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My application uses a canvas that I scale so that I can specify path points in meters instead of pixels. When I scale the canvas, then draw a line using path.lineTo(), with hardware acceleration on, the line is blurry and offset. This does not happen with hardware acceleration off or with canvas.drawLine().

Here is the code to reproduce the problem:

package com.example.canvasproblem;

import android.content.Context;
import android.os.Bundle;
import android.view.View;

public class MainActivity extends Activity {
    protected void onCreate(Bundle savedInstanceState) {

        setContentView(new MyView(this));

    class MyView extends View {
        Paint pen = new Paint();
        public MyView(Context context) {
            pen.setStrokeWidth(1f); // 1 meters wide
            //this.setLayerType(LAYER_TYPE_SOFTWARE, null);
        protected void onDraw(Canvas canvas) {
            float width_meter = 10.0f; // width of canvas in meters
            float width_pxl = canvas.getWidth(); // width of canvas in pixels
            float height_pxl = canvas.getHeight(); // height of canvas in pixels

            canvas.translate(width_pxl/2, height_pxl/2); // make center of canvas (0,0)
            canvas.scale(width_pxl/width_meter, width_pxl/width_meter); // convert to meters

            // path
            Path path = new Path();
            path.moveTo(0, 0);
            path.lineTo(0, 4);
            canvas.drawPath(path, pen);

            // line
            canvas.drawLine(0, 0, 0, 4, pen);


Here is a screenshot of the problem output (the correct drawLine() is shown on top of lineTo()):


The hardware is a 1024x768 tablet, running android 4.1.1. The processor is a Rockchip RK30.

My preference is to use Path's with hardware acceleration, for rounded joins between points and speed. Please let me know if I am doing something wrong to create this problem. Thank you

Be gentle, this is my first post.

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up vote 4 down vote accepted

This is a limitation of the hardware accelerated renderer. Paths are rasterized at their native size before transform. In your case, the Path is transformed into a 1x4 texture. That texture is then scaled at draw time. To work around this, scale your Path directly by using Path.transform(Matrix). You can also use scaled coordinates when building the path.

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Thank you for the explanation. Do you know if this is a bug, or is that the desired behavior? – user2292800 Apr 18 '13 at 20:37
It is the intended behavior, but not the desired behavior :) This is something I plan on fixing in a future release of Android. We will also provide better documentation on what's supported and what's not supported in the hardware renderer across multiple API levels. – Romain Guy Apr 18 '13 at 22:55
That makes sense. Thank you – user2292800 Apr 19 '13 at 17:48
Thanks for your answer. In my case, it's a map-drawing app and I'll be zooming into the map (changing the canvas scale) and keeping the line widths constant, so I don't have the luxury of calling Path.transform(). It's ok; performance was ok without hardware acceleration. – Edward Falk Sep 4 '15 at 3:15

Thanks to Romain Guy's answer, here is a wrapper for the drawPath() method that produces the same results for hardware acceleration on and off. It only handles the case where the x & y scaling in the existing matrix are the same, and it might not be the most efficient.

void drawPath(Canvas canvas, Path path, final Paint pen) {;

    // get the current matrix
    Matrix mat = canvas.getMatrix();

    // reverse the effects of the current matrix
    Matrix inv = new Matrix();

    // transform the path

    // get the scale for transforming the Paint
    float[] pts = {0, 0, 1, 0}; // two points 1 unit away from each other
    float scale = (float) Math.sqrt(Math.pow(pts[0]-pts[2], 2) + Math.pow(pts[1]-pts[3], 2));

    // copy the existing Paint
    Paint pen2 = new Paint();

    // scale the Paint

    // draw the path
    canvas.drawPath(path, pen2);

share|improve this answer

Another way to get around this issue as I've found is to draw the Paths to another Canvas that is backed by a cache bitmap, and then draw that bitmap to the passed Canvas. This eliminates the blurring and offsets in my situation.

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