// NeL - MMORPG Framework // Copyright (C) 2010 Winch Gate Property Limited // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as // published by the Free Software Foundation, either version 3 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . #include "stdopengl.h" #include "driver_opengl.h" #include "driver_opengl_extension.h" #include "driver_opengl_vertex_buffer_hard.h" // by default, we disable the windows menu keys (F10, ALT and ALT+SPACE key doesn't freeze or open the menu) #define NL_DISABLE_MENU #ifdef NL_OS_WINDOWS # include #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) # define GL_GLEXT_LEGACY # include # include "mac/glext.h" # include "mac/cocoa_adapter.h" #elif defined (NL_OS_UNIX) # include # include # ifdef XRANDR # include # endif # include #endif // NL_OS_UNIX #include "nel/misc/mouse_device.h" #include "nel/misc/di_event_emitter.h" #include "nel/3d/u_driver.h" #include "nel/misc/file.h" using namespace std; using namespace NLMISC; namespace NL3D { #ifdef NL_OS_WINDOWS static bool GlWndProc(CDriverGL *driver, HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam) { H_AUTO_OGL(GlWndProc) if(message == WM_SIZE) { if (driver != NULL) { RECT rect; GetClientRect (driver->_win, &rect); // Setup gl viewport driver->_WindowWidth = rect.right-rect.left; driver->_WindowHeight = rect.bottom-rect.top; } } else if(message == WM_MOVE) { if (driver != NULL) { RECT rect; GetWindowRect (hWnd, &rect); driver->_WindowX = rect.left; driver->_WindowY = rect.top; } } else if (message == WM_ACTIVATE) { WORD fActive = LOWORD(wParam); if (fActive == WA_INACTIVE) { driver->_WndActive = false; } else { driver->_WndActive = true; } } bool trapMessage = false; if (driver->_EventEmitter.getNumEmitters() > 0) { CWinEventEmitter *we = NLMISC::safe_cast(driver->_EventEmitter.getEmitter(0)); // Process the message by the emitter we->setHWnd(hWnd); trapMessage = we->processMessage (hWnd, message, wParam, lParam); } return trapMessage; } static LRESULT CALLBACK WndProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam) { H_AUTO_OGL(DriverGL_WndProc) // Get the driver pointer.. CDriverGL *pDriver=(CDriverGL*)GetWindowLongPtr (hWnd, GWLP_USERDATA); bool trapMessage = false; if (pDriver != NULL) { trapMessage = GlWndProc (pDriver, hWnd, message, wParam, lParam); } #ifdef NL_DISABLE_MENU // disable menu (F10, ALT and ALT+SPACE key doesn't freeze or open the menu) if(message == WM_SYSCOMMAND && wParam == SC_KEYMENU) return 0; #endif // NL_DISABLE_MENU // disable menu (default ALT-F4 behavior is disabled) if(message == WM_CLOSE) { if(pDriver && pDriver->ExitFunc) { pDriver->ExitFunc(); } else { #ifndef NL_DISABLE_MENU // if we don't disable menu, alt F4 make a direct exit else we discard the message exit(0); #endif // NL_DISABLE_MENU } return 0; } return trapMessage ? 0 : DefWindowProcW(hWnd, message, wParam, lParam); } #endif // NL_OS_WINDOWS // *************************************************************************** bool CDriverGL::init (uint windowIcon, emptyProc exitFunc) { H_AUTO_OGL(CDriverGL_init) ExitFunc = exitFunc; #ifdef NL_OS_WINDOWS WNDCLASSW wc; if (!_Registered) { memset(&wc,0,sizeof(wc)); wc.style = CS_HREDRAW | CS_VREDRAW ;//| CS_DBLCLKS; wc.lpfnWndProc = (WNDPROC)WndProc; wc.cbClsExtra = 0; wc.cbWndExtra = 0; wc.hInstance = GetModuleHandle(NULL); wc.hIcon = (HICON)windowIcon; wc.hCursor = LoadCursorA(NULL, IDC_ARROW); wc.hbrBackground = WHITE_BRUSH; wc.lpszClassName = L"NLClass"; wc.lpszMenuName = NULL; if ( !RegisterClassW(&wc) ) { return false; } _Registered=1; } // Backup monitor color parameters HDC dc = CreateDC ("DISPLAY", NULL, NULL, NULL); if (dc) { _NeedToRestaureGammaRamp = GetDeviceGammaRamp (dc, _GammaRampBackuped) != FALSE; // Release the DC ReleaseDC (NULL, dc); } else { nlwarning ("(CDriverGL::init): can't create DC"); } // ati specific : try to retrieve driver version retrieveATIDriverVersion(); #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) if(!NL3D::MAC::init(windowIcon, exitFunc)) { nldebug("cannot init"); return false; } #elif defined (NL_OS_UNIX) _dpy = XOpenDisplay(NULL); if (_dpy == NULL) { nlerror ("XOpenDisplay failed on '%s'", getenv("DISPLAY")); } else { nldebug("3D: XOpenDisplay on '%s' OK", getenv("DISPLAY")); } _xrandr_version = 0; #ifdef XRANDR _OldSizeID = 0; sint xrandr_major, xrandr_minor; if (XRRQueryVersion(_dpy, &xrandr_major, &xrandr_minor)) { _xrandr_version = xrandr_major * 100 + xrandr_minor; nlinfo("3D: XRandR %d.%d found", xrandr_major, xrandr_minor); } #endif _xvidmode_version = 0; #ifdef XF86VIDMODE sint event = 0, error = -1, vm_major = 0, vm_minor = 0; if (XF86VidModeQueryExtension(_dpy, &event, &error) && XF86VidModeQueryVersion(_dpy, &vm_major, &vm_minor)) { _xvidmode_version = vm_major * 100 + vm_minor; nlinfo("3D: XF86VidMode %d.%d found", vm_major, vm_minor); } #endif #endif return true; } // *************************************************************************** bool CDriverGL::unInit() { H_AUTO_OGL(CDriverGL_unInit) if (_FullScreen) { restoreScreenMode(); showCursor(true); _FullScreen = false; } #ifdef NL_OS_WINDOWS // Off-screen rendering ? if (_PBuffer) { nwglReleasePbufferDCARB(_PBuffer, _hDC); nwglDestroyPbufferARB(_PBuffer); _PBuffer = NULL; } if (_Registered && !UnregisterClassW(L"NLClass", GetModuleHandle(NULL))) { nlwarning("Can't unregister NLClass"); } // Restaure monitor color parameters if (_NeedToRestaureGammaRamp) { HDC dc = CreateDC ("DISPLAY", NULL, NULL, NULL); if (dc) { if (!SetDeviceGammaRamp (dc, _GammaRampBackuped)) nlwarning ("(CDriverGL::release): SetDeviceGammaRamp failed"); // Release the DC ReleaseDC (NULL, dc); } else { nlwarning ("(CDriverGL::release): can't create DC"); } } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) if(!NL3D::MAC::unInit()) { nldebug("cannot uninit"); return false; } #elif defined (NL_OS_UNIX) XCloseDisplay(_dpy); _dpy = NULL; #endif // NL_OS_UNIX return true; } void CDriverGL::setWindowIcon(const std::vector &bitmaps) { if (_win == EmptyWindow) return; #if defined(NL_OS_WINDOWS) static HICON winIconBig = NULL; static HICON winIconSmall = NULL; if (winIconBig) { DestroyIcon(winIconBig); winIconBig = NULL; } if (winIconSmall) { DestroyIcon(winIconSmall); winIconSmall = NULL; } sint smallIndex = -1; uint smallWidth = GetSystemMetrics(SM_CXSMICON); uint smallHeight = GetSystemMetrics(SM_CYSMICON); sint bigIndex = -1; uint bigWidth = GetSystemMetrics(SM_CXICON); uint bigHeight = GetSystemMetrics(SM_CYICON); // find icons with the exact size for(uint i = 0; i < bitmaps.size(); ++i) { if (smallIndex == -1 && bitmaps[i].getWidth() == smallWidth && bitmaps[i].getHeight() == smallHeight) smallIndex = i; if (bigIndex == -1 && bitmaps[i].getWidth() == bigWidth && bitmaps[i].getHeight() == bigHeight) bigIndex = i; } // find icons with taller size (we will resize them) for(uint i = 0; i < bitmaps.size(); ++i) { if (smallIndex == -1 && bitmaps[i].getWidth() >= smallWidth && bitmaps[i].getHeight() >= smallHeight) smallIndex = i; if (bigIndex == -1 && bitmaps[i].getWidth() >= bigWidth && bitmaps[i].getHeight() >= bigHeight) bigIndex = i; } if (smallIndex > -1) winIconSmall = bitmaps[smallIndex].getHICON(smallWidth, smallHeight, 32); if (bigIndex > -1) winIconBig = bitmaps[bigIndex].getHICON(bigWidth, bigHeight, 32); if (winIconBig) { SendMessage(_win, WM_SETICON, 0 /* ICON_SMALL */, (LPARAM)winIconSmall); SendMessage(_win, WM_SETICON, 1 /* ICON_BIG */, (LPARAM)winIconBig); } else { SendMessage(_win, WM_SETICON, 0 /* ICON_SMALL */, (LPARAM)winIconSmall); SendMessage(_win, WM_SETICON, 1 /* ICON_BIG */, (LPARAM)winIconSmall); } #elif defined(NL_OS_MAC) // nothing to do #elif defined(NL_OS_UNIX) std::vector icon_data; if (!bitmaps.empty()) { // process each bitmap for(uint i = 0; i < bitmaps.size(); ++i) { // get bitmap width and height uint width = bitmaps[i].getWidth(); uint height = bitmaps[i].getHeight(); // icon_data position for bitmap uint pos = (uint)icon_data.size(); // extend icon_data size for bitmap icon_data.resize(pos + 2 + width*height); // set bitmap width and height icon_data[pos++] = width; icon_data[pos++] = height; // convert RGBA to ARGB CObjectVector pixels = bitmaps[i].getPixels(); for(uint j = 0; j < pixels.size(); j+=4) icon_data[pos++] = pixels[j] << 16 | pixels[j+1] << 8 | pixels[j+2] | pixels[j+3] << 24; } } Atom _NET_WM_ICON = XInternAtom(_dpy, "_NET_WM_ICON", False); if (!icon_data.empty()) { // change window icon XChangeProperty(_dpy, _win, _NET_WM_ICON, XA_CARDINAL, 32, PropModeReplace, (const unsigned char *) &icon_data[0], icon_data.size()); } else { // delete window icon if no bitmap is available XDeleteProperty(_dpy, _win, _NET_WM_ICON); } #endif // NL_OS_WINDOWS } // -------------------------------------------------- bool CDriverGL::setDisplay(nlWindow wnd, const GfxMode &mode, bool show, bool resizeable) throw(EBadDisplay) { H_AUTO_OGL(CDriverGL_setDisplay) _win = EmptyWindow; _WindowWidth = _WindowHeight = _WindowX = _WindowY = 0; _FullScreen = false; _Resizable = resizeable; _OffScreen = mode.OffScreen; _DestroyWindow = false; #ifdef NL_OS_WINDOWS // Init pointers _PBuffer = NULL; _hRC = NULL; _hDC = NULL; // Driver caps. //============= // Retrieve the WGL extensions before init the driver. int pf; // Offscreen mode ? if (_OffScreen) { #if 0 if (!createWindow(mode)) return false; // resize the window RECT rc; SetRect (&rc, 0, 0, width, height); AdjustWindowRectEx (&rc, GetWindowStyle (_win), GetMenu (_win) != NULL, GetWindowExStyle (_win)); SetWindowPos (_win, NULL, 0, 0, rc.right - rc.left, rc.bottom - rc.top, SWP_NOMOVE | SWP_NOZORDER | SWP_NOACTIVATE ); // Get the HDC tempHDC = GetDC(tmpHWND); _Depth=uint8(GetDeviceCaps(tempHDC,BITSPIXEL)); // --- memset(&_pfd,0,sizeof(_pfd)); _pfd.nSize = sizeof(_pfd); _pfd.nVersion = 1; _pfd.dwFlags = PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL | PFD_DOUBLEBUFFER; _pfd.iPixelType = PFD_TYPE_RGBA; _pfd.cColorBits = (char)_Depth; // Choose best suited Depth Buffer. if(_Depth<=16) { _pfd.cDepthBits = 16; } else { _pfd.cDepthBits = 24; _pfd.cAlphaBits = 8; } _pfd.iLayerType = PFD_MAIN_PLANE; pf=ChoosePixelFormat(tempHDC,&_pfd); if (!pf) { nlwarning ("CDriverGL::setDisplay: ChoosePixelFormat failed"); DestroyWindow (tmpHWND); return false; } if ( !SetPixelFormat(tempHDC,pf,&_pfd) ) { nlwarning ("CDriverGL::setDisplay: SetPixelFormat failed"); DestroyWindow (tmpHWND); return false; } // Create gl context HGLRC tempGLRC = wglCreateContext(tempHDC); if (tempGLRC == NULL) { DWORD error = GetLastError (); nlwarning ("CDriverGL::setDisplay: wglCreateContext failed: 0x%x", error); DestroyWindow (tmpHWND); _PBuffer = NULL; _win = EmptyWindow; _hRC = NULL; _hDC = NULL; return false; } // Make the context current if (!wglMakeCurrent(tempHDC,tempGLRC)) { DWORD error = GetLastError (); nlwarning ("CDriverGL::setDisplay: wglMakeCurrent failed: 0x%x", error); wglDeleteContext (tempGLRC); DestroyWindow (tmpHWND); _PBuffer = NULL; _win = EmptyWindow; _hRC = NULL; _hDC = NULL; return false; } // Register WGL functions registerWGlExtensions (_Extensions, tempHDC); HDC hdc = wglGetCurrentDC (); if (hdc == NULL) { DWORD error = GetLastError (); nlwarning ("CDriverGL::setDisplay: wglGetCurrentDC failed: 0x%x", error); DestroyWindow (tmpHWND); _PBuffer = NULL; _win = EmptyWindow; _hRC = NULL; _hDC = NULL; return false; } // Get ready to query for a suitable pixel format that meets our // minimum requirements. int iattributes[2*20]; float fattributes[2*20]; int niattribs = 0; // Attribute arrays must be "0" terminated - for simplicity, first // just zero-out the array then fill from left to right. for ( int a = 0; a < 2*20; a++ ) { iattributes[a] = 0; fattributes[a] = 0; } // Since we are trying to create a pbuffer, the pixel format we // request (and subsequently use) must be "buffer capable". iattributes[2*niattribs ] = WGL_DRAW_TO_PBUFFER_ARB; iattributes[2*niattribs+1] = true; niattribs++; // We require a minimum of 24-bit depth. iattributes[2*niattribs ] = WGL_DEPTH_BITS_ARB; iattributes[2*niattribs+1] = 24; niattribs++; // We require a minimum of 8-bits for each R, G, B, and A. iattributes[2*niattribs ] = WGL_RED_BITS_ARB; iattributes[2*niattribs+1] = 8; niattribs++; iattributes[2*niattribs ] = WGL_GREEN_BITS_ARB; iattributes[2*niattribs+1] = 8; niattribs++; iattributes[2*niattribs ] = WGL_BLUE_BITS_ARB; iattributes[2*niattribs+1] = 8; niattribs++; iattributes[2*niattribs ] = WGL_ALPHA_BITS_ARB; iattributes[2*niattribs+1] = 8; niattribs++; // Now obtain a list of pixel formats that meet these minimum // requirements. int pformat[20]; unsigned int nformats; if ( !nwglChoosePixelFormatARB ( hdc, iattributes, fattributes, 20, pformat, &nformats ) ) { nlwarning ( "pbuffer creation error: Couldn't find a suitable pixel format." ); wglDeleteContext (tempGLRC); DestroyWindow (tmpHWND); return false; } /* After determining a compatible pixel format, the next step is to create a pbuffer of the chosen format. Fortunately this step is fairly easy, as you merely select one of the formats returned in the list in step #2 and call the function: */ int iattributes2[1] = {0}; // int iattributes2[] = {WGL_PBUFFER_LARGEST_ARB, 1, 0}; _PBuffer = nwglCreatePbufferARB( hdc, pformat[0], width, height, iattributes2 ); if (_PBuffer == NULL) { DWORD error = GetLastError (); nlwarning ("CDriverGL::setDisplay: wglCreatePbufferARB failed: 0x%x", error); wglDeleteContext (tempGLRC); DestroyWindow (tmpHWND); _PBuffer = NULL; _win = EmptyWindow; _hRC = NULL; _hDC = NULL; return false; } /* After creating a pbuffer, you may use this functions to determine the dimensions of the pbuffer actually created. */ if ( !nwglQueryPbufferARB( _PBuffer, WGL_PBUFFER_WIDTH_ARB, (int*)&width ) ) { DWORD error = GetLastError (); nlwarning ("CDriverGL::setDisplay: wglQueryPbufferARB failed: 0x%x", error); wglDeleteContext (tempGLRC); DestroyWindow (tmpHWND); _PBuffer = NULL; _win = EmptyWindow; _hRC = NULL; _hDC = NULL; return false; } if ( !nwglQueryPbufferARB( _PBuffer, WGL_PBUFFER_HEIGHT_ARB, (int*)&height ) ) { DWORD error = GetLastError (); nlwarning ("CDriverGL::setDisplay: wglQueryPbufferARB failed: 0x%x", error); wglDeleteContext (tempGLRC); DestroyWindow (tmpHWND); _PBuffer = NULL; _win = EmptyWindow; _hRC = NULL; _hDC = NULL; return false; } _WindowWidth = width; _WindowHeight = height; /* The next step is to create a device context for the newly created pbuffer. To do this, call the the function: */ _hDC = nwglGetPbufferDCARB( _PBuffer ); if (_hDC == NULL) { DWORD error = GetLastError (); nlwarning ("CDriverGL::setDisplay: wglGetPbufferDCARB failed: 0x%x", error); nwglDestroyPbufferARB( _PBuffer ); wglDeleteContext (tempGLRC); DestroyWindow (tmpHWND); _PBuffer = NULL; _win = EmptyWindow; _hRC = NULL; _hDC = NULL; return false; } /* The final step of pbuffer creation is to create an OpenGL rendering context and associate it with the handle for the pbuffer's device context created in step #4. This is done as follows */ _hRC = wglCreateContext( _hDC ); if (_hRC == NULL) { DWORD error = GetLastError (); nlwarning ("CDriverGL::setDisplay: wglCreateContext failed: 0x%x", error); nwglReleasePbufferDCARB( _PBuffer, _hDC ); nwglDestroyPbufferARB( _PBuffer ); wglDeleteContext (tempGLRC); DestroyWindow (tmpHWND); _PBuffer = NULL; _win = EmptyWindow; _hRC = NULL; _hDC = NULL; return false; } // Get the depth _Depth = uint8(GetDeviceCaps (_hDC, BITSPIXEL)); // Destroy the temp gl context if (!wglDeleteContext (tempGLRC)) { DWORD error = GetLastError (); nlwarning ("CDriverGL::setDisplay: wglDeleteContext failed: 0x%x", error); } // Destroy the temp windows if (!DestroyWindow (tmpHWND)) nlwarning ("CDriverGL::setDisplay: DestroyWindow failed"); /* After a pbuffer has been successfully created you can use it for off-screen rendering. To do so, you'll first need to bind the pbuffer, or more precisely, make its GL rendering context the current context that will interpret all OpenGL commands and state changes. */ if (!wglMakeCurrent(_hDC,_hRC)) { DWORD error = GetLastError (); nlwarning ("CDriverGL::setDisplay: wglMakeCurrent failed: 0x%x", error); wglDeleteContext (_hRC); nwglReleasePbufferDCARB( _PBuffer, _hDC ); nwglDestroyPbufferARB( _PBuffer ); DestroyWindow (tmpHWND); _PBuffer = NULL; _win = EmptyWindow; _hRC = NULL; _hDC = NULL; return false; } #endif } else { if (wnd == EmptyWindow) { if (!createWindow(mode)) return false; } else { _win = wnd; } // associate OpenGL driver to window SetWindowLongPtr(_win, GWLP_USERDATA, (LONG_PTR)this); _hDC=GetDC(_win); wglMakeCurrent(_hDC,NULL); _Depth=uint8(GetDeviceCaps(_hDC,BITSPIXEL)); // --- memset(&_pfd,0,sizeof(_pfd)); _pfd.nSize = sizeof(_pfd); _pfd.nVersion = 1; _pfd.dwFlags = PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL | PFD_DOUBLEBUFFER; _pfd.iPixelType = PFD_TYPE_RGBA; _pfd.cColorBits = (char)_Depth; // Choose best suited Depth Buffer. if(_Depth<=16) { _pfd.cDepthBits = 16; } else { _pfd.cDepthBits = 24; _pfd.cAlphaBits = 8; _pfd.cStencilBits = 8; } _pfd.iLayerType = PFD_MAIN_PLANE; pf=ChoosePixelFormat(_hDC,&_pfd); if (!pf) { return false; } if ( !SetPixelFormat(_hDC,pf,&_pfd) ) { return false; } _hRC=wglCreateContext(_hDC); wglMakeCurrent(_hDC,_hRC); } /// release old emitter while (_EventEmitter.getNumEmitters() != 0) { _EventEmitter.removeEmitter(_EventEmitter.getEmitter(_EventEmitter.getNumEmitters() - 1)); } NLMISC::CWinEventEmitter *we = new NLMISC::CWinEventEmitter; // setup the event emitter, and try to retrieve a direct input interface _EventEmitter.addEmitter(we, true /*must delete*/); // the main emitter /// try to get direct input try { NLMISC::CDIEventEmitter *diee = NLMISC::CDIEventEmitter::create(GetModuleHandle(NULL), _win, we); if (diee) { _EventEmitter.addEmitter(diee, true); } } catch(EDirectInput &e) { nlinfo(e.what()); } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) _win = NL3D::MAC::setDisplay(wnd, mode, show, resizeable); if(_win != EmptyWindow) _DestroyWindow = true; #elif defined (NL_OS_UNIX) static int sAttribList16bpp[] = { GLX_RGBA, GLX_DOUBLEBUFFER, GLX_DEPTH_SIZE, 16, GLX_RED_SIZE, 4, GLX_GREEN_SIZE, 4, GLX_BLUE_SIZE, 4, GLX_ALPHA_SIZE, 4, GLX_STENCIL_SIZE, 8, None }; static int sAttribList24bpp[] = { GLX_RGBA, GLX_DOUBLEBUFFER, GLX_DEPTH_SIZE, 24, GLX_RED_SIZE, 8, GLX_GREEN_SIZE, 8, GLX_BLUE_SIZE, 8, GLX_ALPHA_SIZE, 8, GLX_STENCIL_SIZE, 8, None }; // first try 24bpp and if that fails 16bpp XVisualInfo *visual_info = glXChooseVisual (_dpy, DefaultScreen(_dpy), sAttribList24bpp); if (visual_info == NULL) visual_info = glXChooseVisual(_dpy, DefaultScreen(_dpy), sAttribList16bpp); if(visual_info == NULL) { nlerror("glXChooseVisual() failed"); } _visual_info = visual_info; _ctx = glXCreateContext (_dpy, visual_info, None, GL_TRUE); if (_ctx == NULL) { nlerror("glXCreateContext() failed"); } if (wnd == EmptyWindow) { if (!createWindow(mode)) return false; } else { _win = wnd; XSetWindowAttributes attr; attr.background_pixel = BlackPixel(_dpy, DefaultScreen(_dpy)); attr.override_redirect = False; int attr_flags = CWOverrideRedirect | CWBackPixel; XChangeWindowAttributes(_dpy, _win, attr_flags, &attr); } glXMakeCurrent (_dpy, _win, _ctx); // XMapRaised (_dpy, _win); XSelectInput (_dpy, _win, KeyPressMask|KeyReleaseMask|ButtonPressMask|ButtonReleaseMask|PointerMotionMask); // XMapWindow(_dpy, _win); _EventEmitter.init (_dpy, _win); // XEvent event; // XIfEvent(dpy, &event, WaitForNotify, (char *)this); #endif // NL_OS_UNIX // setup OpenGL structures if (!setupDisplay()) return false; // setup window size and screen mode if (!setMode(mode)) return false; if (show || _FullScreen) showWindow(true); return true; } // -------------------------------------------------- bool CDriverGL::saveScreenMode() { H_AUTO_OGL(CDriverGL_saveScreenMode) bool res = true; #if defined(NL_OS_WINDOWS) // don't need to save it because Windows will use default desktop resolution #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) // no need to store because the screen mode is never really changed #elif defined(NL_OS_UNIX) int screen = DefaultScreen(_dpy); res = false; #ifdef XRANDR if (!res && _xrandr_version > 0) { XRRScreenConfiguration *screen_config = XRRGetScreenInfo(_dpy, RootWindow(_dpy, screen)); if (screen_config) { Rotation saved_rotation; _OldSizeID = XRRConfigCurrentConfiguration(screen_config, &saved_rotation); nlinfo("3D: current XRandR mode %d", _OldSizeID); XRRFreeScreenConfigInfo(screen_config); res = true; } else { nlwarning("3D: XRRGetScreenInfo failed"); } } #endif // XRANDR #if defined(XF86VIDMODE) if (!res && _xvidmode_version > 0) { // Store old mode in order to restore it when leaving fullscreen memset(&_OldScreenMode, 0, sizeof(XF86VidModeModeLine)); XF86VidModeGetModeLine(_dpy, screen, &_OldDotClock, &_OldScreenMode); res = XF86VidModeGetViewPort(_dpy, screen, &_OldX, &_OldY); } #endif // XF86VIDMODE #endif // NL_OS_WINDOWS return res; } // -------------------------------------------------- bool CDriverGL::restoreScreenMode() { H_AUTO_OGL(CDriverGL_restoreScreenMode) bool res = false; #if defined(NL_OS_WINDOWS) res = (ChangeDisplaySettings(NULL, 0) == DISP_CHANGE_SUCCESSFUL); #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) // no need to restore because the screen mode was never really changed res = true; #elif defined(NL_OS_UNIX) int screen = DefaultScreen(_dpy); #ifdef XRANDR if (!res && _xrandr_version > 0) { Window root = RootWindow(_dpy, screen); XRRScreenConfiguration *screen_config = XRRGetScreenInfo(_dpy, root); if (screen_config) { Rotation saved_rotation; SizeID size = XRRConfigCurrentConfiguration(screen_config, &saved_rotation); if (XRRSetScreenConfig(_dpy, screen_config, root, _OldSizeID, saved_rotation, CurrentTime) == RRSetConfigSuccess) { nlinfo("3D: Switching back to XRandR mode %d", _OldSizeID); res = true; } XRRFreeScreenConfigInfo(screen_config); } else { nlwarning("3D: XRRGetScreenInfo failed"); } } #endif // XRANDR #if defined(XF86VIDMODE) if (!res && _xvidmode_version > 0) { XF86VidModeModeInfo info; nlinfo("3D: Switching back to original mode"); // This is UGLY info.dotclock = _OldDotClock; info.hdisplay = _OldScreenMode.hdisplay; info.hsyncstart = _OldScreenMode.hsyncstart; info.hsyncend = _OldScreenMode.hsyncend; info.htotal = _OldScreenMode.htotal; info.vdisplay = _OldScreenMode.vdisplay; info.vsyncstart = _OldScreenMode.vsyncstart; info.vsyncend = _OldScreenMode.vsyncend; info.vtotal = _OldScreenMode.vtotal; info.flags = _OldScreenMode.flags; info.privsize = _OldScreenMode.privsize; info.c_private = _OldScreenMode.c_private; nlinfo("3D: Switching back mode to %dx%d", info.hdisplay, info.vdisplay); XF86VidModeSwitchToMode(_dpy, screen, &info); nlinfo("3D: Switching back viewport to %d,%d",_OldX, _OldY); res = XF86VidModeSetViewPort(_dpy, screen, _OldX, _OldY); } #endif // XF86VIDMODE #endif // NL_OS_WINDOWS return res; } // -------------------------------------------------- #ifdef XF86VIDMODE static sint modeInfoToFrequency(XF86VidModeModeInfo *info) { return (info->htotal && info->vtotal) ? (1000 * info->dotclock / (info->htotal * info->vtotal)) : 0; } #endif // XF86VIDMODE // -------------------------------------------------- bool CDriverGL::setScreenMode(const GfxMode &mode) { H_AUTO_OGL(CDriverGL_setScreenMode) if (mode.Windowed) { // if fullscreen, switch back to desktop screen mode if (_FullScreen) restoreScreenMode(); return true; } // save previous screen mode only if switching from windowed to fullscreen if (!_FullScreen) saveScreenMode(); // if switching exactly to the same screen mode, doesn't change it GfxMode previousMode; if (getCurrentScreenMode(previousMode) && mode.Width == previousMode.Width && mode.Height == previousMode.Height && mode.Depth == previousMode.Depth && mode.Frequency == previousMode.Frequency) return true; #if defined(NL_OS_WINDOWS) DEVMODE devMode; memset(&devMode, 0, sizeof(DEVMODE)); devMode.dmSize = sizeof(DEVMODE); devMode.dmDriverExtra = 0; devMode.dmFields = DM_PELSWIDTH | DM_PELSHEIGHT; devMode.dmPelsWidth = mode.Width; devMode.dmPelsHeight = mode.Height; if(mode.Depth > 0) { devMode.dmBitsPerPel = mode.Depth; devMode.dmFields |= DM_BITSPERPEL; } if(mode.Frequency > 0) { devMode.dmDisplayFrequency = mode.Frequency; devMode.dmFields |= DM_DISPLAYFREQUENCY; } if (ChangeDisplaySettings(&devMode, CDS_FULLSCREEN) != DISP_CHANGE_SUCCESSFUL) { nlwarning("3D: Fullscreen mode switch failed"); return false; } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) // no need to do anything here, on mac os, the screen mode is never changed #elif defined(NL_OS_UNIX) bool found = false; #ifdef XRANDR if (!found && _xrandr_version > 0) { int screen = DefaultScreen(_dpy); Window root = RootWindow(_dpy, screen); XRRScreenConfiguration *screen_config = XRRGetScreenInfo(_dpy, root); if (screen_config) { Rotation saved_rotation; SizeID cur_size = XRRConfigCurrentConfiguration(screen_config, &saved_rotation); sint nsizes; XRRScreenSize *sizes = XRRConfigSizes(screen_config, &nsizes); sint size = -1; for (sint i = 0; i < nsizes; ++i) { if (sizes[i].width == mode.Width && sizes[i].height == mode.Height) { size = i; break; } } if (size > -1 && XRRSetScreenConfig(_dpy, screen_config, root, size, saved_rotation, CurrentTime) == RRSetConfigSuccess) { nlinfo("3D: Switching to XRandR mode %d: %dx%d", size, sizes[size].width, sizes[size].height); found = true; } else { nlwarning("3D: No corresponding screen mode or XRRSetScreenConfig failed"); } XRRFreeScreenConfigInfo(screen_config); } else { nlwarning("3D: XRRGetScreenInfo failed"); } } #endif #if defined(XF86VIDMODE) if (!found && _xvidmode_version > 0) { // Find the requested mode and use it XF86VidModeModeInfo **modes; int nmodes; if (XF86VidModeGetAllModeLines(_dpy, DefaultScreen(_dpy), &nmodes, &modes)) { for (int i = 0; i < nmodes; i++) { const uint16 freq = modeInfoToFrequency(modes[i]); nldebug("3D: Available mode - %dx%d %d Hz", modes[i]->hdisplay, modes[i]->vdisplay, (int)freq); if (modes[i]->hdisplay == mode.Width && modes[i]->vdisplay == mode.Height /* && freq == mode.Frequency */) { if (XF86VidModeSwitchToMode(_dpy, DefaultScreen(_dpy), modes[i])) { nlinfo("3D: XF86VidMode Switching to mode %dx%d", modes[i]->hdisplay, modes[i]->vdisplay); XF86VidModeSetViewPort(_dpy, DefaultScreen(_dpy), 0, 0); found = true; } break; } } XFree(modes); } } #endif // XF86VIDMODE if (!found) return false; #endif // NL_OS_WINDOWS return true; } // *************************************************************************** bool CDriverGL::createWindow(const GfxMode &mode) { H_AUTO_OGL(CDriverGL_createWindow) nlWindow window = EmptyWindow; #ifdef NL_OS_WINDOWS // create the OpenGL window window = CreateWindowW(L"NLClass", L"NeL Window", WS_OVERLAPPEDWINDOW|WS_CLIPCHILDREN|WS_CLIPSIBLINGS, CW_USEDEFAULT, CW_USEDEFAULT, mode.Width, mode.Height, HWND_DESKTOP, NULL, GetModuleHandle(NULL), NULL); if (window == EmptyWindow) { DWORD res = GetLastError(); nlwarning("CreateWindow failed: %u", res); return false; } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) window = NL3D::MAC::createWindow(mode); if(window == EmptyWindow) { nldebug("cannot create window"); return false; } #elif defined (NL_OS_UNIX) if (_visual_info == NULL) return false; nlWindow root = RootWindow(_dpy, DefaultScreen(_dpy)); XSetWindowAttributes attr; attr.background_pixel = BlackPixel(_dpy, DefaultScreen(_dpy)); attr.colormap = XCreateColormap(_dpy, root, _visual_info->visual, AllocNone); int attr_flags = CWBackPixel | CWColormap; window = XCreateWindow (_dpy, root, 0, 0, mode.Width, mode.Height, 0, _visual_info->depth, InputOutput, _visual_info->visual, attr_flags, &attr); if (window == EmptyWindow) { nlerror("3D: XCreateWindow() failed"); return false; } #endif // NL_OS_UNIX _win = window; _WindowWidth = mode.Width; _WindowHeight = mode.Height; // Must destroy this window _DestroyWindow = true; setWindowTitle(ucstring("NeL window")); return true; } // *************************************************************************** bool CDriverGL::destroyWindow() { H_AUTO_OGL(CDriverGL_destroyWindow) // make sure window icons are deleted std::vector bitmaps; setWindowIcon(bitmaps); #ifdef NL_OS_WINDOWS // Then delete. // wglMakeCurrent(NULL,NULL); if (_hDC) wglMakeCurrent(_hDC, NULL); if (_DestroyWindow && _hRC) { wglDeleteContext(_hRC); _hRC = NULL; } if (_win && _hDC) { ReleaseDC(_win, _hDC); _hDC = NULL; // don't destroy window if it hasn't been created by our driver if (_DestroyWindow) DestroyWindow(_win); } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) if(_DestroyWindow) { if(!NL3D::MAC::destroyWindow(_win)) { nldebug("cannot destroy window"); return false; } } #elif defined (NL_OS_UNIX) if (_DestroyWindow) { if (_ctx) glXDestroyContext(_dpy, _ctx); if (_win) XDestroyWindow(_dpy, _win); } _ctx = NULL; // Ungrab the keyboard (probably not necessary); // XUnmapWindow(_dpy, _win); XSync(_dpy, True); XUngrabKeyboard(_dpy, CurrentTime); #endif _win = EmptyWindow; return true; } CDriverGL::EWindowStyle CDriverGL::getWindowStyle() const { H_AUTO_OGL(CDriverGL_getWindowStyle) if (_FullScreen) return EWSFullscreen; return EWSWindowed; } bool CDriverGL::setWindowStyle(EWindowStyle windowStyle) { H_AUTO_OGL(CDriverGL_setWindowStyle) // don't change window style, if we did not create the window if (!_DestroyWindow) return true; #if defined(NL_OS_WINDOWS) // get current style LONG dwStyle = GetWindowLong(_win, GWL_STYLE); // prepare new style LONG dwNewStyle = WS_CLIPCHILDREN|WS_CLIPSIBLINGS; // get window current state WINDOWPLACEMENT wndpl; wndpl.length = sizeof(WINDOWPLACEMENT); bool isMaximized = GetWindowPlacement(_win, &wndpl) && (wndpl.showCmd == SW_SHOWMAXIMIZED); bool isVisible = false; if (windowStyle == EWSWindowed && !_OffScreen) { dwNewStyle |= WS_OVERLAPPEDWINDOW; // if we can't resize window, remove maximize box and resize anchors if (!_Resizable) dwNewStyle ^= WS_MAXIMIZEBOX|WS_THICKFRAME; isVisible = (dwStyle & WS_VISIBLE) != 0; } else if (windowStyle == EWSFullscreen) { dwNewStyle |= WS_POPUP; isVisible = true; } if (isVisible) dwNewStyle |= WS_VISIBLE; if (dwStyle != dwNewStyle) SetWindowLong(_win, GWL_STYLE, dwNewStyle); // if (windowStyle == EWSMaximized && isVisible && !isMaximized) // ShowWindow(_hWnd, SW_SHOWMAXIMIZED); // else if (isMaximized && isVisible) // ShowWindow(_hWnd, SW_RESTORE); #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) if(!NL3D::MAC::setWindowStyle(_win, windowStyle == EWSFullscreen)) { nldebug("cannot set window style"); return false; } #elif defined(NL_OS_UNIX) // x11 fullscreen is not working on mac os x #if !defined(NL_OS_MAC) // Toggle fullscreen if (windowStyle != getWindowStyle()) { XEvent xev; memset(&xev, 0, sizeof(xev)); xev.type = ClientMessage; // xev.xclient.serial = 0; // xev.xclient.send_event = True; // xev.xclient.display = _dpy; xev.xclient.window = _win; xev.xclient.message_type = XInternAtom(_dpy, "_NET_WM_STATE", False); xev.xclient.format = 32; xev.xclient.data.l[0] = windowStyle == EWSFullscreen ? 1:0; xev.xclient.data.l[1] = XInternAtom(_dpy, "_NET_WM_STATE_FULLSCREEN", False); xev.xclient.data.l[2] = 0; xev.xclient.data.l[3] = 0; xev.xclient.data.l[4] = 0; if (XSendEvent(_dpy, DefaultRootWindow(_dpy), False, SubstructureNotifyMask, &xev) != Success) { nlwarning("3D: Failed to toggle to fullscreen"); return false; } } #endif #endif // NL_OS_WINDOWS return true; } // -------------------------------------------------- bool CDriverGL::setMode(const GfxMode& mode) { H_AUTO_OGL(CDriverGL_setMode) if (!setScreenMode(mode)) return false; // when changing window style, it's possible system change window size too setWindowStyle(mode.Windowed ? EWSWindowed : EWSFullscreen); _WindowWidth = mode.Width; _WindowHeight = mode.Height; if (!mode.Windowed) _Depth = mode.Depth; _FullScreen = !mode.Windowed; #if defined(NL_OS_MAC) && !defined(NL_MAC_NATIVE) // X11 under Mac OS can't use fullscreen _FullScreen = false; #endif // NL_MAC_NATIVE setWindowSize(mode.Width, mode.Height); return true; } // -------------------------------------------------- bool CDriverGL::getModes(std::vector &modes) { H_AUTO_OGL(CDriverGL_getModes) #ifdef NL_OS_WINDOWS sint modeIndex = 0; DEVMODE devMode; while (EnumDisplaySettings (NULL, modeIndex, &devMode)) { // Keep only 16 and 32 bits if ((devMode.dmBitsPerPel == 16 ) || (devMode.dmBitsPerPel == 32)) { // Add this mode GfxMode mode; mode.Width = (uint16)devMode.dmPelsWidth; mode.Height = (uint16)devMode.dmPelsHeight; mode.Depth = (uint8)devMode.dmBitsPerPel; mode.Frequency = devMode.dmDisplayFrequency; modes.push_back (mode); } // Mode index modeIndex++; } #elif defined(NL_OS_MAC) getMacModes(modes); #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) # warning "OpenGL Driver: Missing Mac Implementation" nlwarning("OpenGL Driver: Missing Mac Implementation"); #elif defined (NL_OS_UNIX) bool found = false; int screen = DefaultScreen(_dpy); #if defined(XRANDR) if (!found && _xrandr_version >= 100) { XRRScreenConfiguration *screen_config = XRRGetScreenInfo(_dpy, RootWindow(_dpy, screen)); if (screen_config) { // retrieve the list of resolutions int nsizes = 0; XRRScreenSize *sizes = XRRConfigSizes(screen_config, &nsizes); if (nsizes > 0) { nldebug("3D: %d available XRandR modes:", nsizes); for (sint i = 0; i < nsizes; ++i) { // Add this mode GfxMode mode; mode.Width = sizes[i].width; mode.Height = sizes[i].height; mode.Frequency = 0; modes.push_back(mode); nldebug("3D: Mode %d: %dx%d", i, mode.Width, mode.Height); } found = true; } else { nlwarning("3D: No XRandR modes available"); } XRRFreeScreenConfigInfo(screen_config); } else { nlwarning("3D: XRRGetScreenInfo failed"); } } #endif #ifdef XF86VIDMODE int nmodes; XF86VidModeModeInfo **ms; if (!found && XF86VidModeGetAllModeLines(_dpy, screen, &nmodes, &ms)) { nlinfo("3D: %d available XF86VidMode modes:", nmodes); for (int j = 0; j < nmodes; j++) { // Add this mode GfxMode mode; mode.Width = (uint16)ms[j]->hdisplay; mode.Height = (uint16)ms[j]->vdisplay; mode.Frequency = modeInfoToFrequency(ms[j]); nlinfo("3D: Mode %d: %dx%d, %d Hz", j, mode.Width, mode.Height, mode.Frequency); modes.push_back (mode); } XFree(ms); } #endif // XF86VIDMODE if (!found) { // Add current screen mode GfxMode mode; mode.Width = DisplayWidth(_dpy, screen); mode.Height = DisplayHeight(_dpy, screen); mode.Frequency = 0; modes.push_back(mode); nldebug("3D: X11 available mode:"); nldebug("3D: %dx%d", mode.Width, mode.Height); } #endif return true; } // -------------------------------------------------- bool CDriverGL::getCurrentScreenMode(GfxMode &mode) { H_AUTO_OGL(CDriverGL_getCurrentScreenMode) #ifdef NL_OS_WINDOWS DEVMODE devmode; devmode.dmSize = sizeof(DEVMODE); devmode.dmDriverExtra = 0; EnumDisplaySettings(NULL, ENUM_CURRENT_SETTINGS, &devmode); mode.Windowed = !_FullScreen; mode.OffScreen = false; mode.Depth = (uint8)devmode.dmBitsPerPel; mode.Frequency = devmode.dmDisplayFrequency, mode.Width = (uint16)devmode.dmPelsWidth; mode.Height = (uint16)devmode.dmPelsHeight; mode.AntiAlias = _AntiAliasing; #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) NL3D::MAC::getCurrentScreenMode(_win, mode); #elif defined(NL_OS_MAC) /* TODO this is just a hack to get the ryzom client running on mac os x x11. the implementation below relies on the vidmode extension which is not available on mac os x's x11. for that reason the color depth value is hard coded here. FIXME replace this hack by native cocoa color depth retrieval */ nlwarning("FIXME: returning hardcoded color depth of 24bit"); mode.Depth= 24; #elif defined(NL_OS_UNIX) bool found = false; int screen = DefaultScreen(_dpy); // x11 fullscreen is not working on mac os x #if defined(NL_OS_MAC) mode.Windowed = true; found = true; #endif #ifdef XRANDR if (!found && _xrandr_version > 0) { XRRScreenConfiguration *screen_config = XRRGetScreenInfo(_dpy, RootWindow(_dpy, screen)); if (screen_config) { int nsizes; XRRScreenSize *sizes = XRRConfigSizes(screen_config, &nsizes); if (nsizes > 0) { Rotation cur_rotation; SizeID size = XRRConfigCurrentConfiguration(screen_config, &cur_rotation); mode.Windowed = !_FullScreen; mode.OffScreen = false; mode.Depth = (uint) DefaultDepth(_dpy, screen); mode.Frequency = 0; mode.Width = sizes[size].width; mode.Height = sizes[size].height; found = true; nlinfo("3D: Current XRandR mode %d: %dx%d, %dbit", size, mode.Width, mode.Height, mode.Depth); } else { nlwarning("3D: No XRandR modes available"); } XRRFreeScreenConfigInfo(screen_config); } else { nlwarning("3D: XRRGetScreenInfo failed"); } } #endif // XRANDR #ifdef XF86VIDMODE if (!found && _xvidmode_version > 0) { sint pixelClock; XF86VidModeModeLine xmode; if (XF86VidModeGetModeLine(_dpy, screen, &pixelClock, &xmode)) { mode.Windowed = !_FullScreen; mode.OffScreen = false; mode.Depth = (uint) DefaultDepth(_dpy, screen); mode.Frequency = 1000 * pixelClock / (xmode.htotal * xmode.vtotal) ; mode.Width = xmode.hdisplay; mode.Height = xmode.vdisplay; nlinfo("3D: Current XF86VidMode mode: %dx%d, %d Hz, %dbit", mode.Width, mode.Height, mode.Frequency, mode.Depth); found = true; } else { nlwarning("3D: XF86VidModeGetModeLine failed, cannot get current video mode"); } } #endif if (!found) { mode.Windowed = !_FullScreen; mode.OffScreen = _OffScreen; mode.Depth = (uint) DefaultDepth(_dpy, screen); mode.Frequency = 0; mode.Width = DisplayWidth(_dpy, screen); mode.Height = DisplayHeight(_dpy, screen); found = true; nldebug("Current mode: %dx%d, %d Hz, %dbit", mode.Width, mode.Height, mode.Frequency, mode.Depth); } #endif return true; } // -------------------------------------------------- void CDriverGL::setWindowTitle(const ucstring &title) { #ifdef NL_OS_WINDOWS SetWindowTextW(_win, (WCHAR*)title.c_str()); #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) NL3D::MAC::setWindowTitle(_win, title); #elif defined (NL_OS_UNIX) #ifdef X_HAVE_UTF8_STRING Xutf8SetWMProperties (_dpy, _win, (char*)title.toUtf8().c_str(), (char*)title.toUtf8().c_str(), NULL, 0, NULL, NULL, NULL); #else XTextProperty text_property; XStringListToTextProperty((char**)&title.toUtf8().c_str(), 1, &text_property); XSetWMProperties (_dpy, _win, &text_property, &text_property, 0, 0, NULL, 0, 0); #endif #endif // NL_OS_WINDOWS } // *************************************************************************** void CDriverGL::setWindowPos(sint32 x, sint32 y) { _WindowX = x; _WindowY = y; #ifdef NL_OS_WINDOWS SetWindowPos(_win, NULL, x, y, 0, 0, SWP_NOZORDER | SWP_NOACTIVATE | SWP_NOSIZE); #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) NL3D::MAC::setWindowPos(_win, x, y); #elif defined (NL_OS_UNIX) XMoveWindow(_dpy, _win, x, y); #endif // NL_OS_WINDOWS } // *************************************************************************** void CDriverGL::showWindow(bool show) { H_AUTO_OGL(CDriverGL_showWindow) // don't change window visibility, if we didn't create the window if (!_DestroyWindow) return; #ifdef NL_OS_WINDOWS ShowWindow (_win, show ? SW_SHOW:SW_HIDE); #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) MAC::showWindow(show); #elif defined (NL_OS_UNIX) if (show) { XMapWindow(_dpy, _win); // XMapRaised(_dpy, _win); } else { XUnmapWindow(_dpy, _win); } #endif // NL_OS_WINDOWS } // -------------------------------------------------- emptyProc CDriverGL::getWindowProc() { H_AUTO_OGL(CDriverGL_getWindowProc) #ifdef NL_OS_WINDOWS return (emptyProc)GlWndProc; #else // NL_OS_WINDOWS return NULL; #endif // NL_OS_WINDOWS } // -------------------------------------------------- bool CDriverGL::activate() { H_AUTO_OGL(CDriverGL_activate) #ifdef NL_OS_WINDOWS HGLRC hglrc = wglGetCurrentContext(); if (hglrc != _hRC) wglMakeCurrent(_hDC, _hRC); #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) if(!MAC::activate(_win)) { nlwarning("cannot activate"); return false; } #elif defined (NL_OS_UNIX) GLXContext nctx = glXGetCurrentContext(); if (nctx != NULL && nctx != _ctx) glXMakeCurrent(_dpy, _win, _ctx); #endif // NL_OS_WINDOWS return true; } // -------------------------------------------------- IDriver::TMessageBoxId CDriverGL::systemMessageBox (const char* message, const char* title, IDriver::TMessageBoxType type, TMessageBoxIcon icon) { H_AUTO_OGL(CDriverGL_systemMessageBox) #ifdef NL_OS_WINDOWS switch (::MessageBox (NULL, message, title, ((type==retryCancelType)?MB_RETRYCANCEL: (type==yesNoCancelType)?MB_YESNOCANCEL: (type==okCancelType)?MB_OKCANCEL: (type==abortRetryIgnoreType)?MB_ABORTRETRYIGNORE: (type==yesNoType)?MB_YESNO|MB_ICONQUESTION:MB_OK)| ((icon==handIcon)?MB_ICONHAND: (icon==questionIcon)?MB_ICONQUESTION: (icon==exclamationIcon)?MB_ICONEXCLAMATION: (icon==asteriskIcon)?MB_ICONASTERISK: (icon==warningIcon)?MB_ICONWARNING: (icon==errorIcon)?MB_ICONERROR: (icon==informationIcon)?MB_ICONINFORMATION: (icon==stopIcon)?MB_ICONSTOP:0))) { case IDOK: return okId; case IDCANCEL: return cancelId; case IDABORT: return abortId; case IDRETRY: return retryId; case IDIGNORE: return ignoreId; case IDYES: return yesId; case IDNO: return noId; } nlstop; #else // NL_OS_WINDOWS // Call the console version! IDriver::systemMessageBox (message, title, type, icon); #endif // NL_OS_WINDOWS return okId; } // -------------------------------------------------- void CDriverGL::showCursor(bool b) { H_AUTO_OGL(CDriverGL_showCursor) #ifdef NL_OS_WINDOWS if (b) { while (ShowCursor(b) < 0) ; } else { while (ShowCursor(b) >= 0) ; } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) NL3D::MAC::showCursor(b); #elif defined (NL_OS_UNIX) if (b) { if (_cursor != None) { XFreeCursor(_dpy, _cursor); _cursor = None; } XUndefineCursor(_dpy, _win); } else { if (_cursor == None) { char bm_no_data[] = { 0,0,0,0, 0,0,0,0 }; Pixmap pixmap_no_data = XCreateBitmapFromData (_dpy, _win, bm_no_data, 8, 8); XColor black; memset(&black, 0, sizeof (XColor)); black.flags = DoRed | DoGreen | DoBlue; _cursor = XCreatePixmapCursor (_dpy, pixmap_no_data, pixmap_no_data, &black, &black, 0, 0); XFreePixmap(_dpy, pixmap_no_data); } XDefineCursor(_dpy, _win, _cursor); } #endif // NL_OS_UNIX } // -------------------------------------------------- void CDriverGL::setMousePos(float x, float y) { H_AUTO_OGL(CDriverGL_setMousePos) #ifdef NL_OS_WINDOWS if (_win) { // NeL window coordinate to MSWindows coordinates POINT pt; pt.x = (sint)((float)(_WindowWidth)*x); pt.y = (sint)((float)(_WindowHeight)*(1.0f-y)); ClientToScreen (_win, &pt); SetCursorPos(pt.x, pt.y); } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) NL3D::MAC::setMousePos(_win, x, y); #elif defined (NL_OS_UNIX) XWindowAttributes xwa; XGetWindowAttributes (_dpy, _win, &xwa); int x1 = (int)(x * (float) xwa.width); int y1 = (int)((1.0f - y) * (float) xwa.height); XWarpPointer (_dpy, None, _win, None, None, None, None, x1, y1); #endif // NL_OS_UNIX } void CDriverGL::getWindowSize(uint32 &width, uint32 &height) { H_AUTO_OGL(CDriverGL_getWindowSize) #ifdef NL_OS_WINDOWS // Off-screen rendering ? if (_OffScreen) { if (_PBuffer) { nwglQueryPbufferARB( _PBuffer, WGL_PBUFFER_WIDTH_ARB, (int*)&width ); nwglQueryPbufferARB( _PBuffer, WGL_PBUFFER_HEIGHT_ARB, (int*)&height ); } } else { if (_win) { width = (uint32)_WindowWidth; height = (uint32)_WindowHeight; } } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) NL3D::MAC::getWindowSize(_win, width, height); #elif defined (NL_OS_UNIX) XWindowAttributes xwa; XGetWindowAttributes (_dpy, _win, &xwa); width = (uint32) xwa.width; height = (uint32) xwa.height; #endif // NL_OS_UNIX } void CDriverGL::setWindowSize(uint32 width, uint32 height) { H_AUTO_OGL(CDriverGL_setWindowSize) #if defined(NL_OS_WINDOWS) // resize the window RECT rc; SetRect (&rc, 0, 0, width, height); AdjustWindowRectEx(&rc, GetWindowStyle(_win), GetMenu(_win) != NULL, GetWindowExStyle(_win)); UINT flags = SWP_NOZORDER | SWP_NOACTIVATE; // set position to (0, 0) if fullscreen if (!_FullScreen) flags |= SWP_NOMOVE; SetWindowPos(_win, NULL, 0, 0, rc.right - rc.left, rc.bottom - rc.top, flags); // init window width and height RECT clientRect; GetClientRect(_win, &clientRect); _WindowWidth = clientRect.right-clientRect.left; _WindowHeight = clientRect.bottom-clientRect.top; GetWindowRect(_win, &clientRect); _WindowX = clientRect.left; _WindowY = clientRect.top; #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) NL3D::MAC::setWindowSize(_win, width, height); #elif defined(NL_OS_UNIX) // Update WM hints (update size and allow resizing) XSizeHints size_hints; size_hints.width = width; size_hints.height = height; size_hints.flags = PSize; if (!_Resizable) { size_hints.flags |= PMinSize | PMaxSize; size_hints.min_width = width; size_hints.min_height = height; size_hints.max_width = width; size_hints.max_height = height; } XSetWMNormalHints(_dpy, _win, &size_hints); // resize the window XResizeWindow(_dpy, _win, width, height); _WindowWidth = width; _WindowHeight = height; #endif // NL_OS_WINDOWS } void CDriverGL::getWindowPos(sint32 &x, sint32 &y) { H_AUTO_OGL(CDriverGL_getWindowPos) #ifdef NL_OS_WINDOWS // Off-screen rendering ? if (_OffScreen) { if (_PBuffer) { x = y = 0; } } else { if (_win) { x = _WindowX; y = _WindowY; } } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) NL3D::MAC::getWindowPos(_win, x, y); #elif defined (NL_OS_UNIX) int screen = DefaultScreen(_dpy); #if 0 // Display size is a member of display structure int display_width = DisplayWidth(_dpy, screen); int display_height = DisplayHeight(_dpy, screen); #endif int xtmp = 0, ytmp = 0; unsigned int width = 0, height = 0; unsigned int border_width = 0; unsigned int depth = 0; // Get geometry information about root window if (!XGetGeometry(_dpy, RootWindow(_dpy, screen), (Window*)&_win, &xtmp, &ytmp, &width, &height, &border_width, &depth)) { nlwarning("can't get root window geometry"); } x = xtmp; y = ytmp; #endif // NL_OS_UNIX } // -------------------------------------------------- bool CDriverGL::isActive() { H_AUTO_OGL(CDriverGL_isActive) bool res = true; #ifdef NL_OS_WINDOWS res = (IsWindow(_win) != FALSE); #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) # warning "OpenGL Driver: Missing Mac Implementation" // nlwarning("OpenGL Driver: Missing Mac Implementation"); #elif defined (NL_OS_UNIX) #endif // NL_OS_UNIX return res; } void CDriverGL::setCapture (bool b) { H_AUTO_OGL(CDriverGL_setCapture ) #ifdef NL_OS_WINDOWS if (b) { RECT client; GetClientRect (_win, &client); POINT pt1,pt2; pt1.x = client.left; pt1.y = client.top; ClientToScreen (_win, &pt1); pt2.x = client.right; pt2.y = client.bottom; ClientToScreen (_win, &pt2); client.bottom = pt2.y; client.top = pt1.y; client.left = pt1.x; client.right = pt2.x; ClipCursor (&client); } else ClipCursor (NULL); /* if (b) SetCapture (_hWnd); else ReleaseCapture (); */ #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) NL3D::MAC::setCapture(b); #elif defined (NL_OS_UNIX) /* TODO x11 funtion: setCapture */ if(b) // capture the cursor. { XGrabPointer(_dpy, _win, True, 0, GrabModeAsync, GrabModeAsync, _win, None, CurrentTime); } else // release the cursor. { XUngrabPointer(_dpy, CurrentTime); } #endif // NL_OS_UNIX } // *************************************************************************** NLMISC::IMouseDevice* CDriverGL::enableLowLevelMouse(bool enable, bool exclusive) { H_AUTO_OGL(CDriverGL_enableLowLevelMouse) NLMISC::IMouseDevice *res = NULL; #ifdef NL_OS_WINDOWS NLMISC::CDIEventEmitter *diee = NULL; if (_EventEmitter.getNumEmitters() > 1) diee = NLMISC::safe_cast(_EventEmitter.getEmitter(1)); if (enable) { try { if (diee) res = diee->getMouseDevice(exclusive); } catch (EDirectInput &) { } } else { if (diee) diee->releaseMouse(); } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) # warning "OpenGL Driver: Missing Mac Implementation" nlwarning("OpenGL Driver: Missing Mac Implementation"); #elif defined (NL_OS_UNIX) #endif return res; } // *************************************************************************** NLMISC::IKeyboardDevice* CDriverGL::enableLowLevelKeyboard(bool enable) { H_AUTO_OGL(CDriverGL_enableLowLevelKeyboard) NLMISC::IKeyboardDevice *res = NULL; #ifdef NL_OS_WINDOWS NLMISC::CDIEventEmitter *diee = NULL; if (_EventEmitter.getNumEmitters() > 1) diee = NLMISC::safe_cast(_EventEmitter.getEmitter(1)); if (enable) { try { if (diee) res = diee->getKeyboardDevice(); } catch (EDirectInput &) { } } else { if (diee) diee->releaseKeyboard(); } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) # warning "OpenGL Driver: Missing Mac Implementation" nlwarning("OpenGL Driver: Missing Mac Implementation"); #elif defined (NL_OS_UNIX) #endif return res; } // *************************************************************************** NLMISC::IInputDeviceManager* CDriverGL::getLowLevelInputDeviceManager() { H_AUTO_OGL(CDriverGL_getLowLevelInputDeviceManager) NLMISC::IInputDeviceManager *res = NULL; #ifdef NL_OS_WINDOWS if (_EventEmitter.getNumEmitters() > 1) res = NLMISC::safe_cast(_EventEmitter.getEmitter(1)); #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) # warning "OpenGL Driver: Missing Mac Implementation" nlwarning("OpenGL Driver: Missing Mac Implementation"); #elif defined (NL_OS_UNIX) #endif return res; } // *************************************************************************** uint CDriverGL::getDoubleClickDelay(bool hardwareMouse) { H_AUTO_OGL(CDriverGL_getDoubleClickDelay) uint res = 250; #ifdef NL_OS_WINDOWS NLMISC::IMouseDevice *md = NULL; if (_EventEmitter.getNumEmitters() >= 2) { NLMISC::CDIEventEmitter *diee = NLMISC::safe_cast(_EventEmitter.getEmitter(1)); if (diee->isMouseCreated()) { try { md = diee->getMouseDevice(hardwareMouse); } catch (EDirectInput &) { // could not get device .. } } } if (md) { res = md->getDoubleClickDelay(); } else { // try to read the good value from windows res = ::GetDoubleClickTime(); } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) # warning "OpenGL Driver: Missing Mac Implementation" nlwarning("OpenGL Driver: Missing Mac Implementation"); #elif defined (NL_OS_UNIX) // TODO for Linux #endif return res; } // *************************************************************************** bool CDriverGL::setMonitorColorProperties (const CMonitorColorProperties &properties) { H_AUTO_OGL(CDriverGL_setMonitorColorProperties ) #ifdef NL_OS_WINDOWS // Get a DC HDC dc = CreateDC ("DISPLAY", NULL, NULL, NULL); if (dc) { // The ramp WORD ramp[256*3]; // For each composant uint c; for( c=0; c<3; c++ ) { uint i; for( i=0; i<256; i++ ) { // Floating value float value = (float)i / 256; // Contrast value = (float) max (0.0f, (value-0.5f) * (float) pow (3.f, properties.Contrast[c]) + 0.5f ); // Gamma value = (float) pow (value, (properties.Gamma[c]>0) ? 1 - 3 * properties.Gamma[c] / 4 : 1 - properties.Gamma[c] ); // Luminosity value = value + properties.Luminosity[c] / 2.f; ramp[i+(c<<8)] = (WORD)min ((int)65535, max (0, (int)(value * 65535))); } } // Set the ramp bool result = SetDeviceGammaRamp (dc, ramp) != FALSE; // Release the DC ReleaseDC (NULL, dc); // Returns result return result; } else { nlwarning ("(CDriverGL::setMonitorColorProperties): can't create DC"); } #elif defined(NL_OS_MAC) && defined(NL_MAC_NATIVE) # warning "OpenGL Driver: Missing Mac Implementation" nlwarning("OpenGL Driver: Missing Mac Implementation"); #elif defined (NL_OS_UNIX) // TODO for Linux: implement CDriverGL::setMonitorColorProperties nlwarning ("CDriverGL::setMonitorColorProperties not implemented"); #endif return false; } } // NL3D