Java trend and pattern finder algorithm

I am writing a java program to attempt to identify trends in the stock market and I want to identify the following pattern:

Where `EMA` value drops below `SMA` by over approx. 0.7% (Day 1), you can look for 0.2%-0.5% fluctuations (changes in the relationship between `SMA` & `EMA` up or down) between the two for the next 2-3 days. This indicates sell signal.

I have an array of float values for the `EMA` and `SMA` and then I have a separate float array called `percentDif` that contains the percentage difference between the EMA and SMA. For example these are the the first two sets of values for the `EMA`, `SMA` and `percentDif` arrays

``````EMA 314.395         SMA 314.9859884       percentDif -0.001876237
EMA 313.9476        SMA 314.4888908        percentDif -0.001721176
``````

I have wrote this method to identify the pattern that I want but it is not working correctly, is there a better way that I can do this?

``````public void trend(){

/*
* Trend indicator pattern
*/
float valueDrop = -0.7f;

float minFluxPos = 0.2f;
float maxFluxPos = 0.5f;

float minFluxNeg = -0.2f;
float maxFluxNeg = -0.5f;

for(int i = 0; i< percentDif.length-2; i++)
{
//If the difference between EMA and SMA is greater or equal to -0.7 percent
if(percentDif[i] >= valueDrop){
//If the next day the percentage difference fluctuates between 0.2 or 0.5 either way
if( ((percentDif[i+1] > minFluxPos) && (percentDif[i+1] < maxFluxPos))
|| ((percentDif[i+1] > minFluxNeg) && (percentDif[i+1] < maxFluxNeg)) )
{
//Indicates price drop and therefore sell signal
System.out.println("Trend Indicated - SELL");
}
}
}
}
``````

I have entered the following values in the `percentDif` array : 5 -0.8 -0.3

These values fit the description of the pattern and should therefore trigger the print statement but it is not doing so.

-

You have the comparison operators the wrong way round for the negative flux values. The if statement should be:

``````if( ((percentDif[i+1] > minFluxPos) && (percentDif[i+1] < maxFluxPos))
|| ((percentDif[i+1] < minFluxNeg) && (percentDif[i+1] > maxFluxNeg)) )
``````

Also, given the data and the boundaries you have provided, the conditions will never hold true. In the first iteration, the outer condition holds (as 5 > -0.7) but the inner one doesn't (as -0.8 is neither between 0.2 and 0.5 nor between -0.2 and -0.5). On the second and final iteration the outer condition fails as -0.8 < -0.7.

-

By far the most inefficient thing in this code is writing to the console. Given you most likely have only daily data over say 10 years i.e. 2500 samples, this should take about 1 milli-second to scan this way.

I suspect your loop is ending too early try

``````for(int i = 0; i < percentDif.length - 1; i++)
``````

and you min/max is the wrong way around for

``````float minFluxNeg = -0.5f;
float maxFluxNeg = -0.2f;
``````
-
Apologies, I phrased the question wrong. I have edited my question accordingly. –  James Jan 2 '13 at 12:45
Ok, in that case I suspect your loop is wrong. Using a debugger would confirm this. –  Peter Lawrey Jan 2 '13 at 12:50
Even with the changes I suggest, I don't see at what point you think it would trade as -0.8 is neither between `minFluxNeg` and `maxFluxNeg` nor it is greater than `valueDrop` –  Peter Lawrey Jan 2 '13 at 12:53