# Counting Bars Ago since peak

I am writing an algorithm to count the number of bars have passed since the n-th peak. Assuming that I have a list of integer which keeps track of all the occurrences of peak as below.

`3`, `7`, `10`, `13`

The above tells me that the peak occurs at the index `3`, `7`, `10` and `13`.
The length of the source data is `15`.

## Let `n = 1`

then I should be seeing a resultant list as below:

• `index 0 = null` - there is no peak yet

• `index 1 = null` - there is no peak yet

• `index 2 = null` - there is no peak yet

• `index 3 = 0` - peak was hit here so there bars passed is 0

• `index 4 = 1` - peak was hit in previous bar so the bars passed is 1

• `index 5 = 2` - peak was already hit and the number of bars passed is 2

• `index 6 = 3` - peak was already hit and the number of bars passed is 3

• `index 7 = 0` - peak hit here again so the number of bars passed since the last 1 (n) peak is 0 and result follows as below:

`index 8 = 1`, `index 9 = 2`, `index 10 = 0`, `index 11 = 1`, `index 12 = 2`, `index 13 = 0`, `index 14 = 1`

## Assume `n = 2`

number of bars passed since 2 most recent peaks. So the result is as below:

• `index 0 = null`

• `index 1 = null`

• `index 2 = null`

• `index 3 = null` - first peak but `n = 2` so there is no 2nd peak so far...

• `index 4 = null`

• `index 5 = null`

• `index 6 = null`

• `index 7 = 4` - second peak only hit here, so the number of days passed since the last 2 peak is 4, this is counted from the index where the first peak was hit, in this case is 3

• `index 8 = 5`

• `index 9 = 6`

• `index 10 = 3` - another peak hit here, the peak before this (`n = 2`) happened at `index = 7`, so it is counted from `index = 7`

• `index 11 = 4`

• `index 12 = 5`

• `index 13 = 3` - another peak hit here, the peak before this (`n = 2`) happened at `index = 10`, so it is counted from `index = 10`

• `index 14 = 4`

I wrote an algorithm to accomplish this however, it's not giving me the right output. I would appreciate if someone could tell me what's wrong with my algo or propose a better way doing this.

``````    int nth =  GetNValue();// Get the N Value...
//SourceData = listData
int peakCount = 0;
int value= 0;
List<Data> listValue = new List<Data>();
List<int> listResult =  new List<int); //to hold the result..
List<int> listPeaks = GetPeakValue();
for (int index = 0; index < listData.Count; index++)
{
if (peakcount > 0)
{
}
int foundPeak = listPeaks.Find(delegate(int p) { return p == index; });
if (foundPeak != -1)//Peak FOund
{
peakcount++;
if (peakcount > nth)
{
listValue.RemoveAt(0);
}
}
value = listValue.Count >= nth ? listValue.Sum(p => p.Value) : null;
}
private class Data
{
public int Value { get; set; }
}
``````
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Use stack to find peaks and store them in a list. You can probably use some sort of binary search to speed up number of bars passed for a given index `i`. If you want to find for the whole array, then it can be done in `O(n)`. – Priyank Bhatnagar Apr 2 '12 at 6:12

Try this:

``````int n =  GetNValue();// Get the N Value...
List<int> listPeaks = GetPeakValue();
List<int?> result = new List<int?>(listData.Count);
for (int index = 0, peakIndex = -1, nextPeakIndex = peakIndex + n; index < listData.Count; index++)
{
if (nextPeakIndex < listPeaks.Length && index == listPeaks[nextPeakIndex])
{
peakIndex++;
nextPeakIndex++;
}

if (peakIndex < 0)
{
}
else
{
}
}
``````
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Simple algo with working code (sorry, but in Delphi):

``````function IsPeak(i: Integer): Boolean;//modelling
begin
Result := i in [3, 7, 10, 13, 15];
end;

var
i, N: Integer;
Q: TQueue<Integer>;
begin
N := 2;

//queue for last N peaks
Q := TQueue<Integer>.Create;
for i := 0 to 20 do begin

//insert new peak in queue
if IsPeak(i) then begin
Q.Enqueue(i);
//remove too old peak
if Q.Count > N then
Q.Dequeue;
end;

if Q.Count < N then
else  //return difference with front element of the queue
end;
Q.Free;

Result:

0 null
1 null
2 null
3 null
4 null
5 null
6 null
7 4
8 5
9 6
10 3
11 4
12 5
13 3
14 4
15 2
16 3
17 4
18 5
19 6
20 7
``````
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