# Divide a 2D path created from points XY into equal chunks Java

I have an array of points A,B,C,D,E...N which when connected make a path.

How can i divide this path to equal chunks and get position of each chunk XY ?

EDIT : As user Hedja suggested i have created function to process this problem, but i cannot detect situation where chunk is splitted on two subpaths

``````public ArrayList<PointF> getPositions(ArrayList<PointF> mInput,float mChunkSize){
ArrayList<PointF> mResult = new ArrayList<PointF>();
float mModulo = 0f;
for (int i = 0;i<mInput.size()-1;i++){
//distance to next
float mDistanceAB = MyGameMath.distance(mInput.get(i).x, mInput.get(i).y,mInput.get(i+1).x,mInput.get(i+1).y);
//how many parts will fit
float mCountParts = (float) (mDistanceAB/mChunkSize); //how much parts will fit
//if distance is greater than chunk size
if (Math.abs(mDistanceAB)>=mChunkSize) {
Log.i("Chunk","Index "+(i)+" -> "+(i+1)+" = "+mCountParts+", rest="+mModulo);
float dx = mInput.get(i+1).x-mInput.get(i).x;
float dy = mInput.get(i+1).y-mInput.get(i).y;
float ux = dx/mDistanceAB;
float uy = dy/mDistanceAB;
for (int y=0;y<=mCountParts;y++){
//for every part
float nx = mInput.get(i).x+ux*mChunkSize*y;
float ny = mInput.get(i).y+uy*mChunkSize*y;
//Log.i("Chunk","at:"+nx+","+ny);
mResult.add(new PointF(nx, ny));
}
}
mModulo = mDistanceAB%mChunkSize; //how much left from previous subpath
}
return mResult;
}
``````
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equal length chunks which contain x number of elements, and x is specified by you? What if you have 12 points, and x is 5? be more specific. – goat Feb 26 '12 at 21:25
now should be more precise – Paweł Feb 26 '12 at 21:41

## 1 Answer

So I assume you have something similar to this where `Point` is an object with attributes `x` and `y`.

``````Point[] points = new Points[]{ //Your Points }
List<Point> chunkedPoints = new ArrayList<Point>();
``````

I also assume by "equal chunks" you mean the distance of each path.

First you'll iterate through the array, as you won't need to calculate the "next point" after the last point, you can add it at the end.:

``````for(int i = 0; i < points.length-1; i++) { //Skip the last element
//chunking here
}
chunkedPoints.add(points[points.length-1]); //Add the last element
``````

You'll need to find the Unit Vector, that is, the direction you travel to get to the next point. So first you need to get the difference in x and y from one point and the next:

``````double dx = point[i].x - point[i+1].x;
double dy = point[i].y - point[i+1].y;
``````

Then the distance from that point to the next (simple Pythagoras): double distance = Math.sqrt(dx*dx+dy*dy);

The unit vector can now be calculated

``````double ux = dx/distance;
double uy = dy/distance;
``````

So now you know where to travel, you need to specify how far you want to travel along it, I'll call this `CHUNK_SIZE`.

``````double nx = point[i].x + ux*CHUNK_SIZE;
double ny = point[i].y + uy*CHUNK_SIZE;
``````

`nx` and `ny` is the co-ordinate of your new point. However, you need to check if you've passed the next point so that you can stop. Your problem doesn't specify what you do when you reach an end of a subpath without travelling the chunk size so I'll assume you simply stop at it, so the code becomes:

``````double nx = point[i].x;
double ny = point[i].y;
for(
//This part can be tidier
int count = 0;
count < CHUNK_SIZE && nx+ux != points[i+1].x && ny+uy != points[i+1].y;
count++
) {
nx += ux;
ny += uy;
}
Point newPoint = new Point(nx, ny);
``````

Now you have your new Point, you can start from there, aim for the same point as before or if it's the same as the next point, start from the point after that. So your loop is now something like

``````chunkedPoints.add(points[0]);
for(int i = 0; i < points.length-1; i++) { //Skip the last element
Point newPoint;
do {
//chunking
newPoint = new Point(nx, ny);
chunkedPoints.add(newPoint);
} while(!newPoint.equals(points[i+1]));
}
chunkedPoints.add(points[points.length-1]); //Add the last element
``````

Hope that helped.

I haven't tested this, but I've done something very similar in the past, so it should work.

EDIT: Okay, I've seen your edit and honestly have no idea what your question is asking. Sorry.

-
thank you very much for your time, i have uploaded diagram to better understand what im talking about :) – Paweł Feb 26 '12 at 22:48
Ah I see, the method I've posted should solve that where chunkedPoints contains all the points XY (as Point objects). Maybe I'm wrong somewhere? – Hedja Feb 26 '12 at 23:56
Yes, your solution works just fine, after small change i cannot detect situation where switching from one path to another, please take a look at function i have pasted – Paweł Feb 27 '12 at 17:16
@PawełPlewa Could you post input/output for some test cases? By the looks of it, the y for-loop should be `for(int y=0;y<mCountParts;y++)` (no equal sign), but I could be wrong. Also, the if-branch `if(Math.abs(mDistanceAB)>=mChunkSize)` will skip the point if the next point is not far enough, you may want an 'else' branch that adds the single point to the result. – Hedja Feb 28 '12 at 13:52