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Can anyone please help me understand the core logic behind the solution to a problem mentioned at http://www.topcoder.com/stat?c=problem_statement&pm=1259&rd=4493

A zig zag sequence is one that alternately increases and decreases. So, 1 3 2 is zig zag, but 1 2 3 is not. Any sequence of one or two elements is zig zag. We need to find the longest zig zag subsequence in a given sequence. Subsequence means that it is not necessary for elements to be contiguous, like in the longest increasing subsequence problem. So, 1 3 5 4 2 could have 1 5 4 as a zig zag subsequence. We are interested in the longest one.

I understand that this is a dynamic programming problem and it is very similar to How to determine the longest increasing subsequence using dynamic programming?.

I think any solution will need an outer loop that iterates over sequences of different lengths, and the inner loop will have to iterate over all sequences.

We will store the longest zig zag sequence ending at index i in another array, say dpStore at index i. So, intermediate results are stored, and can later be reused. This part is common to all Dynamic programming problems. Later we find the global maximum and return it.

My solution is definitely wrong, pasting here to show what I've so far. I want to know where I went wrong.

    private int isZigzag(int[] arr)
{
    int max=0;
    int maxLength=-100;
    int[] dpStore = new int[arr.length];

    dpStore[0]=1;

    if(arr.length==1)
    {
        return 1;
    }
    else if(arr.length==2)
    {
        return 2;
    }
    else 
    {           
        for(int i=3; i<arr.length;i++)
        {
            maxLength=-100;
            for(int j=1;j<i && j+1<=arr.length; j++)
            {
                if(( arr[j]>arr[j-1] && arr[j]>arr[j+1])
                    ||(arr[j]<arr[j-1] && arr[j]<arr[j+1]))
                {
                    maxLength = Math.max(dpStore[j]+1, maxLength);
                }
            }
            dpStore[i]=maxLength;               
        }
    }
    max=-1000;
    for(int i=0;i<arr.length;i++)
    {
        max=Math.max(dpStore[i],max);
    }
    return max; 
}
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Your first link requires registration to access. It would be much easier to answer if the problem description was embedded in your question. –  hammar Aug 2 '11 at 16:05
    
I am sorry I didn't notice that... I'll put in a quick statement of the problem. –  Abhijeet Kashnia Aug 2 '11 at 16:06
    
Do you understand how to solve the basic longest increasing subsequence (without the zigzag) as well? This is just a minor modification of that, using the same techniques to solve. –  missingno Aug 2 '11 at 16:24
    
In 1 3 5 4 2, the entire sequence is zig-zag. You don't mention how equal numbers should be treated, but excluding equal numbers, aren't all sequences that are not increasing or decreasing (these have no zig-zag subsequences either, except the trivial 1 or 2 element ones). So, is 1 1 1 increasing or decreasing? –  IVlad Aug 2 '11 at 16:27
    
Well, the problem you linked to is entirely different than what you're describing. Can you please decide on which one you need help with? –  IVlad Aug 2 '11 at 16:36
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6 Answers

up vote 23 down vote accepted

This is what the problem you linked to says:

A sequence of numbers is called a zig-zag sequence if the differences between successive numbers strictly alternate between positive and negative. The first difference (if one exists) may be either positive or negative. A sequence with fewer than two elements is trivially a zig-zag sequence.

For example, 1,7,4,9,2,5 is a zig-zag sequence because the differences (6,-3,5,-7,3) are alternately positive and negative. In contrast, 1,4,7,2,5 and 1,7,4,5,5 are not zig-zag sequences, the first because its first two differences are positive and the second because its last difference is zero.

Given a sequence of integers, sequence, return the length of the longest subsequence of sequence that is a zig-zag sequence. A subsequence is obtained by deleting some number of elements (possibly zero) from the original sequence, leaving the remaining elements in their original order.

This is completely different from what you described in your post. The following solves the actual topcoder problem.

dp[i, 0] = maximum length subsequence ending at i such that the difference between the
           last two elements is positive
dp[i, 1] = same, but difference between the last two is negative

for i = 0 to n do     
   dp[i, 0] = dp[i, 1] = 1

   for j = 0 to to i - 1 do
    if a[i] - a[j] > 0
      dp[i, 0] = max(dp[j, 1] + 1, dp[i, 0])
    else if a[i] - a[j] < 0
      dp[i, 1] = max(dp[j, 0] + 1, dp[i, 1])

Example:

i        = 0  1   2  3   4   5   6   7  8   9
a        = 1  17  5  10  13  15  10  5  16  8 
dp[i, 0] = 1  2   2  4   4   4   4   2  6   6    
dp[i, 1] = 1  1   3  3   2   2   5   5  3   7
           ^  ^   ^  ^
           |  |   |  -- gives us the sequence {1, 17, 5, 10}
           |  |   -- dp[2, 1] = dp[1, 0] + 1 because 5 - 17 < 0.
           |  ---- dp[1, 0] = max(dp[0, 1] + 1, 1) = 2 because 17 - 1 > 0
     1 element
   nothing to do
 the subsequence giving 7 is 1, 17, 5, 10, 5, 16, 8, hope I didn't make any careless
 mistakes in computing the other values)

Then just take the max of both dp arrays.

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What is dp here? Is it a matrix with 2 rows and n columns? –  Cupidvogel Nov 21 '12 at 8:41
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There is a greedy approach also.

Take the first element. Then find out the minimum or maximum element in the contiguous sequence including the first element and select it.

That is if the sequence is 1, 5, 7, 9, 2,4, first select 1, and then 9 because 9 is the maximum in the contiguous sequence 1, 5, 7, 9.

Proceed in the same manner and select 2 and 5. Using same approach, the subsequence computed for the example:

1, 17, 5, 10, 13, 15, 10, 5, 16, 8

is: 1, 17, 5, 15, 5, 16, 8

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how will we find the just next greater or the just next smaller? –  shivi Jul 28 '13 at 13:58
    
can this greedy approach reduce complexity to O(n) > –  shivi Jul 28 '13 at 13:59
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This is a simpler solution

Let the original array A be of length n. Build another array B of length n-1 of only 0s and 1s. B[i] = 0 if a[i]-a[i+1] >=0 else B[i] = 1. This can be done in O(n). Now we have an array of only 0s and 1, now the problem is to find alternating continuous 0s and 1s. A continuous sub array array in B of 0s will be represented by any one of its elements. For example: If B is = [0,0,0,0,0, 1,0,0,0,1,0,1,1,1,0] then we can reduce B to Br which = [0,1,0,1,0,1,0] in O(n) , infact we just need to find the size of Br which can be done by just one iteration. And that my friend is the answer to the given problem. So total complexity is O(n) + O(n) = O(n). In other words: Keep the first element. Then find the monotone growing or shrinking parts of the sequence and keep the last element from all of these sequences.

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bravo! very cool solution. –  innochenti Jun 24 '13 at 12:19
    
can you prove the optimality of this algorithm? –  Olayinka Oct 6 '13 at 17:06
1  
Olayinka: You cannot have an algorithm which is better than O(n) if it has to read each element of a length n array. –  hivert Oct 9 '13 at 17:15
    
@surya your solution does not working for 1 17 5 10 13 15 10 5 16 8 here b become [1 0 1 1 1 0 0 1 0] and br will become [1 0 1 0 1 0] so your algo give 6 but answer is 7 –  Vinay Mar 27 at 7:31
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def ZigZag(tup):

length = len(tup)
lst = []
lst.append(1)
lst.append(2)
if length > 2:
    for i in range(2,length):
        if (tup[i]-tup[i-1]) * (tup[i-1]-tup[i-2]) < 0:
            d = lst[i-1] + 1
        else:
            d = lst[i-1]
        lst.append(d)

return lst[length-1]
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This only counts the contiguous sequence of zigzag. –  Bunny Rabbit Apr 29 '13 at 4:23
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or you can use greedy algorithm

public static int longestZigZag(int[] sequence) {
    if (sequence.length==1) return 1;
    if (sequence.length==2) return 2;
    int[] diff = new int[sequence.length-1];

    for (int i=1;i<sequence.length;i++){
        diff[i-1]=sequence[i]-sequence[i-1];
    }
    int prevsign=sign(diff[0]);
    int count=0;
    if (prevsign!=0)
        count=1;
    for (int i=1;i<diff.length;i++){
        int sign=sign(diff[i]);
        if (prevsign*sign==-1){
            prevsign=sign;
            count++;
        }
    }
    return count+1;
}

public static int sign(int a){
    if (a==0) return 0;
    return a/Math.abs(a);
}
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public static int longestZigZag(int[] sequence) {
    int max_seq = 0;

    if (sequence.length == 1) {
        return 1;
    }

    if (sequence.length == 1) {
        return 2;
    }

    int dp[] = new int[sequence.length];

    dp[0] = 1;
    dp[1] = 2;

    for (int i = 2; i < sequence.length; i++) {
        for (int j = i - 1; j > 0; j--) {
            if (((sequence[i] > sequence[j] &&
                sequence[j] < sequence[j - 1]) || 
                (sequence[i] < sequence[j] &&
                sequence[j] > sequence[j - 1])) &&
                dp[i] < dp[j] + 1) {
                dp[i] = dp[j] + 1;

                if (dp[i] > max_seq) {
                    max_seq = dp[i];
                }
            } 
        }
    }

    return max_seq;
}
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