Explain the Peak and Flag Algorithm
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Isaac Levin
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Published on 2013-10-18T19:47:11Z
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2013/10/18
21:55 UTC
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EDIT
Just was pointed that the requirements state peaks cannot be ends of Arrays.
So I ran across this site
Which gives you programming problems and gives you certificates if you can solve them in 2 hours. The very first question is one I have seen before, typically called the Peaks and Flags question. If you are not familiar
A non-empty zero-indexed array A consisting of N integers is given. A peak is an array element which is larger than its neighbours. More precisely, it is an index P such that
0 < P < N - 1 and A[P - 1] < A[P] > A[P + 1]
. For example, the following array A:
A[0] = 1
A[1] = 5
A[2] = 3
A[3] = 4
A[4] = 3
A[5] = 4
A[6] = 1
A[7] = 2
A[8] = 3
A[9] = 4
A[10] = 6
A[11] = 2
has exactly four peaks: elements 1, 3, 5 and 10.
You are going on a trip to a range of mountains whose relative heights are represented by array A. You have to choose how many flags you should take with you. The goal is to set the maximum number of flags on the peaks, according to certain rules.
Flags can only be set on peaks. What's more, if you take K flags, then the distance between any two flags should be greater than or equal to K. The distance between indices P and Q is the absolute value |P - Q|.
For example, given the mountain range represented by array A, above, with N = 12, if you take:
two flags, you can set them on peaks 1 and 5;
three flags, you can set them on peaks 1, 5 and 10;
four flags, you can set only three flags, on peaks 1, 5 and 10.
You can therefore set a maximum of three flags in this case.
Write a function that, given a non-empty zero-indexed array A of N integers, returns the maximum number of flags that can be set on the peaks of the array. For example, given the array above
the function should return 3, as explained above.
Assume that:
N is an integer within the range [1..100,000];
each element of array A is an integer within the range [0..1,000,000,000].
Complexity:
expected worst-case time complexity is O(N); expected worst-case space complexity is O(N), beyond input storage (not counting the storage required for input arguments).
Elements of input arrays can be modified.
So this makes sense, but I failed it using this code
public int GetFlags(int[] A)
{
List<int> peakList = new List<int>();
for (int i = 0; i <= A.Length - 1; i++)
{
if ((A[i] > A[i + 1] && A[i] > A[i - 1]))
{
peakList.Add(i);
}
}
List<int> flagList = new List<int>();
int distance = peakList.Count;
flagList.Add(peakList[0]);
for (int i = 1, j = 0, max = peakList.Count; i < max; i++)
{
if (Math.Abs(Convert.ToDecimal(peakList[j]) - Convert.ToDecimal(peakList[i])) >= distance)
{
flagList.Add(peakList[i]);
j = i;
}
}
return flagList.Count;
}
EDIT
int[] A = new int[] { 7, 10, 4, 5, 7, 4, 6, 1, 4, 3, 3, 7 };
The correct answer is 3, but my application says 2
This I do not get, since there are 4 peaks (indices 1,4,6,8) and from that, you should be able to place a flag at 2 of the peaks (1 and 6)
Am I missing something here? Obviously my assumption is that the beginning or end of an Array can be a peak, is this not the case?
If this needs to go in Stack Exchange Programmers, I will move it, but thought dialog here would be helpful.
EDIT
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