The challenge: Given a sorted array of names (only first name) and a name X for which I need to find out how many times it is present in the array. Constraint: Only binary search is allowed.Also I cannot use any string library function. Sample Input:


output: 1(as pqr occurs just once in the array of strings/words).

  • 3
    Cool challenge. Good luck. – byxor Jan 29 '17 at 15:36
  • where is your code ? – Mohsen_Fatemi Jan 29 '17 at 15:41
  • 1
    I'm voting to close this question as off-topic because it's a homework dump with no own effort shown. – JJJ Jan 29 '17 at 15:43
  • I am able to solve the challenge with linear search and using string library functions. However, I am clueless on the algo with the constraints imposed. – 204 Jan 29 '17 at 15:43
  • then good luck :) – Mohsen_Fatemi Jan 29 '17 at 15:44

1) Compare string without using string library: implement the string comparison function by yourself: compare the first characters of both strings, only if they are equal, compare the next characters, and so on.

2) Sorted array and binary search: Binary search is perfect for a sorted array. Let x be the query string.

Step 1: Use binary search to find x in the sorted array.

Step 2: If cannot found, return 0.

Step 3: If found, binary search for x in the left and right subarray. Record the result indexes.

Repeat step 3 (Note: smaller left, right sub-arrays in each loop), stop the search in left (or right) direction if cannot find x in left (or right) subarray. The previous found indexes of left and right gives the range of results.

  • Should not have answered. OP did not show any effort of him trying to do it by himself. Don't spoon-feed. Also, the question is badly written: he stated that he knows how to do it with linear search but it's not an option. In your answer, you combine linear and binary searches. We don't know if it's ok to do so. – Fureeish Jan 29 '17 at 16:16
  • About the question: if you want to know the number of equal elements, the minimum number of comparisons is the number of those equal elements. Linear scan the whole array is different from linear scan only the equal elements – cuongptnk Jan 29 '17 at 16:21
  • About the OP: the answer gives the idea, not the code. To get it done, the OP still need to do the work. I have seen a lot of questions in here, where the OP asks something similar and give some codes. Then people jump in and give him the perfect running code. In my opinion, that is even worst; but no one says it is bad. – cuongptnk Jan 29 '17 at 16:24
  • Considering weridness of the task, I would not be surprised if the aim was to binary search X, add 1 to count and remove that string. Repeat untill BS fails to find. Regardless, questions like that should not be answered for various reasons. @JJJ's comment sums it up well – Fureeish Jan 29 '17 at 16:24
  • @Fureeish Right. Using only the BS is better. I update the answer. – cuongptnk Jan 29 '17 at 16:31

There are plenty of questions on SO about how to compare strings in C, so I will just direct you to those questions and their answers. Basically, the solution is to compare the strings character by character until you either find a pair of characters that differ, or until you reach the end of both strings. Then compare the characters at the point you've reached, and return the result of that comparison.

As for using binary search to find the number of times a given target string occurs in a sorted array, probably the simplest efficient solution is to do two binary searches: one for the starting point and one for the end point of the range of array elements equal to the target. The distance from the starting point to the end point will then give the length of the range.

The following binary search routine will return the index of the last element in the array haystack that is less than the target needle (or -1, if there is no such element):

int find_last_less_than(int needle, int *haystack, int length) {
    int base = -1, step = length - base;

    // loop invariants:
    // 1. base == -1 || haystack[base] < needle
    // 2. base + step >= length || haystack[base + step] >= needle
    while (step > 1) {
        step = (step + 1) / 2;  // divide interval in half, rounding up
        int index = base + step;
        if (index < length && haystack[index] < needle) base += step;
    return base;

Note that for simplicity (and to avoid just spoon-feeding you the entire solution) this code searches an array of integers rather than of strings, but I trust that you can figure out how to modify it as needed.

Hopefully, it should also be clear how to modify the search so that, instead of finding the last element less than the target, it will find the index of the last element less than or equal to the target. Subtracting the former from the latter will then yield the number of times the target occurs in the array.

  • I see find_last_less_than as the variants of binary search in your comment. Good to know. I always thought of one standard BS. – cuongptnk Jan 29 '17 at 18:00
  • 1
    I would consider this a standard binary search. By variants, I meant extending the code to find both endpoints in a single search. One fairly simple optimization in that vein would be to add an extra variable int limit = length; to the function and an extra else if (index < length && haystack[index] > needle) limit = index; line inside the loop. That way, after finding the lower bound base, you would only need to search the range from base up to limit-1 for the upper bound. – Ilmari Karonen Jan 29 '17 at 18:10
  • I think your function is Exponential search variant as the definition in Wiki, en.wikipedia.org/wiki/… – cuongptnk Jan 29 '17 at 18:18
  • 1
    I would still say that it's just a basic binary search. If you're more used to seeing binary search written in terms of left and right variables, then mentally replace base in my code with left, and step with (right - left). – Ilmari Karonen Jan 29 '17 at 19:47
  • 1
    I see it now. Yup, it is standard BS. Thank you. – cuongptnk Jan 29 '17 at 19:59

Here is the code I wrote to perform the task:

enter code here
int first(char *a[26],int low,int high,char *word,int n);
int last(char*a[26],int low,int high,char* word,int n);

int mycomp(char* a,char* b){

  int i = 0;
  while (a[i] == b[i] && a[i] != '\0')
   if (a[i] > b[i])
      return 2;
   else if (a[i] < b[i])
     return -2;
     return 0;


int main(){

int n,count=0;

char dictionery[n][50];
char word[50];
  int i,j;


 i = first(dictionery[n],0,n-1,word,n);

  printf("No occurrances\n");

   j = last(dictionery[n],i,n-1,word,n);
   count = j-i+1;


 return 0;

int first(char *a[26],int low,int high,char *word,int n){

 if(high >= low){
    int mid = (high+low)/2;
    int d = mycomp(word,a[mid-1]);
    int e = mycomp(word,a[mid]);
    if((mid==0 || d>0)&& e==0)
        return mid;

    else if(e>0)
       return first(*a[],mid+1,high,word,n);
       return first(*a[],low,mid-1,word,n);


 return -1;


int last(char* a[26],int low,int high,char* word,int n){

    int mid = (high+low)/2;
    int d = mycomp(word,a[mid+1]);
    int e = mycomp(word,a[mid]);

    if((mid==n-1 || d<0)&& e==0 )
       return mid;
    else if(e<0)
       return last(*a[],low,mid-1,word,n);
       return last(*a[],mid+1,high,word,n);

return -1;


Is this the most efficient way of performing the task?

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.