My app is loading a large image (a house floorplan), then drawing touch-reactive objects (furniture, lamps etc.) on the image. I have a base image file included with my app but the objects come from coords in my database.
I've successfully deployed the app in multiple iterations, but now I need to use larger base images and BitmapFactory is causing an OutOfMemory exception on many devices (both old and new devices; anything with < 32MB heap seems to crash). I've read the 157 OOM questions on SO, but I'm afraid the link they all seem to point to won't help me since resolution / zooming is critical to the app's function.
I've tried to test the device's available memory before loading, but the results are spotty at best (some devices like the galaxy S3 report plenty of heap but still crash). I've also tried decreasing resolution but the image became unusable when reduced to a safe size based on the above test.
Is there another way to implement this design without ever using bitmaps?
I need to:
Load large base image
Create clickable shapes on top of the base image, maintaining their position / scale relative to the base image
BONUS: in the iOS version of my app, I can do SVG-style text scaling so a long label on a small object will stay inside the object
instead of running across the map(and will be invisible until the
image is zoomed). Replicating this in android would make me a happy
code monkey.
I can post code if needed, but you've all seen it before (almost all of it came from SO).
Thanks in advance for reading, and for any help you can give.
you have a few options:
break your large image into tiles, load these tiles into an array, and move a camera object around and only load tiles that need to be drawn, as the comments suggest.
make your image small and scale it up using 'android:scaletype`
Draw lines and curves on a Canvas object at runtime.
Use OpenGL
The appropriate solution really depends on how you want it to look. Tiling will take more dev effort but will look better, just be careful that you are properly cleaning up any tiles that aren't being drawn...
dynamically scaling will be easier, but you cannot guarantee the image won't be blurry.
Drawing on a Canvas object at runtime could work well-- just use Lines of different width and circles and Rects etc.
Using OpenGL will have the steepest learning curve, and might be overkill. This depends on your purpose.
You might like to look into using a "largeHeap"
http://developer.android.com/reference/android/R.styleable.html#AndroidManifestApplication_largeHeap
Here are some options:
1) Use tiles. Use tiles and dynamically load your data. Honestly, this is the best solution. With this solution you can load arbitrarily large images.
I've successfully used this approach for an endless paint canvas and it works quite well. You really only need to draw what is directly visible to the user. Tiles is a way to cast away pieces you don't need. A pyramid of tiles (where you pre-downsample your images and create more tiles), allows you to do this in a clean and fast way.
2) Use native code. The memory restrictions on native code are not the same as Java code. You can get away with allocating more memory.
3) Use OpenGL. Once again, the memory restriction for OpenGL are not the same as Java code.
4) Convert your original plan to an SVG and use an SVG library like this one.
5) Use "largeHeap". I strongly discourage this, as I think a largeHeap is rarely the solution, there are generally cleaner ways to approach the problem.
if the image is static , you might wish to use this nice library:
https://github.com/ManuelPeinado/ImageLayout
if the library doesn't support auto-downsampling of the image, you should do it by yourself, in order to use the best image for the current device (so that you won't get OOM).
for auto-sizing text , you might have some luch with the next post:
Auto-fit TextView for Android
Related
Right now I am working in developing live wallpaper.
I have around 75 animation images for my main character and in one spot I can't able to load it into memory.
It throws an OutOfMomory exception.
Basically I have to continuously change frame of my main character from first to last. So I write algorithm for loading required image and unload other image. But it calls garbage collector program continuously so as a result animation can't run smoothly as per expectation.
So how to manage that much images for live wallpaper?? Please provide some guidance here.
Maybe the tips Nicolas posted here will help you.
Short version:
Reduce texture sizes.
Reduce texture switches (aka try to use spritesheets, so that the texture needs to be changed as few as possible)
Use lower quality textures (RGBA4444 or RGB565 instead of RGBA8888)..
Call setIgnoreUpdate where the entity doesn't need updates.
Use SpriteBatches if possible.
You can also add "android:largeHeap=true" in your application tag along with the tips LordRaydenMK has suggested.
i was wondering if is it efficient and possible to set 3000X2000px image as canvas background without resizing it and without getting the memory error.
because i want the real size image and pan around it.
using webview is not an option.
Currenty i tried to the set the background by using a folder structure named "Drawable-nodpi" and then assinging the bitmap image with decoderesource method.
Such a huge picture will inevitably cause outofmem exceptions on at least some devices. So I think that you need to dynamically scale and load only parts of the image that needs to be displayed, possibly with a caching mechanism.
Unfortunately, I don't know about any library components for Android that does this for you out of the box, but I'm pretty sure that you can find some nice articles on this topic.
so im trying to make a game with just a simple static background at the moment, but when i draw it to the screen (no scaling being done as the resolution of the image is the same as the screen) it draws the bottom portion of the image incorrectly where the bottom few hundred pixels of the image are exactly the same going down the image. Sorry it's so difficult to explain but being new here i cant actually post an image of what is going wrong.
Now im just using a simple sprite to render this background image. Here is the code being used:
// background layer: another image
background = CCSprite.sprite("WaterBackground.png");
// change the transform anchor point (optional)
background.setPosition(CGPoint.make(GAME_WIDTH/2, GAME_HEIGHT/2));
addChild(background);
am i doing something wrong here? Does Cocos2D not support such large images for sprites? (resolution of 800*1280)
Any help would be greatly appreciated!
Since i am now able to upload images, here are visuals of what is going wrong:
And the problem in my game:
As you can see, the problem is hard to describe. The problem only exists with this larger image; i scaled it down manually in GIMP and then scaled it up for the game and it looked fine (except for being a lower resolution). I also tried scaling down this larger image which still resulted in the same problem. Hopefully you guys can help me as I have no clue what could possibly cause this error. Especially since i read that Cocos2D's max supported image size is 2048*2048 and my image is well within that.
Thanks for any help you guys can provide!
This is due to limitations on the size of textures. Coсos2d-android supports images with a maximum size of 1024 x 1024 pixels.
I faced the same problem and looking for a way to solve it.
EDIT
I found the solution
In cocos2d project open file CCTexture2d.java in org.cocos2d.opengl package and change kMaxTextureSize from 1024 to 2048
I'm not certain, as from your code and looking at the cocos2d code I can't see a definite reason why this would be happening, but given the number of sprites you've got on the screen, i'd definitely take a look at my answer to this question as you may well be hitting one of cocos2d's quirky little rendering faults around multiple sprites. can't hurt to try spritesheets, and it's certainly the correct way to actually do sprites in cocos.
also, definitely create yourself a helper utility to determine the scaling ratio of a device compared to your original image sizes, as unlike on iphone, android does have a pretty much unlimited variation of screen resolutions, and a simple bit of "scale as you load" utility code now will save you lots of time in the future if you want to use this on any other device.
you should try to make one method for adding background,i am doing this this like this way try this hope it will help full for you...here addBackGroundScene is my method and i am adding my background with this method,scrXScaleFactor is maintaining scaling part of my screen try this...
private void addBackGroundScene() {
CCSprite bgForLevel1 = addBackgroundAtOrigin("prelevel1/bgMenu.jpg");
bgForLevel1 .setScaleX(scrXScaleFactor);
bgForLevel1 .setAnchorPoint(0, 0);
addChild(bgForLevel1 );
}
I'm using the code outlined in the following post:
Draw text in OpenGL ES
I thought I could use this technique in order to dynamically display text (say an FPS counter). I realised that calls to resources to get the drawable slows down this process quite a lot, and I didn't need a bitmap background, so I removed it.
The technique works, but after a while (~2000 frames) the whole phone locks up. I suspect there's some memory which is not being freed in this code but I don't know where. I tried offloading the Canvas, Paint and Bitmap object creations which worked (so they aren't created every single frame) but the same problem still occurs.
I suspect therefore, that the generated GL texture is to blame, but I'm unsure how to remove it, or if this is even the case.
Any help would be appreciated.
EDIT: As an alternative, can someone please point out an easy way to render text to the screen dynamically (e.g. should be able to render the # of frames since starting for example, continually being updated and increasing). All the ways I can think of are either extremely tedious (make individual quads for each digit, store the textures for 0-9 in memory, parse the number and render each digit onto each quad), cannot be updated in good time (overlay Views) or can't get the required positioning in the glSurfaceView.
CBFG - http://www.codehead.co.uk/cbfg
This really is exactly what I've been wanting. You build a bitmap file from a font file using CBFG which can then be loaded and displayed with only a few lines of code (after importing his packages). It's literally as easy as fnt.PrintAt(gl,"Hello world!", 50, 160); in onDraw and more importantly, it handles dynamic text really well. I strongly advise anyone who is the same situation to try this.
two things I can guess you'll want to try:
1) dont' recreate the number of your frs every frame, generate number 1 to 60 and always reuse those.
2) there is an issue I found when generating text for my textures is that the font loader code of android never frees the memory space so avoid loading the font all the time, do it once and store a reference to it
I just wrote an entire tutorial on creating exactly what you are looking for.
The idea is basically to use font files and then generate a font bitmap (or atlas) at run-time instead of using a tool like CBFG to generate it offline. The benefit of this is that you can ship a small font file instead of multiple large bitmaps with your app, and never have to sacrifice font quality by using scaling.
The tutorial includes full working source (that can be dropped into any project). If you are interested go have a look here.
I am trying to port some code from a regular Java program into the Android platform. Unfortunately, a significant part of the program involves manipulating images, and Java's AWT was taken away from me. I am trying to replace awt.BufferedImage with Bitmap, and was hoping that the only differences between the two classes would be their interfaces. I read some of the documentation, and it looked like that is true, but after wrapping all of the image stuff into a nice little class and testing almost-the-same code on both my development machine and an actual phone, one program works and the other does not. So:
The encoding for color does not change - right? It is still 0xAARRGGBB - right?
The images themselves are not changed - right? When I put an image into res/drawable, it is exactly the same image. Most notably, they don't alter the resolution in any way - right?
Accessing the pixels is essentially the same - right? I essentially replaced all of my get/setRGB(x,y,RGB) with get/setPixel(x,y,color). There are no changes to the method of indexing into the grid - is there?
Solved: when opening the image, I failed to create a BitmapFactory.Options() with inDither set to false. The BitmapFactory then failed to produce an exact copy, putting some alterations in the resulting Bitmap in order to make it more pleasing for display.