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# Firemonkey (FMX) bitmap and colours

Assume I have a small bitmap in Firemonkey (say 32x24 pixels). So I put a TImage onto a form and in the constructor there is this code:

``````  Image1.Bitmap.Create(32, 24);
if Image1.Bitmap.Canvas.BeginScene then
try
Image1.Bitmap.Canvas.Fill.Color := claBlack;
Image1.Bitmap.Canvas.Stroke.Color := claYellow;
Image1.Bitmap.Canvas.FillRect(RectF(0,0,32,24), 0, 0, AllCorners, \$FF);
Image1.Bitmap.Canvas.DrawLine(PointF(1,1), PointF(10,10), \$FF);
finally
Image1.Bitmap.Canvas.EndScene;
Image1.Bitmap.BitmapChanged;
end;
``````

This draws a nice diagonal line on blackground.

What I want to do is now parse the bitmap to determine the pixels affected by the line draw. If I do a basic pixel by pixel check using:

``````  for y := 0 to 23 do
for x := 0 to 31 do
if Image1.Bitmap.Pixels[x,y] <> claBlack then
``````

the output onto my Memo is:

``````x=0. y=0. c=FF3C3C00
x=1. y=0. c=FF3C3C00
x=0. y=1. c=FF3C3C00
x=1. y=1. c=FFE7E700
x=2. y=1. c=FF3C3C00
x=1. y=2. c=FF3C3C00
x=2. y=2. c=FFE7E700
x=3. y=2. c=FF3C3C00
x=2. y=3. c=FF3C3C00
x=3. y=3. c=FFE7E700
x=4. y=3. c=FF3C3C00
x=3. y=4. c=FF3C3C00
x=4. y=4. c=FFE7E700
x=5. y=4. c=FF3C3C00
x=4. y=5. c=FF3C3C00
x=5. y=5. c=FFE7E700
x=6. y=5. c=FF3C3C00
x=5. y=6. c=FF3C3C00
x=6. y=6. c=FFE7E700
x=7. y=6. c=FF3C3C00
x=6. y=7. c=FF3C3C00
x=7. y=7. c=FFE7E700
x=8. y=7. c=FF3C3C00
x=7. y=8. c=FF3C3C00
x=8. y=8. c=FFE7E700
x=9. y=8. c=FF3C3C00
x=8. y=9. c=FF3C3C00
x=9. y=9. c=FFE7E700
x=10. y=9. c=FF3C3C00
x=9. y=10. c=FF3C3C00
x=10. y=10. c=FF3C3C00
``````

so it's interpreting and "blurring"? my line as the colours (represented by c above) are not equal to claYellow (\$FFFF00). If I draw a horizontal or vertical line, the effect is the same. If I change my stroke thickness to 2 and draw a non-diagonal line it draws in claYellow but it covers 2 pixels.

So how can I determine the "true" pixels I've drawn on. In the above sample I would (could) look for \$FFE7E700 but how do I know to look for that value (given that if I drew the line in a different colour, that value would be different). I tried to see if there's a consistent "difference" between the colour I drew with and the actual colour rendered but couldn't locate one.

Thanks

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not an answer to your question... but another interesting question – Whiler May 15 '12 at 7:37
I don't know FireMonkey, but this sounds like nothing more or less than an ordinary antialiasing. – TLama May 15 '12 at 7:46
This has nothing to do with FireMonkey. It is completely dependent on the underlying graphic system (GDI+, D2D, OpenGL). – Uwe Raabe May 15 '12 at 7:50
If you draw the line using "PointF(1.5,1.5), PointF(10.5,10.5), " there may be no anti aliasing and it will work the way you expect it to. – Giel May 15 '12 at 9:01
@Giel - unfortunately it didn't make much difference. it just returned a different value (in this case \$FFEBEB00). – Jason May 16 '12 at 22:10

FMX use antialiazing for drawing. If you would like draw line without blur effect you should use special function for pixel alignment:

• TCanvas.AlignToPixel
• TCanvas.AlignToPixelVertically
• TCanvas.AlignToPixelHorizontally

This functions automatically calculate pixel position for drawing without blur.

Thank you

-
Thanks. I've only just been able to get back to this. Can you elaborate on your answer and illustrate how those functions would be utilised in the above example. There's pretty much 0 documentation about those functions anywhere, and what I've tried doesn't change the read - even if I now use Map/Unmap of the bitmap. – Jason Dec 3 '14 at 0:37

The colors in the example are anti-aliased, meaning they're part the color you set, and part the background color. The precise ratio is based on many considerations done behind the scenes.

Not familiar with FireMonkey(or delphi), so I can't tell you if there's a way around it, but if you want to know where a certain color lands what you could do is test the ratios between RGB values, that's assuming you draw only one line on a black background(otherwise, the ratios must be a range to catch pixels with large amounts of noise)

example: yellow(#ffff00)

red/green=1

red/blue=green/blue=#inf(or if you want, 255/1=255)

a sampled pixel could be #fcfc00 maintaining the ratios

a sampled pixel with noise could be #fcff09 has

red/green=0.988

red/blue=28

green/blue=28.33

red and green are still pretty close and both much higher than blue.

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