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I have a program which simulates a physical system that changes over time. I want to, at predetermined intervals (say every 10 seconds) output a visualization of the state of the simulation to a file. I want to do it in such a way that it is easy to "turn the visualization off" and not output the visualization at all.

I am looking at OpenGL and GLUT as graphics tools to do the visualization. However the problem seems to be that first of all, it looks like it only outputs to a window and can't output to a file. Second, in order to generate the visualization you have to call GLUTMainLoop and that stops the execution of the main function - the only functions that get called from then on are calls from the GUI. However I do not want this to be a GUI based application - I want it to just be an application that you run from the command line, and it generates a series of images. Is there a way to do this in GLUT/OpenGL? Or is OpenGL the wrong tool for this completely and I should use something else

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How big is the state of the simulation, if you were to write that instead of the visualisation? –  Phil H Jan 15 '13 at 17:13

4 Answers 4

up vote 5 down vote accepted

You almost certainly don't want GLUT, regardless. Your requirements don't fit what it's intended to do (and even when your requirements do fit its intended purpose, you usually don't want it anyway).

You can use OpenGL. To generate output in a file, you basically set up OpenGL to render to a texture, and then read the resulting texture into main memory and save it to a file. At least on some systems (e.g., Windows), I'm pretty sure you'll still have to create a window and associate the rendering context with the window, though it will probably be fine if the window is always hidden.

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Four options:

  • render to backbuffer (default render place)
  • render to a texture
  • render to a Framebuffer object (FBO)
  • render to a Pixelbuffer object (PBO)

then read the pixels with glReadPixels, and put them in a file.

Framebuffer and Pixelbuffer are better than the backbuffer and texture since they are made for data to be read back to CPU, while the backbuffer and textures are made to stay on the GPU and show on screen.

As discussed at: What are the differences between a Frame Buffer Object and a Pixel Buffer Object in OpenGL?, PBO is for asynchronous transfers, for most simulations this will not be necessary, so we use FBO.

As other answers pointed out, it is not possible not to open a window, so open a 1x1 window and hide it with glutHideWindow.

Next use glReadPixels as shown at: glReadPixels() "data" argument usage?

Finally find some library that transforms the pixels you read into your desired file format.

The following pseudo code shows the general organization. This should not to stall you physical calculations any longer than necessary:

void init(int argc, char** argv)  {
    // MUST initialize window BEFORE framebuffer!
    // `GLUT_SINGLE` since user does not see output
    glutInitDisplayMode( GLUT_SINLGE | GLUT_RGB | GLUT_DEPTH );
    glutInitWindowSize(1, 1);
    glutCreateWindow(argv[0]);
    glutHideWindow();

    GLuint fbo, rboColor, rboDepth;

    // Color renderbuffer.
    glGenRenderbuffers(1,&rboColor);
    glBindRenderbuffer(rboColor);
    // Set storage for currently bound renderbuffer.
    glRenderbufferStorage(GL_RENDERBUFFER, GL_BGRA8, width, height);

    // Depth renderbuffer
    glGenRenderbuffers(1,&rboDepth);
    glBindRenderbuffer(rboDepth);
    glRenderbufferStorage(GL_RENDERBUFFER, GL_DEPTH_COMPONENT24, width, height);

    // Framebuffer
    glGenFramebuffers(1, &fbo);
    glBindFramebuffer(GL_FRAMEBUFFER,fbo);
    glFramebufferRenderbuffer(GL_DRAW_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_RENDERBUFFER, rboColor);
    // Set renderbuffers for currently bound framebuffer
    glFramebufferRenderbuffer(GL_DRAW_FRAMEBUFFER, GL_DEPTH_ATTACHMENT, GL_RENDERBUFFER, rboDepth);

    // Set to write to the framebuffer.
    glBindFramebuffer(GL_FRAMEBUFFER,fbo);

    // Tell glReadPixels where to read from.
    glReadBuffer(GL_COLOR_ATTACHMENT0);

    // init the rest of OpenGL, lights, etc.

    // init physical model
}

void display() {
    glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);

    glutSolidSphere(1.0, 20, 20);

    // Continue drawing. 

    // Makes sure scene is rendered
    // and put pixels on the backbuffer
    // which is not shown on the window.
    // window shows the frontbuffer
    //
    // glSwapBuffers() would wait for screen refresh,
    // and put backbuffer on the frontbuffer where it
    // would be visible on screen        
    glFlush();

    // Data will now contain the pixels.
    glReadPixels(data);

    // Not in OpenGL: use some library to convert to the format.
    writePixelsToFile(data)
}

void idle() {
    bool outputNow = False;
    while(!outputNow) {
        // Update the physical system.
        updatePhysicalCalculations();
        outputNow = doOutputNow();
    }
    // Do the next display.
    glutPostRedisplay();
}

int main() {
    init(argc,argv);
    glutDisplayFunc(display);
    glutIdleFunc(idle);
    glutMainLoop();
}

I've got a full working example on my GitHub C++ cheat. Clone the repo, go into the dir, make run make run (supposing glut/opengl is already installed). Now change the value of offscreen in the source file to true/false. If true, it outputs pixels to stdout faster than 60fps, if false, it outputs to screen and stays at 60 fps.

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thank you for including the different types of buffers and an example. –  tehwalrus Apr 10 '13 at 16:20
    
@cirosantilli , your github link is dead. –  quartz Dec 24 '13 at 12:10
    
@quartz Thanks a lot for the report. Should be working now. –  Ciro Santilli Dec 24 '13 at 14:07

Not sure OpenGL is the best solution.
But you can always render to an off-screen buffer.

The typical way to write openGL output to a file is to use readPixels to copy the resulting scene pixel-pixel to an image file

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You could use SFML http://www.sfml-dev.org/. You can use the image class to save your rendered output.

http://www.sfml-dev.org/documentation/1.6/classsf_1_1Image.htm

To get your rendered output, you can render to a texture or copy your screen.

Rendering to a texture:

Copying screen output:

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