/* $Id: togl.c,v 1.73 2005/10/26 07:40:22 gregcouch Exp $ */ /* vi:set sw=4: */ /* * Togl - a Tk OpenGL widget * * Copyright (C) 1996-2002 Brian Paul and Ben Bederson * See the LICENSE file for copyright details. */ /* * Currently we support X11, Win32 and Macintosh only */ #include "togl.h" /* Use TCL_STUPID to cast (const char *) to (char *) where the Tcl function * prototype argument should really be const */ #define TCL_STUPID (char *) /* Use WIDGREC to cast widgRec arguments */ #define WIDGREC (char *) /*** Windows headers ***/ #if defined(TOGL_WGL) # define WIN32_LEAN_AND_MEAN # include # undef WIN32_LEAN_AND_MEAN # include /*** X Window System headers ***/ #elif defined(TOGL_X11) # include # include # include /* for XA_RGB_DEFAULT_MAP atom */ # if defined(__vms) # include /* for XmuLookupStandardColormap */ # else # include /* for XmuLookupStandardColormap */ # endif # include /*** Mac headers ***/ #elif defined(TOGL_AGL_CLASSIC) # include # include # include # include #elif defined(TOGL_AGL) # define Cursor QDCursor # include # undef Cursor # include "tkMacOSX.h" # include /* usa MacDrawable */ # include #else /* make sure only one platform defined */ # error Unsupported platform, or confused platform defines... #endif /*** Standard C headers ***/ #include #include #include #ifdef TOGL_WGL # include #endif #if TK_MAJOR_VERSION < 8 # error Sorry Togl requires Tcl/Tk ver 8.0 or higher. #endif #if defined(TOGL_AGL_CLASSIC) # if TK_MAJOR_VERSION < 8 || (TK_MAJOR_VERSION == 8 && TK_MINOR_VERSION < 3) # error Sorry Mac classic version requires Tcl/Tk ver 8.3.0 or higher. # endif #endif /* TOGL_AGL_CLASSIC */ #if defined(TOGL_AGL) # if TK_MAJOR_VERSION < 8 || (TK_MAJOR_VERSION == 8 && TK_MINOR_VERSION < 4) # error Sorry Mac Aqua version requires Tcl/Tk ver 8.4.0 or higher. # endif #endif /* TOGL_AGL */ /* workaround for bug #123153 in tcl ver8.4a2 (tcl.h) */ #if defined(Tcl_InitHashTable) && defined(USE_TCL_STUBS) # undef Tcl_InitHashTable # define Tcl_InitHashTable (tclStubsPtr->tcl_InitHashTable) #endif #if TK_MAJOR_VERSION > 8 || (TK_MAJOR_VERSION == 8 && TK_MINOR_VERSION >= 4) # define HAVE_TK_SETCLASSPROCS /* pointer to Tk_SetClassProcs function in the stub table */ static void (*SetClassProcsPtr) _ANSI_ARGS_((Tk_Window, Tk_ClassProcs *, ClientData)); #endif /* * Copy of TkClassProcs declarations form tkInt.h * (this is needed for Tcl ver =< 8.4a3) */ typedef Window (TkClassCreateProc) _ANSI_ARGS_((Tk_Window tkwin, Window parent, ClientData instanceData)); typedef void (TkClassGeometryProc) _ANSI_ARGS_((ClientData instanceData)); typedef void (TkClassModalProc) _ANSI_ARGS_((Tk_Window tkwin, XEvent *eventPtr)); typedef struct TkClassProcs { TkClassCreateProc *createProc; TkClassGeometryProc *geometryProc; TkClassModalProc *modalProc; } TkClassProcs; /* Defaults */ #define DEFAULT_WIDTH "400" #define DEFAULT_HEIGHT "400" #define DEFAULT_IDENT "" #define DEFAULT_FONTNAME "fixed" #define DEFAULT_TIME "1" #ifdef TOGL_WGL /* Maximum size of a logical palette corresponding to a colormap in color index * mode. */ # define MAX_CI_COLORMAP_SIZE 4096 # if TOGL_USE_FONTS != 1 /* * copy of TkWinColormap from tkWinInt.h */ typedef struct { HPALETTE palette; /* Palette handle used when drawing. */ UINT size; /* Number of entries in the palette. */ int stale; /* 1 if palette needs to be realized, otherwise * 0. If the palette is stale, then an idle * handler is scheduled to realize the palette. */ Tcl_HashTable refCounts; /* Hash table of palette entry reference counts * indexed by pixel value. */ } TkWinColormap; # else # include "tkWinInt.h" # endif static LRESULT(CALLBACK *tkWinChildProc) (HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam) = NULL; # define TK_WIN_CHILD_CLASS_NAME "TkChild" #endif /* TOGL_WGL */ #define MAX(a,b) (((a)>(b))?(a):(b)) #define TCL_ERR(interp, string) \ do { \ Tcl_ResetResult(interp); \ Tcl_AppendResult(interp, string, NULL); \ return TCL_ERROR; \ } while (0) /* The constant DUMMY_WINDOW is used to signal window creation failure from the * Togl_CreateWindow() */ #define DUMMY_WINDOW ((Window) -1) #define ALL_EVENTS_MASK \ (KeyPressMask | \ KeyReleaseMask | \ ButtonPressMask | \ ButtonReleaseMask | \ EnterWindowMask | \ LeaveWindowMask | \ PointerMotionMask | \ ExposureMask | \ VisibilityChangeMask | \ FocusChangeMask | \ PropertyChangeMask | \ ColormapChangeMask) struct Togl { Togl *Next; /* next in linked list */ #if defined(TOGL_WGL) HDC tglGLHdc; /* Device context of device that OpenGL calls * will be drawn on */ HGLRC tglGLHglrc; /* OpenGL rendering context to be made current */ int CiColormapSize; /* (Maximum) size of colormap in color index * mode */ #elif defined(TOGL_X11) GLXContext GlCtx; /* Normal planes GLX context */ #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) AGLContext aglCtx; #endif /* TOGL_WGL */ Display *display; /* X's token for the window's display. */ Tk_Window TkWin; /* Tk window structure */ Tcl_Interp *Interp; /* Tcl interpreter */ Tcl_Command widgetCmd; /* Token for togl's widget command */ #ifndef NO_TK_CURSOR Tk_Cursor Cursor; /* The widget's cursor */ #endif int Width, Height; /* Dimensions of window */ int SetGrid; /* positive is grid size for window manager */ int TimerInterval; /* Time interval for timer in milliseconds */ #if (TCL_MAJOR_VERSION * 100 + TCL_MINOR_VERSION) >= 705 Tcl_TimerToken timerHandler; /* Token for togl's timer handler */ #else Tk_TimerToken timerHandler; /* Token for togl's timer handler */ #endif Bool RgbaFlag; /* configuration flags (ala GLX parameters) */ int RgbaRed; int RgbaGreen; int RgbaBlue; Bool DoubleFlag; Bool DepthFlag; int DepthSize; Bool AccumFlag; int AccumRed; int AccumGreen; int AccumBlue; int AccumAlpha; Bool AlphaFlag; int AlphaSize; Bool StencilFlag; int StencilSize; Bool PrivateCmapFlag; Bool OverlayFlag; Bool StereoFlag; #ifdef __sgi Bool OldStereoFlag; #endif int AuxNumber; Bool Indirect; int PixelFormat; const char *ShareList; /* name (ident) of Togl to share dlists with */ const char *ShareContext; /* name (ident) to share OpenGL context with */ const char *Ident; /* User's identification string */ ClientData Client_Data; /* Pointer to user data */ Bool UpdatePending; /* Should normal planes be redrawn? */ Togl_Callback *CreateProc; /* Callback when widget is created */ Togl_Callback *DisplayProc; /* Callback when widget is rendered */ Togl_Callback *ReshapeProc; /* Callback when window size changes */ Togl_Callback *DestroyProc; /* Callback when widget is destroyed */ Togl_Callback *TimerProc; /* Callback when widget is idle */ /* Overlay stuff */ #if defined(TOGL_X11) GLXContext OverlayCtx; /* Overlay planes OpenGL context */ #elif defined(TOGL_WGL) HGLRC tglGLOverlayHglrc; #endif /* TOGL_X11 */ Window OverlayWindow; /* The overlay window, or 0 */ Togl_Callback *OverlayDisplayProc; /* Overlay redraw proc */ Bool OverlayUpdatePending; /* Should overlay be redrawn? */ Colormap OverlayCmap; /* colormap for overlay is created */ int OverlayTransparentPixel; /* transparent pixel */ Bool OverlayIsMapped; /* for DumpToEpsFile: Added by Miguel A. de Riera Pasenau 10.01.1997 */ XVisualInfo *VisInfo; /* Visual info of the current */ /* context needed for DumpToEpsFile */ GLfloat *EpsRedMap; /* Index2RGB Maps for Color index modes */ GLfloat *EpsGreenMap; GLfloat *EpsBlueMap; GLint EpsMapSize; /* = Number of indices in our Togl */ }; /* NTNTNT need to change to handle Windows Data Types */ /* * Prototypes for functions local to this file */ static int Togl_Cmd(ClientData clientData, Tcl_Interp *interp, int argc, CONST84 char **argv); static void Togl_EventProc(ClientData clientData, XEvent *eventPtr); static Window Togl_CreateWindow(Tk_Window, Window, ClientData); static void Togl_WorldChanged(ClientData); #ifdef MESA_COLOR_HACK static int get_free_color_cells(Display *display, int screen, Colormap colormap); static void free_default_color_cells(Display *display, Colormap colormap); #endif static void ToglCmdDeletedProc(ClientData); #if defined(__sgi) /* SGI-only stereo */ static void oldStereoMakeCurrent(Display *dpy, Window win, GLXContext ctx); static void oldStereoInit(Togl *togl, int stereoEnabled); #endif #if defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) static void SetMacBufRect(Togl *togl); #endif /* * Setup Togl widget configuration options: */ static Tk_ConfigSpec configSpecs[] = { {TK_CONFIG_PIXELS, TCL_STUPID "-height", "height", "Height", DEFAULT_HEIGHT, Tk_Offset(Togl, Height), 0, NULL}, {TK_CONFIG_PIXELS, TCL_STUPID "-width", "width", "Width", DEFAULT_WIDTH, Tk_Offset(Togl, Width), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-setgrid", "setGrid", "SetGrid", "0", Tk_Offset(Togl, SetGrid), 0}, {TK_CONFIG_BOOLEAN, TCL_STUPID "-rgba", "rgba", "Rgba", "true", Tk_Offset(Togl, RgbaFlag), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-redsize", "redsize", "RedSize", "1", Tk_Offset(Togl, RgbaRed), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-greensize", "greensize", "GreenSize", "1", Tk_Offset(Togl, RgbaGreen), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-bluesize", "bluesize", "BlueSize", "1", Tk_Offset(Togl, RgbaBlue), 0, NULL}, {TK_CONFIG_BOOLEAN, TCL_STUPID "-double", "double", "Double", "false", Tk_Offset(Togl, DoubleFlag), 0, NULL}, {TK_CONFIG_BOOLEAN, TCL_STUPID "-depth", "depth", "Depth", "false", Tk_Offset(Togl, DepthFlag), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-depthsize", "depthsize", "DepthSize", "1", Tk_Offset(Togl, DepthSize), 0, NULL}, {TK_CONFIG_BOOLEAN, TCL_STUPID "-accum", "accum", "Accum", "false", Tk_Offset(Togl, AccumFlag), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-accumredsize", "accumredsize", "AccumRedSize", "1", Tk_Offset(Togl, AccumRed), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-accumgreensize", "accumgreensize", "AccumGreenSize", "1", Tk_Offset(Togl, AccumGreen), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-accumbluesize", "accumbluesize", "AccumBlueSize", "1", Tk_Offset(Togl, AccumBlue), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-accumalphasize", "accumalphasize", "AccumAlphaSize", "1", Tk_Offset(Togl, AccumAlpha), 0, NULL}, {TK_CONFIG_BOOLEAN, TCL_STUPID "-alpha", "alpha", "Alpha", "false", Tk_Offset(Togl, AlphaFlag), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-alphasize", "alphasize", "AlphaSize", "1", Tk_Offset(Togl, AlphaSize), 0, NULL}, {TK_CONFIG_BOOLEAN, TCL_STUPID "-stencil", "stencil", "Stencil", "false", Tk_Offset(Togl, StencilFlag), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-stencilsize", "stencilsize", "StencilSize", "1", Tk_Offset(Togl, StencilSize), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-auxbuffers", "auxbuffers", "AuxBuffers", "0", Tk_Offset(Togl, AuxNumber), 0, NULL}, {TK_CONFIG_BOOLEAN, TCL_STUPID "-privatecmap", "privateCmap", "PrivateCmap", "false", Tk_Offset(Togl, PrivateCmapFlag), 0, NULL}, {TK_CONFIG_BOOLEAN, TCL_STUPID "-overlay", "overlay", "Overlay", "false", Tk_Offset(Togl, OverlayFlag), 0, NULL}, {TK_CONFIG_BOOLEAN, TCL_STUPID "-stereo", "stereo", "Stereo", "false", Tk_Offset(Togl, StereoFlag), 0, NULL}, #ifdef __sgi {TK_CONFIG_BOOLEAN, TCL_STUPID "-oldstereo", "oldstereo", "OldStereo", "false", Tk_Offset(Togl, OldStereoFlag), 0, NULL}, #endif #ifndef NO_TK_CURSOR {TK_CONFIG_ACTIVE_CURSOR, TCL_STUPID "-cursor", "cursor", "Cursor", "", Tk_Offset(Togl, Cursor), TK_CONFIG_NULL_OK}, #endif {TK_CONFIG_INT, TCL_STUPID "-time", "time", "Time", DEFAULT_TIME, Tk_Offset(Togl, TimerInterval), 0, NULL}, {TK_CONFIG_STRING, TCL_STUPID "-sharelist", "sharelist", "ShareList", NULL, Tk_Offset(Togl, ShareList), 0, NULL}, {TK_CONFIG_STRING, TCL_STUPID "-sharecontext", "sharecontext", "ShareContext", NULL, Tk_Offset(Togl, ShareContext), 0, NULL}, {TK_CONFIG_STRING, TCL_STUPID "-ident", "ident", "Ident", DEFAULT_IDENT, Tk_Offset(Togl, Ident), 0, NULL}, {TK_CONFIG_BOOLEAN, TCL_STUPID "-indirect", "indirect", "Indirect", "false", Tk_Offset(Togl, Indirect), 0, NULL}, {TK_CONFIG_INT, TCL_STUPID "-pixelformat", "pixelFormat", "PixelFormat", "0", Tk_Offset(Togl, PixelFormat), 0, NULL}, {TK_CONFIG_END, NULL, NULL, NULL, NULL, 0, 0, NULL} }; /* * Default callback pointers. When a new Togl widget is created it * will be assigned these initial callbacks. */ static Togl_Callback *DefaultCreateProc = NULL; static Togl_Callback *DefaultDisplayProc = NULL; static Togl_Callback *DefaultReshapeProc = NULL; static Togl_Callback *DefaultDestroyProc = NULL; static Togl_Callback *DefaultOverlayDisplayProc = NULL; static Togl_Callback *DefaultTimerProc = NULL; static ClientData DefaultClientData = NULL; static Tcl_HashTable CommandTable; /* * Head of linked list of all Togl widgets */ static Togl *ToglHead = NULL; /* * Add given togl widget to linked list. */ static void AddToList(Togl *t) { t->Next = ToglHead; ToglHead = t; } /* * Remove given togl widget from linked list. */ static void RemoveFromList(Togl *t) { Togl *prev = NULL; Togl *pos = ToglHead; while (pos) { if (pos == t) { if (prev) { prev->Next = pos->Next; } else { ToglHead = pos->Next; } return; } prev = pos; pos = pos->Next; } } /* * Return pointer to togl widget given a user identifier string. */ static Togl * FindTogl(const char *ident) { Togl *t = ToglHead; while (t) { if (strcmp(t->Ident, ident) == 0) return t; t = t->Next; } return NULL; } #if defined(TOGL_X11) /* * Return pointer to another togl widget with same OpenGL context. */ static Togl * FindToglWithSameContext(Togl *togl) { Togl *t; for (t = ToglHead; t != NULL; t = t->Next) { if (t == togl) continue; # if defined(TOGL_WGL) if (t->tglGLHglrc == togl->tglGLHglrc) # elif defined(TOGL_X11) if (t->GlCtx == togl->GlCtx) # elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) if (t->aglCtx == togl->aglCtx) # endif return t; } return NULL; } #endif #ifdef USE_OVERLAY /* * Return pointer to another togl widget with same OpenGL overlay context. */ static Togl * FindToglWithSameOverlayContext(Togl *togl) { Togl *t; for (t = ToglHead; t != NULL; t = t->Next) { if (t == togl) continue; # if defined(TOGL_X11) if (t->OverlayCtx == togl->OverlayCtx) # elif defined(TOGL_WGL) if (t->tglGLOverlayHglrc == togl->tglGLOverlayHglrc) # endif return t; } return NULL; } #endif #if defined(TOGL_X11) /* * Return an X colormap to use for OpenGL RGB-mode rendering. * Input: dpy - the X display * scrnum - the X screen number * visinfo - the XVisualInfo as returned by glXChooseVisual() * Return: an X Colormap or 0 if there's a _serious_ error. */ static Colormap get_rgb_colormap(Display *dpy, int scrnum, const XVisualInfo *visinfo, Tk_Window tkwin) { Atom hp_cr_maps; Status status; int numCmaps; int i; XStandardColormap *standardCmaps; Window root = XRootWindow(dpy, scrnum); Bool using_mesa; /* * First check if visinfo's visual matches the default/root visual. */ if (visinfo->visual == Tk_Visual(tkwin)) { /* use the default/root colormap */ Colormap cmap; cmap = Tk_Colormap(tkwin); # ifdef MESA_COLOR_HACK (void) get_free_color_cells(dpy, scrnum, cmap); # endif return cmap; } /* * Check if we're using Mesa. */ if (strstr(glXQueryServerString(dpy, scrnum, GLX_VERSION), "Mesa")) { using_mesa = True; } else { using_mesa = False; } /* * Next, if we're using Mesa and displaying on an HP with the "Color * Recovery" feature and the visual is 8-bit TrueColor, search for a * special colormap initialized for dithering. Mesa will know how to * dither using this colormap. */ if (using_mesa) { hp_cr_maps = XInternAtom(dpy, "_HP_RGB_SMOOTH_MAP_LIST", True); if (hp_cr_maps # ifdef __cplusplus && visinfo->visual->c_class == TrueColor # else && visinfo->visual->class == TrueColor # endif && visinfo->depth == 8) { status = XGetRGBColormaps(dpy, root, &standardCmaps, &numCmaps, hp_cr_maps); if (status) { for (i = 0; i < numCmaps; i++) { if (standardCmaps[i].visualid == visinfo->visual->visualid) { Colormap cmap = standardCmaps[i].colormap; (void) XFree(standardCmaps); return cmap; } } (void) XFree(standardCmaps); } } } /* * Next, try to find a standard X colormap. */ # if !HP && !SUN # ifndef SOLARIS_BUG status = XmuLookupStandardColormap(dpy, visinfo->screen, visinfo->visualid, visinfo->depth, XA_RGB_DEFAULT_MAP, /* replace */ False, /* retain */ True); if (status == 1) { status = XGetRGBColormaps(dpy, root, &standardCmaps, &numCmaps, XA_RGB_DEFAULT_MAP); if (status == 1) { for (i = 0; i < numCmaps; i++) { if (standardCmaps[i].visualid == visinfo->visualid) { Colormap cmap = standardCmaps[i].colormap; (void) XFree(standardCmaps); return cmap; } } (void) XFree(standardCmaps); } } # endif # endif /* * If we get here, give up and just allocate a new colormap. */ return XCreateColormap(dpy, root, visinfo->visual, AllocNone); } #elif defined(TOGL_WGL) /* Code to create RGB palette is taken from the GENGL sample program of Win32 * SDK */ static unsigned char threeto8[8] = { 0, 0111 >> 1, 0222 >> 1, 0333 >> 1, 0444 >> 1, 0555 >> 1, 0666 >> 1, 0377 }; static unsigned char twoto8[4] = { 0, 0x55, 0xaa, 0xff }; static unsigned char oneto8[2] = { 0, 255 }; static int defaultOverride[13] = { 0, 3, 24, 27, 64, 67, 88, 173, 181, 236, 247, 164, 91 }; static PALETTEENTRY defaultPalEntry[20] = { {0, 0, 0, 0}, {0x80, 0, 0, 0}, {0, 0x80, 0, 0}, {0x80, 0x80, 0, 0}, {0, 0, 0x80, 0}, {0x80, 0, 0x80, 0}, {0, 0x80, 0x80, 0}, {0xC0, 0xC0, 0xC0, 0}, {192, 220, 192, 0}, {166, 202, 240, 0}, {255, 251, 240, 0}, {160, 160, 164, 0}, {0x80, 0x80, 0x80, 0}, {0xFF, 0, 0, 0}, {0, 0xFF, 0, 0}, {0xFF, 0xFF, 0, 0}, {0, 0, 0xFF, 0}, {0xFF, 0, 0xFF, 0}, {0, 0xFF, 0xFF, 0}, {0xFF, 0xFF, 0xFF, 0} }; static unsigned char ComponentFromIndex(int i, UINT nbits, UINT shift) { unsigned char val; val = (unsigned char) (i >> shift); switch (nbits) { case 1: val &= 0x1; return oneto8[val]; case 2: val &= 0x3; return twoto8[val]; case 3: val &= 0x7; return threeto8[val]; default: return 0; } } static Colormap Win32CreateRgbColormap(PIXELFORMATDESCRIPTOR pfd) { TkWinColormap *cmap = (TkWinColormap *) ckalloc(sizeof (TkWinColormap)); LOGPALETTE *pPal; int n, i; n = 1 << pfd.cColorBits; pPal = (PLOGPALETTE) LocalAlloc(LMEM_FIXED, sizeof (LOGPALETTE) + n * sizeof (PALETTEENTRY)); pPal->palVersion = 0x300; pPal->palNumEntries = n; for (i = 0; i < n; i++) { pPal->palPalEntry[i].peRed = ComponentFromIndex(i, pfd.cRedBits, pfd.cRedShift); pPal->palPalEntry[i].peGreen = ComponentFromIndex(i, pfd.cGreenBits, pfd.cGreenShift); pPal->palPalEntry[i].peBlue = ComponentFromIndex(i, pfd.cBlueBits, pfd.cBlueShift); pPal->palPalEntry[i].peFlags = 0; } /* fix up the palette to include the default GDI palette */ if ((pfd.cColorBits == 8) && (pfd.cRedBits == 3) && (pfd.cRedShift == 0) && (pfd.cGreenBits == 3) && (pfd.cGreenShift == 3) && (pfd.cBlueBits == 2) && (pfd.cBlueShift == 6)) { for (i = 1; i <= 12; i++) pPal->palPalEntry[defaultOverride[i]] = defaultPalEntry[i]; } cmap->palette = CreatePalette(pPal); LocalFree(pPal); cmap->size = n; cmap->stale = 0; /* Since this is a private colormap of a fix size, we do not need a valid * hash table, but a dummy one */ Tcl_InitHashTable(&cmap->refCounts, TCL_ONE_WORD_KEYS); return (Colormap) cmap; } static Colormap Win32CreateCiColormap(Togl *togl) { /* Create a colormap with size of togl->CiColormapSize and set all entries * to black */ LOGPALETTE logPalette; TkWinColormap *cmap = (TkWinColormap *) ckalloc(sizeof (TkWinColormap)); logPalette.palVersion = 0x300; logPalette.palNumEntries = 1; logPalette.palPalEntry[0].peRed = 0; logPalette.palPalEntry[0].peGreen = 0; logPalette.palPalEntry[0].peBlue = 0; logPalette.palPalEntry[0].peFlags = 0; cmap->palette = CreatePalette(&logPalette); cmap->size = togl->CiColormapSize; ResizePalette(cmap->palette, cmap->size); /* sets new entries to black */ cmap->stale = 0; /* Since this is a private colormap of a fix size, we do not need a valid * hash table, but a dummy one */ Tcl_InitHashTable(&cmap->refCounts, TCL_ONE_WORD_KEYS); return (Colormap) cmap; } #endif /* TOGL_X11 */ /* * Togl_Init * * Called upon system startup to create Togl command. */ int Togl_Init(Tcl_Interp *interp) { int major, minor, patchLevel, releaseType; #ifdef USE_TCL_STUBS if (Tcl_InitStubs(interp, "8.1", 0) == NULL) { return TCL_ERROR; } #endif #ifdef USE_TK_STUBS if (Tk_InitStubs(interp, TCL_STUPID "8.1", 0) == NULL) { return TCL_ERROR; } #endif /* Skip all this on Tcl/Tk 8.0 or older. Seems to work */ #if TCL_MAJOR_VERSION * 100 + TCL_MINOR_VERSION > 800 Tcl_GetVersion(&major, &minor, &patchLevel, &releaseType); # ifdef HAVE_TK_SETCLASSPROCS if (major > 8 || (major == 8 && (minor > 4 || (minor == 4 && (releaseType > 0 || patchLevel >= 2))))) { # ifdef USE_TK_STUBS SetClassProcsPtr = tkStubsPtr->tk_SetClassProcs; # else SetClassProcsPtr = Tk_SetClassProcs; # endif } else { SetClassProcsPtr = NULL; } # else if (major > 8 || (major == 8 && (minor > 4 || (minor == 4 && (releaseType > 0 || patchLevel >= 2))))) { TCL_ERR(interp, "Sorry, this instance of Togl was not compiled to work with Tcl/Tk 8.4a2 or higher."); } # endif #endif if (Tcl_PkgProvide(interp, "Togl", TOGL_VERSION) != TCL_OK) { return TCL_ERROR; } if (Tcl_CreateCommand(interp, "togl", Togl_Cmd, (ClientData) Tk_MainWindow(interp), NULL) == NULL) return TCL_ERROR; Tcl_InitHashTable(&CommandTable, TCL_STRING_KEYS); return TCL_OK; } /* * Register a C function to be called when an Togl widget is realized. */ void Togl_CreateFunc(Togl_Callback *proc) { DefaultCreateProc = proc; } /* * Register a C function to be called when an Togl widget must be redrawn. */ void Togl_DisplayFunc(Togl_Callback *proc) { DefaultDisplayProc = proc; } /* * Register a C function to be called when an Togl widget is resized. */ void Togl_ReshapeFunc(Togl_Callback *proc) { DefaultReshapeProc = proc; } /* * Register a C function to be called when an Togl widget is destroyed. */ void Togl_DestroyFunc(Togl_Callback *proc) { DefaultDestroyProc = proc; } /* * Register a C function to be called from TimerEventHandler. */ void Togl_TimerFunc(Togl_Callback *proc) { DefaultTimerProc = proc; } /* * Reset default callback pointers to NULL. */ void Togl_ResetDefaultCallbacks(void) { DefaultCreateProc = NULL; DefaultDisplayProc = NULL; DefaultReshapeProc = NULL; DefaultDestroyProc = NULL; DefaultOverlayDisplayProc = NULL; DefaultTimerProc = NULL; DefaultClientData = NULL; } /* * Chnage the create callback for a specific Togl widget. */ void Togl_SetCreateFunc(Togl *togl, Togl_Callback *proc) { togl->CreateProc = proc; } /* * Change the display/redraw callback for a specific Togl widget. */ void Togl_SetDisplayFunc(Togl *togl, Togl_Callback *proc) { togl->DisplayProc = proc; } /* * Change the reshape callback for a specific Togl widget. */ void Togl_SetReshapeFunc(Togl *togl, Togl_Callback *proc) { togl->ReshapeProc = proc; } /* * Change the destroy callback for a specific Togl widget. */ void Togl_SetDestroyFunc(Togl *togl, Togl_Callback *proc) { togl->DestroyProc = proc; } /* * Togl_Timer * * Gets called from Tk_CreateTimerHandler. */ static void Togl_Timer(ClientData clientData) { Togl *togl = (Togl *) clientData; if (togl->TimerProc) { togl->TimerProc(togl); /* Re-register this callback since Tcl/Tk timers are "one-shot". That * is, after the timer callback is called it not normally called again. * * * * * * * * * That's not the behavior we want for Togl. */ #if (TK_MAJOR_VERSION * 100 + TK_MINOR_VERSION) >= 401 togl->timerHandler = Tcl_CreateTimerHandler(togl->TimerInterval, Togl_Timer, (ClientData) togl); #else togl->timerHandler = Tk_CreateTimerHandler(togl->TimeInterval, Togl_Timer, (ClientData) togl); #endif } } /* * Change the timer callback for a specific Togl widget. * Pass NULL to disable the callback. */ void Togl_SetTimerFunc(Togl *togl, Togl_Callback *proc) { togl->TimerProc = proc; if (proc) { #if (TK_MAJOR_VERSION * 100 + TK_MINOR_VERSION) >= 401 togl->timerHandler = Tcl_CreateTimerHandler(togl->TimerInterval, Togl_Timer, (ClientData) togl); #else togl->timerHandler = Tk_CreateTimerHandler(togl->TimeInterval, Togl_Timer, (ClientData) togl); #endif } } /* * Togl_CreateCommand * * Declares a new C sub-command of Togl callable from Tcl. * Every time the sub-command is called from Tcl, the * C routine will be called with all the arguments from Tcl. */ void Togl_CreateCommand(char *cmd_name, Togl_CmdProc *cmd_proc) { int new_item; Tcl_HashEntry *entry; entry = Tcl_CreateHashEntry(&CommandTable, cmd_name, &new_item); Tcl_SetHashValue(entry, cmd_proc); } /* * Togl_MakeCurrent * * Bind the OpenGL rendering context to the specified * Togl widget. */ void Togl_MakeCurrent(const Togl *togl) { #if defined(TOGL_WGL) int res = wglMakeCurrent(togl->tglGLHdc, togl->tglGLHglrc); assert(res == TRUE); #elif defined(TOGL_X11) if (!togl->GlCtx) return; (void) glXMakeCurrent(togl->display, togl->TkWin ? Tk_WindowId(togl->TkWin) : None, togl->GlCtx); # if defined(__sgi) if (togl->OldStereoFlag) oldStereoMakeCurrent(togl->display, togl->TkWin ? Tk_WindowId(togl->TkWin) : None, togl->GlCtx); # endif /*__sgi STEREO */ #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) if (!togl->aglCtx) return; aglSetCurrentContext(togl->aglCtx); #endif } #ifdef TOGL_AGL_CLASSIC /* tell OpenGL which part of the Mac window to render to */ static void SetMacBufRect(Togl *togl) { GLint wrect[4]; /* set wrect[0,1] to lower left corner of widget */ wrect[2] = ((TkWindow *) (togl->TkWin))->changes.width; wrect[3] = ((TkWindow *) (togl->TkWin))->changes.height; wrect[0] = ((TkWindow *) (togl->TkWin))->privatePtr->xOff; wrect[1] = ((TkWindow *) (togl->TkWin))->privatePtr->toplevel->portPtr-> portRect.bottom - wrect[3] - ((TkWindow *) (togl->TkWin))->privatePtr->yOff; aglSetInteger(togl->aglCtx, AGL_BUFFER_RECT, wrect); aglEnable(togl->aglCtx, AGL_BUFFER_RECT); aglUpdateContext(togl->aglCtx); } #elif defined(TOGL_AGL) /* tell OpenGL which part of the Mac window to render to */ static void SetMacBufRect(Togl *togl) { GLint wrect[4]; /* set wrect[0,1] to lower left corner of widget */ wrect[2] = Tk_Width(togl->TkWin); wrect[3] = Tk_Height(togl->TkWin); wrect[0] = ((TkWindow *) (togl->TkWin))->privatePtr->xOff; Rect r; GetPortBounds(((TkWindow *) (togl->TkWin))->privatePtr->toplevel->grafPtr, &r); wrect[1] = r.bottom - wrect[3] - ((TkWindow *) (togl->TkWin))->privatePtr->yOff; aglSetInteger(togl->aglCtx, AGL_BUFFER_RECT, wrect); aglEnable(togl->aglCtx, AGL_BUFFER_RECT); aglUpdateContext(togl->aglCtx); } #endif /* * Called when the widget's contents must be redrawn. Basically, we * just call the user's render callback function. * * Note that the parameter type is ClientData so this function can be * passed to Tk_DoWhenIdle(). */ static void Togl_Render(ClientData clientData) { Togl *togl = (Togl *) clientData; if (togl->DisplayProc) { #ifdef TOGL_AGL_CLASSIC /* Mac is complicated here because OpenGL needs to know what part of * the parent window to render into, and it seems that region need to * be invalidated before drawing, so that QuickDraw will allow OpenGL * to transfer pixels into that part of the window. I'm not even * totally sure how or why this works as it does, since this aspect of * Mac OpenGL seems to be totally undocumented. This was put together * by trial and error! (thiessen) */ MacRegion r; RgnPtr rp = &r; GrafPtr curPort, parentWin; parentWin = (GrafPtr) (((MacDrawable *) (Tk_WindowId(togl->TkWin)))->toplevel-> portPtr); if (!parentWin) return; #endif Togl_MakeCurrent(togl); #ifdef TOGL_AGL_CLASSIC /* Set QuickDraw port and clipping region */ GetPort(&curPort); SetPort(parentWin); r.rgnBBox.left = ((TkWindow *) (togl->TkWin))->privatePtr->xOff; r.rgnBBox.right = r.rgnBBox.left + ((TkWindow *) (togl->TkWin))->changes.width - 1; r.rgnBBox.top = ((TkWindow *) (togl->TkWin))->privatePtr->yOff; r.rgnBBox.bottom = r.rgnBBox.top + ((TkWindow *) (togl->TkWin))->changes.height - 1; r.rgnSize = sizeof (Region); InvalRgn(&rp); SetClip(&rp); /* this may seem an odd place to put this, with possibly redundant * calls to aglSetInteger(AGL_BUFFER_RECT...), but for some reason * performance is actually a lot better if this is called before every * render... */ SetMacBufRect(togl); #endif #ifdef TOGL_AGL SetMacBufRect(togl); #endif togl->DisplayProc(togl); #ifdef TOGL_AGL_CLASSIC SetPort(curPort); /* restore previous port */ #endif } #if defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) else { /* Always need to update on resize */ SetMacBufRect(togl); } #endif togl->UpdatePending = False; } static void RenderOverlay(ClientData clientData) { Togl *togl = (Togl *) clientData; if (togl->OverlayFlag && togl->OverlayDisplayProc) { #if defined(TOGL_WGL) int res = wglMakeCurrent(togl->tglGLHdc, togl->tglGLHglrc); assert(res == TRUE); #elif defined(TOGL_X11) (void) glXMakeCurrent(Tk_Display(togl->TkWin), togl->OverlayWindow, togl->OverlayCtx); # if defined(__sgi) if (togl->OldStereoFlag) oldStereoMakeCurrent(Tk_Display(togl->TkWin), togl->OverlayWindow, togl->OverlayCtx); # endif /*__sgi STEREO */ #endif /* TOGL_WGL */ togl->OverlayDisplayProc(togl); } togl->OverlayUpdatePending = False; } /* * It's possible to change with this function or in a script some * options like RGBA - ColorIndex ; Z-buffer and so on */ int Togl_Configure(Tcl_Interp *interp, Togl *togl, int argc, const char *argv[], int flags) { Bool oldRgbaFlag = togl->RgbaFlag; int oldRgbaRed = togl->RgbaRed; int oldRgbaGreen = togl->RgbaGreen; int oldRgbaBlue = togl->RgbaBlue; Bool oldDoubleFlag = togl->DoubleFlag; Bool oldDepthFlag = togl->DepthFlag; int oldDepthSize = togl->DepthSize; Bool oldAccumFlag = togl->AccumFlag; int oldAccumRed = togl->AccumRed; int oldAccumGreen = togl->AccumGreen; int oldAccumBlue = togl->AccumBlue; int oldAccumAlpha = togl->AccumAlpha; Bool oldAlphaFlag = togl->AlphaFlag; int oldAlphaSize = togl->AlphaSize; Bool oldStencilFlag = togl->StencilFlag; int oldStencilSize = togl->StencilSize; int oldAuxNumber = togl->AuxNumber; int oldWidth = togl->Width; int oldHeight = togl->Height; int oldSetGrid = togl->SetGrid; if (Tk_ConfigureWidget(interp, togl->TkWin, configSpecs, argc, argv, WIDGREC togl, flags) == TCL_ERROR) { return (TCL_ERROR); } #ifndef USE_OVERLAY if (togl->OverlayFlag) { TCL_ERR(interp, "Sorry, overlay was disabled"); } #endif if (togl->Width != oldWidth || togl->Height != oldHeight || togl->SetGrid != oldSetGrid) { Togl_WorldChanged((ClientData) togl); /* this added per Lou Arata */ Tk_ResizeWindow(togl->TkWin, togl->Width, togl->Height); if (togl->ReshapeProc && #if defined(TOGL_WGL) togl->tglGLHglrc #elif defined(TOGL_X11) togl->GlCtx #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) togl->aglCtx #endif ) { Togl_MakeCurrent(togl); togl->ReshapeProc(togl); } } if (togl->RgbaFlag != oldRgbaFlag || togl->RgbaRed != oldRgbaRed || togl->RgbaGreen != oldRgbaGreen || togl->RgbaBlue != oldRgbaBlue || togl->DoubleFlag != oldDoubleFlag || togl->DepthFlag != oldDepthFlag || togl->DepthSize != oldDepthSize || togl->AccumFlag != oldAccumFlag || togl->AccumRed != oldAccumRed || togl->AccumGreen != oldAccumGreen || togl->AccumBlue != oldAccumBlue || togl->AccumAlpha != oldAccumAlpha || togl->AlphaFlag != oldAlphaFlag || togl->AlphaSize != oldAlphaSize || togl->StencilFlag != oldStencilFlag || togl->StencilSize != oldStencilSize || togl->AuxNumber != oldAuxNumber) { #ifdef MESA_COLOR_HACK free_default_color_cells(Tk_Display(togl->TkWin), Tk_Colormap(togl->TkWin)); #endif } #if defined(__sgi) oldStereoInit(togl, togl->OldStereoFlag); #endif return TCL_OK; } static int Togl_Widget(ClientData clientData, Tcl_Interp *interp, int argc, CONST84 char *argv[]) { Togl *togl = (Togl *) clientData; int result = TCL_OK; Tcl_HashEntry *entry; Tcl_HashSearch search; Togl_CmdProc *cmd_proc; if (argc < 2) { Tcl_AppendResult(interp, "wrong # args: should be \"", argv[0], " ?options?\"", NULL); return TCL_ERROR; } Tk_Preserve((ClientData) togl); if (!strncmp(argv[1], "configure", MAX(1, strlen(argv[1])))) { if (argc == 2) { /* Return list of all configuration parameters */ result = Tk_ConfigureInfo(interp, togl->TkWin, configSpecs, WIDGREC togl, (char *) NULL, 0); } else if (argc == 3) { if (strcmp(argv[2], "-extensions") == 0) { /* Return a list of OpenGL extensions available */ const char *extensions; extensions = (const char *) glGetString(GL_EXTENSIONS); Tcl_SetResult(interp, TCL_STUPID extensions, TCL_STATIC); result = TCL_OK; } else { /* Return a specific configuration parameter */ result = Tk_ConfigureInfo(interp, togl->TkWin, configSpecs, WIDGREC togl, argv[2], 0); } } else { /* Execute a configuration change */ result = Togl_Configure(interp, togl, argc - 2, argv + 2, TK_CONFIG_ARGV_ONLY); } } else if (!strncmp(argv[1], "render", MAX(1, strlen(argv[1])))) { /* force the widget to be redrawn */ Togl_Render((ClientData) togl); } else if (!strncmp(argv[1], "swapbuffers", MAX(1, strlen(argv[1])))) { /* force the widget to be redrawn */ Togl_SwapBuffers(togl); } else if (!strncmp(argv[1], "makecurrent", MAX(1, strlen(argv[1])))) { /* force the widget to be redrawn */ Togl_MakeCurrent(togl); } #if TOGL_USE_FONTS == 1 else if (!strncmp(argv[1], "loadbitmapfont", MAX(1, strlen(argv[1])))) { if (argc == 3) { GLuint fontbase; Tcl_Obj *fontbaseAsTclObject; fontbase = Togl_LoadBitmapFont(togl, argv[2]); if (fontbase) { fontbaseAsTclObject = Tcl_NewIntObj(fontbase); Tcl_SetObjResult(interp, fontbaseAsTclObject); result = TCL_OK; } else { Tcl_AppendResult(interp, "Could not allocate font", NULL); result = TCL_ERROR; } } else { Tcl_AppendResult(interp, "wrong # args", NULL); result = TCL_ERROR; } } else if (!strncmp(argv[1], "unloadbitmapfont", MAX(1, strlen(argv[1])))) { if (argc == 3) { Togl_UnloadBitmapFont(togl, atoi(argv[2])); result = TCL_OK; } else { Tcl_AppendResult(interp, "wrong # args", NULL); result = TCL_ERROR; } } #endif /* TOGL_USE_FONTS */ else { /* Probably a user-defined function */ entry = Tcl_FindHashEntry(&CommandTable, argv[1]); if (entry != NULL) { cmd_proc = (Togl_CmdProc *) Tcl_GetHashValue(entry); result = cmd_proc(togl, argc, argv); } else { Tcl_AppendResult(interp, "Togl: Unknown option: ", argv[1], "\n", "Try: configure or render\n", "or one of the user-defined commands:\n", NULL); entry = Tcl_FirstHashEntry(&CommandTable, &search); while (entry) { Tcl_AppendResult(interp, " ", Tcl_GetHashKey(&CommandTable, entry), "\n", NULL); entry = Tcl_NextHashEntry(&search); } result = TCL_ERROR; } } Tk_Release((ClientData) togl); return result; } /* * Togl_Cmd * * Called when Togl is executed - creation of a Togl widget. * * Creates a new window * * Creates an 'Togl' data structure * * Creates an event handler for this window * * Creates a command that handles this object * * Configures this Togl for the given arguments */ static int Togl_Cmd(ClientData clientData, Tcl_Interp *interp, int argc, CONST84 char **argv) { const char *name; Tk_Window mainwin = (Tk_Window) clientData; Tk_Window tkwin; Togl *togl; if (argc <= 1) { TCL_ERR(interp, "wrong # args: should be \"pathName read filename\""); } /* Create the window. */ name = argv[1]; tkwin = Tk_CreateWindowFromPath(interp, mainwin, name, (char *) NULL); if (tkwin == NULL) { return TCL_ERROR; } Tk_SetClass(tkwin, "Togl"); /* Create Togl data structure */ togl = (Togl *) malloc(sizeof (Togl)); if (!togl) { return TCL_ERROR; } togl->Next = NULL; #if defined(TOGL_WGL) togl->tglGLHdc = NULL; togl->tglGLHglrc = NULL; #elif defined(TOGL_X11) togl->GlCtx = NULL; togl->OverlayCtx = NULL; #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) togl->aglCtx = NULL; #endif /* TOGL_WGL */ togl->display = Tk_Display(tkwin); togl->TkWin = tkwin; togl->Interp = interp; #ifndef NO_TK_CURSOR togl->Cursor = None; #endif togl->Width = 0; togl->Height = 0; togl->SetGrid = 0; togl->TimerInterval = 0; togl->RgbaFlag = True; togl->RgbaRed = 1; togl->RgbaGreen = 1; togl->RgbaBlue = 1; togl->DoubleFlag = False; togl->DepthFlag = False; togl->DepthSize = 1; togl->AccumFlag = False; togl->AccumRed = 1; togl->AccumGreen = 1; togl->AccumBlue = 1; togl->AccumAlpha = 1; togl->AlphaFlag = False; togl->AlphaSize = 1; togl->StencilFlag = False; togl->StencilSize = 1; togl->OverlayFlag = False; togl->StereoFlag = False; #ifdef __sgi togl->OldStereoFlag = False; #endif togl->AuxNumber = 0; togl->Indirect = False; togl->PixelFormat = 0; togl->UpdatePending = False; togl->OverlayUpdatePending = False; togl->CreateProc = DefaultCreateProc; togl->DisplayProc = DefaultDisplayProc; togl->ReshapeProc = DefaultReshapeProc; togl->DestroyProc = DefaultDestroyProc; togl->TimerProc = DefaultTimerProc; togl->OverlayDisplayProc = DefaultOverlayDisplayProc; togl->ShareList = NULL; togl->ShareContext = NULL; togl->Ident = NULL; togl->Client_Data = DefaultClientData; /* for EPS Output */ togl->EpsRedMap = togl->EpsGreenMap = togl->EpsBlueMap = NULL; togl->EpsMapSize = 0; /* Create command event handler */ togl->widgetCmd = Tcl_CreateCommand(interp, Tk_PathName(tkwin), Togl_Widget, (ClientData) togl, (Tcl_CmdDeleteProc *) ToglCmdDeletedProc); /* * Setup the Tk_ClassProcs callbacks to point at our own window creation * function * * We need to check at runtime if we should use the new Tk_SetClassProcs() * API or if we need to modify the window structure directly */ #ifdef HAVE_TK_SETCLASSPROCS if (SetClassProcsPtr != NULL) { /* use public API (Tk 8.4+) */ Tk_ClassProcs *procsPtr; procsPtr = (Tk_ClassProcs *) Tcl_Alloc(sizeof (Tk_ClassProcs)); procsPtr->size = sizeof (Tk_ClassProcs); procsPtr->createProc = Togl_CreateWindow; procsPtr->worldChangedProc = Togl_WorldChanged; procsPtr->modalProc = NULL; /* Tk_SetClassProcs(togl->TkWin,procsPtr,(ClientData)togl); */ (SetClassProcsPtr) (togl->TkWin, procsPtr, (ClientData) togl); } else #endif { /* use private API */ /* * We need to set these fields in the Tk_FakeWin structure: dummy17 = * classProcsPtr dummy18 = instanceData */ TkClassProcs *procsPtr; Tk_FakeWin *winPtr = (Tk_FakeWin *) (togl->TkWin); procsPtr = (TkClassProcs *) Tcl_Alloc(sizeof (TkClassProcs)); procsPtr->createProc = Togl_CreateWindow; procsPtr->geometryProc = Togl_WorldChanged; procsPtr->modalProc = NULL; winPtr->dummy17 = (char *) procsPtr; winPtr->dummy18 = (ClientData) togl; } Tk_CreateEventHandler(tkwin, ExposureMask | StructureNotifyMask, Togl_EventProc, (ClientData) togl); /* Configure Togl widget */ if (Togl_Configure(interp, togl, argc - 2, argv + 2, 0) == TCL_ERROR) { Tk_DestroyWindow(tkwin); Tcl_AppendResult(interp, "Couldn't configure togl widget\n", NULL); goto error; } /* * If OpenGL window wasn't already created by Togl_Configure() we * create it now. We can tell by checking if the GLX context has * been initialized. */ if (! #if defined(TOGL_WGL) togl->tglGLHdc #elif defined(TOGL_X11) togl->GlCtx #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) togl->aglCtx #endif ) { Tk_MakeWindowExist(togl->TkWin); if (Tk_WindowId(togl->TkWin) == DUMMY_WINDOW) { return TCL_ERROR; } Togl_MakeCurrent(togl); } /* If defined, call create callback */ if (togl->CreateProc) { togl->CreateProc(togl); } /* If defined, call reshape proc */ if (togl->ReshapeProc) { togl->ReshapeProc(togl); } /* If defined, setup timer */ if (togl->TimerProc) { (void) Tk_CreateTimerHandler(togl->TimerInterval, Togl_Timer, (ClientData) togl); } Tcl_AppendResult(interp, Tk_PathName(tkwin), NULL); /* Add to linked list */ AddToList(togl); return TCL_OK; error: (void) Tcl_DeleteCommand(interp, "togl"); /* free(togl); Don't free it, if we do a crash occurs later... */ return TCL_ERROR; } #ifdef USE_OVERLAY /* * Do all the setup for overlay planes * Return: TCL_OK or TCL_ERROR */ static int SetupOverlay(Togl *togl) { # if defined(TOGL_X11) # ifdef GLX_TRANSPARENT_TYPE_EXT static int ovAttributeList[] = { GLX_BUFFER_SIZE, 2, GLX_LEVEL, 1, GLX_TRANSPARENT_TYPE_EXT, GLX_TRANSPARENT_INDEX_EXT, None }; # else static int ovAttributeList[] = { GLX_BUFFER_SIZE, 2, GLX_LEVEL, 1, None }; # endif Display *dpy; XVisualInfo *visinfo; TkWindow *winPtr = (TkWindow *) togl->TkWin; XSetWindowAttributes swa; Tcl_HashEntry *hPtr; int new_flag; dpy = Tk_Display(togl->TkWin); visinfo = glXChooseVisual(dpy, Tk_ScreenNumber(winPtr), ovAttributeList); if (!visinfo) { Tcl_AppendResult(togl->Interp, Tk_PathName(winPtr), ": No suitable overlay index visual available", (char *) NULL); togl->OverlayCtx = 0; togl->OverlayWindow = 0; togl->OverlayCmap = 0; return TCL_ERROR; } # ifdef GLX_TRANSPARENT_INDEX_EXT { int fail = glXGetConfig(dpy, visinfo, GLX_TRANSPARENT_INDEX_VALUE_EXT, &togl->OverlayTransparentPixel); if (fail) togl->OverlayTransparentPixel = 0; /* maybe, maybe ... */ } # else togl->OverlayTransparentPixel = 0; /* maybe, maybe ... */ # endif /* share display lists with normal layer context */ togl->OverlayCtx = glXCreateContext(dpy, visinfo, togl->GlCtx, !togl->Indirect); swa.colormap = XCreateColormap(dpy, XRootWindow(dpy, visinfo->screen), visinfo->visual, AllocNone); togl->OverlayCmap = swa.colormap; swa.border_pixel = 0; swa.event_mask = ALL_EVENTS_MASK; togl->OverlayWindow = XCreateWindow(dpy, Tk_WindowId(togl->TkWin), 0, 0, togl->Width, togl->Height, 0, visinfo->depth, InputOutput, visinfo->visual, CWBorderPixel | CWColormap | CWEventMask, &swa); hPtr = Tcl_CreateHashEntry(&winPtr->dispPtr->winTable, (char *) togl->OverlayWindow, &new_flag); Tcl_SetHashValue(hPtr, winPtr); /* XMapWindow( dpy, togl->OverlayWindow ); */ togl->OverlayIsMapped = False; /* Make sure window manager installs our colormap */ XSetWMColormapWindows(dpy, togl->OverlayWindow, &togl->OverlayWindow, 1); return TCL_OK; # elif defined(TOGL_WGL) || defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) /* not yet implemented on these */ return TCL_ERROR; # endif } #endif /* USE_OVERLAY */ #ifdef TOGL_WGL # define TOGL_CLASS_NAME "Togl Class" static Bool ToglClassInitialized = False; static LRESULT CALLBACK Win32WinProc(HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam) { LONG result; Togl *togl = (Togl *) GetWindowLong(hwnd, 0); WNDCLASS childClass; switch (message) { case WM_WINDOWPOSCHANGED: /* Should be processed by DefWindowProc, otherwise a double buffered * context is not properly resized when the corresponding window is * resized. */ break; case WM_DESTROY: if (togl->tglGLHglrc) { wglDeleteContext(togl->tglGLHglrc); } if (togl->tglGLHdc) { ReleaseDC(hwnd, togl->tglGLHdc); } free(togl); break; default: # if USE_STATIC_LIB return TkWinChildProc(hwnd, message, wParam, lParam); # else /* * OK, since TkWinChildProc is not explicitly exported in the * dynamic libraries, we have to retrieve it from the class info * registered with windows. * */ if (tkWinChildProc == NULL) { GetClassInfo(Tk_GetHINSTANCE(), TK_WIN_CHILD_CLASS_NAME, &childClass); tkWinChildProc = childClass.lpfnWndProc; } return tkWinChildProc(hwnd, message, wParam, lParam); # endif } result = DefWindowProc(hwnd, message, wParam, lParam); Tcl_ServiceAll(); return result; } #endif /* TOGL_WGL */ /* * Togl_CreateWindow * * Window creation function, invoked as a callback from Tk_MakeWindowExist. * Creates an OpenGL window for the Togl widget. */ static Window Togl_CreateWindow(Tk_Window tkwin, Window parent, ClientData instanceData) { Togl *togl = (Togl *) instanceData; XVisualInfo *visinfo = NULL; Display *dpy; Colormap cmap; int scrnum; Window window; #if defined(TOGL_X11) Bool directCtx = True; int attrib_list[1000]; int attrib_count; int dummy; XSetWindowAttributes swa; # define MAX_ATTEMPTS 12 static int ci_depths[MAX_ATTEMPTS] = { 8, 4, 2, 1, 12, 16, 8, 4, 2, 1, 12, 16 }; static int dbl_flags[MAX_ATTEMPTS] = { 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1 }; #elif defined(TOGL_WGL) HWND hwnd, parentWin; int pixelformat; HANDLE hInstance; WNDCLASS ToglClass; PIXELFORMATDESCRIPTOR pfd; XVisualInfo VisInf; #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) GLint attribs[20]; int na; AGLPixelFormat fmt; XVisualInfo VisInf; #endif /* TOGL_X11 */ dpy = Tk_Display(togl->TkWin); #if defined(TOGL_X11) /* Make sure OpenGL's GLX extension supported */ if (!glXQueryExtension(dpy, &dummy, &dummy)) { Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: X server has no OpenGL GLX extension", TCL_STATIC); return DUMMY_WINDOW; } if (togl->ShareContext && FindTogl(togl->ShareContext)) { /* share OpenGL context with existing Togl widget */ Togl *shareWith = FindTogl(togl->ShareContext); assert(shareWith != NULL); assert(shareWith->GlCtx != NULL); togl->GlCtx = shareWith->GlCtx; togl->VisInfo = shareWith->VisInfo; visinfo = togl->VisInfo; } else { if (togl->PixelFormat) { XVisualInfo template; int count = 1; template.visualid = togl->PixelFormat; visinfo = XGetVisualInfo(dpy, VisualIDMask, &template, &count); if (visinfo == NULL) { Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't choose pixel format", TCL_STATIC); return DUMMY_WINDOW; } /* fill in flags normally passed in that affect behavior */ (void) glXGetConfig(dpy, visinfo, GLX_RGBA, &togl->RgbaFlag); (void) glXGetConfig(dpy, visinfo, GLX_DOUBLEBUFFER, &togl->DoubleFlag); (void) glXGetConfig(dpy, visinfo, GLX_STEREO, &togl->StereoFlag); } else { int attempt; /* It may take a few tries to get a visual */ for (attempt = 0; attempt < MAX_ATTEMPTS; attempt++) { attrib_count = 0; attrib_list[attrib_count++] = GLX_USE_GL; if (togl->RgbaFlag) { /* RGB[A] mode */ attrib_list[attrib_count++] = GLX_RGBA; attrib_list[attrib_count++] = GLX_RED_SIZE; attrib_list[attrib_count++] = togl->RgbaRed; attrib_list[attrib_count++] = GLX_GREEN_SIZE; attrib_list[attrib_count++] = togl->RgbaGreen; attrib_list[attrib_count++] = GLX_BLUE_SIZE; attrib_list[attrib_count++] = togl->RgbaBlue; if (togl->AlphaFlag) { attrib_list[attrib_count++] = GLX_ALPHA_SIZE; attrib_list[attrib_count++] = togl->AlphaSize; } /* for EPS Output */ if (togl->EpsRedMap) free(togl->EpsRedMap); if (togl->EpsGreenMap) free(togl->EpsGreenMap); if (togl->EpsBlueMap) free(togl->EpsBlueMap); togl->EpsRedMap = togl->EpsGreenMap = togl->EpsBlueMap = NULL; togl->EpsMapSize = 0; } else { /* Color index mode */ int depth; attrib_list[attrib_count++] = GLX_BUFFER_SIZE; depth = ci_depths[attempt]; attrib_list[attrib_count++] = depth; } if (togl->DepthFlag) { attrib_list[attrib_count++] = GLX_DEPTH_SIZE; attrib_list[attrib_count++] = togl->DepthSize; } if (togl->DoubleFlag || dbl_flags[attempt]) { attrib_list[attrib_count++] = GLX_DOUBLEBUFFER; } if (togl->StencilFlag) { attrib_list[attrib_count++] = GLX_STENCIL_SIZE; attrib_list[attrib_count++] = togl->StencilSize; } if (togl->AccumFlag) { attrib_list[attrib_count++] = GLX_ACCUM_RED_SIZE; attrib_list[attrib_count++] = togl->AccumRed; attrib_list[attrib_count++] = GLX_ACCUM_GREEN_SIZE; attrib_list[attrib_count++] = togl->AccumGreen; attrib_list[attrib_count++] = GLX_ACCUM_BLUE_SIZE; attrib_list[attrib_count++] = togl->AccumBlue; if (togl->AlphaFlag) { attrib_list[attrib_count++] = GLX_ACCUM_ALPHA_SIZE; attrib_list[attrib_count++] = togl->AccumAlpha; } } if (togl->AuxNumber != 0) { attrib_list[attrib_count++] = GLX_AUX_BUFFERS; attrib_list[attrib_count++] = togl->AuxNumber; } if (togl->Indirect) { directCtx = False; } if (togl->StereoFlag) { attrib_list[attrib_count++] = GLX_STEREO; } attrib_list[attrib_count++] = None; visinfo = glXChooseVisual(dpy, Tk_ScreenNumber(togl->TkWin), attrib_list); if (visinfo) { /* found a GLX visual! */ break; } } togl->VisInfo = visinfo; if (visinfo == NULL) { Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't get visual", TCL_STATIC); return DUMMY_WINDOW; } /* * Create a new OpenGL rendering context. */ if (togl->ShareList) { /* share display lists with existing togl widget */ Togl *shareWith = FindTogl(togl->ShareList); GLXContext shareCtx; if (shareWith) shareCtx = shareWith->GlCtx; else shareCtx = None; togl->GlCtx = glXCreateContext(dpy, visinfo, shareCtx, directCtx); } else { /* don't share display lists */ togl->GlCtx = glXCreateContext(dpy, visinfo, None, directCtx); } if (togl->GlCtx == NULL) { Tcl_SetResult(togl->Interp, TCL_STUPID "could not create rendering context", TCL_STATIC); return DUMMY_WINDOW; } } } #endif /* TOGL_X11 */ #ifdef TOGL_WGL parentWin = Tk_GetHWND(parent); hInstance = Tk_GetHINSTANCE(); if (!ToglClassInitialized) { ToglClassInitialized = True; ToglClass.style = CS_HREDRAW | CS_VREDRAW; ToglClass.cbClsExtra = 0; ToglClass.cbWndExtra = 4; /* to save struct Togl* */ ToglClass.hInstance = hInstance; ToglClass.hbrBackground = NULL; ToglClass.lpszMenuName = NULL; ToglClass.lpszClassName = TOGL_CLASS_NAME; ToglClass.lpfnWndProc = Win32WinProc; ToglClass.hIcon = NULL; ToglClass.hCursor = NULL; if (!RegisterClass(&ToglClass)) { Tcl_SetResult(togl->Interp, TCL_STUPID "unable register Togl window class", TCL_STATIC); return DUMMY_WINDOW; } } hwnd = CreateWindow(TOGL_CLASS_NAME, NULL, WS_CHILD | WS_CLIPCHILDREN | WS_CLIPSIBLINGS, 0, 0, togl->Width, togl->Height, parentWin, NULL, hInstance, NULL); SetWindowLong(hwnd, 0, (LONG) togl); SetWindowPos(hwnd, HWND_TOP, 0, 0, 0, 0, SWP_NOACTIVATE | SWP_NOMOVE | SWP_NOSIZE); togl->tglGLHdc = GetDC(hwnd); pfd.nSize = sizeof (PIXELFORMATDESCRIPTOR); pfd.nVersion = 1; pfd.dwFlags = PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL; if (togl->DoubleFlag) { pfd.dwFlags |= PFD_DOUBLEBUFFER; } /* The stereo flag is not supported in the current generic OpenGL * implementation, but may be supported by specific hardware devices. */ if (togl->StereoFlag) { pfd.dwFlags |= PFD_STEREO; } if (togl->PixelFormat) { pixelformat = togl->PixelFormat; } else { pfd.cColorBits = togl->RgbaRed + togl->RgbaGreen + togl->RgbaBlue; pfd.iPixelType = togl->RgbaFlag ? PFD_TYPE_RGBA : PFD_TYPE_COLORINDEX; /* Alpha bitplanes are not supported in the current generic OpenGL * implementation, but may be supported by specific hardware devices. */ pfd.cAlphaBits = togl->AlphaFlag ? togl->AlphaSize : 0; pfd.cAccumBits = togl->AccumFlag ? (togl->AccumRed + togl->AccumGreen + togl->AccumBlue + togl->AccumAlpha) : 0; pfd.cDepthBits = togl->DepthFlag ? togl->DepthSize : 0; pfd.cStencilBits = togl->StencilFlag ? togl->StencilSize : 0; /* Auxiliary buffers are not supported in the current generic OpenGL * implementation, but may be supported by specific hardware devices. */ pfd.cAuxBuffers = togl->AuxNumber; pfd.iLayerType = PFD_MAIN_PLANE; if ((pixelformat = ChoosePixelFormat(togl->tglGLHdc, &pfd)) == 0) { Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't choose pixel format", TCL_STATIC); return DUMMY_WINDOW; } } if (SetPixelFormat(togl->tglGLHdc, pixelformat, &pfd) == FALSE) { Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't choose pixel format", TCL_STATIC); return DUMMY_WINDOW; } /* Get the actual pixel format */ DescribePixelFormat(togl->tglGLHdc, pixelformat, sizeof (pfd), &pfd); if (togl->PixelFormat) { /* fill in flags normally passed in that affect behavior */ togl->RgbaFlag = pfd.iPixelType == PFD_TYPE_RGBA; togl->DoubleFlag = pfd.cDepthBits > 0; togl->StereoFlag = (pfd.dwFlags & PFD_STEREO) != 0; // TODO: set depth flag, and more } else if (togl->StereoFlag && (pfd.dwFlags & PFD_STEREO) == 0) { Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't choose stereo pixel format", TCL_STATIC); return DUMMY_WINDOW; } if (togl->ShareContext && FindTogl(togl->ShareContext)) { /* share OpenGL context with existing Togl widget */ Togl *shareWith = FindTogl(togl->ShareContext); assert(shareWith); assert(shareWith->tglGLHglrc); togl->tglGLHglrc = shareWith->tglGLHglrc; togl->VisInfo = shareWith->VisInfo; visinfo = togl->VisInfo; } else { /* * Create a new OpenGL rendering context. And check to share lists. */ togl->tglGLHglrc = wglCreateContext(togl->tglGLHdc); if (togl->ShareList) { /* share display lists with existing togl widget */ Togl *shareWith = FindTogl(togl->ShareList); if (shareWith) wglShareLists(shareWith->tglGLHglrc, togl->tglGLHglrc); } if (!togl->tglGLHglrc) { Tcl_SetResult(togl->Interp, TCL_STUPID "could not create rendering context", TCL_STATIC); return DUMMY_WINDOW; } /* Just for portability, define the simplest visinfo */ visinfo = &VisInf; visinfo->visual = DefaultVisual(dpy, DefaultScreen(dpy)); visinfo->depth = visinfo->visual->bits_per_rgb; togl->VisInfo = visinfo; } #endif /* TOGL_WGL */ /* * find a colormap */ scrnum = Tk_ScreenNumber(togl->TkWin); if (togl->RgbaFlag) { /* Colormap for RGB mode */ #if defined(TOGL_X11) cmap = get_rgb_colormap(dpy, scrnum, visinfo, togl->TkWin); #elif defined(TOGL_WGL) if (pfd.dwFlags & PFD_NEED_PALETTE) { cmap = Win32CreateRgbColormap(pfd); } else { cmap = DefaultColormap(dpy, scrnum); } /* for EPS Output */ if (togl->EpsRedMap) free(togl->EpsRedMap); if (togl->EpsGreenMap) free(togl->EpsGreenMap); if (togl->EpsBlueMap) free(togl->EpsBlueMap); togl->EpsRedMap = togl->EpsGreenMap = togl->EpsBlueMap = NULL; togl->EpsMapSize = 0; #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) cmap = DefaultColormap(dpy, scrnum); /* for EPS Output */ if (togl->EpsRedMap) free(togl->EpsRedMap); if (togl->EpsGreenMap) free(togl->EpsGreenMap); if (togl->EpsBlueMap) free(togl->EpsBlueMap); togl->EpsRedMap = togl->EpsGreenMap = togl->EpsBlueMap = NULL; togl->EpsMapSize = 0; #endif /* TOGL_X11 */ } else { /* Colormap for CI mode */ #ifdef TOGL_WGL togl->CiColormapSize = 1 << pfd.cColorBits; togl->CiColormapSize = togl->CiColormapSize < MAX_CI_COLORMAP_SIZE ? togl->CiColormapSize : MAX_CI_COLORMAP_SIZE; #endif /* TOGL_WGL */ if (togl->PrivateCmapFlag) { /* need read/write colormap so user can store own color entries */ #if defined(TOGL_X11) cmap = XCreateColormap(dpy, XRootWindow(dpy, visinfo->screen), visinfo->visual, AllocAll); #elif defined(TOGL_WGL) cmap = Win32CreateCiColormap(togl); #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) /* need to figure out how to do this correctly on Mac... */ cmap = DefaultColormap(dpy, scrnum); #endif /* TOGL_X11 */ } else { if (visinfo->visual == DefaultVisual(dpy, scrnum)) { /* share default/root colormap */ cmap = Tk_Colormap(togl->TkWin); } else { /* make a new read-only colormap */ cmap = XCreateColormap(dpy, XRootWindow(dpy, visinfo->screen), visinfo->visual, AllocNone); } } } #if !defined(TOGL_AGL) /* Make sure Tk knows to switch to the new colormap when the cursor is over * this window when running in color index mode. */ (void) Tk_SetWindowVisual(togl->TkWin, visinfo->visual, visinfo->depth, cmap); #endif #ifdef TOGL_WGL /* Install the colormap */ SelectPalette(togl->tglGLHdc, ((TkWinColormap *) cmap)->palette, TRUE); RealizePalette(togl->tglGLHdc); #endif /* TOGL_WGL */ #if defined(TOGL_X11) swa.colormap = cmap; swa.border_pixel = 0; swa.event_mask = ALL_EVENTS_MASK; window = XCreateWindow(dpy, parent, 0, 0, togl->Width, togl->Height, 0, visinfo->depth, InputOutput, visinfo->visual, CWBorderPixel | CWColormap | CWEventMask, &swa); /* Make sure window manager installs our colormap */ (void) XSetWMColormapWindows(dpy, window, &window, 1); #elif defined(TOGL_WGL) window = Tk_AttachHWND(togl->TkWin, hwnd); #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) { TkWindow *winPtr = (TkWindow *) togl->TkWin; window = TkpMakeWindow(winPtr, parent); } #endif /* TOGL_X11 */ #ifdef USE_OVERLAY if (togl->OverlayFlag) { if (SetupOverlay(togl) == TCL_ERROR) { fprintf(stderr, "Warning: couldn't setup overlay.\n"); togl->OverlayFlag = False; } } #endif /* USE_OVERLAY */ /* Request the X window to be displayed */ (void) XMapWindow(dpy, window); #if defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) if (togl->ShareContext && FindTogl(togl->ShareContext)) { /* share OpenGL context with existing Togl widget */ Togl *shareWith = FindTogl(togl->ShareContext); assert(shareWith); assert(shareWith->aglCtx); togl->aglCtx = shareWith->aglCtx; togl->VisInfo = shareWith->VisInfo; visinfo = togl->VisInfo; } else { AGLContext shareCtx = NULL; if (togl->PixelFormat) { /* fill in RgbaFlag, DoubleFlag, and StereoFlag */ fmt = (AGLPixelFormat) togl->PixelFormat; GLint has_rgba, has_doublebuf, has_stereo; if (aglDescribePixelFormat(fmt, AGL_RGBA, &has_rgba) && aglDescribePixelFormat(fmt, AGL_DOUBLEBUFFER, &has_doublebuf) && aglDescribePixelFormat(fmt, AGL_STEREO, &has_stereo)) { togl->RgbaFlag = (has_rgba ? True : False); togl->DoubleFlag = (has_doublebuf ? True : False); togl->StereoFlag = (has_stereo ? True : False); } else { Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: failed querying pixel format attributes", TCL_STATIC); return DUMMY_WINDOW; } } else { /* Need to do this after mapping window, so MacDrawable structure * is more completely filled in */ na = 0; attribs[na++] = AGL_MINIMUM_POLICY; attribs[na++] = AGL_ROBUST; if (togl->RgbaFlag) { /* RGB[A] mode */ attribs[na++] = AGL_RGBA; attribs[na++] = AGL_RED_SIZE; attribs[na++] = togl->RgbaRed; attribs[na++] = AGL_GREEN_SIZE; attribs[na++] = togl->RgbaGreen; attribs[na++] = AGL_BLUE_SIZE; attribs[na++] = togl->RgbaBlue; if (togl->AlphaFlag) { attribs[na++] = AGL_ALPHA_SIZE; attribs[na++] = togl->AlphaSize; } } else { /* Color index mode */ attribs[na++] = AGL_BUFFER_SIZE; attribs[na++] = 8; } if (togl->DepthFlag) { attribs[na++] = AGL_DEPTH_SIZE; attribs[na++] = togl->DepthSize; } if (togl->DoubleFlag) { attribs[na++] = AGL_DOUBLEBUFFER; } if (togl->StencilFlag) { attribs[na++] = AGL_STENCIL_SIZE; attribs[na++] = togl->StencilSize; } if (togl->AccumFlag) { attribs[na++] = AGL_ACCUM_RED_SIZE; attribs[na++] = togl->AccumRed; attribs[na++] = AGL_ACCUM_GREEN_SIZE; attribs[na++] = togl->AccumGreen; attribs[na++] = AGL_ACCUM_BLUE_SIZE; attribs[na++] = togl->AccumBlue; if (togl->AlphaFlag) { attribs[na++] = AGL_ACCUM_ALPHA_SIZE; attribs[na++] = togl->AccumAlpha; } } if (togl->AuxNumber != 0) { attribs[na++] = AGL_AUX_BUFFERS; attribs[na++] = togl->AuxNumber; } attribs[na++] = AGL_NONE; if ((fmt = aglChoosePixelFormat(NULL, 0, attribs)) == NULL) { Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't choose pixel format", TCL_STATIC); return DUMMY_WINDOW; } } /* * Check whether to share lists. */ if (togl->ShareList) { /* share display lists with existing togl widget */ Togl *shareWith = FindTogl(togl->ShareList); if (shareWith) shareCtx = shareWith->aglCtx; } if ((togl->aglCtx = aglCreateContext(fmt, shareCtx)) == NULL) { GLenum err = aglGetError(); aglDestroyPixelFormat(fmt); if (err == AGL_BAD_MATCH) Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't create context, shared context doesn't match", TCL_STATIC); else if (err == AGL_BAD_CONTEXT) Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't create context, bad shared context", TCL_STATIC); else if (err == AGL_BAD_PIXELFMT) Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't create context, bad pixel format", TCL_STATIC); else Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't create context, unknown reason", TCL_STATIC); return DUMMY_WINDOW; } aglDestroyPixelFormat(fmt); if (!aglSetDrawable(togl->aglCtx, # if defined(TOGL_AGL) ((MacDrawable *) (window))->toplevel->grafPtr # else ((MacDrawable *) (window))->toplevel->portPtr # endif )) { aglDestroyContext(togl->aglCtx); Tcl_SetResult(togl->Interp, TCL_STUPID "Togl: couldn't set drawable", TCL_STATIC); return DUMMY_WINDOW; } /* Just for portability, define the simplest visinfo */ visinfo = &VisInf; visinfo->visual = DefaultVisual(dpy, DefaultScreen(dpy)); visinfo->depth = visinfo->visual->bits_per_rgb; Tk_SetWindowVisual(togl->TkWin, visinfo->visual, visinfo->depth, cmap); } #endif /* TOGL_AGL_CLASSIC || TOGL_AGL */ #if defined(TOGL_X11) /* Check for a single/double buffering snafu */ { int dbl_flag; if (glXGetConfig(dpy, visinfo, GLX_DOUBLEBUFFER, &dbl_flag)) { if (!togl->DoubleFlag && dbl_flag) { /* We requested single buffering but had to accept a */ /* double buffered visual. Set the GL draw buffer to */ /* be the front buffer to simulate single buffering. */ glDrawBuffer(GL_FRONT); } } } #endif /* TOGL_X11 */ /* for EPS Output */ if (!togl->RgbaFlag) { int index_size; #if defined(TOGL_X11) || defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) GLint index_bits; glGetIntegerv(GL_INDEX_BITS, &index_bits); index_size = 1 << index_bits; #elif defined(TOGL_WGL) index_size = togl->CiColormapSize; #endif /* TOGL_X11 */ if (togl->EpsMapSize != index_size) { if (togl->EpsRedMap) free(togl->EpsRedMap); if (togl->EpsGreenMap) free(togl->EpsGreenMap); if (togl->EpsBlueMap) free(togl->EpsBlueMap); togl->EpsMapSize = index_size; togl->EpsRedMap = (GLfloat *) calloc(index_size, sizeof (GLfloat)); togl->EpsGreenMap = (GLfloat *) calloc(index_size, sizeof (GLfloat)); togl->EpsBlueMap = (GLfloat *) calloc(index_size, sizeof (GLfloat)); } } return window; } /* * Togl_WorldChanged * * Add support for setgrid option. */ static void Togl_WorldChanged(ClientData instanceData) { Togl *togl = (Togl *) instanceData; Tk_GeometryRequest(togl->TkWin, togl->Width, togl->Height); Tk_SetInternalBorder(togl->TkWin, 0); if (togl->SetGrid > 0) { Tk_SetGrid(togl->TkWin, togl->Width / togl->SetGrid, togl->Height / togl->SetGrid, togl->SetGrid, togl->SetGrid); } else { Tk_UnsetGrid(togl->TkWin); } } /* * ToglCmdDeletedProc * * This procedure is invoked when a widget command is deleted. If * the widget isn't already in the process of being destroyed, * this command destroys it. * * Results: * None. * * Side effects: * The widget is destroyed. * *---------------------------------------------------------------------- */ static void ToglCmdDeletedProc(ClientData clientData) { Togl *togl = (Togl *) clientData; Tk_Window tkwin = togl->TkWin; /* * This procedure could be invoked either because the window was * destroyed and the command was then deleted (in which case tkwin * is NULL) or because the command was deleted, and then this procedure * destroys the widget. */ if (togl && tkwin) { Tk_DeleteEventHandler(tkwin, ExposureMask | StructureNotifyMask, Togl_EventProc, (ClientData) togl); } #if defined(TOGL_X11) if (togl->GlCtx) { if (FindToglWithSameContext(togl) == NULL) glXDestroyContext(togl->display, togl->GlCtx); togl->GlCtx = NULL; } # ifdef USE_OVERLAY if (togl->OverlayCtx) { Tcl_HashEntry *entryPtr; TkWindow *winPtr = (TkWindow *) togl->TkWin; if (winPtr) { entryPtr = Tcl_FindHashEntry(&winPtr->dispPtr->winTable, (char *) togl->OverlayWindow); Tcl_DeleteHashEntry(entryPtr); } if (FindToglWithSameOverlayContext(togl) == NULL) glXDestroyContext(togl->display, togl->OverlayCtx); togl->OverlayCtx = NULL; } # endif /* USE_OVERLAY */ #endif /* TODO: delete contexts on other platforms */ if (tkwin != NULL) { if (togl->SetGrid > 0) { Tk_UnsetGrid(tkwin); } togl->TkWin = NULL; Tk_DestroyWindow(tkwin); } } /* * Togl_Destroy * * Gets called when an Togl widget is destroyed. */ static void Togl_Destroy( #if (TK_MAJOR_VERSION * 100 + TK_MINOR_VERSION) >= 401 char * #else ClientData #endif clientData) { Togl *togl = (Togl *) clientData; Tk_FreeOptions(configSpecs, WIDGREC togl, togl->display, 0); #ifndef NO_TK_CURSOR if (togl->Cursor != None) { Tk_FreeCursor(togl->display, togl->Cursor); } #endif if (togl->DestroyProc) { togl->DestroyProc(togl); } /* remove from linked list */ RemoveFromList(togl); #if !defined(TOGL_WGL) /* TODO: why not on Windows? */ free(togl); #endif } /* * This gets called to handle Togl window configuration events */ static void Togl_EventProc(ClientData clientData, XEvent *eventPtr) { Togl *togl = (Togl *) clientData; switch (eventPtr->type) { case Expose: if (eventPtr->xexpose.count == 0) { if (!togl->UpdatePending && eventPtr->xexpose.window == Tk_WindowId(togl->TkWin)) { Togl_PostRedisplay(togl); } #if defined(TOGL_X11) if (!togl->OverlayUpdatePending && togl->OverlayFlag && togl->OverlayIsMapped && eventPtr->xexpose.window == togl->OverlayWindow) { Togl_PostOverlayRedisplay(togl); } #endif /* TOGL_X11 */ } break; case ConfigureNotify: if (togl->Width != Tk_Width(togl->TkWin) || togl->Height != Tk_Height(togl->TkWin)) { togl->Width = Tk_Width(togl->TkWin); togl->Height = Tk_Height(togl->TkWin); (void) XResizeWindow(Tk_Display(togl->TkWin), Tk_WindowId(togl->TkWin), togl->Width, togl->Height); #if defined(TOGL_X11) if (togl->OverlayFlag) { (void) XResizeWindow(Tk_Display(togl->TkWin), togl->OverlayWindow, togl->Width, togl->Height); (void) XRaiseWindow(Tk_Display(togl->TkWin), togl->OverlayWindow); } #endif /* TOGL_X11 */ Togl_MakeCurrent(togl); if (togl->ReshapeProc) { togl->ReshapeProc(togl); } else { glViewport(0, 0, togl->Width, togl->Height); #if defined(TOGL_X11) if (togl->OverlayFlag) { Togl_UseLayer(togl, TOGL_OVERLAY); glViewport(0, 0, togl->Width, togl->Height); Togl_UseLayer(togl, TOGL_NORMAL); } #endif /* TOGL_X11 */ } #ifndef TOGL_WGL /* causes double redisplay on Win32 platform */ Togl_PostRedisplay(togl); #endif /* TOGL_WGL */ } break; case MapNotify: #if defined(TOGL_AGL) { /* * See comment for the UnmapNotify case below. */ AGLDrawable d = TkMacOSXGetDrawablePort(Tk_WindowId(togl->TkWin)); aglSetDrawable(togl->aglCtx, d); } #endif /* TOGL_AGL */ break; case UnmapNotify: #if defined(TOGL_AGL) { /* * For Mac OS X Aqua, Tk subwindows are not implemented as * separate Aqua windows. They are just different regions of * a single Aqua window. To unmap them they are just not drawn. * Have to disconnect the AGL context otherwise they will continue * to be displayed directly by Aqua. */ aglSetDrawable(togl->aglCtx, NULL); } #endif /* TOGL_AGL */ break; case DestroyNotify: if (togl->TkWin != NULL) { if (togl->SetGrid > 0) { Tk_UnsetGrid(togl->TkWin); } togl->TkWin = NULL; #if (TCL_MAJOR_VERSION * 100 + TCL_MINOR_VERSION) >= 800 /* This function new in Tcl/Tk 8.0 */ (void) Tcl_DeleteCommandFromToken(togl->Interp, togl->widgetCmd); #endif } if (togl->TimerProc != NULL) { #if (TK_MAJOR_VERSION * 100 + TK_MINOR_VERSION) >= 401 Tcl_DeleteTimerHandler(togl->timerHandler); #else Tk_DeleteTimerHandler(togl->timerHandler); #endif } if (togl->UpdatePending) { #if (TCL_MAJOR_VERSION * 100 + TCL_MINOR_VERSION) >= 705 Tcl_CancelIdleCall(Togl_Render, (ClientData) togl); #else Tk_CancelIdleCall(Togl_Render, (ClientData) togl); #endif } #if (TK_MAJOR_VERSION * 100 + TK_MINOR_VERSION) >= 401 Tcl_EventuallyFree((ClientData) togl, Togl_Destroy); #else Tk_EventuallyFree((ClientData) togl, Togl_Destroy); #endif break; default: /* nothing */ ; } } void Togl_PostRedisplay(Togl *togl) { if (!togl->UpdatePending) { togl->UpdatePending = True; Tk_DoWhenIdle(Togl_Render, (ClientData) togl); } } void Togl_SwapBuffers(const Togl *togl) { if (togl->DoubleFlag) { #if defined(TOGL_WGL) int res = SwapBuffers(togl->tglGLHdc); assert(res == TRUE); #elif defined(TOGL_X11) glXSwapBuffers(Tk_Display(togl->TkWin), Tk_WindowId(togl->TkWin)); #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) aglSwapBuffers(togl->aglCtx); #endif /* TOGL_WGL */ } else { glFlush(); } } const char * Togl_Ident(const Togl *togl) { return togl->Ident; } int Togl_Width(const Togl *togl) { return togl->Width; } int Togl_Height(const Togl *togl) { return togl->Height; } Tcl_Interp * Togl_Interp(const Togl *togl) { return togl->Interp; } Tk_Window Togl_TkWin(const Togl *togl) { return togl->TkWin; } #if defined(TOGL_X11) /* * A replacement for XAllocColor. This function should never * fail to allocate a color. When XAllocColor fails, we return * the nearest matching color. If we have to allocate many colors * this function isn't too efficient; the XQueryColors() could be * done just once. * Written by Michael Pichler, Brian Paul, Mark Kilgard * Input: dpy - X display * cmap - X colormap * cmapSize - size of colormap * In/Out: color - the XColor struct * Output: exact - 1=exact color match, 0=closest match */ static void noFaultXAllocColor(Display *dpy, Colormap cmap, int cmapSize, XColor *color, int *exact) { XColor *ctable, subColor; int i, bestmatch; double mindist; /* 3*2^16^2 exceeds long int precision. */ /* First try just using XAllocColor. */ if (XAllocColor(dpy, cmap, color)) { *exact = 1; return; } /* Retrieve color table entries. */ /* XXX alloca candidate. */ ctable = (XColor *) malloc(cmapSize * sizeof (XColor)); for (i = 0; i < cmapSize; i++) { ctable[i].pixel = i; } (void) XQueryColors(dpy, cmap, ctable, cmapSize); /* Find best match. */ bestmatch = -1; mindist = 0; for (i = 0; i < cmapSize; i++) { double dr = (double) color->red - (double) ctable[i].red; double dg = (double) color->green - (double) ctable[i].green; double db = (double) color->blue - (double) ctable[i].blue; double dist = dr * dr + dg * dg + db * db; if (bestmatch < 0 || dist < mindist) { bestmatch = i; mindist = dist; } } /* Return result. */ subColor.red = ctable[bestmatch].red; subColor.green = ctable[bestmatch].green; subColor.blue = ctable[bestmatch].blue; free(ctable); /* Try to allocate the closest match color. This should only fail if the * cell is read/write. Otherwise, we're incrementing the cell's reference * count. */ if (!XAllocColor(dpy, cmap, &subColor)) { /* do this to work around a problem reported by Frank Ortega */ subColor.pixel = (unsigned long) bestmatch; subColor.red = ctable[bestmatch].red; subColor.green = ctable[bestmatch].green; subColor.blue = ctable[bestmatch].blue; subColor.flags = DoRed | DoGreen | DoBlue; } *color = subColor; } #elif defined(TOGL_WGL) static UINT Win32AllocColor(const Togl *togl, float red, float green, float blue) { /* Modified version of XAllocColor emulation of Tk. - returns index, * instead of color itself - allocates logical palette entry even for * non-palette devices */ TkWinColormap *cmap = (TkWinColormap *) Tk_Colormap(togl->TkWin); UINT index; COLORREF newColor, closeColor; PALETTEENTRY entry, closeEntry; int new, refCount; Tcl_HashEntry *entryPtr; entry.peRed = (unsigned char) (red * 255 + .5); entry.peGreen = (unsigned char) (green * 255 + .5); entry.peBlue = (unsigned char) (blue * 255 + .5); entry.peFlags = 0; /* * Find the nearest existing palette entry. */ newColor = RGB(entry.peRed, entry.peGreen, entry.peBlue); index = GetNearestPaletteIndex(cmap->palette, newColor); GetPaletteEntries(cmap->palette, index, 1, &closeEntry); closeColor = RGB(closeEntry.peRed, closeEntry.peGreen, closeEntry.peBlue); /* * If this is not a duplicate and colormap is not full, allocate a new entry. */ if (newColor != closeColor) { if (cmap->size == (unsigned int) togl->CiColormapSize) { entry = closeEntry; } else { cmap->size++; ResizePalette(cmap->palette, cmap->size); index = cmap->size - 1; SetPaletteEntries(cmap->palette, index, 1, &entry); SelectPalette(togl->tglGLHdc, cmap->palette, TRUE); RealizePalette(togl->tglGLHdc); } } newColor = PALETTERGB(entry.peRed, entry.peGreen, entry.peBlue); entryPtr = Tcl_CreateHashEntry(&cmap->refCounts, (char *) newColor, &new); if (new) { refCount = 1; } else { refCount = ((int) Tcl_GetHashValue(entryPtr)) + 1; } Tcl_SetHashValue(entryPtr, (ClientData) refCount); /* for EPS output */ togl->EpsRedMap[index] = (GLfloat) (entry.peRed / 255.0); togl->EpsGreenMap[index] = (GLfloat) (entry.peGreen / 255.0); togl->EpsBlueMap[index] = (GLfloat) (entry.peBlue / 255.0); return index; } static void Win32FreeColor(const Togl *togl, unsigned long index) { TkWinColormap *cmap = (TkWinColormap *) Tk_Colormap(togl->TkWin); COLORREF cref; UINT count, refCount; PALETTEENTRY entry, *entries; Tcl_HashEntry *entryPtr; if (index >= cmap->size) { panic("Tried to free a color that isn't allocated."); } GetPaletteEntries(cmap->palette, index, 1, &entry); cref = PALETTERGB(entry.peRed, entry.peGreen, entry.peBlue); entryPtr = Tcl_FindHashEntry(&cmap->refCounts, (char *) cref); if (!entryPtr) { panic("Tried to free a color that isn't allocated."); } refCount = (int) Tcl_GetHashValue(entryPtr) - 1; if (refCount == 0) { count = cmap->size - index; entries = (PALETTEENTRY *) ckalloc(sizeof (PALETTEENTRY) * count); GetPaletteEntries(cmap->palette, index + 1, count, entries); SetPaletteEntries(cmap->palette, index, count, entries); SelectPalette(togl->tglGLHdc, cmap->palette, TRUE); RealizePalette(togl->tglGLHdc); ckfree((char *) entries); cmap->size--; Tcl_DeleteHashEntry(entryPtr); } else { Tcl_SetHashValue(entryPtr, (ClientData) refCount); } } static void Win32SetColor(const Togl *togl, unsigned long index, float red, float green, float blue) { TkWinColormap *cmap = (TkWinColormap *) Tk_Colormap(togl->TkWin); PALETTEENTRY entry; entry.peRed = (unsigned char) (red * 255 + .5); entry.peGreen = (unsigned char) (green * 255 + .5); entry.peBlue = (unsigned char) (blue * 255 + .5); entry.peFlags = 0; SetPaletteEntries(cmap->palette, index, 1, &entry); SelectPalette(togl->tglGLHdc, cmap->palette, TRUE); RealizePalette(togl->tglGLHdc); /* for EPS output */ togl->EpsRedMap[index] = (GLfloat) (entry.peRed / 255.0); togl->EpsGreenMap[index] = (GLfloat) (entry.peGreen / 255.0); togl->EpsBlueMap[index] = (GLfloat) (entry.peBlue / 255.0); } #endif /* TOGL_X11 */ unsigned long Togl_AllocColor(const Togl *togl, float red, float green, float blue) { if (togl->RgbaFlag) { (void) fprintf(stderr, "Error: Togl_AllocColor illegal in RGBA mode.\n"); return 0; } /* TODO: maybe not... */ if (togl->PrivateCmapFlag) { (void) fprintf(stderr, "Error: Togl_FreeColor illegal with private colormap\n"); return 0; } #if defined(TOGL_X11) { XColor xcol; int exact; xcol.red = (short) (red * 65535.0); xcol.green = (short) (green * 65535.0); xcol.blue = (short) (blue * 65535.0); noFaultXAllocColor(Tk_Display(togl->TkWin), Tk_Colormap(togl->TkWin), Tk_Visual(togl->TkWin)->map_entries, &xcol, &exact); /* for EPS output */ togl->EpsRedMap[xcol.pixel] = (float) xcol.red / 65535.0; togl->EpsGreenMap[xcol.pixel] = (float) xcol.green / 65535.0; togl->EpsBlueMap[xcol.pixel] = (float) xcol.blue / 65535.0; return xcol.pixel; } #elif defined(TOGL_WGL) return Win32AllocColor(togl, red, green, blue); #elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) /* still need to implement this on Mac... */ return 0; #endif /* TOGL_X11 */ } void Togl_FreeColor(const Togl *togl, unsigned long pixel) { if (togl->RgbaFlag) { (void) fprintf(stderr, "Error: Togl_AllocColor illegal in RGBA mode.\n"); return; } /* TODO: maybe not... */ if (togl->PrivateCmapFlag) { (void) fprintf(stderr, "Error: Togl_FreeColor illegal with private colormap\n"); return; } #if defined(TOGL_X11) (void) XFreeColors(Tk_Display(togl->TkWin), Tk_Colormap(togl->TkWin), &pixel, 1, 0); #elif defined(TOGL_WGL) Win32FreeColor(togl, pixel); #endif /* TOGL_X11 */ } void Togl_SetColor(const Togl *togl, unsigned long index, float red, float green, float blue) { if (togl->RgbaFlag) { (void) fprintf(stderr, "Error: Togl_AllocColor illegal in RGBA mode.\n"); return; } if (!togl->PrivateCmapFlag) { (void) fprintf(stderr, "Error: Togl_SetColor requires a private colormap\n"); return; } #if defined(TOGL_X11) { XColor xcol; xcol.pixel = index; xcol.red = (short) (red * 65535.0); xcol.green = (short) (green * 65535.0); xcol.blue = (short) (blue * 65535.0); xcol.flags = DoRed | DoGreen | DoBlue; (void) XStoreColor(Tk_Display(togl->TkWin), Tk_Colormap(togl->TkWin), &xcol); /* for EPS output */ togl->EpsRedMap[xcol.pixel] = (float) xcol.red / 65535.0; togl->EpsGreenMap[xcol.pixel] = (float) xcol.green / 65535.0; togl->EpsBlueMap[xcol.pixel] = (float) xcol.blue / 65535.0; } #elif defined(TOGL_WGL) Win32SetColor(togl, index, red, green, blue); #endif /* TOGL_X11 */ } #if TOGL_USE_FONTS == 1 # if defined(TOGL_WGL) # include "tkWinInt.h" # include "tkFont.h" /* * The following structure represents Windows' implementation of a font. */ typedef struct WinFont { TkFont font; /* Stuff used by generic font package. Must be * first in structure. */ HFONT hFont; /* Windows information about font. */ HWND hwnd; /* Toplevel window of application that owns * this font, used for getting HDC. */ int widths[256]; /* Widths of first 256 chars in this font. */ } WinFont; # endif /* TOGL_WGL */ # define MAX_FONTS 1000 static GLuint ListBase[MAX_FONTS]; static GLuint ListCount[MAX_FONTS]; /* * Load the named bitmap font as a sequence of bitmaps in a display list. * fontname may be one of the predefined fonts like TOGL_BITMAP_8_BY_13 * or an X font name, or a Windows font name, etc. */ GLuint Togl_LoadBitmapFont(const Togl *togl, const char *fontname) { static Bool FirstTime = True; # if defined(TOGL_X11) XFontStruct *fontinfo; # elif defined(TOGL_WGL) WinFont *winfont; HFONT oldFont; TEXTMETRIC tm; # endif /* TOGL_X11 */ int first, last, count; GLuint fontbase; const char *name; /* Initialize the ListBase and ListCount arrays */ if (FirstTime) { int i; for (i = 0; i < MAX_FONTS; i++) { ListBase[i] = ListCount[i] = 0; } FirstTime = False; } /* * This method of selecting X fonts according to a TOGL_ font name * is a kludge. To be fixed when I find time... */ if (fontname == TOGL_BITMAP_8_BY_13) { name = "8x13"; } else if (fontname == TOGL_BITMAP_9_BY_15) { name = "9x15"; } else if (fontname == TOGL_BITMAP_TIMES_ROMAN_10) { name = "-adobe-times-medium-r-normal--10-100-75-75-p-54-iso8859-1"; } else if (fontname == TOGL_BITMAP_TIMES_ROMAN_24) { name = "-adobe-times-medium-r-normal--24-240-75-75-p-124-iso8859-1"; } else if (fontname == TOGL_BITMAP_HELVETICA_10) { name = "-adobe-helvetica-medium-r-normal--10-100-75-75-p-57-iso8859-1"; } else if (fontname == TOGL_BITMAP_HELVETICA_12) { name = "-adobe-helvetica-medium-r-normal--12-120-75-75-p-67-iso8859-1"; } else if (fontname == TOGL_BITMAP_HELVETICA_18) { name = "-adobe-helvetica-medium-r-normal--18-180-75-75-p-98-iso8859-1"; } else if (!fontname) { name = DEFAULT_FONTNAME; } else { name = (const char *) fontname; } assert(name); # if defined(TOGL_X11) fontinfo = (XFontStruct *) XLoadQueryFont(Tk_Display(togl->TkWin), name); if (!fontinfo) { return 0; } first = fontinfo->min_char_or_byte2; last = fontinfo->max_char_or_byte2; # elif defined(TOGL_WGL) winfont = (WinFont *) Tk_GetFont(togl->Interp, togl->TkWin, name); if (!winfont) { return 0; } oldFont = SelectObject(togl->tglGLHdc, winfont->hFont); GetTextMetrics(togl->tglGLHdc, &tm); first = tm.tmFirstChar; last = tm.tmLastChar; # elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) first = 10; /* don't know how to determine font range on * Mac... */ last = 127; # endif /* TOGL_X11 */ count = last - first + 1; fontbase = glGenLists((GLuint) (last + 1)); if (fontbase == 0) { # ifdef TOGL_WGL SelectObject(togl->tglGLHdc, oldFont); Tk_FreeFont((Tk_Font) winfont); # endif /* TOGL_WGL */ return 0; } # if defined(TOGL_WGL) wglUseFontBitmaps(togl->tglGLHdc, first, count, (int) fontbase + first); SelectObject(togl->tglGLHdc, oldFont); Tk_FreeFont((Tk_Font) winfont); # elif defined(TOGL_X11) glXUseXFont(fontinfo->fid, first, count, (int) fontbase + first); # elif defined(TOGL_AGL_CLASSIC) || defined(TOGL_AGL) aglUseFont(togl->aglCtx, 1, 0, 14, /* for now, only app font, regular * 14-point */ 10, 118, fontbase + first); # endif /* Record the list base and number of display lists for * Togl_UnloadBitmapFont(). */ { int i; for (i = 0; i < MAX_FONTS; i++) { if (ListBase[i] == 0) { ListBase[i] = fontbase; ListCount[i] = last + 1; break; } } } return fontbase; } /* * Release the display lists which were generated by Togl_LoadBitmapFont(). */ void Togl_UnloadBitmapFont(const Togl *togl, GLuint fontbase) { int i; (void) togl; for (i = 0; i < MAX_FONTS; i++) { if (ListBase[i] == fontbase) { glDeleteLists(ListBase[i], ListCount[i]); ListBase[i] = ListCount[i] = 0; return; } } } #endif /* TOGL_USE_FONTS */ /* * Overlay functions */ void Togl_UseLayer(Togl *togl, int layer) { if (!togl->OverlayWindow) return; if (layer == TOGL_OVERLAY) { #if defined(TOGL_WGL) int res = wglMakeCurrent(togl->tglGLHdc, togl->tglGLOverlayHglrc); assert(res == TRUE); #elif defined(TOGL_X11) (void) glXMakeCurrent(Tk_Display(togl->TkWin), togl->OverlayWindow, togl->OverlayCtx); # if defined(__sgi) if (togl->OldStereoFlag) oldStereoMakeCurrent(Tk_Display(togl->TkWin), togl->OverlayWindow, togl->OverlayCtx); # endif /* __sgi STEREO */ #endif /* TOGL_WGL */ } else if (layer == TOGL_NORMAL) { #if defined(TOGL_WGL) int res = wglMakeCurrent(togl->tglGLHdc, togl->tglGLHglrc); assert(res == TRUE); #elif defined(TOGL_X11) (void) glXMakeCurrent(Tk_Display(togl->TkWin), Tk_WindowId(togl->TkWin), togl->GlCtx); # if defined(__sgi) if (togl->OldStereoFlag) oldStereoMakeCurrent(Tk_Display(togl->TkWin), Tk_WindowId(togl->TkWin), togl->GlCtx); # endif /* __sgi STEREO */ #endif /* TOGL_WGL */ } else { /* error */ } } void Togl_ShowOverlay(Togl *togl) { #if defined(TOGL_X11) /* not yet implemented on Windows */ if (togl->OverlayWindow) { (void) XMapWindow(Tk_Display(togl->TkWin), togl->OverlayWindow); (void) XInstallColormap(Tk_Display(togl->TkWin), togl->OverlayCmap); togl->OverlayIsMapped = True; } #endif /* TOGL_X11 */ } void Togl_HideOverlay(Togl *togl) { if (togl->OverlayWindow && togl->OverlayIsMapped) { (void) XUnmapWindow(Tk_Display(togl->TkWin), togl->OverlayWindow); togl->OverlayIsMapped = False; } } void Togl_PostOverlayRedisplay(Togl *togl) { if (!togl->OverlayUpdatePending && togl->OverlayWindow && togl->OverlayDisplayProc) { Tk_DoWhenIdle(RenderOverlay, (ClientData) togl); togl->OverlayUpdatePending = True; } } void Togl_OverlayDisplayFunc(Togl_Callback *proc) { DefaultOverlayDisplayProc = proc; } int Togl_ExistsOverlay(const Togl *togl) { return togl->OverlayFlag; } int Togl_GetOverlayTransparentValue(const Togl *togl) { return togl->OverlayTransparentPixel; } int Togl_IsMappedOverlay(const Togl *togl) { return togl->OverlayFlag && togl->OverlayIsMapped; } unsigned long Togl_AllocColorOverlay(const Togl *togl, float red, float green, float blue) { #if defined(TOGL_X11) /* not yet implemented on Windows */ if (togl->OverlayFlag && togl->OverlayCmap) { XColor xcol; xcol.red = (short) (red * 65535.0); xcol.green = (short) (green * 65535.0); xcol.blue = (short) (blue * 65535.0); if (!XAllocColor(Tk_Display(togl->TkWin), togl->OverlayCmap, &xcol)) return (unsigned long) -1; return xcol.pixel; } #endif /* TOGL_X11 */ return (unsigned long) -1; } void Togl_FreeColorOverlay(const Togl *togl, unsigned long pixel) { #if defined(TOGL_X11) /* not yet implemented on Windows */ if (togl->OverlayFlag && togl->OverlayCmap) { (void) XFreeColors(Tk_Display(togl->TkWin), togl->OverlayCmap, &pixel, 1, 0); } #endif /* TOGL_X11 */ } /* * User client data */ void Togl_ClientData(ClientData clientData) { DefaultClientData = clientData; } ClientData Togl_GetClientData(const Togl *togl) { return togl->Client_Data; } void Togl_SetClientData(Togl *togl, ClientData clientData) { togl->Client_Data = clientData; } /* * X11-only functions * Contributed by Miguel A. De Riera Pasenau (miguel@DALILA.UPC.ES) */ Display * Togl_Display(const Togl *togl) { return Tk_Display(togl->TkWin); } Screen * Togl_Screen(const Togl *togl) { return Tk_Screen(togl->TkWin); } int Togl_ScreenNumber(const Togl *togl) { return Tk_ScreenNumber(togl->TkWin); } Colormap Togl_Colormap(const Togl *togl) { return Tk_Colormap(togl->TkWin); } #ifdef MESA_COLOR_HACK /* * Let's know how many free colors do we have */ # if 0 static unsigned char rojo[] = { 4, 39, 74, 110, 145, 181, 216, 251 }, verde[] = { 4, 39, 74, 110, 145, 181, 216, 251}, azul[] = { 4, 39, 74, 110, 145, 181, 216, 251}; unsigned char rojo[] = { 4, 36, 72, 109, 145, 182, 218, 251 }, verde[] = { 4, 36, 72, 109, 145, 182, 218, 251}, azul[] = { 4, 36, 72, 109, 145, 182, 218, 251}; azul[] = { 0, 85, 170, 255}; # endif # define RLEVELS 5 # define GLEVELS 9 # define BLEVELS 5 /* to free dithered_rgb_colormap pixels allocated by Mesa */ static unsigned long *ToglMesaUsedPixelCells = NULL; static int ToglMesaUsedFreeCells = 0; static int get_free_color_cells(Display *display, int screen, Colormap colormap) { if (!ToglMesaUsedPixelCells) { XColor xcol; int i; int colorsfailed, ncolors = XDisplayCells(display, screen); long r, g, b; ToglMesaUsedPixelCells = (unsigned long *) calloc(ncolors, sizeof (unsigned long)); /* Allocate X colors and initialize color_table[], red_table[], etc */ /* de Mesa 2.1: xmesa1.c setup_dithered_(...) */ i = colorsfailed = 0; for (r = 0; r < RLEVELS; r++) for (g = 0; g < GLEVELS; g++) for (b = 0; b < BLEVELS; b++) { int exact; xcol.red = (r * 65535) / (RLEVELS - 1); xcol.green = (g * 65535) / (GLEVELS - 1); xcol.blue = (b * 65535) / (BLEVELS - 1); noFaultXAllocColor(display, colormap, ncolors, &xcol, &exact); ToglMesaUsedPixelCells[i++] = xcol.pixel; if (!exact) { colorsfailed++; } } ToglMesaUsedFreeCells = i; XFreeColors(display, colormap, ToglMesaUsedPixelCells, ToglMesaUsedFreeCells, 0x00000000); } return ToglMesaUsedFreeCells; } static void free_default_color_cells(Display *display, Colormap colormap) { if (ToglMesaUsedPixelCells) { XFreeColors(display, colormap, ToglMesaUsedPixelCells, ToglMesaUsedFreeCells, 0x00000000); free(ToglMesaUsedPixelCells); ToglMesaUsedPixelCells = NULL; ToglMesaUsedFreeCells = 0; } } #endif /* * Generate EPS file. * Contributed by Miguel A. De Riera Pasenau (miguel@DALILA.UPC.ES) */ /* Function that creates a EPS File from a created pixmap on the current * context. Based on the code from Copyright (c) Mark J. Kilgard, 1996. * Parameters: name_file, b&w / Color flag, redraw function. The redraw * function is needed in order to draw things into the new created pixmap. */ /* Copyright (c) Mark J. Kilgard, 1996. */ static GLvoid * grabPixels(int inColor, unsigned int width, unsigned int height) { GLvoid *buffer; GLint swapbytes, lsbfirst, rowlength; GLint skiprows, skippixels, alignment; GLenum format; unsigned int size; if (inColor) { format = GL_RGB; size = width * height * 3; } else { format = GL_LUMINANCE; size = width * height * 1; } buffer = (GLvoid *) malloc(size); if (buffer == NULL) return NULL; /* Save current modes. */ glGetIntegerv(GL_PACK_SWAP_BYTES, &swapbytes); glGetIntegerv(GL_PACK_LSB_FIRST, &lsbfirst); glGetIntegerv(GL_PACK_ROW_LENGTH, &rowlength); glGetIntegerv(GL_PACK_SKIP_ROWS, &skiprows); glGetIntegerv(GL_PACK_SKIP_PIXELS, &skippixels); glGetIntegerv(GL_PACK_ALIGNMENT, &alignment); /* Little endian machines (DEC Alpha for example) could benefit from * setting GL_PACK_LSB_FIRST to GL_TRUE instead of GL_FALSE, but this would * * * * * * * * * require changing the generated bitmaps too. */ glPixelStorei(GL_PACK_SWAP_BYTES, GL_FALSE); glPixelStorei(GL_PACK_LSB_FIRST, GL_FALSE); glPixelStorei(GL_PACK_ROW_LENGTH, 0); glPixelStorei(GL_PACK_SKIP_ROWS, 0); glPixelStorei(GL_PACK_SKIP_PIXELS, 0); glPixelStorei(GL_PACK_ALIGNMENT, 1); /* Actually read the pixels. */ glReadPixels(0, 0, width, height, format, GL_UNSIGNED_BYTE, (GLvoid *) buffer); /* Restore saved modes. */ glPixelStorei(GL_PACK_SWAP_BYTES, swapbytes); glPixelStorei(GL_PACK_LSB_FIRST, lsbfirst); glPixelStorei(GL_PACK_ROW_LENGTH, rowlength); glPixelStorei(GL_PACK_SKIP_ROWS, skiprows); glPixelStorei(GL_PACK_SKIP_PIXELS, skippixels); glPixelStorei(GL_PACK_ALIGNMENT, alignment); return buffer; } static int generateEPS(const char *filename, int inColor, unsigned int width, unsigned int height) { FILE *fp; GLvoid *pixels; unsigned char *curpix; unsigned int components, i; int pos; unsigned int bitpixel; pixels = grabPixels(inColor, width, height); if (pixels == NULL) return 1; if (inColor) components = 3; /* Red, green, blue. */ else components = 1; /* Luminance. */ fp = fopen(filename, "w"); if (fp == NULL) { return 2; } (void) fprintf(fp, "%%!PS-Adobe-2.0 EPSF-1.2\n"); (void) fprintf(fp, "%%%%Creator: OpenGL pixmap render output\n"); (void) fprintf(fp, "%%%%BoundingBox: 0 0 %d %d\n", width, height); (void) fprintf(fp, "%%%%EndComments\n"); i = (((width * height) + 7) / 8) / 40; /* # of lines, 40 bytes per * line */ (void) fprintf(fp, "%%%%BeginPreview: %d %d %d %d\n%%", width, height, 1, i); pos = 0; curpix = (unsigned char *) pixels; for (i = 0; i < width * height * components;) { bitpixel = 0; if (inColor) { double pix = 0; pix = 0.30 * (double) curpix[i] + 0.59 * (double) curpix[i + 1] + 0.11 * (double) curpix[i + 2]; i += 3; if (pix > 127.0) bitpixel |= 0x80; pix = 0.30 * (double) curpix[i] + 0.59 * (double) curpix[i + 1] + 0.11 * (double) curpix[i + 2]; i += 3; if (pix > 127.0) bitpixel |= 0x40; pix = 0.30 * (double) curpix[i] + 0.59 * (double) curpix[i + 1] + 0.11 * (double) curpix[i + 2]; i += 3; if (pix > 127.0) bitpixel |= 0x20; pix = 0.30 * (double) curpix[i] + 0.59 * (double) curpix[i + 1] + 0.11 * (double) curpix[i + 2]; i += 3; if (pix > 127.0) bitpixel |= 0x10; pix = 0.30 * (double) curpix[i] + 0.59 * (double) curpix[i + 1] + 0.11 * (double) curpix[i + 2]; i += 3; if (pix > 127.0) bitpixel |= 0x08; pix = 0.30 * (double) curpix[i] + 0.59 * (double) curpix[i + 1] + 0.11 * (double) curpix[i + 2]; i += 3; if (pix > 127.0) bitpixel |= 0x04; pix = 0.30 * (double) curpix[i] + 0.59 * (double) curpix[i + 1] + 0.11 * (double) curpix[i + 2]; i += 3; if (pix > 127.0) bitpixel |= 0x02; pix = 0.30 * (double) curpix[i] + 0.59 * (double) curpix[i + 1] + 0.11 * (double) curpix[i + 2]; i += 3; if (pix > 127.0) bitpixel |= 0x01; } else { if (curpix[i++] > 0x7f) bitpixel |= 0x80; if (curpix[i++] > 0x7f) bitpixel |= 0x40; if (curpix[i++] > 0x7f) bitpixel |= 0x20; if (curpix[i++] > 0x7f) bitpixel |= 0x10; if (curpix[i++] > 0x7f) bitpixel |= 0x08; if (curpix[i++] > 0x7f) bitpixel |= 0x04; if (curpix[i++] > 0x7f) bitpixel |= 0x02; if (curpix[i++] > 0x7f) bitpixel |= 0x01; } (void) fprintf(fp, "%02x", bitpixel); if (++pos >= 40) { (void) fprintf(fp, "\n%%"); pos = 0; } } if (pos) (void) fprintf(fp, "\n%%%%EndPreview\n"); else (void) fprintf(fp, "%%EndPreview\n"); (void) fprintf(fp, "gsave\n"); (void) fprintf(fp, "/bwproc {\n"); (void) fprintf(fp, " rgbproc\n"); (void) fprintf(fp, " dup length 3 idiv string 0 3 0\n"); (void) fprintf(fp, " 5 -1 roll {\n"); (void) fprintf(fp, " add 2 1 roll 1 sub dup 0 eq\n"); (void) fprintf(fp, " { pop 3 idiv 3 -1 roll dup 4 -1 roll dup\n"); (void) fprintf(fp, " 3 1 roll 5 -1 roll put 1 add 3 0 }\n"); (void) fprintf(fp, " { 2 1 roll } ifelse\n"); (void) fprintf(fp, " } forall\n"); (void) fprintf(fp, " pop pop pop\n"); (void) fprintf(fp, "} def\n"); (void) fprintf(fp, "systemdict /colorimage known not {\n"); (void) fprintf(fp, " /colorimage {\n"); (void) fprintf(fp, " pop\n"); (void) fprintf(fp, " pop\n"); (void) fprintf(fp, " /rgbproc exch def\n"); (void) fprintf(fp, " { bwproc } image\n"); (void) fprintf(fp, " } def\n"); (void) fprintf(fp, "} if\n"); (void) fprintf(fp, "/picstr %d string def\n", width * components); (void) fprintf(fp, "%d %d scale\n", width, height); (void) fprintf(fp, "%d %d %d\n", width, height, 8); (void) fprintf(fp, "[%d 0 0 %d 0 0]\n", width, height); (void) fprintf(fp, "{currentfile picstr readhexstring pop}\n"); (void) fprintf(fp, "false %d\n", components); (void) fprintf(fp, "colorimage\n"); curpix = (unsigned char *) pixels; pos = 0; for (i = width * height * components; i != 0; i--) { (void) fprintf(fp, "%02hx", *curpix++); if (++pos >= 40) { (void) fprintf(fp, "\n"); pos = 0; } } if (pos) (void) fprintf(fp, "\n"); (void) fprintf(fp, "grestore\n"); free(pixels); if (fclose(fp) != 0) return 1; return 0; } /* int Togl_DumpToEpsFile( const Togl *togl, const char *filename, int inColor, * void (*user_redraw)(void)) */ /* changed by GG */ int Togl_DumpToEpsFile(const Togl *togl, const char *filename, int inColor, void (*user_redraw) (const Togl *)) { Bool using_mesa = False; #if 0 Pixmap eps_pixmap; GLXPixmap eps_glxpixmap; XVisualInfo *vi = togl->VisInfo; Window win = Tk_WindowId(togl->TkWin); #endif int retval; unsigned int width = togl->Width, height = togl->Height; #if defined(TOGL_X11) Display *dpy = Tk_Display(togl->TkWin); int scrnum = Tk_ScreenNumber(togl->TkWin); if (strstr(glXQueryServerString(dpy, scrnum, GLX_VERSION), "Mesa")) using_mesa = True; else #endif /* TOGL_X11 */ using_mesa = False; /* I don't use Pixmap do drawn into, because the code should link with Mesa * libraries and OpenGL libraries, and the which library we use at run time * should not matter, but the name of the calls differs one from another: * MesaGl: glXCreateGLXPixmapMESA( dpy, vi, eps_pixmap, * Tk_Colormap(togl->TkWin)) OpenGl: glXCreateGLXPixmap( dpy, vi, * eps_pixmap); instead of this I read direct from back buffer of the * screeen. */ #if 0 eps_pixmap = XCreatePixmap(dpy, win, width, height, vi->depth); if (using_mesa) eps_glxpixmap = glXCreateGLXPixmapMESA(dpy, vi, eps_pixmap, Tk_Colormap(togl->TkWin)); else eps_glxpixmap = glXCreateGLXPixmap(dpy, vi, eps_pixmap); glXMakeCurrent(dpy, eps_glxpixmap, togl->GlCtx); user_redraw(); #endif if (!togl->RgbaFlag) { #if defined(TOGL_WGL) /* Due to the lack of a unique inverse mapping from the frame buffer to * the logical palette we need a translation map from the complete * logical palette. */ { int n, i; TkWinColormap *cmap = (TkWinColormap *) Tk_Colormap(togl->TkWin); LPPALETTEENTRY entry = malloc(togl->EpsMapSize * sizeof (PALETTEENTRY)); n = GetPaletteEntries(cmap->palette, 0, togl->EpsMapSize, entry); for (i = 0; i < n; i++) { togl->EpsRedMap[i] = (GLfloat) (entry[i].peRed / 255.0); togl->EpsGreenMap[i] = (GLfloat) (entry[i].peGreen / 255.0); togl->EpsBlueMap[i] = (GLfloat) (entry[i].peBlue / 255.0); } free(entry); } #endif /* TOGL_WGL */ glPixelMapfv(GL_PIXEL_MAP_I_TO_R, togl->EpsMapSize, togl->EpsRedMap); glPixelMapfv(GL_PIXEL_MAP_I_TO_G, togl->EpsMapSize, togl->EpsGreenMap); glPixelMapfv(GL_PIXEL_MAP_I_TO_B, togl->EpsMapSize, togl->EpsBlueMap); } /* user_redraw(); */ user_redraw(togl); /* changed by GG */ /* glReadBuffer( GL_FRONT); */ /* by default it read GL_BACK in double buffer mode */ glFlush(); retval = generateEPS(filename, inColor, width, height); #if 0 glXMakeCurrent(dpy, win, togl->GlCtx); glXDestroyGLXPixmap(dpy, eps_glxpixmap); XFreePixmap(dpy, eps_pixmap); #endif return retval; } /* * Full screen stereo for SGI graphics * Contributed by Ben Evans (Ben.Evans@anusf.anu.edu.au) * This code was based on SGI's /usr/share/src/OpenGL/teach/stereo */ #if defined(__sgi) static struct stereoStateRec { Bool useSGIStereo; Display *currentDisplay; Window currentWindow; GLXContext currentContext; GLenum currentDrawBuffer; int currentStereoBuffer; Bool enabled; char *stereoCommand; char *restoreCommand; } stereo; /* call instead of glDrawBuffer */ void Togl_OldStereoDrawBuffer(GLenum mode) { if (stereo.useSGIStereo) { stereo.currentDrawBuffer = mode; switch (mode) { case GL_FRONT: case GL_BACK: case GL_FRONT_AND_BACK: /* ** Simultaneous drawing to both left and right buffers isn't ** really possible if we don't have a stereo capable visual. ** For now just fall through and use the left buffer. */ case GL_LEFT: case GL_FRONT_LEFT: case GL_BACK_LEFT: stereo.currentStereoBuffer = STEREO_BUFFER_LEFT; break; case GL_RIGHT: case GL_FRONT_RIGHT: stereo.currentStereoBuffer = STEREO_BUFFER_RIGHT; mode = GL_FRONT; break; case GL_BACK_RIGHT: stereo.currentStereoBuffer = STEREO_BUFFER_RIGHT; mode = GL_BACK; break; default: break; } if (stereo.currentDisplay && stereo.currentWindow) { glXWaitGL(); /* sync with GL command stream before calling X */ XSGISetStereoBuffer(stereo.currentDisplay, stereo.currentWindow, stereo.currentStereoBuffer); glXWaitX(); /* sync with X command stream before calling GL */ } } glDrawBuffer(mode); } /* call instead of glClear */ void Togl_OldStereoClear(GLbitfield mask) { GLenum drawBuffer; if (stereo.useSGIStereo) { drawBuffer = stereo.currentDrawBuffer; switch (drawBuffer) { case GL_FRONT: Togl_OldStereoDrawBuffer(GL_FRONT_RIGHT); glClear(mask); Togl_OldStereoDrawBuffer(drawBuffer); break; case GL_BACK: Togl_OldStereoDrawBuffer(GL_BACK_RIGHT); glClear(mask); Togl_OldStereoDrawBuffer(drawBuffer); break; case GL_FRONT_AND_BACK: Togl_OldStereoDrawBuffer(GL_RIGHT); glClear(mask); Togl_OldStereoDrawBuffer(drawBuffer); break; case GL_LEFT: case GL_FRONT_LEFT: case GL_BACK_LEFT: case GL_RIGHT: case GL_FRONT_RIGHT: case GL_BACK_RIGHT: default: break; } } glClear(mask); } static void oldStereoMakeCurrent(Display *dpy, Window win, GLXContext ctx) { if (dpy && (dpy != stereo.currentDisplay)) { int event, error; /* Make sure new Display supports SGIStereo */ if (XSGIStereoQueryExtension(dpy, &event, &error) == False) { dpy = NULL; } } if (dpy && win && (win != stereo.currentWindow)) { /* Make sure new Window supports SGIStereo */ if (XSGIQueryStereoMode(dpy, win) == X_STEREO_UNSUPPORTED) { win = None; } } if (ctx && (ctx != stereo.currentContext)) { GLint drawBuffer; glGetIntegerv(GL_DRAW_BUFFER, &drawBuffer); Togl_OldStereoDrawBuffer((GLenum) drawBuffer); } stereo.currentDisplay = dpy; stereo.currentWindow = win; stereo.currentContext = ctx; } /* call before using stereo */ static void oldStereoInit(Togl *togl, int stereoEnabled) { stereo.useSGIStereo = stereoEnabled; stereo.currentDisplay = NULL; stereo.currentWindow = None; stereo.currentContext = NULL; stereo.currentDrawBuffer = GL_NONE; stereo.currentStereoBuffer = STEREO_BUFFER_NONE; stereo.enabled = False; } #endif /* __sgi STEREO */ void Togl_StereoFrustum(GLfloat left, GLfloat right, GLfloat bottom, GLfloat top, GLfloat zNear, GLfloat zFar, GLfloat eyeDist, GLfloat eyeOffset) { GLfloat eyeShift = (eyeDist - zNear) * (eyeOffset / eyeDist); glFrustum(left + eyeShift, right + eyeShift, bottom, top, zNear, zFar); glTranslatef(-eyeShift, 0, 0); } #ifdef TOGL_AGL_CLASSIC /* needed to make shared library on Mac with CodeWarrior; should be overridden * by user app */ /* * int main(int argc, char *argv[]) { return -1; } */ /* the following code is borrowed from tkMacAppInit.c */ /* *---------------------------------------------------------------------- * * MacintoshInit -- * * This procedure calls Mac specific initilization calls. Most of * these calls must be made as soon as possible in the startup * process. * * Results: * Returns TCL_OK if everything went fine. If it didn't the * application should probably fail. * * Side effects: * Inits the application. * *---------------------------------------------------------------------- */ int Togl_MacInit(void) { int i; long result, mask = 0x0700; /* mask = system 7.x */ # if GENERATING68K && !GENERATINGCFM SetApplLimit(GetApplLimit() - (TK_MAC_68K_STACK_GROWTH)); # endif MaxApplZone(); for (i = 0; i < 4; i++) { (void) MoreMasters(); } /* * Tk needs us to set the qd pointer it uses. This is needed * so Tk doesn't have to assume the availablity of the qd global * variable. Which in turn allows Tk to be used in code resources. */ tcl_macQdPtr = &qd; /* * If appearance is present, then register Tk as an Appearance client * This means that the mapping from non-Appearance to Appearance cdefs * will be done for Tk regardless of the setting in the Appearance * control panel. */ if (TkMacHaveAppearance()) { RegisterAppearanceClient(); } InitGraf(&tcl_macQdPtr->thePort); InitFonts(); InitWindows(); InitMenus(); InitDialogs((long) NULL); InitCursor(); /* * Make sure we are running on system 7 or higher */ if ((NGetTrapAddress(_Gestalt, ToolTrap) == NGetTrapAddress(_Unimplemented, ToolTrap)) || (((Gestalt(gestaltSystemVersion, &result) != noErr) || (result < mask)))) { panic("Tcl/Tk requires System 7 or higher."); } /* * Make sure we have color quick draw * (this means we can't run on 68000 macs) */ if (((Gestalt(gestaltQuickdrawVersion, &result) != noErr) || (result < gestalt32BitQD13))) { panic("Tk requires Color QuickDraw."); } FlushEvents(everyEvent, 0); SetEventMask(everyEvent); Tcl_MacSetEventProc(TkMacConvertEvent); return TCL_OK; } int Togl_MacSetupMainInterp(Tcl_Interp *interp) { TkMacInitAppleEvents(interp); TkMacInitMenus(interp); return TCL_OK; } #endif /* TOGL_AGL_CLASSIC */