private Palette?InitializePalette(IReadableBitmapData source, IAsyncContext context)
{
using var alg = new TAlg();
alg.Initialize(quantizer.maxColors, source);
int width = source.Width;
IReadableBitmapDataRow row = source.FirstRow;
context.Progress?.New(DrawingOperation.InitializingQuantizer, source.Height);
do
{
if (context.IsCancellationRequested)
{
return(null);
}
// TODO: parallel if possible
for (int x = 0; x < width; x++)
{
Color32 c = row[x];
// handling alpha including full transparency
if (c.A != Byte.MaxValue)
{
c = c.A < quantizer.alphaThreshold ? default : c.BlendWithBackground(quantizer.backColor);
}
alg.AddColor(c);
}
context.Progress?.Increment();
} while (row.MoveNextRow());
Color32[]? palette = alg.GeneratePalette(context);
return(context.IsCancellationRequested ? null : new Palette(palette !, quantizer.backColor, quantizer.alphaThreshold));
}
private static void WriteRawBitmap(Bitmap bitmap, BinaryWriter bw)
{
Size size = bitmap.Size;
bw.Write(size.Width);
bw.Write(size.Height);
PixelFormat pixelFormat = bitmap.PixelFormat;
bw.Write((int)pixelFormat);
if (pixelFormat.ToBitsPerPixel() <= 8)
{
Color[] palette = bitmap.Palette.Entries;
bw.Write(palette.Length);
foreach (Color color in palette)
{
bw.Write(color.ToArgb());
}
}
using (IReadableBitmapData data = bitmap.GetReadableBitmapData())
{
int width = data.RowSize >> 2;
IReadableBitmapDataRow row = data.FirstRow;
do
{
for (int x = 0; x < width; x++)
{
bw.Write(row.ReadRaw <int>(x));
}
} while (row.MoveNextRow());
}
}
protected static void AssertAreEqual(IReadableBitmapData source, IReadableBitmapData target, bool allowDifferentPixelFormats = false, Rectangle sourceRectangle = default, Point targetLocation = default)
{
if (sourceRectangle == default)
{
sourceRectangle = new Rectangle(Point.Empty, source.GetSize());
}
Assert.AreEqual(sourceRectangle.Size, target.GetSize());
if (!allowDifferentPixelFormats)
{
Assert.AreEqual(source.PixelFormat, target.PixelFormat);
}
IReadableBitmapDataRow rowSrc = source[sourceRectangle.Y];
IReadableBitmapDataRow rowDst = target[targetLocation.Y];
bool tolerantCompare = source.GetType() != target.GetType() && source.PixelFormat.ToBitsPerPixel() > 32;
for (int y = 0; y < sourceRectangle.Height; y++)
{
if (tolerantCompare)
{
for (int x = 0; x < sourceRectangle.Width; x++)
{
Color32 c1 = rowSrc[x + sourceRectangle.X];
Color32 c2 = rowDst[x + targetLocation.X];
// this is faster than the asserts below
if (c1.A != c2.A ||
Math.Abs(c1.R - c2.R) > 5 ||
Math.Abs(c1.G - c2.G) > 5 ||
Math.Abs(c1.B - c2.B) > 5)
{
Assert.Fail($"Diff at {x}; {rowSrc.Index}: {c1} vs. {c2}");
}
//Assert.AreEqual(c1.A, c2.A, $"Diff at {x}; {rowSrc.Index}");
//Assert.That(() => Math.Abs(c1.R - c2.R), new LessThanOrEqualConstraint(1), $"Diff at {x}; {rowSrc.Index}");
//Assert.That(() => Math.Abs(c1.G - c2.G), new LessThanOrEqualConstraint(1), $"Diff at {x}; {rowSrc.Index}");
//Assert.That(() => Math.Abs(c1.B - c2.B), new LessThanOrEqualConstraint(1), $"Diff at {x}; {rowSrc.Index}");
}
continue;
}
for (int x = 0; x < sourceRectangle.Width; x++)
{
Assert.AreEqual(rowSrc[x + sourceRectangle.X], rowDst[x + targetLocation.X], $"Diff at {x}; {rowSrc.Index}");
}
}
while (rowSrc.MoveNextRow() && rowDst.MoveNextRow())
{
;
}
}
public void ToGrayscaleTest()
{
using Bitmap bmp = Icons.Information.ExtractBitmap(new Size(256, 256));
new PerformanceTest {
Iterations = 100, CpuAffinity = null
}
.AddCase(() =>
{
using var result = new Bitmap(bmp.Width, bmp.Height);
using (Graphics g = Graphics.FromImage(result))
{
// Grayscale color matrix
var colorMatrix = new ColorMatrix(new float[][]
{
new float[] { ColorExtensions.RLum, ColorExtensions.RLum, ColorExtensions.RLum, 0, 0 },
new float[] { ColorExtensions.GLum, ColorExtensions.GLum, ColorExtensions.GLum, 0, 0 },
new float[] { ColorExtensions.BLum, ColorExtensions.BLum, ColorExtensions.BLum, 0, 0 },
new float[] { 0, 0, 0, 1, 0 },
new float[] { 0, 0, 0, 0, 1 }
});
using (var attrs = new ImageAttributes())
{
attrs.SetColorMatrix(colorMatrix);
g.DrawImage(bmp, new Rectangle(0, 0, result.Width, result.Height), 0, 0, result.Width, result.Height, GraphicsUnit.Pixel, attrs);
}
}
}, "Graphics.DrawImage(..., ImageAttributes)")
.AddCase(() =>
{
using var result = new Bitmap(bmp.Width, bmp.Height);
using IReadableBitmapData src = bmp.GetReadableBitmapData();
using IWritableBitmapData dst = result.GetWritableBitmapData();
IReadableBitmapDataRow rowSrc = src.FirstRow;
IWritableBitmapDataRow rowDst = dst.FirstRow;
do
{
for (int x = 0; x < src.Width; x++)
{
rowDst[x] = rowSrc[x].ToGray();
}
} while (rowSrc.MoveNextRow() && rowDst.MoveNextRow());
}, "Sequential processing")
.AddCase(() =>
{
using var result = bmp.ToGrayscale();
}, "ImageExtensions.ToGrayscale")
.DoTest()
.DumpResults(Console.Out);
}