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I need to calculate a close crop rectangle for a bitmap by a given background color key. In the following pictures you can see what is meant to be the close crop. On the left side is the source, on the right side output of the close crop:

enter image description here

enter image description here

As you can see, I need to find the topmost, leftmost, lowermost and rightmost pixels which differ in color from the background to build the close crop rectangle. So, how to find those differing outer pixels to get the close crop rectangle ? Or, in other words, how to calculate close crop rectangle of a bitmap ?

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2  
whathaveyoutried.com -- show your work. post your code. –  Warren P May 10 '12 at 10:56
    
I have tried a mix of code from some answers David helped me on recently: stackoverflow.com/questions/10503428/… and stackoverflow.com/questions/10499069/moving-bitmap-pixels I thought I could understand it but not really. I should be able to adapt the ResizeBitmapCanvas procedure to do this but I couldnt, I get confused easily. –  Blobby May 10 '12 at 11:01
    
@Blobby one way to do it is to start from each side of the bitmap and decrement the loop variable until you find a pixel that is different from the background color, repeat process for each side and voila, you got yourself a auto cropping tool –  ComputerSaysNo May 10 '12 at 11:14
    
@Dorin, you can do it in one ScanLine pass trough, you just have to remember the limits ;-) –  TLama May 10 '12 at 11:17
    
@TLama I'm not sure about that, the cube for example could have the right "edge" inclined(not straight) so, you end up with pretty bad cropping, it could be that I'm missing somethign tho' (: –  ComputerSaysNo May 10 '12 at 11:30

1 Answer 1

up vote 10 down vote accepted

You can use this code (you may follow the commented version of this post as well):

procedure CalcCloseCrop(ABitmap: TBitmap; const ABackColor: TColor;
  out ACropRect: TRect);
var
  X: Integer;
  Y: Integer;
  Color: TColor;
  Pixel: PRGBTriple;
  RowClean: Boolean;
  LastClean: Boolean;
begin
  if ABitmap.PixelFormat <> pf24bit then
    raise Exception.Create('Incorrect bit depth, bitmap must be 24-bit!');

  LastClean := False;
  ACropRect := Rect(ABitmap.Width, ABitmap.Height, 0, 0);

  for Y := 0 to ABitmap.Height-1 do
  begin
    RowClean := True;
    Pixel := ABitmap.ScanLine[Y];
    for X := 0 to ABitmap.Width - 1 do
    begin
      Color := RGB(Pixel.rgbtRed, Pixel.rgbtGreen, Pixel.rgbtBlue);
      if Color <> ABackColor then
      begin
        RowClean := False;
        if X < ACropRect.Left then
          ACropRect.Left := X;
        if X + 1 > ACropRect.Right then
          ACropRect.Right := X + 1;
      end;
      Inc(Pixel);
    end;

    if not RowClean then
    begin
      if not LastClean then
      begin
        LastClean := True;
        ACropRect.Top := Y;
      end;
      if Y + 1 > ACropRect.Bottom then
        ACropRect.Bottom := Y + 1;
    end;
  end;

  if ACropRect.IsEmpty then
  begin
    if ACropRect.Left = ABitmap.Width then
      ACropRect.Left := 0;
    if ACropRect.Top = ABitmap.Height then
      ACropRect.Top := 0;
    if ACropRect.Right = 0 then
      ACropRect.Right := ABitmap.Width;
    if ACropRect.Bottom = 0 then
      ACropRect.Bottom := ABitmap.Height;
  end;
end;

procedure TForm1.Button1Click(Sender: TObject);
var
  R: TRect;
  Bitmap: TBitmap;
begin
  CalcCloseCrop(Image1.Picture.Bitmap, $00FFA749, R);
  Bitmap := TBitmap.Create;
  try
    Bitmap.SetSize(R.Width, R.Height);
    Bitmap.Canvas.CopyRect(Rect(0, 0, R.Width, R.Height), Image1.Canvas, R);
    Image1.Picture.Bitmap.Assign(Bitmap);
  finally
    Bitmap.Free;
  end;
end;
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3  
+1 good job man! –  ComputerSaysNo May 10 '12 at 15:13
    
Excellent stuff TLama, no taking credit away from this one ;) I just wish I could understand not just your answer, but many others. EDIT: the pixels on a bitmap, are they surrounded by an invisible box (bounding box) as I thought originally? If so is this found by using Rect? –  Blobby May 10 '12 at 16:51
    
I'll try to comment this, but after a review. About the invisible box, do you mean some empty space around the cropped image, right ? I'll add some, but what if the first (non-background) pixel will be on position [0;0], do you want to extend it behind the image size and fill this outer space with ABackColor ? –  TLama May 10 '12 at 17:08
1  
I see, so just an extra empty space around the crop result. About the first top left pixel case, you're right, there won't be any crop, but do you want to extend the image with that space even in this case ? Still, the easiest way to this is to get the tight crop rectangle (with the CalcCloseCrop), create a temporary bitmap with the size of ACropRect + the bounding space, fill it with ABackColor and copy the area of ACropRect from the source image to the center of that temporary bitmap. And make from that temporary bitmap result :-) –  TLama May 11 '12 at 13:59
1  
Try to take a look at this article. The result of the ScanLine function is a pointer to the first color structure representing the first pixel of the line. This structure consists from the count of byte values used for representing one single pixel. If you have 24-bit image, you will use PRGBTriple (pointer to TRGBTriple record with 3 bytes inside), because the 24-bit image pixel is stored as 3 bytes like Blue-Green-Red. If you would have 8-bit image, you will use only PByte (pointer to a single byte). The Inc(Pixel); from this example means.. –  TLama May 12 '12 at 13:13

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