/* * tkWindow.c -- * * This file provides basic window-manipulation procedures, * which are equivalent to procedures in Xlib (and even * invoke them) but also maintain the local Tk_Window * structure. * * Copyright (c) 1989-1994 The Regents of the University of California. * Copyright (c) 1994-1997 Sun Microsystems, Inc. * * See the file "license.terms" for information on usage and redistribution * of this file, and for a DISCLAIMER OF ALL WARRANTIES. * * RCS: @(#) $Id: tkWindow.c,v 1.56.2.8 2006/03/30 01:38:39 hobbs Exp $ */ #include "tkPort.h" #include "tkInt.h" #if !( defined(__WIN32__) || defined(MAC_TCL) || defined(MAC_OSX_TK)) #include "tkUnixInt.h" #endif /* * Type used to keep track of Window objects that were * only partically deallocated by Tk_DestroyWindow. */ #define HD_CLEANUP 1 #define HD_FOCUS 2 #define HD_MAIN_WIN 4 #define HD_DESTROY_COUNT 8 #define HD_DESTROY_EVENT 0x10 typedef struct TkHalfdeadWindow { int flags; struct TkWindow *winPtr; struct TkHalfdeadWindow *nextPtr; } TkHalfdeadWindow; typedef struct ThreadSpecificData { int numMainWindows; /* Count of numver of main windows currently * open in this thread. */ TkMainInfo *mainWindowList; /* First in list of all main windows managed * by this thread. */ TkHalfdeadWindow *halfdeadWindowList; /* First in list of partially deallocated * windows. */ TkDisplay *displayList; /* List of all displays currently in use by * the current thread. */ int initialized; /* 0 means the structures above need * initializing. */ } ThreadSpecificData; static Tcl_ThreadDataKey dataKey; /* * The Mutex below is used to lock access to the Tk_Uid structs above. */ TCL_DECLARE_MUTEX(windowMutex) /* * Default values for "changes" and "atts" fields of TkWindows. Note * that Tk always requests all events for all windows, except StructureNotify * events on internal windows: these events are generated internally. */ static XWindowChanges defChanges = { 0, 0, 1, 1, 0, 0, Above }; #define ALL_EVENTS_MASK \ KeyPressMask|KeyReleaseMask|ButtonPressMask|ButtonReleaseMask| \ EnterWindowMask|LeaveWindowMask|PointerMotionMask|ExposureMask| \ VisibilityChangeMask|PropertyChangeMask|ColormapChangeMask static XSetWindowAttributes defAtts= { None, /* background_pixmap */ 0, /* background_pixel */ CopyFromParent, /* border_pixmap */ 0, /* border_pixel */ NorthWestGravity, /* bit_gravity */ NorthWestGravity, /* win_gravity */ NotUseful, /* backing_store */ (unsigned) ~0, /* backing_planes */ 0, /* backing_pixel */ False, /* save_under */ ALL_EVENTS_MASK, /* event_mask */ 0, /* do_not_propagate_mask */ False, /* override_redirect */ CopyFromParent, /* colormap */ None /* cursor */ }; /* * The following structure defines all of the commands supported by * Tk, and the C procedures that execute them. */ typedef struct { char *name; /* Name of command. */ Tcl_CmdProc *cmdProc; /* Command's string-based procedure. */ Tcl_ObjCmdProc *objProc; /* Command's object-based procedure. */ int isSafe; /* If !0, this command will be exposed in * a safe interpreter. Otherwise it will be * hidden in a safe interpreter. */ int passMainWindow; /* 0 means provide NULL clientData to * command procedure; 1 means pass main * window as clientData to command * procedure. */ } TkCmd; static TkCmd commands[] = { /* * Commands that are part of the intrinsics: */ {"bell", NULL, Tk_BellObjCmd, 0, 1}, {"bind", NULL, Tk_BindObjCmd, 1, 1}, {"bindtags", NULL, Tk_BindtagsObjCmd, 1, 1}, {"clipboard", NULL, Tk_ClipboardObjCmd, 0, 1}, {"destroy", NULL, Tk_DestroyObjCmd, 1, 1}, {"event", NULL, Tk_EventObjCmd, 1, 1}, {"focus", NULL, Tk_FocusObjCmd, 1, 1}, {"font", NULL, Tk_FontObjCmd, 1, 1}, {"grab", NULL, Tk_GrabObjCmd, 0, 1}, {"grid", NULL, Tk_GridObjCmd, 1, 1}, {"image", NULL, Tk_ImageObjCmd, 1, 1}, {"lower", NULL, Tk_LowerObjCmd, 1, 1}, {"option", NULL, Tk_OptionObjCmd, 1, 1}, {"pack", NULL, Tk_PackObjCmd, 1, 1}, {"place", NULL, Tk_PlaceObjCmd, 1, 0}, {"raise", NULL, Tk_RaiseObjCmd, 1, 1}, {"selection", NULL, Tk_SelectionObjCmd, 0, 1}, {"tk", NULL, Tk_TkObjCmd, 1, 1}, {"tkwait", NULL, Tk_TkwaitObjCmd, 1, 1}, #if defined(__WIN32__) || defined(MAC_TCL) || defined(MAC_OSX_TK) {"tk_chooseColor", NULL, Tk_ChooseColorObjCmd, 0, 1}, {"tk_chooseDirectory", NULL, Tk_ChooseDirectoryObjCmd, 0, 1}, {"tk_getOpenFile", NULL, Tk_GetOpenFileObjCmd, 0, 1}, {"tk_getSaveFile", NULL, Tk_GetSaveFileObjCmd, 0, 1}, #endif #if defined(__WIN32__) || defined(MAC_OSX_TK) {"tk_messageBox", NULL, Tk_MessageBoxObjCmd, 0, 1}, #endif {"update", NULL, Tk_UpdateObjCmd, 1, 1}, {"winfo", NULL, Tk_WinfoObjCmd, 1, 1}, {"wm", NULL, Tk_WmObjCmd, 0, 1}, /* * Widget class commands. */ {"button", NULL, Tk_ButtonObjCmd, 1, 0}, {"canvas", NULL, Tk_CanvasObjCmd, 1, 1}, {"checkbutton", NULL, Tk_CheckbuttonObjCmd, 1, 0}, {"entry", NULL, Tk_EntryObjCmd, 1, 0}, {"frame", NULL, Tk_FrameObjCmd, 1, 0}, {"label", NULL, Tk_LabelObjCmd, 1, 0}, {"labelframe", NULL, Tk_LabelframeObjCmd, 1, 0}, {"listbox", NULL, Tk_ListboxObjCmd, 1, 0}, {"menubutton", NULL, Tk_MenubuttonObjCmd, 1, 0}, {"message", NULL, Tk_MessageObjCmd, 1, 0}, {"panedwindow", NULL, Tk_PanedWindowObjCmd, 1, 0}, {"radiobutton", NULL, Tk_RadiobuttonObjCmd, 1, 0}, {"scale", NULL, Tk_ScaleObjCmd, 1, 0}, {"scrollbar", Tk_ScrollbarCmd, NULL, 1, 1}, {"spinbox", NULL, Tk_SpinboxObjCmd, 1, 0}, {"text", Tk_TextCmd, NULL, 1, 1}, {"toplevel", NULL, Tk_ToplevelObjCmd, 0, 0}, /* * Misc. */ #if defined(MAC_TCL) || defined(MAC_OSX_TK) {"::tk::unsupported::MacWindowStyle", NULL, TkUnsupported1ObjCmd, 1, 1}, #endif {(char *) NULL, (int (*) _ANSI_ARGS_((ClientData, Tcl_Interp *, int, CONST char **))) NULL, NULL, 0} }; /* * The variables and table below are used to parse arguments from * the "argv" variable in Tk_Init. */ static int synchronize = 0; static char *name = NULL; static char *display = NULL; static char *geometry = NULL; static char *colormap = NULL; static char *use = NULL; static char *visual = NULL; static int rest = 0; static Tk_ArgvInfo argTable[] = { {"-colormap", TK_ARGV_STRING, (char *) NULL, (char *) &colormap, "Colormap for main window"}, {"-display", TK_ARGV_STRING, (char *) NULL, (char *) &display, "Display to use"}, {"-geometry", TK_ARGV_STRING, (char *) NULL, (char *) &geometry, "Initial geometry for window"}, {"-name", TK_ARGV_STRING, (char *) NULL, (char *) &name, "Name to use for application"}, {"-sync", TK_ARGV_CONSTANT, (char *) 1, (char *) &synchronize, "Use synchronous mode for display server"}, {"-visual", TK_ARGV_STRING, (char *) NULL, (char *) &visual, "Visual for main window"}, {"-use", TK_ARGV_STRING, (char *) NULL, (char *) &use, "Id of window in which to embed application"}, {"--", TK_ARGV_REST, (char *) 1, (char *) &rest, "Pass all remaining arguments through to script"}, {(char *) NULL, TK_ARGV_END, (char *) NULL, (char *) NULL, (char *) NULL} }; /* * Forward declarations to procedures defined later in this file: */ static Tk_Window CreateTopLevelWindow _ANSI_ARGS_((Tcl_Interp *interp, Tk_Window parent, CONST char *name, CONST char *screenName, unsigned int flags)); static void DeleteWindowsExitProc _ANSI_ARGS_(( ClientData clientData)); static TkDisplay * GetScreen _ANSI_ARGS_((Tcl_Interp *interp, CONST char *screenName, int *screenPtr)); static int Initialize _ANSI_ARGS_((Tcl_Interp *interp)); static int NameWindow _ANSI_ARGS_((Tcl_Interp *interp, TkWindow *winPtr, TkWindow *parentPtr, CONST char *name)); static void UnlinkWindow _ANSI_ARGS_((TkWindow *winPtr)); /* *---------------------------------------------------------------------- * * TkCloseDisplay -- * Closing the display can lead to order of deletion problems. * We defer it until exit handling for Mac/Win, but since Unix can * use many displays, try and clean it up as best as possible. * * Results: * None. * * Side effects: * Resources associated with the display will be free. * The display may not be referenced at all after this. *---------------------------------------------------------------------- */ static void TkCloseDisplay(TkDisplay *dispPtr) { TkClipCleanup(dispPtr); if (dispPtr->name != NULL) { ckfree(dispPtr->name); } if (dispPtr->atomInit) { Tcl_DeleteHashTable(&dispPtr->nameTable); Tcl_DeleteHashTable(&dispPtr->atomTable); dispPtr->atomInit = 0; } if (dispPtr->errorPtr != NULL) { TkErrorHandler *errorPtr; for (errorPtr = dispPtr->errorPtr; errorPtr != NULL; errorPtr = dispPtr->errorPtr) { dispPtr->errorPtr = errorPtr->nextPtr; ckfree((char *) errorPtr); } } TkGCCleanup(dispPtr); TkpCloseDisplay(dispPtr); /* * Delete winTable after TkpCloseDisplay since special windows * may need call Tk_DestroyWindow and it checks the winTable. */ Tcl_DeleteHashTable(&dispPtr->winTable); ckfree((char *) dispPtr); /* * There is more to clean up, we leave it at this for the time being. */ } /* *---------------------------------------------------------------------- * * CreateTopLevelWindow -- * * Make a new window that will be at top-level (its parent will * be the root window of a screen). * * Results: * The return value is a token for the new window, or NULL if * an error prevented the new window from being created. If * NULL is returned, an error message will be left in * the interp's result. * * Side effects: * A new window structure is allocated locally. An X * window is NOT initially created, but will be created * the first time the window is mapped. * *---------------------------------------------------------------------- */ static Tk_Window CreateTopLevelWindow(interp, parent, name, screenName, flags) Tcl_Interp *interp; /* Interpreter to use for error reporting. */ Tk_Window parent; /* Token for logical parent of new window * (used for naming, options, etc.). May * be NULL. */ CONST char *name; /* Name for new window; if parent is * non-NULL, must be unique among parent's * children. */ CONST char *screenName; /* Name of screen on which to create * window. NULL means use DISPLAY environment * variable to determine. Empty string means * use parent's screen, or DISPLAY if no * parent. */ unsigned int flags; /* Additional flags to set on the window. */ { register TkWindow *winPtr; register TkDisplay *dispPtr; int screenId; ThreadSpecificData *tsdPtr = (ThreadSpecificData *) Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData)); if (!tsdPtr->initialized) { tsdPtr->initialized = 1; /* * Create built-in image types. */ Tk_CreateImageType(&tkBitmapImageType); Tk_CreateImageType(&tkPhotoImageType); /* * Create built-in photo image formats. */ Tk_CreatePhotoImageFormat(&tkImgFmtGIF); Tk_CreatePhotoImageFormat(&tkImgFmtPPM); /* * Create exit handler to delete all windows when the application * exits. This must be a thread exit handler, but there may be * ordering issues with other exit handlers * (i.e. OptionThreadExitProc). */ Tcl_CreateThreadExitHandler(DeleteWindowsExitProc, (ClientData) tsdPtr); } if ((parent != NULL) && (screenName != NULL) && (screenName[0] == '\0')) { dispPtr = ((TkWindow *) parent)->dispPtr; screenId = Tk_ScreenNumber(parent); } else { dispPtr = GetScreen(interp, screenName, &screenId); if (dispPtr == NULL) { return (Tk_Window) NULL; } } winPtr = TkAllocWindow(dispPtr, screenId, (TkWindow *) parent); /* * Set the flags specified in the call. */ winPtr->flags |= flags; /* * Force the window to use a border pixel instead of border pixmap. * This is needed for the case where the window doesn't use the * default visual. In this case, the default border is a pixmap * inherited from the root window, which won't work because it will * have the wrong visual. */ winPtr->dirtyAtts |= CWBorderPixel; /* * (Need to set the TK_TOP_HIERARCHY flag immediately here; otherwise * Tk_DestroyWindow will core dump if it is called before the flag * has been set.) */ winPtr->flags |= TK_TOP_HIERARCHY|TK_TOP_LEVEL|TK_HAS_WRAPPER|TK_WIN_MANAGED; if (parent != NULL) { if (NameWindow(interp, winPtr, (TkWindow *) parent, name) != TCL_OK) { Tk_DestroyWindow((Tk_Window) winPtr); return (Tk_Window) NULL; } } TkWmNewWindow(winPtr); return (Tk_Window) winPtr; } /* *---------------------------------------------------------------------- * * GetScreen -- * * Given a string name for a display-plus-screen, find the * TkDisplay structure for the display and return the screen * number too. * * Results: * The return value is a pointer to information about the display, * or NULL if the display couldn't be opened. In this case, an * error message is left in the interp's result. The location at * *screenPtr is overwritten with the screen number parsed from * screenName. * * Side effects: * A new connection is opened to the display if there is no * connection already. A new TkDisplay data structure is also * setup, if necessary. * *---------------------------------------------------------------------- */ static TkDisplay * GetScreen(interp, screenName, screenPtr) Tcl_Interp *interp; /* Place to leave error message. */ CONST char *screenName; /* Name for screen. NULL or empty means * use DISPLAY envariable. */ int *screenPtr; /* Where to store screen number. */ { register TkDisplay *dispPtr; CONST char *p; int screenId; size_t length; ThreadSpecificData *tsdPtr = (ThreadSpecificData *) Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData)); /* * Separate the screen number from the rest of the display * name. ScreenName is assumed to have the syntax * . with the dot and the screen being * optional. */ screenName = TkGetDefaultScreenName(interp, screenName); if (screenName == NULL) { Tcl_SetResult(interp, "no display name and no $DISPLAY environment variable", TCL_STATIC); return (TkDisplay *) NULL; } length = strlen(screenName); screenId = 0; p = screenName+length-1; while (isdigit(UCHAR(*p)) && (p != screenName)) { p--; } if ((*p == '.') && (p[1] != '\0')) { length = p - screenName; screenId = strtoul(p+1, (char **) NULL, 10); } /* * See if we already have a connection to this display. If not, * then open a new connection. */ for (dispPtr = tsdPtr->displayList; ; dispPtr = dispPtr->nextPtr) { if (dispPtr == NULL) { /* * The private function zeros out dispPtr when it is created, * so we only need to initialize the non-zero items. */ dispPtr = TkpOpenDisplay(screenName); if (dispPtr == NULL) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "couldn't connect to display \"", screenName, "\"", (char *) NULL); return (TkDisplay *) NULL; } dispPtr->nextPtr = tsdPtr->displayList; /* TkGetDisplayList(); */ tsdPtr->displayList = dispPtr; dispPtr->lastEventTime = CurrentTime; dispPtr->bindInfoStale = 1; dispPtr->cursorFont = None; dispPtr->warpWindow = None; dispPtr->multipleAtom = None; /* * By default we do want to collapse motion events in * Tk_QueueWindowEvent. */ dispPtr->flags |= TK_DISPLAY_COLLAPSE_MOTION_EVENTS; Tcl_InitHashTable(&dispPtr->winTable, TCL_ONE_WORD_KEYS); dispPtr->name = (char *) ckalloc((unsigned) (length+1)); strncpy(dispPtr->name, screenName, length); dispPtr->name[length] = '\0'; TkInitXId(dispPtr); break; } if ((strncmp(dispPtr->name, screenName, length) == 0) && (dispPtr->name[length] == '\0')) { break; } } if (screenId >= ScreenCount(dispPtr->display)) { char buf[32 + TCL_INTEGER_SPACE]; sprintf(buf, "bad screen number \"%d\"", screenId); Tcl_SetResult(interp, buf, TCL_VOLATILE); return (TkDisplay *) NULL; } *screenPtr = screenId; return dispPtr; } /* *---------------------------------------------------------------------- * * TkGetDisplay -- * * Given an X display, TkGetDisplay returns the TkDisplay * structure for the display. * * Results: * The return value is a pointer to information about the display, * or NULL if the display did not have a TkDisplay structure. * * Side effects: * None. * *---------------------------------------------------------------------- */ TkDisplay * TkGetDisplay(display) Display *display; /* X's display pointer */ { TkDisplay *dispPtr; ThreadSpecificData *tsdPtr = (ThreadSpecificData *) Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData)); for (dispPtr = tsdPtr->displayList; dispPtr != NULL; dispPtr = dispPtr->nextPtr) { if (dispPtr->display == display) { break; } } return dispPtr; } /* *-------------------------------------------------------------- * * TkGetDisplayList -- * * This procedure returns a pointer to the thread-local * list of TkDisplays corresponding to the open displays. * * Results: * The return value is a pointer to the first TkDisplay * structure in thread-local-storage. * * Side effects: * None. * *-------------------------------------------------------------- */ TkDisplay * TkGetDisplayList() { ThreadSpecificData *tsdPtr = (ThreadSpecificData *) Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData)); return tsdPtr->displayList; } /* *-------------------------------------------------------------- * * TkGetMainInfoList -- * * This procedure returns a pointer to the list of structures * containing information about all main windows for the * current thread. * * Results: * The return value is a pointer to the first TkMainInfo * structure in thread local storage. * * Side effects: * None. * *-------------------------------------------------------------- */ TkMainInfo * TkGetMainInfoList() { ThreadSpecificData *tsdPtr = (ThreadSpecificData *) Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData)); return tsdPtr->mainWindowList; } /* *-------------------------------------------------------------- * * TkAllocWindow -- * * This procedure creates and initializes a TkWindow structure. * * Results: * The return value is a pointer to the new window. * * Side effects: * A new window structure is allocated and all its fields are * initialized. * *-------------------------------------------------------------- */ TkWindow * TkAllocWindow(dispPtr, screenNum, parentPtr) TkDisplay *dispPtr; /* Display associated with new window. */ int screenNum; /* Index of screen for new window. */ TkWindow *parentPtr; /* Parent from which this window should * inherit visual information. NULL means * use screen defaults instead of * inheriting. */ { register TkWindow *winPtr; winPtr = (TkWindow *) ckalloc(sizeof(TkWindow)); winPtr->display = dispPtr->display; winPtr->dispPtr = dispPtr; winPtr->screenNum = screenNum; if ((parentPtr != NULL) && (parentPtr->display == winPtr->display) && (parentPtr->screenNum == winPtr->screenNum)) { winPtr->visual = parentPtr->visual; winPtr->depth = parentPtr->depth; } else { winPtr->visual = DefaultVisual(dispPtr->display, screenNum); winPtr->depth = DefaultDepth(dispPtr->display, screenNum); } winPtr->window = None; winPtr->childList = NULL; winPtr->lastChildPtr = NULL; winPtr->parentPtr = NULL; winPtr->nextPtr = NULL; winPtr->mainPtr = NULL; winPtr->pathName = NULL; winPtr->nameUid = NULL; winPtr->classUid = NULL; winPtr->changes = defChanges; winPtr->dirtyChanges = CWX|CWY|CWWidth|CWHeight|CWBorderWidth; winPtr->atts = defAtts; if ((parentPtr != NULL) && (parentPtr->display == winPtr->display) && (parentPtr->screenNum == winPtr->screenNum)) { winPtr->atts.colormap = parentPtr->atts.colormap; } else { winPtr->atts.colormap = DefaultColormap(dispPtr->display, screenNum); } winPtr->dirtyAtts = CWEventMask|CWColormap|CWBitGravity; winPtr->flags = 0; winPtr->handlerList = NULL; #ifdef TK_USE_INPUT_METHODS winPtr->inputContext = NULL; #endif /* TK_USE_INPUT_METHODS */ winPtr->tagPtr = NULL; winPtr->numTags = 0; winPtr->optionLevel = -1; winPtr->selHandlerList = NULL; winPtr->geomMgrPtr = NULL; winPtr->geomData = NULL; winPtr->reqWidth = winPtr->reqHeight = 1; winPtr->internalBorderLeft = 0; winPtr->wmInfoPtr = NULL; winPtr->classProcsPtr = NULL; winPtr->instanceData = NULL; winPtr->privatePtr = NULL; winPtr->internalBorderRight = 0; winPtr->internalBorderTop = 0; winPtr->internalBorderBottom = 0; winPtr->minReqWidth = 0; winPtr->minReqHeight = 0; return winPtr; } /* *---------------------------------------------------------------------- * * NameWindow -- * * This procedure is invoked to give a window a name and insert * the window into the hierarchy associated with a particular * application. * * Results: * A standard Tcl return value. * * Side effects: * See above. * *---------------------------------------------------------------------- */ static int NameWindow(interp, winPtr, parentPtr, name) Tcl_Interp *interp; /* Interpreter to use for error reporting. */ register TkWindow *winPtr; /* Window that is to be named and inserted. */ TkWindow *parentPtr; /* Pointer to logical parent for winPtr * (used for naming, options, etc.). */ CONST char *name; /* Name for winPtr; must be unique among * parentPtr's children. */ { #define FIXED_SIZE 200 char staticSpace[FIXED_SIZE]; char *pathName; int new; Tcl_HashEntry *hPtr; int length1, length2; /* * Setup all the stuff except name right away, then do the name stuff * last. This is so that if the name stuff fails, everything else * will be properly initialized (needed to destroy the window cleanly * after the naming failure). */ winPtr->parentPtr = parentPtr; winPtr->nextPtr = NULL; if (parentPtr->childList == NULL) { parentPtr->childList = winPtr; } else { parentPtr->lastChildPtr->nextPtr = winPtr; } parentPtr->lastChildPtr = winPtr; winPtr->mainPtr = parentPtr->mainPtr; winPtr->mainPtr->refCount++; /* * If this is an anonymous window (ie, it has no name), just return OK * now. */ if (winPtr->flags & TK_ANONYMOUS_WINDOW) { return TCL_OK; } /* * For non-anonymous windows, set up the window name. */ winPtr->nameUid = Tk_GetUid(name); /* * Don't permit names that start with an upper-case letter: this * will just cause confusion with class names in the option database. */ if (isupper(UCHAR(name[0]))) { Tcl_AppendResult(interp, "window name starts with an upper-case letter: \"", name, "\"", (char *) NULL); return TCL_ERROR; } /* * To permit names of arbitrary length, must be prepared to malloc * a buffer to hold the new path name. To run fast in the common * case where names are short, use a fixed-size buffer on the * stack. */ length1 = strlen(parentPtr->pathName); length2 = strlen(name); if ((length1+length2+2) <= FIXED_SIZE) { pathName = staticSpace; } else { pathName = (char *) ckalloc((unsigned) (length1+length2+2)); } if (length1 == 1) { pathName[0] = '.'; strcpy(pathName+1, name); } else { strcpy(pathName, parentPtr->pathName); pathName[length1] = '.'; strcpy(pathName+length1+1, name); } hPtr = Tcl_CreateHashEntry(&parentPtr->mainPtr->nameTable, pathName, &new); if (pathName != staticSpace) { ckfree(pathName); } if (!new) { Tcl_AppendResult(interp, "window name \"", name, "\" already exists in parent", (char *) NULL); return TCL_ERROR; } Tcl_SetHashValue(hPtr, winPtr); winPtr->pathName = Tcl_GetHashKey(&parentPtr->mainPtr->nameTable, hPtr); return TCL_OK; } /* *---------------------------------------------------------------------- * * TkCreateMainWindow -- * * Make a new main window. A main window is a special kind of * top-level window used as the outermost window in an * application. * * Results: * The return value is a token for the new window, or NULL if * an error prevented the new window from being created. If * NULL is returned, an error message will be left in * the interp's result. * * Side effects: * A new window structure is allocated locally; "interp" is * associated with the window and registered for "send" commands * under "baseName". BaseName may be extended with an instance * number in the form "#2" if necessary to make it globally * unique. Tk-related commands are bound into interp. * *---------------------------------------------------------------------- */ Tk_Window TkCreateMainWindow(interp, screenName, baseName) Tcl_Interp *interp; /* Interpreter to use for error reporting. */ CONST char *screenName; /* Name of screen on which to create * window. Empty or NULL string means * use DISPLAY environment variable. */ char *baseName; /* Base name for application; usually of the * form "prog instance". */ { Tk_Window tkwin; int dummy; int isSafe; Tcl_HashEntry *hPtr; register TkMainInfo *mainPtr; register TkWindow *winPtr; register TkCmd *cmdPtr; ClientData clientData; ThreadSpecificData *tsdPtr = (ThreadSpecificData *) Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData)); /* * Panic if someone updated the TkWindow structure without * also updating the Tk_FakeWin structure (or vice versa). */ if (sizeof(TkWindow) != sizeof(Tk_FakeWin)) { panic("TkWindow and Tk_FakeWin are not the same size"); } /* * Create the basic TkWindow structure. */ tkwin = CreateTopLevelWindow(interp, (Tk_Window) NULL, baseName, screenName, /* flags */ 0); if (tkwin == NULL) { return NULL; } /* * Create the TkMainInfo structure for this application, and set * up name-related information for the new window. */ winPtr = (TkWindow *) tkwin; mainPtr = (TkMainInfo *) ckalloc(sizeof(TkMainInfo)); mainPtr->winPtr = winPtr; mainPtr->refCount = 1; mainPtr->interp = interp; Tcl_InitHashTable(&mainPtr->nameTable, TCL_STRING_KEYS); mainPtr->deletionEpoch = 0l; TkEventInit(); TkBindInit(mainPtr); TkFontPkgInit(mainPtr); TkStylePkgInit(mainPtr); mainPtr->tlFocusPtr = NULL; mainPtr->displayFocusPtr = NULL; mainPtr->optionRootPtr = NULL; Tcl_InitHashTable(&mainPtr->imageTable, TCL_STRING_KEYS); mainPtr->strictMotif = 0; if (Tcl_LinkVar(interp, "tk_strictMotif", (char *) &mainPtr->strictMotif, TCL_LINK_BOOLEAN) != TCL_OK) { Tcl_ResetResult(interp); } mainPtr->nextPtr = tsdPtr->mainWindowList; tsdPtr->mainWindowList = mainPtr; winPtr->mainPtr = mainPtr; hPtr = Tcl_CreateHashEntry(&mainPtr->nameTable, ".", &dummy); Tcl_SetHashValue(hPtr, winPtr); winPtr->pathName = Tcl_GetHashKey(&mainPtr->nameTable, hPtr); /* * We have just created another Tk application; increment the refcount * on the display pointer. */ winPtr->dispPtr->refCount++; /* * Register the interpreter for "send" purposes. */ winPtr->nameUid = Tk_GetUid(Tk_SetAppName(tkwin, baseName)); /* * Bind in Tk's commands. */ isSafe = Tcl_IsSafe(interp); for (cmdPtr = commands; cmdPtr->name != NULL; cmdPtr++) { if ((cmdPtr->cmdProc == NULL) && (cmdPtr->objProc == NULL)) { panic("TkCreateMainWindow: builtin command with NULL string and object procs"); } if (cmdPtr->passMainWindow) { clientData = (ClientData) tkwin; } else { clientData = (ClientData) NULL; } if (cmdPtr->cmdProc != NULL) { Tcl_CreateCommand(interp, cmdPtr->name, cmdPtr->cmdProc, clientData, (void (*) _ANSI_ARGS_((ClientData))) NULL); } else { Tcl_CreateObjCommand(interp, cmdPtr->name, cmdPtr->objProc, clientData, NULL); } if (isSafe) { if (!(cmdPtr->isSafe)) { Tcl_HideCommand(interp, cmdPtr->name, cmdPtr->name); } } } TkCreateMenuCmd(interp); /* * Set variables for the intepreter. */ Tcl_SetVar(interp, "tk_patchLevel", TK_PATCH_LEVEL, TCL_GLOBAL_ONLY); Tcl_SetVar(interp, "tk_version", TK_VERSION, TCL_GLOBAL_ONLY); tsdPtr->numMainWindows++; return tkwin; } /* *-------------------------------------------------------------- * * Tk_CreateWindow -- * * Create a new internal or top-level window as a child of an * existing window. * * Results: * The return value is a token for the new window. This * is not the same as X's token for the window. If an error * occurred in creating the window (e.g. no such display or * screen), then an error message is left in the interp's result and * NULL is returned. * * Side effects: * A new window structure is allocated locally. An X * window is not initially created, but will be created * the first time the window is mapped. * *-------------------------------------------------------------- */ Tk_Window Tk_CreateWindow(interp, parent, name, screenName) Tcl_Interp *interp; /* Interpreter to use for error reporting. * the interp's result is assumed to be * initialized by the caller. */ Tk_Window parent; /* Token for parent of new window. */ CONST char *name; /* Name for new window. Must be unique * among parent's children. */ CONST char *screenName; /* If NULL, new window will be internal on * same screen as its parent. If non-NULL, * gives name of screen on which to create * new window; window will be a top-level * window. */ { TkWindow *parentPtr = (TkWindow *) parent; TkWindow *winPtr; if ((parentPtr != NULL) && (parentPtr->flags & TK_ALREADY_DEAD)) { Tcl_AppendResult(interp, "can't create window: parent has been destroyed", (char *) NULL); return NULL; } else if ((parentPtr != NULL) && (parentPtr->flags & TK_CONTAINER)) { Tcl_AppendResult(interp, "can't create window: its parent has -container = yes", (char *) NULL); return NULL; } if (screenName == NULL) { winPtr = TkAllocWindow(parentPtr->dispPtr, parentPtr->screenNum, parentPtr); if (NameWindow(interp, winPtr, parentPtr, name) != TCL_OK) { Tk_DestroyWindow((Tk_Window) winPtr); return NULL; } else { return (Tk_Window) winPtr; } } else { return CreateTopLevelWindow(interp, parent, name, screenName, /* flags */ 0); } } /* *-------------------------------------------------------------- * * Tk_CreateAnonymousWindow -- * * Create a new internal or top-level window as a child of an * existing window; this window will be anonymous (unnamed), so * it will not be visible at the Tcl level. * * Results: * The return value is a token for the new window. This * is not the same as X's token for the window. If an error * occurred in creating the window (e.g. no such display or * screen), then an error message is left in the interp's result and * NULL is returned. * * Side effects: * A new window structure is allocated locally. An X * window is not initially created, but will be created * the first time the window is mapped. * *-------------------------------------------------------------- */ Tk_Window Tk_CreateAnonymousWindow(interp, parent, screenName) Tcl_Interp *interp; /* Interpreter to use for error reporting. * the interp's result is assumed to be * initialized by the caller. */ Tk_Window parent; /* Token for parent of new window. */ CONST char *screenName; /* If NULL, new window will be internal on * same screen as its parent. If non-NULL, * gives name of screen on which to create * new window; window will be a top-level * window. */ { TkWindow *parentPtr = (TkWindow *) parent; TkWindow *winPtr; if ((parentPtr != NULL) && (parentPtr->flags & TK_ALREADY_DEAD)) { Tcl_AppendResult(interp, "can't create window: parent has been destroyed", (char *) NULL); return NULL; } else if ((parentPtr != NULL) && (parentPtr->flags & TK_CONTAINER)) { Tcl_AppendResult(interp, "can't create window: its parent has -container = yes", (char *) NULL); return NULL; } if (screenName == NULL) { winPtr = TkAllocWindow(parentPtr->dispPtr, parentPtr->screenNum, parentPtr); /* * Add the anonymous window flag now, so that NameWindow will behave * correctly. */ winPtr->flags |= TK_ANONYMOUS_WINDOW; if (NameWindow(interp, winPtr, parentPtr, (char *)NULL) != TCL_OK) { Tk_DestroyWindow((Tk_Window) winPtr); return NULL; } return (Tk_Window) winPtr; } else { return CreateTopLevelWindow(interp, parent, (char *)NULL, screenName, TK_ANONYMOUS_WINDOW); } } /* *---------------------------------------------------------------------- * * Tk_CreateWindowFromPath -- * * This procedure is similar to Tk_CreateWindow except that * it uses a path name to create the window, rather than a * parent and a child name. * * Results: * The return value is a token for the new window. This * is not the same as X's token for the window. If an error * occurred in creating the window (e.g. no such display or * screen), then an error message is left in the interp's result and * NULL is returned. * * Side effects: * A new window structure is allocated locally. An X * window is not initially created, but will be created * the first time the window is mapped. * *---------------------------------------------------------------------- */ Tk_Window Tk_CreateWindowFromPath(interp, tkwin, pathName, screenName) Tcl_Interp *interp; /* Interpreter to use for error reporting. * the interp's result is assumed to be * initialized by the caller. */ Tk_Window tkwin; /* Token for any window in application * that is to contain new window. */ CONST char *pathName; /* Path name for new window within the * application of tkwin. The parent of * this window must already exist, but * the window itself must not exist. */ CONST char *screenName; /* If NULL, new window will be on same * screen as its parent. If non-NULL, * gives name of screen on which to create * new window; window will be a top-level * window. */ { #define FIXED_SPACE 5 char fixedSpace[FIXED_SPACE+1]; char *p; Tk_Window parent; int numChars; /* * Strip the parent's name out of pathName (it's everything up * to the last dot). There are two tricky parts: (a) must * copy the parent's name somewhere else to avoid modifying * the pathName string (for large names, space for the copy * will have to be malloc'ed); (b) must special-case the * situation where the parent is ".". */ p = strrchr(pathName, '.'); if (p == NULL) { Tcl_AppendResult(interp, "bad window path name \"", pathName, "\"", (char *) NULL); return NULL; } numChars = (int) (p-pathName); if (numChars > FIXED_SPACE) { p = (char *) ckalloc((unsigned) (numChars+1)); } else { p = fixedSpace; } if (numChars == 0) { *p = '.'; p[1] = '\0'; } else { strncpy(p, pathName, (size_t) numChars); p[numChars] = '\0'; } /* * Find the parent window. */ parent = Tk_NameToWindow(interp, p, tkwin); if (p != fixedSpace) { ckfree(p); } if (parent == NULL) { return NULL; } if (((TkWindow *) parent)->flags & TK_ALREADY_DEAD) { Tcl_AppendResult(interp, "can't create window: parent has been destroyed", (char *) NULL); return NULL; } else if (((TkWindow *) parent)->flags & TK_CONTAINER) { Tcl_AppendResult(interp, "can't create window: its parent has -container = yes", (char *) NULL); return NULL; } /* * Create the window. */ if (screenName == NULL) { TkWindow *parentPtr = (TkWindow *) parent; TkWindow *winPtr; winPtr = TkAllocWindow(parentPtr->dispPtr, parentPtr->screenNum, parentPtr); if (NameWindow(interp, winPtr, parentPtr, pathName+numChars+1) != TCL_OK) { Tk_DestroyWindow((Tk_Window) winPtr); return NULL; } else { return (Tk_Window) winPtr; } } else { return CreateTopLevelWindow(interp, parent, pathName+numChars+1, screenName, /* flags */ 0); } } /* *-------------------------------------------------------------- * * Tk_DestroyWindow -- * * Destroy an existing window. After this call, the caller * should never again use the token. Note that this function * can be reentered to destroy a window that was only * partially destroyed before a call to exit. * * Results: * None. * * Side effects: * The window is deleted, along with all of its children. * Relevant callback procedures are invoked. * *-------------------------------------------------------------- */ void Tk_DestroyWindow(tkwin) Tk_Window tkwin; /* Window to destroy. */ { TkWindow *winPtr = (TkWindow *) tkwin; TkDisplay *dispPtr = winPtr->dispPtr; XEvent event; TkHalfdeadWindow *halfdeadPtr, *prev_halfdeadPtr; ThreadSpecificData *tsdPtr = (ThreadSpecificData *) Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData)); if (winPtr->flags & TK_ALREADY_DEAD) { /* * A destroy event binding caused the window to be destroyed * again. Ignore the request. */ return; } winPtr->flags |= TK_ALREADY_DEAD; /* * Unless we are cleaning up a half dead * window from DeleteWindowsExitProc, * add this window to the half dead list. */ if (tsdPtr->halfdeadWindowList && (tsdPtr->halfdeadWindowList->flags & HD_CLEANUP) && (tsdPtr->halfdeadWindowList->winPtr == winPtr)) { halfdeadPtr = tsdPtr->halfdeadWindowList; } else { halfdeadPtr = (TkHalfdeadWindow *) ckalloc(sizeof(TkHalfdeadWindow)); halfdeadPtr->flags = 0; halfdeadPtr->winPtr = winPtr; halfdeadPtr->nextPtr = tsdPtr->halfdeadWindowList; tsdPtr->halfdeadWindowList = halfdeadPtr; } /* * Some cleanup needs to be done immediately, rather than later, * because it needs information that will be destoyed before we * get to the main cleanup point. For example, TkFocusDeadWindow * needs to access the parentPtr field from a window, but if * a Destroy event handler deletes the window's parent this * field will be NULL before the main cleanup point is reached. */ if (!(halfdeadPtr->flags & HD_FOCUS)) { halfdeadPtr->flags |= HD_FOCUS; TkFocusDeadWindow(winPtr); } /* * If this is a main window, remove it from the list of main * windows. This needs to be done now (rather than later with * all the other main window cleanup) to handle situations where * a destroy binding for a window calls "exit". In this case * the child window cleanup isn't complete when exit is called. * This situation is dealt with using the half dead window * list. Windows that are half dead gets cleaned up during exit. * * Also decrement the display refcount so that if this is the * last Tk application in this process on this display, the display * can be closed and its data structures deleted. */ if (!(halfdeadPtr->flags & HD_MAIN_WIN) && winPtr->mainPtr != NULL && winPtr->mainPtr->winPtr == winPtr) { halfdeadPtr->flags |= HD_MAIN_WIN; dispPtr->refCount--; if (tsdPtr->mainWindowList == winPtr->mainPtr) { tsdPtr->mainWindowList = winPtr->mainPtr->nextPtr; } else { TkMainInfo *prevPtr; for (prevPtr = tsdPtr->mainWindowList; prevPtr->nextPtr != winPtr->mainPtr; prevPtr = prevPtr->nextPtr) { /* Empty loop body. */ } prevPtr->nextPtr = winPtr->mainPtr->nextPtr; } tsdPtr->numMainWindows--; } /* * Recursively destroy children. Note that this child * window block may need to be run multiple times * in the case where a child window has a Destroy * binding that calls exit. */ if (!(halfdeadPtr->flags & HD_DESTROY_COUNT)) { halfdeadPtr->flags |= HD_DESTROY_COUNT; dispPtr->destroyCount++; } while (winPtr->childList != NULL) { TkWindow *childPtr; childPtr = winPtr->childList; childPtr->flags |= TK_DONT_DESTROY_WINDOW; Tk_DestroyWindow((Tk_Window) childPtr); if (winPtr->childList == childPtr) { /* * The child didn't remove itself from the child list, so * let's remove it here. This can happen in some strange * conditions, such as when a Destroy event handler for a * window destroys the window's parent. */ winPtr->childList = childPtr->nextPtr; childPtr->parentPtr = NULL; } } if ((winPtr->flags & (TK_CONTAINER|TK_BOTH_HALVES)) == (TK_CONTAINER|TK_BOTH_HALVES)) { /* * This is the container for an embedded application, and * the embedded application is also in this process. Delete * the embedded window in-line here, for the same reasons we * delete children in-line (otherwise, for example, the Tk * window may appear to exist even though its X window is * gone; this could cause errors). Special note: it's possible * that the embedded window has already been deleted, in which * case TkpGetOtherWindow will return NULL. */ TkWindow *childPtr; childPtr = TkpGetOtherWindow(winPtr); if (childPtr != NULL) { childPtr->flags |= TK_DONT_DESTROY_WINDOW; Tk_DestroyWindow((Tk_Window) childPtr); } } /* * Generate a DestroyNotify event. In order for the DestroyNotify * event to be processed correctly, need to make sure the window * exists. This is a bit of a kludge, and may be unnecessarily * expensive, but without it no event handlers will get called for * windows that don't exist yet. * * Note: if the window's pathName is NULL and the window is not an * anonymous window, it means that the window was not successfully * initialized in the first place, so we should not make the window exist * or generate the event. */ if (!(halfdeadPtr->flags & HD_DESTROY_EVENT) && winPtr->pathName != NULL && !(winPtr->flags & TK_ANONYMOUS_WINDOW)) { halfdeadPtr->flags |= HD_DESTROY_EVENT; if (winPtr->window == None) { Tk_MakeWindowExist(tkwin); } event.type = DestroyNotify; event.xdestroywindow.serial = LastKnownRequestProcessed(winPtr->display); event.xdestroywindow.send_event = False; event.xdestroywindow.display = winPtr->display; event.xdestroywindow.event = winPtr->window; event.xdestroywindow.window = winPtr->window; Tk_HandleEvent(&event); } /* * No additional bindings that could call exit * should be invoked from this point on, * so it is safe to remove this window * from the half dead list. */ for (prev_halfdeadPtr = NULL, halfdeadPtr = tsdPtr->halfdeadWindowList; halfdeadPtr != NULL; ) { if (halfdeadPtr->winPtr == winPtr) { if (prev_halfdeadPtr == NULL) tsdPtr->halfdeadWindowList = halfdeadPtr->nextPtr; else prev_halfdeadPtr->nextPtr = halfdeadPtr->nextPtr; ckfree((char *) halfdeadPtr); break; } prev_halfdeadPtr = halfdeadPtr; halfdeadPtr = halfdeadPtr->nextPtr; } if (halfdeadPtr == NULL) panic("window not found on half dead list"); /* * Cleanup the data structures associated with this window. */ if (winPtr->flags & TK_WIN_MANAGED) { TkWmDeadWindow(winPtr); } else if (winPtr->flags & TK_WM_COLORMAP_WINDOW) { TkWmRemoveFromColormapWindows(winPtr); } if (winPtr->window != None) { #if defined(MAC_TCL) || defined(MAC_OSX_TK) || defined(__WIN32__) XDestroyWindow(winPtr->display, winPtr->window); #else if ((winPtr->flags & TK_TOP_HIERARCHY) || !(winPtr->flags & TK_DONT_DESTROY_WINDOW)) { /* * The parent has already been destroyed and this isn't * a top-level window, so this window will be destroyed * implicitly when the parent's X window is destroyed; * it's much faster not to do an explicit destroy of this * X window. */ dispPtr->lastDestroyRequest = NextRequest(winPtr->display); XDestroyWindow(winPtr->display, winPtr->window); } #endif TkFreeWindowId(dispPtr, winPtr->window); Tcl_DeleteHashEntry(Tcl_FindHashEntry(&dispPtr->winTable, (char *) winPtr->window)); winPtr->window = None; } dispPtr->destroyCount--; UnlinkWindow(winPtr); TkEventDeadWindow(winPtr); TkBindDeadWindow(winPtr); #ifdef TK_USE_INPUT_METHODS if (winPtr->inputContext != NULL) { XDestroyIC(winPtr->inputContext); winPtr->inputContext = NULL; } #endif /* TK_USE_INPUT_METHODS */ if (winPtr->tagPtr != NULL) { TkFreeBindingTags(winPtr); } TkOptionDeadWindow(winPtr); TkSelDeadWindow(winPtr); TkGrabDeadWindow(winPtr); if (winPtr->mainPtr != NULL) { if (winPtr->pathName != NULL) { Tk_DeleteAllBindings(winPtr->mainPtr->bindingTable, (ClientData) winPtr->pathName); Tcl_DeleteHashEntry(Tcl_FindHashEntry(&winPtr->mainPtr->nameTable, winPtr->pathName)); /* * The memory pointed to by pathName has been deallocated. * Keep users from accessing it after the window has been * destroyed by setting it to NULL. */ winPtr->pathName = NULL; /* * Invalidate all objects referring to windows * with the same main window */ winPtr->mainPtr->deletionEpoch++; } winPtr->mainPtr->refCount--; if (winPtr->mainPtr->refCount == 0) { register TkCmd *cmdPtr; /* * We just deleted the last window in the application. Delete * the TkMainInfo structure too and replace all of Tk's commands * with dummy commands that return errors. Also delete the * "send" command to unregister the interpreter. * * NOTE: Only replace the commands it if the interpreter is * not being deleted. If it *is*, the interpreter cleanup will * do all the needed work. */ if ((winPtr->mainPtr->interp != NULL) && (!Tcl_InterpDeleted(winPtr->mainPtr->interp))) { for (cmdPtr = commands; cmdPtr->name != NULL; cmdPtr++) { Tcl_CreateCommand(winPtr->mainPtr->interp, cmdPtr->name, TkDeadAppCmd, (ClientData) NULL, (void (*) _ANSI_ARGS_((ClientData))) NULL); } Tcl_CreateCommand(winPtr->mainPtr->interp, "send", TkDeadAppCmd, (ClientData) NULL, (void (*) _ANSI_ARGS_((ClientData))) NULL); Tcl_UnlinkVar(winPtr->mainPtr->interp, "tk_strictMotif"); } Tcl_DeleteHashTable(&winPtr->mainPtr->nameTable); TkBindFree(winPtr->mainPtr); TkDeleteAllImages(winPtr->mainPtr); TkFontPkgFree(winPtr->mainPtr); TkFocusFree(winPtr->mainPtr); TkStylePkgFree(winPtr->mainPtr); /* * When embedding Tk into other applications, make sure * that all destroy events reach the server. Otherwise * the embedding application may also attempt to destroy * the windows, resulting in an X error */ if (winPtr->flags & TK_EMBEDDED) { XSync(winPtr->display, False); } ckfree((char *) winPtr->mainPtr); /* * If no other applications are using the display, close the * display now and relinquish its data structures. */ #if !defined(WIN32) && !defined(MAC_TCL) && defined(NOT_YET) if (dispPtr->refCount <= 0) { /* * I have disabled this code because on Windows there are * still order dependencies in close-down. All displays * and resources will get closed down properly anyway at * exit, through the exit handler. -- jyl */ /* * Ideally this should be enabled, as unix Tk can use multiple * displays. However, there are order issues still, as well * as the handling of queued events and such that must be * addressed before this can be enabled. The current cleanup * works except for send event issues. -- hobbs 04/2002 */ TkDisplay *theDispPtr, *backDispPtr; /* * Splice this display out of the list of displays. */ for (theDispPtr = tsdPtr->displayList, backDispPtr = NULL; (theDispPtr != winPtr->dispPtr) && (theDispPtr != NULL); theDispPtr = theDispPtr->nextPtr) { backDispPtr = theDispPtr; } if (theDispPtr == NULL) { panic("could not find display to close!"); } if (backDispPtr == NULL) { tsdPtr->displayList = theDispPtr->nextPtr; } else { backDispPtr->nextPtr = theDispPtr->nextPtr; } /* * Calling XSync creates X server traffic, but addresses a * focus issue on close (but not the send issue). -- hobbs XSync(dispPtr->display, True); */ /* * Found and spliced it out, now actually do the cleanup. */ TkCloseDisplay(dispPtr); } #endif } } Tcl_EventuallyFree((ClientData) winPtr, TCL_DYNAMIC); } /* *-------------------------------------------------------------- * * Tk_MapWindow -- * * Map a window within its parent. This may require the * window and/or its parents to actually be created. * * Results: * None. * * Side effects: * The given window will be mapped. Windows may also * be created. * *-------------------------------------------------------------- */ void Tk_MapWindow(tkwin) Tk_Window tkwin; /* Token for window to map. */ { TkWindow *winPtr = (TkWindow *) tkwin; XEvent event; if (winPtr->flags & TK_MAPPED) { return; } if (winPtr->window == None) { Tk_MakeWindowExist(tkwin); } if (winPtr->flags & TK_WIN_MANAGED) { /* * Lots of special processing has to be done for top-level * windows. Let tkWm.c handle everything itself. */ TkWmMapWindow(winPtr); return; } winPtr->flags |= TK_MAPPED; XMapWindow(winPtr->display, winPtr->window); event.type = MapNotify; event.xmap.serial = LastKnownRequestProcessed(winPtr->display); event.xmap.send_event = False; event.xmap.display = winPtr->display; event.xmap.event = winPtr->window; event.xmap.window = winPtr->window; event.xmap.override_redirect = winPtr->atts.override_redirect; Tk_HandleEvent(&event); } /* *-------------------------------------------------------------- * * Tk_MakeWindowExist -- * * Ensure that a particular window actually exists. This * procedure shouldn't normally need to be invoked from * outside the Tk package, but may be needed if someone * wants to manipulate a window before mapping it. * * Results: * None. * * Side effects: * When the procedure returns, the X window associated with * tkwin is guaranteed to exist. This may require the * window's ancestors to be created also. * *-------------------------------------------------------------- */ void Tk_MakeWindowExist(tkwin) Tk_Window tkwin; /* Token for window. */ { register TkWindow *winPtr = (TkWindow *) tkwin; TkWindow *winPtr2; Window parent; Tcl_HashEntry *hPtr; Tk_ClassCreateProc *createProc; int new; if (winPtr->window != None) { return; } if ((winPtr->parentPtr == NULL) || (winPtr->flags & TK_TOP_HIERARCHY)) { parent = XRootWindow(winPtr->display, winPtr->screenNum); } else { if (winPtr->parentPtr->window == None) { Tk_MakeWindowExist((Tk_Window) winPtr->parentPtr); } parent = winPtr->parentPtr->window; } createProc = Tk_GetClassProc(winPtr->classProcsPtr, createProc); if (createProc != NULL) { winPtr->window = (*createProc)(tkwin, parent, winPtr->instanceData); } else { winPtr->window = TkpMakeWindow(winPtr, parent); } hPtr = Tcl_CreateHashEntry(&winPtr->dispPtr->winTable, (char *) winPtr->window, &new); Tcl_SetHashValue(hPtr, winPtr); winPtr->dirtyAtts = 0; winPtr->dirtyChanges = 0; if (!(winPtr->flags & TK_TOP_HIERARCHY)) { /* * If any siblings higher up in the stacking order have already * been created then move this window to its rightful position * in the stacking order. * * NOTE: this code ignores any changes anyone might have made * to the sibling and stack_mode field of the window's attributes, * so it really isn't safe for these to be manipulated except * by calling Tk_RestackWindow. */ for (winPtr2 = winPtr->nextPtr; winPtr2 != NULL; winPtr2 = winPtr2->nextPtr) { if ((winPtr2->window != None) && !(winPtr2->flags & (TK_TOP_HIERARCHY|TK_REPARENTED))) { XWindowChanges changes; changes.sibling = winPtr2->window; changes.stack_mode = Below; XConfigureWindow(winPtr->display, winPtr->window, CWSibling|CWStackMode, &changes); break; } } /* * If this window has a different colormap than its parent, add * the window to the WM_COLORMAP_WINDOWS property for its top-level. */ if ((winPtr->parentPtr != NULL) && (winPtr->atts.colormap != winPtr->parentPtr->atts.colormap)) { TkWmAddToColormapWindows(winPtr); winPtr->flags |= TK_WM_COLORMAP_WINDOW; } } /* * Issue a ConfigureNotify event if there were deferred configuration * changes (but skip it if the window is being deleted; the * ConfigureNotify event could cause problems if we're being called * from Tk_DestroyWindow under some conditions). */ if ((winPtr->flags & TK_NEED_CONFIG_NOTIFY) && !(winPtr->flags & TK_ALREADY_DEAD)) { winPtr->flags &= ~TK_NEED_CONFIG_NOTIFY; TkDoConfigureNotify(winPtr); } } /* *-------------------------------------------------------------- * * Tk_UnmapWindow, etc. -- * * There are several procedures under here, each of which * mirrors an existing X procedure. In addition to performing * the functions of the corresponding procedure, each * procedure also updates the local window structure and * synthesizes an X event (if the window's structure is being * managed internally). * * Results: * See the manual entries. * * Side effects: * See the manual entries. * *-------------------------------------------------------------- */ void Tk_UnmapWindow(tkwin) Tk_Window tkwin; /* Token for window to unmap. */ { register TkWindow *winPtr = (TkWindow *) tkwin; if (!(winPtr->flags & TK_MAPPED) || (winPtr->flags & TK_ALREADY_DEAD)) { return; } if (winPtr->flags & TK_WIN_MANAGED) { /* * Special processing has to be done for top-level windows. Let * tkWm.c handle everything itself. */ TkWmUnmapWindow(winPtr); return; } winPtr->flags &= ~TK_MAPPED; XUnmapWindow(winPtr->display, winPtr->window); if (!(winPtr->flags & TK_TOP_HIERARCHY)) { XEvent event; event.type = UnmapNotify; event.xunmap.serial = LastKnownRequestProcessed(winPtr->display); event.xunmap.send_event = False; event.xunmap.display = winPtr->display; event.xunmap.event = winPtr->window; event.xunmap.window = winPtr->window; event.xunmap.from_configure = False; Tk_HandleEvent(&event); } } void Tk_ConfigureWindow(tkwin, valueMask, valuePtr) Tk_Window tkwin; /* Window to re-configure. */ unsigned int valueMask; /* Mask indicating which parts of * *valuePtr are to be used. */ XWindowChanges *valuePtr; /* New values. */ { register TkWindow *winPtr = (TkWindow *) tkwin; if (valueMask & CWX) { winPtr->changes.x = valuePtr->x; } if (valueMask & CWY) { winPtr->changes.y = valuePtr->y; } if (valueMask & CWWidth) { winPtr->changes.width = valuePtr->width; } if (valueMask & CWHeight) { winPtr->changes.height = valuePtr->height; } if (valueMask & CWBorderWidth) { winPtr->changes.border_width = valuePtr->border_width; } if (valueMask & (CWSibling|CWStackMode)) { panic("Can't set sibling or stack mode from Tk_ConfigureWindow."); } if (winPtr->window != None) { XConfigureWindow(winPtr->display, winPtr->window, valueMask, valuePtr); TkDoConfigureNotify(winPtr); } else { winPtr->dirtyChanges |= valueMask; winPtr->flags |= TK_NEED_CONFIG_NOTIFY; } } void Tk_MoveWindow(tkwin, x, y) Tk_Window tkwin; /* Window to move. */ int x, y; /* New location for window (within * parent). */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->changes.x = x; winPtr->changes.y = y; if (winPtr->window != None) { XMoveWindow(winPtr->display, winPtr->window, x, y); TkDoConfigureNotify(winPtr); } else { winPtr->dirtyChanges |= CWX|CWY; winPtr->flags |= TK_NEED_CONFIG_NOTIFY; } } void Tk_ResizeWindow(tkwin, width, height) Tk_Window tkwin; /* Window to resize. */ int width, height; /* New dimensions for window. */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->changes.width = (unsigned) width; winPtr->changes.height = (unsigned) height; if (winPtr->window != None) { XResizeWindow(winPtr->display, winPtr->window, (unsigned) width, (unsigned) height); TkDoConfigureNotify(winPtr); } else { winPtr->dirtyChanges |= CWWidth|CWHeight; winPtr->flags |= TK_NEED_CONFIG_NOTIFY; } } void Tk_MoveResizeWindow(tkwin, x, y, width, height) Tk_Window tkwin; /* Window to move and resize. */ int x, y; /* New location for window (within * parent). */ int width, height; /* New dimensions for window. */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->changes.x = x; winPtr->changes.y = y; winPtr->changes.width = (unsigned) width; winPtr->changes.height = (unsigned) height; if (winPtr->window != None) { XMoveResizeWindow(winPtr->display, winPtr->window, x, y, (unsigned) width, (unsigned) height); TkDoConfigureNotify(winPtr); } else { winPtr->dirtyChanges |= CWX|CWY|CWWidth|CWHeight; winPtr->flags |= TK_NEED_CONFIG_NOTIFY; } } void Tk_SetWindowBorderWidth(tkwin, width) Tk_Window tkwin; /* Window to modify. */ int width; /* New border width for window. */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->changes.border_width = width; if (winPtr->window != None) { XSetWindowBorderWidth(winPtr->display, winPtr->window, (unsigned) width); TkDoConfigureNotify(winPtr); } else { winPtr->dirtyChanges |= CWBorderWidth; winPtr->flags |= TK_NEED_CONFIG_NOTIFY; } } void Tk_ChangeWindowAttributes(tkwin, valueMask, attsPtr) Tk_Window tkwin; /* Window to manipulate. */ unsigned long valueMask; /* OR'ed combination of bits, * indicating which fields of * *attsPtr are to be used. */ register XSetWindowAttributes *attsPtr; /* New values for some attributes. */ { register TkWindow *winPtr = (TkWindow *) tkwin; if (valueMask & CWBackPixmap) { winPtr->atts.background_pixmap = attsPtr->background_pixmap; } if (valueMask & CWBackPixel) { winPtr->atts.background_pixel = attsPtr->background_pixel; } if (valueMask & CWBorderPixmap) { winPtr->atts.border_pixmap = attsPtr->border_pixmap; } if (valueMask & CWBorderPixel) { winPtr->atts.border_pixel = attsPtr->border_pixel; } if (valueMask & CWBitGravity) { winPtr->atts.bit_gravity = attsPtr->bit_gravity; } if (valueMask & CWWinGravity) { winPtr->atts.win_gravity = attsPtr->win_gravity; } if (valueMask & CWBackingStore) { winPtr->atts.backing_store = attsPtr->backing_store; } if (valueMask & CWBackingPlanes) { winPtr->atts.backing_planes = attsPtr->backing_planes; } if (valueMask & CWBackingPixel) { winPtr->atts.backing_pixel = attsPtr->backing_pixel; } if (valueMask & CWOverrideRedirect) { winPtr->atts.override_redirect = attsPtr->override_redirect; } if (valueMask & CWSaveUnder) { winPtr->atts.save_under = attsPtr->save_under; } if (valueMask & CWEventMask) { winPtr->atts.event_mask = attsPtr->event_mask; } if (valueMask & CWDontPropagate) { winPtr->atts.do_not_propagate_mask = attsPtr->do_not_propagate_mask; } if (valueMask & CWColormap) { winPtr->atts.colormap = attsPtr->colormap; } if (valueMask & CWCursor) { winPtr->atts.cursor = attsPtr->cursor; } if (winPtr->window != None) { XChangeWindowAttributes(winPtr->display, winPtr->window, valueMask, attsPtr); } else { winPtr->dirtyAtts |= valueMask; } } void Tk_SetWindowBackground(tkwin, pixel) Tk_Window tkwin; /* Window to manipulate. */ unsigned long pixel; /* Pixel value to use for * window's background. */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->atts.background_pixel = pixel; if (winPtr->window != None) { XSetWindowBackground(winPtr->display, winPtr->window, pixel); } else { winPtr->dirtyAtts = (winPtr->dirtyAtts & (unsigned) ~CWBackPixmap) | CWBackPixel; } } void Tk_SetWindowBackgroundPixmap(tkwin, pixmap) Tk_Window tkwin; /* Window to manipulate. */ Pixmap pixmap; /* Pixmap to use for window's * background. */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->atts.background_pixmap = pixmap; if (winPtr->window != None) { XSetWindowBackgroundPixmap(winPtr->display, winPtr->window, pixmap); } else { winPtr->dirtyAtts = (winPtr->dirtyAtts & (unsigned) ~CWBackPixel) | CWBackPixmap; } } void Tk_SetWindowBorder(tkwin, pixel) Tk_Window tkwin; /* Window to manipulate. */ unsigned long pixel; /* Pixel value to use for * window's border. */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->atts.border_pixel = pixel; if (winPtr->window != None) { XSetWindowBorder(winPtr->display, winPtr->window, pixel); } else { winPtr->dirtyAtts = (winPtr->dirtyAtts & (unsigned) ~CWBorderPixmap) | CWBorderPixel; } } void Tk_SetWindowBorderPixmap(tkwin, pixmap) Tk_Window tkwin; /* Window to manipulate. */ Pixmap pixmap; /* Pixmap to use for window's * border. */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->atts.border_pixmap = pixmap; if (winPtr->window != None) { XSetWindowBorderPixmap(winPtr->display, winPtr->window, pixmap); } else { winPtr->dirtyAtts = (winPtr->dirtyAtts & (unsigned) ~CWBorderPixel) | CWBorderPixmap; } } void Tk_DefineCursor(tkwin, cursor) Tk_Window tkwin; /* Window to manipulate. */ Tk_Cursor cursor; /* Cursor to use for window (may be None). */ { register TkWindow *winPtr = (TkWindow *) tkwin; #if defined(MAC_TCL) || defined(MAC_OSX_TK) winPtr->atts.cursor = (XCursor) cursor; #else winPtr->atts.cursor = (Cursor) cursor; #endif if (winPtr->window != None) { XDefineCursor(winPtr->display, winPtr->window, winPtr->atts.cursor); } else { winPtr->dirtyAtts = winPtr->dirtyAtts | CWCursor; } } void Tk_UndefineCursor(tkwin) Tk_Window tkwin; /* Window to manipulate. */ { Tk_DefineCursor(tkwin, None); } void Tk_SetWindowColormap(tkwin, colormap) Tk_Window tkwin; /* Window to manipulate. */ Colormap colormap; /* Colormap to use for window. */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->atts.colormap = colormap; if (winPtr->window != None) { XSetWindowColormap(winPtr->display, winPtr->window, colormap); if (!(winPtr->flags & TK_WIN_MANAGED)) { TkWmAddToColormapWindows(winPtr); winPtr->flags |= TK_WM_COLORMAP_WINDOW; } } else { winPtr->dirtyAtts |= CWColormap; } } /* *---------------------------------------------------------------------- * * Tk_SetWindowVisual -- * * This procedure is called to specify a visual to be used * for a Tk window when it is created. This procedure, if * called at all, must be called before the X window is created * (i.e. before Tk_MakeWindowExist is called). * * Results: * The return value is 1 if successful, or 0 if the X window has * been already created. * * Side effects: * The information given is stored for when the window is created. * *---------------------------------------------------------------------- */ int Tk_SetWindowVisual(tkwin, visual, depth, colormap) Tk_Window tkwin; /* Window to manipulate. */ Visual *visual; /* New visual for window. */ int depth; /* New depth for window. */ Colormap colormap; /* An appropriate colormap for the visual. */ { register TkWindow *winPtr = (TkWindow *) tkwin; if( winPtr->window != None ){ /* Too late! */ return 0; } winPtr->visual = visual; winPtr->depth = depth; winPtr->atts.colormap = colormap; winPtr->dirtyAtts |= CWColormap; /* * The following code is needed to make sure that the window doesn't * inherit the parent's border pixmap, which would result in a BadMatch * error. */ if (!(winPtr->dirtyAtts & CWBorderPixmap)) { winPtr->dirtyAtts |= CWBorderPixel; } return 1; } /* *---------------------------------------------------------------------- * * TkDoConfigureNotify -- * * Generate a ConfigureNotify event describing the current * configuration of a window. * * Results: * None. * * Side effects: * An event is generated and processed by Tk_HandleEvent. * *---------------------------------------------------------------------- */ void TkDoConfigureNotify(winPtr) register TkWindow *winPtr; /* Window whose configuration * was just changed. */ { XEvent event; event.type = ConfigureNotify; event.xconfigure.serial = LastKnownRequestProcessed(winPtr->display); event.xconfigure.send_event = False; event.xconfigure.display = winPtr->display; event.xconfigure.event = winPtr->window; event.xconfigure.window = winPtr->window; event.xconfigure.x = winPtr->changes.x; event.xconfigure.y = winPtr->changes.y; event.xconfigure.width = winPtr->changes.width; event.xconfigure.height = winPtr->changes.height; event.xconfigure.border_width = winPtr->changes.border_width; if (winPtr->changes.stack_mode == Above) { event.xconfigure.above = winPtr->changes.sibling; } else { event.xconfigure.above = None; } event.xconfigure.override_redirect = winPtr->atts.override_redirect; Tk_HandleEvent(&event); } /* *---------------------------------------------------------------------- * * Tk_SetClass -- * * This procedure is used to give a window a class. * * Results: * None. * * Side effects: * A new class is stored for tkwin, replacing any existing * class for it. * *---------------------------------------------------------------------- */ void Tk_SetClass(tkwin, className) Tk_Window tkwin; /* Token for window to assign class. */ CONST char *className; /* New class for tkwin. */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->classUid = Tk_GetUid(className); if (winPtr->flags & TK_WIN_MANAGED) { TkWmSetClass(winPtr); } TkOptionClassChanged(winPtr); } /* *---------------------------------------------------------------------- * * Tk_SetClassProcs -- * * This procedure is used to set the class procedures and * instance data for a window. * * Results: * None. * * Side effects: * A new set of class procedures and instance data is stored * for tkwin, replacing any existing values. * *---------------------------------------------------------------------- */ void Tk_SetClassProcs(tkwin, procs, instanceData) Tk_Window tkwin; /* Token for window to modify. */ Tk_ClassProcs *procs; /* Class procs structure. */ ClientData instanceData; /* Data to be passed to class procedures. */ { register TkWindow *winPtr = (TkWindow *) tkwin; winPtr->classProcsPtr = procs; winPtr->instanceData = instanceData; } /* *---------------------------------------------------------------------- * * Tk_NameToWindow -- * * Given a string name for a window, this procedure * returns the token for the window, if there exists a * window corresponding to the given name. * * Results: * The return result is either a token for the window corresponding * to "name", or else NULL to indicate that there is no such * window. In this case, an error message is left in the interp's result. * * Side effects: * None. * *---------------------------------------------------------------------- */ Tk_Window Tk_NameToWindow(interp, pathName, tkwin) Tcl_Interp *interp; /* Where to report errors. */ CONST char *pathName; /* Path name of window. */ Tk_Window tkwin; /* Token for window: name is assumed to * belong to the same main window as tkwin. */ { Tcl_HashEntry *hPtr; if (tkwin == NULL) { /* * Either we're not really in Tk, or the main window was destroyed and * we're on our way out of the application */ Tcl_AppendResult(interp, "NULL main window", (char *)NULL); return NULL; } hPtr = Tcl_FindHashEntry(&((TkWindow *) tkwin)->mainPtr->nameTable, pathName); if (hPtr == NULL) { Tcl_AppendResult(interp, "bad window path name \"", pathName, "\"", (char *) NULL); return NULL; } return (Tk_Window) Tcl_GetHashValue(hPtr); } /* *---------------------------------------------------------------------- * * Tk_IdToWindow -- * * Given an X display and window ID, this procedure returns the * Tk token for the window, if there exists a Tk window corresponding * to the given ID. * * Results: * The return result is either a token for the window corresponding * to the given X id, or else NULL to indicate that there is no such * window. * * Side effects: * None. * *---------------------------------------------------------------------- */ Tk_Window Tk_IdToWindow(display, window) Display *display; /* X display containing the window. */ Window window; /* X window window id. */ { TkDisplay *dispPtr; Tcl_HashEntry *hPtr; for (dispPtr = TkGetDisplayList(); ; dispPtr = dispPtr->nextPtr) { if (dispPtr == NULL) { return NULL; } if (dispPtr->display == display) { break; } } hPtr = Tcl_FindHashEntry(&dispPtr->winTable, (char *) window); if (hPtr == NULL) { return NULL; } return (Tk_Window) Tcl_GetHashValue(hPtr); } /* *---------------------------------------------------------------------- * * Tk_DisplayName -- * * Return the textual name of a window's display. * * Results: * The return value is the string name of the display associated * with tkwin. * * Side effects: * None. * *---------------------------------------------------------------------- */ CONST char * Tk_DisplayName(tkwin) Tk_Window tkwin; /* Window whose display name is desired. */ { return ((TkWindow *) tkwin)->dispPtr->name; } /* *---------------------------------------------------------------------- * * UnlinkWindow -- * * This procedure removes a window from the childList of its * parent. * * Results: * None. * * Side effects: * The window is unlinked from its childList. * *---------------------------------------------------------------------- */ static void UnlinkWindow(winPtr) TkWindow *winPtr; /* Child window to be unlinked. */ { TkWindow *prevPtr; if (winPtr->parentPtr == NULL) { return; } prevPtr = winPtr->parentPtr->childList; if (prevPtr == winPtr) { winPtr->parentPtr->childList = winPtr->nextPtr; if (winPtr->nextPtr == NULL) { winPtr->parentPtr->lastChildPtr = NULL; } } else { while (prevPtr->nextPtr != winPtr) { prevPtr = prevPtr->nextPtr; if (prevPtr == NULL) { panic("UnlinkWindow couldn't find child in parent"); } } prevPtr->nextPtr = winPtr->nextPtr; if (winPtr->nextPtr == NULL) { winPtr->parentPtr->lastChildPtr = prevPtr; } } } /* *---------------------------------------------------------------------- * * Tk_RestackWindow -- * * Change a window's position in the stacking order. * * Results: * TCL_OK is normally returned. If other is not a descendant * of tkwin's parent then TCL_ERROR is returned and tkwin is * not repositioned. * * Side effects: * Tkwin is repositioned in the stacking order. * *---------------------------------------------------------------------- */ int Tk_RestackWindow(tkwin, aboveBelow, other) Tk_Window tkwin; /* Token for window whose position in * the stacking order is to change. */ int aboveBelow; /* Indicates new position of tkwin relative * to other; must be Above or Below. */ Tk_Window other; /* Tkwin will be moved to a position that * puts it just above or below this window. * If NULL then tkwin goes above or below * all windows in the same parent. */ { TkWindow *winPtr = (TkWindow *) tkwin; TkWindow *otherPtr = (TkWindow *) other; /* * Special case: if winPtr is a top-level window then just find * the top-level ancestor of otherPtr and restack winPtr above * otherPtr without changing any of Tk's childLists. */ if (winPtr->flags & TK_WIN_MANAGED) { while ((otherPtr != NULL) && !(otherPtr->flags & TK_TOP_HIERARCHY)) { otherPtr = otherPtr->parentPtr; } TkWmRestackToplevel(winPtr, aboveBelow, otherPtr); return TCL_OK; } /* * Find an ancestor of otherPtr that is a sibling of winPtr. */ if (winPtr->parentPtr == NULL) { /* * Window is going to be deleted shortly; don't do anything. */ return TCL_OK; } if (otherPtr == NULL) { if (aboveBelow == Above) { otherPtr = winPtr->parentPtr->lastChildPtr; } else { otherPtr = winPtr->parentPtr->childList; } } else { while (winPtr->parentPtr != otherPtr->parentPtr) { if ((otherPtr == NULL) || (otherPtr->flags & TK_TOP_HIERARCHY)) { return TCL_ERROR; } otherPtr = otherPtr->parentPtr; } } if (otherPtr == winPtr) { return TCL_OK; } /* * Reposition winPtr in the stacking order. */ UnlinkWindow(winPtr); if (aboveBelow == Above) { winPtr->nextPtr = otherPtr->nextPtr; if (winPtr->nextPtr == NULL) { winPtr->parentPtr->lastChildPtr = winPtr; } otherPtr->nextPtr = winPtr; } else { TkWindow *prevPtr; prevPtr = winPtr->parentPtr->childList; if (prevPtr == otherPtr) { winPtr->parentPtr->childList = winPtr; } else { while (prevPtr->nextPtr != otherPtr) { prevPtr = prevPtr->nextPtr; } prevPtr->nextPtr = winPtr; } winPtr->nextPtr = otherPtr; } /* * Notify the X server of the change. If winPtr hasn't yet been * created then there's no need to tell the X server now, since * the stacking order will be handled properly when the window * is finally created. */ if (winPtr->window != None) { XWindowChanges changes; unsigned int mask; mask = CWStackMode; changes.stack_mode = Above; for (otherPtr = winPtr->nextPtr; otherPtr != NULL; otherPtr = otherPtr->nextPtr) { if ((otherPtr->window != None) && !(otherPtr->flags & (TK_TOP_HIERARCHY|TK_REPARENTED))){ changes.sibling = otherPtr->window; changes.stack_mode = Below; mask = CWStackMode|CWSibling; break; } } XConfigureWindow(winPtr->display, winPtr->window, mask, &changes); } return TCL_OK; } /* *---------------------------------------------------------------------- * * Tk_MainWindow -- * * Returns the main window for an application. * * Results: * If interp has a Tk application associated with it, the main * window for the application is returned. Otherwise NULL is * returned and an error message is left in the interp's result. * * Side effects: * None. * *---------------------------------------------------------------------- */ Tk_Window Tk_MainWindow(interp) Tcl_Interp *interp; /* Interpreter that embodies the * application. Used for error * reporting also. */ { TkMainInfo *mainPtr; ThreadSpecificData *tsdPtr; if (interp == NULL) { return NULL; } #ifdef USE_TCL_STUBS if (tclStubsPtr == NULL) { return NULL; } #endif tsdPtr = (ThreadSpecificData *) Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData)); for (mainPtr = tsdPtr->mainWindowList; mainPtr != NULL; mainPtr = mainPtr->nextPtr) { if (mainPtr->interp == interp) { return (Tk_Window) mainPtr->winPtr; } } Tcl_SetResult(interp, "this isn't a Tk application", TCL_STATIC); return NULL; } /* *---------------------------------------------------------------------- * * Tk_StrictMotif -- * * Indicates whether strict Motif compliance has been specified * for the given window. * * Results: * The return value is 1 if strict Motif compliance has been * requested for tkwin's application by setting the tk_strictMotif * variable in its interpreter to a true value. 0 is returned * if tk_strictMotif has a false value. * * Side effects: * None. * *---------------------------------------------------------------------- */ int Tk_StrictMotif(tkwin) Tk_Window tkwin; /* Window whose application is * to be checked. */ { return ((TkWindow *) tkwin)->mainPtr->strictMotif; } /* *---------------------------------------------------------------------- * * Tk_GetNumMainWindows -- * * This procedure returns the number of main windows currently * open in this process. * * Results: * The number of main windows open in this process. * * Side effects: * None. * *---------------------------------------------------------------------- */ int Tk_GetNumMainWindows() { ThreadSpecificData *tsdPtr; #ifdef USE_TCL_STUBS if (tclStubsPtr == NULL) { return 0; } #endif tsdPtr = (ThreadSpecificData *) Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData)); return tsdPtr->numMainWindows; } /* *---------------------------------------------------------------------- * * DeleteWindowsExitProc -- * * This procedure is invoked as an exit handler. It deletes all * of the main windows in the current thread. We really should * be using a thread local exit handler to delete windows and a * process exit handler to close the display but Tcl does * not provide support for this usage. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ static void DeleteWindowsExitProc(clientData) ClientData clientData; /* tsdPtr when handler was created. */ { TkDisplay *dispPtr, *nextPtr; Tcl_Interp *interp; ThreadSpecificData *tsdPtr = (ThreadSpecificData *) clientData; /* * Finish destroying any windows that are in a * half-dead state. We must protect the interpreter * while destroying the window, because of * bindings which could destroy the interpreter * while the window is being deleted. This would * leave frames on the call stack pointing at * deleted memory, causing core dumps. */ while (tsdPtr->halfdeadWindowList != NULL) { interp = tsdPtr->halfdeadWindowList->winPtr->mainPtr->interp; Tcl_Preserve((ClientData) interp); tsdPtr->halfdeadWindowList->flags |= HD_CLEANUP; tsdPtr->halfdeadWindowList->winPtr->flags &= ~TK_ALREADY_DEAD; Tk_DestroyWindow((Tk_Window) tsdPtr->halfdeadWindowList->winPtr); Tcl_Release((ClientData) interp); } /* * Destroy any remaining main windows. */ while (tsdPtr->mainWindowList != NULL) { interp = tsdPtr->mainWindowList->interp; Tcl_Preserve((ClientData) interp); Tk_DestroyWindow((Tk_Window) tsdPtr->mainWindowList->winPtr); Tcl_Release((ClientData) interp); } /* * Iterate destroying the displays until no more displays remain. * It is possible for displays to get recreated during exit by any * code that calls GetScreen, so we must destroy these new displays * as well as the old ones. */ for (dispPtr = tsdPtr->displayList; dispPtr != NULL; dispPtr = tsdPtr->displayList) { /* * Now iterate over the current list of open displays, and first * set the global pointer to NULL so we will be able to notice if * any new displays got created during deletion of the current set. * We must also do this to ensure that Tk_IdToWindow does not find * the old display as it is being destroyed, when it wants to see * if it needs to dispatch a message. */ for (tsdPtr->displayList = NULL; dispPtr != NULL; dispPtr = nextPtr) { nextPtr = dispPtr->nextPtr; TkCloseDisplay(dispPtr); } } tsdPtr->numMainWindows = 0; tsdPtr->mainWindowList = NULL; tsdPtr->initialized = 0; } /* *---------------------------------------------------------------------- * * Tk_Init -- * * This procedure is invoked to add Tk to an interpreter. It * incorporates all of Tk's commands into the interpreter and * creates the main window for a new Tk application. If the * interpreter contains a variable "argv", this procedure * extracts several arguments from that variable, uses them * to configure the main window, and modifies argv to exclude * the arguments (see the "wish" documentation for a list of * the arguments that are extracted). * * Results: * Returns a standard Tcl completion code and sets the interp's result * if there is an error. * * Side effects: * Depends on various initialization scripts that get invoked. * *---------------------------------------------------------------------- */ int Tk_Init(interp) Tcl_Interp *interp; /* Interpreter to initialize. */ { return Initialize(interp); } /* *---------------------------------------------------------------------- * * Tk_SafeInit -- * * This procedure is invoked to add Tk to a safe interpreter. It * invokes the internal procedure that does the real work. * * Results: * Returns a standard Tcl completion code and sets the interp's result * if there is an error. * * Side effects: * Depends on various initialization scripts that are invoked. * *---------------------------------------------------------------------- */ int Tk_SafeInit(interp) Tcl_Interp *interp; /* Interpreter to initialize. */ { /* * Initialize the interpreter with Tk, safely. This removes * all the Tk commands that are unsafe. * * Rationale: * * - Toplevel and menu are unsafe because they can be used to cover * the entire screen and to steal input from the user. * - Continuous ringing of the bell is a nuisance. * - Cannot allow access to the clipboard because a malicious script * can replace the contents with the string "rm -r *" and lead to * surprises when the contents of the clipboard are pasted. Similarly, * the selection command is blocked. * - Cannot allow send because it can be used to cause unsafe * interpreters to execute commands. The tk command recreates the * send command, so that too must be hidden. * - Focus can be used to grab the focus away from another window, * in effect stealing user input. Cannot allow that. * NOTE: We currently do *not* hide focus as it would make it * impossible to provide keyboard input to Tk in a safe interpreter. * - Grab can be used to block the user from using any other apps * on the screen. * - Tkwait can block the containing process forever. Use bindings, * fileevents and split the protocol into before-the-wait and * after-the-wait parts. More work but necessary. * - Wm is unsafe because (if toplevels are allowed, in the future) * it can be used to remove decorations, move windows around, cover * the entire screen etc etc. * * Current risks: * * - No CPU time limit, no memory allocation limits, no color limits. * * The actual code called is the same as Tk_Init but Tcl_IsSafe() * is checked at several places to differentiate the two initialisations. */ return Initialize(interp); } extern TkStubs tkStubs; /* *---------------------------------------------------------------------- * * Initialize -- * * * Results: * A standard Tcl result. Also leaves an error message in the interp's * result if there was an error. * * Side effects: * Depends on the initialization scripts that are invoked. * *---------------------------------------------------------------------- */ static int Initialize(interp) Tcl_Interp *interp; /* Interpreter to initialize. */ { char *p; int argc, code; CONST char **argv; char *args[20]; CONST char *argString = NULL; Tcl_DString class; ThreadSpecificData *tsdPtr; /* * Ensure that we are getting the matching version of Tcl. This is * really only an issue when Tk is loaded dynamically. */ if (Tcl_InitStubs(interp, TCL_VERSION, 1) == NULL) { return TCL_ERROR; } /* * Ensure that our obj-types are registered with the Tcl runtime. */ TkRegisterObjTypes(); tsdPtr = (ThreadSpecificData *) Tcl_GetThreadData(&dataKey, sizeof(ThreadSpecificData)); /* * Start by initializing all the static variables to default acceptable * values so that no information is leaked from a previous run of this * code. */ Tcl_MutexLock(&windowMutex); synchronize = 0; name = NULL; display = NULL; geometry = NULL; colormap = NULL; use = NULL; visual = NULL; rest = 0; /* * We start by resetting the result because it might not be clean */ Tcl_ResetResult(interp); if (Tcl_IsSafe(interp)) { /* * Get the clearance to start Tk and the "argv" parameters * from the master. */ Tcl_DString ds; /* * Step 1 : find the master and construct the interp name * (could be a function if new APIs were ok). * We could also construct the path while walking, but there * is no API to get the name of an interp either. */ Tcl_Interp *master = interp; while (1) { master = Tcl_GetMaster(master); if (master == NULL) { Tcl_AppendResult(interp, "NULL master", (char *) NULL); Tcl_MutexUnlock(&windowMutex); return TCL_ERROR; } if (!Tcl_IsSafe(master)) { /* Found the trusted master. */ break; } } /* * Construct the name (rewalk...) */ if (Tcl_GetInterpPath(master, interp) != TCL_OK) { Tcl_AppendResult(interp, "error in Tcl_GetInterpPath", (char *) NULL); Tcl_MutexUnlock(&windowMutex); return TCL_ERROR; } /* * Build the string to eval. */ Tcl_DStringInit(&ds); Tcl_DStringAppendElement(&ds, "::safe::TkInit"); Tcl_DStringAppendElement(&ds, Tcl_GetStringResult(master)); /* * Step 2 : Eval in the master. The argument is the *reversed* * interp path of the slave. */ if (Tcl_Eval(master, Tcl_DStringValue(&ds)) != TCL_OK) { /* * We might want to transfer the error message or not. * We don't. (no API to do it and maybe security reasons). */ Tcl_DStringFree(&ds); Tcl_AppendResult(interp, "not allowed to start Tk by master's safe::TkInit", (char *) NULL); Tcl_MutexUnlock(&windowMutex); return TCL_ERROR; } Tcl_DStringFree(&ds); /* * Use the master's result as argv. * Note: We don't use the Obj interfaces to avoid dealing with * cross interp refcounting and changing the code below. */ argString = Tcl_GetStringResult(master); } else { /* * If there is an "argv" variable, get its value, extract out * relevant arguments from it, and rewrite the variable without * the arguments that we used. */ argString = Tcl_GetVar2(interp, "argv", (char *) NULL, TCL_GLOBAL_ONLY); } argv = NULL; if (argString != NULL) { char buffer[TCL_INTEGER_SPACE]; if (Tcl_SplitList(interp, argString, &argc, &argv) != TCL_OK) { argError: Tcl_AddErrorInfo(interp, "\n (processing arguments in argv variable)"); Tcl_MutexUnlock(&windowMutex); return TCL_ERROR; } if (Tk_ParseArgv(interp, (Tk_Window) NULL, &argc, argv, argTable, TK_ARGV_DONT_SKIP_FIRST_ARG|TK_ARGV_NO_DEFAULTS) != TCL_OK) { ckfree((char *) argv); goto argError; } p = Tcl_Merge(argc, argv); Tcl_SetVar2(interp, "argv", (char *) NULL, p, TCL_GLOBAL_ONLY); sprintf(buffer, "%d", argc); Tcl_SetVar2(interp, "argc", (char *) NULL, buffer, TCL_GLOBAL_ONLY); ckfree(p); } /* * Figure out the application's name and class. */ Tcl_DStringInit(&class); if (name == NULL) { int offset; TkpGetAppName(interp, &class); offset = Tcl_DStringLength(&class)+1; Tcl_DStringSetLength(&class, offset); Tcl_DStringAppend(&class, Tcl_DStringValue(&class), offset-1); name = Tcl_DStringValue(&class) + offset; } else { Tcl_DStringAppend(&class, name, -1); } p = Tcl_DStringValue(&class); if (*p) { Tcl_UtfToTitle(p); } /* * Create an argument list for creating the top-level window, * using the information parsed from argv, if any. */ args[0] = "toplevel"; args[1] = "."; args[2] = "-class"; args[3] = Tcl_DStringValue(&class); argc = 4; if (display != NULL) { args[argc] = "-screen"; args[argc+1] = display; argc += 2; /* * If this is the first application for this process, save * the display name in the DISPLAY environment variable so * that it will be available to subprocesses created by us. */ if (tsdPtr->numMainWindows == 0) { Tcl_SetVar2(interp, "env", "DISPLAY", display, TCL_GLOBAL_ONLY); } } if (colormap != NULL) { args[argc] = "-colormap"; args[argc+1] = colormap; argc += 2; colormap = NULL; } if (use != NULL) { args[argc] = "-use"; args[argc+1] = use; argc += 2; use = NULL; } if (visual != NULL) { args[argc] = "-visual"; args[argc+1] = visual; argc += 2; visual = NULL; } args[argc] = NULL; code = TkCreateFrame((ClientData) NULL, interp, argc, args, 1, name); Tcl_DStringFree(&class); if (code != TCL_OK) { goto done; } Tcl_ResetResult(interp); if (synchronize) { XSynchronize(Tk_Display(Tk_MainWindow(interp)), True); } /* * Set the geometry of the main window, if requested. Put the * requested geometry into the "geometry" variable. */ if (geometry != NULL) { Tcl_SetVar(interp, "geometry", geometry, TCL_GLOBAL_ONLY); code = Tcl_VarEval(interp, "wm geometry . ", geometry, (char *) NULL); if (code != TCL_OK) { goto done; } geometry = NULL; } Tcl_MutexUnlock(&windowMutex); if (Tcl_PkgRequire(interp, "Tcl", TCL_VERSION, 1) == NULL) { code = TCL_ERROR; goto done; } /* * Provide Tk and its stub table. */ code = Tcl_PkgProvideEx(interp, "Tk", TK_VERSION, (ClientData) &tkStubs); if (code != TCL_OK) { goto done; } else { /* * If we were able to provide ourselves as a package, then set * the main loop procedure in Tcl to our main loop proc. This * will cause tclsh to be event-aware when Tk is dynamically * loaded. This will have no effect in wish, which already is * prepared to run the event loop. */ Tcl_SetMainLoop(Tk_MainLoop); } #ifdef Tk_InitStubs #undef Tk_InitStubs #endif Tk_InitStubs(interp, TK_VERSION, 1); /* * Invoke platform-specific initialization. */ code = TkpInit(interp); done: if (argv != NULL) { ckfree((char *) argv); } return code; }