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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.

6
  • 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"? Jan 21, 2011 at 15:52
  • 3
    What is the "first match"? With lowest index in L1? Or with lowest sum of indices? Jan 21, 2011 at 15:53
  • What's the output if the fiorst match is the first element in both sequences? Jan 21, 2011 at 15:56
  • 1
    @AraK: Define "first match". If L1 is {A, B, C} and L2 is {C, B, A}, which is the first match? Jan 21, 2011 at 16:00
  • 4
    Although the question has been modified two or three times it's still cryptic...
    – peoro
    Jan 21, 2011 at 16:02

3 Answers 3

1

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

2
  • This costs O(N) space. Can't be sure sure what OP defines as 'optimal'.
    – Ishtar
    Jan 21, 2011 at 16:08
  • @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, 2011 at 16:37
1

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
0
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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