reZach/main.cs

## main.cs
class Program
    {

        static void Main(string[] args)
        {
            using (FileStream fs = new FileStream(@"D:\file.gif", FileMode.Create))
            {
                using (BinaryWriter outputFile = new BinaryWriter(fs))
                {
                    //outputFile.Seek(0, SeekOrigin.Begin);
                    // http://www.matthewflickinger.com/lab/whatsinagif/bits_and_bytes.asp

                    // Header
                    outputFile.Write(new char[3] { 'G', 'I', 'F' }); // signature
                    outputFile.Write(new char[3] { '8', '9', 'a' }); // gif format
                    outputFile.Write(Convert.ToInt16(5)); // screen width
                    outputFile.Write(Convert.ToInt16(5)); // screen height

                    BitArray array = new BitArray(new byte[1]);
                    array[7] = true; // global color table flag
                    array[6] = false; array[5] = false; array[4] = true; // color resolution
                    array[3] = false; // sort flag
                    array[2] = false; array[1] = false; array[0] = true; // global color table size
                    byte[] bytes = new byte[1];
                    array.CopyTo(bytes, 0);
                    outputFile.Write(bytes);

                    outputFile.Write(Convert.ToByte(0)); // background color index
                    outputFile.Write(Convert.ToByte(0)); // pixel aspect ratio

                    // global color table
                    outputFile.Write(Convert.ToByte(255)); // white
                    outputFile.Write(Convert.ToByte(255));
                    outputFile.Write(Convert.ToByte(255));
                    outputFile.Write(Convert.ToByte(255)); // red
                    outputFile.Write(Convert.ToByte(0));
                    outputFile.Write(Convert.ToByte(0));
                    outputFile.Write(Convert.ToByte(0)); // blue
                    outputFile.Write(Convert.ToByte(0));
                    outputFile.Write(Convert.ToByte(255));
                    outputFile.Write(Convert.ToByte(0)); // black
                    outputFile.Write(Convert.ToByte(0));
                    outputFile.Write(Convert.ToByte(0));

                    // graphic control extension
                    //outputFile.Write(Convert.ToByte(21)); // extension introducer
                    //outputFile.Write(Convert.ToByte(0xf9)); // graphic control label
                    //outputFile.Write(Convert.ToByte(4)); // byte size
                    //outputFile.Write(Convert.ToByte(0)); // packed field
                    //outputFile.Write(Convert.ToInt16(0)); // delay time
                    //outputFile.Write(Convert.ToByte(0)); // transparent color index
                    //outputFile.Write(Convert.ToByte(0)); // block terminator

                    // image descriptor
                    outputFile.Write(Convert.ToByte(0x2c)); // img separator character
                    outputFile.Write(Convert.ToInt16(0)); // img left position
                    outputFile.Write(Convert.ToInt16(0)); // img top positon
                    outputFile.Write(Convert.ToInt16(5)); // img width
                    outputFile.Write(Convert.ToInt16(5)); // img height
                    array = new BitArray(new byte[1]);
                    array[0] = false; // local color table present
                    array[1] = false; // img not interlaced
                    array[2] = false; // sort flag
                    array[5] = false; // size of local color table
                    array[6] = false;
                    array[7] = false;
                    bytes = new byte[1];
                    array.CopyTo(bytes, 0);
                    outputFile.Write(bytes);


                    // image data; lzw
                    List<int> pixelData = new List<int>();
                    pixelData.Add(1);
                    pixelData.Add(1);
                    pixelData.Add(1);
                    pixelData.Add(1);
                    pixelData.Add(1);
                    pixelData.Add(2);
                    pixelData.Add(2);
                    pixelData.Add(2);
                    pixelData.Add(2);
                    pixelData.Add(2);
                    pixelData.Add(1);
                    pixelData.Add(1);
                    pixelData.Add(1);
                    pixelData.Add(1);
                    pixelData.Add(1);
                    pixelData.Add(2);
                    pixelData.Add(2);
                    pixelData.Add(2);
                    pixelData.Add(2);
                    pixelData.Add(2);
                    pixelData.Add(3);
                    pixelData.Add(3);
                    pixelData.Add(3);
                    pixelData.Add(3);
                    pixelData.Add(3);
                    string result = LZW(pixelData);

                    bytes = GetBytes(result);
                    outputFile.Write(Convert.ToByte(2)); // lzw minimum code size
                    outputFile.Write(Convert.ToByte(bytes.Length)); // number of bytes in sub-block
                    for (int i = 0; i < bytes.Length; i++)
                    {
                        outputFile.Write(bytes[i]);
                    }
                    outputFile.Write(Convert.ToByte(0));

                    outputFile.Write(Convert.ToByte(0x3b)); // terminator character
                }
            }
        }

        // https://rosettacode.org/wiki/LZW_compression#C.23
        static string LZW(List<int> pixelImageData)
        {
            // build the dictionary
            Dictionary<string, int> dictionary = new Dictionary<string, int>();
            for (int i = 0; i < 4; i++)
                dictionary.Add(i.ToString(), i);

            dictionary.Add(5.ToString(), 5);
            dictionary.Add(6.ToString(), 6);

            string w = pixelImageData[0].ToString();// string.Empty;
            List<int> compressed = new List<int>();

            string returnMe = string.Empty;
            double codeSize = 3.0; // this is in bits

            foreach (int i in pixelImageData)
            {
                string wc = w + i;
                if (dictionary.ContainsKey(wc))
                {
                    w = wc;
                }
                else
                {

                    // write w to output
                    compressed.Add(dictionary[w]);

                    returnMe = reverse(Convert.ToString(((byte)dictionary[w]), 2).PadLeft((int)codeSize, '0')) + returnMe;
                    if (Math.Pow(2.0, codeSize) - 1 == dictionary.Count)
                    {
                        codeSize += 1.0;
                    }

                    // wc is a new sequence; add it to the dictionary
                    dictionary.Add(wc, dictionary.Count);
                    w = i.ToString();
                }
            }

            // write remaining output if necessary
            if (!string.IsNullOrEmpty(w))
                compressed.Add(dictionary[w]);

            return returnMe; //compressed;
        }

        static string reverse(string s)
        {
            char[] charArray = s.ToCharArray();
            Array.Reverse(charArray);
            return new string(charArray);
        }

        static byte[] GetBytes(string bitString)
        {
            byte[] result = Enumerable.Range(0, bitString.Length / 8).
                Select(pos => Convert.ToByte(
                    bitString.Substring(pos * 8, 8),
                    2)
                ).ToArray();

            List<byte> mahByteArray = new List<byte>();
            for (int i = result.Length - 1; i >= 0; i--)
            {
                mahByteArray.Add(result[i]);
            }

            return mahByteArray.ToArray();
        }
    }
	class Program
	{

	static void Main(string[] args)
	{
	using (FileStream fs = new FileStream(@"D:\file.gif", FileMode.Create))
	{
	using (BinaryWriter outputFile = new BinaryWriter(fs))
	{
	//outputFile.Seek(0, SeekOrigin.Begin);
	// http://www.matthewflickinger.com/lab/whatsinagif/bits_and_bytes.asp

	// Header
	outputFile.Write(new char[3] { 'G', 'I', 'F' }); // signature
	outputFile.Write(new char[3] { '8', '9', 'a' }); // gif format
	outputFile.Write(Convert.ToInt16(5)); // screen width
	outputFile.Write(Convert.ToInt16(5)); // screen height

	BitArray array = new BitArray(new byte[1]);
	array[7] = true; // global color table flag
	array[6] = false; array[5] = false; array[4] = true; // color resolution
	array[3] = false; // sort flag
	array[2] = false; array[1] = false; array[0] = true; // global color table size
	byte[] bytes = new byte[1];
	array.CopyTo(bytes, 0);
	outputFile.Write(bytes);

	outputFile.Write(Convert.ToByte(0)); // background color index
	outputFile.Write(Convert.ToByte(0)); // pixel aspect ratio

	// global color table
	outputFile.Write(Convert.ToByte(255)); // white
	outputFile.Write(Convert.ToByte(255));
	outputFile.Write(Convert.ToByte(255));
	outputFile.Write(Convert.ToByte(255)); // red
	outputFile.Write(Convert.ToByte(0));
	outputFile.Write(Convert.ToByte(0));
	outputFile.Write(Convert.ToByte(0)); // blue
	outputFile.Write(Convert.ToByte(0));
	outputFile.Write(Convert.ToByte(255));
	outputFile.Write(Convert.ToByte(0)); // black
	outputFile.Write(Convert.ToByte(0));
	outputFile.Write(Convert.ToByte(0));

	// graphic control extension
	//outputFile.Write(Convert.ToByte(21)); // extension introducer
	//outputFile.Write(Convert.ToByte(0xf9)); // graphic control label
	//outputFile.Write(Convert.ToByte(4)); // byte size
	//outputFile.Write(Convert.ToByte(0)); // packed field
	//outputFile.Write(Convert.ToInt16(0)); // delay time
	//outputFile.Write(Convert.ToByte(0)); // transparent color index
	//outputFile.Write(Convert.ToByte(0)); // block terminator

	// image descriptor
	outputFile.Write(Convert.ToByte(0x2c)); // img separator character
	outputFile.Write(Convert.ToInt16(0)); // img left position
	outputFile.Write(Convert.ToInt16(0)); // img top positon
	outputFile.Write(Convert.ToInt16(5)); // img width
	outputFile.Write(Convert.ToInt16(5)); // img height
	array = new BitArray(new byte[1]);
	array[0] = false; // local color table present
	array[1] = false; // img not interlaced
	array[2] = false; // sort flag
	array[5] = false; // size of local color table
	array[6] = false;
	array[7] = false;
	bytes = new byte[1];
	array.CopyTo(bytes, 0);
	outputFile.Write(bytes);


	// image data; lzw
	List<int> pixelData = new List<int>();
	pixelData.Add(1);
	pixelData.Add(1);
	pixelData.Add(1);
	pixelData.Add(1);
	pixelData.Add(1);
	pixelData.Add(2);
	pixelData.Add(2);
	pixelData.Add(2);
	pixelData.Add(2);
	pixelData.Add(2);
	pixelData.Add(1);
	pixelData.Add(1);
	pixelData.Add(1);
	pixelData.Add(1);
	pixelData.Add(1);
	pixelData.Add(2);
	pixelData.Add(2);
	pixelData.Add(2);
	pixelData.Add(2);
	pixelData.Add(2);
	pixelData.Add(3);
	pixelData.Add(3);
	pixelData.Add(3);
	pixelData.Add(3);
	pixelData.Add(3);
	string result = LZW(pixelData);

	bytes = GetBytes(result);
	outputFile.Write(Convert.ToByte(2)); // lzw minimum code size
	outputFile.Write(Convert.ToByte(bytes.Length)); // number of bytes in sub-block
	for (int i = 0; i < bytes.Length; i++)
	{
	outputFile.Write(bytes[i]);
	}
	outputFile.Write(Convert.ToByte(0));

	outputFile.Write(Convert.ToByte(0x3b)); // terminator character
	}
	}
	}

	// https://rosettacode.org/wiki/LZW_compression#C.23
	static string LZW(List<int> pixelImageData)
	{
	// build the dictionary
	Dictionary<string, int> dictionary = new Dictionary<string, int>();
	for (int i = 0; i < 4; i++)
	dictionary.Add(i.ToString(), i);

	dictionary.Add(5.ToString(), 5);
	dictionary.Add(6.ToString(), 6);

	string w = pixelImageData[0].ToString();// string.Empty;
	List<int> compressed = new List<int>();

	string returnMe = string.Empty;
	double codeSize = 3.0; // this is in bits

	foreach (int i in pixelImageData)
	{
	string wc = w + i;
	if (dictionary.ContainsKey(wc))
	{
	w = wc;
	}
	else
	{

	// write w to output
	compressed.Add(dictionary[w]);

	returnMe = reverse(Convert.ToString(((byte)dictionary[w]), 2).PadLeft((int)codeSize, '0')) + returnMe;
	if (Math.Pow(2.0, codeSize) - 1 == dictionary.Count)
	{
	codeSize += 1.0;
	}

	// wc is a new sequence; add it to the dictionary
	dictionary.Add(wc, dictionary.Count);
	w = i.ToString();
	}
	}

	// write remaining output if necessary
	if (!string.IsNullOrEmpty(w))
	compressed.Add(dictionary[w]);

	return returnMe; //compressed;
	}

	static string reverse(string s)
	{
	char[] charArray = s.ToCharArray();
	Array.Reverse(charArray);
	return new string(charArray);
	}

	static byte[] GetBytes(string bitString)
	{
	byte[] result = Enumerable.Range(0, bitString.Length / 8).
	Select(pos => Convert.ToByte(
	bitString.Substring(pos * 8, 8),
	2)
	).ToArray();

	List<byte> mahByteArray = new List<byte>();
	for (int i = result.Length - 1; i >= 0; i--)
	{
	mahByteArray.Add(result[i]);
	}

	return mahByteArray.ToArray();
	}
	}