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OpenGL (Open Graphics Library) is a graphics standard and API which is platform independent and available for desktop, workstation and mobile devices. It is designed to provide hardware-accelerated rendering, and hence gives greatly improved performance over traditional software rendering.
OpenGL is used for applications like CAD software and computer games. The OpenGL standard, as well as OpenGL ES, is controlled by the Khronos group.
Now there are two scenarios. You either use vertex array objects (VAOs) or you don't (though not using VAOs is deprecated and discouraged/prohibited in modern OpenGL). If you're not … VBO).
So in modern OpenGL using VAOs (which is recommended), it's usually similar to this workflow:
or not, you always have to use VBOs for uploading the geometry, be they just points, pre-made sprites or whatever, and you always have to put this geometry through a set of shaders (in modern OpenGL … of course).
That being said point sprites are very well supported in modern OpenGL, just not that automatically as with the old fixed-function approach. What is not supported are the point attenuation …
Your program should automatically use the highest possible version your hardware and driver support, which in your case seems to be 3.3. But for creating a core-profile context for OpenGL 3 … version for your hardware and drivers.
But also keep in mind that for using OpenGL functionality higher than version 1.1 you need to retrieve the corresponding function pointers or use a library that handles this for you, like GLEW.
I think the best way to do it would be like you said, render everything into a low-res texture (best done using FBOs) and then just display the texture by drawing a sceen-sized quad (of course using G …
One way would be to draw point sprites with a circle-texture and a self-made alpha test in the fragment shader:
uniform sampler2D circle;
if(texture(circle, gl_PointCoord).r < 0.5) …
In contrast to the other OpenGL shader types, compute shaders are not directly related to computer graphics and provide a much more direct abstraction of the underlying hardware, similar to CUDA and … geometric functions.
It is an OpenGL shader program like any other GLSL shader. This means accessing OpenGL data (like buffers, textures, images) is just trivial, while interfacing between OpenGL and …
In addition to tibur's answer, in practice the only use of glEnableClientState and glDisableClientState is for enabling/disabling the builtin fixed-function attribute arrays (like GL_VERTEX_ARRAY, GL_ …
For drawing into video memory you can use framebuffer objects to draw into OpenGL textures or renderbuffers (VRAM areas for offscreen rendering), like Stefan suggested.
When it comes to a VRAM … buffer created by another library, it depends what library you are talking about. If this library also uses OpenGL under the hood, you need some insight into the library to get that "buffer" (be it a …
You also need to adjust the material's specular (which is multiplied by the light's specular) and shininess (which adjusts the hotspot's falloff) properties. The default for these are zeros. try this: …
glReadPixels. If you want color images you have to keep in mind that OpenCV usually stores color values in BGR order, so you need to use GL_BGR(A) (which were added with OpenGL 1.2) instead of GL_RGB(A). For one … after getting them or render them flipped in OpenGL in the first place (this can be done by adjusting the projection matrix, but keep an eye on triangle orientation in this case). To flip a cv::Mat …
Like many others you seem to mistake OpenGL for a scene managment API, which is plain wrong. OpenGL does nothing else than draw something to the screen. After it's drawn OpenGL completely forgets …
However, this has nothing to do with modern OpenGL, in fact this code is completely valid OpenGL 1.1 code. Modern OpenGL is not just about vertex arrays over immediate mode. It is also about … porting this to modern OpenGL is in fact not such a simple question.
Since your question suggests that you aren't aware of all this, it doesn't make much sense to explain it here, as it doesn't just come …
I think without shaders this won't be possible since, well, glColorPointer only accepts a size of 3 or 4, like you already found out (there should also be no glColor1, only glColor3 and glColor4).
From your code it looks like you create a mipmapped texture (with 4 mipmap levels as you say) but then only set the image for the first level. This means all the other level's images are undefined. Wh …
In OpenGL terminology, the client is your application, whereas the server is the graphics card (or the driver), I think. The only client-side capabilities are the vertex arrays, as these are stored …