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Good evening,

I was asked to write down a code that by given 2 sorted Arrays of strings, returns the number of strings that appears in both of the arryas.

The solution of for this code must be linear, which means that I must go through each array only once. Otherwise, we could just comapre each string to all the strings in other array.

For example:

sharedStr({"Call","me","Ishmael"},{"Call","me","Jonha"})--> 2

I would like your help understanding What does it mean sorted arrays that contains strings? There isn't any special Description of the way it has been sorted. what is the basic ordinary sorting of strings?

How does one compare between two strings any way? It's a compiler error. (I'm using eclipse. I noticed that chars can be compared automatcly).

Thank you guys.

share|improve this question
I don't know: heres the only examples: sharedStr({"Call","me","Ishmael"},{"Call","me","Jonha"})  2 sharedStr ({"a","c","x"},{"z","b","c","x","a"})  3 sharedStr ({"a","b","c"},{"a","b","c"})  3 – Unknown user Mar 31 '11 at 20:40
If the assumption was, "given two sorted arrays of strings," does it really matter how the sort came to be? Was the question about an algorithm given this assumption, or does it require the sorting itself in the answer? – Santa Mar 31 '11 at 20:41
Sorry, second example is for un-sorted code, first I wanted to understand what does it mean, before I write the un-sorted one. – Unknown user Mar 31 '11 at 20:42
I do not believe this is possible without comparing each element to each element unless they are sorted. – user489041 Mar 31 '11 at 20:43
@user: well I was asked for linear solution for both cases. – Unknown user Mar 31 '11 at 20:45
up vote 2 down vote accepted
int x =  0;
int i= 0;
int j = 0;
while(i != list1.length && j != list2.length){
  int v = list1[i].compareTo(list2[j]);
  if (v == 0){
  }else if (v < 0){
  } else {
return x;

This makes the straightforward assumption that the strings are sorted using String.compareTo which would make sense.

share|improve this answer
I edited it to terminate the while loop, oops. Also, this won't work in case of duplicates, but that can easily be remedied in the v==0 section if needed – Jean-Bernard Pellerin Mar 31 '11 at 20:45
+1 excellent answer – OscarRyz Mar 31 '11 at 20:45
And +1 to yours as well – Jean-Bernard Pellerin Mar 31 '11 at 20:52
I don't think you could do it in O(n) for unsorted lists, you certainly could in O(nlog n) by sorting then using this. – Jean-Bernard Pellerin Mar 31 '11 at 21:09
@Nir: Correct - there is no linear implementation. Try to work out an example using randomized arrays and see what it would take - it should be fairly self evident. – Yann Ramin Mar 31 '11 at 21:09

What does it mean sorted arrays that contains strings? There isn't any special description of the way it has been sorted. what is the basic ordinary sorting of strings?

It means the elements in the array are ordered in a natural sequence. For strings this is alphebetical order with lowercase words place before upper case.

How does one compare between two strings any way?

By invoking the compareTo method. If it returns 0 they strings are equal, if return < 0 the first string is lower than the second, if return > 0 the firs string is higher than the second.

As for how to count repetitions linearly see this: comparing strings in java

share|improve this answer
+1 thank you oscar for the explanations. – Unknown user Mar 31 '11 at 20:49
  1. Strings are usually ordered in lexicographic fashion (alphabetical). However, as long as the ordering is consistent, the exact ordering method is not important for this problem (they could be reverse sorted for instance).
  2. Java compares objects (not object references) using .equals() (for boolean) or .compareTo() (for relational comparison) For instance:


String a = "Hello";
a.equals("Hello"); // true
String b = "Not hi";
b.equals(a); // false

Be careful accidentally using == - for constant strings, due to VM designs, it may actually say two Strings are equal, as they are in fact the same object.

share|improve this answer
thank you Yann. – Unknown user Mar 31 '11 at 20:56

First, the second part of your question:

Comparing strings in Java isn't as simple as:

if(sStringOne == sStringTwo)

you should instead use methods of the string class

    // Equal

Second, the first part of your question:

Yes, it would be easy to loop through the first array and count each indexs occurence in the second array. Since you've specified each array must be iterated only once however, perhaps the following algorithm may suit:

  1. Create an integer variable initialised to zero to count the matching occurences.
  2. Loop through array one 2.1 For each index, check to see if it's string is present in the other array, do this with the contains function contains function example 2.2 If string is found in other array, increment counter.
  3. read the counter, this is the number of matching strings
share|improve this answer
Thanks sam for the answer. – Unknown user Mar 31 '11 at 20:57

Go with the assumption that the two lists are sorted before entering your sharedStr algorithm. You'd want to keep two references: each to an element in each of the two lists.

Then you'd start comparing element after element and progress either or both of the references accordingly. Here's a pseudo-code:

def sharedStr(lista, listb):
    indexa = indexb = 0
    shared = 0

    while 1:
            a = lista[indexa]
            b = listb[indexb]
        except IndexError:     # we fell off one of the lists

        if a == b:
            shared += 1
            indexa += 1
            indexb += 1
        elif a < b:
            indexa += 1
        else:    # b < a
            indexb += 1

    return shared

Yes, this is also a valid Python code. ;-)

share|improve this answer

If nothing was specified on what the ordering means, then it's probably indicative that it is the natural ordering of Strings which is lexicographic - from the JavaDoc for the appropriate function to compare two Strings - compareTo(), the definition of lexicographic ordering is copied and pasted below.

Note that using compareTo() is different from simply checking the equality of two strings which is done using the equals() method (and not the == operator which doesn't doesn't check for 'meaningful' equality, only referential equality); compareTo on the other hand will tell you what the relative ordering between two strings is i.e. are they equal (return value of 0) or does one come before the other?):

This is the definition of lexicographic ordering. If two strings are different, then either they have different characters at some index that is a valid index for both strings, or their lengths are different, or both. If they have different characters at one or more index positions, let k be the smallest such index; then the string whose character at position k has the smaller value, as determined by using the < operator, lexicographically precedes the other string. In this case, compareTo returns the difference of the two character values at position k in the two string -- that is, the value:


If there is no index position at which they differ, then the shorter string lexicographically precedes the longer string. In this case, compareTo returns the difference of the lengths of the strings -- that is, the value:


This effectively means they're ordered alphabetically with shorter strings in lower case first, just like in a dictionary.

share|improve this answer
Thank you for this. – Unknown user Mar 31 '11 at 20:57

Because the arrays are sorted, you can step through them knowing you're walking them in order.

import java.util.List;
import java.util.LinkedList;
class StringTest {
    static List<String> sharedStrings(String[] a, String[] b) {
        List<String> result = new LinkedList<String>();
        int apos = 0;
        int bpos = 0;
        while(!(apos == a.length || bpos == b.length)) {
            int comp = a[apos].compareTo(b[bpos]);
            if(comp == 0) result.add(a[apos++]);
            else if(comp > 0) bpos++;
            else apos++;
        return result;
    public static void main(String[] args) {
        String[] a = new String[]{"this","is","a","test"};
        String[] b = new String[]{"test","for","a","party"};


        List<String> result = sharedStrings(a,b);
        for(String s : result) System.out.println(s);

share|improve this answer

The fact that the arrays are sorted is a red herring, it is irrelevant to the solution. Use a Map<String, Integer> Steps:

  1. For each string in the first array do the following:
    1. do a map.get(currentString)
    2. if that is null, do a map.put(currentString, new Integer(0))
  2. For each string in the second array do the following:
    1. do a map.get(currentString)
    2. if that is null, ignore it, it is not a duplicate.
    3. If that is not null, do a map.put(currentString, new Integer(currentInteger.intValue() + 1);
  3. do a map.getKeySet().iterator() and iterate through the keys.
  4. for each key, get the value. The value is the count of strings that are in both arrays.
share|improve this answer

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