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I have created a class to initialize and clear Xlib and glx properly. 

    memset(&m_cmap, 0, sizeof(Colormap));
    memset(&m_swa, 0, sizeof(XSetWindowAttributes));
    memset(&m_win, 0, sizeof(Window));
    m_display = XOpenDisplay(NULL);

    m_vi = glXChooseVisual(m_display, DefaultScreen(m_display), dblBuf);
    m_context = glXCreateContext(m_display, m_vi, None, True);
    m_cmap = XCreateColormap(m_display, RootWindow(m_display, m_vi->screen), m_vi->visual, AllocNone);
    m_swa.colormap = m_cmap;
    m_win = XCreateWindow(
                RootWindow(  m_display, m_vi->screen  ),
                0, 0, /* width */ 640, /* height */ 480, 0, m_vi->depth, InputOutput, m_vi->visual,
                CWBorderPixel | CWColormap | CWEventMask, &m_swa

    char* dummy[] = { "", 0 };
    XSetStandardProperties(m_display, m_win, "glxsimple", "glxsimple", None, dummy, 0, NULL);
    glXMakeCurrent(m_display, m_win, m_context);
    XMapWindow(GetDisplay(), GetWindow());

    XUnmapWindow(m_display, m_win);
    glXMakeCurrent(m_display, None, NULL);
    XFreeColormap(m_display, m_cmap);
    XDestroyWindow(m_display, m_win);
    glXDestroyContext(m_display, m_context);

Unfortunately, valgrind reports a memory leak.

==28742== 12,796 (584 direct, 12,212 indirect) bytes in 1 blocks are definitely lost in loss record 631 of 637
==28742==    at 0x4C29F5D: malloc (vg_replace_malloc.c:263)
==28742==    by 0xBCD7E7C: driConcatConfigs (in /usr/lib64/mesa/
==28742==    by 0xBCDBDFF: dri_init_screen_helper (in /usr/lib64/mesa/
==28742==    by 0xBCDAF0D: drisw_init_screen (in /usr/lib64/mesa/
==28742==    by 0xBCD8583: driCreateNewScreen (in /usr/lib64/mesa/
==28742==    by 0x5295604: driswCreateScreen (in /usr/lib64/opengl/xorg-x11/lib/
==28742==    by 0x527412B: __glXInitialize (in /usr/lib64/opengl/xorg-x11/lib/
==28742==    by 0x5270154: glXGetFBConfigs (in /usr/lib64/opengl/xorg-x11/lib/
==28742==    by 0x5270B57: glXChooseFBConfig (in /usr/lib64/opengl/xorg-x11/lib/
==28742==    by 0x4E9A7CE: ??? (in /usr/lib64/
==28742==    by 0x4E5B676: glXChooseVisual (in /usr/lib64/
==28742==    by 0x46D23B: Zion::Core::OpenGLContext::OpenGLContext() (OpenGLContext.cpp:23)

Note that I’m using VirtualGL (which explains Is there something I did wrong? or should I assume this is a bug on VirtualGL’s side?

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2 Answers 2

You shouldn't automatically assume that's it a bug. valgrind will sometimes return false positive results when dealing with optimised libraries. To be certain you need to ensure you are running against an unoptimised build of the library.


This extract from a valgrind manual suggest that this is only an issue when it checks for uninitialised variables. I remember being hit by false positives before but when I think of it now it was indeed for uninitialised values.

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Okay. Why are there false positives? –  qdii Apr 8 '12 at 19:44
I don't know the detailed reason but I assume it's similar to the way a debugger is not very reliable when stepping through optimised binaries. –  Troubadour Apr 8 '12 at 19:55
No offense, but it sounds unlikely to me. If I remember correctly what I read from Valgrind’s documentation, valgrind emulates a processor and has the program run on it. From this extended processor it deduces which memory location were affected by the opcodes. That’s why I can’t see how optimized code could make a difference at such level. –  qdii Apr 9 '12 at 8:14
@qdii: I think you are correct. I've edited my answer. –  Troubadour Apr 9 '12 at 19:59

This is likely a real memory leak, Valgrind detects leaks in libraries too.

In practice - if these are functions only every called once on initialization for example. While they are technically leaks - you can safely ignore them, or if you like you could investigate the leak up-stream, if the source is available.

Checking the docs, on glXChooseFBConfig the return value is expected to be freed with XFree called on it.

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