@karx11erx, im not rendering smoke, just some particles flying around, and leaving nice trail, while using as little power and memory in GPU as possible. by million i might have been exaggarated a bit ;)

@Rookie: Multiplying will not make the color be there "FOREVER". A value of 1.0, when continuously multiplied by 0.95, will eventually become zero. And it will do so without changing the actual color. I suppose you could get away without clearing the color buffer, since you're just going to write a full-screen quad. And I have no idea why you wouldn't care about the quality of the effect.

@nicol, where in your example code do you tell the opengl to allocate floats for the pixel values in the FBO? because that would be the only way to make the multiplication actually work. Isnt there a way to do this without FBO? i really dont care about the color quality, just the speed. optimal solution would be to use a shader that modifies the current buffer pixels 1 value lower and does nothing else, no extra memory allocated whatsoever. is that possible anyhow?

@Rookie: You don't need float pixels; 8-bit normalized integers is plenty for your needs. OpenGL does the conversion internally, just as it does with any 8-bit normalized integer textures and framebuffers. And no, there is no way to do it without FBOs or some other form of off-screen rendering. OpenGL makes no guarantees about the state of the framebuffer after doing a buffer swap.

if i dont need to change my pixel format, how will this actually solve the problem of pixels which never fade to perfect black color? (i mean if you use multiplication, there shouldnt be a problem with substraction)

@Rookie: If you have the number 1/255, and you multiply it by 0.1, it will become 0.1/255. When that is converted to an unsigned normalized integer upon being written to the framebuffer, it will round down, thus giving you 0.

how do you know it will round down, when my current implementation rounds them closest integer? (or up, i dont know which, but definitely not down since then this bug wouldnt appear!) - is it FBO feature to round it down or what?

@Rookie: Let's assume it rounds up. (2/255 * 0.1) * 255 ~= 0.2. Which would round up to 1. So you would have a value stuck on 1/255. Which is visually indistinguishable from 0. And if it really, really bothers you, then you can do the rounding in the shader or simply clamp a sufficiently small value to 0. More than likely, your current implementation was doing something wrong.

i think your calculations are wrong, if i want a trail of 255 pixels, i would have to use calculation such as: color*(1-(1/255)), which will get stuck on a color value 254, whereas 2/255 gets stuck to 127 etc. so the trail length = value where it gets stuck actually.

@Rookie: Why would you want a trail of exactly 255 pixels? Do you think your users are going to be counting each pixel to see how long the trail is? What happens if the original pixel wasn't white? And as I pointed out, you can do the rounding in the shader. The problem with this discussion is that you haven't explained what effect you're trying to achieve. Also, this is not a discussion forum.

@Rookie: You need to explain what it is that you're trying to achieve visually. Not in terms of color numbers or pixel counts or arbitrary other such things. But the general visual effect you want.

Hello.

@Rookie: As to your question, "im not sure how that chat thing works, does it work if i go offline now and come back tomorrow? " yes, the chatroom is preserved. You can leave a message and then come back to see if it was answered. If you want me to know you left a message, use the @ notation followed by my name to let me know you've left me a chat message.

i dont need exactly 255, but its the theoretical maximum, which i want to be able to use. i just want the fastest possible trail effect that its possible to use, i dont care about quality, just that if it looks like the previous pixels are fading out. nobody is going to count the colors if orange becomes red and so on, its not a real issue for me.

@nicol, (forgot the @)

@Rookie: Actually, people will very much notice if orange becomes red rather than dark orange. As for the "fastest possible trail effect," that sounds suspciously like a premature optimization. Unless you have determined that something is too slow for whatever hardware you intend to use, you shouldn't limit yourself to "minimally effective" solutions. Go with what looks best, and if you need to make it faster, then you can do so.

@nicol, really, i dont care how the colors look :) in fact, i think orange becoming red might give a wacky look rather than "ugly" ;) i want to use this effect just for me actually, so there are no users going to whine how unrealistically it fades... and no, its not really premature optimization either; i just want speed, the quality isnt important, the real purpose for this effect is to make fast moving pixels (or lines) look more "solid" so they dont disappear too fast from the sight.

i might improve this effect later though, but at the moment, all i care is about speed and making it as simple as possible.

@Rookie: It is a premature optimization because you have not verified that one method or the other will be "too slow" for your needs. Until you have determined that, any discussion of the performance of one method over another is exactly that: premature.

Or, to put it another way, you should optimize when you need to, not when you think it will be faster or will matter to performance.

@nicol, i wouldnt say its premature optimization when i only know one method (which is superfast), but it is buggy (because its using multiplication instead of decrementation). and because i already have the most optimal version, i would like to know how to do the same but with decremenation, and keeping the performance the same, thats the whole point of this question. i have not used FBO before so i am suspicious about the performance of it. but i will try it later when i have time.

@nicol, "you should optimize when you need to" when i work with OpenGL, i tend to optimize everything top-shape for the reason that the hardware varies so much with people, and in OpenGL its different than with C++ since its much easier to make 50% slower rendering with lazy methods, other than in C++ where you can waste a hour optimizing and get only 0.01% faster...

@Rookie: It's not buggy because it uses multiplication; it's buggy because OpenGL doesn't work the way you think it does. What you render is not guaranteed to be preserved across buffer swapping. If you're not rendering to multiple surfaces, using a subtractive blend instead of a multiplicative one isn't going to fix the fundamental problem that your algorithm does not actually work.

@nicol, i thought of that too actually, but wasnt sure. maybe you are right. i need to make more tests & try your method as i said earlier. cya later.