# Suggest an optimal algorithm for the sum of distances of the first match in two seqence

I have two list say L1 and L2, (minimum) sum of the lengths of the two lists.

For Example:

89 145 42 20 4 16 37 58 89

20 4 16 37 58 89

Output : 5

89 145 42 20 4 16 37 58 89

56 678 123 65467

Output : 0

19 82 68 100 1

100 1

Output : 5

Thanks,

PS: My language of choice is C and C++ hence the tag.

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Why is the output 3? –  Oliver Charlesworth Jan 21 '11 at 15:52
What exactly are you looking for? Walk us through the examples, telling exactly what you want to find. For example, what is a "matching element"? What is the "sum of the position"? –  lacqui Jan 21 '11 at 15:52
What is the "first match"? With lowest index in L1? Or with lowest sum of indices? –  Sven Marnach Jan 21 '11 at 15:53
@AraK: Define "first match". If L1 is {A, B, C} and L2 is {C, B, A}, which is the first match? –  Oliver Charlesworth Jan 21 '11 at 16:00
Although the question has been modified two or three times it's still cryptic... –  peoro Jan 21 '11 at 16:02

Add shorter list to hash (dictionary) key = number, value = index of first instance in list

Iterate through the other list and for each element try a lookup in the hash. When a match is made, add the indices together (value from hash plus current index in the list)

This runs in O(n)

boost::unordered_map or stdex::hash_map could be used for the hash

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This costs O(N) space. Can't be sure sure what OP defines as 'optimal'. –  Ishtar Jan 21 '11 at 16:08
I guess, simple `map<>` would work! –  Quixotic Jan 21 '11 at 16:09
@Philando Gullible - No! a map<> is sorted and will be significantly slower to insert and find than a hash. Only use a map for data that needs to be arranged in sorted order. –  T33C Jan 21 '11 at 16:37

Here is a linear time algorithm using a hash table.

To start with hash elements of `L1` (with element being the hash key and index being the value) if it is not already hashed.

Next, foreach element in `L2` see if the element has been hashed, if yes print the sum of the index of the element in `L2` and the hash value ( index of the same element in `L1`) and exit.

If no element of `L2` is found in the hash table, print `0` and exit.

Algorithm:

``````foreach ele N in L1 at position pos
if N not in hash
hash[N] = pos
end-if
end-foreach

foreach ele N in L2 at position pos
if N in hash
print pos + hash[N]
exit
end-if
end-foreach

print 0
``````
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``````for (int sum = 0; sum < a.length + b.length - 1; sum++)
for (int i = 0; i < a.length && i <= sum; i++)
if(a[i] == b[sum-i])
return sum;
return -1;
``````

This is O(1) in space and worst case O(n^2) in time. And best case O(1) in time! This algorithm is very quick for lists having a match in the first few elements.

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