/* Copyright (C) 2002-2005 RealVNC Ltd. All Rights Reserved. * * This is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this software; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, * USA. */ // // TXWindow.h // // A TXWindow is the base class for all tx windows (widgets). In addition it // contains a number of static methods and members which are used throughout // tx. // // Before calling any other tx methods, TXWindow::init() must be called with // the X display to use. #ifndef __TXWINDOW_H__ #define __TXWINDOW_H__ #include #include #include #include #include // TXDeleteWindowCallback's deleteWindow() method is called when a top-level // window is "deleted" (closed) by the user using the window manager. class TXWindow; class TXDeleteWindowCallback { public: virtual void deleteWindow(TXWindow* w) = 0; }; // TXEventHandler is an interface implemented by classes wanting to handle X // events on a window. Most derived classes of window are their own event // handlers. class TXEventHandler { public: virtual void handleEvent(TXWindow* w, XEvent* ev) = 0; }; // TXGlobalEventHandler is similar to TXEventHandler but will be called early and // for every X event. The handler should return true to indicate that the // event was swallowed and shouldn't be processed further. class TXGlobalEventHandler { public: virtual bool handleGlobalEvent(XEvent* ev) = 0; }; class TXWindow { public: // Constructor - creates a window of the given size, with the default // background (currently grey). It is mapped by default if it has a parent. // If no parent is specified its parent is the root window and it will remain // unmapped. TXWindow(Display* dpy_, int width=1, int height=1, TXWindow* parent_=0, int borderWidth=0); virtual ~TXWindow(); // toplevel() declares that this is a top-level window. Various // window-manager-related properties are set on the window. The given // TXDeleteWindowCallback is notified when the window is "deleted" (cloesd) // by the user. void toplevel(const char* name, TXDeleteWindowCallback* dwc=0, int argc=0, char** argv=0, const char* windowClass=0, bool iconic=false); // setMaxSize() tells the window manager the maximum size to allow a // top-level window. It has no effect on a non-top-level window. void setMaxSize(int w, int h); // setUSPosition() tells the window manager the position which the "user" has // asked for a top-level window. Most window managers ignore requests by a // program for position, so you have to tell it that the "user" asked for the // position. This has no effect on a non-top-level window. void setUSPosition(int x, int y); void setGeometry(const char* geom, int x, int y, int w, int h); void setName(const char* name); // setTransientFor() tells the window manager that this window is "owned" by // the given window. The window manager can use this information as it sees // fit. void setTransientFor(Window w) { XSetTransientForHint(dpy, win(), w); } // setEventHandler() sets the TXEventHandler to handle X events for this // window. It returns the previous event handler, so that handlers can chain // themselves. TXEventHandler* setEventHandler(TXEventHandler* h); // Accessor methods Window win() { return win_; } int width() { return width_; } int height() { return height_; } // selectionOwner() returns true if this window owns the given selection. bool selectionOwner(Atom selection) { return selectionOwner_[selection]; } // Wrappers around common Xlib calls void addEventMask(long mask); void removeEventMask(long mask); void map() { XMapWindow(dpy, win()); } void unmap(); void setBg(unsigned long bg) { XSetWindowBackground(dpy, win(), bg); } void move(int x, int y) { XMoveWindow(dpy, win(), x, y); } void resize(int w, int h); void raise() { XRaiseWindow(dpy, win()); } void setBorderWidth(int bw); void invalidate(int x=0, int y=0, int w=0, int h=0) { XClearArea(dpy, win(), x, y, w, h, True); } // ownSelection requests that the window owns the given selection from the // given time (the time should be taken from an X event). void ownSelection(Atom selection, Time time); // drawBevel draws a rectangular or circular bevel filling the given // rectangle, using the given colours for the middle, the top/left and the // bottom/right. void drawBevel(GC gc, int x, int y, int w, int h, int b, unsigned long middle, unsigned long tl, unsigned long br, bool round=false); // Methods to be overridden in a derived class // resizeNotify() is called whenever the window's dimensions may have // changed. virtual void resizeNotify() {} // takeFocus() is called when the window has received keyboard focus from the // window manager. virtual void takeFocus(Time time) {} // selectionNotify() is called when the selection owner has replied to a // request for information about a selection from the selection owner. virtual void selectionNotify(XSelectionEvent* ev, Atom type, int format, int nitems, void* data) {} // selectionRequest() is called when this window is the selection owner and // another X client has requested the selection. It should set the given // property on the given window to the value of the given selection, // returning true if successful, false otherwise. virtual bool selectionRequest(Window requestor, Atom selection, Atom property) { return false;} // Static methods // init() must be called before any other tx methods. static void init(Display* dpy, const char* defaultWindowClass); // getColours() sets the pixel values in the cols array to the best available // for the given rgb values, even in the case of a full colormap. static void getColours(Display* dpy, XColor* cols, int nCols); // handleXEvents() should be called whenever there are events to handle on // the connection to the X display. It process all available events, then // returns when there are no more events to process. static void handleXEvents(Display* dpy); // setGlobalEventHandler() sets the TXGlobalEventHandler to intercept all // X events. It returns the previous events handler, so that handlers can // chain themselves. static TXGlobalEventHandler* setGlobalEventHandler(TXGlobalEventHandler* h); // windowWithName() locates a window with a given name on a display. static Window windowWithName(Display* dpy, Window top, const char* name); // strEmptyToNull() returns the string it's given but turns an empty string // into null, which can be useful for passing rfb parameters to Xlib calls. static char* strEmptyToNull(char* s) { return s && s[0] ? s : 0; } // The following are default values for various things. static unsigned long black, white; static unsigned long defaultFg, defaultBg, lightBg, darkBg; static unsigned long disabledFg, disabledBg, enabledBg; static unsigned long scrollbarBg; static GC defaultGC; static Colormap cmap; static Font defaultFont; static XFontStruct* defaultFS; static Time cutBufferTime; static Pixmap dot, tick; static const int dotSize, tickSize; static char* defaultWindowClass; Display* const dpy; int xPad, yPad, bevel; private: // handleXEvent() is called from handleXEvents() when an event for this // window arrives. It does general event processing before calling on to the // event handler. void handleXEvent(XEvent* ev); TXWindow* parent; Window win_; int width_, height_; TXEventHandler* eventHandler; TXDeleteWindowCallback* dwc; long eventMask; XSizeHints sizeHints; std::map selectionOwnTime; std::map selectionOwner_; bool toplevel_; static TXGlobalEventHandler* globalEventHandler; }; extern Atom wmProtocols, wmDeleteWindow, wmTakeFocus; extern Atom xaTIMESTAMP, xaTARGETS, xaSELECTION_TIME, xaSELECTION_STRING; extern Atom xaCLIPBOARD; #endif