So I'm doing a small project for my job where I'm required to take two images, one of nucleuses and one of golgi bodies and link them up by arrows with the two centroids as the endpoints. I've been wracking my brain for sometime now, and here's the source in java for my plugin. It's got some errors apparently, and I'm new to both java and imagej, so please bear with me... thanks in advance...

So the idea was that once the measurements were read into a large array, I would then proceed to find the closest corresponding nucleus per golgi body, and then link them up. To do this, I set up an array and found the minimum distance in that array, and then proceeded to draw it using a method that I found in someone else's plugin.

I should say that the results windows shows the x coordinates and y coordinates in two separate columns of a stack of images, one of which are about 1000 blue nucleuses, and 500 red golgi bodies, and the final column is the position in the stack.

I'm not quite sure what the issues are... I'm not understanding how drawing an image is done to the image processor... I've been reading some tutorials but I'm finding them relatively confusing...

```
import ij.*;
import ij.process.*;
import ij.gui.*;
import java.awt.*;
import java.util.Arrays;
import java.util.Collections;
import ij.plugin.*;
import ij.plugin.filter.*;
import ij.measure.*;
public class CentroidFinder_ implements PlugInFilter {
protected ImageStack cellstack;
ImagePlus[] cellImages = cellstack.getImageArray();
ImagePlus arrowImage = arrowImage.createImage("ArrayFile", 1600,1200,1);
ResultsTable rt = Analyzer.getResultsTable();
public int setup(String arg, ImagePlus imp) {
cellstack = imp.getStack();
this.imp = imp;
return STACK_REQUIRED;
}
public void run(ImageProcessor ip)
{
int[] blueCentroidsX = {};
int[] blueCentroidsY = {};
int[] redCentroidsX = {};
int[] redCentroidsY = {};
int xColumnIndex = rt.getColumnHeading("X");
int yColumnIndex = rt.getColumnHeading("Y");
int sliceNumberIndex = rt.getColumnHeading("Slice");
float[] sliceCategoryPerRow = (rt.getColumn(sliceNumberIndex));
for (int counter = 0; counter < sliceCategoryPerRow.Length; counter++)
{
if (sliceCategoryPerRow[counter] == 1)
{
blueCentroidsX[counter] = (int)(rt.getValueAsDouble(xColumnIndex, counter)); //This might be a source of error
blueCentroidsY[counter] = (int)(rt.getValue(yColumnIndex, counter));
}
if (sliceCategoryPerRow[counter] == 2)
{
redCentroidsX[counter] = (int)rt.getValue(xColumnIndex, counter); //This might be a source of error
redCentroidsY[counter] = (int)rt.getValue(yColumnIndex, counter);
}
}
if ((blueCentroidsX.length + redCentroidsX.length) =! sliceCategoryPerRow.length)
{
error ("Error Message", "Something is wrong with the columns");
}
boolean blueIsBigger = true;
if (blueCentroidsX.length < redCentroids.length)
blueIsBigger = false;
int[][] startingArrow = {};
int[][] endingArrow = {};
int[][] tempDistance = {};
int counterTag;
float[] distanceList = {};
for (int j = 0; j < redCentroidsX.length; j++)
{
for (int k = 0; k < blueCentroidsX.length; k++)
{
tempDistance = distance (redCentroidsX[j], redCentroidsY[j],
blueCentroidsX[k], blueCentroidsY[k]);
if (throwAwayDistance (tempDistance))
continue;
distanceList = distanceList.addAll({tempDistance, k});
}
if (distanceList.length == 0)
{
break;
}
counterTag = 0;
for (int l = 1; l < distanceList.length; l++)
{
if ((distanceList[l][0] < distanceList[l-1][0]))
counterTag = distanceList[l][1];
}
startingArrow = startingArrow.addAll(({(int)blueCentroidsX[counterTag],
(int)blueCentroidsY[counterTag])});
endingArrow = add(endingArrow, {(int)redCentroidsX[j], int()redCentroidsY[j]});
}
if ((startingArrow.length != endingArrow.length)
error ("Error Message", "Something has caused there not to be equal coordinates");
for (int m = 0; m < startingArrow.length; m++)
{
for (int n = 0; n <endingArrow.length; n++)
{
drawArrow (imp, startingArrow[m][0], startingArrow[m][0],
endingArrow[n][0], endingArrow[n][1], 1)
}
}
stack.addSlice(arrowImage);
public void drawArrow(ImageProcessor ip, int x1, int y1, int x2, int y2, double size)
{
double dx = x2-x1;
double dy = y2-y1;
double ra = java.lang.Math.sqrt(dx*dx + dy*dy);
dx /= ra;
dy /= ra;
int x3 = (int)Math.round(x2-dx*size);
int y3 = (int)Math.round(y2-dy*size);
double r = 0.3*size;
int x4 = (int)Math.round(x3+dy*r);
int y4 = (int)Math.round(y3-dx*r);
int x5 = (int)Math.round(x3-dy*r);
int y5 = (int)Math.round(y3+dx*r);
ip.moveTo(x1, y1); ip.lineTo(x2, y2);
ip.moveTo(x4,y4); ip.lineTo(x2,y2); ip.lineTo(x5,y5);
}
//Mathematical Functions:
public boolean throwAwayDistance (float distance)
{
if (distance >= 25.0)
return true;
else return false;
}
public float distance (x1,y1,x2,y2)
{
int length;
return length = (((x1-x2)^2 + (y1-y2)^2)^(.5));
}
```

}

```
Thank you all for all your help!
```