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I have done some google-ing around and couldn't find enough information about this format. It is the default format for camera preview. Can anyone suggest good sources of information about it and how to extract data from a photo/preview image with that format? To be more specific, I need the black and white image extracted.

EDIT: Seems like that format is also called YCbCr 420 Semi Planar

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Starting with Android API level 17, the best solution is to use an intrinsic RenderScript - ScriptIntrinsicYuvToRGB. This RenderScript is built-in, so you do not have to write a line of C-like code. See this question for details: How to use ScriptIntrinsicYuvToRGB converting yuv to rgba –  rwong Jun 9 at 22:06

5 Answers 5

I developed the following code to convert the NV21 to RGB, and it is working.

/**
 * Converts YUV420 NV21 to RGB8888
 * 
 * @param data byte array on YUV420 NV21 format.
 * @param width pixels width
 * @param height pixels height
 * @return a RGB8888 pixels int array. Where each int is a pixels ARGB. 
 */
public static int[] convertYUV420_NV21toRGB8888(byte [] data, int width, int height) {
    int size = width*height;
    int offset = size;
    int[] pixels = new int[size];
    int u, v, y1, y2, y3, y4;

    // i percorre os Y and the final pixels
    // k percorre os pixles U e V
    for(int i=0, k=0; i < size; i+=2, k+=2) {
        y1 = data[i  ]&0xff;
        y2 = data[i+1]&0xff;
        y3 = data[width+i  ]&0xff;
        y4 = data[width+i+1]&0xff;

        u = data[offset+k  ]&0xff;
        v = data[offset+k+1]&0xff;
        u = u-128;
        v = v-128;

        pixels[i  ] = convertYUVtoRGB(y1, u, v);
        pixels[i+1] = convertYUVtoRGB(y2, u, v);
        pixels[width+i  ] = convertYUVtoRGB(y3, u, v);
        pixels[width+i+1] = convertYUVtoRGB(y4, u, v);

        if (i!=0 && (i+2)%width==0)
            i+=width;
    }

    return pixels;
}

private static int convertYUVtoRGB(int y, int u, int v) {
    int r,g,b;

    r = y + (int)1.402f*v;
    g = y - (int)(0.344f*u +0.714f*v);
    b = y + (int)1.772f*u;
    r = r>255? 255 : r<0 ? 0 : r;
    g = g>255? 255 : g<0 ? 0 : g;
    b = b>255? 255 : b<0 ? 0 : b;
    return 0xff000000 | (b<<16) | (g<<8) | r;
}

This image helps to understand. YUV420 NV21

If you wanna just grayscale image is easer. You can discard all the U and V info, and take just the Y info. The code would can be like this:

/**
 * Converts YUV420 NV21 to Y888 (RGB8888). The grayscale image still holds 3 bytes on the pixel.
 * 
 * @param pixels output array with the converted array o grayscale pixels
 * @param data byte array on YUV420 NV21 format.
 * @param width pixels width
 * @param height pixels height
 */
public static void applyGrayScale(int [] pixels, byte [] data, int width, int height) {
    int p;
    int size = width*height;
    for(int i = 0; i < size; i++) {
        p = data[i] & 0xFF;
        pixels[i] = 0xff000000 | p<<16 | p<<8 | p;
    }
}

To create your Bitmap just:

Bitmap bm = Bitmap.createBitmap(pixels, width, height, Bitmap.Config.ARGB_8888);

Where pixels is your int [] array.

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How to extract Cr channel from byte [] data ? –  Yuriy Chernyshov Feb 18 at 21:47
    
@YuriyChernyshov Supposing that YUV=YCrCb, you can extract Cr channel adapting the method convertYUV420_NV21toRGB8888 and putting the U values on an array. But why you wanna only the Cr? Pay attention that the U and V are interlaced, the first U1 from the picture is used with the Y1, Y2, Y7, Y8. –  Derzu Feb 20 at 1:00
    
Derzu, I am start to learn traffic sign detection. And the one of the first step is to take Cr channel and start to process it - adaptively thresholded using two thresholds to provide robust isolation of red scene component. –  Yuriy Chernyshov Feb 21 at 21:21
1  
@Derzu You simply Rock !! \m/ –  Salman Muhammad Ayub Mar 26 at 14:46

I also had lots of headache because of this preview format.

The best I could find are these:

http://www.fourcc.org/yuv.php#NV21

http://v4l2spec.bytesex.org/spec/r5470.htm

It seems that the Y component is the first width*height bytes int the array you get.

Some more informational links:

http://msdn.microsoft.com/en-us/library/ms867704.aspx#yuvformats_yuvsampling

http://msdn.microsoft.com/en-us/library/ff538197(v=vs.85).aspx

Hope this helps.

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NV21 is basically YUV420 but instead of planar format where Y, U and V have independent planes, NV21 has 1 plane for Luma and 2nd plane for Chroma. The format looks like

YYYYYYYYYYYYYYYYYYYYYYYYYYYYY YYYYYYYYYYYYYYYYYYYYYYYYYYYYY . . . .

VUVUVUVUVUVUVUVUVUVUVUVUVUVUVU VUVUVUVUVUVUVUVUVUVUVUVUVUVUVU . . . . .

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The data is in YUV420 format.
If you are only interested in the monochrome channel, i.e. "black and white", then this the first width x height bytes of the data buffer you already have.
The Y channel is the first image plane. It is exactly the grey/intensity/luminosity etc. channel.

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Here's code to just extract the greyscale image data:

private int[] decodeGreyscale(byte[] nv21, int width, int height) {
    int pixelCount = width * height;
    int[] out = new int[pixelCount];
    for (int i = 0; i < pixelCount; ++i) {
        int luminance = nv21[i] & 0xFF;
        out[i] = Color.argb(0xFF, luminance, luminance, luminance);
    }
    return out;
}
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