# how to rasterize rotated rectangle (in 2d by setpixel)

I have got a four 2d vertices A B C D of rotated rectangle, I need to rasterize/draw it (efficiently) in pixelbufer with setpixel(x,y,color)

how to do it?

i was trying with some code like

``````    // convertilg a b c d do up down left right,
// calculating some dx_left dx_right on y--
// etc (frustrating on special cases when there are 2 up_y vertices in same line etc)

for(;;)
{

drawhorizontalline(y, xstart, xend, color);

if(y==downy) break;

y--;
xstart+=dxstart;
xend+=dxend;

if(y==lefty)  dxstart = dxright;
if(y==righty) dxend = dxleft;

}
``````

but it is most frustrating (terribly bug prone and most frustrating) i am really tired of debuging this all day yesterday and i need to find maybe some working code rather than to try to debug this

• You'd normally start by implementing a line drawing algorithm (e.g., Bresenham's), and then invoke it four times, one for each line of the rectangle. Googling for "Bresenham's algorithm" (or something similar) should turn up a lot of results. Apr 8, 2012 at 7:40
• I need filled rectangle - and rasterizning by horizontal lines would be faster - like in my approach - but im tired of debug this Apr 8, 2012 at 7:54
• This question/answer will help you get 95-99% of the work. Apr 8, 2012 at 8:56
• Filling a rectangle with lots of calls to `setpixel` is usually not very efficient. Apr 8, 2012 at 14:51
• @grunge fightr well you seen inactive at this question for a while do you still need an better answer or you have done it already. If you need specific code comment me with what params you need (color,texture,...) Feb 2, 2014 at 10:36

## 1 Answer

To fill your rectangle handle it as closed convex polygon (almost the same as triangle filling)

1. order your points to match winding rule

so there are lines AB BC CD DA or reverse

2. create left and right buffer

address is `y`-coordinate, its an array of `x`-positions and if needed also array of `color,texture coordinates,...`. for starters:

``````int buf_x0[ys],buf_x1[ys];
``````

where `ys` is screen `y`-resolution

3. implement any draw line algorithm

but instead of draw to screen just store `x` coordinate of pixel to buffer.

• instead of: `setpixel(x,y,color);` do: `buf_x?[y]=x;`.

Which buffer is the destination depends on the line `Y` direction

• if `dy<0` then fill `buff_x0`
• if `dy>0` then fill `buff_x1`
• if `dy==0` then `buf_x0[y]=min(x)` and `buf_x1[y]=max(x)`

Beware you have to sort the line endpoints by x coordinate before rasterizing to avoid seams/holes in meshes caused by different pixels produced for reversed endpoints lines.

4. apply this line algorithm to all border lines of polygon (AB,BC,CD,DA)

after this the buffers contains start and end `x`-positions of your horizontal lines

5. fill the rectangle on screen

``````for (y=min(Ay,By,Cy,Dy);y<=max(Ay,By,Cy,Dy);y++)
draw_horizontal_line(y,buf_x0[y],buf_x1[y],color);
``````

Image for clarity (taken from my lectures on low level computer graphics)

image description:

• vertical rectangles represents the border buffers `buf_x0[],buf_x1[]`
• clockwise winding rule ensures the destination buffer. If its coded properly than `buf_x0[y] <= buf_x1[y]` so draw of horizontal line colapses to single `for` loop

Also se these:

• here is nice triangle fill implementation (the same approach as mine) stackoverflow.com/a/7870925/2521214 May 9, 2014 at 7:01
• Thanks @spektre - great algorithm! Aug 9, 2022 at 19:36