const int DEFAULT_SWATCH_WIDTH = 274;

        const int DEFAULT_COLOR_BAR_WIDTH = 320;

            int testPixelStart = (y * stride) + (x * 3);

            if (testPixelStart < stride)

            {

                return false;

            }

            if (!result)

            {

                // No dark border on the left side

                return false;

                if (!isBorder)

                {

                    borderError = true;

                if (otherPixelStart >= stride)

                    papyErrorCount += (IsPapyTexture(pixBytes[otherPixelStart], pixBytes[otherPixelStart + 1], pixBytes[otherPixelStart + 2]) ? 0 : 1);

                else

                {

                    papyErrorCount++;

                if (!borderError && (papyErrorCount < swatchWidth))

                {

                    WriteLog("Found a potential swatch candidate of width {0} at {1},{2} that had {3} failures matching papyrus texture", i, x, y, papyErrorCount);

                }

        unsafe private bool TestPosition(int x, int y, byte* pixBytes, int screenshotWidth, int screenshotHeight, int stride, ref PaintColor reactedColor, ref int redPixelStart)

        {

            bool colorMatch = true;

            // Look for the color swatch.

            pixelStart = (y * stride) + (x * 3);

            pixel_r = pixBytes[pixelStart];

            pixel_g = pixBytes[pixelStart + 1];

            pixel_b = pixBytes[pixelStart + 2];

            bool foundSwatch = IsPossibleSwatchUpperLeft(pixBytes, x, y, stride); // ((pixel_r < 0x46) && (pixel_g < 0x46) && (pixel_b < 0x46));

            if (foundSwatch)

            {

                int borderXOffset = 0;

                for (borderXOffset = (2 * pixelMultiplier); foundSwatch && (borderXOffset < swatchTestWidth); ++borderXOffset)

                {

                    foundSwatch &= IsPossibleSwatchSlice(pixBytes, x + borderXOffset, y, stride);

                    foundSwatch &= IsPossibleSwatchSlice(pixBytes, x + swatchWidth - borderXOffset, y, stride);

                }

            }

            if (foundSwatch)

            {

                // found a swatch with an appropriate dark top border with papyrus texture above it and papyrus a jump below it

                // 4.) Scan the left border of the potential swatch

                // location.

                colorMatch = true;

                for (int i = 2; i < swatchHeight - (2 * pixelMultiplier); ++i)

                {

                    otherPixelStart = pixelStart + (stride * i);

                    if (!IsColorMatch(pixel_r, pixel_g, pixel_b, pixBytes[otherPixelStart], pixBytes[otherPixelStart + 1], pixBytes[otherPixelStart + 2]))

                    {

                        colorMatch = false;

                        break;

                    }

                }

                if (colorMatch)

                {

                    // WE FOUND THE SWATCH!

                    // Now we know where the color bars are.

                    redPixelStart = pixelStart + (redBarSpacing * stride);

                    int redPixelCount = 0;

                    while ((pixBytes[redPixelStart] > 0x9F) &&

                           (pixBytes[redPixelStart + 1] < 0x62) &&

                           (pixBytes[redPixelStart + 2] < 0x62))

                    {

                        redPixelCount++;

                        // pixBytes[redPixelStart] = 0x00;

                        // pixBytes[redPixelStart + 1] = 0xFF;

                        // pixBytes[redPixelStart + 2] = 0xFF;

                        redPixelStart += 3;

                    }

                    WriteLog("Color {0}, {1}, {2} is no longer red at {3},{4}", pixBytes[redPixelStart], pixBytes[redPixelStart + 1], pixBytes[redPixelStart + 2], (redPixelStart % stride)/3, redPixelStart / stride);

                    reactedColor.Red = (byte)Math.Round((float)redPixelCount * 255f / (float)colorBarWidth);

                    int greenPixelStart = pixelStart + (greenBarSpacing * stride);

                    int greenPixelCount = 0;

                    while ((pixBytes[greenPixelStart] < 0x62) &&

                           (pixBytes[greenPixelStart + 1] > 0x9F) &&

                           (pixBytes[greenPixelStart + 2] < 0x62))

                    {

                        greenPixelCount++;

                        // pixBytes[greenPixelStart] = 0x00;

                        // pixBytes[greenPixelStart + 1] = 0xFF;

                        // pixBytes[greenPixelStart + 2] = 0xFF;

                        greenPixelStart += 3;

                    }

                    WriteLog("Color {0}, {1}, {2} is no longer green at pixel offset {3},{4}", pixBytes[greenPixelStart], pixBytes[greenPixelStart + 1], pixBytes[greenPixelStart + 2], (greenPixelStart % stride)/3, redPixelStart / stride);

                    reactedColor.Green = (byte)Math.Round((float)greenPixelCount * 255f / (float)colorBarWidth);

                    int bluePixelStart = pixelStart + (blueBarSpacing * stride);

                    int bluePixelCount = 0;

                    while ((pixBytes[bluePixelStart] < 0x62) &&

                        (pixBytes[bluePixelStart + 1] < 0x62) &&

                        (pixBytes[bluePixelStart + 2] > 0x9F))

                    {

                        bluePixelCount++;

                        // pixBytes[bluePixelStart] = 0x00;

                        // pixBytes[bluePixelStart + 1] = 0xFF;

                        // pixBytes[bluePixelStart + 2] = 0xFF;

                        bluePixelStart += 3;

                    }

                    WriteLog("Color {0}, {1}, {2} is no longer blue at pixel offset {3},{4}", pixBytes[bluePixelStart], pixBytes[bluePixelStart + 1], pixBytes[bluePixelStart + 2], (bluePixelStart % stride)/3, bluePixelStart / stride);

                    reactedColor.Blue = (byte)Math.Round((float)bluePixelCount * 255f / (float)colorBarWidth);

                    WriteLog("Found the color swatch at {0}, {1}. Color={2} Red={3}px Green={4}px Blue={5}px", x, y, reactedColor, redPixelCount, greenPixelCount, bluePixelCount);

                    return true;

                }

            }

            return false;

            if (!firstRun)

            {

                // If this is not the first run, let's check the last location, to see if the UI is still there.

                if (TestPosition(lastSwatchX, lastSwatchY, pixBytes, screenshotWidth, screenshotHeight, stride, ref reactedColor, ref redPixelStart))

                {

                    return true;

                }

                else

                {

                    firstRun = true;

                }

                    if (TestPosition(x, y, pixBytes, screenshotWidth, screenshotHeight, stride, ref reactedColor, ref redPixelStart))

                    {

                        lastSwatchX = x;

                        lastSwatchY = y;

                        firstRun = false;

                        return true;