I have a drawing app where the user can draw lines with their finger, adjust the color, thickness, etc. As the user is drawing, I am converting the massed X/Y points from
MotionEvent into SVG Paths, as well as creating Android Path's and then drawing the Android Path's to the screen via a Canvas, and committing the SVG Path's to the app's database.
I am following the model used in FingerPaint, in that the 'in progress' lines are drawn on the fly by repeated calls to
invalidate() (and thus,
onDraw()), and once the line is complete and a new line is started, the previous line(s) are drawn in
onDraw() from the underlying
Bitmap, with in progress lines again generating repeated re-draws.
This works fine in this application - until you start rotating the underlying
Bitmap to compensate for device rotation, supporting the ability to 'zoom in' on the drawing surface and thus having to scale the underlying
Bitmap, etc. So for example, with the device rotated and the drawing scaled in, when the user is drawing, we need to scale AND rotate our Bitmap in onDraw(), and this is absolutely crawling.
I've looked at a
SurfaceView, but as this still uses the same
Canvas mechanism, I'm not sure I'll see noticeable improvement... so my thoughts turn to OpenGL. I have read somewhere that OpenGL can do rotations and scaling essentially 'for free', and even seen rumors (third comment) that
Canvas may be disappearing in future versions.
Essentially, I am a little stuck between the
Canvas and OpenGL solutions... I have a 2D drawing app that seems to fit the
Canvas model perfectly when in one state, as there are not constant re-draws going on like a game (for instance when the user is not drawing I don't need any re-drawing), but when the user IS drawing, I need the maximum performance necessary to do some increasingly complex things with the surface...
Would welcome any thoughts, pointers and suggestions.