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I want to write an int[][] consisting of integers from 0 to x(Where x is the number of images in a color). At the moment, I'm just writting a column element, then a seperator character, then an element, and repeat. Then once I finish my column, I write a column seperator and move to the next one.

for (int i = 0; i < imageColors.length; i++) {
    for (int j = 0; j < imageColors[0].length; j++) {
        writer.append(compressedColors[i][j]);
       writer.append("!");
    }
    writer.append("@");
}

I'm ok with writing my array column by column and seperating by @, but is there a better way I can write the columns? Especially considering a LOT of the elements are consecutive and identical, I feel like this could be done using a lot less file space. As long as I'm able to decode to the original data, anything goes.

Thanks!

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2  
Why don't you just zip the result? – Oliver Charlesworth Jun 8 '14 at 16:14
    
Zipping isn't an option for what I'm doing here – Nathan Jun 8 '14 at 16:15
    
Is it OK to store it in binary? No strings involved? – harold Jun 8 '14 at 16:16
1  
I'm not suggesting using 0 and 1 characters, but actual binary data, as in, raw bytes – harold Jun 8 '14 at 16:19
1  
Perhaps you should read up on those, they're actually pretty simple (both in an absolute sense and relative to many compression techniques that aim to get even higher compression ratios). If you want to post questions about them, I'd be happy to answer (if I come across them anyway). They're both interesting (imo) and useful, you'll almost always get a much smaller file than just collapsing ranges, and of course using base 256 is an immediate big improvement too. – harold Jun 8 '14 at 20:05

Writing integers in hex makes them shorter, you just need to remember to use base 16 when reading them back. Sometimes fixed length encoding can save space by cutting out the number separators, your "!". This depends on how many leading zeros your numbers have. Also, if all your numbers fit into a short or a byte then you can save space with a short[][] or a byte[][].

As you say, the big one is probably run-length encoding. Rather than:

"1234!1234!1234!1234!@"

you have something like:

"r4x1234!@"

Again, you will need to rewrite your reading code to take account. The "r" signals that this is a run length, not a plain number. The "x" separates the run length from the number that is to be repeated.

Short run lengths can lengthen the output; no compression method is perfect. Use "1234!5678!" instead of "r1x1234!r1x5678!"

Here is some untested code for run length encoding. I have set it to use hex and to reject runs shorter than three.

void writeArray(int[][] imageColors, Writer writer) throws IOException {
    for (int i = 0; i < imageColors.length; i++) {
        writer.append(processRow(imageColors[i]));
        writer.append("@");
    }

}

String processRow(int[] row) {
    int pointer = 0;
    StringBuilder sb = new StringBuilder(DEFAULT_ROW_LENGTH);

    // Set up for first rum.
    int currentValue = row[pointer];
    int repeatCount = 1;
    pointer++;

    while (pointer < row.length) {
        if (row[pointer] == currentValue) {
            // One more value in this run.
            ++repeatCount;
            ++pointer;
        } else {
            // End of run.
            if (repeatCount == 1) {
                sb.append(Integer.toHexString(currentValue));
            } else if (repeatCount == 2) {
                sb.append(Integer.toHexString(currentValue));
                sb.append("!");
                sb.append(Integer.toHexString(currentValue));
            } else {
                // Process long run >= 3.
                sb.append("r"); // "r" for "run".
                sb.append(Integer.toHexString(repeatCount));
                sb.append("x"); // Separate run length from value.
                sb.append(Integer.toHexString(currentValue));
            }
            sb.append("!");

            // Set up for next run.
            currentValue = row[pointer];
            repeatCount = 1;
            pointer++;
        }
    }
    return sb.toString();
}

Just to keep you happy, there is an obvious piece of the code missing. Including it would have complicated the example without adding anything new. I leave that as an exercise for the reader.

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