2

I can't understand why the shadow path has thorns near the Arrow Cap.
Refer to my screenshot.

using (GraphicsPath _Path = new GraphicsPath())
{
    Point[] _Points = new Point[] { 
            new Point { X = mouseDownX, Y = mouseDownY }, 
            new Point { X = lineEndX - 51, Y = mouseDownY },
            new Point { X = lineEndX - 51, Y = mouseDownY  - 20 },
            new Point { X = lineEndX, Y = mouseDownY + 5},
            new Point { X = lineEndX -51, Y = mouseDownY + 25},
            new Point { X = lineEndX -51, Y = mouseDownY +10 },
            new Point { X = mouseDownX, Y = mouseDownY +10 }};    
    _Path.AddPolygon(_Points);                                                                                     
    using (PathGradientBrush _Brush = new PathGradientBrush(_Path))
    {
        _Brush.WrapMode = WrapMode.Clamp;
        ColorBlend _ColorBlend = new ColorBlend(3);
        _ColorBlend.Colors = new Color[]{Color.Transparent, 
                                 Color.FromArgb(180, Color.DimGray),
                                 Color.FromArgb(180, Color.DimGray)};
        _ColorBlend.Positions = new float[] { 0f, 0.1f, 1f};
        _Brush.InterpolationColors = _ColorBlend;
        //myGraphics.Clip = new Region(_Path);
        myGraphics.FillPath(_Brush,_Path);
        //myGraphics.ResetClip();
    }
    Matrix _Matrix = new Matrix();
    int _ShadowDistance = -40;
    _Matrix.Translate(_ShadowDistance, _ShadowDistance);
    _Path.Transform(_Matrix);
    myGraphics.FillPath(Brushes.Red, _Path);
}

Screenshot:
PathGradientBrush shadow

1
  • It is a floating point rounding problem, Graphics does all math internally with System.Single precision, even if you use integer arguments. All graphics engines work that way, even WPF's, a standard set in the early 1990s when such engines were developed and it still made sense to use the meager float precision. The default PixelOffsetMode is suitable for images, not line drawing. – Hans Passant May 20 '19 at 15:43
3

One way to correct the problem, is to specify the inner PathGradientBrush's FocusScales, to delimit the color fall-off, without compromising the color blending.

Unfortunately, the Docs don't actually describe what this property is used for.
You can read a better description here: How to: Create a Path Gradient

The fall-off can be adjusted on the color positions. Since you specified:

Positions = new float[] { 0.0f, 0.1f, 1.0f }

the color falloffs can be set to:

brush.FocusScales = new PointF(0.1f, 1.0f);

the horizontal scale can be adjusted, but within half of the total measure, otherwise the color blending will be compromised: you won't see the transparency anti-aliasing on the edges of the shape.

A better result is also achieved setting the PixelOffsetMode to PixelOffsetMode.Half.
Note that the description in the Docs is wrong, refer to the C++ documentation about this setting.

PathGradientBrush - FocusScales

A sample implementation. You may want to refresh the drawing only on a MouseDown event.
mousePosition is the Location of the Mouse pointer. Can be set in the MouseDown event handler.

private Point mousePosition = Point.Empty;
private float lineSize = 100.0f;
private int shadowDistance = 16;

private void someControl_Paint(object sender, PaintEventArgs e)
{
    e.Graphics.SmoothingMode = SmoothingMode.AntiAlias;
    e.Graphics.PixelOffsetMode = PixelOffsetMode.Half;

    using (var path = new GraphicsPath(FillMode.Winding))
    {
        PointF[] arrowPoints = new PointF[] {
            mousePosition,
            new PointF (mousePosition.X - 20f, mousePosition.Y + 10f),
            new PointF (mousePosition.X - 20f, mousePosition.Y + 3f),
            new PointF (mousePosition.X - lineSize, mousePosition.Y + 3f),
            new PointF (mousePosition.X - lineSize, mousePosition.Y - 3f),
            new PointF (mousePosition.X - 20f, mousePosition.Y - 3f),
            new PointF (mousePosition.X - 20f, mousePosition.Y - 10f)
        };
        path.AddLines(arrowPoints);

        using (var brush = new PathGradientBrush(path.PathPoints, WrapMode.Clamp))
        {
            var blend = new ColorBlend()
            {
                Colors = new Color[] { Color.Transparent,
                                       Color.FromArgb(180, Color.DimGray),
                                       Color.FromArgb(180, Color.DimGray) },
                Positions = new float[] { 0.0f, 0.2f, 1.0f }
            };
            brush.FocusScales = new PointF(0.2f, 1.0f);
            brush.InterpolationColors = blend;
            e.Graphics.FillPath(brush, path);
        }
        using (var mx = new Matrix())
        {
            mx.Translate(-shadowDistance, -shadowDistance);
            e.Graphics.Transform = mx;
            e.Graphics.FillPath(Brushes.Red, path);
        }
    }
}
1
  • 1
    You need to use both. Try to set the positions: Positions = new float[] { 0.0f, 0.4f, 1.0f }. Without setting a paired FocusScales, the ugly artifacts appear again. That's why I described this as a generic method: it can be adapted to different brushes and blends. – Jimi May 20 '19 at 15:12

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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