irrlicht/source/Irrlicht/CIrrDeviceLinux.cpp
cutealien 84b1fa30f0 Add a workaround for XWarpPointer bug mentioned reported by vikaig (#450)
Problem is that the mouse jumps when users have set a coordinate transformation matrix for their mouse on X11.
XWarpPointer first sets the correct coordinates, but X11 then moves the mouse wrongly to the scaled position on the next mouse event.
On X-Org bugtracker it's this bug: https://gitlab.freedesktop.org/xorg/xserver/-/issues/600
The fix needs compiling with _IRR_LINUX_X11_XINPUT2_ enabled (so far disabled by default)
Note: We only use XINPUT2 so far for touch-input... I hope this patch won't conflict with that.
Also I mix now IInput2 and X11 functions as getting the mouse-position still uses X11. But seems to work in my tests.


git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@6230 dfc29bdd-3216-0410-991c-e03cc46cb475
2021-08-19 17:25:08 +00:00

2334 lines
73 KiB
C++

// Copyright (C) 2002-2012 Nikolaus Gebhardt
// This file is part of the "Irrlicht Engine".
// For conditions of distribution and use, see copyright notice in irrlicht.h
#include "CIrrDeviceLinux.h"
#ifdef _IRR_COMPILE_WITH_X11_DEVICE_
#include <stdio.h>
#include <stdlib.h>
#include <sys/utsname.h>
#include <time.h>
#include <locale.h>
#include "IEventReceiver.h"
#include "ISceneManager.h"
#include "IGUIEnvironment.h"
#include "os.h"
#include "CTimer.h"
#include "irrString.h"
#include "Keycodes.h"
#include "COSOperator.h"
#include "CColorConverter.h"
#include "SIrrCreationParameters.h"
#include "IGUISpriteBank.h"
#include <X11/XKBlib.h>
#include <X11/Xatom.h>
#if defined(_IRR_LINUX_X11_XINPUT2_)
#include <X11/extensions/XInput2.h>
#endif
#if defined(_IRR_COMPILE_WITH_OPENGL_)
#include "CGLXManager.h"
#endif
#ifdef _IRR_LINUX_XCURSOR_
#include <X11/Xcursor/Xcursor.h>
#endif
#if defined _IRR_COMPILE_WITH_JOYSTICK_EVENTS_
#include <fcntl.h>
#include <unistd.h>
#ifdef __FreeBSD__
#include <sys/joystick.h>
#else
// linux/joystick.h includes linux/input.h, which #defines values for various KEY_FOO keys.
// These override the irr::KEY_FOO equivalents, which stops key handling from working.
// As a workaround, defining _INPUT_H stops linux/input.h from being included; it
// doesn't actually seem to be necessary except to pull in sys/ioctl.h.
#define _INPUT_H
#include <sys/ioctl.h> // Would normally be included in linux/input.h
#include <linux/joystick.h>
#undef _INPUT_H
#endif
#endif // _IRR_COMPILE_WITH_JOYSTICK_EVENTS_
namespace irr
{
namespace video
{
#ifdef _IRR_COMPILE_WITH_OPENGL_
IVideoDriver* createOpenGLDriver(const irr::SIrrlichtCreationParameters& params, io::IFileSystem* io, IContextManager* contextManager);
#endif
}
} // end namespace irr
namespace
{
Atom X_ATOM_CLIPBOARD;
Atom X_ATOM_TARGETS;
Atom X_ATOM_UTF8_STRING;
Atom X_ATOM_TEXT;
Atom X_ATOM_NETWM_MAXIMIZE_VERT;
Atom X_ATOM_NETWM_MAXIMIZE_HORZ;
Atom X_ATOM_NETWM_STATE;
Atom X_ATOM_WM_DELETE_WINDOW;
#if defined(_IRR_LINUX_X11_XINPUT2_)
int XI_EXTENSIONS_OPCODE;
#endif
};
namespace irr
{
//! constructor
CIrrDeviceLinux::CIrrDeviceLinux(const SIrrlichtCreationParameters& param)
: CIrrDeviceStub(param),
#ifdef _IRR_COMPILE_WITH_X11_
XDisplay(0), VisualInfo(0), Screennr(0), XWindow(0), StdHints(0), SoftwareImage(0),
XInputMethod(0), XInputContext(0),
HasNetWM(false),
#ifdef _IRR_COMPILE_WITH_OPENGL_
GlxWin(0),
Context(0),
#endif
#endif
Width(param.WindowSize.Width), Height(param.WindowSize.Height),
WindowHasFocus(false), WindowMinimized(false),
UseXVidMode(false), UseXRandR(false), UseGLXWindow(false),
ExternalWindow(false), AutorepeatSupport(0)
{
#ifdef _DEBUG
setDebugName("CIrrDeviceLinux");
#endif
// print version, distribution etc.
// thx to LynxLuna for pointing me to the uname function
core::stringc linuxversion;
struct utsname LinuxInfo;
uname(&LinuxInfo);
linuxversion += LinuxInfo.sysname;
linuxversion += " ";
linuxversion += LinuxInfo.release;
linuxversion += " ";
linuxversion += LinuxInfo.version;
linuxversion += " ";
linuxversion += LinuxInfo.machine;
Operator = new COSOperator(linuxversion, this);
os::Printer::log(linuxversion.c_str(), ELL_INFORMATION);
// create keymap
createKeyMap();
// create window
if (CreationParams.DriverType != video::EDT_NULL)
{
// create the window, only if we do not use the null device
if (!createWindow())
return;
if (param.WindowResizable < 2 )
setResizable(param.WindowResizable == 1 ? true : false);
}
// create cursor control
CursorControl = new CCursorControl(this, CreationParams.DriverType == video::EDT_NULL);
// create driver
createDriver();
if (!VideoDriver)
return;
#ifdef _IRR_COMPILE_WITH_X11_
createInputContext();
#endif
createGUIAndScene();
}
//! destructor
CIrrDeviceLinux::~CIrrDeviceLinux()
{
#ifdef _IRR_COMPILE_WITH_X11_
if (StdHints)
XFree(StdHints);
// Disable cursor (it is drop'ed in stub)
if (CursorControl)
{
CursorControl->setVisible(false);
static_cast<CCursorControl*>(CursorControl)->clearCursors();
}
// Must free OpenGL textures etc before destroying context, so can't wait for stub destructor
if ( GUIEnvironment )
{
GUIEnvironment->drop();
GUIEnvironment = NULL;
}
if ( SceneManager )
{
SceneManager->drop();
SceneManager = NULL;
}
if ( VideoDriver )
{
VideoDriver->drop();
VideoDriver = NULL;
}
destroyInputContext();
if (XDisplay)
{
#ifdef _IRR_COMPILE_WITH_OPENGL_
if (Context)
{
if (GlxWin)
{
if (!glXMakeContextCurrent(XDisplay, None, None, NULL))
os::Printer::log("Could not release glx context.", ELL_WARNING);
}
else
{
if (!glXMakeCurrent(XDisplay, None, NULL))
os::Printer::log("Could not release glx context.", ELL_WARNING);
}
glXDestroyContext(XDisplay, Context);
if (GlxWin)
glXDestroyWindow(XDisplay, GlxWin);
}
#endif // #ifdef _IRR_COMPILE_WITH_OPENGL_
// Reset fullscreen resolution change
switchToFullscreen(true);
if (SoftwareImage)
XDestroyImage(SoftwareImage);
if (!ExternalWindow)
{
XDestroyWindow(XDisplay,XWindow);
XCloseDisplay(XDisplay);
}
}
if (VisualInfo)
XFree(VisualInfo);
#endif // #ifdef _IRR_COMPILE_WITH_X11_
#if defined(_IRR_COMPILE_WITH_JOYSTICK_EVENTS_)
for (u32 joystick = 0; joystick < ActiveJoysticks.size(); ++joystick)
{
if (ActiveJoysticks[joystick].fd >= 0)
{
close(ActiveJoysticks[joystick].fd);
}
}
#endif
}
#if defined(_IRR_COMPILE_WITH_X11_) && defined(_DEBUG)
int IrrPrintXError(Display *display, XErrorEvent *event)
{
char msg[256];
char msg2[256];
snprintf_irr(msg, 256, "%d", event->request_code);
XGetErrorDatabaseText(display, "XRequest", msg, "unknown", msg2, 256);
XGetErrorText(display, event->error_code, msg, 256);
os::Printer::log("X Error", msg, ELL_WARNING);
os::Printer::log("From call ", msg2, ELL_WARNING);
return 0;
}
#endif
bool CIrrDeviceLinux::switchToFullscreen(bool reset)
{
if (!CreationParams.Fullscreen)
return true;
if (reset)
{
#ifdef _IRR_LINUX_X11_VIDMODE_
if (UseXVidMode && CreationParams.Fullscreen)
{
XF86VidModeSwitchToMode(XDisplay, Screennr, &OldVideoMode);
XF86VidModeSetViewPort(XDisplay, Screennr, 0, 0);
}
#endif
#ifdef _IRR_LINUX_X11_RANDR_
if (UseXRandR && CreationParams.Fullscreen)
{
XRRScreenConfiguration *config=XRRGetScreenInfo(XDisplay,DefaultRootWindow(XDisplay));
XRRSetScreenConfig(XDisplay,config,DefaultRootWindow(XDisplay),OldRandrMode,OldRandrRotation,CurrentTime);
XRRFreeScreenConfigInfo(config);
}
#endif
return true;
}
getVideoModeList();
#if defined(_IRR_LINUX_X11_VIDMODE_) || defined(_IRR_LINUX_X11_RANDR_)
s32 eventbase, errorbase;
s32 bestMode = -1;
#endif
#ifdef _IRR_LINUX_X11_VIDMODE_
if (XF86VidModeQueryExtension(XDisplay, &eventbase, &errorbase))
{
// enumerate video modes
s32 modeCount;
XF86VidModeModeInfo** modes;
XF86VidModeGetAllModeLines(XDisplay, Screennr, &modeCount, &modes);
// find fitting mode
for (s32 i = 0; i<modeCount; ++i)
{
if (bestMode==-1 && modes[i]->hdisplay >= Width && modes[i]->vdisplay >= Height)
bestMode = i;
else if (bestMode!=-1 &&
modes[i]->hdisplay >= Width &&
modes[i]->vdisplay >= Height &&
modes[i]->hdisplay <= modes[bestMode]->hdisplay &&
modes[i]->vdisplay <= modes[bestMode]->vdisplay)
bestMode = i;
}
if (bestMode != -1)
{
os::Printer::log("Starting vidmode fullscreen mode...", ELL_INFORMATION);
os::Printer::log("hdisplay: ", core::stringc(modes[bestMode]->hdisplay).c_str(), ELL_INFORMATION);
os::Printer::log("vdisplay: ", core::stringc(modes[bestMode]->vdisplay).c_str(), ELL_INFORMATION);
XF86VidModeSwitchToMode(XDisplay, Screennr, modes[bestMode]);
XF86VidModeSetViewPort(XDisplay, Screennr, 0, 0);
UseXVidMode=true;
}
else
{
os::Printer::log("Could not find specified video mode, running windowed.", ELL_WARNING);
CreationParams.Fullscreen = false;
}
XFree(modes);
}
else
#endif
#ifdef _IRR_LINUX_X11_RANDR_
if (XRRQueryExtension(XDisplay, &eventbase, &errorbase))
{
s32 modeCount;
XRRScreenConfiguration *config=XRRGetScreenInfo(XDisplay,DefaultRootWindow(XDisplay));
XRRScreenSize *modes=XRRConfigSizes(config,&modeCount);
for (s32 i = 0; i<modeCount; ++i)
{
if (bestMode==-1 && (u32)modes[i].width >= Width && (u32)modes[i].height >= Height)
bestMode = i;
else if (bestMode!=-1 &&
(u32)modes[i].width >= Width &&
(u32)modes[i].height >= Height &&
modes[i].width <= modes[bestMode].width &&
modes[i].height <= modes[bestMode].height)
bestMode = i;
}
if (bestMode != -1)
{
os::Printer::log("Starting randr fullscreen mode...", ELL_INFORMATION);
os::Printer::log("width: ", core::stringc(modes[bestMode].width).c_str(), ELL_INFORMATION);
os::Printer::log("height: ", core::stringc(modes[bestMode].height).c_str(), ELL_INFORMATION);
XRRSetScreenConfig(XDisplay,config,DefaultRootWindow(XDisplay),bestMode,OldRandrRotation,CurrentTime);
UseXRandR=true;
}
XRRFreeScreenConfigInfo(config);
}
else
#endif
{
os::Printer::log("VidMode or RandR extension must be installed to allow Irrlicht "
"to switch to fullscreen mode. Running in windowed mode instead.", ELL_WARNING);
CreationParams.Fullscreen = false;
}
return CreationParams.Fullscreen;
}
#if defined(_IRR_COMPILE_WITH_X11_)
void IrrPrintXGrabError(int grabResult, const c8 * grabCommand )
{
if ( grabResult == GrabSuccess )
{
// os::Printer::log(grabCommand, ": GrabSuccess", ELL_INFORMATION);
return;
}
switch ( grabResult )
{
case AlreadyGrabbed:
os::Printer::log(grabCommand, ": AlreadyGrabbed", ELL_WARNING);
break;
case GrabNotViewable:
os::Printer::log(grabCommand, ": GrabNotViewable", ELL_WARNING);
break;
case GrabFrozen:
os::Printer::log(grabCommand, ": GrabFrozen", ELL_WARNING);
break;
case GrabInvalidTime:
os::Printer::log(grabCommand, ": GrabInvalidTime", ELL_WARNING);
break;
default:
os::Printer::log(grabCommand, ": grab failed with unknown problem", ELL_WARNING);
break;
}
}
#endif
bool CIrrDeviceLinux::createWindow()
{
#ifdef _IRR_COMPILE_WITH_X11_
#ifdef _DEBUG
os::Printer::log("Creating X window...", ELL_INFORMATION);
XSetErrorHandler(IrrPrintXError);
#endif
XDisplay = XOpenDisplay(0);
if (!XDisplay)
{
os::Printer::log("Error: Need running XServer to start Irrlicht Engine.", ELL_ERROR);
if (XDisplayName(0)[0])
os::Printer::log("Could not open display", XDisplayName(0), ELL_ERROR);
else
os::Printer::log("Could not open display, set DISPLAY variable", ELL_ERROR);
return false;
}
Screennr = DefaultScreen(XDisplay);
switchToFullscreen();
#if defined(_IRR_COMPILE_WITH_OPENGL_)
// don't use the XVisual with OpenGL, because it ignores all requested
// properties of the CreationParams
if (CreationParams.DriverType == video::EDT_OPENGL)
{
video::SExposedVideoData data;
data.OpenGLLinux.X11Display = XDisplay;
ContextManager = new video::CGLXManager(CreationParams, data, Screennr);
VisualInfo = ((video::CGLXManager*)ContextManager)->getVisual();
}
#endif
if (!VisualInfo)
{
// create visual with standard X methods
os::Printer::log("Using plain X visual");
XVisualInfo visTempl; //Template to hold requested values
int visNumber; // Return value of available visuals
visTempl.screen = Screennr;
// ARGB visuals should be avoided for usual applications
visTempl.depth = CreationParams.WithAlphaChannel?32:24;
while ((!VisualInfo) && (visTempl.depth>=16))
{
VisualInfo = XGetVisualInfo(XDisplay, VisualScreenMask|VisualDepthMask,
&visTempl, &visNumber);
visTempl.depth -= 8;
}
}
if (!VisualInfo)
{
os::Printer::log("Fatal error, could not get visual.", ELL_ERROR);
XCloseDisplay(XDisplay);
XDisplay=0;
return false;
}
#ifdef _DEBUG
else
os::Printer::log("Visual chosen: ", core::stringc(static_cast<u32>(VisualInfo->visualid)).c_str(), ELL_DEBUG);
#endif
// create color map
Colormap colormap;
colormap = XCreateColormap(XDisplay,
RootWindow(XDisplay, VisualInfo->screen),
VisualInfo->visual, AllocNone);
WndAttributes.colormap = colormap;
WndAttributes.border_pixel = 0;
WndAttributes.event_mask = StructureNotifyMask | FocusChangeMask | ExposureMask;
if (!CreationParams.IgnoreInput)
WndAttributes.event_mask |= PointerMotionMask |
ButtonPressMask | KeyPressMask |
ButtonReleaseMask | KeyReleaseMask;
if (!CreationParams.WindowId)
{
int x = 0;
int y = 0;
if (!CreationParams.Fullscreen)
{
if (CreationParams.WindowPosition.X > 0)
x = CreationParams.WindowPosition.X;
if (CreationParams.WindowPosition.Y > 0)
y = CreationParams.WindowPosition.Y;
}
// create new Window
// Remove window manager decoration in fullscreen
WndAttributes.override_redirect = CreationParams.Fullscreen;
XWindow = XCreateWindow(XDisplay,
RootWindow(XDisplay, VisualInfo->screen),
x, y, Width, Height, 0, VisualInfo->depth,
InputOutput, VisualInfo->visual,
CWBorderPixel | CWColormap | CWEventMask | CWOverrideRedirect,
&WndAttributes);
XMapRaised(XDisplay, XWindow);
CreationParams.WindowId = (void*)XWindow;
X_ATOM_WM_DELETE_WINDOW = XInternAtom(XDisplay, "WM_DELETE_WINDOW", True);
XSetWMProtocols(XDisplay, XWindow, &X_ATOM_WM_DELETE_WINDOW, 1);
if (CreationParams.Fullscreen)
{
XSetInputFocus(XDisplay, XWindow, RevertToParent, CurrentTime);
int grabKb = XGrabKeyboard(XDisplay, XWindow, True, GrabModeAsync,
GrabModeAsync, CurrentTime);
IrrPrintXGrabError(grabKb, "XGrabKeyboard");
int grabPointer = XGrabPointer(XDisplay, XWindow, True, ButtonPressMask,
GrabModeAsync, GrabModeAsync, XWindow, None, CurrentTime);
IrrPrintXGrabError(grabPointer, "XGrabPointer");
XWarpPointer(XDisplay, None, XWindow, 0, 0, 0, 0, 0, 0);
}
else if (CreationParams.WindowPosition.X >= 0 || CreationParams.WindowPosition.Y >= 0) // default is -1, -1
{
// Window managers are free to ignore positions above, so give it another shot
XMoveWindow(XDisplay,XWindow,x,y);
}
}
else
{
// attach external window
XWindow = (Window)CreationParams.WindowId;
if (!CreationParams.IgnoreInput)
{
XCreateWindow(XDisplay,
XWindow,
0, 0, Width, Height, 0, VisualInfo->depth,
InputOutput, VisualInfo->visual,
CWBorderPixel | CWColormap | CWEventMask,
&WndAttributes);
}
XWindowAttributes wa;
XGetWindowAttributes(XDisplay, XWindow, &wa);
CreationParams.WindowSize.Width = wa.width;
CreationParams.WindowSize.Height = wa.height;
CreationParams.Fullscreen = false;
ExternalWindow = true;
}
WindowMinimized=false;
// Currently broken in X, see Bug ID 2795321
// XkbSetDetectableAutoRepeat(XDisplay, True, &AutorepeatSupport);
Window tmp;
u32 borderWidth;
int x,y;
unsigned int bits;
XGetGeometry(XDisplay, XWindow, &tmp, &x, &y, &Width, &Height, &borderWidth, &bits);
CreationParams.Bits = bits;
CreationParams.WindowSize.Width = Width;
CreationParams.WindowSize.Height = Height;
StdHints = XAllocSizeHints();
long num;
XGetWMNormalHints(XDisplay, XWindow, StdHints, &num);
// create an XImage for the software renderer
//(thx to Nadav for some clues on how to do that!)
if (CreationParams.DriverType == video::EDT_SOFTWARE || CreationParams.DriverType == video::EDT_BURNINGSVIDEO)
{
SoftwareImage = XCreateImage(XDisplay,
VisualInfo->visual, VisualInfo->depth,
ZPixmap, 0, 0, Width, Height,
BitmapPad(XDisplay), 0);
// use malloc because X will free it later on
if (SoftwareImage)
SoftwareImage->data = (char*) malloc(SoftwareImage->bytes_per_line * SoftwareImage->height * sizeof(char));
}
initXAtoms();
// check netwm support
Atom WMCheck = XInternAtom(XDisplay, "_NET_SUPPORTING_WM_CHECK", true);
if (WMCheck != None)
HasNetWM = true;
initXInput2();
#endif // #ifdef _IRR_COMPILE_WITH_X11_
return true;
}
//! create the driver
void CIrrDeviceLinux::createDriver()
{
switch(CreationParams.DriverType)
{
#ifdef _IRR_COMPILE_WITH_X11_
case video::EDT_SOFTWARE:
#ifdef _IRR_COMPILE_WITH_SOFTWARE_
VideoDriver = video::createSoftwareDriver(CreationParams.WindowSize, CreationParams.Fullscreen, FileSystem, this);
#else
os::Printer::log("No Software driver support compiled in.", ELL_ERROR);
#endif
break;
case video::EDT_BURNINGSVIDEO:
#ifdef _IRR_COMPILE_WITH_BURNINGSVIDEO_
VideoDriver = video::createBurningVideoDriver(CreationParams, FileSystem, this);
#else
os::Printer::log("Burning's video driver was not compiled in.", ELL_ERROR);
#endif
break;
case video::EDT_OPENGL:
#ifdef _IRR_COMPILE_WITH_OPENGL_
{
video::SExposedVideoData data;
data.OpenGLLinux.X11Window = XWindow;
data.OpenGLLinux.X11Display = XDisplay;
ContextManager->initialize(CreationParams, data);
VideoDriver = video::createOpenGLDriver(CreationParams, FileSystem, ContextManager);
}
#else
os::Printer::log("No OpenGL support compiled in.", ELL_ERROR);
#endif
break;
case video::DEPRECATED_EDT_DIRECT3D8_NO_LONGER_EXISTS:
case video::EDT_DIRECT3D9:
os::Printer::log("This driver is not available in Linux. Try OpenGL or Software renderer.",
ELL_ERROR);
break;
case video::EDT_NULL:
VideoDriver = video::createNullDriver(FileSystem, CreationParams.WindowSize);
break;
default:
os::Printer::log("Unable to create video driver of unknown type.", ELL_ERROR);
break;
#else
case video::EDT_NULL:
VideoDriver = video::createNullDriver(FileSystem, CreationParams.WindowSize);
break;
default:
os::Printer::log("No X11 support compiled in. Only Null driver available.", ELL_ERROR);
break;
#endif
}
}
#ifdef _IRR_COMPILE_WITH_X11_
bool CIrrDeviceLinux::createInputContext()
{
// One one side it would be nicer to let users do that - on the other hand
// not setting the environment locale will not work when using i18n X11 functions.
// So users would have to call it always or their input is broken badly.
// We can restore immediately - so won't mess with anything in users apps.
core::stringc oldLocale(setlocale(LC_CTYPE, NULL));
setlocale(LC_CTYPE, ""); // use environment locale
if ( !XSupportsLocale() )
{
os::Printer::log("Locale not supported. Falling back to non-i18n input.", ELL_WARNING);
setlocale(LC_CTYPE, oldLocale.c_str());
return false;
}
XInputMethod = XOpenIM(XDisplay, NULL, NULL, NULL);
if ( !XInputMethod )
{
setlocale(LC_CTYPE, oldLocale.c_str());
os::Printer::log("XOpenIM failed to create an input method. Falling back to non-i18n input.", ELL_WARNING);
return false;
}
XIMStyles *im_supported_styles;
XGetIMValues(XInputMethod, XNQueryInputStyle, &im_supported_styles, (char*)NULL);
XIMStyle bestStyle = 0;
// TODO: If we want to support languages like chinese or japanese as well we probably have to work with callbacks here.
XIMStyle supportedStyle = XIMPreeditNone | XIMStatusNone;
for(int i=0; i < im_supported_styles->count_styles; ++i)
{
XIMStyle style = im_supported_styles->supported_styles[i];
if ((style & supportedStyle) == style) /* if we can handle it */
{
bestStyle = style;
break;
}
}
XFree(im_supported_styles);
if ( !bestStyle )
{
XDestroyIC(XInputContext);
XInputContext = 0;
os::Printer::log("XInputMethod has no input style we can use. Falling back to non-i18n input.", ELL_WARNING);
setlocale(LC_CTYPE, oldLocale.c_str());
return false;
}
XInputContext = XCreateIC(XInputMethod,
XNInputStyle, bestStyle,
XNClientWindow, XWindow,
(char*)NULL);
if (!XInputContext )
{
os::Printer::log("XInputContext failed to create an input context. Falling back to non-i18n input.", ELL_WARNING);
setlocale(LC_CTYPE, oldLocale.c_str());
return false;
}
XSetICFocus(XInputContext);
setlocale(LC_CTYPE, oldLocale.c_str());
return true;
}
void CIrrDeviceLinux::destroyInputContext()
{
if ( XInputContext )
{
XUnsetICFocus(XInputContext);
XDestroyIC(XInputContext);
XInputContext = 0;
}
if ( XInputMethod )
{
XCloseIM(XInputMethod);
XInputMethod = 0;
}
}
EKEY_CODE CIrrDeviceLinux::getKeyCode(XEvent &event)
{
EKEY_CODE keyCode = (EKEY_CODE)0;
SKeyMap mp;
mp.X11Key = XkbKeycodeToKeysym(XDisplay, event.xkey.keycode, 0, 0);
// mp.X11Key = XKeycodeToKeysym(XDisplay, event.xkey.keycode, 0); // deprecated, if we still find platforms which need that we have to use some define
const s32 idx = KeyMap.binary_search(mp);
if (idx != -1)
{
keyCode = (EKEY_CODE)KeyMap[idx].Win32Key;
}
if (keyCode == 0)
{
// Any value is better than none, that allows at least using the keys.
// Worst case is that some keys will be identical, still better than _all_
// unknown keys being identical.
if ( !mp.X11Key )
{
keyCode = (EKEY_CODE)event.xkey.keycode;
os::Printer::log("No such X11Key, using event keycode", core::stringc(event.xkey.keycode).c_str(), ELL_INFORMATION);
}
else if (idx == -1)
{
keyCode = (EKEY_CODE)mp.X11Key;
os::Printer::log("EKEY_CODE not found, using orig. X11 keycode", core::stringc(mp.X11Key).c_str(), ELL_INFORMATION);
}
else
{
keyCode = (EKEY_CODE)mp.X11Key;
os::Printer::log("EKEY_CODE is 0, using orig. X11 keycode", core::stringc(mp.X11Key).c_str(), ELL_INFORMATION);
}
}
return keyCode;
}
#endif
//! runs the device. Returns false if device wants to be deleted
bool CIrrDeviceLinux::run()
{
os::Timer::tick();
#ifdef _IRR_COMPILE_WITH_X11_
if ( CursorControl )
static_cast<CCursorControl*>(CursorControl)->update();
if ((CreationParams.DriverType != video::EDT_NULL) && XDisplay)
{
SEvent irrevent;
irrevent.MouseInput.ButtonStates = 0xffffffff;
while (XPending(XDisplay) > 0 && !Close)
{
XEvent event;
XNextEvent(XDisplay, &event);
switch (event.type)
{
case ConfigureNotify:
// check for changed window size
if ((event.xconfigure.width != (int) Width) ||
(event.xconfigure.height != (int) Height))
{
Width = event.xconfigure.width;
Height = event.xconfigure.height;
// resize image data
if (SoftwareImage)
{
XDestroyImage(SoftwareImage);
SoftwareImage = XCreateImage(XDisplay,
VisualInfo->visual, VisualInfo->depth,
ZPixmap, 0, 0, Width, Height,
BitmapPad(XDisplay), 0);
// use malloc because X will free it later on
if (SoftwareImage)
SoftwareImage->data = (char*) malloc(SoftwareImage->bytes_per_line * SoftwareImage->height * sizeof(char));
}
if (VideoDriver)
VideoDriver->OnResize(core::dimension2d<u32>(Width, Height));
}
break;
case MapNotify:
WindowMinimized=false;
break;
case UnmapNotify:
WindowMinimized=true;
break;
case FocusIn:
WindowHasFocus=true;
break;
case FocusOut:
WindowHasFocus=false;
break;
case MotionNotify:
irrevent.EventType = irr::EET_MOUSE_INPUT_EVENT;
irrevent.MouseInput.Event = irr::EMIE_MOUSE_MOVED;
irrevent.MouseInput.X = event.xbutton.x;
irrevent.MouseInput.Y = event.xbutton.y;
irrevent.MouseInput.Control = (event.xkey.state & ControlMask) != 0;
irrevent.MouseInput.Shift = (event.xkey.state & ShiftMask) != 0;
// mouse button states
irrevent.MouseInput.ButtonStates = (event.xbutton.state & Button1Mask) ? irr::EMBSM_LEFT : 0;
irrevent.MouseInput.ButtonStates |= (event.xbutton.state & Button3Mask) ? irr::EMBSM_RIGHT : 0;
irrevent.MouseInput.ButtonStates |= (event.xbutton.state & Button2Mask) ? irr::EMBSM_MIDDLE : 0;
postEventFromUser(irrevent);
break;
case ButtonPress:
case ButtonRelease:
irrevent.EventType = irr::EET_MOUSE_INPUT_EVENT;
irrevent.MouseInput.X = event.xbutton.x;
irrevent.MouseInput.Y = event.xbutton.y;
irrevent.MouseInput.Control = (event.xkey.state & ControlMask) != 0;
irrevent.MouseInput.Shift = (event.xkey.state & ShiftMask) != 0;
// mouse button states
// This sets the state which the buttons had _prior_ to the event.
// So unlike on Windows the button which just got changed has still the old state here.
// We handle that below by flipping the corresponding bit later.
irrevent.MouseInput.ButtonStates = (event.xbutton.state & Button1Mask) ? irr::EMBSM_LEFT : 0;
irrevent.MouseInput.ButtonStates |= (event.xbutton.state & Button3Mask) ? irr::EMBSM_RIGHT : 0;
irrevent.MouseInput.ButtonStates |= (event.xbutton.state & Button2Mask) ? irr::EMBSM_MIDDLE : 0;
irrevent.MouseInput.Event = irr::EMIE_COUNT;
switch(event.xbutton.button)
{
case Button1:
irrevent.MouseInput.Event =
(event.type == ButtonPress) ? irr::EMIE_LMOUSE_PRESSED_DOWN : irr::EMIE_LMOUSE_LEFT_UP;
irrevent.MouseInput.ButtonStates ^= irr::EMBSM_LEFT;
break;
case Button3:
irrevent.MouseInput.Event =
(event.type == ButtonPress) ? irr::EMIE_RMOUSE_PRESSED_DOWN : irr::EMIE_RMOUSE_LEFT_UP;
irrevent.MouseInput.ButtonStates ^= irr::EMBSM_RIGHT;
break;
case Button2:
irrevent.MouseInput.Event =
(event.type == ButtonPress) ? irr::EMIE_MMOUSE_PRESSED_DOWN : irr::EMIE_MMOUSE_LEFT_UP;
irrevent.MouseInput.ButtonStates ^= irr::EMBSM_MIDDLE;
break;
case Button4:
if (event.type == ButtonPress)
{
irrevent.MouseInput.Event = EMIE_MOUSE_WHEEL;
irrevent.MouseInput.Wheel = 1.0f;
}
break;
case Button5:
if (event.type == ButtonPress)
{
irrevent.MouseInput.Event = EMIE_MOUSE_WHEEL;
irrevent.MouseInput.Wheel = -1.0f;
}
break;
}
if (irrevent.MouseInput.Event != irr::EMIE_COUNT)
{
postEventFromUser(irrevent);
if ( irrevent.MouseInput.Event >= EMIE_LMOUSE_PRESSED_DOWN && irrevent.MouseInput.Event <= EMIE_MMOUSE_PRESSED_DOWN )
{
u32 clicks = checkSuccessiveClicks(irrevent.MouseInput.X, irrevent.MouseInput.Y, irrevent.MouseInput.Event);
if ( clicks == 2 )
{
irrevent.MouseInput.Event = (EMOUSE_INPUT_EVENT)(EMIE_LMOUSE_DOUBLE_CLICK + irrevent.MouseInput.Event-EMIE_LMOUSE_PRESSED_DOWN);
postEventFromUser(irrevent);
}
else if ( clicks == 3 )
{
irrevent.MouseInput.Event = (EMOUSE_INPUT_EVENT)(EMIE_LMOUSE_TRIPLE_CLICK + irrevent.MouseInput.Event-EMIE_LMOUSE_PRESSED_DOWN);
postEventFromUser(irrevent);
}
}
}
break;
case MappingNotify:
XRefreshKeyboardMapping (&event.xmapping) ;
break;
case KeyRelease:
if (0 == AutorepeatSupport && (XPending( XDisplay ) > 0) )
{
// check for Autorepeat manually
// We'll do the same as Windows does: Only send KeyPressed
// So every KeyRelease is a real release
XEvent next_event;
XPeekEvent (event.xkey.display, &next_event);
if ((next_event.type == KeyPress) &&
(next_event.xkey.keycode == event.xkey.keycode) &&
(next_event.xkey.time - event.xkey.time) < 2) // usually same time, but on some systems a difference of 1 is possible
{
// Ignore the key release event
break;
}
}
irrevent.EventType = irr::EET_KEY_INPUT_EVENT;
irrevent.KeyInput.PressedDown = false;
irrevent.KeyInput.Char = 0; // on release that's undefined
irrevent.KeyInput.Control = (event.xkey.state & ControlMask) != 0;
irrevent.KeyInput.Shift = (event.xkey.state & ShiftMask) != 0;
irrevent.KeyInput.Key = getKeyCode(event);
postEventFromUser(irrevent);
break;
case KeyPress:
{
SKeyMap mp;
if ( XInputContext )
{
wchar_t buf[8]={0};
Status status;
int strLen = XwcLookupString(XInputContext, &event.xkey, buf, sizeof(buf), &mp.X11Key, &status);
if ( status == XBufferOverflow )
{
os::Printer::log("XwcLookupString needs a larger buffer", ELL_INFORMATION);
}
if ( strLen > 0 && (status == XLookupChars || status == XLookupBoth) )
{
if ( strLen > 1 )
os::Printer::log("Additional returned characters dropped", ELL_INFORMATION);
irrevent.KeyInput.Char = buf[0];
}
else
{
#if 0 // Most of those are fine - but useful to have the info when debugging Irrlicht itself.
if ( status == XLookupNone )
os::Printer::log("XLookupNone", ELL_INFORMATION);
else if ( status == XLookupKeySym )
// Getting this also when user did not set setlocale(LC_ALL, ""); and using an unknown locale
// XSupportsLocale doesn't seeem to catch that unfortunately - any other ideas to catch it are welcome.
os::Printer::log("XLookupKeySym", ELL_INFORMATION);
else if ( status == XBufferOverflow )
os::Printer::log("XBufferOverflow", ELL_INFORMATION);
else if ( strLen == 0 )
os::Printer::log("no string", ELL_INFORMATION);
#endif
irrevent.KeyInput.Char = 0;
}
}
else // Old version without InputContext. Does not support i18n, but good to have as fallback.
{
union
{
char buf[8];
wchar_t wbuf[2];
} tmp = {{0}};
XLookupString(&event.xkey, tmp.buf, sizeof(tmp.buf), &mp.X11Key, NULL);
irrevent.KeyInput.Char = tmp.wbuf[0];
}
irrevent.EventType = irr::EET_KEY_INPUT_EVENT;
irrevent.KeyInput.PressedDown = true;
irrevent.KeyInput.Control = (event.xkey.state & ControlMask) != 0;
irrevent.KeyInput.Shift = (event.xkey.state & ShiftMask) != 0;
irrevent.KeyInput.Key = getKeyCode(event);
postEventFromUser(irrevent);
}
break;
case ClientMessage:
{
if (static_cast<Atom>(event.xclient.data.l[0]) == X_ATOM_WM_DELETE_WINDOW && X_ATOM_WM_DELETE_WINDOW != None)
{
os::Printer::log("Quit message received.", ELL_INFORMATION);
Close = true;
}
else
{
// we assume it's a user message
irrevent.EventType = irr::EET_USER_EVENT;
irrevent.UserEvent.UserData1 = static_cast<size_t>(event.xclient.data.l[0]);
irrevent.UserEvent.UserData2 = static_cast<size_t>(event.xclient.data.l[1]);
postEventFromUser(irrevent);
}
}
break;
case SelectionRequest:
{
XEvent respond;
XSelectionRequestEvent *req = &(event.xselectionrequest);
if ( req->target == XA_STRING)
{
XChangeProperty (XDisplay,
req->requestor,
req->property, req->target,
8, // format
PropModeReplace,
(unsigned char*) Clipboard.c_str(),
Clipboard.size());
respond.xselection.property = req->property;
}
else if ( req->target == X_ATOM_TARGETS )
{
long data[2];
data[0] = X_ATOM_TEXT;
data[1] = XA_STRING;
XChangeProperty (XDisplay, req->requestor,
req->property, req->target,
8, PropModeReplace,
(unsigned char *) &data,
sizeof (data));
respond.xselection.property = req->property;
}
else
{
respond.xselection.property= None;
}
respond.xselection.type= SelectionNotify;
respond.xselection.display= req->display;
respond.xselection.requestor= req->requestor;
respond.xselection.selection=req->selection;
respond.xselection.target= req->target;
respond.xselection.time = req->time;
XSendEvent (XDisplay, req->requestor,0,0,&respond);
XFlush (XDisplay);
}
break;
#if defined(_IRR_LINUX_X11_XINPUT2_)
case GenericEvent:
{
XGenericEventCookie *cookie = &event.xcookie;
if (XGetEventData(XDisplay, cookie) && cookie->extension == XI_EXTENSIONS_OPCODE && XI_EXTENSIONS_OPCODE
&& (cookie->evtype == XI_TouchUpdate || cookie->evtype == XI_TouchBegin || cookie->evtype == XI_TouchEnd))
{
XIDeviceEvent *de = (XIDeviceEvent *) cookie->data;
irrevent.EventType = EET_TOUCH_INPUT_EVENT;
irrevent.TouchInput.Event = cookie->evtype == XI_TouchUpdate ? ETIE_MOVED : (cookie->evtype == XI_TouchBegin ? ETIE_PRESSED_DOWN : ETIE_LEFT_UP);
irrevent.TouchInput.ID = de->detail;
irrevent.TouchInput.X = de->event_x;
irrevent.TouchInput.Y = de->event_y;
postEventFromUser(irrevent);
}
}
break;
#endif
default:
break;
} // end switch
} // end while
}
#endif //_IRR_COMPILE_WITH_X11_
if (!Close)
pollJoysticks();
return !Close;
}
//! Pause the current process for the minimum time allowed only to allow other processes to execute
void CIrrDeviceLinux::yield()
{
struct timespec ts = {0,1};
nanosleep(&ts, NULL);
}
//! Pause execution and let other processes to run for a specified amount of time.
void CIrrDeviceLinux::sleep(u32 timeMs, bool pauseTimer=false)
{
const bool wasStopped = Timer ? Timer->isStopped() : true;
struct timespec ts;
ts.tv_sec = (time_t) (timeMs / 1000);
ts.tv_nsec = (long) (timeMs % 1000) * 1000000;
if (pauseTimer && !wasStopped)
Timer->stop();
nanosleep(&ts, NULL);
if (pauseTimer && !wasStopped)
Timer->start();
}
//! sets the caption of the window
void CIrrDeviceLinux::setWindowCaption(const wchar_t* text)
{
#ifdef _IRR_COMPILE_WITH_X11_
if (CreationParams.DriverType == video::EDT_NULL)
return;
XTextProperty txt;
if (Success==XwcTextListToTextProperty(XDisplay, const_cast<wchar_t**>(&text),
1, XStdICCTextStyle, &txt))
{
XSetWMName(XDisplay, XWindow, &txt);
XSetWMIconName(XDisplay, XWindow, &txt);
XFree(txt.value);
}
#endif
}
//! presents a surface in the client area
bool CIrrDeviceLinux::present(video::IImage* image, void* windowId, core::rect<s32>* srcRect)
{
#ifdef _IRR_COMPILE_WITH_X11_
// this is only necessary for software drivers.
if (!SoftwareImage)
return true;
// thx to Nadav, who send me some clues of how to display the image
// to the X Server.
const u32 destwidth = SoftwareImage->width;
const u32 minWidth = core::min_(image->getDimension().Width, destwidth);
const u32 destPitch = SoftwareImage->bytes_per_line;
video::ECOLOR_FORMAT destColor;
switch (SoftwareImage->bits_per_pixel)
{
case 16:
if (SoftwareImage->depth==16)
destColor = video::ECF_R5G6B5;
else
destColor = video::ECF_A1R5G5B5;
break;
case 24: destColor = video::ECF_R8G8B8; break;
case 32: destColor = video::ECF_A8R8G8B8; break;
default:
os::Printer::log("Unsupported screen depth.");
return false;
}
u8* srcdata = reinterpret_cast<u8*>(image->getData());
u8* destData = reinterpret_cast<u8*>(SoftwareImage->data);
const u32 destheight = SoftwareImage->height;
const u32 srcheight = core::min_(image->getDimension().Height, destheight);
const u32 srcPitch = image->getPitch();
for (u32 y=0; y!=srcheight; ++y)
{
video::CColorConverter::convert_viaFormat(srcdata,image->getColorFormat(), minWidth, destData, destColor);
srcdata+=srcPitch;
destData+=destPitch;
}
GC gc = DefaultGC(XDisplay, DefaultScreen(XDisplay));
Window myWindow=XWindow;
if (windowId)
myWindow = reinterpret_cast<Window>(windowId);
XPutImage(XDisplay, myWindow, gc, SoftwareImage, 0, 0, 0, 0, destwidth, destheight);
#endif
return true;
}
//! notifies the device that it should close itself
void CIrrDeviceLinux::closeDevice()
{
Close = true;
}
//! returns if window is active. if not, nothing need to be drawn
bool CIrrDeviceLinux::isWindowActive() const
{
return (WindowHasFocus && !WindowMinimized);
}
//! returns if window has focus.
bool CIrrDeviceLinux::isWindowFocused() const
{
return WindowHasFocus;
}
//! returns if window is minimized.
bool CIrrDeviceLinux::isWindowMinimized() const
{
return WindowMinimized;
}
//! returns color format of the window.
video::ECOLOR_FORMAT CIrrDeviceLinux::getColorFormat() const
{
#ifdef _IRR_COMPILE_WITH_X11_
if (VisualInfo && (VisualInfo->depth != 16))
return video::ECF_R8G8B8;
else
#endif
return video::ECF_R5G6B5;
}
//! Sets if the window should be resizable in windowed mode.
void CIrrDeviceLinux::setResizable(bool resize)
{
#ifdef _IRR_COMPILE_WITH_X11_
if (CreationParams.DriverType == video::EDT_NULL || CreationParams.Fullscreen )
return;
if ( !resize )
{
// Must be heap memory because data size depends on X Server
XSizeHints *hints = XAllocSizeHints();
hints->flags=PSize|PMinSize|PMaxSize;
hints->min_width=hints->max_width=hints->base_width=Width;
hints->min_height=hints->max_height=hints->base_height=Height;
XSetWMNormalHints(XDisplay, XWindow, hints);
XFree(hints);
}
else
{
XSetWMNormalHints(XDisplay, XWindow, StdHints);
}
XFlush(XDisplay);
#endif // #ifdef _IRR_COMPILE_WITH_X11_
}
//! Resize the render window.
void CIrrDeviceLinux::setWindowSize(const irr::core::dimension2d<u32>& size)
{
#ifdef _IRR_COMPILE_WITH_X11_
if (CreationParams.DriverType == video::EDT_NULL || CreationParams.Fullscreen )
return;
XWindowChanges values;
values.width = size.Width;
values.height = size.Height;
XConfigureWindow(XDisplay, XWindow, CWWidth | CWHeight, &values);
XFlush(XDisplay);
#endif // #ifdef _IRR_COMPILE_WITH_X11_
}
//! Return pointer to a list with all video modes supported by the gfx adapter.
video::IVideoModeList* CIrrDeviceLinux::getVideoModeList()
{
#ifdef _IRR_COMPILE_WITH_X11_
if (!VideoModeList->getVideoModeCount())
{
bool temporaryDisplay = false;
if (!XDisplay)
{
XDisplay = XOpenDisplay(0);
temporaryDisplay=true;
}
if (XDisplay)
{
#if defined(_IRR_LINUX_X11_VIDMODE_) || defined(_IRR_LINUX_X11_RANDR_)
s32 eventbase, errorbase;
s32 defaultDepth=DefaultDepth(XDisplay,Screennr);
#endif
#ifdef _IRR_LINUX_X11_VIDMODE_
if (XF86VidModeQueryExtension(XDisplay, &eventbase, &errorbase))
{
// enumerate video modes
int modeCount;
XF86VidModeModeInfo** modes;
XF86VidModeGetAllModeLines(XDisplay, Screennr, &modeCount, &modes);
// save current video mode
OldVideoMode = *modes[0];
// find fitting mode
VideoModeList->setDesktop(defaultDepth, core::dimension2d<u32>(
modes[0]->hdisplay, modes[0]->vdisplay));
for (int i = 0; i<modeCount; ++i)
{
VideoModeList->addMode(core::dimension2d<u32>(
modes[i]->hdisplay, modes[i]->vdisplay), defaultDepth);
}
XFree(modes);
}
else
#endif
#ifdef _IRR_LINUX_X11_RANDR_
if (XRRQueryExtension(XDisplay, &eventbase, &errorbase))
{
int modeCount;
XRRScreenConfiguration *config=XRRGetScreenInfo(XDisplay,DefaultRootWindow(XDisplay));
OldRandrMode=XRRConfigCurrentConfiguration(config,&OldRandrRotation);
XRRScreenSize *modes=XRRConfigSizes(config,&modeCount);
VideoModeList->setDesktop(defaultDepth, core::dimension2d<u32>(
modes[OldRandrMode].width, modes[OldRandrMode].height));
for (int i = 0; i<modeCount; ++i)
{
VideoModeList->addMode(core::dimension2d<u32>(
modes[i].width, modes[i].height), defaultDepth);
}
XRRFreeScreenConfigInfo(config);
}
else
#endif
{
os::Printer::log("VidMode or RandR X11 extension requireed for VideoModeList." , ELL_WARNING);
}
}
if (XDisplay && temporaryDisplay)
{
XCloseDisplay(XDisplay);
XDisplay=0;
}
}
#endif
return VideoModeList;
}
//! Minimize window
void CIrrDeviceLinux::minimizeWindow()
{
#ifdef _IRR_COMPILE_WITH_X11_
XIconifyWindow(XDisplay, XWindow, Screennr);
#endif
}
//! Maximize window
void CIrrDeviceLinux::maximizeWindow()
{
#ifdef _IRR_COMPILE_WITH_X11_
// Maximize is not implemented in bare X, it's a WM construct.
if (HasNetWM)
{
XEvent ev = {0};
ev.type = ClientMessage;
ev.xclient.window = XWindow;
ev.xclient.message_type = X_ATOM_NETWM_STATE;
ev.xclient.format = 32;
ev.xclient.data.l[0] = 1; // _NET_WM_STATE_ADD
ev.xclient.data.l[1] = X_ATOM_NETWM_MAXIMIZE_VERT;
ev.xclient.data.l[2] = X_ATOM_NETWM_MAXIMIZE_HORZ;
XSendEvent(XDisplay, DefaultRootWindow(XDisplay), false,
SubstructureNotifyMask|SubstructureRedirectMask, &ev);
}
XMapWindow(XDisplay, XWindow);
#endif
}
//! Restore original window size
void CIrrDeviceLinux::restoreWindow()
{
#ifdef _IRR_COMPILE_WITH_X11_
// Maximize is not implemented in bare X, it's a WM construct.
if (HasNetWM)
{
XEvent ev = {0};
ev.type = ClientMessage;
ev.xclient.window = XWindow;
ev.xclient.message_type = X_ATOM_NETWM_STATE;
ev.xclient.format = 32;
ev.xclient.data.l[0] = 0; // _NET_WM_STATE_REMOVE
ev.xclient.data.l[1] = X_ATOM_NETWM_MAXIMIZE_VERT;
ev.xclient.data.l[2] = X_ATOM_NETWM_MAXIMIZE_HORZ;
XSendEvent(XDisplay, DefaultRootWindow(XDisplay), false,
SubstructureNotifyMask|SubstructureRedirectMask, &ev);
}
XMapWindow(XDisplay, XWindow);
#endif
}
core::position2di CIrrDeviceLinux::getWindowPosition()
{
int wx = 0, wy = 0;
#ifdef _IRR_COMPILE_WITH_X11_
Window child;
XTranslateCoordinates(XDisplay, XWindow, DefaultRootWindow(XDisplay), 0, 0, &wx, &wy, &child);
#endif
return core::position2di(wx, wy);
}
void CIrrDeviceLinux::createKeyMap()
{
// I don't know if this is the best method to create
// the lookuptable, but I'll leave it like that until
// I find a better version.
// Search for missing numbers in keysymdef.h
#ifdef _IRR_COMPILE_WITH_X11_
KeyMap.reallocate(190);
KeyMap.push_back(SKeyMap(XK_BackSpace, KEY_BACK));
KeyMap.push_back(SKeyMap(XK_Tab, KEY_TAB));
KeyMap.push_back(SKeyMap(XK_ISO_Left_Tab, KEY_TAB));
KeyMap.push_back(SKeyMap(XK_Linefeed, 0)); // ???
KeyMap.push_back(SKeyMap(XK_Clear, KEY_CLEAR));
KeyMap.push_back(SKeyMap(XK_Return, KEY_RETURN));
KeyMap.push_back(SKeyMap(XK_Pause, KEY_PAUSE));
KeyMap.push_back(SKeyMap(XK_Scroll_Lock, KEY_SCROLL));
KeyMap.push_back(SKeyMap(XK_Sys_Req, 0)); // ???
KeyMap.push_back(SKeyMap(XK_Escape, KEY_ESCAPE));
KeyMap.push_back(SKeyMap(XK_Insert, KEY_INSERT));
KeyMap.push_back(SKeyMap(XK_Delete, KEY_DELETE));
KeyMap.push_back(SKeyMap(XK_Home, KEY_HOME));
KeyMap.push_back(SKeyMap(XK_Left, KEY_LEFT));
KeyMap.push_back(SKeyMap(XK_Up, KEY_UP));
KeyMap.push_back(SKeyMap(XK_Right, KEY_RIGHT));
KeyMap.push_back(SKeyMap(XK_Down, KEY_DOWN));
KeyMap.push_back(SKeyMap(XK_Prior, KEY_PRIOR));
KeyMap.push_back(SKeyMap(XK_Page_Up, KEY_PRIOR));
KeyMap.push_back(SKeyMap(XK_Next, KEY_NEXT));
KeyMap.push_back(SKeyMap(XK_Page_Down, KEY_NEXT));
KeyMap.push_back(SKeyMap(XK_End, KEY_END));
KeyMap.push_back(SKeyMap(XK_Begin, KEY_HOME));
KeyMap.push_back(SKeyMap(XK_Num_Lock, KEY_NUMLOCK));
KeyMap.push_back(SKeyMap(XK_KP_Space, KEY_SPACE));
KeyMap.push_back(SKeyMap(XK_KP_Tab, KEY_TAB));
KeyMap.push_back(SKeyMap(XK_KP_Enter, KEY_RETURN));
KeyMap.push_back(SKeyMap(XK_KP_F1, KEY_F1));
KeyMap.push_back(SKeyMap(XK_KP_F2, KEY_F2));
KeyMap.push_back(SKeyMap(XK_KP_F3, KEY_F3));
KeyMap.push_back(SKeyMap(XK_KP_F4, KEY_F4));
KeyMap.push_back(SKeyMap(XK_KP_Home, KEY_HOME));
KeyMap.push_back(SKeyMap(XK_KP_Left, KEY_LEFT));
KeyMap.push_back(SKeyMap(XK_KP_Up, KEY_UP));
KeyMap.push_back(SKeyMap(XK_KP_Right, KEY_RIGHT));
KeyMap.push_back(SKeyMap(XK_KP_Down, KEY_DOWN));
KeyMap.push_back(SKeyMap(XK_Print, KEY_PRINT));
KeyMap.push_back(SKeyMap(XK_KP_Prior, KEY_PRIOR));
KeyMap.push_back(SKeyMap(XK_KP_Page_Up, KEY_PRIOR));
KeyMap.push_back(SKeyMap(XK_KP_Next, KEY_NEXT));
KeyMap.push_back(SKeyMap(XK_KP_Page_Down, KEY_NEXT));
KeyMap.push_back(SKeyMap(XK_KP_End, KEY_END));
KeyMap.push_back(SKeyMap(XK_KP_Begin, KEY_HOME));
KeyMap.push_back(SKeyMap(XK_KP_Insert, KEY_INSERT));
KeyMap.push_back(SKeyMap(XK_KP_Delete, KEY_DELETE));
KeyMap.push_back(SKeyMap(XK_KP_Equal, 0)); // ???
KeyMap.push_back(SKeyMap(XK_KP_Multiply, KEY_MULTIPLY));
KeyMap.push_back(SKeyMap(XK_KP_Add, KEY_ADD));
KeyMap.push_back(SKeyMap(XK_KP_Separator, KEY_SEPARATOR));
KeyMap.push_back(SKeyMap(XK_KP_Subtract, KEY_SUBTRACT));
KeyMap.push_back(SKeyMap(XK_KP_Decimal, KEY_DECIMAL));
KeyMap.push_back(SKeyMap(XK_KP_Divide, KEY_DIVIDE));
KeyMap.push_back(SKeyMap(XK_KP_0, KEY_NUMPAD0));
KeyMap.push_back(SKeyMap(XK_KP_1, KEY_NUMPAD1));
KeyMap.push_back(SKeyMap(XK_KP_2, KEY_NUMPAD2));
KeyMap.push_back(SKeyMap(XK_KP_3, KEY_NUMPAD3));
KeyMap.push_back(SKeyMap(XK_KP_4, KEY_NUMPAD4));
KeyMap.push_back(SKeyMap(XK_KP_5, KEY_NUMPAD5));
KeyMap.push_back(SKeyMap(XK_KP_6, KEY_NUMPAD6));
KeyMap.push_back(SKeyMap(XK_KP_7, KEY_NUMPAD7));
KeyMap.push_back(SKeyMap(XK_KP_8, KEY_NUMPAD8));
KeyMap.push_back(SKeyMap(XK_KP_9, KEY_NUMPAD9));
KeyMap.push_back(SKeyMap(XK_F1, KEY_F1));
KeyMap.push_back(SKeyMap(XK_F2, KEY_F2));
KeyMap.push_back(SKeyMap(XK_F3, KEY_F3));
KeyMap.push_back(SKeyMap(XK_F4, KEY_F4));
KeyMap.push_back(SKeyMap(XK_F5, KEY_F5));
KeyMap.push_back(SKeyMap(XK_F6, KEY_F6));
KeyMap.push_back(SKeyMap(XK_F7, KEY_F7));
KeyMap.push_back(SKeyMap(XK_F8, KEY_F8));
KeyMap.push_back(SKeyMap(XK_F9, KEY_F9));
KeyMap.push_back(SKeyMap(XK_F10, KEY_F10));
KeyMap.push_back(SKeyMap(XK_F11, KEY_F11));
KeyMap.push_back(SKeyMap(XK_F12, KEY_F12));
KeyMap.push_back(SKeyMap(XK_Shift_L, KEY_LSHIFT));
KeyMap.push_back(SKeyMap(XK_Shift_R, KEY_RSHIFT));
KeyMap.push_back(SKeyMap(XK_Control_L, KEY_LCONTROL));
KeyMap.push_back(SKeyMap(XK_Control_R, KEY_RCONTROL));
KeyMap.push_back(SKeyMap(XK_Caps_Lock, KEY_CAPITAL));
KeyMap.push_back(SKeyMap(XK_Shift_Lock, KEY_CAPITAL));
KeyMap.push_back(SKeyMap(XK_Meta_L, KEY_LWIN));
KeyMap.push_back(SKeyMap(XK_Meta_R, KEY_RWIN));
KeyMap.push_back(SKeyMap(XK_Alt_L, KEY_LMENU));
KeyMap.push_back(SKeyMap(XK_Alt_R, KEY_RMENU));
KeyMap.push_back(SKeyMap(XK_ISO_Level3_Shift, KEY_RMENU));
KeyMap.push_back(SKeyMap(XK_Menu, KEY_MENU));
KeyMap.push_back(SKeyMap(XK_space, KEY_SPACE));
KeyMap.push_back(SKeyMap(XK_exclam, 0)); //?
KeyMap.push_back(SKeyMap(XK_quotedbl, 0)); //?
KeyMap.push_back(SKeyMap(XK_section, 0)); //?
KeyMap.push_back(SKeyMap(XK_numbersign, KEY_OEM_2));
KeyMap.push_back(SKeyMap(XK_dollar, 0)); //?
KeyMap.push_back(SKeyMap(XK_percent, 0)); //?
KeyMap.push_back(SKeyMap(XK_ampersand, 0)); //?
KeyMap.push_back(SKeyMap(XK_apostrophe, KEY_OEM_7));
KeyMap.push_back(SKeyMap(XK_parenleft, 0)); //?
KeyMap.push_back(SKeyMap(XK_parenright, 0)); //?
KeyMap.push_back(SKeyMap(XK_asterisk, 0)); //?
KeyMap.push_back(SKeyMap(XK_plus, KEY_PLUS)); //?
KeyMap.push_back(SKeyMap(XK_comma, KEY_COMMA)); //?
KeyMap.push_back(SKeyMap(XK_minus, KEY_MINUS)); //?
KeyMap.push_back(SKeyMap(XK_period, KEY_PERIOD)); //?
KeyMap.push_back(SKeyMap(XK_slash, KEY_OEM_2)); //?
KeyMap.push_back(SKeyMap(XK_0, KEY_KEY_0));
KeyMap.push_back(SKeyMap(XK_1, KEY_KEY_1));
KeyMap.push_back(SKeyMap(XK_2, KEY_KEY_2));
KeyMap.push_back(SKeyMap(XK_3, KEY_KEY_3));
KeyMap.push_back(SKeyMap(XK_4, KEY_KEY_4));
KeyMap.push_back(SKeyMap(XK_5, KEY_KEY_5));
KeyMap.push_back(SKeyMap(XK_6, KEY_KEY_6));
KeyMap.push_back(SKeyMap(XK_7, KEY_KEY_7));
KeyMap.push_back(SKeyMap(XK_8, KEY_KEY_8));
KeyMap.push_back(SKeyMap(XK_9, KEY_KEY_9));
KeyMap.push_back(SKeyMap(XK_colon, 0)); //?
KeyMap.push_back(SKeyMap(XK_semicolon, KEY_OEM_1));
KeyMap.push_back(SKeyMap(XK_less, KEY_OEM_102));
KeyMap.push_back(SKeyMap(XK_equal, KEY_PLUS));
KeyMap.push_back(SKeyMap(XK_greater, 0)); //?
KeyMap.push_back(SKeyMap(XK_question, 0)); //?
KeyMap.push_back(SKeyMap(XK_at, KEY_KEY_2)); //?
KeyMap.push_back(SKeyMap(XK_mu, 0)); //?
KeyMap.push_back(SKeyMap(XK_EuroSign, 0)); //?
KeyMap.push_back(SKeyMap(XK_A, KEY_KEY_A));
KeyMap.push_back(SKeyMap(XK_B, KEY_KEY_B));
KeyMap.push_back(SKeyMap(XK_C, KEY_KEY_C));
KeyMap.push_back(SKeyMap(XK_D, KEY_KEY_D));
KeyMap.push_back(SKeyMap(XK_E, KEY_KEY_E));
KeyMap.push_back(SKeyMap(XK_F, KEY_KEY_F));
KeyMap.push_back(SKeyMap(XK_G, KEY_KEY_G));
KeyMap.push_back(SKeyMap(XK_H, KEY_KEY_H));
KeyMap.push_back(SKeyMap(XK_I, KEY_KEY_I));
KeyMap.push_back(SKeyMap(XK_J, KEY_KEY_J));
KeyMap.push_back(SKeyMap(XK_K, KEY_KEY_K));
KeyMap.push_back(SKeyMap(XK_L, KEY_KEY_L));
KeyMap.push_back(SKeyMap(XK_M, KEY_KEY_M));
KeyMap.push_back(SKeyMap(XK_N, KEY_KEY_N));
KeyMap.push_back(SKeyMap(XK_O, KEY_KEY_O));
KeyMap.push_back(SKeyMap(XK_P, KEY_KEY_P));
KeyMap.push_back(SKeyMap(XK_Q, KEY_KEY_Q));
KeyMap.push_back(SKeyMap(XK_R, KEY_KEY_R));
KeyMap.push_back(SKeyMap(XK_S, KEY_KEY_S));
KeyMap.push_back(SKeyMap(XK_T, KEY_KEY_T));
KeyMap.push_back(SKeyMap(XK_U, KEY_KEY_U));
KeyMap.push_back(SKeyMap(XK_V, KEY_KEY_V));
KeyMap.push_back(SKeyMap(XK_W, KEY_KEY_W));
KeyMap.push_back(SKeyMap(XK_X, KEY_KEY_X));
KeyMap.push_back(SKeyMap(XK_Y, KEY_KEY_Y));
KeyMap.push_back(SKeyMap(XK_Z, KEY_KEY_Z));
KeyMap.push_back(SKeyMap(XK_bracketleft, KEY_OEM_4));
KeyMap.push_back(SKeyMap(XK_backslash, KEY_OEM_5));
KeyMap.push_back(SKeyMap(XK_bracketright, KEY_OEM_6));
KeyMap.push_back(SKeyMap(XK_asciicircum, KEY_OEM_5));
KeyMap.push_back(SKeyMap(XK_dead_circumflex, KEY_OEM_5));
KeyMap.push_back(SKeyMap(XK_degree, 0)); //?
KeyMap.push_back(SKeyMap(XK_underscore, KEY_MINUS)); //?
KeyMap.push_back(SKeyMap(XK_grave, KEY_OEM_3));
KeyMap.push_back(SKeyMap(XK_dead_grave, KEY_OEM_3));
KeyMap.push_back(SKeyMap(XK_acute, KEY_OEM_6));
KeyMap.push_back(SKeyMap(XK_dead_acute, KEY_OEM_6));
KeyMap.push_back(SKeyMap(XK_a, KEY_KEY_A));
KeyMap.push_back(SKeyMap(XK_b, KEY_KEY_B));
KeyMap.push_back(SKeyMap(XK_c, KEY_KEY_C));
KeyMap.push_back(SKeyMap(XK_d, KEY_KEY_D));
KeyMap.push_back(SKeyMap(XK_e, KEY_KEY_E));
KeyMap.push_back(SKeyMap(XK_f, KEY_KEY_F));
KeyMap.push_back(SKeyMap(XK_g, KEY_KEY_G));
KeyMap.push_back(SKeyMap(XK_h, KEY_KEY_H));
KeyMap.push_back(SKeyMap(XK_i, KEY_KEY_I));
KeyMap.push_back(SKeyMap(XK_j, KEY_KEY_J));
KeyMap.push_back(SKeyMap(XK_k, KEY_KEY_K));
KeyMap.push_back(SKeyMap(XK_l, KEY_KEY_L));
KeyMap.push_back(SKeyMap(XK_m, KEY_KEY_M));
KeyMap.push_back(SKeyMap(XK_n, KEY_KEY_N));
KeyMap.push_back(SKeyMap(XK_o, KEY_KEY_O));
KeyMap.push_back(SKeyMap(XK_p, KEY_KEY_P));
KeyMap.push_back(SKeyMap(XK_q, KEY_KEY_Q));
KeyMap.push_back(SKeyMap(XK_r, KEY_KEY_R));
KeyMap.push_back(SKeyMap(XK_s, KEY_KEY_S));
KeyMap.push_back(SKeyMap(XK_t, KEY_KEY_T));
KeyMap.push_back(SKeyMap(XK_u, KEY_KEY_U));
KeyMap.push_back(SKeyMap(XK_v, KEY_KEY_V));
KeyMap.push_back(SKeyMap(XK_w, KEY_KEY_W));
KeyMap.push_back(SKeyMap(XK_x, KEY_KEY_X));
KeyMap.push_back(SKeyMap(XK_y, KEY_KEY_Y));
KeyMap.push_back(SKeyMap(XK_z, KEY_KEY_Z));
KeyMap.push_back(SKeyMap(XK_ssharp, KEY_OEM_4));
KeyMap.push_back(SKeyMap(XK_adiaeresis, KEY_OEM_7));
KeyMap.push_back(SKeyMap(XK_odiaeresis, KEY_OEM_3));
KeyMap.push_back(SKeyMap(XK_udiaeresis, KEY_OEM_1));
KeyMap.push_back(SKeyMap(XK_Super_L, KEY_LWIN));
KeyMap.push_back(SKeyMap(XK_Super_R, KEY_RWIN));
KeyMap.sort();
#endif
}
bool CIrrDeviceLinux::activateJoysticks(core::array<SJoystickInfo> & joystickInfo)
{
#if defined (_IRR_COMPILE_WITH_JOYSTICK_EVENTS_)
joystickInfo.clear();
u32 joystick;
for (joystick = 0; joystick < 32; ++joystick)
{
// The joystick device could be here...
core::stringc devName = "/dev/js";
devName += joystick;
SJoystickInfo returnInfo;
JoystickInfo info;
info.fd = open(devName.c_str(), O_RDONLY);
if (-1 == info.fd)
{
// ...but Ubuntu and possibly other distros
// create the devices in /dev/input
devName = "/dev/input/js";
devName += joystick;
info.fd = open(devName.c_str(), O_RDONLY);
if (-1 == info.fd)
{
// and BSD here
devName = "/dev/joy";
devName += joystick;
info.fd = open(devName.c_str(), O_RDONLY);
}
}
if (-1 == info.fd)
continue;
#ifdef __FreeBSD__
info.axes=2;
info.buttons=2;
#else
ioctl( info.fd, JSIOCGAXES, &(info.axes) );
ioctl( info.fd, JSIOCGBUTTONS, &(info.buttons) );
fcntl( info.fd, F_SETFL, O_NONBLOCK );
#endif
(void)memset(&info.persistentData, 0, sizeof(info.persistentData));
info.persistentData.EventType = irr::EET_JOYSTICK_INPUT_EVENT;
info.persistentData.JoystickEvent.Joystick = ActiveJoysticks.size();
// There's no obvious way to determine which (if any) axes represent a POV
// hat, so we'll just set it to "not used" and forget about it.
info.persistentData.JoystickEvent.POV = 65535;
ActiveJoysticks.push_back(info);
returnInfo.Joystick = joystick;
returnInfo.PovHat = SJoystickInfo::POV_HAT_UNKNOWN;
returnInfo.Axes = info.axes;
returnInfo.Buttons = info.buttons;
#ifndef __FreeBSD__
char name[80];
ioctl( info.fd, JSIOCGNAME(80), name);
returnInfo.Name = name;
#endif
joystickInfo.push_back(returnInfo);
}
for (joystick = 0; joystick < joystickInfo.size(); ++joystick)
{
char logString[256];
(void)sprintf(logString, "Found joystick %u, %u axes, %u buttons '%s'",
joystick, joystickInfo[joystick].Axes,
joystickInfo[joystick].Buttons, joystickInfo[joystick].Name.c_str());
os::Printer::log(logString, ELL_INFORMATION);
}
return true;
#else
return false;
#endif // _IRR_COMPILE_WITH_JOYSTICK_EVENTS_
}
void CIrrDeviceLinux::pollJoysticks()
{
#if defined (_IRR_COMPILE_WITH_JOYSTICK_EVENTS_)
if (0 == ActiveJoysticks.size())
return;
for (u32 j= 0; j< ActiveJoysticks.size(); ++j)
{
JoystickInfo & info = ActiveJoysticks[j];
#ifdef __FreeBSD__
struct joystick js;
if (read(info.fd, &js, sizeof(js)) == sizeof(js))
{
info.persistentData.JoystickEvent.ButtonStates = js.b1 | (js.b2 << 1); /* should be a two-bit field */
info.persistentData.JoystickEvent.Axis[0] = js.x; /* X axis */
info.persistentData.JoystickEvent.Axis[1] = js.y; /* Y axis */
}
#else
struct js_event event;
while (sizeof(event) == read(info.fd, &event, sizeof(event)))
{
switch(event.type & ~JS_EVENT_INIT)
{
case JS_EVENT_BUTTON:
if (event.value)
info.persistentData.JoystickEvent.ButtonStates |= (1 << event.number);
else
info.persistentData.JoystickEvent.ButtonStates &= ~(1 << event.number);
break;
case JS_EVENT_AXIS:
if (event.number < SEvent::SJoystickEvent::NUMBER_OF_AXES)
info.persistentData.JoystickEvent.Axis[event.number] = event.value;
break;
default:
break;
}
}
#endif
// Send an irrlicht joystick event once per ::run() even if no new data were received.
(void)postEventFromUser(info.persistentData);
}
#endif // _IRR_COMPILE_WITH_JOYSTICK_EVENTS_
}
//! Set the current Gamma Value for the Display
bool CIrrDeviceLinux::setGammaRamp( f32 red, f32 green, f32 blue, f32 brightness, f32 contrast )
{
#if defined(_IRR_LINUX_X11_VIDMODE_) || defined(_IRR_LINUX_X11_RANDR_)
s32 eventbase, errorbase;
#ifdef _IRR_LINUX_X11_VIDMODE_
if (XF86VidModeQueryExtension(XDisplay, &eventbase, &errorbase))
{
XF86VidModeGamma gamma;
gamma.red=red;
gamma.green=green;
gamma.blue=blue;
XF86VidModeSetGamma(XDisplay, Screennr, &gamma);
return true;
}
#endif
#if defined(_IRR_LINUX_X11_VIDMODE_) && defined(_IRR_LINUX_X11_RANDR_)
else
#endif
#ifdef _IRR_LINUX_X11_RANDR_
if (XRRQueryExtension(XDisplay, &eventbase, &errorbase))
{
XRRQueryVersion(XDisplay, &eventbase, &errorbase); // major, minor
if (eventbase>=1 && errorbase>1)
{
#if (RANDR_MAJOR>1 || RANDR_MINOR>1)
XRRCrtcGamma *gamma = XRRGetCrtcGamma(XDisplay, Screennr);
if (gamma)
{
*gamma->red=(u16)red;
*gamma->green=(u16)green;
*gamma->blue=(u16)blue;
XRRSetCrtcGamma(XDisplay, Screennr, gamma);
XRRFreeGamma(gamma);
return true;
}
#endif
}
}
#endif
#endif
return false;
}
//! Get the current Gamma Value for the Display
bool CIrrDeviceLinux::getGammaRamp( f32 &red, f32 &green, f32 &blue, f32 &brightness, f32 &contrast )
{
brightness = 0.f;
contrast = 0.f;
#if defined(_IRR_LINUX_X11_VIDMODE_) || defined(_IRR_LINUX_X11_RANDR_)
s32 eventbase, errorbase;
#ifdef _IRR_LINUX_X11_VIDMODE_
if (XF86VidModeQueryExtension(XDisplay, &eventbase, &errorbase))
{
XF86VidModeGamma gamma;
XF86VidModeGetGamma(XDisplay, Screennr, &gamma);
red = gamma.red;
green = gamma.green;
blue = gamma.blue;
return true;
}
#endif
#if defined(_IRR_LINUX_X11_VIDMODE_) && defined(_IRR_LINUX_X11_RANDR_)
else
#endif
#ifdef _IRR_LINUX_X11_RANDR_
if (XRRQueryExtension(XDisplay, &eventbase, &errorbase))
{
XRRQueryVersion(XDisplay, &eventbase, &errorbase); // major, minor
if (eventbase>=1 && errorbase>1)
{
#if (RANDR_MAJOR>1 || RANDR_MINOR>1)
XRRCrtcGamma *gamma = XRRGetCrtcGamma(XDisplay, Screennr);
if (gamma)
{
red = *gamma->red;
green = *gamma->green;
blue= *gamma->blue;
XRRFreeGamma(gamma);
return true;
}
#endif
}
}
#endif
#endif
return false;
}
//! gets text from the clipboard
//! \return Returns 0 if no string is in there.
const c8* CIrrDeviceLinux::getTextFromClipboard() const
{
#if defined(_IRR_COMPILE_WITH_X11_)
Window ownerWindow = XGetSelectionOwner (XDisplay, X_ATOM_CLIPBOARD);
if ( ownerWindow == XWindow )
{
return Clipboard.c_str();
}
Clipboard = "";
if (ownerWindow != None )
{
XConvertSelection (XDisplay, X_ATOM_CLIPBOARD, XA_STRING, XA_PRIMARY, ownerWindow, CurrentTime);
XFlush (XDisplay);
// check for data
Atom type;
int format;
unsigned long numItems, bytesLeft, dummy;
unsigned char *data;
XGetWindowProperty (XDisplay, ownerWindow,
XA_PRIMARY, // property name
0, // offset
0, // length (we only check for data, so 0)
0, // Delete 0==false
AnyPropertyType, // AnyPropertyType or property identifier
&type, // return type
&format, // return format
&numItems, // number items
&bytesLeft, // remaining bytes for partial reads
&data); // data
if ( bytesLeft > 0 )
{
// there is some data to get
int result = XGetWindowProperty (XDisplay, ownerWindow, XA_PRIMARY, 0,
bytesLeft, 0, AnyPropertyType, &type, &format,
&numItems, &dummy, &data);
if (result == Success)
Clipboard = (irr::c8*)data;
XFree (data);
}
}
return Clipboard.c_str();
#else
return 0;
#endif
}
//! copies text to the clipboard
void CIrrDeviceLinux::copyToClipboard(const c8* text) const
{
#if defined(_IRR_COMPILE_WITH_X11_)
// Actually there is no clipboard on X but applications just say they own the clipboard and return text when asked.
// Which btw. also means that on X you lose clipboard content when closing applications.
Clipboard = text;
XSetSelectionOwner (XDisplay, X_ATOM_CLIPBOARD, XWindow, CurrentTime);
XFlush (XDisplay);
#endif
}
#ifdef _IRR_COMPILE_WITH_X11_
// return true if the passed event has the type passed in parameter arg
Bool PredicateIsEventType(Display *display, XEvent *event, XPointer arg)
{
if ( event && event->type == *(int*)arg )
{
// os::Printer::log("remove event:", core::stringc((int)arg).c_str(), ELL_INFORMATION);
return True;
}
return False;
}
#endif //_IRR_COMPILE_WITH_X11_
//! Remove all messages pending in the system message loop
void CIrrDeviceLinux::clearSystemMessages()
{
#ifdef _IRR_COMPILE_WITH_X11_
if (CreationParams.DriverType != video::EDT_NULL)
{
XEvent event;
int usrArg = ButtonPress;
while ( XCheckIfEvent(XDisplay, &event, PredicateIsEventType, XPointer(&usrArg)) == True ) {}
usrArg = ButtonRelease;
while ( XCheckIfEvent(XDisplay, &event, PredicateIsEventType, XPointer(&usrArg)) == True ) {}
usrArg = MotionNotify;
while ( XCheckIfEvent(XDisplay, &event, PredicateIsEventType, XPointer(&usrArg)) == True ) {}
usrArg = KeyRelease;
while ( XCheckIfEvent(XDisplay, &event, PredicateIsEventType, XPointer(&usrArg)) == True ) {}
usrArg = KeyPress;
while ( XCheckIfEvent(XDisplay, &event, PredicateIsEventType, XPointer(&usrArg)) == True ) {}
}
#endif //_IRR_COMPILE_WITH_X11_
}
void CIrrDeviceLinux::initXAtoms()
{
#ifdef _IRR_COMPILE_WITH_X11_
X_ATOM_CLIPBOARD = XInternAtom(XDisplay, "CLIPBOARD", False);
X_ATOM_TARGETS = XInternAtom(XDisplay, "TARGETS", False);
X_ATOM_UTF8_STRING = XInternAtom (XDisplay, "UTF8_STRING", False);
X_ATOM_TEXT = XInternAtom (XDisplay, "TEXT", False);
X_ATOM_NETWM_MAXIMIZE_VERT = XInternAtom(XDisplay, "_NET_WM_STATE_MAXIMIZED_VERT", true);
X_ATOM_NETWM_MAXIMIZE_HORZ = XInternAtom(XDisplay, "_NET_WM_STATE_MAXIMIZED_HORZ", true);
X_ATOM_NETWM_STATE = XInternAtom(XDisplay, "_NET_WM_STATE", true);
#endif
}
void CIrrDeviceLinux::initXInput2()
{
#if defined(_IRR_LINUX_X11_XINPUT2_)
int ev=0;
int err=0;
if (!XQueryExtension(XDisplay, "XInputExtension", &XI_EXTENSIONS_OPCODE, &ev, &err))
{
os::Printer::log("X Input extension not available.", ELL_WARNING);
return;
}
int major = 2;
int minor = 3;
int rc = XIQueryVersion(XDisplay, &major, &minor);
if ( rc != Success )
{
os::Printer::log("No XI2 support.", ELL_WARNING);
return;
}
// So far we only use XInput2 for touch events.
// So we enable those and disable all other events for now.
XIEventMask eventMask;
unsigned char mask[XIMaskLen(XI_TouchEnd)];
memset(mask, 0, sizeof(mask));
eventMask.deviceid = XIAllMasterDevices;
eventMask.mask_len = sizeof(mask);
eventMask.mask = mask;
XISetMask(eventMask.mask, XI_TouchBegin);
XISetMask(eventMask.mask, XI_TouchUpdate);
XISetMask(eventMask.mask, XI_TouchEnd);
XISelectEvents(XDisplay, XWindow, &eventMask, 1);
#endif
}
#ifdef _IRR_COMPILE_WITH_X11_
Cursor CIrrDeviceLinux::TextureToMonochromeCursor(irr::video::ITexture * tex, const core::rect<s32>& sourceRect, const core::position2d<s32> &hotspot)
{
XImage * sourceImage = XCreateImage(XDisplay, VisualInfo->visual,
1, // depth,
ZPixmap, // XYBitmap (depth=1), ZPixmap(depth=x)
0, 0, sourceRect.getWidth(), sourceRect.getHeight(),
32, // bitmap_pad,
0// bytes_per_line (0 means continuos in memory)
);
sourceImage->data = new char[sourceImage->height * sourceImage->bytes_per_line];
XImage * maskImage = XCreateImage(XDisplay, VisualInfo->visual,
1, // depth,
ZPixmap,
0, 0, sourceRect.getWidth(), sourceRect.getHeight(),
32, // bitmap_pad,
0 // bytes_per_line
);
maskImage->data = new char[maskImage->height * maskImage->bytes_per_line];
// write texture into XImage
video::ECOLOR_FORMAT format = tex->getColorFormat();
u32 bytesPerPixel = video::IImage::getBitsPerPixelFromFormat(format) / 8;
u32 bytesLeftGap = sourceRect.UpperLeftCorner.X * bytesPerPixel;
u32 bytesRightGap = tex->getPitch() - sourceRect.LowerRightCorner.X * bytesPerPixel;
const u8* data = (const u8*)tex->lock(video::ETLM_READ_ONLY, 0);
data += sourceRect.UpperLeftCorner.Y*tex->getPitch();
for ( s32 y = 0; y < sourceRect.getHeight(); ++y )
{
data += bytesLeftGap;
for ( s32 x = 0; x < sourceRect.getWidth(); ++x )
{
video::SColor pixelCol;
pixelCol.setData((const void*)data, format);
data += bytesPerPixel;
if ( pixelCol.getAlpha() == 0 ) // transparent
{
XPutPixel(maskImage, x, y, 0);
XPutPixel(sourceImage, x, y, 0);
}
else // color
{
if ( pixelCol.getAverage() >= 127 )
XPutPixel(sourceImage, x, y, 1);
else
XPutPixel(sourceImage, x, y, 0);
XPutPixel(maskImage, x, y, 1);
}
}
data += bytesRightGap;
}
tex->unlock();
Pixmap sourcePixmap = XCreatePixmap(XDisplay, XWindow, sourceImage->width, sourceImage->height, sourceImage->depth);
Pixmap maskPixmap = XCreatePixmap(XDisplay, XWindow, maskImage->width, maskImage->height, maskImage->depth);
XGCValues values;
values.foreground = 1;
values.background = 1;
GC gc = XCreateGC( XDisplay, sourcePixmap, GCForeground | GCBackground, &values );
XPutImage(XDisplay, sourcePixmap, gc, sourceImage, 0, 0, 0, 0, sourceImage->width, sourceImage->height);
XPutImage(XDisplay, maskPixmap, gc, maskImage, 0, 0, 0, 0, maskImage->width, maskImage->height);
XFreeGC(XDisplay, gc);
XDestroyImage(sourceImage);
XDestroyImage(maskImage);
Cursor cursorResult = 0;
XColor foreground, background;
foreground.red = 65535;
foreground.green = 65535;
foreground.blue = 65535;
foreground.flags = DoRed | DoGreen | DoBlue;
background.red = 0;
background.green = 0;
background.blue = 0;
background.flags = DoRed | DoGreen | DoBlue;
cursorResult = XCreatePixmapCursor(XDisplay, sourcePixmap, maskPixmap, &foreground, &background, hotspot.X, hotspot.Y);
XFreePixmap(XDisplay, sourcePixmap);
XFreePixmap(XDisplay, maskPixmap);
return cursorResult;
}
#ifdef _IRR_LINUX_XCURSOR_
Cursor CIrrDeviceLinux::TextureToARGBCursor(irr::video::ITexture * tex, const core::rect<s32>& sourceRect, const core::position2d<s32> &hotspot)
{
XcursorImage * image = XcursorImageCreate (sourceRect.getWidth(), sourceRect.getHeight());
image->xhot = hotspot.X;
image->yhot = hotspot.Y;
// write texture into XcursorImage
video::ECOLOR_FORMAT format = tex->getColorFormat();
u32 bytesPerPixel = video::IImage::getBitsPerPixelFromFormat(format) / 8;
u32 bytesLeftGap = sourceRect.UpperLeftCorner.X * bytesPerPixel;
u32 bytesRightGap = tex->getPitch() - sourceRect.LowerRightCorner.X * bytesPerPixel;
XcursorPixel* target = image->pixels;
const u8* data = (const u8*)tex->lock(video::ETLM_READ_ONLY, 0);
data += sourceRect.UpperLeftCorner.Y*tex->getPitch();
for ( s32 y = 0; y < sourceRect.getHeight(); ++y )
{
data += bytesLeftGap;
for ( s32 x = 0; x < sourceRect.getWidth(); ++x )
{
video::SColor pixelCol;
pixelCol.setData((const void*)data, format);
data += bytesPerPixel;
*target = (XcursorPixel)pixelCol.color;
++target;
}
data += bytesRightGap;
}
tex->unlock();
Cursor cursorResult=XcursorImageLoadCursor(XDisplay, image);
XcursorImageDestroy(image);
return cursorResult;
}
#endif // #ifdef _IRR_LINUX_XCURSOR_
Cursor CIrrDeviceLinux::TextureToCursor(irr::video::ITexture * tex, const core::rect<s32>& sourceRect, const core::position2d<s32> &hotspot)
{
#ifdef _IRR_LINUX_XCURSOR_
return TextureToARGBCursor( tex, sourceRect, hotspot );
#else
return TextureToMonochromeCursor( tex, sourceRect, hotspot );
#endif
}
#endif // _IRR_COMPILE_WITH_X11_
CIrrDeviceLinux::CCursorControl::CCursorControl(CIrrDeviceLinux* dev, bool null)
: Device(dev)
#ifdef _IRR_COMPILE_WITH_X11_
, PlatformBehavior(gui::ECPB_NONE), LastQuery(0)
#ifdef _IRR_LINUX_X11_XINPUT2_
, DeviceId(0)
#endif
#endif
, IsVisible(true), Null(null), UseReferenceRect(false)
, ActiveIcon(gui::ECI_NORMAL), ActiveIconStartTime(0)
{
#ifdef _IRR_COMPILE_WITH_X11_
if (!Null)
{
#ifdef _IRR_LINUX_X11_XINPUT2_
XIGetClientPointer(Device->XDisplay, Device->XWindow, &DeviceId);
#endif
XGCValues values;
unsigned long valuemask = 0;
XColor fg, bg;
// this code, for making the cursor invisible was sent in by
// Sirshane, thank your very much!
Pixmap invisBitmap = XCreatePixmap(Device->XDisplay, Device->XWindow, 32, 32, 1);
Pixmap maskBitmap = XCreatePixmap(Device->XDisplay, Device->XWindow, 32, 32, 1);
Colormap screen_colormap = DefaultColormap( Device->XDisplay, DefaultScreen( Device->XDisplay ) );
XAllocNamedColor( Device->XDisplay, screen_colormap, "black", &fg, &fg );
XAllocNamedColor( Device->XDisplay, screen_colormap, "white", &bg, &bg );
GC gc = XCreateGC( Device->XDisplay, invisBitmap, valuemask, &values );
XSetForeground( Device->XDisplay, gc, BlackPixel( Device->XDisplay, DefaultScreen( Device->XDisplay ) ) );
XFillRectangle( Device->XDisplay, invisBitmap, gc, 0, 0, 32, 32 );
XFillRectangle( Device->XDisplay, maskBitmap, gc, 0, 0, 32, 32 );
InvisCursor = XCreatePixmapCursor( Device->XDisplay, invisBitmap, maskBitmap, &fg, &bg, 1, 1 );
XFreeGC(Device->XDisplay, gc);
XFreePixmap(Device->XDisplay, invisBitmap);
XFreePixmap(Device->XDisplay, maskBitmap);
initCursors();
}
#endif
}
CIrrDeviceLinux::CCursorControl::~CCursorControl()
{
// Do not clearCursors here as the display is already closed
// TODO (cutealien): droping cursorcontrol earlier might work, not sure about reason why that's done in stub currently.
}
#ifdef _IRR_COMPILE_WITH_X11_
void CIrrDeviceLinux::CCursorControl::clearCursors()
{
if (!Null)
XFreeCursor(Device->XDisplay, InvisCursor);
for ( u32 i=0; i < Cursors.size(); ++i )
{
for ( u32 f=0; f < Cursors[i].Frames.size(); ++f )
{
XFreeCursor(Device->XDisplay, Cursors[i].Frames[f].IconHW);
}
}
}
void CIrrDeviceLinux::CCursorControl::initCursors()
{
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_top_left_arrow)) ); // (or XC_arrow?)
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_crosshair)) );
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_hand2)) ); // (or XC_hand1? )
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_question_arrow)) );
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_xterm)) );
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_X_cursor)) ); // (or XC_pirate?)
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_watch)) ); // (or XC_clock?)
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_fleur)) );
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_top_right_corner)) ); // NESW not available in X11
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_top_left_corner)) ); // NWSE not available in X11
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_sb_v_double_arrow)) );
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_sb_h_double_arrow)) );
Cursors.push_back( CursorX11(XCreateFontCursor(Device->XDisplay, XC_sb_up_arrow)) ); // (or XC_center_ptr?)
}
void CIrrDeviceLinux::CCursorControl::update()
{
if ( (u32)ActiveIcon < Cursors.size() && !Cursors[ActiveIcon].Frames.empty() && Cursors[ActiveIcon].FrameTime )
{
// update animated cursors. This could also be done by X11 in case someone wants to figure that out (this way was just easier to implement)
u32 now = Device->getTimer()->getRealTime();
u32 frame = ((now - ActiveIconStartTime) / Cursors[ActiveIcon].FrameTime) % Cursors[ActiveIcon].Frames.size();
XDefineCursor(Device->XDisplay, Device->XWindow, Cursors[ActiveIcon].Frames[frame].IconHW);
}
}
#endif
//! Sets the active cursor icon
void CIrrDeviceLinux::CCursorControl::setActiveIcon(gui::ECURSOR_ICON iconId)
{
#ifdef _IRR_COMPILE_WITH_X11_
if ( iconId >= (s32)Cursors.size() )
return;
if ( Cursors[iconId].Frames.size() )
XDefineCursor(Device->XDisplay, Device->XWindow, Cursors[iconId].Frames[0].IconHW);
ActiveIconStartTime = Device->getTimer()->getRealTime();
ActiveIcon = iconId;
#endif
}
//! Add a custom sprite as cursor icon.
gui::ECURSOR_ICON CIrrDeviceLinux::CCursorControl::addIcon(const gui::SCursorSprite& icon)
{
#ifdef _IRR_COMPILE_WITH_X11_
if ( icon.SpriteId >= 0 )
{
CursorX11 cX11;
cX11.FrameTime = icon.SpriteBank->getSprites()[icon.SpriteId].frameTime;
for ( u32 i=0; i < icon.SpriteBank->getSprites()[icon.SpriteId].Frames.size(); ++i )
{
irr::u32 texId = icon.SpriteBank->getSprites()[icon.SpriteId].Frames[i].textureNumber;
irr::u32 rectId = icon.SpriteBank->getSprites()[icon.SpriteId].Frames[i].rectNumber;
irr::core::rect<s32> rectIcon = icon.SpriteBank->getPositions()[rectId];
Cursor cursor = Device->TextureToCursor(icon.SpriteBank->getTexture(texId), rectIcon, icon.HotSpot);
cX11.Frames.push_back( CursorFrameX11(cursor) );
}
Cursors.push_back( cX11 );
return (gui::ECURSOR_ICON)(Cursors.size() - 1);
}
#endif
return gui::ECI_NORMAL;
}
//! replace the given cursor icon.
void CIrrDeviceLinux::CCursorControl::changeIcon(gui::ECURSOR_ICON iconId, const gui::SCursorSprite& icon)
{
#ifdef _IRR_COMPILE_WITH_X11_
if ( iconId >= (s32)Cursors.size() )
return;
for ( u32 i=0; i < Cursors[iconId].Frames.size(); ++i )
XFreeCursor(Device->XDisplay, Cursors[iconId].Frames[i].IconHW);
if ( icon.SpriteId >= 0 )
{
CursorX11 cX11;
cX11.FrameTime = icon.SpriteBank->getSprites()[icon.SpriteId].frameTime;
for ( u32 i=0; i < icon.SpriteBank->getSprites()[icon.SpriteId].Frames.size(); ++i )
{
irr::u32 texId = icon.SpriteBank->getSprites()[icon.SpriteId].Frames[i].textureNumber;
irr::u32 rectId = icon.SpriteBank->getSprites()[icon.SpriteId].Frames[i].rectNumber;
irr::core::rect<s32> rectIcon = icon.SpriteBank->getPositions()[rectId];
Cursor cursor = Device->TextureToCursor(icon.SpriteBank->getTexture(texId), rectIcon, icon.HotSpot);
cX11.Frames.push_back( CursorFrameX11(cursor) );
}
Cursors[iconId] = cX11;
}
#endif
}
irr::core::dimension2di CIrrDeviceLinux::CCursorControl::getSupportedIconSize() const
{
// this returns the closest match that is smaller or same size, so we just pass a value which should be large enough for cursors
unsigned int width=0, height=0;
#ifdef _IRR_COMPILE_WITH_X11_
XQueryBestCursor(Device->XDisplay, Device->XWindow, 64, 64, &width, &height);
#endif
return core::dimension2di(width, height);
}
} // end namespace
#endif // _IRR_COMPILE_WITH_X11_DEVICE_