public static List <Point> TraceSpansH(FastBitmapHSV bitmap, Rectangle box, FastPixelMatch colorMatch, int minSize, bool bDebugMode = false)
{
List <Point> result = new List <Point>();
int lastX = -1;
bool bHasMatch = false;
for (int IdxX = box.Left; IdxX <= box.Right; IdxX++)
{
bHasMatch = false;
for (int IdxY = box.Top; IdxY <= box.Bottom; IdxY++)
{
FastPixelHSV testPx = bitmap.GetPixel(IdxX, IdxY);
bHasMatch = colorMatch.IsMatching(testPx);
if (bHasMatch)
{
if (bDebugMode)
{
Logger.WriteLine("[" + IdxX + ", " + IdxY + "] " + testPx + " => match!");
}
break;
}
}
if (lastX == -1 && bHasMatch)
{
lastX = IdxX;
}
else if (lastX >= 0 && !bHasMatch)
{
int spanSize = IdxX - lastX;
if (spanSize > minSize)
{
if (bDebugMode)
{
Logger.WriteLine(">> adding span: " + lastX + ", size:" + spanSize);
}
result.Add(new Point(lastX, spanSize));
}
lastX = -1;
}
}
if (lastX >= 0 && bHasMatch)
{
int spanSize = box.Right - lastX + 1;
if (spanSize > minSize)
{
if (bDebugMode)
{
Logger.WriteLine(">> adding span: " + lastX + ", size:" + spanSize);
}
result.Add(new Point(lastX, spanSize));
}
}
return(result);
}
public static float CountFillPct(FastBitmapHSV bitmap, Rectangle box, FastPixelMatch colorMatch)
{
int totalPixels = (box.Width + 1) * (box.Height + 1);
int matchPixels = 0;
for (int IdxY = box.Top; IdxY <= box.Bottom; IdxY++)
{
for (int IdxX = box.Left; IdxX <= box.Right; IdxX++)
{
FastPixelHSV testPx = bitmap.GetPixel(IdxX, IdxY);
matchPixels += colorMatch.IsMatching(testPx) ? 1 : 0;
}
}
return((float)matchPixels / totalPixels);
}
public static FastBitmapHash CalculateImageHash(FastBitmapHSV bitmap, Rectangle box, Rectangle contextBox, FastPixelMatch colorMatch, int hashWidth, int hashHeight, bool bNormalizeColors = false)
{
byte[] hashImage = new byte[hashWidth * hashHeight];
// scale to requested size
float scaleX = (float)hashWidth / box.Width;
float scaleY = (float)hashHeight / box.Height;
float endY = 0.0f;
for (int hashY = 0; hashY < hashHeight; hashY++)
{
float startY = endY;
endY = (hashY + 1) / scaleY;
if (endY >= box.Height)
{
endY = box.Height - 0.00001f;
}
float endX = 0.0f;
for (int hashX = 0; hashX < hashWidth; hashX++)
{
float startX = endX;
endX = (hashX + 1) / scaleX;
if (endX >= box.Width)
{
endX = box.Width - 0.00001f;
}
float sum = 0.0f;
int sumDivNum = 0;
for (int srcY = (int)startY; srcY <= (int)endY; srcY++)
{
float partY = 1.0f;
if (srcY == (int)startY)
{
partY -= startY - srcY;
}
if (srcY == (int)endY)
{
partY -= srcY + 1 - endY;
}
for (int srcX = (int)startX; srcX <= (int)endX; srcX++)
{
float partX = 1.0f;
if (srcX == (int)startX)
{
partX -= startX - srcX;
}
if (srcX == (int)endX)
{
partX -= srcX + 1 - endX;
}
FastPixelHSV valuePx = bitmap.GetPixel(box.Left + srcX, box.Top + srcY);
float srcValueNorm = colorMatch.IsMatching(valuePx) ? (bNormalizeColors ? 1.0f : (valuePx.Monochrome / 255.0f)) : 0.0f;
sum += srcValueNorm * partY * partX;
sumDivNum++;
}
}
float storeValueNorm = sum / sumDivNum;
hashImage[hashX + (hashY * hashWidth)] = (byte)Math.Min(15, 15 * storeValueNorm);
}
}
TlshBuilder hashBuilder = new TlshBuilder();
hashBuilder.Update(hashImage);
TlshHash complexHash = hashBuilder.IsValid(false) ? hashBuilder.GetHash(false) : null;
ScanLineHash simpleHash = ScanLineHash.CreateFromImage(hashImage, hashWidth, hashHeight);
HashCollection hashCollection = new HashCollection(complexHash, simpleHash);
return(new FastBitmapHash
{
Hash = hashCollection,
Height = hashHeight,
Width = hashWidth,
Pixels = hashImage,
SourceBounds = box,
ContextBounds = contextBox,
DrawPos = new Point(box.Right + 1, box.Top),
});
}
public static bool CreateFloodFillBitmap(FastBitmapHSV srcBitmap, Point floodOrigin, Size floodExtent, FastPixelMatch colorMatch,
out FastBitmapHSV floodBitmap, out Rectangle floodBounds, bool bDebugMode = false)
{
List <Point> floodPoints = new List <Point>();
int minX = floodOrigin.X;
int maxX = floodOrigin.X;
int minY = floodOrigin.Y;
int maxY = floodOrigin.Y;
Rectangle boundRect = new Rectangle(floodOrigin.X - floodExtent.Width, floodOrigin.Y - floodExtent.Height, floodExtent.Width * 2, floodExtent.Height * 2);
Stack <Point> openList = new Stack <Point>();
openList.Push(floodOrigin);
while (openList.Count > 0)
{
Point testPoint = openList.Pop();
if (floodPoints.Contains(testPoint))
{
continue;
}
FastPixelHSV testPx = srcBitmap.GetPixel(testPoint.X, testPoint.Y);
if (bDebugMode)
{
Logger.WriteLine("[" + testPoint.X + ", " + testPoint.Y + "] " + testPx + ", match:" + colorMatch.IsMatching(testPx) + ", inBounds:" + boundRect.Contains(testPoint));
}
if (colorMatch.IsMatching(testPx) && boundRect.Contains(testPoint))
{
floodPoints.Add(testPoint);
minX = Math.Min(minX, testPoint.X);
maxX = Math.Max(maxX, testPoint.X);
minY = Math.Min(minY, testPoint.Y);
maxY = Math.Max(maxY, testPoint.Y);
openList.Push(new Point(testPoint.X - 1, testPoint.Y));
openList.Push(new Point(testPoint.X + 1, testPoint.Y));
openList.Push(new Point(testPoint.X, testPoint.Y - 1));
openList.Push(new Point(testPoint.X, testPoint.Y + 1));
openList.Push(new Point(testPoint.X - 1, testPoint.Y - 1));
openList.Push(new Point(testPoint.X + 1, testPoint.Y - 1));
openList.Push(new Point(testPoint.X - 1, testPoint.Y + 1));
openList.Push(new Point(testPoint.X + 1, testPoint.Y + 1));
}
}
floodBounds = new Rectangle(minX, minY, maxX - minX + 1, maxY - minY + 1);
if (floodPoints.Count > 0)
{
FastPixelHSV[] bitmapPixels = new FastPixelHSV[floodBounds.Width * floodBounds.Height];
for (int Idx = 0; Idx < bitmapPixels.Length; Idx++)
{
bitmapPixels[Idx] = new FastPixelHSV(false);
}
foreach (Point p in floodPoints)
{
int Idx = (p.X - minX) + ((p.Y - minY) * floodBounds.Width);
bitmapPixels[Idx] = new FastPixelHSV(true);
}
floodBitmap = new FastBitmapHSV()
{
Pixels = bitmapPixels,
Width = floodBounds.Width,
Height = floodBounds.Height,
};
}
else
{
floodBitmap = null;
}
return(floodBitmap != null);
}
public static Point TraceBoundsH(FastBitmapHSV bitmap, Rectangle box, FastPixelMatch colorMatch, int maxGapSize, bool bDebugMode = false)
{
int boxCenter = (box.Right + box.Left) / 2;
int minX = -1;
int gapStart = -1;
bool bPrevMatch = false;
for (int IdxX = box.Left; IdxX < boxCenter; IdxX++)
{
bool bHasMatch = false;
for (int IdxY = box.Top; IdxY <= box.Bottom; IdxY++)
{
FastPixelHSV testPx = bitmap.GetPixel(IdxX, IdxY);
bHasMatch = colorMatch.IsMatching(testPx);
if (bHasMatch)
{
if (bDebugMode)
{
Logger.WriteLine("[" + IdxX + ", " + IdxY + "] " + testPx + " => match!");
}
break;
}
}
if (bHasMatch)
{
int gapSize = IdxX - gapStart;
if ((gapSize > maxGapSize && gapStart > 0) || (minX < 0))
{
minX = IdxX;
gapStart = -1;
}
if (bDebugMode)
{
Logger.WriteLine(">> gapSize:" + gapSize + ", gapStart:" + gapStart + ", bPrevMatch:" + bPrevMatch + " => minX:" + minX);
}
}
else
{
if (bPrevMatch)
{
gapStart = IdxX;
if (bDebugMode)
{
Logger.WriteLine(">> gapStart:" + gapStart);
}
}
}
bPrevMatch = bHasMatch;
}
if (minX >= 0)
{
int maxX = -1;
gapStart = -1;
bPrevMatch = false;
for (int IdxX = box.Right; IdxX > boxCenter; IdxX--)
{
bool bHasMatch = false;
for (int IdxY = box.Top; IdxY <= box.Bottom; IdxY++)
{
FastPixelHSV testPx = bitmap.GetPixel(IdxX, IdxY);
bHasMatch = colorMatch.IsMatching(testPx);
if (bHasMatch)
{
if (bDebugMode)
{
Logger.WriteLine("[" + IdxX + ", " + IdxY + "] " + testPx + " => match!");
}
break;
}
}
if (bHasMatch)
{
int gapSize = gapStart - IdxX;
if ((gapSize > maxGapSize && gapStart > 0) || (maxX < 0))
{
maxX = IdxX;
gapStart = -1;
}
if (bDebugMode)
{
Logger.WriteLine(">> gapSize:" + gapSize + ", gapStart:" + gapStart + ", bPrevMatch:" + bPrevMatch + " => maxX:" + maxX);
}
}
else
{
if (bPrevMatch)
{
gapStart = IdxX;
if (bDebugMode)
{
Logger.WriteLine(">> gapStart:" + gapStart);
}
}
}
bPrevMatch = bHasMatch;
}
if (maxX > minX)
{
return(new Point(minX, maxX - minX));
}
else
{
if (bDebugMode)
{
Logger.WriteLine(">> TraceBoundsH: no match on right side!");
}
}
}
else
{
if (bDebugMode)
{
Logger.WriteLine(">> TraceBoundsH: no match on left side!");
}
}
return(new Point());
}
public static bool TraceLine(FastBitmapHSV bitmap, int posX, int posY, int incX, int incY, int traceLen, FastPixelMatch colorMatch, out Point posHit, bool bDebugMode = false)
{
if (bDebugMode)
{
Logger.WriteLine("TraceLine [" + posX + ", " + posY + "] -> [" + (posX + (incX * traceLen)) + ", " + (posY + (incY * traceLen)) + "]");
}
for (int stepIdx = 0; stepIdx < traceLen; stepIdx++)
{
int scanX = posX + (stepIdx * incX);
int scanY = posY + (stepIdx * incY);
FastPixelHSV testPx = bitmap.GetPixel(scanX, scanY);
bool bIsMatching = colorMatch.IsMatching(testPx);
if (bDebugMode)
{
Logger.WriteLine(" [" + scanX + ", " + scanY + "] " + testPx + " => match:" + bIsMatching);
}
if (bIsMatching)
{
posHit = new Point(scanX, scanY);
return(true);
}
}
if (bDebugMode)
{
Logger.WriteLine(" >> failed");
}
posHit = new Point(posX + (traceLen * incX), posY + (traceLen * incY));
return(false);
}
public static List <int> TraceLineSegments(FastBitmapHSV bitmap, int posX, int posY, int incX, int incY, int traceLen,
FastPixelMatch colorMatch, int minSegSize, int segLimit, bool bDebugMode = false)
{
FastPixelHSV[] streakBuffer = new FastPixelHSV[minSegSize];
int bufferIdx = 0;
for (int Idx = 0; Idx < streakBuffer.Length; Idx++)
{
streakBuffer[Idx] = new FastPixelHSV(255, 255, 255);
}
List <int> result = new List <int>();
bool bWasMatch = false;
if (bDebugMode)
{
Logger.WriteLine("TraceLineSegments [" + posX + ", " + posY + "] -> [" + (posX + (incX * traceLen)) + ", " + (posY + (incY * traceLen)) + "]");
}
for (int stepIdx = 0; stepIdx < traceLen; stepIdx++)
{
int scanX = posX + (stepIdx * incX);
int scanY = posY + (stepIdx * incY);
FastPixelHSV testPx = bitmap.GetPixel(scanX, scanY);
streakBuffer[bufferIdx] = testPx;
bufferIdx = (bufferIdx + 1) % minSegSize;
bool bBufferMatching = true;
for (int Idx = 0; Idx < streakBuffer.Length; Idx++)
{
bBufferMatching = bBufferMatching && colorMatch.IsMatching(streakBuffer[Idx]);
}
if (bDebugMode)
{
Logger.WriteLine(" [" + scanX + ", " + scanY + "] " + testPx + " => match:" + colorMatch.IsMatching(testPx) + ", buffer:" + bBufferMatching);
}
if (bBufferMatching != bWasMatch)
{
bWasMatch = bBufferMatching;
int segPos = bBufferMatching ?
(incX != 0) ? (scanX - (incX * minSegSize)) : (scanY - (incY * minSegSize)) :
(incX != 0) ? scanX : scanY;
result.Add(segPos);
if (bDebugMode)
{
Logger.WriteLine(" >> mark segment:" + segPos);
}
if (result.Count >= segLimit && segLimit > 0)
{
break;
}
}
}
return(result);
}
public static int FindPatternMatch(FastBitmapHSV bitmap, Point pos, FastPixelMatch colorMatch, List <ImagePatternDigit> patterns, out ImageDataDigit digitData, bool bDebugMode = false)
{
int bestValue = 0;
int bestValueExact = 0;
float totalBestScore = 0;
float totalBestScoreExact = 0;
const int offsetSize = 5;
const int cacheWidth = offsetSize + 10 + offsetSize;
const int cacheHeight = offsetSize + 8 + offsetSize;
byte[] PixelMatch = new byte[cacheWidth * cacheHeight];
int bestPatternMatchX = 0;
int bestPatternExactX = 0;
int bestPatternMatchY = 0;
int bestPatternExactY = 0;
foreach (ImagePatternDigit pattern in patterns)
{
float bestScore = 0;
float bestScoreExact = 0;
int bestPosX = 0;
int bestPosXExact = 0;
int bestPosY = 0;
int bestPosYExact = 0;
int ByteIdx = 0;
for (int IdxY = 0; IdxY < cacheHeight; IdxY++)
{
for (int IdxX = 0; IdxX < cacheWidth; IdxX++)
{
FastPixelHSV testPx = bitmap.GetPixel(pos.X + IdxX - offsetSize, pos.Y + IdxY - offsetSize);
PixelMatch[ByteIdx] = colorMatch.IsMatching(testPx) ? (byte)1 : (byte)0;
ByteIdx++;
}
}
/*if (bDebugMode)
* {
* bestPosX = 894;
* bestPosY = 615;
* bestScore = HasPatternMatch(PixelMatch, bestPosX - pos.X + offsetSize, bestPosY - pos.Y + offsetSize, cacheWidth,
* pattern, pattern.Value == 3 || pattern.Value == 5 || pattern.Value == 8);
* }
* else*/
{
for (int offsetX = -offsetSize; offsetX <= offsetSize; offsetX++)
{
for (int offsetY = -offsetSize; offsetY <= offsetSize; offsetY++)
{
float testScore = HasPatternMatch(PixelMatch, offsetX + offsetSize, offsetY + offsetSize, cacheWidth, false, pattern);
if (testScore > bestScore)
{
bestPosX = pos.X + offsetX;
bestPosY = pos.Y + offsetY;
bestScore = testScore;
}
float testScoreExact = HasPatternMatch(PixelMatch, offsetX + offsetSize, offsetY + offsetSize, cacheWidth, true, pattern);
if (testScoreExact > bestScoreExact)
{
bestPosXExact = pos.X + offsetX;
bestPosYExact = pos.Y + offsetY;
bestScoreExact = testScoreExact;
}
}
}
}
if (bestScore > totalBestScore)
{
totalBestScore = bestScore;
bestValue = pattern.Value;
bestPatternMatchX = bestPosX - pos.X + offsetSize;
bestPatternMatchY = bestPosY - pos.Y + offsetSize;
}
if (bestScoreExact > totalBestScoreExact)
{
totalBestScoreExact = bestScoreExact;
bestValueExact = pattern.Value;
bestPatternExactX = bestPosXExact - pos.X + offsetSize;
bestPatternExactY = bestPosYExact - pos.Y + offsetSize;
}
if (bDebugMode)
{
Logger.WriteLine("FindPatternMatch: " + pattern.Value +
" best at (" + bestPosX + ", " + bestPosY + ") = " + (int)(100 * bestScore) + "%," +
" exact at (" + bestPosXExact + ", " + bestPosYExact + ") = " + (int)(100 * bestScoreExact) + "%");
}
}
{
byte[] digitDataPixels = new byte[10];
for (int IdxX = 0; IdxX < 10; IdxX++)
{
int Value = 0;
int ByteIdx = (bestPatternMatchY * cacheWidth) + bestPatternMatchX + IdxX;
for (int IdxY = 0; IdxY < 8; IdxY++)
{
Value |= (PixelMatch[ByteIdx + (IdxY * cacheWidth)] != 0) ? (1 << IdxY) : 0;
}
digitDataPixels[IdxX] = (byte)Value;
}
digitData = new ImageDataDigit(digitDataPixels);
if (bDebugMode)
{
for (int IdxY = 0; IdxY < 8; IdxY++)
{
string debugDesc = "";
for (int IdxX = 0; IdxX < 10; IdxX++)
{
byte ColValue = digitDataPixels[IdxX];
byte RowMask = (byte)(1 << IdxY);
debugDesc += ((ColValue & RowMask) != 0 ? "#" : ".") + " ";
}
Logger.WriteLine(debugDesc);
}
}
}
return((totalBestScoreExact > 0.95) ? bestValueExact : (totalBestScore > 0.8) ? bestValue : 0);
}
