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49

Seeing as you have a Canvas to work with. Here is one option. private Bitmap makeRadGrad() { RadialGradient gradient = new RadialGradient(200, 200, 200, 0xFFFFFFFF, 0xFF000000, android.graphics.Shader.TileMode.CLAMP); Paint p = new Paint(); p.setDither(true); p.setShader(gradient); Bitmap bitmap = Bitmap.createBitmap(400, ...


7

From Android Developers: Widget Design Guidelines: In some cases, devices have low pixel depths that can cause visual banding and dithering issues. To solve this, application developers should pass assets through a "proxy" drawable defined as XML:. This technique references the original artwork, in this case "background.9.png", and ...


6

I dont think I fully understood your question, but if you are having trouble interacting with the file system, I suggest using the functions dlmread and dlmwrite. The follow code should provide an example to get you started: %Random 4 by 4 matrix M = rand(4,4) %Write matrix to file system dlmwrite("filename.txt",M); %Read it back and store in an other ...


5

I suggested to used ordered dithering (http://en.wikipedia.org/wiki/Ordered_dithering), since Floyd-Steinberg need more processing and calculating and only works on still image / doesn't works well for animated or constant changed on display. I Created my own optimized ordered dithering from 24/32bit RGB color to 16bit RGB565 color, that seperate tresshold ...


4

Hmmm. I "think" your problem is that your bitmap is not being created as ARGB_8888 (despite your setFormat call). I would "suggest," instead of creating the Bitmap drawable using openRawResource, use BitmapFactory and make sure you specify Bitmap.Config.ARGB_8888. Then make your drawable from the bitmap. Just a thought--hard to guess at this distance ...


4

You can just use the standard two-color sort algorithm for this; just edit the array references to map accesses to the first half of the array to even elements in your actual array, and accesses to the second half of the array to odd elements in your actual array (backwards). Basically, a[i] becomes (assuming size is even): a[i < size/2 ? i * 2 : (size ...


4

As you mentioned, the Floyd-Steinberg dithering method is popular because it's simple and fast. For the subtle differences between 24-bit and 16-bit color the results will be nearly optimal visually. It was suggested that I use the sample picture Lena but I decided against it; despite its long history as a test image I consider it too sexist for modern ...


4

The best solution I can think of is based on a random dithering that changes every frame. This combines the advantage of dithering with not having a fixed dithering pattern, and since a given pixel changes values many times a second what you perceive is closer to the average of those various values, which is closer to the original "deep color" value than any ...


3

pngquant is available as a pure C library. ImageMagick uses octtree, which is fast, but not the best quality. pngquant uses MedianCut with several additional improvements, and is likely to give higher quality. pngquant has speed/quality trade-off setting which can improve quality a bit further, and also has custom dithering algorithm (variation of ...


3

Imagemagick is a very powerful C library for graphical manipulation: http://www.imagemagick.org/ It has commandline tools, but can also be used as a C library.


3

The only way I've been able to affect the setting of BitmapScalingMode is to inherit from the DrawingVisual class and set it via its protected accessor: // exposes BitmapScalingMode (also works for other protected properties) public class MyDrawingVisual : DrawingVisual { public BitmapScalingMode BitmapScalingMode { get { return ...


3

Well, you're not calling things properly, so it shouldn't be working… but even if we were calling things right, I'm not sure it would work. First, the "official" free version of the PIL Handbook is both incomplete and out of date; the draft version at http://effbot.org/imagingbook/image.htm is less incomplete and out of date. im.convert(“P”, **options) ...


2

If you are reducing from 8 bits to 7, you are throwing away almost no information. Are you sure you even need to dither? If you need to dither, add random noise and then clip, it will be plenty good for your application.


2

You could use an ordered dither. It's more coarse looking than Floyd-Steinberg but there's no dependency between pixels. Edit: Since you're only removing a single bit, this becomes almost trivial. The principle behind ordered dither is to create a pattern that biases the transition threshold; in this case the bias will be 0 or 1 and the pattern will be 2x2 ...


2

Loop through the array, maintaining invariants for 3 variables and the array: everything before pos has been sorted. color is the color of the element that should be placed at pos. everything between pos and next has the same color. the array is a permutation of itself. Anyway, it seems to work. def odd_even_sort(xs): color = 0 pos = 0 next ...


2

I don't think it can be made in 1 pass, unless the "leave them where they are" means "it doesn't matter where they end up". Here's my attempt with two passes :) void zeroone(int *arr, size_t n) { int *ptr = arr; size_t nn = n; int s = 0; /* if the array has an odd number of elements ** the number of 0's is different then the number of 1's */ ...


2

Taken from here: Random dither Random dithering could be termed the "bubblesort" of digital halftoning algorithms. It was the first attempt (documented as far back as 1951) to correct the contouring produced by fixed thresholding, and it has traditionally been referenced for comparison in most studies of digital halftoning. In ...


2

For future reference, I found PNGNQ, which is a pretty good library for image quantization. Their samples are amazing.


2

I don't think there's anything wrong with your original algorithm (from Wikipedia). The brightness disparity is probably an artifact of monitor gamma. Check Joel Yliluoma's Positional Dithering Algorithm, the appendix about gamma correction from this article about a dithering algorithm invented by Joel Yliluoma ...


2

Floyd–Steinberg dithering for each y from top to bottom for each x from left to right oldpixel := pixel[x][y] newpixel := find_closest_palette_color(oldpixel) pixel[x][y] := newpixel quant_error := oldpixel - newpixel pixel[x+1][y] := pixel[x+1][y] + 7/16 * quant_error pixel[x-1][y+1] := pixel[x-1][y+1] + 3/16 * ...


2

Color Banding Solved ooooooooooyyyyyyyeaaaaaaaaaa I solved color banding in two phases 1) * when we use the BitmapFactory to decode resources it decodes the resource in RGB565 which shows color banding, instead of using ARGB_8888, so i used BitmapFactory.Options for setting the decode options to ARGB_8888 second problem was whenever i scaled the bitmap it ...


2

First, I'm assuming you're using the default RGBA_8888 pixel format (default as of Android 2.3). Second, on some displays gradients render poorly. One workaround is to overlay a small bit of noise over the gradient (a repeating semi-transparent noise texture in drawable-nodpi should do) using a <layer-list> drawable.


2

Try dis.. BitmapFactory.Options options = new BitmapFactory.Options(); options.inPreferredConfig = Bitmap.Config.ARGB_8888; Bitmap gradient = BitmapFactory.decodeResource(getResources(), R.drawable.gradient, options); findViewById(R.id.main).setBackgroundDrawable(new BitmapDrawable(gradient));


2

int a[10] = {1, 1, 0, 1, 1, 0, 1, 1, 1, 0}; int i; int count_0 = 0; int count_1 = 0; for(i = 0; i < 10; i++) { if(a[i] == 0) { if(count_1 > 0) { if(i % 2 == 0) { a[i-2*count_1+1] = 0; a[i] = 1; count_1--; } else { a[i-2*count_1] = 0; a[i] = 1; } } else { ...


2

This should work with a 24 BPP png: String filename = "jEEDL.png"; PlanarImage image = PlanarImage.wrapRenderedImage(JAI.create("fileload", filename)); LookupTableJAI lut = new LookupTableJAI(new byte[][] {{(byte)0x00, (byte)0xff}, {(byte)0x00, (byte)0xff}, {(byte)0x00, (byte)0xff}}); ImageLayout layout = new ImageLayout(); byte[] map ...


2

Here are all of my monochrome dither functions, usable as a web worker: https://github.com/meemoo/iframework/blob/gh-pages/src/nodes/image-monochrome-worker.js Live demo with webcam: http://meemoo.org/iframework/#gist/3721129


1

Set the PixelFormat inside onCreate() holder.setFormat(PixelFormat.RGBA_8888);


1

This can be done in single pass. Here's another solution that uses single pass. The idea is to keep two indexes pos_0 and pos_1 which holds the location where the next 0 or 1 is to be placed in the array. i will be used to traverse through the array. // //array a[] and length are members of the class AlternateZeroAndOne // void ...


1

Can you confirm that, though you request 565, that you are, in fact, getting 565? There are EGL functions for confirming what you end up getting. I refer to checking on both devices since you might be getting 888 on the Incredible and other devices, hence the better-looking display.


1

#include<iostream> using namespace std; ////////////////////////////////////////// int a[]={1,1,0,1,0,1,1,1,0,1,0,1,0,0,0,0,1,1,1,1,0,0} ; int main() { int zero = 0, one = 1; int n = sizeof(a)/sizeof(*a); int i = 0; while ( zero < n && one < n) { if(a[zero] != 0 && a[one] != 1) { ...



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