I got a image ball which is to fall from above continuously on a time frame, the flow has to be continuous and the image should appear continuously as rain falling from above and at certain speed, what is the best way of doing this.
what kind of animation would be helpful, Translate animation or using canvas..help me learn the usage of canvas in android.
How could i achieve this using canvas, any example would be helpful. thanks in advance.
My suggestion is to take a look SurfaceView... As I have found previously SurfaceView gave me the freedom to do anything I wanted and avoid blocking the UI thread. As it has it's own thread, you can specify all kind of time frames and interactions. You can even calculate physics and collisions. HERE is a great tutorial for getting you started.
Related
Can anyone help me with sample code for a compass needle that points in the direction where the phone is tilted?
I am trying to develop an application to rotate a bitmap in OpenGL from accelerometer values.
Ok so thanks to the comments above we do not have to use OpenGL, and while you could, I personally believe you can make life simpler by using a custom View.
Now in traditional standard StackOverFlow past time I am not going to give you code for this but extrmely large leg up. There is a thermometer example available here http://mindtherobot.com/blog/272/android-custom-ui-making-a-vintage-thermometer/.
Why have I sent you here?
It contains an example that renders a dial exceedingly close to a compass, with a few minor tweeks it could easily become a compass in terms of design. you will just need to remove the temperature related code and use the accelerometers instead.
It is a good intro to custom views and will show you how to get started.
I made a clock after following the tutorial just as another possibility to inspire you.
(I tried to stuff the question with keywords in case someone else has this issue - I couldn't find much help.)
I have a custom View in Android that contains an LED bargraph that displays levels received via socket communication. It's basically just a clipped image. The higher the level, the less clipped the image is.
When I update the level and then invalidate the View, some devices seem to "collect" multiple updates and render them in chunks. The screen visibly hesitates for say 1/10th of a second, then rapidly paints multiple frames, and then hesitates again. It looks like it's overwhelmed and dropping frames.
However, when changing another UI control on the screen, the LED bargraph paints much more frequently and smoothly. I'm thinking Android is trying to help me by "collecting" multiple invalidations and then doing them all at once. Perhaps by manipulating controls, I'm "increasing" my frame rate simply by giving it "more to do" so it delays less between actual paints.
Unlike animation (with smooth transitions) I want to show the absolute latest value as quickly as possible. My data samples aren't faster than 10-20fps anyway.
Is there an easy way to "force" a paint at certain points, or is this a limit of how Views work? Should I be implementing this in a SurfaceView instead? (I have not played with that yet... want advice first.) Thanks in advance for suggestions.
(Later that same day...)
Update: I found a page in the Docs that does suggest implementing my widget as a SurfaceView is the way to go:
http://developer.android.com/guide/topics/graphics/2d-graphics.html
(An hour after that...)
SurfaceView seems overkill for what I want to do. The best-practice method is to "own" the whole canvas, but I have already developed the rest of my controls and layouts and they work well. It must be possible to get some better performance with what I have, especially since interacting with the UI makes the redraw speed satisfactory.
It turns out SurfaceView was the way to go. I was benchmarking on an older phone which didn't help. (The frame rate using a standard View was fine on an ASUS eeePad). I had to throw away some code, but the end result is smoother and faster with SurfaceView. Further, I was able to re-use more code than I expected and actually dramatically simplified my multitouch handling code (since everything I want to touch is in the same SurfaceView.
FYI: I'm still only getting about 15fps on Droid X, but half of the CPU load appears to be data packet processing. The eeePad is doing almost 40fps now -- and my data rate is only 20 samples/sec.
So... a win I guess. I want the Droid X to run better, but it flies on a real tablet.
In my application I need to draw a large network (basically, little boxes connected with lines) and the user will be able to zoom and pan it around.
My first option was to draw the network directly to the canvas, but I thought that was not very efficient, because each time a pan event occurs, the drawing process begins again.
So I tried to use a large mutable bitmap and draw my entire network only once (or at least whenever zoom occurs), and blit the necessary areas to the canvas.
My problem is, since the network is rather big, I get OOM exception when creating the bitmap…
What should I do? Draw directly to the canvas? Use several smaller bitmaps?
Thanks,
Direz
My first question to you is how many sprites you have going at once? By far, the fastest mechanism for having many sprites on the screen is to use OpenGL due to the hardware accelleration. The besy way, on Android, I have found to do this is to use the Cocos2d android (not to be confused with the ios version) which is available on Google Projects. You will have to use the IOS documentation in order to understand it though and there are a few decent tutorials to get started with online..in particular, the hello world template here... Www.sketchydroide.com/Blog/p?=8. It is out of date compared to the latest IOS cocos2d but thats to be expected. I have found that the programs run MUCH faster when not connected to an active debugger session in my experiments.
If you want to stick with your current approach or the above is still not fast enough, you are going to have to attempt to cull any drawing which does not appear n the screen meaning a general function of the form "if the sprite's x and y values are outside the bounds of the visible area, dont draw it" which is basically how most tile base games handle the issue.
It sounds like you are doing the drawing manually if you are doing little squares. I think it is more adviseable to go ahead and draw on the canvas but to be very careful about managing your sprite counts and to avoid heavy for loop iteratiins that occur on
the frame update loops where possible. It is rather easy to max out your little handset with drawing operations.
Another option might be to draw the entire bitmap once into memory and then use a copy rectangle operation to transfer the image to the screen without drawing the full bitmap you have created. I think that copy rect should be a fast operation normally but if you are using it to draw the whole screen it seems like overkill and probably wont work as well.
You're probably not going to like this, but if all you're doing is drawing boxes and lines, the efficiency of the canvas is going to be pretty dang high. Are you getting UI lag or something?
One thing I have messed around with is drawing collections of subcomponents that won't change much or at all to a bitmap then rendering (scaling/moving aren't all that expensive if done at the right level) to the canvas can help efficiency. I have tried in the past to create a framework for rendering a tile-like subset of an existing larger image, but did not meet much success. I've made things work, but the code just gets ugly.
Oh, also a quick test to see if the component you are rendering is within the rectangle created by the screen can save you a bunch of processor time.
I'm having trouble porting a simple game I developed for the iPhone
over to Android. The game has an animated ball which moves from Point
A to Point B. The user must touch the ball before it reaches point B
or lose the game. This was easy to implement on the iPhone using Core
Animation since I could locate the current position of the ball by
accessing its animation layer. In Android, I attempted to recreate the
game using tweened animation and represented the ball as a Drawable.
My issue is that I can't determine if the user is touching the spot
because the Drawable apparently bounds do not update as the ball
visually moves - making the program think the ball is always in its
original position. While searching these forums I saw an Android team
dev. confirm that you can't get the current location in a tweened
animation but offered no solution for a workaround. Can I accomplish
this on the Android using my current approach? If not, what approach
should I use?
Best regards,
Michael
Can I accomplish this on the Android
using my current approach?
I doubt it. Android's tweened animations are not really designed for games.
If not, what approach should I use?
Implement the game using 2D drawing on the Canvas -- see the LunarLander sample in your SDK.
I'm working with my friend on our first Android game. Basic idea is that every frame of the game the whole surface is redrawn (1 large bitmap) in 2 steps:
Background with some static image (PNG) wipes out previous frame
Then it is sprinkled all over with large number of particles which produces effect of soapy bubbles where there's a pool of about 20 bitmaps which randomly gets picked to produce illusion that all bubbles (between 200 - 300) are all different. Bubbles positions updated on each frame (~50ms) producing effect of moving bubbles.
The math engine is in C (JNI) and currently all drawing is done using android.graphics package very similar (since that was the example I was using) to Lunar Lander.
It works but animation is somewhat jerky and I can feel by temperature of my phone that it is very busy. Will we benefit from switching to OpenGL? And as a bonus question: what would be a good way to optimize the drawing mechanism (Lunar Lander like) we have now?
Now I've started to work with OpenGL ES, I would also use it for 2D graphics. This way is the most flexible and it's extremely fast (look at this example code. It's about 2D rendering, and there you can see the power of OpenGL.
It's not the easiest thing to start with, but there are some good tutorials out there - for example, this is a very good one.
Don't redraw the entire screen each time. That's what causes your low framerate. Use the invalidate method to mark the areas that have changed each frame.