# How to use more than one Compute methods in ForkJoin Framework of Javaello

I need a simpler problem to solve. I need to solve the parallel summation of 1000 random X values and 1000 random Y values. I am using Parallel ForkJoin framework of java. With the the usage of single compute method, it's not possible to compute the summation of X values and Y values in completely different routes.

More over I need to calculate Sum of X * Y. i.e Σxiyi BUT X values traversed by one single thread assigns a separate task, and Y is inserted into threadpool as separate task. So how is it possible to multiply both X and Y values simulatanouesly i.e X * Y ==> (X = 100, Y = 150)? First Thread is operating on X and second on Y.

# Code:

public class RegressionLineForkJoin {

``````//private static final ForkJoinPool forkJoinPool = new ForkJoinPool( 2 );         // use only 2 processors

private static Random r = new Random( );
private static final int NR_OF_VALUES = 1000;      // X & Y VALUES
private static final int THRESHOLD = 100; // need to calculate Threshold value.

{
private int m_Start;
private int m_End;

{
this.m_Start = a_start;
this.m_End = a_end;
}
public Integer compute()
{
Integer Sum = 0;
if(this.m_End - this.m_Start < THRESHOLD)
{
calculateSum(this.m_Start,this.m_End);
}
else
{
int split  = (this.m_Start + this.m_End)/2;

// Invoke the tasks in parallel

//Sum

}//end of else
return Sum;
}
public static void main(String[ ] args)
{

System.out.println("in main after forkjoin.invoke()");
}
private static double nextRandomFunctionValue(int a_startInex,int a_endIndex)
{
double randomValue = 0.0;
randomValue = a_startInex + ( a_endIndex - a_startInex ) * r.nextDouble( );

return randomValue;

}//end of nextRandomFunctionValue
private static double  calculateSum(int a_startIndex, int a_endIndex)
{
double sumValue = 0.0;
double RandomeValue = 0.0;

for(int index = a_startIndex; index< a_endIndex; index++)
{
RandomeValue = nextRandomFunctionValue(a_startIndex,a_endIndex);
sumValue += RandomeValue;

}//end of for
return sumValue;
}
}
``````

}

-

You should have your 2 int arrays `xs` and `ys` created outside your tasks and given as parameters on your tasks. So your constructor

`RegressionLineForkJoinTask(int a_start,int a_end)` would be `RegressionLineForkJoinTask(int a_start,int a_end, int[] vector)` with vector being `xs` or `ys`. They would use `vector` that way:

``````public Integer compute() {
int sum = 0;
if(this.m_End - this.m_Start < THRESHOLD) {
for (int i = this.m_Start; i < this.m_End; i++)
sum += this.m_vector[i];
} /* else split task as before */
}
``````

Then on the same basis you can have a `ProductRecursiveForkJoinTask` working with two vectors with this constructor: `RegressionLineForkJoinTask(int a_start,int a_end, int[] vectorA, int[] vector B)`

with this compute method:

``````public Integer compute() {
int sum = 0;
if(this.m_End - this.m_Start < THRESHOLD) {
for (int i = this.m_Start; i < this.m_End; i++)
sum += this.m_vectorA[i] * this.m_vectorB[i];
} /* else split task as before */
}
``````
-