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I'm fairly new to Android and have been toying around with Canvas. I'm attempting to draw an arrow but I'm only having luck with drawing the shaft, none of the arrowhead is working.

I have searched a bit and found a Java example, but Android doesn't have GeneralPath or AffineTransform.

Right now my code looks like the following (the arrowhead looks nothing like an arrowhead):

public class DrawableView extends View {
    Context mContext;
    private int centerX;
    private int centerY;
    private int radius;
    private double arrLength;
    private double arrHeading;
    private int margin = 10;

    public DrawableView(Context context) {
        mContext = context;

    protected void onDraw(Canvas canvas) {
        //Paint Background
        Paint background = new Paint();
        canvas.drawRect(0, 0, getWidth(), getHeight(), background);

        //Set vars for Arrow Paint
        Paint paint = new Paint();
        centerX = getWidth() / 2;
        centerY = getHeight() / 2;
        arrLength = radius - 10;

        if(centerX < centerY)
            radius = centerX - margin;
            radius = centerY - margin;

        //Draw Shaft
        int[] xy = findArrowPos(arrLength, arrHeading);
        canvas.drawLine(centerX, centerY, xy[0], xy[1], paint);

        //Draw ArrowHead
            //This is where I'm confused


    private int[] findArrowPos(double length, double angle) {
        int[] points = new int[2];
        double theta = Math.toRadians(angle);
        points[0] = centerX + (int) (length * Math.cos(theta));
        points[1] = centerY + (int) (length * Math.sin(theta));
        return points;

I have taken a look at the following threads for guidance:
* How to draw a directed arrow line in Java?

share|improve this question
up vote 14 down vote accepted

How about using "Path myPath = new Path();" where you would give the x and y positions to create a triangle using lines and filling it. You can read about it, here is an example I took from somewhere.

// create and draw triangles
// use a Path object to store the 3 line segments
// use .offset to draw in many locations
// note: this triangle is not centered at 0,0
Path path = new Path();
path.moveTo(0, -10);
path.lineTo(5, 0);
path.lineTo(-5, 0);
path.offset(10, 40);
canvas.drawPath(path, paint);
path.offset(50, 100);
canvas.drawPath(path, paint);
// offset is cumlative
// next draw displaces 50,100 from previous
path.offset(50, 100);
canvas.drawPath(path, paint);
share|improve this answer
Aha! (on my attempt that I didn't post) I forgot to use the moveTo method to let it know where to start drawing from! I assume it create such a weird looking object because it must have drawn from (0,0). Thank you for the help! – StartingGroovy Jul 15 '11 at 22:51
Glad I could help – user710502 Jul 15 '11 at 22:58

I try this code it has been working perfectly.

enter code here

switch (event.getAction())
   case MotionEvent.ACTION_DOWN:
        mPath.moveTo(x, y);
        mX = x;
        mY = y;
        startPoint = new PointF(event.getX(), event.getY());
        endPoint = new PointF();
    case MotionEvent.ACTION_MOVE:
            float dx = Math.abs(x - mX);
        System.out.println("action move");
        float dy = Math.abs(y - mY);
        if (dx >= TOUCH_TOLERANCE || dy >= TOUCH_TOLERANCE)
        //  currentDrawingPath.path.quadTo(mX,mY,(x + mX)/2, (y + mY)/2);
        mX = x;
        mY = y;
          endPoint.x = event.getX();
          endPoint.y = event.getY();
          isDrawing = true;
    case MotionEvent.ACTION_UP:
           mPath.lineTo(mX, mY);
           float deltaX =   endPoint.x-startPoint.x;
           float deltaY =   endPoint.y-startPoint.y;
           float frac = (float) 0.1;
     float point_x_1 = startPoint.x + (float) ((1 - frac) * deltaX + frac * deltaY);
     float point_y_1 = startPoint.y + (float) ((1 - frac) * deltaY - frac * deltaX);
           float point_x_2 = endPoint.x;
           float point_y_2 = endPoint.y;
     float point_x_3 = startPoint.x + (float) ((1 - frac) * deltaX - frac * deltaY);
     float point_y_3 = startPoint.y + (float) ((1 - frac) * deltaY + frac * deltaX);
           mPath.moveTo(point_x_1, point_y_1);
           mPath.lineTo(point_x_2, point_y_2);
           mPath.lineTo(point_x_3, point_y_3);
           mPath.lineTo(point_x_1, point_y_1);
           mPath.lineTo(point_x_1, point_y_1);
            mCanvas.drawPath(mPath, ppaint);
            endPoint.x = event.getX();
            endPoint.y = event.getY();
            isDrawing = false;
share|improve this answer
thanks.its worked for me... – rams Nov 30 '12 at 10:20
Very nice solution. Thanks. I modified it to deliver a fixed size arrow head independent of zoom level/line length. All that's needed is to replace "float frac = (float) 0.1;" with int ARROWHEAD_LENGTH=20; float sideZ= (float) Math.sqrt(deltaX deltaX + deltaYdeltaY); //Z=hypotenuse float frac = ARROWHEAD_LENGTH < sideZ ? ARROWHEAD_LENGTH/sideZ : 1.0f;" – PeteH Mar 2 '13 at 3:37

I've been having the same problem, I need an arrow to point in a certain direction. After playing around with drawing algorithms I decided the simplest method is to use a bitmap & simply use a Matrix to rotate it, e.g.

ImageView image = (ImageView) findViewById(;
Bitmap bMap = BitmapFactory.decodeResource(getResources(), R.drawable.test);
Matrix mat = new Matrix();
Bitmap bMapRotate = Bitmap.createBitmap(bMap, 0, 0, bMap.getWidth(), bMap.getHeight(), mat, true);

then your bitmap can be any fancy looking arrow you like.

share|improve this answer
thank you for the reply and the insight! I have been trying to avoid throwing an image in there (as I found examples on the net how to do it with an image). I might, however, need to use an image. If I do need to use the image, I'll come back here and give your code a shot. +1 for the example :) – StartingGroovy Jul 15 '11 at 22:54

Use a Path as below and adjust the co-ordinates accordingly:

// Construct a wedge-shaped path
Path mPath = new Path();
mPath.moveTo(0, -50);
mPath.lineTo(-20, 60);
mPath.lineTo(0, 50);
mPath.lineTo(20, 60);
share|improve this answer
Thank you for the response Femi :) both you and user710502 pointed out the correct way of doing it. +1 – StartingGroovy Jul 15 '11 at 22:52

If you are looking for the solution to draw thousands of arrows under a second, with fixed length head lines, try this function (draws only arrow heads):

private void fillArrow(Paint paint, Canvas canvas, float x0, float y0, float x1, float y1) {

    int arrowHeadLenght = 10;
    int arrowHeadAngle = 45;
    float[] linePts = new float[] {x1 - arrowHeadLenght, y1, x1, y1};
    float[] linePts2 = new float[] {x1, y1, x1, y1 + arrowHeadLenght};
    Matrix rotateMat = new Matrix();

    //get the center of the line
    float centerX = x1;
    float centerY = y1;

    //set the angle
    double angle = Math.atan2(y1 - y0, x1 - x0) * 180 / Math.PI + arrowHeadAngle;

    //rotate the matrix around the center
    rotateMat.setRotate((float) angle, centerX, centerY);

    canvas.drawLine(linePts [0], linePts [1], linePts [2], linePts [3], paint);
    canvas.drawLine(linePts2 [0], linePts2 [1], linePts2 [2], linePts2 [3], paint);

Based on

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