using Nikse.SubtitleEdit.Core.VobSub;
using System;
using System.Collections.Generic;
using System.Drawing;
using System.Drawing.Imaging;
using System.IO;
using System.Runtime.InteropServices;
namespace Nikse.SubtitleEdit.Core
{
public class RunLengthTwoParts
{
public byte[] Buffer1 { get; set; }
public byte[] Buffer2 { get; set; }
public int Length { get { return Buffer1.Length + Buffer2.Length; } }
}
public class NikseBitmap
{
private int _width;
public int Width
{
get
{
return _width;
}
private set
{
_width = value;
_widthX4 = _width * 4;
}
}
public int Height { get; private set; }
private byte[] _bitmapData;
private int _pixelAddress;
private int _widthX4;
public NikseBitmap(int width, int height)
{
Width = width;
Height = height;
_bitmapData = new byte[Height * _widthX4];
}
public NikseBitmap(int width, int height, byte[] bitmapData)
{
Width = width;
Height = height;
_bitmapData = bitmapData;
}
public NikseBitmap(Bitmap inputBitmap)
{
if (inputBitmap == null)
return;
Width = inputBitmap.Width;
Height = inputBitmap.Height;
if (inputBitmap.PixelFormat != PixelFormat.Format32bppArgb)
{
var newBitmap = new Bitmap(inputBitmap.Width, inputBitmap.Height, PixelFormat.Format32bppArgb);
using (var gr = Graphics.FromImage(newBitmap))
{
gr.DrawImage(inputBitmap, 0, 0);
}
inputBitmap.Dispose();
inputBitmap = newBitmap;
}
var bitmapData = inputBitmap.LockBits(new Rectangle(0, 0, Width, Height), ImageLockMode.ReadOnly, PixelFormat.Format32bppArgb);
_bitmapData = new byte[bitmapData.Stride * Height];
Marshal.Copy(bitmapData.Scan0, _bitmapData, 0, _bitmapData.Length);
inputBitmap.UnlockBits(bitmapData);
}
public NikseBitmap(NikseBitmap input)
{
Width = input.Width;
Height = input.Height;
_bitmapData = new byte[input._bitmapData.Length];
Buffer.BlockCopy(input._bitmapData, 0, _bitmapData, 0, _bitmapData.Length);
}
public void ReplaceNotDarkWithWhite()
{
var buffer = new byte[3];
buffer[0] = 255;
buffer[1] = 255;
buffer[2] = 255;
for (int i = 0; i < _bitmapData.Length; i += 4)
{
if (_bitmapData[i + 3] > 200 && // Alpha
_bitmapData[i + 2] + _bitmapData[i + 1] + _bitmapData[i] > 200)
Buffer.BlockCopy(buffer, 0, _bitmapData, i, 3);
}
}
public void ReplaceYellowWithWhite()
{
var buffer = new byte[3];
buffer[0] = 255;
buffer[1] = 255;
buffer[2] = 255;
for (int i = 0; i < _bitmapData.Length; i += 4)
{
if (_bitmapData[i + 3] > 200 && // Alpha
_bitmapData[i + 2] > 199 && // Red
_bitmapData[i + 1] > 190 && // Green
_bitmapData[i] < 40) // Blue
Buffer.BlockCopy(buffer, 0, _bitmapData, i, 3);
}
}
public void ReplaceNonWhiteWithTransparent()
{
var buffer = new byte[4];
buffer[0] = 0; // B
buffer[1] = 0; // G
buffer[2] = 0; // R
buffer[3] = 0; // A
for (int i = 0; i < _bitmapData.Length; i += 4)
{
if (_bitmapData[i + 2] + _bitmapData[i + 1] + _bitmapData[i] < 300)
Buffer.BlockCopy(buffer, 0, _bitmapData, i, 4);
}
}
public void ReplaceTransparentWith(Color c)
{
var buffer = new byte[4];
buffer[0] = c.B;
buffer[1] = c.G;
buffer[2] = c.R;
buffer[3] = c.A;
for (int i = 0; i < _bitmapData.Length; i += 4)
{
if (_bitmapData[i + 3] < 10)
Buffer.BlockCopy(buffer, 0, _bitmapData, i, 4);
}
}
public void MakeOneColor(Color c)
{
var buffer = new byte[4];
buffer[0] = c.B;
buffer[1] = c.G;
buffer[2] = c.R;
buffer[3] = c.A;
var bufferTransparent = new byte[4];
bufferTransparent[0] = 0;
bufferTransparent[1] = 0;
bufferTransparent[2] = 0;
bufferTransparent[3] = 0;
for (int i = 0; i < _bitmapData.Length; i += 4)
{
if (_bitmapData[i] > 20)
Buffer.BlockCopy(buffer, 0, _bitmapData, i, 4);
else
Buffer.BlockCopy(bufferTransparent, 0, _bitmapData, i, 4);
}
}
public int MakeOneColorRemoverOthers(Color c1, Color c2, int maxDif)
{
var buffer1 = new byte[4];
buffer1[0] = c1.B;
buffer1[1] = c1.G;
buffer1[2] = c1.R;
buffer1[3] = c1.A;
var buffer2 = new byte[4];
buffer2[0] = c2.B;
buffer2[1] = c2.G;
buffer2[2] = c2.R;
buffer2[3] = c2.A;
var bufferTransparent = new byte[4];
bufferTransparent[0] = 0;
bufferTransparent[1] = 0;
bufferTransparent[2] = 0;
bufferTransparent[3] = 0;
int count = 0;
for (int i = 0; i < _bitmapData.Length; i += 4)
{
if (_bitmapData[i + 3] > 20)
{
if ((Math.Abs(buffer1[0] - _bitmapData[i]) < maxDif &&
Math.Abs(buffer1[1] - _bitmapData[i + 1]) < maxDif &&
Math.Abs(buffer1[2] - _bitmapData[i + 2]) < maxDif) ||
(Math.Abs(buffer2[0] - _bitmapData[i]) < maxDif &&
Math.Abs(buffer2[1] - _bitmapData[i + 1]) < maxDif &&
Math.Abs(buffer2[2] - _bitmapData[i + 2]) < maxDif))
{
count++;
}
else
{
Buffer.BlockCopy(bufferTransparent, 0, _bitmapData, i, 4);
}
}
else
{
Buffer.BlockCopy(bufferTransparent, 0, _bitmapData, i, 4);
}
}
return count;
}
private static Color GetOutlineColor(Color borderColor)
{
if (borderColor.R + borderColor.G + borderColor.B < 30)
return Color.FromArgb(200, 75, 75, 75);
return Color.FromArgb(150, borderColor.R, borderColor.G, borderColor.B);
}
///
/// Convert a x-color image to four colors, for e.g. DVD sub pictures.
///
/// Background color
/// Pattern color, normally white or yellow
/// Emphasis 1, normally black or near black (border)
///
public Color ConverToFourColors(Color background, Color pattern, Color emphasis1, bool useInnerAntialize)
{
var backgroundBuffer = new byte[4];
backgroundBuffer[0] = background.B;
backgroundBuffer[1] = background.G;
backgroundBuffer[2] = background.R;
backgroundBuffer[3] = background.A;
var patternBuffer = new byte[4];
patternBuffer[0] = pattern.B;
patternBuffer[1] = pattern.G;
patternBuffer[2] = pattern.R;
patternBuffer[3] = pattern.A;
var emphasis1Buffer = new byte[4];
emphasis1Buffer[0] = emphasis1.B;
emphasis1Buffer[1] = emphasis1.G;
emphasis1Buffer[2] = emphasis1.R;
emphasis1Buffer[3] = emphasis1.A;
var emphasis2Buffer = new byte[4];
var emphasis2 = GetOutlineColor(emphasis1);
if (!useInnerAntialize)
{
emphasis2Buffer[0] = emphasis2.B;
emphasis2Buffer[1] = emphasis2.G;
emphasis2Buffer[2] = emphasis2.R;
emphasis2Buffer[3] = emphasis2.A;
}
for (int i = 0; i < _bitmapData.Length; i += 4)
{
int smallestDiff = 10000;
byte[] buffer = backgroundBuffer;
if (backgroundBuffer[3] == 0 && _bitmapData[i + 3] < 10) // transparent
{
}
else
{
int patternDiff = Math.Abs(patternBuffer[0] - _bitmapData[i]) + Math.Abs(patternBuffer[1] - _bitmapData[i + 1]) + Math.Abs(patternBuffer[2] - _bitmapData[i + 2]) + Math.Abs(patternBuffer[3] - _bitmapData[i + 3]);
if (patternDiff < smallestDiff)
{
smallestDiff = patternDiff;
buffer = patternBuffer;
}
int emphasis1Diff = Math.Abs(emphasis1Buffer[0] - _bitmapData[i]) + Math.Abs(emphasis1Buffer[1] - _bitmapData[i + 1]) + Math.Abs(emphasis1Buffer[2] - _bitmapData[i + 2]) + Math.Abs(emphasis1Buffer[3] - _bitmapData[i + 3]);
if (useInnerAntialize)
{
if (emphasis1Diff - 20 < smallestDiff)
{
buffer = emphasis1Buffer;
}
}
else
{
if (emphasis1Diff < smallestDiff)
{
smallestDiff = emphasis1Diff;
buffer = emphasis1Buffer;
}
int emphasis2Diff = Math.Abs(emphasis2Buffer[0] - _bitmapData[i]) + Math.Abs(emphasis2Buffer[1] - _bitmapData[i + 1]) + Math.Abs(emphasis2Buffer[2] - _bitmapData[i + 2]) + Math.Abs(emphasis2Buffer[3] - _bitmapData[i + 3]);
if (emphasis2Diff < smallestDiff)
{
buffer = emphasis2Buffer;
}
else if (_bitmapData[i + 3] >= 10 && _bitmapData[i + 3] < 90) // anti-alias
{
buffer = emphasis2Buffer;
}
}
}
Buffer.BlockCopy(buffer, 0, _bitmapData, i, 4);
}
if (useInnerAntialize)
return VobSubAntialize(pattern, emphasis1);
return emphasis2;
}
private Color VobSubAntialize(Color pattern, Color emphasis1)
{
int r = (int)Math.Round(((pattern.R * 2.0 + emphasis1.R) / 3.0));
int g = (int)Math.Round(((pattern.G * 2.0 + emphasis1.G) / 3.0));
int b = (int)Math.Round(((pattern.B * 2.0 + emphasis1.B) / 3.0));
Color antializeColor = Color.FromArgb(r, g, b);
for (int y = 1; y < Height - 1; y++)
{
for (int x = 1; x < Width - 1; x++)
{
if (GetPixel(x, y) == pattern)
{
if (GetPixel(x - 1, y) == emphasis1 && GetPixel(x, y - 1) == emphasis1)
SetPixel(x, y, antializeColor);
else if (GetPixel(x - 1, y) == emphasis1 && GetPixel(x, y + 1) == emphasis1)
SetPixel(x, y, antializeColor);
else if (GetPixel(x + 1, y) == emphasis1 && GetPixel(x, y + 1) == emphasis1)
SetPixel(x, y, antializeColor);
else if (GetPixel(x + 1, y) == emphasis1 && GetPixel(x, y - 1) == emphasis1)
SetPixel(x, y, antializeColor);
}
}
}
return antializeColor;
}
public RunLengthTwoParts RunLengthEncodeForDvd(Color background, Color pattern, Color emphasis1, Color emphasis2)
{
var backgroundBuffer = new byte[4];
backgroundBuffer[0] = background.B;
backgroundBuffer[1] = background.G;
backgroundBuffer[2] = background.R;
backgroundBuffer[3] = background.A;
var patternBuffer = new byte[4];
patternBuffer[0] = pattern.B;
patternBuffer[1] = pattern.G;
patternBuffer[2] = pattern.R;
patternBuffer[3] = pattern.A;
var emphasis1Buffer = new byte[4];
emphasis1Buffer[0] = emphasis1.B;
emphasis1Buffer[1] = emphasis1.G;
emphasis1Buffer[2] = emphasis1.R;
emphasis1Buffer[3] = emphasis1.A;
var emphasis2Buffer = new byte[4];
emphasis2Buffer[0] = emphasis2.B;
emphasis2Buffer[1] = emphasis2.G;
emphasis2Buffer[2] = emphasis2.R;
emphasis2Buffer[3] = emphasis2.A;
var bufferEqual = new byte[Width * Height];
var bufferUnEqual = new byte[Width * Height];
int indexBufferEqual = 0;
int indexBufferUnEqual = 0;
_pixelAddress = -4;
for (int y = 0; y < Height; y++)
{
int index;
byte[] buffer;
if (y % 2 == 0)
{
index = indexBufferEqual;
buffer = bufferEqual;
}
else
{
index = indexBufferUnEqual;
buffer = bufferUnEqual;
}
var indexHalfNibble = false;
var lastColor = -1;
var count = 0;
for (int x = 0; x < Width; x++)
{
int color = GetDvdColor(patternBuffer, emphasis1Buffer, emphasis2Buffer);
if (lastColor == -1)
{
lastColor = color;
count = 1;
}
else if (lastColor == color && count < 64) // only allow up to 63 run-length (for SubtitleCreator compatibility)
{
count++;
}
else
{
WriteRle(ref indexHalfNibble, lastColor, count, ref index, buffer);
lastColor = color;
count = 1;
}
}
if (count > 0)
WriteRle(ref indexHalfNibble, lastColor, count, ref index, buffer);
if (indexHalfNibble)
index++;
if (y % 2 == 0)
{
indexBufferEqual = index;
bufferEqual = buffer;
}
else
{
indexBufferUnEqual = index;
bufferUnEqual = buffer;
}
}
var twoParts = new RunLengthTwoParts { Buffer1 = new byte[indexBufferEqual] };
Buffer.BlockCopy(bufferEqual, 0, twoParts.Buffer1, 0, indexBufferEqual);
twoParts.Buffer2 = new byte[indexBufferUnEqual + 2];
Buffer.BlockCopy(bufferUnEqual, 0, twoParts.Buffer2, 0, indexBufferUnEqual);
return twoParts;
}
private static void WriteRle(ref bool indexHalfNibble, int lastColor, int count, ref int index, byte[] buffer)
{
if (count <= Helper.B00000011) // 1-3 repetitions
{
WriteOneNibble(buffer, count, lastColor, ref index, ref indexHalfNibble);
}
else if (count <= Helper.B00001111) // 4-15 repetitions
{
WriteTwoNibbles(buffer, count, lastColor, ref index, indexHalfNibble);
}
else if (count <= Helper.B00111111) // 4-15 repetitions
{
WriteThreeNibbles(buffer, count, lastColor, ref index, ref indexHalfNibble); // 16-63 repetitions
}
else // 64-255 repetitions
{
int factor = count / 255;
for (int i = 0; i < factor; i++)
WriteFourNibbles(buffer, 0xff, lastColor, ref index, indexHalfNibble);
int rest = count % 255;
if (rest > 0)
WriteFourNibbles(buffer, rest, lastColor, ref index, indexHalfNibble);
}
}
private static void WriteFourNibbles(byte[] buffer, int count, int color, ref int index, bool indexHalfNibble)
{
int n = (count << 2) + color;
if (indexHalfNibble)
{
index++;
var firstNibble = (byte)(n >> 4);
buffer[index] = firstNibble;
index++;
var secondNibble = (byte)((n & Helper.B00001111) << 4);
buffer[index] = secondNibble;
}
else
{
var firstNibble = (byte)(n >> 8);
buffer[index] = firstNibble;
index++;
var secondNibble = (byte)(n & Helper.B11111111);
buffer[index] = secondNibble;
index++;
}
}
private static void WriteThreeNibbles(byte[] buffer, int count, int color, ref int index, ref bool indexHalfNibble)
{
//Value Bits n=length, c=color
//16-63 12 0 0 0 0 n n n n n n c c (one and a half byte)
var n = (ushort)((count << 2) + color);
if (indexHalfNibble)
{
index++; // there should already zeroes in last nibble
buffer[index] = (byte)n;
index++;
}
else
{
buffer[index] = (byte)(n >> 4);
index++;
buffer[index] = (byte)((n & Helper.B00011111) << 4);
}
indexHalfNibble = !indexHalfNibble;
}
private static void WriteTwoNibbles(byte[] buffer, int count, int color, ref int index, bool indexHalfNibble)
{
//Value Bits n=length, c=color
//4-15 8 0 0 n n n n c c (one byte)
var n = (byte)((count << 2) + color);
if (indexHalfNibble)
{
var firstNibble = (byte)(n >> 4);
buffer[index] = (byte)(buffer[index] | firstNibble);
var secondNibble = (byte)((n & Helper.B00001111) << 4);
index++;
buffer[index] = secondNibble;
}
else
{
buffer[index] = n;
index++;
}
}
private static void WriteOneNibble(byte[] buffer, int count, int color, ref int index, ref bool indexHalfNibble)
{
var n = (byte)((count << 2) + color);
if (indexHalfNibble)
{
buffer[index] = (byte)(buffer[index] | n);
index++;
}
else
{
buffer[index] = (byte)(n << 4);
}
indexHalfNibble = !indexHalfNibble;
}
private int GetDvdColor(byte[] pattern, byte[] emphasis1, byte[] emphasis2)
{
_pixelAddress += 4;
int a = _bitmapData[_pixelAddress + 3];
int r = _bitmapData[_pixelAddress + 2];
int g = _bitmapData[_pixelAddress + 1];
int b = _bitmapData[_pixelAddress];
if (pattern[0] == b && pattern[1] == g && pattern[2] == r && pattern[3] == a)
return 1;
if (emphasis1[0] == b && emphasis1[1] == g && emphasis1[2] == r && emphasis1[3] == a)
return 2;
if (emphasis2[0] == b && emphasis2[1] == g && emphasis2[2] == r && emphasis2[3] == a)
return 3;
return 0;
}
public int CropTransparentSidesAndBottom(int maximumCropping, bool bottom)
{
int leftStart = 0;
bool done = false;
int x = 0;
int y;
while (!done && x < Width)
{
y = 0;
while (!done && y < Height)
{
int alpha = GetAlpha(x, y);
if (alpha != 0)
{
done = true;
leftStart = x;
if (leftStart > maximumCropping)
leftStart = leftStart - maximumCropping;
if (leftStart < 0)
leftStart = 0;
}
y++;
}
x++;
}
int rightEnd = Width - 1;
done = false;
x = Width - 1;
while (!done && x >= 0)
{
y = 0;
while (!done && y < Height)
{
int alpha = GetAlpha(x, y);
if (alpha != 0)
{
done = true;
rightEnd = x;
if (Width - rightEnd > maximumCropping)
rightEnd += maximumCropping;
if (rightEnd >= Width)
rightEnd = Width - 1;
}
y++;
}
x--;
}
//crop bottom
done = false;
int newHeight = Height;
if (bottom)
{
y = Height - 1;
while (!done && y > 0)
{
x = 0;
while (!done && x < Width)
{
int alpha = GetAlpha(x, y);
if (alpha != 0)
{
done = true;
newHeight = y + maximumCropping + 1;
if (newHeight > Height)
newHeight = Height;
}
x++;
}
y--;
}
}
if (leftStart < 2 && rightEnd >= Width - 3)
return 0;
int newWidth = rightEnd - leftStart + 1;
if (newWidth <= 0)
return 0;
var newBitmapData = new byte[newWidth * newHeight * 4];
int index = 0;
var newWidthX4 = 4 * newWidth;
for (y = 0; y < newHeight; y++)
{
int pixelAddress = (leftStart * 4) + (y * _widthX4);
Buffer.BlockCopy(_bitmapData, pixelAddress, newBitmapData, index, newWidthX4);
index += newWidthX4;
}
Width = newWidth;
Height = newHeight;
_bitmapData = newBitmapData;
return leftStart;
}
public void CropSidesAndBottom(int maximumCropping, Color transparentColor, bool bottom)
{
int leftStart = 0;
bool done = false;
int x = 0;
int y;
while (!done && x < Width)
{
y = 0;
while (!done && y < Height)
{
Color c = GetPixel(x, y);
if (c != transparentColor)
{
done = true;
leftStart = x;
leftStart -= maximumCropping;
if (leftStart < 0)
leftStart = 0;
}
y++;
}
x++;
}
int rightEnd = Width - 1;
done = false;
x = Width - 1;
while (!done && x >= 0)
{
y = 0;
while (!done && y < Height)
{
Color c = GetPixel(x, y);
if (c != transparentColor)
{
done = true;
rightEnd = x;
rightEnd += maximumCropping;
if (rightEnd >= Width)
rightEnd = Width - 1;
}
y++;
}
x--;
}
//crop bottom
done = false;
int newHeight = Height;
if (bottom)
{
y = Height - 1;
while (!done && y > 0)
{
x = 0;
while (!done && x < Width)
{
Color c = GetPixel(x, y);
if (c != transparentColor)
{
done = true;
newHeight = y + maximumCropping;
if (newHeight > Height)
newHeight = Height;
}
x++;
}
y--;
}
}
if (leftStart < 2 && rightEnd >= Width - 3)
return;
int newWidth = rightEnd - leftStart + 1;
if (newWidth <= 0)
return;
var newBitmapData = new byte[newWidth * newHeight * 4];
int index = 0;
var newWidthX4 = 4 * newWidth;
for (y = 0; y < newHeight; y++)
{
int pixelAddress = (leftStart * 4) + (y * _widthX4);
Buffer.BlockCopy(_bitmapData, pixelAddress, newBitmapData, index, newWidthX4);
index += newWidthX4;
}
Width = newWidth;
Height = newHeight;
_bitmapData = newBitmapData;
}
public void CropTop(int maximumCropping, Color transparentColor)
{
bool done = false;
int newTop = 0;
int y = 0;
while (!done && y < Height)
{
var x = 0;
while (!done && x < Width)
{
Color c = GetPixel(x, y);
if (c != transparentColor && !(c.A == 0 && transparentColor.A == 0))
{
done = true;
newTop = y - maximumCropping;
if (newTop < 0)
newTop = 0;
}
x++;
}
y++;
}
if (newTop == 0)
return;
int newHeight = Height - newTop;
var newBitmapData = new byte[newHeight * _widthX4];
int index = 0;
for (y = newTop; y < Height; y++)
{
int pixelAddress = y * _widthX4;
Buffer.BlockCopy(_bitmapData, pixelAddress, newBitmapData, index, _widthX4);
index += _widthX4;
}
Height = newHeight;
_bitmapData = newBitmapData;
}
public int CropTopTransparent(int maximumCropping)
{
bool done = false;
int newTop = 0;
int y = 0;
while (!done && y < Height)
{
var x = 0;
while (!done && x < Width)
{
int alpha = GetAlpha(x, y);
if (alpha > 10)
{
done = true;
newTop = y - maximumCropping;
if (newTop < 0)
newTop = 0;
}
x++;
}
y++;
}
if (newTop == 0)
return 0;
int newHeight = Height - newTop;
var newBitmapData = new byte[newHeight * _widthX4];
int index = 0;
for (y = newTop; y < Height; y++)
{
int pixelAddress = y * _widthX4;
Buffer.BlockCopy(_bitmapData, pixelAddress, newBitmapData, index, _widthX4);
index += _widthX4;
}
Height = newHeight;
_bitmapData = newBitmapData;
return newTop;
}
public int CalcBottomCropping(Color transparentColor)
{
int y = Height - 1;
int cropping = 0;
while (y > 0)
{
int x = 0;
while (x < Width)
{
var c = GetPixel(x, y);
if (c != transparentColor && c.A != 0)
{
return cropping;
}
x++;
}
y--;
cropping++;
}
return cropping;
}
public void Fill(Color color)
{
var buffer = new byte[4];
buffer[0] = color.B;
buffer[1] = color.G;
buffer[2] = color.R;
buffer[3] = color.A;
for (int i = 0; i < _bitmapData.Length; i += 4)
Buffer.BlockCopy(buffer, 0, _bitmapData, i, 4);
}
public int GetAlpha(int x, int y)
{
return _bitmapData[(x * 4) + (y * _widthX4) + 3];
}
public int GetAlpha(int index)
{
return _bitmapData[index];
}
public Color GetPixel(int x, int y)
{
_pixelAddress = (x * 4) + (y * _widthX4);
return Color.FromArgb(_bitmapData[_pixelAddress + 3], _bitmapData[_pixelAddress + 2], _bitmapData[_pixelAddress + 1], _bitmapData[_pixelAddress]);
}
public byte[] GetPixelColors(int x, int y)
{
_pixelAddress = (x * 4) + (y * _widthX4);
return new[] { _bitmapData[_pixelAddress + 3], _bitmapData[_pixelAddress + 2], _bitmapData[_pixelAddress + 1], _bitmapData[_pixelAddress] };
}
public Color GetPixelNext()
{
_pixelAddress += 4;
return Color.FromArgb(_bitmapData[_pixelAddress + 3], _bitmapData[_pixelAddress + 2], _bitmapData[_pixelAddress + 1], _bitmapData[_pixelAddress]);
}
public void SetPixel(int x, int y, Color color)
{
_pixelAddress = (x * 4) + (y * _widthX4);
_bitmapData[_pixelAddress] = color.B;
_bitmapData[_pixelAddress + 1] = color.G;
_bitmapData[_pixelAddress + 2] = color.R;
_bitmapData[_pixelAddress + 3] = color.A;
}
public void SetPixelNext(Color color)
{
_pixelAddress += 4;
_bitmapData[_pixelAddress] = color.B;
_bitmapData[_pixelAddress + 1] = color.G;
_bitmapData[_pixelAddress + 2] = color.R;
_bitmapData[_pixelAddress + 3] = color.A;
}
public Bitmap GetBitmap()
{
var bitmap = new Bitmap(Width, Height, PixelFormat.Format32bppArgb);
BitmapData bitmapdata = bitmap.LockBits(new Rectangle(0, 0, Width, Height), ImageLockMode.WriteOnly, PixelFormat.Format32bppArgb);
IntPtr destination = bitmapdata.Scan0;
Marshal.Copy(_bitmapData, 0, destination, _bitmapData.Length);
bitmap.UnlockBits(bitmapdata);
return bitmap;
}
private static int FindBestMatch(Color color, List palette, out int maxDiff)
{
int smallestDiff = 1000;
int smallestDiffIndex = -1;
int i = 0;
foreach (var pc in palette)
{
int diff = Math.Abs(pc.A - color.A) + Math.Abs(pc.R - color.R) + Math.Abs(pc.G - color.G) + Math.Abs(pc.B - color.B);
if (diff < smallestDiff)
{
smallestDiff = diff;
smallestDiffIndex = i;
if (smallestDiff < 4)
{
maxDiff = smallestDiff;
return smallestDiffIndex;
}
}
i++;
}
maxDiff = smallestDiff;
return smallestDiffIndex;
}
public Bitmap ConverTo8BitsPerPixel()
{
var newBitmap = new Bitmap(Width, Height, PixelFormat.Format8bppIndexed);
var palette = new List { Color.Transparent };
ColorPalette bPalette = newBitmap.Palette;
var entries = bPalette.Entries;
for (int i = 0; i < newBitmap.Palette.Entries.Length; i++)
entries[i] = Color.Transparent;
BitmapData data = newBitmap.LockBits(new Rectangle(0, 0, Width, Height), ImageLockMode.WriteOnly, PixelFormat.Format8bppIndexed);
var bytes = new byte[data.Height * data.Stride];
Marshal.Copy(data.Scan0, bytes, 0, bytes.Length);
for (int y = 0; y < Height; y++)
{
for (int x = 0; x < Width; x++)
{
Color c = GetPixel(x, y);
if (c.A < 5)
{
bytes[y * data.Stride + x] = 0;
}
else
{
int maxDiff;
int index = FindBestMatch(c, palette, out maxDiff);
if (index == -1 && palette.Count < 255)
{
index = palette.Count;
entries[index] = c;
palette.Add(c);
bytes[y * data.Stride + x] = (byte)index;
}
else if (palette.Count < 200 && maxDiff > 5)
{
index = palette.Count;
entries[index] = c;
palette.Add(c);
bytes[y * data.Stride + x] = (byte)index;
}
else if (palette.Count < 255 && maxDiff > 15)
{
index = palette.Count;
entries[index] = c;
palette.Add(c);
bytes[y * data.Stride + x] = (byte)index;
}
else if (index >= 0)
{
bytes[y * data.Stride + x] = (byte)index;
}
}
}
}
Marshal.Copy(bytes, 0, data.Scan0, bytes.Length);
newBitmap.UnlockBits(data);
newBitmap.Palette = bPalette;
return newBitmap;
}
public NikseBitmap CopyRectangle(Rectangle section)
{
if (section.Bottom > Height)
section = new Rectangle(section.Left, section.Top, section.Width, Height - section.Top);
if (section.Width + section.Left > Width)
section = new Rectangle(section.Left, section.Top, Width - section.Left, section.Height);
var newBitmapData = new byte[section.Width * section.Height * 4];
int index = 0;
var sectionWidthX4 = 4 * section.Width;
var sectionLeftX4 = 4 * section.Left;
for (int y = section.Top; y < section.Bottom; y++)
{
int pixelAddress = sectionLeftX4 + (y * _widthX4);
Buffer.BlockCopy(_bitmapData, pixelAddress, newBitmapData, index, sectionWidthX4);
index += sectionWidthX4;
}
return new NikseBitmap(section.Width, section.Height, newBitmapData);
}
///
/// Returns brightest color (not white though)
///
/// Brightest color, if not found or if brightes color is white, then Color.Transparent is returned
public Color GetBrightestColorWhiteIsTransparent()
{
int max = Width * Height - 4;
Color brightest = Color.Black;
for (int i = 0; i < max; i++)
{
Color c = GetPixelNext();
if (c.A > 220 && c.R + c.G + c.B > 200 && c.R + c.G + c.B > brightest.R + brightest.G + brightest.B)
brightest = c;
}
if (IsColorClose(Color.White, brightest, 40))
return Color.Transparent;
if (IsColorClose(Color.Black, brightest, 10))
return Color.Transparent;
return brightest;
}
///
/// Returns brightest color
///
/// Brightest color
public Color GetBrightestColor()
{
int max = Width * Height - 4;
Color brightest = Color.Black;
for (int i = 0; i < max; i++)
{
Color c = GetPixelNext();
if (c.A > 220 && c.R + c.G + c.B > 200 && c.R + c.G + c.B > brightest.R + brightest.G + brightest.B)
brightest = c;
}
return brightest;
}
private static bool IsColorClose(Color color1, Color color2, int maxDiff)
{
if (Math.Abs(color1.R - color2.R) < maxDiff && Math.Abs(color1.G - color2.G) < maxDiff && Math.Abs(color1.B - color2.B) < maxDiff)
return true;
return false;
}
public void GrayScale()
{
for (int i = 0; i < _bitmapData.Length; i += 4)
{
int medium = Convert.ToInt32((_bitmapData[i + 2] + _bitmapData[i + 1] + _bitmapData[i]) * 1.5 / 3.0 + 2);
if (medium > byte.MaxValue)
medium = byte.MaxValue;
_bitmapData[i + 2] = _bitmapData[i + 1] = _bitmapData[i] = (byte)medium;
}
}
///
/// Make pixels with some transparency completely transparent
///
/// Min alpha value, 0=transparent, 255=fully visible
public void MakeBackgroundTransparent(int minAlpha)
{
var buffer = new byte[4];
buffer[0] = 0; // B
buffer[1] = 0; // G
buffer[2] = 0; // R
buffer[3] = 0; // A
for (int i = 0; i < _bitmapData.Length; i += 4)
{
if (_bitmapData[i + 3] < minAlpha)
Buffer.BlockCopy(buffer, 0, _bitmapData, i, 4);
}
}
public void MakeTwoColor(int minRgb)
{
var buffer = new byte[4];
buffer[0] = 0; // B
buffer[1] = 0; // G
buffer[2] = 0; // R
buffer[3] = 0; // A
var bufferWhite = new byte[4];
bufferWhite[0] = 255; // B
bufferWhite[1] = 255; // G
bufferWhite[2] = 255; // R
bufferWhite[3] = 255; // A
for (int i = 0; i < _bitmapData.Length; i += 4)
{
if (_bitmapData[i + 3] < 1 || _bitmapData[i + 0] + _bitmapData[i + 1] + _bitmapData[i + 2] < minRgb)
Buffer.BlockCopy(buffer, 0, _bitmapData, i, 4);
else
Buffer.BlockCopy(bufferWhite, 0, _bitmapData, i, 4);
}
}
public void MakeVerticalLinePartTransparent(int xStart, int xEnd, int y)
{
if (xEnd > Width - 1)
xEnd = Width - 1;
if (xStart < 0)
xStart = 0;
int i = (xStart * 4) + (y * _widthX4);
int end = (xEnd * 4) + (y * _widthX4) + 4;
while (i < end)
{
_bitmapData[i] = 0;
i++;
}
}
public void AddTransparentLineRight()
{
int newWidth = Width + 1;
var newBitmapData = new byte[newWidth * Height * 4];
int index = 0;
for (int y = 0; y < Height; y++)
{
int pixelAddress = (0 * 4) + (y * _widthX4);
Buffer.BlockCopy(_bitmapData, pixelAddress, newBitmapData, index, _widthX4);
index += 4 * newWidth;
}
Width = newWidth;
_bitmapData = newBitmapData;
for (int y = 0; y < Height; y++)
{
SetPixel(Width - 1, y, Color.Transparent);
}
}
public void AddMargin(int margin)
{
int newWidth = Width + margin * 2;
int newHeight = Height + margin * 2;
var newBitmapData = new byte[newWidth * newHeight * 4];
var newWidthX4 = newWidth * 4;
var marginX4 = margin * 4;
for (int y = 0; y < Height; y++)
{
int pixelAddress = y * _widthX4;
int index = marginX4 + (y + margin) * newWidthX4;
Buffer.BlockCopy(_bitmapData, pixelAddress, newBitmapData, index, _widthX4);
}
Width = newWidth;
Height = newHeight;
_bitmapData = newBitmapData;
}
public void SaveAsTarga(string fileName)
{
// TGA header (18-byte fixed header)
byte[] header =
{
0, // ID length (1 bytes)
0, // no color map (1 bytes)
2, // uncompressed, true color (1 bytes)
0, 0, // Color map First Entry Index
0, 0, // Color map Length
0, // Color map Entry Size
0, 0, 0, 0, // x and y origin
(byte)(Width & 0x00FF),
(byte)((Width & 0xFF00) >> 8),
(byte)(Height & 0x00FF),
(byte)((Height & 0xFF00) >> 8),
32, // pixel depth - 32=32 bit bitmap
0 // Image Descriptor
};
var pixels = new byte[_bitmapData.Length];
int offsetDest = 0;
for (int y = Height - 1; y >= 0; y--) // takes lines from bottom lines to top (mirrowed horizontally)
{
for (int x = 0; x < Width; x++)
{
var c = GetPixel(x, y);
pixels[offsetDest] = c.B;
pixels[offsetDest + 1] = c.G;
pixels[offsetDest + 2] = c.R;
pixels[offsetDest + 3] = c.A;
offsetDest += 4;
}
}
using (var fileStream = File.Create(fileName))
{
fileStream.Write(header, 0, header.Length);
fileStream.Write(pixels, 0, pixels.Length);
}
}
public bool IsLineTransparent(int y)
{
int max = (_width * 4) + (y * _widthX4) + 3;
for (int pos = y * _widthX4 + 3; pos < max; pos += 4)
{
if (_bitmapData[pos] != 0)
return false;
}
return true;
}
}
}