Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Suppose I have a GDI+ GraphicsPath that is relatively complex, with "holes" in it. Text is a good example, like the letter "O". I want to transform this path so that I can fill it in completely, including the "holes." How can I do this?

sample image

share|improve this question
    
+1 Interesting question. Indeed more complex than one initially think :) –  leppie Jan 4 '11 at 8:01
    
Question: is it necessary to retain it as a path? If a bitmap result is acceptable it becomes a lot easier. –  Mark Ransom Jan 7 '11 at 0:12
    
Perhaps a bitmap could work. I would be interested in seeing that solution either way. –  jthurman Jan 7 '11 at 1:24

2 Answers 2

Cody,

I didn't see that you had accepted an answer yet, so I am putting this C# function here for you to see if it helps. It has been tested.

Slightly different from the version above: This routine looks for the path with the largest bounding area, so it is a bit more generous than the version above since it doesn't require the "master" path to pass 2 tests to prove that it is worthy of keeping.

I made this into an extension method, so in .Net you can just write:

GraphicsPath solid = LetterPath.ToSolidPath();

The return value is a new GraphicsPath whose interior has been eviscerated (wow, I don't get to use that word very often).

/// <summary>
///  Removes all subpaths (holes) from a graphics path, leaving only the largest whole path behind
/// </summary>
public static GraphicsPath ToSolidPath(this GraphicsPath path)
{
    GraphicsPath BiggestPath = null;
    GraphicsPath SubPath = new GraphicsPath();
    RectangleF BoundsRect = RectangleF.Empty;
    RectangleF BiggestRect = RectangleF.Empty;
    bool bIsClosed = false;

    var pathIterator = new GraphicsPathIterator(path);
    pathIterator.Rewind();

    for (int i = 0; i < pathIterator.SubpathCount; i++)
    {
        SubPath.Reset();
        pathIterator.NextSubpath(SubPath, out bIsClosed);
        BoundsRect = SubPath.GetBounds();
        if (BoundsRect.Width * BoundsRect.Height > BiggestRect.Width * BiggestRect.Height)
        {
            BiggestRect = BoundsRect;
            BiggestPath = (GraphicsPath)SubPath.Clone();
        }
    }

    return BiggestPath;
}
share|improve this answer

Here's a partial solution, in Delphi, that I came up with. It only works in cases where the entire path is "contained" within a single subpath. It simply iterates the subpaths and returns a new path identical to the biggest subpath. It is not a universal solution to the problem above, but it works for the case at hand, and might help someone else in the future:

function BlockPath(Path: IGPGraphicsPath): IGPGraphicsPath;
var
  PathIterator: IGPGraphicsPathIterator;
  SubPath: IGPGraphicsPath;
  I: Integer;
  IsClosed: Boolean;
  BiggestPath: IGPGraphicsPath;
  BiggestRect, BoundsRect: TGPRectF;
begin
  Result := TGPGraphicsPath.Create;
  SubPath := TGPGraphicsPath.Create;
  PathIterator := TGPGraphicsPathIterator.Create(Path);
  PathIterator.Rewind;
  BiggestPath := nil;
  BiggestRect.Width := 0;
  BiggestRect.Height := 0;
  for I := 0 to PathIterator.SubpathCount - 1 do
  begin
    SubPath.Reset;
    PathIterator.NextSubPath(SubPath, IsClosed);
    SubPath.GetBounds(BoundsRect);
    if (BoundsRect.Width >= BiggestRect.Width) and
     (BoundsRect.Height >= BiggestRect.Height) then
    begin
     BiggestRect := BoundsRect;
     BiggestPath := SubPath.Clone;
    end;
  end;
  if BiggestPath <> nil then
  begin
    Result.AddPath(BiggestPath, True);
  end;
end;

Comments and improvements are welcome.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.