nearly every time I use Graphics.DrawRectangle
or Graphics.FillRectangle
(the int
versions) I seem to miss the pixels on the right and bottom border of the rectangle I want to draw.
What is the exact definition of which pixels get filled by
Graphics.FillRectangle(brush,x,y,width,height)
and
Graphics.DrawRectangle(pen,x,y,width,height) // pen is one pixel width, i.e. width=0f
and is there a logical explanation for it? (so I can finally remember the behaviour :) ...)
EDIT:
Using Oleg Zhuk's marvelous Try GDI+ application, I was able to find a curious difference between FillRectangle
and DrawRectangle
:
FillRectangle(brush,0,0,1,1)
draws a single dot at (0,0) which is somehow understandable (it's a rectangle with width and height one after all).
DrawRectangle(pen,0,0,1,1)
on the other hand draws a small 2 by 2 pixel rectangle.
The same behaviour is shown for other width/height combi开发者_如何学运维nations, DrawRectangle
always extends one pixel more to the left and the bottom (which is a little annoying e.g. when using the ClientRectangle
property to draw a frame around a control)
My first question solved (how to they behave...) there still remains the second one: Why do they behave this way?
These methods work correctly, you just have to take into account effects of anti-aliasing and rounding.
First, turn on anti-aliasing to see everything (not only rounded result):
graphics.SmoothingMode = SmoothingMode.AntiAlias;
Now FillRectangle(10,10,10,10) will produce blurry result and DrawRectangle(10,10,10,10) will be sharp.
The blurry result means that you have pixel coordinates off-grid. If you need to call:
graphics.FillRectangle(9.5f, 9.5f, 10, 10);
to align top-left corner of the rectangle on grid.
The DrawRectangle is sharp because it uses Pen of width 1.0. So the line starts on the pixel center and goes 0.5 pixels in both directions, thus filling exactly 1 pixel.
Note that width and height are computed this way:
width = (right - left) = 19.5 - 9.5 = 10
height = (bottom - top) = ...
Notice that 19.5 is a right/bottom coordinate of the rectangle also aligned on the grid and the result is a whole number.
You can use different formula:
width2 = (right - left + 1)
But this applies on rounded coordinates only, since the smallest unit is 1 pixel. When working with GDI+ that uses anti-aliasing, be aware of the fact that the point has zero size and lies in the center of pixel (it is not the whole pixel).
The rectangle in both of the Graphics methods in your question is bounded by (x, y)
in the upper left and (x + width - 1, y + height - 1)
in the lower right. This is a consequence of specifying width and height, rather than the lower right point.
When you're calculating the width and height from two points, you have remember to include the origin pixel by adding 1 to the difference.
For example, say you want to fill a Rectangle from point (5, 5) to point (10, 20). The width of the rectangle is 6, not 5. The height of the rectangle is 16, not 15.
The difference in behavior is due to the somewhat counter intuitive fact that these two algorithms do completely different things.
DrawRectangle draws four lines in the shape of a box. FillRectangle produces a W*H clump of filled in pixels. From this it's easy to see the reason for the difference in behavior. Namely the wrongness of the assumption of similarity. Drawing four lines is quite different than producing a boxlike clump of pixels.
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