# Efficient algorithm for difference of array and a known subsequence?

I'm passing an array to a library function which returns an array which is a subsequence of the input array. That is to say the orders of the first and second array are identical but the second array may be lacking any number of elements of the first array. There will be no duplicates in either array!

I want to then build a new array of all the elements which were in the input but are not in the output of the function.

For some reason though it sounds trivial I keep getting it wrong, especially at the ends of the arrays it seems.

Example 1 (typical):

input array a:

``````[ yyz, ltn, tse, uln, ist, gva, doh, hhn, vlc, ios, app, tlv, lcy ]
``````

input array b:

``````[ yyz, ltn, tse, uln, ist, gva, doh, hhn, vlc, tlv, lcy ]
``````

output array "diff":

``````[ ios, app ]
``````

Example 2 (minimal, reveals some bugs when the difference is at the end of the strings):

input array a:

``````[ usa ]
``````

input array b:

``````[ ]
``````

output array "diff":

``````[ usa ]
``````

(I'm going to implement it in JavaScript / jQuery but I'm more interested in a generic algorithm in pseudocode since I'll actually be dealing with arrays of objects. So please I'm looking for algorithms which specifically use array indexing rather than pointers like I would in C/C++)

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Can you give an example of such arrays? –  Gumbo Dec 29 '11 at 9:14
I do not get your last request. Isn't the complementary array as you describe it actually the output? The output is a subsequence of the input so the members of the output that are also members of the input are all the elements of the output. –  Ivaylo Strandjev Dec 29 '11 at 9:17
@istrandjev: Yes indeed I just realized that too and removed it. I was generating it as part of my debugging but it makes no sense in code that actually works (-: –  hippietrail Dec 29 '11 at 9:19
Gumbo's answer is the kind of thing I was looking for, with a single loop and two indeces, unlike the other suggested answers so far which have two loops or a conversion to a random access datatype. If the second were not a subsequence (ie had a different order) of the first I would in fact first convert it to a hash/map/dictionary/associative array first - but that will be less efficient in the case with guaranteed subsequence. Now to test it in my actual code... –  hippietrail Dec 29 '11 at 9:47

As the second array b is a subset of the first array a with the same order, you can walk both in parallel, compare the current values, and take the current value of a if it is different from the current value of b:

``````var a = ['yyz','ltn','tse','uln','ist','gva','doh','hhn','vlc','ios','app','tlv','lcy'],
b = ['yyz','ltn','tse','uln','ist','gva','doh','hhn','vlc','tlv','lcy'],
diff = [];
var i=0, j=0, n=a.length, m=b.length;
while (i<n && j<m) {
if (a[i] !== b[j]) {
diff.push(a[i]);
} else {
j++;
}
i++;
}
while (i<n) {
diff.push(a[i++]);
}
``````

Or if you prefer just one `while` loop:

``````// …
while (i<n) {
if (j<m && a[i] === b[j]) {
j++;
} else {
diff.push(a[i]);
}
i++;
}
``````
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This seems to suffer a problem I also had when the difference is at the end of the array. I'll add a new minimal example to the question to test for this. –  hippietrail Dec 29 '11 at 10:05
I've put it on jsfiddle: jsfiddle.net/EBtHJ –  hippietrail Dec 29 '11 at 10:14
@hippietrail You’re right. You need to take the rest of the first array a after the comparing loop. –  Gumbo Dec 29 '11 at 11:06
Great this now works! As a challenge do you think getting it to work with just one loop over the longer string could still be elegant? Intuitively it seems it should be possible. –  hippietrail Dec 29 '11 at 11:11
@hippietrail Yes, it is possible. I think the elegance only depends on one's own liking. –  Gumbo Dec 29 '11 at 11:15

In java i would probably do something like this if I hade to use Arrays. You will have to loop over all your objects you get back and you will have to compare them to all of thoese you sent in so you will in the worst case have a O(n^2) complexity I belive, but, you can probably improve this by sorting your list you send in and the use pointers to to check each position (but since you didnt want to use pointers I leave this sample out) then you might be able to compare this in O(n).

``````public void doYourJob(){
Object[] allObjects = new Object[10]; //hold all original values
Object[] recivedArray = yourBlackBox(allObjects); //send in the array an gets the smaller one
Object[] missingArray = new Object[allObjects.length - recivedArray.length];
for(Object inObj : allObjects){
boolean foundObject = false;
for(Object obj : recivedArray){
if(inObj.equals(obj)){
foundObject = true;
break;
}
}
if(!foundObject)
missingArray add inObj //add the missing object. This is not correct java code. =)
}
}
``````

If I were aloud to use something from the Collection interface then this would be much simpler since you can use a "myArray.contains()" method.

``````public void doYourJob(){
List<Object> allObjects = new ArrayList<Object>(); //hold all original values
List<Object>  recivedArray = yourBlackBox(allObjects); //send in the array an gets the smaller one
List<Object>  missingArray = new ArrayList<Object>();
for(Object inObj : allObjects){
if(!recivedArray.contains(inObj))
}
}
``````
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The arrays are effectively already sorted since the shorter is known to be a subsequence. Possibly not if either array contains duplicates but I just now clarified to question to state there will not be dupes in either array when I realized this was also important. –  hippietrail Dec 29 '11 at 9:40

Do you have a guaranteed ordering imposed on your arrays? If so, it should be relatively simple to do something like:

``````# our inputs are array1 and array2, array2 is the one with 0 or more missing elements
ix1 = 0
ix2 = 0
diff = new array
while ix2 < length(array2)
while (ix1 < length(array1)) and (array1[ix1] != array2[ix2])
ix1 = ix1 + 1
ix1 = ix1 + 1
ix2 = ix2 + i

return diff
``````

If you do not have an ordering, you can either impose one (sort both arrays) or you can use a hash table.

``````hash = new hash
diff = new array

for each element in array1
hash[element] = 1

for each element in array2
hash[element] = hash[element] + 1

for each key in hash
if hash[key] == 1
``````

Both of these should run in (roughly) O(n), if (and only if) adding an element to an array is O(1) (if you double the size of the result array every time it gets filled, it's at least asymptotically O(1)).

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