# Perfect filled triangle rendering algorithm?

Where can I get an algorithm to render filled triangles? Edit3: I cant use OpenGL for rendering it. I need the per-pixel algorithm for this.

My goal is to render a regular polygon from triangles, so if I use this triangle filling algorithm, the edges from each triangle wouldn't overlap (or make gaps between them), because then it would result into rendering errors if I use for example XOR to render the pixels.

Therefore, the render quality should match to OpenGL rendering, so I should be able to define - for example - a circle with N-vertices, and it would render like a circle with any size correctly; so it doesn't use only integer coordinates to render it like some triangle filling algorithms do.

I would need the ability to control the triangle filling myself: I could add my own logic on how each of the individual pixels would be rendered. So I need the bare code behind the rendering, to have full control on it. It should be efficient enough to draw tens of thousands of triangles without waiting more than a second perhaps. (I'm not sure how fast it can be at best, but I hope it wont take more than 10 seconds).

Preferred language would be C++, but I can convert other languages to my needs.

If there are no free algorithms for this, where can I learn to build one myself, and how hard would that actually be? (me=math noob).

I added OpenGL tag since this is somehow related to it.

Edit2: I tried the algo in here: http://joshbeam.com/articles/triangle_rasterization/ But it seems to be slightly broken, here is a circle with 64 triangles rendered with it:

But if you zoom in, you can see the errors:

Explanation: There is 2 pixels overlapping to the other triangle colors, which should not happen! (or transparency or XOR etc effects will produce bad rendering).

It seems like the errors are more visible on smaller circles. This is not acceptable if I want to have a XOR effect for the pixels.

What can I do to fix these, so it will fill it perfectly without overlapped pixels or gaps?

Edit4: I noticed that rendering very small circles isn't very good. I realised this was because the coordinates were indeed converted to integers. How can I treat the coordinates as floats and make it render the circle precisely and perfectly just like in OpenGL ? Here is example how bad the small circles look like:

Notice how perfect the OpenGL render is! THAT is what I want to achieve, without using OpenGL. NOTE: I dont just want to render perfect circle, but any polygon shape.

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You can do this by taking a scan line algorithm as a starting point. There's code an tutorial at: cs.utah.edu/~xchen/columbia/session2/lec13/html/index.html –  Flexo Jul 27 '12 at 13:35
@Flexo, will that result into same quality as OpenGL ? So i could use floats to define the points? –  Rookie Jul 27 '12 at 13:37
If you want the most benefit from having fractional accuracy you should use it in some way during the scanline rasterization. E.g. by only rendering those pixels where the center of the pixel is covered by the polygon, or for doing some form of antialiasing on the edges. –  Michael Jul 27 '12 at 13:44
How do you think the "algorithm" should handle the central pixel, which mathematically belongs to multiple triangles, to satisfy your requirements (no unfilled pixels, no pixel painted multiple times)? –  Alexey Frunze Jul 28 '12 at 12:40
Skillful use of integers can do wonders. –  Alexey Frunze Jul 28 '12 at 19:13

There's always the half-space method.

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That looks like interesting approach. However, I cant get the code to work... It renders total gibberish. Also, I'm not sure what the `stride` variable should be set, currently I use it as "Bytes Per Pixel", any idea? –  Rookie Jul 27 '12 at 19:57
`stride` is generally how many pixels wide your destination bitmap is. The `colorBuffer += stride` essentially moves down one row in the bitmap. –  genpfault Jul 27 '12 at 20:37
I thought of that, but when i set `stride = width` it just crashes... maybe i can fix it if i access the buffer without pointer trickery like that, lets see... –  Rookie Jul 27 '12 at 20:41

OpenGL uses the GPU to perform this job. This is accelerated in hardware and is called rasterization. As far as i know the hardware implementation is based on the scan-line algorithm.

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This used to be done by creating the outline and then filling in the horizontal lines. See this link for more details - http://joshbeam.com/articles/triangle_rasterization/

Edit: I don't think this will produce the lone pixels you are after, there should be a pixel on every line.

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This looks promising, at my first test there werent pixel on every line; looks like correct algo! going to test with precise circle soon. –  Rookie Jul 27 '12 at 14:35
See my edits, it didnt work perfectly, unfortunately! Do you have any idea how to fix it? –  Rookie Jul 27 '12 at 15:20
It's been a long time since I've done this sort of thing but if I remember correctly, you can get different results depending on the direction you draw the lines. For the circles you should take advantage of symmetry, at least 8 fold, and only calculate the outline in the zeroth octant (from y=0 to y=x). –  SpacedMonkey Jul 30 '12 at 9:28
Circle is just an example, i will need it to work for any polygon shape. –  Rookie Jul 30 '12 at 9:42