From a4dcdcf0ffae4c6cf52354fbd63c95d7d7815fd9 Mon Sep 17 00:00:00 2001 From: Brian Paul Date: Thu, 19 Aug 1999 13:57:42 +0000 Subject: initial check-in (post crash) --- src/glut/glx/glut_overlay.c | 607 ++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 607 insertions(+) create mode 100644 src/glut/glx/glut_overlay.c (limited to 'src/glut/glx/glut_overlay.c') diff --git a/src/glut/glx/glut_overlay.c b/src/glut/glx/glut_overlay.c new file mode 100644 index 0000000000..13ece12a15 --- /dev/null +++ b/src/glut/glx/glut_overlay.c @@ -0,0 +1,607 @@ + +/* 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. */ + +#include +#include +#include +#include + +#if !defined(_WIN32) +#include +#include +#include /* for XA_RGB_DEFAULT_MAP atom */ +#if defined (__vms) +#include /* for XmuLookupStandardColormap */ +#else +#include /* 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 APIENTRY +glutEstablishOverlay(void) +{ + GLUToverlay *overlay; + GLUTwindow *window; + XSetWindowAttributes wa; +#if defined(GLX_VERSION_1_1) && defined(GLX_SGIX_fbconfig) + GLXFBConfigSGIX fbc; +#else + void *fbc; +#endif + + /* 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, (void **) &fbc); + if (!overlay->vis) { + __glutFatalError("lacks overlay support."); + } +#if defined(GLX_VERSION_1_1) && defined(GLX_SGIX_fbconfig) + if (fbc) { + window->ctx = 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 APIENTRY +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 APIENTRY +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 APIENTRY +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 APIENTRY +glutPostWindowOverlayRedisplay(int win) +{ + __glutPostRedisplay(__glutWindowList[win - 1], GLUT_OVERLAY_REDISPLAY_WORK); +} + +void APIENTRY +glutOverlayDisplayFunc(GLUTdisplayCB displayFunc) +{ + if (!__glutCurrentWindow->overlay) { + __glutWarning("glutOverlayDisplayFunc: window has no overlay established"); + return; + } + __glutCurrentWindow->overlay->display = displayFunc; +} + +void APIENTRY +glutHideOverlay(void) +{ + if (!__glutCurrentWindow->overlay) { + __glutWarning("glutHideOverlay: window has no overlay established"); + return; + } + XUnmapWindow(__glutDisplay, __glutCurrentWindow->overlay->win); + __glutCurrentWindow->overlay->shownState = 0; +} + +void APIENTRY +glutShowOverlay(void) +{ + if (!__glutCurrentWindow->overlay) { + __glutWarning("glutShowOverlay: window has no overlay established"); + return; + } + XMapWindow(__glutDisplay, __glutCurrentWindow->overlay->win); + __glutCurrentWindow->overlay->shownState = 1; +} + +int APIENTRY +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 */ -- cgit v1.2.3