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I have approx. 6000 PNG files (256*256 pixels) and want to combine them into a big PNG holding all of them programmatically.

What's the best/fastest way to do that?

(The purpose is printing on paper, so using some web-technology is not an option and having one, single picture file will eliminate many usage errors.)

I tried fahd's suggestion but I get a NullPointerException when I try to create a BufferedImage with 24576 pixels wide and 15360 pixels high. Any ideas?

share|improve this question
    
You want one massive PNG? that will be 1536000x1536000 pixels? I must say a basic image library would be a better option here. – kyndigs Oct 13 '10 at 9:29
1  
Even if there is a way around re-encoding, a re-encoded very big image could potentially compress much better, especially if the images are similar. – Thilo Oct 13 '10 at 9:29
2  
@kyndigs: more like 15360 x 25600 (for a 60 x 100 arrangement) – Thilo Oct 13 '10 at 9:31
    
Regardless, a basic image library would be a better option :p – kyndigs Oct 13 '10 at 9:33
2  
... and a DinA0 printer at 300dpi, which is what I want. – soc Oct 14 '10 at 11:54
up vote 30 down vote accepted

Create a large image which you will write to. Work out its dimensions based on how many rows and columns you want.

    BufferedImage result = new BufferedImage(
                               width, height, //work these out
                               BufferedImage.TYPE_INT_RGB);
    Graphics g = result.getGraphics();

Now loop through your images and draw them:

    for(String image : images){
        BufferedImage bi = ImageIO.read(new File(image));
        g.drawImage(bi, x, y, null);
        x += 256;
        if(x > result.getWidth()){
            x = 0;
            y += bi.getHeight();
        }
    }

Finally write it out to file:

    ImageIO.write(result,"png",new File("result.png"));
share|improve this answer
    
Oh man, this was soooooo much easier than trying to use JAI and Mosaic Descriptor. THANK YOU! – JamesD Jul 20 '11 at 20:53

I had some similar need some time ago (huge images -and, I my case with 16 bitdepth- to have them fully in memory was not an option). And I ended coding a PNG library to do the read/write in a sequential way. In case someone find it useful, it's here.

Updated: here's a sample code:

/**
 * Takes several tiles and join them in a single image
 * 
 * @param tiles            Filenames of PNG files to tile
 * @param dest            Destination PNG filename
 * @param nTilesX            How many tiles per row?
 */
public class SampleTileImage {

        public static void doTiling(String tiles[], String dest, int nTilesX) {
                int ntiles = tiles.length;
                int nTilesY = (ntiles + nTilesX - 1) / nTilesX; // integer ceil
                ImageInfo imi1, imi2; // 1:small tile   2:big image
                PngReader pngr = new PngReader(new File(tiles[0]));
                imi1 = pngr.imgInfo;
                PngReader[] readers = new PngReader[nTilesX];
                imi2 = new ImageInfo(imi1.cols * nTilesX, imi1.rows * nTilesY, imi1.bitDepth, imi1.alpha, imi1.greyscale,
                                imi1.indexed);
                PngWriter pngw = new PngWriter(new File(dest), imi2, true);
                // copy palette and transparency if necessary (more chunks?)
                pngw.copyChunksFrom(pngr.getChunksList(), ChunkCopyBehaviour.COPY_PALETTE
                                | ChunkCopyBehaviour.COPY_TRANSPARENCY);
                pngr.readSkippingAllRows(); // reads only metadata             
                pngr.end(); // close, we'll reopen it again soon
                ImageLineInt line2 = new ImageLineInt(imi2);
                int row2 = 0;
                for (int ty = 0; ty < nTilesY; ty++) {
                        int nTilesXcur = ty < nTilesY - 1 ? nTilesX : ntiles - (nTilesY - 1) * nTilesX;
                        Arrays.fill(line2.getScanline(), 0);
                        for (int tx = 0; tx < nTilesXcur; tx++) { // open several readers
                                readers[tx] = new PngReader(new File(tiles[tx + ty * nTilesX]));
                                readers[tx].setChunkLoadBehaviour(ChunkLoadBehaviour.LOAD_CHUNK_NEVER);
                                if (!readers[tx].imgInfo.equals(imi1))
                                        throw new RuntimeException("different tile ? " + readers[tx].imgInfo);
                        }
                        for (int row1 = 0; row1 < imi1.rows; row1++, row2++) {
                                for (int tx = 0; tx < nTilesXcur; tx++) {
                                        ImageLineInt line1 = (ImageLineInt) readers[tx].readRow(row1); // read line
                                        System.arraycopy(line1.getScanline(), 0, line2.getScanline(), line1.getScanline().length * tx,
                                                        line1.getScanline().length);
                                }
                                pngw.writeRow(line2, row2); // write to full image
                        }
                        for (int tx = 0; tx < nTilesXcur; tx++)
                                readers[tx].end(); // close readers
                }
                pngw.end(); // close writer
        }

        public static void main(String[] args) {
                doTiling(new String[] { "t1.png", "t2.png", "t3.png", "t4.png", "t5.png", "t6.png" }, "tiled.png", 2);
                System.out.println("done");
        }
}
share|improve this answer
    
This is interesting but the code here is out of date with the current version of the lib. Any chance you have a similar example that is current? Many thanks. – Matt Friedman Apr 2 '14 at 13:30
    
@MattFriedman Have you tried the one posted in "Snippets" ? code.google.com/p/pngj/wiki/Snippets – leonbloy Apr 2 '14 at 13:34
    
The code posted at the link you provided compiles. Many thanks. Perhaps you want to go ahead and swap out the code above with the new stuff. Just a thought. Thanks again. – Matt Friedman Apr 2 '14 at 23:50
    
@MattFriedman Done, thanks – leonbloy Apr 3 '14 at 1:28

I do not see how it would be possible "without processing and re-encoding". If you insist on using Java then I just suggest you to use JAI (project page here). With that you would create one big BufferedImage, load smaller images and draw them on the bigger one.

Or just use ImageMagick montage:

montage *.png output.png

For more information about montage, see usage.

share|improve this answer
    
+1 for ref to ImageMagik – Jayan Oct 13 '10 at 17:05

The PNG format has no support for tiling, so there is no way you can escape at least decompressing and recompressing the data stream. If the palettes of all images are identical (or all absent), this is the only thing you really need to do. (I'm also assuming the images aren't interlaced.)

You could do this in a streaming way, only having open one "row" of PNGs at a time, reading appropriately-sized chunks from their data stream and writing them to the output stream. This way you would not need to keep entire images in memory. The most efficient way would be to program this on top of libpng yourself. You may need to keep slightly more than one scanline of pixels in memory because of the pixel prediction.

But just using the command-line utilities of ImageMagick, netpbm or similar will save you a large amount of development time for what may be little gain.

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As others have pointed out, using Java is not necessarily the best bet here.

If you're going to use Java, your best bet--assuming you're sufficiently short on memory so that you can't read the entire dataset into memory multiple times and then write it out again--is to implement RenderedImage with a class that will read your PNGs off the disk upon demand. If you just create your own new BufferedImage and then try to write it out, the PNG writer will create an extra copy of the data. If you create your own RenderedImage, you can pass it to ImageIO.write(myImageSet,"png",myFileName). You can copy SampleModel and ColorModel information from your first PNG--hopefully they're all the same.

If you pretend that the entire image is multiple tiles (one tile per source image), then ImageIO.write will create a WritableRaster that is the size of the entire image data set, and will call your implementation of RenderedImage.copyData to fill it with data. If you have enough memory, this is an easy way to go (because you get a huge target set of data and can just dump all your image data into it--using the setRect(dx,dy,Raster) method--and then don't have to worry about it again). I haven't tested to see whether this saves memory, but it seems to me that it should.

Alternatively, if you pretend that the whole image is a single tile, ImageIO.write will then ask, using getTile(0,0), for the raster that corresponds to that entire image. So you have to create your own Raster, which in turn makes you create your own DataBuffer. When I tried this approach, the minimum memory usage that successfully wrote a 15360x25600 RGB PNG was -Xmx1700M (in Scala, incidentally), which is just barely over 4 bytes per pixel of written image, so there's very little overhead above one full image in memory.

The PNG data format itself is not one that requires the entire image in memory--it would work okay in chunks--but, sadly, the default implementation of the PNG writer assumes it will have the entire pixel array in memory.

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simple python script for joining tiles into one big image:

import Image

TILESIZE = 256
ZOOM = 15
def merge_images( xmin, xmax, ymin, ymax, output) :
    out = Image.new( 'RGB', ((xmax-xmin+1) * TILESIZE, (ymax-ymin+1) * TILESIZE) ) 

    imx = 0;
    for x in range(xmin, xmax+1) :
        imy = 0
        for y in range(ymin, ymax+1) :
            tile = Image.open( "%s_%s_%s.png" % (ZOOM, x, y) )
            out.paste( tile, (imx, imy) )
            imy += TILESIZE
        imx += TILESIZE

    out.save( output )

run:

merge_images(18188, 18207, 11097, 11111, "output.png")

works for files named like %ZOOM_%XCORD_%YCORD.png , for example 15_18188_11097.png

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Use imagemagick's montage like this:

montage *.png montage.png

You can find more information on the parameters here

Good luck

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Combing Images

private static void combineALLImages(String screenNames, int screens) throws IOException, InterruptedException {
    System.out.println("screenNames --> D:\\screenshots\\screen   screens --> 0,1,2 to 10/..");
    int rows = screens + 1;
    int cols = 1;
    int chunks = rows * cols ; 

     File[] imgFiles = new File[chunks];
    String files = "";
    for (int i = 0; i < chunks; i++) {
        files = screenNames + i + ".jpg";
        imgFiles[i] = new File(files);          
        System.out.println(screenNames + i + ".jpg"+"\t Screens : "+screens);    

    }

    BufferedImage sample = ImageIO.read(imgFiles[0]);
    //Initializing the final image
    BufferedImage finalImg = new BufferedImage(sample.getWidth() * cols, sample.getHeight() * rows, sample.getType());

    int index = 0;
    for (int i = 0; i < rows; i++) {
        for (int j = 0; j < cols; j++) {
            BufferedImage temp = ImageIO.read(imgFiles[index]);
            finalImg.createGraphics().drawImage(temp, sample.getWidth() * j, sample.getHeight() * i, null);
            System.out.println(screenNames + index + ".jpg");
            index++;
        }
    }
    File final_Image = new File("D:\\Screenshots\\FinalImage.jpg");
    ImageIO.write(finalImg, "jpeg", final_Image);

}
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You might be best off bouncing things off another (lossless) image format. PPM is dead easy to use (and to put tiles in programmatically; it's just a big array on disk, so you'll only have to store one row of tiles at most), but it's very wasteful of space (12 bytes per pixel!).

Then use a standard converter (e.g. ppm2png) that takes the intermediary format and turns it into the giant PNG.

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