Design in C" by Kruse/Leung/Tondo that "... the method dates back at least to 1946, but the first version free of errors and unnecessary restrictions seems to have appeared only in 1962". The idea is simple, but it isn't at all easy to get right... –  Lance Richardson Feb 13 '12 at 23:27

7 Answers 7

up vote 5 down vote accepted
int max = sizeof(search_array)/sizeof(search_array[0]);

This approach is not good to compute the size of the array, it works only in the function where you create your array.

Pass the size of your array as a parameter of your function, it's the easiest approach.

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This worked. Just for giggles though, what is a better way to compute the size of an array? Essentially, all I did was move sizeof(search_array)/sizeof(search_array[0]) into the main method and pass it to the function. –  mau5padd Feb 13 '12 at 22:06
The problem is that search_array in your function is just a pointer to a memory address, not an array, thus this approach do not work except in the function where you create your array (in this case, the main). There is not a standard way to compute the size of an array, however a common approach is to pass it as a parameter of the function. Other approaches may consist in using particular structures, like std::vector, which store the length of the array and eliminate the problem to compute it at runtime. –  Saphrosit Feb 13 '12 at 22:10

This line is a at least one problem:

int max = sizeof(search_array)/sizeof(search_array[0]); 

Arrays are not passed through the function, so your declaration:

int binary_search(T search_value, T search_array[])

... is the same as:

int binary_search(T search_value, T *search_array)

And thus max is size of the pointer divided by the size of element, so in the best case scenario it could be up to 6, but most likely is 0 or 1.

I think in C++ you can pass array by reference and know its size using form of declaration like this:

template <size_t array_length>
void foo (const char (&data) [array_length])
   // ...
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There's a bug in your implementation:

else if (search_value < search_array[mid])
    max = mid + 1;

should be:

    max = mid - 1;
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While a bug, this is will only degrade performance, and is not the reason for the malfunction, right? –  orlp Feb 13 '12 at 22:01
Probably not. Unless the array is small, then it might access memory beyond the bounds of the array. –  Greg Hewgill Feb 13 '12 at 22:01
I didn't see this, thanks for pointing it out! –  mau5padd Feb 13 '12 at 22:08
My money is on max = mid; –  Neil Feb 13 '12 at 22:15

This line does not do what you think it does:

int max = sizeof(search_array)/sizeof(search_array[0]);

Because arrays automatically decay to pointers when passed into a function this will effectively be equal to this:

int max = sizeof(void*)/sizeof(search_array[0]);

Which is not what you wanted. Either use std::vector which stores the size for you or a manual size_t array_length argument.

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int max = sizeof(search_array)/sizeof(search_array[0]);

search_array is a pointer not an array.

A parameter of type array of T in a function prototype is automatically adjusted to a pointer to T.

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This line is concerning:

int max = sizeof(search_array)/sizeof(search_array[0]);

sizeof(search_array) is going to be the size of a pointer, 4 or 8 bytes depending on the platform. Typically, I try to avoid the use of sizeof on variables. It plays nicer used on types. For example, in your case sizeof(T).

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Your max needs to be one less as the index starts from 0.

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