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path: root/src/glut/glx/glut_overlay.c
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/* Copyright (c) Mark J. Kilgard, 1996, 1997.  */

/* This program is freely distributable without licensing fees
   and is provided without guarantee or warrantee expressed or
   implied. This program is -not- in the public domain. */

#ifdef __VMS
#include <GL/vms_x_fix.h>
#endif

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>

#if !defined(_WIN32)
#include <X11/Xlib.h>
#include <X11/Xutil.h>
#if defined (__vms)
#include <Xmu/StdCmap.h>  /* for XmuLookupStandardColormap */
#else
#include <X11/Xmu/StdCmap.h>  /* for XmuLookupStandardColormap */
#endif
#endif /* !_WIN32 */

#include "glutint.h"
#include "layerutil.h"

static Criterion requiredOverlayCriteria[] =
{
  {LEVEL, EQ, 1},       /* This entry gets poked in
                           determineOverlayVisual. */
  {TRANSPARENT, EQ, 1},
  {XPSEUDOCOLOR, EQ, 1},
  {RGBA, EQ, 0},
  {BUFFER_SIZE, GTE, 1}
};
static int numRequiredOverlayCriteria = sizeof(requiredOverlayCriteria) / sizeof(Criterion);
static int requiredOverlayCriteriaMask =
(1 << LEVEL) | (1 << TRANSPARENT) | (1 << XSTATICGRAY) | (1 << RGBA) | (1 << CI_MODE);

#if !defined(_WIN32)
static int
checkOverlayAcceptability(XVisualInfo * vi, unsigned int mode)
{
  int value;

  /* Must support OpenGL. */
  glXGetConfig(__glutDisplay, vi, GLX_USE_GL, &value);
  if (!value)
    return 1;

  /* Must be color index. */
  glXGetConfig(__glutDisplay, vi, GLX_RGBA, &value);
  if (value)
    return 1;

  /* Must match single/double buffering request. */
  glXGetConfig(__glutDisplay, vi, GLX_DOUBLEBUFFER, &value);
  if (GLUT_WIND_IS_DOUBLE(mode) != (value != 0))
    return 1;

  /* Must match mono/stereo request. */
  glXGetConfig(__glutDisplay, vi, GLX_STEREO, &value);
  if (GLUT_WIND_IS_STEREO(mode) != (value != 0))
    return 1;

  /* Alpha and accumulation buffers incompatible with color
     index. */
  if (GLUT_WIND_HAS_ALPHA(mode) || GLUT_WIND_HAS_ACCUM(mode))
    return 1;

  /* Look for depth buffer if requested. */
  glXGetConfig(__glutDisplay, vi, GLX_DEPTH_SIZE, &value);
  if (GLUT_WIND_HAS_DEPTH(mode) && (value <= 0))
    return 1;

  /* Look for stencil buffer if requested. */
  glXGetConfig(__glutDisplay, vi, GLX_STENCIL_SIZE, &value);
  if (GLUT_WIND_HAS_STENCIL(mode) && (value <= 0))
    return 1;

#if defined(GLX_VERSION_1_1) && defined(GLX_SGIS_multisample)
  /* XXX Multisampled overlay color index??  Pretty unlikely. */
  /* Look for multisampling if requested. */
  if (__glutIsSupportedByGLX("GLX_SGIS_multisample"))
    glXGetConfig(__glutDisplay, vi, GLX_SAMPLES_SGIS, &value);
  else
    value = 0;
  if (GLUT_WIND_IS_MULTISAMPLE(mode) && (value <= 0))
    return 1;
#endif

  return 0;
}
#endif

static XVisualInfo *
getOverlayVisualInfoCI(unsigned int mode)
{
#if !defined(_WIN32)
  XLayerVisualInfo *vi;
  XLayerVisualInfo template;
  XVisualInfo *goodVisual, *returnVisual;
  int nitems, i, j, bad;

  /* The GLX 1.0 glXChooseVisual is does not permit queries
     based on pixel transparency (and GLX_BUFFER_SIZE uses
     "smallest that meets" its requirement instead of "largest
     that meets" that GLUT wants. So, GLUT implements its own
     visual selection routine for color index overlays. */

  /* Try three overlay layers. */
  for (i = 1; i <= 3; i++) {
    template.vinfo.screen = __glutScreen;
    template.vinfo.class = PseudoColor;
    template.layer = i;
    template.type = TransparentPixel;
    vi = __glutXGetLayerVisualInfo(__glutDisplay,
      VisualTransparentType | VisualScreenMask | VisualClassMask | VisualLayerMask,
      &template, &nitems);
    if (vi) {
      /* Check list for acceptable visual meeting requirements
         of requested display mode. */
      for (j = 0; j < nitems; j++) {
        bad = checkOverlayAcceptability(&vi[j].vinfo, mode);
        if (bad) {
          /* Set vi[j].vinfo.visual to mark it unacceptable. */
          vi[j].vinfo.visual = NULL;
        }
      }

      /* Look through list to find deepest acceptable visual. */
      goodVisual = NULL;
      for (j = 0; j < nitems; j++) {
        if (vi[j].vinfo.visual) {
          if (goodVisual == NULL) {
            goodVisual = &vi[j].vinfo;
          } else {
            if (goodVisual->depth < vi[j].vinfo.depth) {
              goodVisual = &vi[j].vinfo;
            }
          }
        }
      }

      /* If a visual is found, clean up and return the visual. */
      if (goodVisual) {
        returnVisual = (XVisualInfo *) malloc(sizeof(XVisualInfo));
        if (returnVisual) {
          *returnVisual = *goodVisual;
        }
        XFree(vi);
        return returnVisual;
      }
      XFree(vi);
    }
  }
#endif /* !_WIN32 */
  return NULL;
}

/* ARGSUSED */
static XVisualInfo *
getOverlayVisualInfoRGB(unsigned int mode)
{

  /* XXX For now, transparent RGBA overlays are not supported
     by GLUT.  RGBA overlays raise difficult questions about
     what the transparent pixel (really color) value should be.

     Color index overlay transparency is "easy" because the
     transparent pixel value does not affect displayable colors
     (except for stealing one color cell) since colors are
     determined by indirection through a colormap, and because
     it is uncommon for arbitrary pixel values in color index to
     be "calculated" (as can occur with a host of RGBA operations
     like lighting, blending, etc) so it is easy to avoid the
     transparent pixel value.

     Since it is typically easy to avoid the transparent pixel
     value in color index mode, if GLUT tells the programmer what
     pixel is transparent, then most program can easily avoid
     generating that pixel value except when they intend
     transparency.  GLUT returns whatever transparent pixel value
     is provided by the system through glutGet(
     GLUT_TRANSPARENT_INDEX).

     Theory versus practice for RGBA overlay transparency: In
     theory, the reasonable thing is enabling overlay transparency
     when an overlay pixel's destination alpha is 0 because this
     allows overlay transparency to be controlled via alpha and all
     visibile colors are permited, but no hardware I am aware of
     supports this practice (and it requires destination alpha which
     is typically optional and quite uncommon for overlay windows!). 

     In practice, the choice of  transparent pixel value is typically
     "hardwired" into most graphics hardware to a single pixel value.
     SGI hardware uses true black (0,0,0) without regard for the
     destination alpha.  This is far from ideal because true black (a
     common color that is easy to accidently generate) can not be
     generated in an RGBA overlay. I am not sure what other vendors
     do.

     Pragmatically, most of the typical things you want to do in the
     overlays can be done in color index (rubber banding, pop-up
     menus, etc.).  One solution for GLUT would be to simply
     "advertise" what RGB triple (or possibly RGBA quadruple or simply 
     A alone) generates transparency.  The problem with this approach
     is that it forces programmers to avoid whatever arbitrary color
     various systems decide is transparent.  This is a difficult
     burden to place on programmers that want to portably make use of
     overlays.

     To actually support transparent RGBA overlays, there are really
     two reaonsable options.  ONE: Simply mandate that true black is
     the RGBA overlay transparent color (what IRIS GL did).  This is
     nice for programmers since only one option, nice for existing SGI 
     hardware, bad for anyone (including SGI) who wants to improve
     upon "true black" RGB transparency. 

     Or TWO: Provide a set of queriable "transparency types" (like
     "true black" or "alpha == 0" or "true white" or even a queriable
     transparent color).  This is harder for programmers, OK for
     existing SGI hardware, and it leaves open the issue of what other 
     modes are reasonable.

     Option TWO seems the more general approach, but since hardware
     designers will likely only implement a single mode (this is a
     scan out issue where bandwidth is pressing issue), codifying
     multiple speculative approaches nobody may ever implement seems
     silly.  And option ONE fiats a suboptimal solution.

     Therefore, I defer any decision of how GLUT should support RGBA
     overlay transparency and leave support for it unimplemented.
     Nobody has been pressing me for RGBA overlay transparency (though 
     people have requested color index overlay transparency
     repeatedly).  Geez, if you read this far you are either really
     bored or maybe actually  interested in this topic.  Anyway, if
     you have ideas (particularly if you plan on implementing a
     hardware scheme for RGBA overlay transparency), I'd be
     interested.

     For the record, SGI's expiremental Framebufer Configuration
     experimental GLX extension uses option TWO.  Transparency modes
     for "none" and "RGB" are defined (others could be defined later). 
     What RGB value is the transparent one must be queried. 

     I was hoping GLUT could have something that required less work
     from the programmer to use portably. -mjk */

  __glutWarning("RGBA overlays are not supported by GLUT (for now).");
  return NULL;
}

static XVisualInfo *
getOverlayVisualInfo(unsigned int mode)
{
  /* XXX GLUT_LUMINANCE not implemented for GLUT 3.0. */
  if (GLUT_WIND_IS_LUMINANCE(mode))
    return NULL;

  if (GLUT_WIND_IS_RGB(mode))
    return getOverlayVisualInfoRGB(mode);
  else
    return getOverlayVisualInfoCI(mode);
}

#if !defined(_WIN32)

/* The GLUT overlay can come and go, and the overlay window has
   a distinct X window ID.  Logically though, GLUT treats the
   normal and overlay windows as a unified window.  In
   particular, X input events typically go to the overlay window 
   since it is "on top of" the normal window.  When an overlay
   window ID is destroyed (due to glutRemoveOverlay or a call to 
   glutEstablishOverlay when an overlay already exists), we
   still keep track of the overlay window ID until we get back a 
   DestroyNotify event for the overlay window. Otherwise, we
   could lose track of X input events sent to a destroyed
   overlay.  To avoid this, we keep the destroyed overlay window 
   ID on a "stale window" list.  This lets us properly route X
   input events generated on destroyed overlay windows to the
   proper GLUT window. */
static void
addStaleWindow(GLUTwindow * window, Window win)
{
  GLUTstale *entry;

  entry = (GLUTstale *) malloc(sizeof(GLUTstale));
  if (!entry)
    __glutFatalError("out of memory");
  entry->window = window;
  entry->win = win;
  entry->next = __glutStaleWindowList;
  __glutStaleWindowList = entry;
}

#endif

void
__glutFreeOverlay(GLUToverlay * overlay)
{
  if (overlay->visAlloced)
    XFree(overlay->vis);
  XDestroyWindow(__glutDisplay, overlay->win);
  glXDestroyContext(__glutDisplay, overlay->ctx);
  if (overlay->colormap) {
    /* Only color index overlays have colormap data structure. */
    __glutFreeColormap(overlay->colormap);
  }
  free(overlay);
}

static XVisualInfo *
determineOverlayVisual(int *treatAsSingle, Bool * visAlloced, void **fbc)
{
  if (__glutDisplayString) {
    XVisualInfo *vi;
    int i;

    /* __glutDisplayString should be NULL except if
       glutInitDisplayString has been called to register a
       different display string.  Calling glutInitDisplayString
       means using a string instead of an integer mask determine 

       the visual to use. Using the function pointer variable
       __glutDetermineVisualFromString below avoids linking in
       the code for implementing glutInitDisplayString (ie,
       glut_dstr.o) unless glutInitDisplayString gets called by
       the application. */

    assert(__glutDetermineVisualFromString);

    /* Try three overlay layers. */
    *visAlloced = False;
    *fbc = NULL;
    for (i = 1; i <= 3; i++) {
      requiredOverlayCriteria[0].value = i;
      vi = __glutDetermineVisualFromString(__glutDisplayString, treatAsSingle,
        requiredOverlayCriteria, numRequiredOverlayCriteria,
        requiredOverlayCriteriaMask, fbc);
      if (vi) {
        return vi;
      }
    }
    return NULL;
  } else {
    *visAlloced = True;
    *fbc = NULL;
    return __glutDetermineVisual(__glutDisplayMode,
      treatAsSingle, getOverlayVisualInfo);
  }
}

/* CENTRY */
void GLUTAPIENTRY
glutEstablishOverlay(void)
{
  GLUToverlay *overlay;
  GLUTwindow *window;
  XSetWindowAttributes wa;
  void *fbc;

  /* Register a routine to free an overlay with glut_win.c;
     this keeps glut_win.c from pulling in all of
     glut_overlay.c when no overlay functionality is used by
     the application. */
  __glutFreeOverlayFunc = __glutFreeOverlay;

  window = __glutCurrentWindow;

  /* Allow for an existant overlay to be re-established perhaps
     if you wanted a different display mode. */
  if (window->overlay) {
#if !defined(_WIN32)
    addStaleWindow(window, window->overlay->win);
#endif
    __glutFreeOverlay(window->overlay);
  }
  overlay = (GLUToverlay *) malloc(sizeof(GLUToverlay));
  if (!overlay)
    __glutFatalError("out of memory.");

  overlay->vis = determineOverlayVisual(&overlay->treatAsSingle,
    &overlay->visAlloced, &fbc);
  if (!overlay->vis) {
    __glutFatalError("lacks overlay support.");
  }
  overlay->ctx = NULL;
#if defined(GLX_VERSION_1_1) && defined(GLX_SGIX_fbconfig)
  if (fbc) {
    window->ctx = __glut_glXCreateContextWithConfigSGIX(__glutDisplay, fbc,
      GLX_RGBA_TYPE_SGIX, None, __glutTryDirect);
  } else
#endif
  {
    overlay->ctx = glXCreateContext(__glutDisplay, overlay->vis,
      None, __glutTryDirect);
  }
  if (!overlay->ctx) {
    __glutFatalError(
      "failed to create overlay OpenGL rendering context.");
  }
#if !defined(_WIN32)
  overlay->isDirect = glXIsDirect(__glutDisplay, overlay->ctx);
  if (__glutForceDirect) {
    if (!overlay->isDirect) {
      __glutFatalError("direct rendering not possible.");
    }
  }
#endif
  __glutSetupColormap(overlay->vis, &overlay->colormap, &overlay->cmap);
  overlay->transparentPixel = __glutGetTransparentPixel(__glutDisplay,
    overlay->vis);
  wa.colormap = overlay->cmap;
  wa.background_pixel = overlay->transparentPixel;
  wa.event_mask = window->eventMask & GLUT_OVERLAY_EVENT_FILTER_MASK;
  wa.border_pixel = 0;
#if defined(_WIN32)
  /* XXX Overlays not supported in Win32 yet. */
#else
  overlay->win = XCreateWindow(__glutDisplay,
    window->win,
    0, 0, window->width, window->height, 0,
    overlay->vis->depth, InputOutput, overlay->vis->visual,
    CWBackPixel | CWBorderPixel | CWEventMask | CWColormap,
    &wa);
#endif
  if (window->children) {
    /* Overlay window must be lowered below any GLUT
       subwindows. */
    XLowerWindow(__glutDisplay, overlay->win);
  }
  XMapWindow(__glutDisplay, overlay->win);
  overlay->shownState = 1;

  overlay->display = NULL;

  /* Make sure a reshape gets delivered. */
  window->forceReshape = True;

#if !defined(_WIN32)
  __glutPutOnWorkList(__glutToplevelOf(window), GLUT_COLORMAP_WORK);
#endif

  window->overlay = overlay;
  glutUseLayer(GLUT_OVERLAY);

  if (overlay->treatAsSingle) {
    glDrawBuffer(GL_FRONT);
    glReadBuffer(GL_FRONT);
  }
}

void GLUTAPIENTRY
glutRemoveOverlay(void)
{
  GLUTwindow *window = __glutCurrentWindow;
  GLUToverlay *overlay = __glutCurrentWindow->overlay;

  if (!window->overlay)
    return;

  /* If using overlay, switch to the normal layer. */
  if (window->renderWin == overlay->win) {
    glutUseLayer(GLUT_NORMAL);
  }
#if !defined(_WIN32)
  addStaleWindow(window, overlay->win);
#endif
  __glutFreeOverlay(overlay);
  window->overlay = NULL;
#if !defined(_WIN32)
  __glutPutOnWorkList(__glutToplevelOf(window), GLUT_COLORMAP_WORK);
#endif
}

void GLUTAPIENTRY
glutUseLayer(GLenum layer)
{
  GLUTwindow *window = __glutCurrentWindow;

  switch (layer) {
  case GLUT_NORMAL:
#ifdef _WIN32
    window->renderDc = window->hdc;
#endif
    window->renderWin = window->win;
    window->renderCtx = window->ctx;
    break;
  case GLUT_OVERLAY:
    /* Did you crash here?  Calling glutUseLayer(GLUT_OVERLAY)
       without an overlay established is erroneous.  Fix your
       code. */
#ifdef _WIN32
    window->renderDc = window->overlay->hdc;
#endif
    window->renderWin = window->overlay->win;
    window->renderCtx = window->overlay->ctx;
    break;
  default:
    __glutWarning("glutUseLayer: unknown layer, %d.", layer);
    break;
  }
  __glutSetWindow(window);
}

void GLUTAPIENTRY
glutPostOverlayRedisplay(void)
{
  __glutPostRedisplay(__glutCurrentWindow, GLUT_OVERLAY_REDISPLAY_WORK);
}

/* The advantage of this routine is that it saves the cost of a
   glutSetWindow call (entailing an expensive OpenGL context
   switch), particularly useful when multiple windows need
   redisplays posted at the same times. */
void GLUTAPIENTRY
glutPostWindowOverlayRedisplay(int win)
{
  __glutPostRedisplay(__glutWindowList[win - 1], GLUT_OVERLAY_REDISPLAY_WORK);
}

void GLUTAPIENTRY
glutOverlayDisplayFunc(GLUTdisplayCB displayFunc)
{
  if (!__glutCurrentWindow->overlay) {
    __glutWarning("glutOverlayDisplayFunc: window has no overlay established");
    return;
  }
  __glutCurrentWindow->overlay->display = displayFunc;
}

void GLUTAPIENTRY
glutHideOverlay(void)
{
  if (!__glutCurrentWindow->overlay) {
    __glutWarning("glutHideOverlay: window has no overlay established");
    return;
  }
  XUnmapWindow(__glutDisplay, __glutCurrentWindow->overlay->win);
  __glutCurrentWindow->overlay->shownState = 0;
}

void GLUTAPIENTRY
glutShowOverlay(void)
{
  if (!__glutCurrentWindow->overlay) {
    __glutWarning("glutShowOverlay: window has no overlay established");
    return;
  }
  XMapWindow(__glutDisplay, __glutCurrentWindow->overlay->win);
  __glutCurrentWindow->overlay->shownState = 1;
}

int GLUTAPIENTRY
glutLayerGet(GLenum param)
{
  switch (param) {
  case GLUT_OVERLAY_POSSIBLE:
    {
      XVisualInfo *vi;
      Bool dummy, visAlloced;
      void *fbc;

      vi = determineOverlayVisual(&dummy, &visAlloced, &fbc);
      if (vi) {
        if (visAlloced)
          XFree(vi);
        return 1;
      }
      return 0;
    }
  case GLUT_LAYER_IN_USE:
    return __glutCurrentWindow->renderWin != __glutCurrentWindow->win;
  case GLUT_HAS_OVERLAY:
    return __glutCurrentWindow->overlay != NULL;
  case GLUT_TRANSPARENT_INDEX:
    if (__glutCurrentWindow->overlay) {
      return __glutCurrentWindow->overlay->transparentPixel;
    } else {
      return -1;
    }
  case GLUT_NORMAL_DAMAGED:
    /* __glutWindowDamaged is used so the damage state within
       the window (or overlay belwo) can be cleared before
       calling a display callback so on return, the state does
       not have to be cleared (since upon return from the
       callback the window could be destroyed (or layer
       removed). */
    return (__glutCurrentWindow->workMask & GLUT_REPAIR_WORK)
      || __glutWindowDamaged;
  case GLUT_OVERLAY_DAMAGED:
    if (__glutCurrentWindow->overlay) {
      return (__glutCurrentWindow->workMask & GLUT_OVERLAY_REPAIR_WORK)
        || __glutWindowDamaged;
    } else {
      return -1;
    }
  default:
    __glutWarning("invalid glutLayerGet param: %d", param);
    return -1;
  }
}
/* ENDCENTRY */