#region License // // The Open Toolkit Library License // // Copyright (c) 2006 - 2009 the Open Toolkit library. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights to // use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of // the Software, and to permit persons to whom the Software is furnished to do // so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all // copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES // OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT // HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, // WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR // OTHER DEALINGS IN THE SOFTWARE. // #endregion using System; using System.Collections.Generic; using System.ComponentModel; using System.Diagnostics; #if !MINIMAL using System.Drawing; #endif using System.Reflection; using System.Runtime.InteropServices; using System.Text; using OpenTK.Graphics; using OpenTK.Input; namespace OpenTK.Platform.X11 { /// \internal /// /// Drives GameWindow on X11. /// This class supports OpenTK, and is not intended for use by OpenTK programs. /// internal sealed class X11GLNative : NativeWindowBase { // TODO: Disable screensaver. // TODO: What happens if we can't disable decorations through motif? // TODO: Mouse/keyboard grabbing/wrapping. #region Fields const int _min_width = 30, _min_height = 30; readonly X11WindowInfo window = new X11WindowInfo(); readonly X11KeyMap KeyMap; // Window manager hints for fullscreen windows. // Not used right now (the code is written, but is not 64bit-correct), but could be useful for older WMs which // are not ICCM compliant, but may support MOTIF hints. const string MOTIF_WM_ATOM = "_MOTIF_WM_HINTS"; const string KDE_WM_ATOM = "KWM_WIN_DECORATION"; const string KDE_NET_WM_ATOM = "_KDE_NET_WM_WINDOW_TYPE"; const string ICCM_WM_ATOM = "_NET_WM_WINDOW_TYPE"; const string ICON_NET_ATOM = "_NET_WM_ICON"; // The Atom class from Mono might be useful to avoid calling XInternAtom by hand (somewhat error prone). IntPtr _atom_wm_destroy; IntPtr _atom_net_wm_state; IntPtr _atom_net_wm_state_minimized; IntPtr _atom_net_wm_state_fullscreen; IntPtr _atom_net_wm_state_maximized_horizontal; IntPtr _atom_net_wm_state_maximized_vertical; #pragma warning disable 414 // assigned but never used IntPtr _atom_net_wm_allowed_actions; IntPtr _atom_net_wm_action_resize; IntPtr _atom_net_wm_action_maximize_horizontally; IntPtr _atom_net_wm_action_maximize_vertically; #pragma warning restore 414 IntPtr _atom_net_wm_icon; IntPtr _atom_net_frame_extents; readonly IntPtr _atom_xa_cardinal = new IntPtr(6); static readonly IntPtr _atom_remove = (IntPtr)0; static readonly IntPtr _atom_add = (IntPtr)1; static readonly IntPtr _atom_toggle = (IntPtr)2; #pragma warning disable 649 // never assigned, compiler bug in Mono 3.4.0 Rectangle bounds, client_rectangle; #pragma warning restore 649 int border_left, border_right, border_top, border_bottom; Icon icon; bool has_focus; bool visible; // Used for event loop. XEvent e = new XEvent(); bool disposed; bool exists; bool isExiting; bool _decorations_hidden = false; // Store previous border and bounds // when switching from WindowState.Normal // to a different state. When switching // back, reset window to these.s WindowBorder _previous_window_border; Size _previous_window_size; MouseCursor cursor = MouseCursor.Default; IntPtr cursorHandle; bool cursor_visible = true; // Keyboard input readonly byte[] ascii = new byte[16]; readonly char[] chars = new char[16]; readonly IntPtr EmptyCursor; #pragma warning disable 414 // Field assigned but never used, we do that on purpose readonly bool xi2_supported; readonly int xi2_opcode; readonly int xi2_version; #pragma warning restore 414 #endregion #region Constructors public X11GLNative(int x, int y, int width, int height, string title, GraphicsMode mode, GameWindowFlags options, DisplayDevice device) : this() { if (width <= 0) throw new ArgumentOutOfRangeException("width", "Must be higher than zero."); if (height <= 0) throw new ArgumentOutOfRangeException("height", "Must be higher than zero."); Debug.Indent(); using (new XLock(window.Display)) { IntPtr visual; IntPtr fbconfig; window.GraphicsMode = new X11GraphicsMode() .SelectGraphicsMode(mode, out visual, out fbconfig); window.Visual = visual; window.FBConfig = fbconfig; // Create a window on this display using the visual above Debug.Write("Opening render window... "); XSetWindowAttributes attributes = new XSetWindowAttributes(); attributes.background_pixel = IntPtr.Zero; attributes.border_pixel = IntPtr.Zero; attributes.colormap = Functions.XCreateColormap(window.Display, window.RootWindow, window.VisualInfo.Visual, 0/*AllocNone*/); window.EventMask = EventMask.StructureNotifyMask /*| EventMask.SubstructureNotifyMask*/ | EventMask.ExposureMask | EventMask.KeyReleaseMask | EventMask.KeyPressMask | EventMask.KeymapStateMask | EventMask.PointerMotionMask | EventMask.FocusChangeMask | EventMask.ButtonPressMask | EventMask.ButtonReleaseMask | EventMask.EnterWindowMask | EventMask.LeaveWindowMask | EventMask.PropertyChangeMask; attributes.event_mask = (IntPtr)window.EventMask; SetWindowValuemask mask = SetWindowValuemask.ColorMap | SetWindowValuemask.EventMask | SetWindowValuemask.BackPixel | SetWindowValuemask.BorderPixel; window.Handle = Functions.XCreateWindow(window.Display, window.RootWindow, x, y, width, height, 0, window.VisualInfo.Depth/*(int)CreateWindowArgs.CopyFromParent*/, CreateWindowArgs.InputOutput, window.VisualInfo.Visual, mask, attributes); if (window.Handle == IntPtr.Zero) throw new ApplicationException("XCreateWindow call failed (returned 0)."); if (title != null) Functions.XStoreName(window.Display, window.Handle, title); } XSizeHints hints = new XSizeHints(); hints.base_width = width; hints.base_height = height; hints.flags = (IntPtr)(XSizeHintsFlags.PSize | XSizeHintsFlags.PPosition); XClassHint class_hint = new XClassHint(); class_hint.Name = Assembly.GetEntryAssembly().GetName().Name.ToLower(); class_hint.Class = Assembly.GetEntryAssembly().GetName().Name; using (new XLock(window.Display)) { Functions.XSetWMNormalHints(window.Display, window.Handle, ref hints); // Register for window destroy notification Functions.XSetWMProtocols(window.Display, window.Handle, new IntPtr[] { _atom_wm_destroy }, 1); // Set the window class hints Functions.XSetClassHint(window.Display, window.Handle, ref class_hint); } SetWindowMinMax(_min_width, _min_height, -1, -1); // Set the initial window size to ensure X, Y, Width, Height and the rest // return the correct values inside the constructor and the Load event. XEvent e = new XEvent(); e.ConfigureEvent.x = x; e.ConfigureEvent.y = y; e.ConfigureEvent.width = width; e.ConfigureEvent.height = height; RefreshWindowBounds(ref e); EmptyCursor = CreateEmptyCursor(window); Debug.WriteLine(String.Format("X11GLNative window created successfully (id: {0}).", Handle)); Debug.Unindent(); using (new XLock(window.Display)) { // Request that auto-repeat is only set on devices that support it physically. // This typically means that it's turned off for keyboards (which is what we want). // We prefer this method over XAutoRepeatOff/On, because the latter needs to // be reset before the program exits. if (Xkb.IsSupported(window.Display)) { bool supported; Xkb.SetDetectableAutoRepeat(window.Display, true, out supported); } } // The XInput2 extension makes keyboard and mouse handling much easier. // Check whether it is available. xi2_supported = XI2MouseKeyboard.IsSupported(window.Display); if (xi2_supported) { xi2_opcode = XI2MouseKeyboard.XIOpCode; xi2_version = XI2MouseKeyboard.XIVersion; } exists = true; } /// /// Constructs and initializes a new X11GLNative window. /// Call CreateWindow to create the actual render window. /// public X11GLNative() { try { Debug.Print("Creating X11GLNative window."); Debug.Indent(); // Open a display connection to the X server, and obtain the screen and root window. window.Display = Functions.XOpenDisplay(IntPtr.Zero); //window.Display = API.DefaultDisplay; if (window.Display == IntPtr.Zero) throw new Exception("Could not open connection to X"); using (new XLock(window.Display)) { window.Screen = Functions.XDefaultScreen(window.Display); //API.DefaultScreen; window.RootWindow = Functions.XRootWindow(window.Display, window.Screen); // API.RootWindow; KeyMap = new X11KeyMap(window.Display); } Debug.Print("Display: {0}, Screen {1}, Root window: {2}", window.Display, window.Screen, window.RootWindow); RegisterAtoms(window); } finally { Debug.Unindent(); } } #endregion #region Private Members #region private void RegisterAtoms() /// /// Not used yet. /// Registers the necessary atoms for GameWindow. /// private void RegisterAtoms(X11WindowInfo window) { using (new XLock(window.Display)) { Debug.WriteLine("Registering atoms."); _atom_wm_destroy = Functions.XInternAtom(window.Display, "WM_DELETE_WINDOW", true); _atom_net_wm_state = Functions.XInternAtom(window.Display, "_NET_WM_STATE", false); _atom_net_wm_state_minimized = Functions.XInternAtom(window.Display, "_NET_WM_STATE_MINIMIZED", false); _atom_net_wm_state_fullscreen = Functions.XInternAtom(window.Display, "_NET_WM_STATE_FULLSCREEN", false); _atom_net_wm_state_maximized_horizontal = Functions.XInternAtom(window.Display, "_NET_WM_STATE_MAXIMIZED_HORZ", false); _atom_net_wm_state_maximized_vertical = Functions.XInternAtom(window.Display, "_NET_WM_STATE_MAXIMIZED_VERT", false); _atom_net_wm_allowed_actions = Functions.XInternAtom(window.Display, "_NET_WM_ALLOWED_ACTIONS", false); _atom_net_wm_action_resize = Functions.XInternAtom(window.Display, "_NET_WM_ACTION_RESIZE", false); _atom_net_wm_action_maximize_horizontally = Functions.XInternAtom(window.Display, "_NET_WM_ACTION_MAXIMIZE_HORZ", false); _atom_net_wm_action_maximize_vertically = Functions.XInternAtom(window.Display, "_NET_WM_ACTION_MAXIMIZE_VERT", false); _atom_net_wm_icon = Functions.XInternAtom(window.Display, "_NEW_WM_ICON", false); _atom_net_frame_extents = Functions.XInternAtom(window.Display, "_NET_FRAME_EXTENTS", false); // string[] atom_names = new string[] // { // //"WM_TITLE", // //"UTF8_STRING" // }; // IntPtr[] atoms = new IntPtr[atom_names.Length]; // //Functions.XInternAtoms(window.Display, atom_names, atom_names.Length, false, atoms); // // int offset = 0; // //WMTitle = atoms[offset++]; // //UTF8String = atoms[offset++]; } } #endregion #region SetWindowMinMax void SetWindowMinMax(int min_width, int min_height, int max_width, int max_height) { SetWindowMinMax((short)min_width, (short)min_height, (short)max_width, (short)max_height); } void SetWindowMinMax(short min_width, short min_height, short max_width, short max_height) { IntPtr dummy; XSizeHints hints = new XSizeHints(); using (new XLock(window.Display)) { Functions.XGetWMNormalHints(window.Display, window.Handle, ref hints, out dummy); } if (min_width > 0 || min_height > 0) { hints.flags = (IntPtr)((int)hints.flags | (int)XSizeHintsFlags.PMinSize); hints.min_width = min_width; hints.min_height = min_height; } else hints.flags = (IntPtr)((int)hints.flags & ~(int)XSizeHintsFlags.PMinSize); if (max_width > 0 || max_height > 0) { hints.flags = (IntPtr)((int)hints.flags | (int)XSizeHintsFlags.PMaxSize); hints.max_width = max_width; hints.max_height = max_height; } else hints.flags = (IntPtr)((int)hints.flags & ~(int)XSizeHintsFlags.PMaxSize); if (hints.flags != IntPtr.Zero) { // The Metacity team has decided that they won't care about this when clicking the maximize // icon, will maximize the window to fill the screen/parent no matter what. // http://bugzilla.ximian.com/show_bug.cgi?id=80021 using (new XLock(window.Display)) { Functions.XSetWMNormalHints(window.Display, window.Handle, ref hints); } } } #endregion #region IsWindowBorderResizable bool IsWindowBorderResizable { get { using (new XLock(window.Display)) { XSizeHints hints = new XSizeHints(); IntPtr dummy; if (Functions.XGetWMNormalHints(window.Display, window.Handle, ref hints, out dummy) != 0) { return hints.min_width != hints.max_width || hints.min_height != hints.max_height; } } return false; } } #endregion #region bool IsWindowBorderHidden bool IsWindowBorderHidden { get { using (new XLock(window.Display)) { // Test if decorations have been disabled through Motif. IntPtr motif_hints_atom = Functions.XInternAtom(this.window.Display, MOTIF_WM_ATOM, true); if (motif_hints_atom != IntPtr.Zero) { // TODO: How to check if MotifWMHints decorations have been really disabled? if (_decorations_hidden) return true; } // Some WMs remove decorations when the transient_for hint is set. Most new ones do not (but those // should obey the Motif hint). Anyway, if this hint is set, we say the decorations have been remove // although there is a slight chance this is not the case. IntPtr transient_for_parent; Functions.XGetTransientForHint(window.Display, window.Handle, out transient_for_parent); if (transient_for_parent != IntPtr.Zero) return true; return false; } } } #endregion #region void DisableWindowDecorations() void DisableWindowDecorations() { if (DisableMotifDecorations()) { Debug.Print("Removed decorations through motif."); _decorations_hidden = true; } using (new XLock(window.Display)) { // Functions.XSetTransientForHint(this.window.Display, this.Handle, this.window.RootWindow); // Some WMs remove decorations when this hint is set. Doesn't hurt to try. Functions.XSetTransientForHint(this.window.Display, this.Handle, this.window.RootWindow); if (_decorations_hidden) { Functions.XUnmapWindow(this.window.Display, this.Handle); Functions.XMapWindow(this.window.Display, this.Handle); } } } #region bool DisableMotifDecorations() bool DisableMotifDecorations() { using (new XLock(window.Display)) { IntPtr atom = Functions.XInternAtom(this.window.Display, MOTIF_WM_ATOM, true); if (atom != IntPtr.Zero) { //Functions.XGetWindowProperty(window.Display, window.Handle, atom, IntPtr.Zero, IntPtr.Zero, false, MotifWmHints hints = new MotifWmHints(); hints.flags = (IntPtr)MotifFlags.Decorations; Functions.XChangeProperty(this.window.Display, this.Handle, atom, atom, 32, PropertyMode.Replace, ref hints, Marshal.SizeOf(hints) / IntPtr.Size); return true; } return false; } } #endregion #region bool DisableGnomeDecorations() bool DisableGnomeDecorations() { using (new XLock(window.Display)) { IntPtr atom = Functions.XInternAtom(this.window.Display, Constants.XA_WIN_HINTS, true); if (atom != IntPtr.Zero) { IntPtr hints = IntPtr.Zero; Functions.XChangeProperty(this.window.Display, this.Handle, atom, atom, 32, PropertyMode.Replace, ref hints, Marshal.SizeOf(hints) / IntPtr.Size); return true; } return false; } } #endregion #endregion #region void EnableWindowDecorations() void EnableWindowDecorations() { if (EnableMotifDecorations()) { Debug.Print("Activated decorations through motif."); _decorations_hidden = false; } //if (EnableGnomeDecorations()) { Debug.Print("Activated decorations through gnome."); activated = true; } using (new XLock(window.Display)) { Functions.XSetTransientForHint(this.window.Display, this.Handle, IntPtr.Zero); if (!_decorations_hidden) { Functions.XUnmapWindow(this.window.Display, this.Handle); Functions.XMapWindow(this.window.Display, this.Handle); } } } #region bool EnableMotifDecorations() bool EnableMotifDecorations() { using (new XLock(window.Display)) { IntPtr atom = Functions.XInternAtom(this.window.Display, MOTIF_WM_ATOM, true); if (atom != IntPtr.Zero) { //Functions.XDeleteProperty(this.window.Display, this.Handle, atom); MotifWmHints hints = new MotifWmHints(); hints.flags = (IntPtr)MotifFlags.Decorations; hints.decorations = (IntPtr)MotifDecorations.All; Functions.XChangeProperty(this.window.Display, this.Handle, atom, atom, 32, PropertyMode.Replace, ref hints, Marshal.SizeOf(hints) / IntPtr.Size); return true; } return false; } } #endregion #region bool EnableGnomeDecorations() bool EnableGnomeDecorations() { using (new XLock(window.Display)) { // Restore window layer. //XEvent xev = new XEvent(); //xev.ClientMessageEvent.window = this.window.Handle; //xev.ClientMessageEvent.type = XEventName.ClientMessage; //xev.ClientMessageEvent.message_type = Functions.XInternAtom(this.window.Display, Constants.XA_WIN_LAYER, false); //xev.ClientMessageEvent.format = 32; //xev.ClientMessageEvent.ptr1 = (IntPtr)WindowLayer.AboveDock; //Functions.XSendEvent(this.window.Display, this.window.RootWindow, false, (IntPtr)EventMask.SubstructureNotifyMask, ref xev); IntPtr atom = Functions.XInternAtom(this.window.Display, Constants.XA_WIN_HINTS, true); if (atom != IntPtr.Zero) { Functions.XDeleteProperty(this.window.Display, this.Handle, atom); return true; } return false; } } #endregion #endregion #region DeleteIconPixmaps static void DeleteIconPixmaps(IntPtr display, IntPtr window) { using (new XLock(display)) { IntPtr wmHints_ptr = Functions.XGetWMHints(display, window); if (wmHints_ptr != IntPtr.Zero) { XWMHints wmHints = (XWMHints)Marshal.PtrToStructure(wmHints_ptr, typeof(XWMHints)); XWMHintsFlags flags = (XWMHintsFlags)wmHints.flags.ToInt32(); if ((flags & XWMHintsFlags.IconPixmapHint) != 0) { wmHints.flags = new IntPtr((int)(flags & ~XWMHintsFlags.IconPixmapHint)); Functions.XFreePixmap(display, wmHints.icon_pixmap); } if ((flags & XWMHintsFlags.IconMaskHint) != 0) { wmHints.flags = new IntPtr((int)(flags & ~XWMHintsFlags.IconMaskHint)); Functions.XFreePixmap(display, wmHints.icon_mask); } Functions.XSetWMHints(display, window, ref wmHints); Functions.XFree(wmHints_ptr); } } } #endregion bool RefreshWindowBorders() { bool borders_changed = false; if (IsWindowBorderHidden) { borders_changed = border_left != 0 || border_right != 0 || border_top != 0 || border_bottom != 0; border_left = 0; border_right = 0; border_top = 0; border_bottom = 0; } else { IntPtr atom, nitems, bytes_after, prop = IntPtr.Zero; int format; using (new XLock(window.Display)) { Functions.XGetWindowProperty(window.Display, window.Handle, _atom_net_frame_extents, IntPtr.Zero, new IntPtr(16), false, (IntPtr)AtomName.XA_CARDINAL, out atom, out format, out nitems, out bytes_after, ref prop); } if ((prop != IntPtr.Zero)) { if ((long)nitems == 4) { int new_border_left = Marshal.ReadIntPtr(prop, 0).ToInt32(); int new_border_right = Marshal.ReadIntPtr(prop, IntPtr.Size).ToInt32(); int new_border_top = Marshal.ReadIntPtr(prop, IntPtr.Size * 2).ToInt32(); int new_border_bottom = Marshal.ReadIntPtr(prop, IntPtr.Size * 3).ToInt32(); borders_changed = new_border_left != border_left || new_border_right != border_right || new_border_top != border_top || new_border_bottom != border_bottom; border_left = new_border_left; border_right = new_border_right; border_top = new_border_top; border_bottom = new_border_bottom; //Debug.WriteLine(border_left); //Debug.WriteLine(border_right); //Debug.WriteLine(border_top); //Debug.WriteLine(border_bottom); } using (new XLock(window.Display)) { Functions.XFree(prop); } } } return borders_changed; } void RefreshWindowBounds(ref XEvent e) { RefreshWindowBorders(); // For whatever reason, the x/y coordinates // of a configure event are global to the // root window when it is a send_event but // local when it is a regular event. // I don't know who designed this, but this is // utter nonsense. int x, y; IntPtr unused; if (!e.ConfigureEvent.send_event) { Functions.XTranslateCoordinates(window.Display, window.Handle, window.RootWindow, 0, 0, out x, out y, out unused); } else { x = e.ConfigureEvent.x; y = e.ConfigureEvent.y; } Point new_location = new Point( x - border_left, y - border_top); if (Location != new_location) { bounds.Location = new_location; OnMove(EventArgs.Empty); } // Note: width and height denote the internal (client) size. // To get the external (window) size, we need to add the border size. Size new_size = new Size( e.ConfigureEvent.width + border_left + border_right, e.ConfigureEvent.height + border_top + border_bottom); if (Bounds.Size != new_size) { bounds.Size = new_size; // X11 sets the client width/height to 0 // when the window is minimized. Many apps // do not expect this and crash, so clamp // minimum width/height to 1 instead. client_rectangle.Size = new Size( Math.Max(e.ConfigureEvent.width, 1), Math.Max(e.ConfigureEvent.height, 1)); OnResize(EventArgs.Empty); } //Debug.Print("[X11] Window bounds changed: {0}", bounds); } static IntPtr CreateEmptyCursor(X11WindowInfo window) { IntPtr cursor = IntPtr.Zero; using (new XLock(window.Display)) { XColor black, dummy; IntPtr cmap = Functions.XDefaultColormap(window.Display, window.Screen); Functions.XAllocNamedColor(window.Display, cmap, "black", out black, out dummy); IntPtr bmp_empty = Functions.XCreateBitmapFromData(window.Display, window.Handle, new byte[,] { { 0 } }); cursor = Functions.XCreatePixmapCursor(window.Display, bmp_empty, bmp_empty, ref black, ref black, 0, 0); } return cursor; } #endregion #region INativeWindow Members #region ProcessEvents public override void ProcessEvents() { base.ProcessEvents(); // Process all pending events while (Exists && window != null) { using (new XLock(window.Display)) { if (!Functions.XCheckWindowEvent(window.Display, window.Handle, window.EventMask, ref e) && !Functions.XCheckTypedWindowEvent(window.Display, window.Handle, XEventName.ClientMessage, ref e)) break; } // Respond to the event e switch (e.type) { case XEventName.MapNotify: { bool previous_visible = visible; visible = true; if (visible != previous_visible) OnVisibleChanged(EventArgs.Empty); } return; case XEventName.UnmapNotify: { bool previous_visible = visible; visible = false; if (visible != previous_visible) OnVisibleChanged(EventArgs.Empty); } break; case XEventName.CreateNotify: // A child was was created - nothing to do break; case XEventName.ClientMessage: if (!isExiting && e.ClientMessageEvent.ptr1 == _atom_wm_destroy) { Debug.Print("[X11] Exit message received for window {0:X} on display {1:X}", window.Handle, window.Display); CancelEventArgs ce = new CancelEventArgs(); OnClosing(ce); if (!ce.Cancel) { isExiting = true; DestroyWindow(); OnClosed(EventArgs.Empty); break; } } break; case XEventName.DestroyNotify: Debug.WriteLine("Window destroyed"); exists = false; return; case XEventName.ConfigureNotify: RefreshWindowBounds(ref e); break; case XEventName.KeyPress: case XEventName.KeyRelease: bool pressed = e.type == XEventName.KeyPress; Key key; if (KeyMap.TranslateKey(ref e.KeyEvent, out key)) { if (pressed) { // Raise KeyDown event bool is_repeat = KeyboardState[key]; OnKeyDown(key, is_repeat); } else { // Raise KeyUp event OnKeyUp(key); } if (pressed) { // Translate XKeyPress to characters and // raise KeyPress events int status = 0; status = Functions.XLookupString( ref e.KeyEvent, ascii, ascii.Length, null, IntPtr.Zero); Encoding.Default.GetChars(ascii, 0, status, chars, 0); for (int i = 0; i < status; i++) { if (!Char.IsControl(chars[i])) { OnKeyPress(chars[i]); } } } } break; case XEventName.MotionNotify: { int x = e.MotionEvent.x; int y = e.MotionEvent.y; if (x != MouseState.X || y != MouseState.Y) { OnMouseMove( MathHelper.Clamp(x, 0, Width), MathHelper.Clamp(y, 0, Height)); } break; } case XEventName.ButtonPress: { float dx, dy; MouseButton button = X11KeyMap.TranslateButton(e.ButtonEvent.button, out dx, out dy); if (button != MouseButton.LastButton) { OnMouseDown(button); } if (xi2_version >= 210) { // High resolution scroll events supported. // This code is implemented in XI2Mouse.GetCursorState(). // Instead of reimplementing this functionality, just // use the values from there. MouseState state = Mouse.GetCursorState(); dx = state.Scroll.X - MouseState.Scroll.X; dy = state.Scroll.Y - MouseState.Scroll.Y; } if (dx != 0 || dy != 0) { // High resolution scroll events not supported // fallback to the old Button4-7 scroll buttons OnMouseWheel(dx, dy); } } break; case XEventName.ButtonRelease: { float dx, dy; MouseButton button = X11KeyMap.TranslateButton(e.ButtonEvent.button, out dx, out dy); if (button != MouseButton.LastButton) { OnMouseUp(button); } } break; case XEventName.FocusIn: { bool previous_focus = has_focus; has_focus = true; if (has_focus != previous_focus) OnFocusedChanged(EventArgs.Empty); if (Focused && !CursorVisible) { GrabMouse(); } } break; case XEventName.FocusOut: { bool previous_focus = has_focus; has_focus = false; if (has_focus != previous_focus) OnFocusedChanged(EventArgs.Empty); } break; case XEventName.LeaveNotify: if (CursorVisible) { int x = MathHelper.Clamp(e.CrossingEvent.x, 0, Width); int y = MathHelper.Clamp(e.CrossingEvent.y, 0, Height); if (x != MouseState.X || y != MouseState.Y) { OnMouseMove(x, y); } OnMouseLeave(EventArgs.Empty); } break; case XEventName.EnterNotify: OnMouseEnter(EventArgs.Empty); break; case XEventName.MappingNotify: // 0 == MappingModifier, 1 == MappingKeyboard if (e.MappingEvent.request == 0 || e.MappingEvent.request == 1) { Debug.Print("keybard mapping refreshed"); Functions.XRefreshKeyboardMapping(ref e.MappingEvent); KeyMap.RefreshKeycodes(window.Display); } break; case XEventName.PropertyNotify: if (e.PropertyEvent.atom == _atom_net_wm_state) { OnWindowStateChanged(EventArgs.Empty); } //if (e.PropertyEvent.atom == _atom_net_frame_extents) //{ // RefreshWindowBorders(); //} break; default: //Debug.WriteLine(String.Format("{0} event was not handled", e.type)); break; } } } #endregion #region Bounds public override Rectangle Bounds { get { return bounds; } set { bool is_location_changed = bounds.Location != value.Location; bool is_size_changed = bounds.Size != value.Size; int x = value.X; int y = value.Y; int width = value.Width - border_left - border_right; int height = value.Height - border_top - border_bottom; if (WindowBorder != WindowBorder.Resizable) { SetWindowMinMax(width, height, width, height); } using (new XLock(window.Display)) { if (is_location_changed && is_size_changed) { Functions.XMoveResizeWindow(window.Display, window.Handle, x, y, width, height); } else if (is_location_changed) { Functions.XMoveWindow(window.Display, window.Handle, x, y); } else if (is_size_changed) { Functions.XResizeWindow(window.Display, window.Handle, width, height); } } ProcessEvents(); } } #endregion #region ClientSize public override Size ClientSize { get { return client_rectangle.Size; } set { using (new XLock(window.Display)) { Functions.XResizeWindow(window.Display, window.Handle, value.Width, value.Height); } ProcessEvents(); } } #endregion #region Icon public override Icon Icon { get { return icon; } set { if (value == icon) return; // Note: it seems that Gnome/Metacity does not respect the _NET_WM_ICON hint. // For this reason, we'll also set the icon using XSetWMHints. if (value == null) { using (new XLock(window.Display)) { Functions.XDeleteProperty(window.Display, window.Handle, _atom_net_wm_icon); DeleteIconPixmaps(window.Display, window.Handle); } } else { // Set _NET_WM_ICON Bitmap bitmap = value.ToBitmap(); int size = bitmap.Width * bitmap.Height + 2; IntPtr[] data = new IntPtr[size]; int index = 0; data[index++] = (IntPtr)bitmap.Width; data[index++] = (IntPtr)bitmap.Height; for (int y = 0; y < bitmap.Height; y++) for (int x = 0; x < bitmap.Width; x++) data[index++] = (IntPtr)bitmap.GetPixel(x, y).ToArgb(); using (new XLock(window.Display)) { Functions.XChangeProperty(window.Display, window.Handle, _atom_net_wm_icon, _atom_xa_cardinal, 32, PropertyMode.Replace, data, size); } // Set XWMHints DeleteIconPixmaps(window.Display, window.Handle); using (new XLock(window.Display)) { IntPtr wmHints_ptr = Functions.XGetWMHints(window.Display, window.Handle); if (wmHints_ptr == IntPtr.Zero) wmHints_ptr = Functions.XAllocWMHints(); XWMHints wmHints = (XWMHints)Marshal.PtrToStructure(wmHints_ptr, typeof(XWMHints)); wmHints.flags = new IntPtr(wmHints.flags.ToInt32() | (int)(XWMHintsFlags.IconPixmapHint | XWMHintsFlags.IconMaskHint)); wmHints.icon_pixmap = Functions.CreatePixmapFromImage(window.Display, bitmap); wmHints.icon_mask = Functions.CreateMaskFromImage(window.Display, bitmap); Functions.XSetWMHints(window.Display, window.Handle, ref wmHints); Functions.XFree (wmHints_ptr); Functions.XSync(window.Display, false); } } icon = value; OnIconChanged(EventArgs.Empty); } } #endregion #region Focused public override bool Focused { get { return has_focus; } } #endregion #region WindowState public override OpenTK.WindowState WindowState { get { IntPtr actual_atom; int actual_format; IntPtr nitems; IntPtr bytes_after; IntPtr prop = IntPtr.Zero; IntPtr atom; //XWindowAttributes attributes; bool fullscreen = false; int maximized = 0; bool minimized = false; using (new XLock(window.Display)) { Functions.XGetWindowProperty(window.Display, window.Handle, _atom_net_wm_state, IntPtr.Zero, new IntPtr(256), false, new IntPtr(4) /*XA_ATOM*/, out actual_atom, out actual_format, out nitems, out bytes_after, ref prop); } if ((long)nitems > 0 && prop != IntPtr.Zero) { for (int i = 0; i < (long)nitems; i++) { atom = (IntPtr)Marshal.ReadIntPtr(prop, i * IntPtr.Size); if (atom == _atom_net_wm_state_maximized_horizontal || atom == _atom_net_wm_state_maximized_vertical) maximized++; else if (atom == _atom_net_wm_state_minimized) minimized = true; else if (atom == _atom_net_wm_state_fullscreen) fullscreen = true; } using (new XLock(window.Display)) { Functions.XFree(prop); } } if (minimized) return OpenTK.WindowState.Minimized; else if (maximized == 2) return OpenTK.WindowState.Maximized; else if (fullscreen) return OpenTK.WindowState.Fullscreen; /* attributes = new XWindowAttributes(); Functions.XGetWindowAttributes(window.Display, window.Handle, ref attributes); if (attributes.map_state == MapState.IsUnmapped) return (OpenTK.WindowState)(-1); */ return OpenTK.WindowState.Normal; } set { OpenTK.WindowState current_state = this.WindowState; // When switching away from normal state, store // the "normal" border and size. These will be used // for restoring to normal state. if (current_state == OpenTK.WindowState.Normal) { _previous_window_border = WindowBorder; _previous_window_size = ClientSize; } if (current_state == value) return; Debug.Print("GameWindow {0} changing WindowState from {1} to {2}.", window.Handle.ToString(), current_state.ToString(), value.ToString()); // When minimizing the window, call XIconifyWindow and bail out. // For other states, we first need to restore the window, set the // new state and reset the window border and bounds. if (value != OpenTK.WindowState.Minimized) { // Some WMs cannot switch between specific states directly, // Switch back to a regular window first. if (WindowBorder == WindowBorder.Fixed) { ChangeWindowBorder(WindowBorder.Resizable); } ResetWindowState(current_state); } // Change to the desired WindowState. // Note that OnWindowStateChanged is called inside // ProcessEvents. ChangeWindowState(value); ProcessEvents(); } } void ResetWindowState(OpenTK.WindowState current_state) { if (current_state != OpenTK.WindowState.Normal) { using (new XLock(window.Display)) { switch (current_state) { case OpenTK.WindowState.Minimized: Functions.XMapWindow(window.Display, window.Handle); break; case OpenTK.WindowState.Fullscreen: Functions.SendNetWMMessage(window, _atom_net_wm_state, _atom_remove, _atom_net_wm_state_fullscreen, IntPtr.Zero); break; case OpenTK.WindowState.Maximized: Functions.SendNetWMMessage(window, _atom_net_wm_state, _atom_toggle, _atom_net_wm_state_maximized_horizontal, _atom_net_wm_state_maximized_vertical); break; } } } } void ChangeWindowState(OpenTK.WindowState value) { using (new XLock(window.Display)) { switch (value) { case OpenTK.WindowState.Normal: Functions.XRaiseWindow(window.Display, window.Handle); ChangeWindowBorder(_previous_window_border, _previous_window_size.Width, _previous_window_size.Height); break; case OpenTK.WindowState.Maximized: Functions.SendNetWMMessage(window, _atom_net_wm_state, _atom_add, _atom_net_wm_state_maximized_horizontal, _atom_net_wm_state_maximized_vertical); Functions.XRaiseWindow(window.Display, window.Handle); break; case OpenTK.WindowState.Minimized: Functions.XIconifyWindow(window.Display, window.Handle, window.Screen); break; case OpenTK.WindowState.Fullscreen: Functions.SendNetWMMessage(window, _atom_net_wm_state, _atom_add, _atom_net_wm_state_fullscreen, IntPtr.Zero); Functions.XRaiseWindow(window.Display, window.Handle); break; } } } #endregion #region WindowBorder public override OpenTK.WindowBorder WindowBorder { get { if (IsWindowBorderHidden || WindowState == OpenTK.WindowState.Fullscreen) return WindowBorder.Hidden; else if (!IsWindowBorderResizable) return WindowBorder.Fixed; else if (WindowState == OpenTK.WindowState.Maximized) return _previous_window_border; else return WindowBorder.Resizable; } set { if (WindowBorder == value) return; // We cannot change the border of a fullscreen window. // Record the new value and set it on the next WindowState // change. if (WindowState == OpenTK.WindowState.Fullscreen) { _previous_window_border = value; return; } ChangeWindowBorder(value); OnWindowBorderChanged(EventArgs.Empty); } } void ChangeWindowBorder(WindowBorder value) { ChangeWindowBorder(value, Width, Height); } void ChangeWindowBorder(WindowBorder value, int width, int height) { if (WindowBorder == WindowBorder.Hidden) EnableWindowDecorations(); switch (value) { case WindowBorder.Fixed: Debug.Print("Making WindowBorder fixed."); SetWindowMinMax((short)width, (short)height, (short)width, (short)height); break; case WindowBorder.Resizable: Debug.Print("Making WindowBorder resizable."); SetWindowMinMax(_min_width, _min_height, -1, -1); break; case WindowBorder.Hidden: Debug.Print("Making WindowBorder hidden."); // Make the hidden border resizable, otherwise // we won't be able to maximize the window or // enter fullscreen mode. SetWindowMinMax(_min_width, _min_height, -1, -1); DisableWindowDecorations(); break; } ProcessEvents(); } #endregion #region Cursor public override MouseCursor Cursor { get { return cursor; } set { unsafe { if (value == cursor) return; using (new XLock(window.Display)) { if (value == MouseCursor.Default) { cursorHandle = IntPtr.Zero; } else if (value == MouseCursor.Empty) { cursorHandle = EmptyCursor; } else { fixed(byte* pixels = value.Data) { var xcursorimage = Functions.XcursorImageCreate(value.Width, value.Height); xcursorimage->xhot = (uint)value.X; xcursorimage->yhot = (uint)value.Y; xcursorimage->pixels = (uint*)pixels; xcursorimage->delay = 0; cursorHandle = Functions.XcursorImageLoadCursor(window.Display, xcursorimage); Functions.XcursorImageDestroy(xcursorimage); } } // If the cursor is visible set it now. // Otherwise, it will be set in CursorVisible = true. if (CursorVisible) { Functions.XDefineCursor(window.Display, window.Handle, cursorHandle); } cursor = value; } } } } #endregion #region CursorVisible public override bool CursorVisible { get { return cursor_visible; } set { if (value) { using (new XLock(window.Display)) { UngrabMouse(); Point p = PointToScreen(new Point(MouseState.X, MouseState.Y)); Mouse.SetPosition(p.X, p.Y); // Note: if cursorHandle = IntPtr.Zero, this restores the default cursor // (equivalent to calling XUndefineCursor) Functions.XDefineCursor(window.Display, window.Handle, cursorHandle); cursor_visible = true; } } else { using (new XLock(window.Display)) { GrabMouse(); cursor_visible = false; } } } } void GrabMouse() { Functions.XGrabPointer(window.Display, window.Handle, false, EventMask.PointerMotionMask | EventMask.ButtonPressMask | EventMask.ButtonReleaseMask, GrabMode.GrabModeAsync, GrabMode.GrabModeAsync, window.Handle, EmptyCursor, IntPtr.Zero); } void UngrabMouse() { Functions.XUngrabPointer(window.Display, IntPtr.Zero); } #endregion #endregion #region --- INativeGLWindow Members --- #region public bool Exists /// /// Returns true if a render window/context exists. /// public override bool Exists { get { return exists; } } #endregion #region public bool IsIdle public bool IsIdle { get { throw new Exception("The method or operation is not implemented."); } } #endregion #region public IntPtr Handle /// /// Gets the current window handle. /// public IntPtr Handle { get { return this.window.Handle; } } #endregion #region public string Title /// /// TODO: Use atoms for this property. /// Gets or sets the GameWindow title. /// public override string Title { get { IntPtr name = IntPtr.Zero; using (new XLock(window.Display)) { Functions.XFetchName(window.Display, window.Handle, ref name); } if (name != IntPtr.Zero) return Marshal.PtrToStringAnsi(name); return String.Empty; } set { if (value != null && value != Title) { using (new XLock(window.Display)) { Functions.XStoreName(window.Display, window.Handle, value); } } OnTitleChanged(EventArgs.Empty); } } #endregion #region public bool Visible public override bool Visible { get { return visible; } set { if (value && !visible) { using (new XLock(window.Display)) { Functions.XMapWindow(window.Display, window.Handle); } } else if (!value && visible) { using (new XLock(window.Display)) { Functions.XUnmapWindow(window.Display, window.Handle); } } } } #endregion #region public IWindowInfo WindowInfo public override IWindowInfo WindowInfo { get { return window; } } #endregion public override void Close() { Exit(); } #region public void Exit() public void Exit() { Debug.Print("[X11] Sending exit message window {0:X} on display {1:X}", window.Handle, window.Display); XEvent ev = new XEvent(); ev.type = XEventName.ClientMessage; ev.ClientMessageEvent.format = 32; ev.ClientMessageEvent.display = window.Display; ev.ClientMessageEvent.window = window.Handle; ev.ClientMessageEvent.ptr1 = _atom_wm_destroy; using (new XLock(window.Display)) { Functions.XSendEvent(window.Display, window.Handle, false, EventMask.NoEventMask, ref ev); Functions.XFlush(window.Display); } } #endregion #region public void DestroyWindow() public void DestroyWindow() { Debug.Print("[X11] Destroying window {0:X} on display {1:X}", window.Handle, window.Display); using (new XLock(window.Display)) { Functions.XUnmapWindow(window.Display, window.Handle); Functions.XSync(window.Display, false); Functions.XDestroyWindow(window.Display, window.Handle); exists = false; } } #endregion #region PointToClient public override Point PointToClient(Point point) { int ox, oy; IntPtr child; using (new XLock(window.Display)) { Functions.XTranslateCoordinates(window.Display, window.RootWindow, window.Handle, point.X, point.Y, out ox, out oy, out child); } point.X = ox; point.Y = oy; return point; } #endregion #region PointToScreen public override Point PointToScreen(Point point) { int ox, oy; IntPtr child; using (new XLock(window.Display)) { Functions.XTranslateCoordinates(window.Display, window.Handle, window.RootWindow, point.X, point.Y, out ox, out oy, out child); } point.X = ox; point.Y = oy; return point; } #endregion #endregion #region IDisposable Members protected override void Dispose(bool manuallyCalled) { if (!disposed) { if (manuallyCalled) { if (window != null && window.Handle != IntPtr.Zero) { Functions.XFreeCursor(window.Display, EmptyCursor); if(cursorHandle != IntPtr.Zero) { Functions.XFreeCursor(window.Display, cursorHandle); } if (Exists) { DestroyWindow(); } window.Dispose(); } } else { Debug.Print("[Warning] {0} leaked.", this.GetType().Name); } disposed = true; } } #endregion } }