doom3-bfg/neo/sys/win32/win_glimp.cpp

/*
===========================================================================

Doom 3 BFG Edition GPL Source Code
Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company. 

This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code").  

Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

Doom 3 BFG Edition Source Code is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with Doom 3 BFG Edition Source Code.  If not, see <http://www.gnu.org/licenses/>.

In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code.  If not, please request a copy in writing from id Software at the address below.

If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.

===========================================================================
*/
/*
** WIN_GLIMP.C
**
** This file contains ALL Win32 specific stuff having to do with the
** OpenGL refresh.  When a port is being made the following functions
** must be implemented by the port:
**
** GLimp_SwapBuffers
** GLimp_Init
** GLimp_Shutdown
** GLimp_SetGamma
**
** Note that the GLW_xxx functions are Windows specific GL-subsystem
** related functions that are relevant ONLY to win_glimp.c
*/
#pragma hdrstop
#include "../../idlib/precompiled.h"

#include "win_local.h"
#include "rc/doom_resource.h"
#include "../../renderer/tr_local.h"

// WGL_ARB_extensions_string
PFNWGLGETEXTENSIONSSTRINGARBPROC		wglGetExtensionsStringARB;

// WGL_EXT_swap_interval
PFNWGLSWAPINTERVALEXTPROC				wglSwapIntervalEXT;

// WGL_ARB_pixel_format
PFNWGLGETPIXELFORMATATTRIBIVARBPROC		wglGetPixelFormatAttribivARB;
PFNWGLGETPIXELFORMATATTRIBFVARBPROC		wglGetPixelFormatAttribfvARB;
PFNWGLCHOOSEPIXELFORMATARBPROC			wglChoosePixelFormatARB;

// WGL_ARB_create_context
PFNWGLCREATECONTEXTATTRIBSARBPROC		wglCreateContextAttribsARB;


idCVar r_useOpenGL32( "r_useOpenGL32", "1", CVAR_INTEGER, "0 = OpenGL 2.0, 1 = OpenGL 3.2 compatibility profile, 2 = OpenGL 3.2 core profile", 0, 2 );

//
// function declaration
//
bool QGL_Init( const char *dllname );
void QGL_Shutdown();


/*
========================
GLimp_TestSwapBuffers
========================
*/
void GLimp_TestSwapBuffers( const idCmdArgs &args ) {
	idLib::Printf( "GLimp_TimeSwapBuffers\n" );
	static const int MAX_FRAMES = 5;
	uint64	timestamps[MAX_FRAMES];
	qglDisable( GL_SCISSOR_TEST );

	int frameMilliseconds = 16;
	for ( int swapInterval = 2 ; swapInterval >= -1 ; swapInterval-- ) {
		wglSwapIntervalEXT( swapInterval );
		for ( int i = 0 ; i < MAX_FRAMES ; i++ ) {
			if ( swapInterval == -1 ) {
				Sys_Sleep( frameMilliseconds );
			}
			if ( i & 1 ) {
				qglClearColor( 0, 1, 0, 1 );
			} else {
				qglClearColor( 1, 0, 0, 1 );
			}
			qglClear( GL_COLOR_BUFFER_BIT );
			qwglSwapBuffers( win32.hDC );
			qglFinish();
			timestamps[i] = Sys_Microseconds();
		}

		idLib::Printf( "\nswapinterval %i\n", swapInterval );
		for ( int i = 1 ; i < MAX_FRAMES ; i++ ) {
			idLib::Printf( "%i microseconds\n", (int)(timestamps[i] - timestamps[i-1]) );
		}
	}
}

/*
========================
GLimp_GetOldGammaRamp
========================
*/
static void GLimp_SaveGamma() {
	HDC			hDC;
	BOOL		success;

	hDC = GetDC( GetDesktopWindow() );
	success = GetDeviceGammaRamp( hDC, win32.oldHardwareGamma );
	common->DPrintf( "...getting default gamma ramp: %s\n", success ? "success" : "failed" );
	ReleaseDC( GetDesktopWindow(), hDC );
}

/*
========================
GLimp_RestoreGamma
========================
*/
static void GLimp_RestoreGamma() {
	HDC hDC;
	BOOL success;

	// if we never read in a reasonable looking
	// table, don't write it out
	if ( win32.oldHardwareGamma[0][255] == 0 ) {
		return;
	}

	hDC = GetDC( GetDesktopWindow() );
	success = SetDeviceGammaRamp( hDC, win32.oldHardwareGamma );
	common->DPrintf ( "...restoring hardware gamma: %s\n", success ? "success" : "failed" );
	ReleaseDC( GetDesktopWindow(), hDC );
}


/*
========================
GLimp_SetGamma

The renderer calls this when the user adjusts r_gamma or r_brightness
========================
*/
void GLimp_SetGamma( unsigned short red[256], unsigned short green[256], unsigned short blue[256] ) {
	unsigned short table[3][256];
	int i;

	if ( !win32.hDC ) {
		return;
	}

	for ( i = 0; i < 256; i++ ) {
		table[0][i] = red[i];
		table[1][i] = green[i];
		table[2][i] = blue[i];
	}

	if ( !SetDeviceGammaRamp( win32.hDC, table ) ) {
		common->Printf( "WARNING: SetDeviceGammaRamp failed.\n" );
	}
}

/*
=============================================================================

WglExtension Grabbing

This is gross -- creating a window just to get a context to get the wgl extensions

=============================================================================
*/

/*
========================
R_CheckWinExtension
========================
*/
bool R_CheckWinExtension( const char * name ) {

	if ( !strstr( glConfig.wgl_extensions_string, name ) ) {
		idLib::Printf( "X..%s not found\n", name );
		return false;
	}

	idLib::Printf( "...using %s\n", name );
	return true;
}


/*
====================
FakeWndProc

Only used to get wglExtensions
====================
*/
LONG WINAPI FakeWndProc (
    HWND    hWnd,
    UINT    uMsg,
    WPARAM  wParam,
    LPARAM  lParam) {

	if ( uMsg == WM_DESTROY ) {
        PostQuitMessage(0);
	}

	if ( uMsg != WM_CREATE ) {
	    return DefWindowProc(hWnd, uMsg, wParam, lParam);
	}

	const static PIXELFORMATDESCRIPTOR pfd = {
		sizeof(PIXELFORMATDESCRIPTOR),
		1,
		PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL | PFD_DOUBLEBUFFER,
		PFD_TYPE_RGBA,
		24,
		0, 0, 0, 0, 0, 0,
		8, 0,
		0, 0, 0, 0,
		24, 8,
		0,
		PFD_MAIN_PLANE,
		0,
		0,
		0,
		0,
	};
	int		pixelFormat;
	HDC hDC;
	HGLRC hGLRC;

    hDC = GetDC(hWnd);

    // Set up OpenGL
    pixelFormat = ChoosePixelFormat(hDC, &pfd);
    SetPixelFormat(hDC, pixelFormat, &pfd);
    hGLRC = qwglCreateContext(hDC);
    qwglMakeCurrent(hDC, hGLRC);

	// free things
    wglMakeCurrent(NULL, NULL);
    wglDeleteContext(hGLRC);
    ReleaseDC(hWnd, hDC);

    return DefWindowProc(hWnd, uMsg, wParam, lParam);
}


/*
==================
GLW_GetWGLExtensionsWithFakeWindow
==================
*/
void GLW_CheckWGLExtensions( HDC hDC ) {
	wglGetExtensionsStringARB = (PFNWGLGETEXTENSIONSSTRINGARBPROC)
							  GLimp_ExtensionPointer("wglGetExtensionsStringARB");
	if ( wglGetExtensionsStringARB ) {
		glConfig.wgl_extensions_string = (const char *) wglGetExtensionsStringARB(hDC);
	} else {
		glConfig.wgl_extensions_string = "";
	}

	// WGL_EXT_swap_control
	wglSwapIntervalEXT = (PFNWGLSWAPINTERVALEXTPROC) GLimp_ExtensionPointer( "wglSwapIntervalEXT" );
	r_swapInterval.SetModified();	// force a set next frame

	// WGL_EXT_swap_control_tear
	glConfig.swapControlTearAvailable = R_CheckWinExtension( "WGL_EXT_swap_control_tear" );

	// WGL_ARB_pixel_format
	wglGetPixelFormatAttribivARB = (PFNWGLGETPIXELFORMATATTRIBIVARBPROC)GLimp_ExtensionPointer("wglGetPixelFormatAttribivARB");
	wglGetPixelFormatAttribfvARB = (PFNWGLGETPIXELFORMATATTRIBFVARBPROC)GLimp_ExtensionPointer("wglGetPixelFormatAttribfvARB");
	wglChoosePixelFormatARB = (PFNWGLCHOOSEPIXELFORMATARBPROC)GLimp_ExtensionPointer("wglChoosePixelFormatARB");

	// wglCreateContextAttribsARB
	wglCreateContextAttribsARB = (PFNWGLCREATECONTEXTATTRIBSARBPROC)wglGetProcAddress( "wglCreateContextAttribsARB" );
}

/*
==================
GLW_GetWGLExtensionsWithFakeWindow
==================
*/
static void GLW_GetWGLExtensionsWithFakeWindow() {
	HWND	hWnd;
    MSG		msg;

    // Create a window for the sole purpose of getting
	// a valid context to get the wglextensions
    hWnd = CreateWindow(WIN32_FAKE_WINDOW_CLASS_NAME, GAME_NAME,
        WS_OVERLAPPEDWINDOW,
        40, 40,
        640,
        480,
        NULL, NULL, win32.hInstance, NULL );
    if ( !hWnd ) {
        common->FatalError( "GLW_GetWGLExtensionsWithFakeWindow: Couldn't create fake window" );
    }

    HDC hDC = GetDC( hWnd );
	HGLRC gRC = wglCreateContext( hDC );
	wglMakeCurrent( hDC, gRC );
	GLW_CheckWGLExtensions( hDC );
	wglDeleteContext( gRC );
	ReleaseDC( hWnd, hDC );

    DestroyWindow( hWnd );
    while ( GetMessage( &msg, NULL, 0, 0 ) ) {
        TranslateMessage( &msg );
        DispatchMessage( &msg );
    }
}

//=============================================================================

/*
====================
GLW_WM_CREATE
====================
*/
void GLW_WM_CREATE( HWND hWnd ) {
}

/*
========================
CreateOpenGLContextOnDC
========================
*/
static HGLRC CreateOpenGLContextOnDC( const HDC hdc, const bool debugContext ) {
	int useOpenGL32 = r_useOpenGL32.GetInteger();
	HGLRC m_hrc = NULL;

	for ( int i = 0; i < 2; i++ ) {
		const int glMajorVersion = ( useOpenGL32 != 0 ) ? 3 : 2;
		const int glMinorVersion = ( useOpenGL32 != 0 ) ? 2 : 0;
		const int glDebugFlag = debugContext ? WGL_CONTEXT_DEBUG_BIT_ARB : 0;
		const int glProfileMask = ( useOpenGL32 != 0 ) ? WGL_CONTEXT_PROFILE_MASK_ARB : 0;
		const int glProfile = ( useOpenGL32 == 1 ) ? WGL_CONTEXT_COMPATIBILITY_PROFILE_BIT_ARB : ( ( useOpenGL32 == 2 ) ? WGL_CONTEXT_CORE_PROFILE_BIT_ARB : 0 );
		const int attribs[] =
		{
			WGL_CONTEXT_MAJOR_VERSION_ARB,	glMajorVersion,
			WGL_CONTEXT_MINOR_VERSION_ARB,	glMinorVersion,
			WGL_CONTEXT_FLAGS_ARB,			glDebugFlag,
			glProfileMask,					glProfile,
			0
		};

		m_hrc = wglCreateContextAttribsARB( hdc, 0, attribs );
		if ( m_hrc != NULL ) {
			idLib::Printf( "created OpenGL %d.%d context\n", glMajorVersion, glMinorVersion );
			break;
		}

		idLib::Printf( "failed to create OpenGL %d.%d context\n", glMajorVersion, glMinorVersion );
		useOpenGL32 = 0;	// fall back to OpenGL 2.0
	}

	if ( m_hrc == NULL ) {
		int	err = GetLastError();
		switch( err ) {
			case ERROR_INVALID_VERSION_ARB: idLib::Printf( "ERROR_INVALID_VERSION_ARB\n" ); break;
			case ERROR_INVALID_PROFILE_ARB: idLib::Printf( "ERROR_INVALID_PROFILE_ARB\n" ); break;
			default: idLib::Printf( "unknown error: 0x%x\n", err ); break;
		}
	}

	return m_hrc;
}

/*
====================
GLW_ChoosePixelFormat

Returns -1 on failure, or a pixel format
====================
*/
static int GLW_ChoosePixelFormat( const HDC hdc, const int multisamples, const bool stereo3D ) {
	FLOAT	fAttributes[] = { 0, 0 };
	int		iAttributes[] = {
		WGL_SAMPLE_BUFFERS_ARB, ( ( multisamples > 1 ) ? 1 : 0 ),
		WGL_SAMPLES_ARB, multisamples,
		WGL_DOUBLE_BUFFER_ARB, TRUE,
		WGL_STENCIL_BITS_ARB, 8,
		WGL_DEPTH_BITS_ARB, 24,
		WGL_RED_BITS_ARB, 8,
		WGL_BLUE_BITS_ARB, 8,
		WGL_GREEN_BITS_ARB, 8,
		WGL_ALPHA_BITS_ARB, 8,
		WGL_STEREO_ARB, ( stereo3D ? TRUE : FALSE ),
		0, 0
	};

	int	pixelFormat;
	UINT numFormats;
	if ( !wglChoosePixelFormatARB( hdc, iAttributes, fAttributes, 1, &pixelFormat, &numFormats ) ) {
		return -1;
	}
	return pixelFormat;
}


/*
====================
GLW_InitDriver

Set the pixelformat for the window before it is
shown, and create the rendering context
====================
*/
static bool GLW_InitDriver( glimpParms_t parms ) {
    PIXELFORMATDESCRIPTOR src = 
	{
		sizeof(PIXELFORMATDESCRIPTOR),	// size of this pfd
		1,								// version number
		PFD_DRAW_TO_WINDOW |			// support window
		PFD_SUPPORT_OPENGL |			// support OpenGL
		PFD_DOUBLEBUFFER,				// double buffered
		PFD_TYPE_RGBA,					// RGBA type
		32,								// 32-bit color depth
		0, 0, 0, 0, 0, 0,				// color bits ignored
		8,								// 8 bit destination alpha
		0,								// shift bit ignored
		0,								// no accumulation buffer
		0, 0, 0, 0, 					// accum bits ignored
		24,								// 24-bit z-buffer	
		8,								// 8-bit stencil buffer
		0,								// no auxiliary buffer
		PFD_MAIN_PLANE,					// main layer
		0,								// reserved
		0, 0, 0							// layer masks ignored
    };

	common->Printf( "Initializing OpenGL driver\n" );

	//
	// get a DC for our window if we don't already have one allocated
	//
	if ( win32.hDC == NULL ) {
		common->Printf( "...getting DC: " );

		if ( ( win32.hDC = GetDC( win32.hWnd ) ) == NULL ) {
			common->Printf( "^3failed^0\n" );
			return false;
		}
		common->Printf( "succeeded\n" );
	}

	// the multisample path uses the wgl 
	if ( wglChoosePixelFormatARB ) {
		win32.pixelformat = GLW_ChoosePixelFormat( win32.hDC, parms.multiSamples, parms.stereo );
	} else {
		// this is the "classic" choose pixel format path
		common->Printf( "Using classic ChoosePixelFormat\n" );

		// eventually we may need to have more fallbacks, but for
		// now, ask for everything
		if ( parms.stereo ) {
			common->Printf( "...attempting to use stereo\n" );
			src.dwFlags |= PFD_STEREO;
		}

		//
		// choose, set, and describe our desired pixel format.  If we're
		// using a minidriver then we need to bypass the GDI functions,
		// otherwise use the GDI functions.
		//
		if ( ( win32.pixelformat = ChoosePixelFormat( win32.hDC, &src ) ) == 0 ) {
			common->Printf( "...^3GLW_ChoosePFD failed^0\n");
			return false;
		}
		common->Printf( "...PIXELFORMAT %d selected\n", win32.pixelformat );
	}

	// get the full info
	DescribePixelFormat( win32.hDC, win32.pixelformat, sizeof( win32.pfd ), &win32.pfd );
	glConfig.colorBits = win32.pfd.cColorBits;
	glConfig.depthBits = win32.pfd.cDepthBits;
	glConfig.stencilBits = win32.pfd.cStencilBits;

	// XP seems to set this incorrectly
	if ( !glConfig.stencilBits ) {
		glConfig.stencilBits = 8;
	}

	// the same SetPixelFormat is used either way
	if ( SetPixelFormat( win32.hDC, win32.pixelformat, &win32.pfd ) == FALSE ) {
		common->Printf( "...^3SetPixelFormat failed^0\n", win32.hDC );
		return false;
	}

	//
	// startup the OpenGL subsystem by creating a context and making it current
	//
	common->Printf( "...creating GL context: " );
	win32.hGLRC = CreateOpenGLContextOnDC( win32.hDC, r_debugContext.GetBool() );
	if ( win32.hGLRC == 0 ) {
		common->Printf( "^3failed^0\n" );
		return false;
	}
	common->Printf( "succeeded\n" );

	common->Printf( "...making context current: " );
	if ( !qwglMakeCurrent( win32.hDC, win32.hGLRC ) ) {
		qwglDeleteContext( win32.hGLRC );
		win32.hGLRC = NULL;
		common->Printf( "^3failed^0\n" );
		return false;
	}
	common->Printf( "succeeded\n" );

	return true;
}

/*
====================
GLW_CreateWindowClasses
====================
*/
static void GLW_CreateWindowClasses() {
	WNDCLASS wc;

	//
	// register the window class if necessary
	//
	if ( win32.windowClassRegistered ) {
		return;
	}

	memset( &wc, 0, sizeof( wc ) );

	wc.style         = 0;
	wc.lpfnWndProc   = (WNDPROC) MainWndProc;
	wc.cbClsExtra    = 0;
	wc.cbWndExtra    = 0;
	wc.hInstance     = win32.hInstance;
	wc.hIcon         = LoadIcon( win32.hInstance, MAKEINTRESOURCE(IDI_ICON1));
	wc.hCursor       = NULL;
	wc.hbrBackground = (struct HBRUSH__ *)COLOR_GRAYTEXT;
	wc.lpszMenuName  = 0;
	wc.lpszClassName = WIN32_WINDOW_CLASS_NAME;

	if ( !RegisterClass( &wc ) ) {
		common->FatalError( "GLW_CreateWindow: could not register window class" );
	}
	common->Printf( "...registered window class\n" );

	// now register the fake window class that is only used
	// to get wgl extensions
	wc.style         = 0;
	wc.lpfnWndProc   = (WNDPROC) FakeWndProc;
	wc.cbClsExtra    = 0;
	wc.cbWndExtra    = 0;
	wc.hInstance     = win32.hInstance;
	wc.hIcon         = LoadIcon( win32.hInstance, MAKEINTRESOURCE(IDI_ICON1));
	wc.hCursor       = LoadCursor (NULL,IDC_ARROW);
	wc.hbrBackground = (struct HBRUSH__ *)COLOR_GRAYTEXT;
	wc.lpszMenuName  = 0;
	wc.lpszClassName = WIN32_FAKE_WINDOW_CLASS_NAME;

	if ( !RegisterClass( &wc ) ) {
		common->FatalError( "GLW_CreateWindow: could not register window class" );
	}
	common->Printf( "...registered fake window class\n" );

	win32.windowClassRegistered = true;
}

/*
========================
GetDisplayName
========================
*/
static const char * GetDisplayName( const int deviceNum ) {
	static DISPLAY_DEVICE	device;
	device.cb = sizeof( device );
	if ( !EnumDisplayDevices(
			0,			// lpDevice
			deviceNum,
			&device,
			0 /* dwFlags */ ) ) {
		return NULL;
	}
	return device.DeviceName;
}

/*
========================
GetDeviceName
========================
*/
static idStr GetDeviceName( const int deviceNum ) {
	DISPLAY_DEVICE	device = {};
	device.cb = sizeof( device );
	if ( !EnumDisplayDevices(
			0,			// lpDevice
			deviceNum,
			&device,
			0 /* dwFlags */ ) ) {
		return false;
	}

	// get the monitor for this display
	if ( ! (device.StateFlags & DISPLAY_DEVICE_ATTACHED_TO_DESKTOP ) ) {
		return false;
	}

	return idStr( device.DeviceName );
}

/*
========================
GetDisplayCoordinates
========================
*/
static bool GetDisplayCoordinates( const int deviceNum, int & x, int & y, int & width, int & height, int & displayHz ) {
	idStr deviceName = GetDeviceName( deviceNum );
	if ( deviceName.Length() == 0 ) {
		return false;
	}

	DISPLAY_DEVICE	device = {};
	device.cb = sizeof( device );
	if ( !EnumDisplayDevices(
			0,			// lpDevice
			deviceNum,
			&device,
			0 /* dwFlags */ ) ) {
		return false;
	}

	DISPLAY_DEVICE	monitor;
	monitor.cb = sizeof( monitor );
	if ( !EnumDisplayDevices(
			deviceName.c_str(),
			0,
			&monitor,
			0 /* dwFlags */ ) ) {
		return false;
	}

	DEVMODE	devmode;
	devmode.dmSize = sizeof( devmode );
	if ( !EnumDisplaySettings( deviceName.c_str(),ENUM_CURRENT_SETTINGS, &devmode ) ) {
		return false;
	}

	common->Printf( "display device: %i\n", deviceNum );
	common->Printf( "  DeviceName  : %s\n", device.DeviceName );
	common->Printf( "  DeviceString: %s\n", device.DeviceString );
	common->Printf( "  StateFlags  : 0x%x\n", device.StateFlags );
	common->Printf( "  DeviceID    : %s\n", device.DeviceID );
	common->Printf( "  DeviceKey   : %s\n", device.DeviceKey );
	common->Printf( "      DeviceName  : %s\n", monitor.DeviceName );
	common->Printf( "      DeviceString: %s\n", monitor.DeviceString );
	common->Printf( "      StateFlags  : 0x%x\n", monitor.StateFlags );
	common->Printf( "      DeviceID    : %s\n", monitor.DeviceID );
	common->Printf( "      DeviceKey   : %s\n", monitor.DeviceKey );
	common->Printf( "          dmPosition.x      : %i\n", devmode.dmPosition.x );
	common->Printf( "          dmPosition.y      : %i\n", devmode.dmPosition.y );
	common->Printf( "          dmBitsPerPel      : %i\n", devmode.dmBitsPerPel );
	common->Printf( "          dmPelsWidth       : %i\n", devmode.dmPelsWidth );
	common->Printf( "          dmPelsHeight      : %i\n", devmode.dmPelsHeight );
	common->Printf( "          dmDisplayFlags    : 0x%x\n", devmode.dmDisplayFlags );
	common->Printf( "          dmDisplayFrequency: %i\n", devmode.dmDisplayFrequency );

	x = devmode.dmPosition.x;
	y = devmode.dmPosition.y;
	width = devmode.dmPelsWidth;
	height = devmode.dmPelsHeight;
	displayHz = devmode.dmDisplayFrequency;

	return true;
}

/*
====================
DMDFO
====================
*/
static const char * DMDFO( int dmDisplayFixedOutput ) {
	switch( dmDisplayFixedOutput ) {
	case DMDFO_DEFAULT: return "DMDFO_DEFAULT";
	case DMDFO_CENTER: return "DMDFO_CENTER";
	case DMDFO_STRETCH: return "DMDFO_STRETCH";
	}
	return "UNKNOWN";
}

/*
====================
PrintDevMode
====================
*/
static void PrintDevMode( DEVMODE & devmode ) {
	common->Printf( "          dmPosition.x        : %i\n", devmode.dmPosition.x );
	common->Printf( "          dmPosition.y        : %i\n", devmode.dmPosition.y );
	common->Printf( "          dmBitsPerPel        : %i\n", devmode.dmBitsPerPel );
	common->Printf( "          dmPelsWidth         : %i\n", devmode.dmPelsWidth );
	common->Printf( "          dmPelsHeight        : %i\n", devmode.dmPelsHeight );
	common->Printf( "          dmDisplayFixedOutput: %s\n", DMDFO( devmode.dmDisplayFixedOutput ) );
	common->Printf( "          dmDisplayFlags      : 0x%x\n", devmode.dmDisplayFlags );
	common->Printf( "          dmDisplayFrequency  : %i\n", devmode.dmDisplayFrequency );
}

/*
====================
DumpAllDisplayDevices
====================
*/
void DumpAllDisplayDevices() {
	common->Printf( "\n" );
	for ( int deviceNum = 0 ; ; deviceNum++ ) {
		DISPLAY_DEVICE	device = {};
		device.cb = sizeof( device );
		if ( !EnumDisplayDevices(
				0,			// lpDevice
				deviceNum,
				&device,
				0 /* dwFlags */ ) ) {
			break;
		}

		common->Printf( "display device: %i\n", deviceNum );
		common->Printf( "  DeviceName  : %s\n", device.DeviceName );
		common->Printf( "  DeviceString: %s\n", device.DeviceString );
		common->Printf( "  StateFlags  : 0x%x\n", device.StateFlags );
		common->Printf( "  DeviceID    : %s\n", device.DeviceID );
		common->Printf( "  DeviceKey   : %s\n", device.DeviceKey );

		for ( int monitorNum = 0 ; ; monitorNum++ ) {
			DISPLAY_DEVICE	monitor = {};
			monitor.cb = sizeof( monitor );
			if ( !EnumDisplayDevices(
					device.DeviceName,
					monitorNum,
					&monitor,
					0 /* dwFlags */ ) ) {
				break;
			}

			common->Printf( "      DeviceName  : %s\n", monitor.DeviceName );
			common->Printf( "      DeviceString: %s\n", monitor.DeviceString );
			common->Printf( "      StateFlags  : 0x%x\n", monitor.StateFlags );
			common->Printf( "      DeviceID    : %s\n", monitor.DeviceID );
			common->Printf( "      DeviceKey   : %s\n", monitor.DeviceKey );

			DEVMODE	currentDevmode = {};
			if ( !EnumDisplaySettings( device.DeviceName,ENUM_CURRENT_SETTINGS, &currentDevmode ) ) {
				common->Printf( "ERROR:  EnumDisplaySettings(ENUM_CURRENT_SETTINGS) failed!\n" );
			}
			common->Printf( "          -------------------\n" );
			common->Printf( "          ENUM_CURRENT_SETTINGS\n" );
			PrintDevMode( currentDevmode );

			DEVMODE	registryDevmode = {};
			if ( !EnumDisplaySettings( device.DeviceName,ENUM_REGISTRY_SETTINGS, &registryDevmode ) ) {
				common->Printf( "ERROR:  EnumDisplaySettings(ENUM_CURRENT_SETTINGS) failed!\n" );
			}
			common->Printf( "          -------------------\n" );
			common->Printf( "          ENUM_CURRENT_SETTINGS\n" );
			PrintDevMode( registryDevmode );

			for ( int modeNum = 0 ; ; modeNum++ ) {
				DEVMODE	devmode = {};

				if ( !EnumDisplaySettings( device.DeviceName,modeNum, &devmode ) ) {
					break;
				}

				if ( devmode.dmBitsPerPel != 32 ) {
					continue;
				}
				if ( devmode.dmDisplayFrequency < 60 ) {
					continue;
				}
				if ( devmode.dmPelsHeight < 720 ) {
					continue;
				}
				common->Printf( "          -------------------\n" );
				common->Printf( "          modeNum             : %i\n", modeNum );
				PrintDevMode( devmode );
			}
		}
	}
	common->Printf( "\n" );
}

/*
====================
R_GetModeListForDisplay
====================
*/
bool R_GetModeListForDisplay( const int requestedDisplayNum, idList<vidMode_t> & modeList ) {
	modeList.Clear();

	bool	verbose = false;

	for ( int displayNum = requestedDisplayNum; ; displayNum++ ) {
		DISPLAY_DEVICE	device;
		device.cb = sizeof( device );
		if ( !EnumDisplayDevices(
				0,			// lpDevice
				displayNum,
				&device,
				0 /* dwFlags */ ) ) {
			return false;
		}

		// get the monitor for this display
		if ( ! (device.StateFlags & DISPLAY_DEVICE_ATTACHED_TO_DESKTOP ) ) {
			continue;
		}

		DISPLAY_DEVICE	monitor;
		monitor.cb = sizeof( monitor );
		if ( !EnumDisplayDevices(
				device.DeviceName,
				0,
				&monitor,
				0 /* dwFlags */ ) ) {
			continue;
		}

		DEVMODE	devmode;
		devmode.dmSize = sizeof( devmode );

		if ( verbose ) {
			common->Printf( "display device: %i\n", displayNum );
			common->Printf( "  DeviceName  : %s\n", device.DeviceName );
			common->Printf( "  DeviceString: %s\n", device.DeviceString );
			common->Printf( "  StateFlags  : 0x%x\n", device.StateFlags );
			common->Printf( "  DeviceID    : %s\n", device.DeviceID );
			common->Printf( "  DeviceKey   : %s\n", device.DeviceKey );
			common->Printf( "      DeviceName  : %s\n", monitor.DeviceName );
			common->Printf( "      DeviceString: %s\n", monitor.DeviceString );
			common->Printf( "      StateFlags  : 0x%x\n", monitor.StateFlags );
			common->Printf( "      DeviceID    : %s\n", monitor.DeviceID );
			common->Printf( "      DeviceKey   : %s\n", monitor.DeviceKey );
		}

		for ( int modeNum = 0 ; ; modeNum++ ) {
			if ( !EnumDisplaySettings( device.DeviceName,modeNum, &devmode ) ) {
				break;
			}

			if ( devmode.dmBitsPerPel != 32 ) {
				continue;
			}
			if ( ( devmode.dmDisplayFrequency != 60 ) && ( devmode.dmDisplayFrequency != 120 ) ) {
				continue;
			}
			if ( devmode.dmPelsHeight < 720 ) {
				continue;
			}
			if ( verbose ) {
				common->Printf( "          -------------------\n" );
				common->Printf( "          modeNum             : %i\n", modeNum );
				common->Printf( "          dmPosition.x        : %i\n", devmode.dmPosition.x );
				common->Printf( "          dmPosition.y        : %i\n", devmode.dmPosition.y );
				common->Printf( "          dmBitsPerPel        : %i\n", devmode.dmBitsPerPel );
				common->Printf( "          dmPelsWidth         : %i\n", devmode.dmPelsWidth );
				common->Printf( "          dmPelsHeight        : %i\n", devmode.dmPelsHeight );
				common->Printf( "          dmDisplayFixedOutput: %s\n", DMDFO( devmode.dmDisplayFixedOutput ) );
				common->Printf( "          dmDisplayFlags      : 0x%x\n", devmode.dmDisplayFlags );
				common->Printf( "          dmDisplayFrequency  : %i\n", devmode.dmDisplayFrequency );
			}
			vidMode_t mode;
			mode.width = devmode.dmPelsWidth;
			mode.height = devmode.dmPelsHeight;
			mode.displayHz = devmode.dmDisplayFrequency;
			modeList.AddUnique( mode );
		}
		if ( modeList.Num() > 0 ) {

			class idSort_VidMode : public idSort_Quick< vidMode_t, idSort_VidMode > {
			public:
				int Compare( const vidMode_t & a, const vidMode_t & b ) const {
					int wd = a.width - b.width;
					int hd = a.height - b.height;
					int fd = a.displayHz - b.displayHz;
					return ( hd != 0 ) ? hd : ( wd != 0 ) ? wd : fd;
				}
			};

			// sort with lowest resolution first
			modeList.SortWithTemplate( idSort_VidMode() );

			return true;
		}
	}
	// Never gets here
}

/*
====================
GLW_GetWindowDimensions
====================
*/
static bool GLW_GetWindowDimensions( const glimpParms_t parms, int &x, int &y, int &w, int &h ) {
	//
	// compute width and height
	//
	if ( parms.fullScreen != 0 ) {
		if ( parms.fullScreen == -1 ) {
			// borderless window at specific location, as for spanning
			// multiple monitor outputs
			x = parms.x;
			y = parms.y;
			w = parms.width;
			h = parms.height;
		} else {
			// get the current monitor position and size on the desktop, assuming
			// any required ChangeDisplaySettings has already been done
			int displayHz = 0;
			if ( !GetDisplayCoordinates( parms.fullScreen - 1, x, y, w, h, displayHz ) ) {
				return false;
			}
		}
	} else {
		RECT	r;

		// adjust width and height for window border
		r.bottom = parms.height;
		r.left = 0;
		r.top = 0;
		r.right = parms.width;

		AdjustWindowRect (&r, WINDOW_STYLE|WS_SYSMENU, FALSE);

		w = r.right - r.left;
		h = r.bottom - r.top;

		x = parms.x;
		y = parms.y;
	}

	return true;
}


/*
=======================
GLW_CreateWindow

Responsible for creating the Win32 window.
If fullscreen, it won't have a border
=======================
*/
static bool GLW_CreateWindow( glimpParms_t parms ) {
	int				x, y, w, h;
	if ( !GLW_GetWindowDimensions( parms, x, y, w, h ) ) {
		return false;
	}

	int				stylebits;
	int				exstyle;
	if ( parms.fullScreen != 0 ) {
		exstyle = WS_EX_TOPMOST;
		stylebits = WS_POPUP|WS_VISIBLE|WS_SYSMENU;
	} else {
		exstyle = 0;
		stylebits = WINDOW_STYLE|WS_SYSMENU;
	}

	win32.hWnd = CreateWindowEx (
		 exstyle, 
		 WIN32_WINDOW_CLASS_NAME,
		 GAME_NAME,
		 stylebits,
		 x, y, w, h,
		 NULL,
		 NULL,
		 win32.hInstance,
		 NULL);

	if ( !win32.hWnd ) {
		common->Printf( "^3GLW_CreateWindow() - Couldn't create window^0\n" );
		return false;
	}

	::SetTimer( win32.hWnd, 0, 100, NULL );

	ShowWindow( win32.hWnd, SW_SHOW );
	UpdateWindow( win32.hWnd );
	common->Printf( "...created window @ %d,%d (%dx%d)\n", x, y, w, h );

	// makeCurrent NULL frees the DC, so get another
	win32.hDC = GetDC( win32.hWnd );
	if ( !win32.hDC ) {
		common->Printf( "^3GLW_CreateWindow() - GetDC()failed^0\n" );
		return false;
	}

	// Check to see if we can get a stereo pixel format, even if we aren't going to use it,
	// so the menu option can be 
	if ( GLW_ChoosePixelFormat( win32.hDC, parms.multiSamples, true ) != -1 ) {
		glConfig.stereoPixelFormatAvailable = true;
	} else {
		glConfig.stereoPixelFormatAvailable = false;
	}

	if ( !GLW_InitDriver( parms ) ) {
		ShowWindow( win32.hWnd, SW_HIDE );
		DestroyWindow( win32.hWnd );
		win32.hWnd = NULL;
		return false;
	}

	SetForegroundWindow( win32.hWnd );
	SetFocus( win32.hWnd );

	glConfig.isFullscreen = parms.fullScreen;

	return true;
}

/*
===================
PrintCDSError
===================
*/
static void PrintCDSError( int value ) {
	switch ( value ) {
	case DISP_CHANGE_RESTART:
		common->Printf( "restart required\n" );
		break;
	case DISP_CHANGE_BADPARAM:
		common->Printf( "bad param\n" );
		break;
	case DISP_CHANGE_BADFLAGS:
		common->Printf( "bad flags\n" );
		break;
	case DISP_CHANGE_FAILED:
		common->Printf( "DISP_CHANGE_FAILED\n" );
		break;
	case DISP_CHANGE_BADMODE:
		common->Printf( "bad mode\n" );
		break;
	case DISP_CHANGE_NOTUPDATED:
		common->Printf( "not updated\n" );
		break;
	default:
		common->Printf( "unknown error %d\n", value );
		break;
	}
}

/*
===================
GLW_ChangeDislaySettingsIfNeeded

Optionally ChangeDisplaySettings to get a different fullscreen resolution.
Default uses the full desktop resolution.
===================
*/
static bool GLW_ChangeDislaySettingsIfNeeded( glimpParms_t parms ) {
	// If we had previously changed the display settings on a different monitor,
	// go back to standard.
	if ( win32.cdsFullscreen != 0 && win32.cdsFullscreen != parms.fullScreen ) {
		win32.cdsFullscreen = 0;
		ChangeDisplaySettings( 0, 0 );
		Sys_Sleep( 1000 ); // Give the driver some time to think about this change
	}

	// 0 is dragable mode on desktop, -1 is borderless window on desktop
	if ( parms.fullScreen <= 0 ) {
		return true;
	}

	// if we are already in the right resolution, don't do a ChangeDisplaySettings
	int x, y, width, height, displayHz;

	if ( !GetDisplayCoordinates( parms.fullScreen - 1, x, y, width, height, displayHz ) ) {
		return false;
	}
	if ( width == parms.width && height == parms.height && ( displayHz == parms.displayHz || parms.displayHz == 0 ) ) {
		return true;
	}

	DEVMODE dm = {};

	dm.dmSize = sizeof( dm );

	dm.dmPelsWidth  = parms.width;
	dm.dmPelsHeight = parms.height;
	dm.dmBitsPerPel = 32;
	dm.dmFields     = DM_PELSWIDTH | DM_PELSHEIGHT | DM_BITSPERPEL;
	if ( parms.displayHz != 0 ) {
		dm.dmDisplayFrequency = parms.displayHz;
		dm.dmFields |= DM_DISPLAYFREQUENCY;
	}
	
	common->Printf( "...calling CDS: " );
	
	const char * const deviceName = GetDisplayName( parms.fullScreen - 1 );

	int		cdsRet;
	if ( ( cdsRet = ChangeDisplaySettingsEx(
		deviceName,
		&dm, 
		NULL,
		CDS_FULLSCREEN,
		NULL) ) == DISP_CHANGE_SUCCESSFUL ) {
		common->Printf( "ok\n" );
		win32.cdsFullscreen = parms.fullScreen;
		return true;
	}

	common->Printf( "^3failed^0, " );
	PrintCDSError( cdsRet );
	return false;
}

/*
===================
GLimp_Init

This is the platform specific OpenGL initialization function.  It
is responsible for loading OpenGL, initializing it,
creating a window of the appropriate size, doing
fullscreen manipulations, etc.  Its overall responsibility is
to make sure that a functional OpenGL subsystem is operating
when it returns to the ref.

If there is any failure, the renderer will revert back to safe
parameters and try again.
===================
*/
bool GLimp_Init( glimpParms_t parms ) {
	const char	*driverName;
	HDC		hDC;

	cmdSystem->AddCommand( "testSwapBuffers", GLimp_TestSwapBuffers, CMD_FL_SYSTEM, "Times swapbuffer options" );

	common->Printf( "Initializing OpenGL subsystem with multisamples:%i stereo:%i fullscreen:%i\n", 
		parms.multiSamples, parms.stereo, parms.fullScreen );

	// check our desktop attributes
	hDC = GetDC( GetDesktopWindow() );
	win32.desktopBitsPixel = GetDeviceCaps( hDC, BITSPIXEL );
	win32.desktopWidth = GetDeviceCaps( hDC, HORZRES );
	win32.desktopHeight = GetDeviceCaps( hDC, VERTRES );
	ReleaseDC( GetDesktopWindow(), hDC );

	// we can't run in a window unless it is 32 bpp
	if ( win32.desktopBitsPixel < 32 && parms.fullScreen <= 0 ) {
		common->Printf("^3Windowed mode requires 32 bit desktop depth^0\n");
		return false;
	}

	// save the hardware gamma so it can be
	// restored on exit
	GLimp_SaveGamma();

	// create our window classes if we haven't already
	GLW_CreateWindowClasses();

	// this will load the dll and set all our qgl* function pointers,
	// but doesn't create a window

	// r_glDriver is only intended for using instrumented OpenGL
	// dlls.  Normal users should never have to use it, and it is
	// not archived.
	driverName = r_glDriver.GetString()[0] ? r_glDriver.GetString() : "opengl32";
	if ( !QGL_Init( driverName ) ) {
		common->Printf( "^3GLimp_Init() could not load r_glDriver \"%s\"^0\n", driverName );
		return false;
	}

	// getting the wgl extensions involves creating a fake window to get a context,
	// which is pretty disgusting, and seems to mess with the AGP VAR allocation
	GLW_GetWGLExtensionsWithFakeWindow();



	// Optionally ChangeDisplaySettings to get a different fullscreen resolution.
	if ( !GLW_ChangeDislaySettingsIfNeeded( parms ) ) {
		GLimp_Shutdown();
		return false;
	}

	// try to create a window with the correct pixel format
	// and init the renderer context
	if ( !GLW_CreateWindow( parms ) ) {
		GLimp_Shutdown();
		return false;
	}

	glConfig.isFullscreen = parms.fullScreen;
	glConfig.isStereoPixelFormat = parms.stereo;
	glConfig.nativeScreenWidth = parms.width;
	glConfig.nativeScreenHeight = parms.height;
	glConfig.multisamples = parms.multiSamples;

	glConfig.pixelAspect = 1.0f;	// FIXME: some monitor modes may be distorted
									// should side-by-side stereo modes be consider aspect 0.5?

	// get the screen size, which may not be reliable...
	// If we use the windowDC, I get my 30" monitor, even though the window is
	// on a 27" monitor, so get a dedicated DC for the full screen device name.
	const idStr deviceName = GetDeviceName( Max( 0, parms.fullScreen - 1 ) );

	HDC deviceDC = CreateDC( deviceName.c_str(), deviceName.c_str(), NULL, NULL );
	const int mmWide = GetDeviceCaps( win32.hDC, HORZSIZE );
	DeleteDC( deviceDC );

	if ( mmWide == 0 ) {
		glConfig.physicalScreenWidthInCentimeters = 100.0f;
	} else {
		glConfig.physicalScreenWidthInCentimeters = 0.1f * mmWide;
	}


	// wglSwapinterval, etc
	GLW_CheckWGLExtensions( win32.hDC );

	// check logging
	GLimp_EnableLogging( ( r_logFile.GetInteger() != 0 ) );

	return true;
}

/*
===================
GLimp_SetScreenParms

Sets up the screen based on passed parms.. 
===================
*/
bool GLimp_SetScreenParms( glimpParms_t parms ) {
	// Optionally ChangeDisplaySettings to get a different fullscreen resolution.
	if ( !GLW_ChangeDislaySettingsIfNeeded( parms ) ) {
		return false;
	}

	int x, y, w, h;
	if ( !GLW_GetWindowDimensions( parms, x, y, w, h ) ) {
		return false;
	}

	int exstyle;
	int stylebits;

	if ( parms.fullScreen ) {
		exstyle = WS_EX_TOPMOST;
		stylebits = WS_POPUP|WS_VISIBLE|WS_SYSMENU;
	} else {
		exstyle = 0;
		stylebits = WINDOW_STYLE|WS_SYSMENU;
	}

	SetWindowLong( win32.hWnd, GWL_STYLE, stylebits );
	SetWindowLong( win32.hWnd, GWL_EXSTYLE, exstyle );
	SetWindowPos( win32.hWnd, parms.fullScreen ? HWND_TOPMOST : HWND_NOTOPMOST, x, y, w, h, SWP_SHOWWINDOW );

	glConfig.isFullscreen = parms.fullScreen;
	glConfig.pixelAspect = 1.0f;	// FIXME: some monitor modes may be distorted

	glConfig.isFullscreen = parms.fullScreen;
	glConfig.nativeScreenWidth = parms.width;
	glConfig.nativeScreenHeight = parms.height;

	return true;
}

/*
===================
GLimp_Shutdown

This routine does all OS specific shutdown procedures for the OpenGL
subsystem.
===================
*/
void GLimp_Shutdown() {
	const char *success[] = { "failed", "success" };
	int retVal;

	common->Printf( "Shutting down OpenGL subsystem\n" );

	// set current context to NULL
	if ( qwglMakeCurrent ) {
		retVal = qwglMakeCurrent( NULL, NULL ) != 0;
		common->Printf( "...wglMakeCurrent( NULL, NULL ): %s\n", success[retVal] );
	}

	// delete HGLRC
	if ( win32.hGLRC ) {
		retVal = qwglDeleteContext( win32.hGLRC ) != 0;
		common->Printf( "...deleting GL context: %s\n", success[retVal] );
		win32.hGLRC = NULL;
	}

	// release DC
	if ( win32.hDC ) {
		retVal = ReleaseDC( win32.hWnd, win32.hDC ) != 0;
		common->Printf( "...releasing DC: %s\n", success[retVal] );
		win32.hDC   = NULL;
	}

	// destroy window
	if ( win32.hWnd ) {
		common->Printf( "...destroying window\n" );
		ShowWindow( win32.hWnd, SW_HIDE );
		DestroyWindow( win32.hWnd );
		win32.hWnd = NULL;
	}

	// reset display settings
	if ( win32.cdsFullscreen ) {
		common->Printf( "...resetting display\n" );
		ChangeDisplaySettings( 0, 0 );
		win32.cdsFullscreen = 0;
	}

	// close the thread so the handle doesn't dangle
	if ( win32.renderThreadHandle ) {
		common->Printf( "...closing smp thread\n" );
		CloseHandle( win32.renderThreadHandle );
		win32.renderThreadHandle = NULL;
	}

	// restore gamma
	GLimp_RestoreGamma();

	// shutdown QGL subsystem
	QGL_Shutdown();
}

/*
=====================
GLimp_SwapBuffers
=====================
*/
void GLimp_SwapBuffers() {
	if ( r_swapInterval.IsModified() ) {
		r_swapInterval.ClearModified();

		int interval = 0;
		if ( r_swapInterval.GetInteger() == 1 ) {
			interval = ( glConfig.swapControlTearAvailable ) ? -1 : 1;
		} else if ( r_swapInterval.GetInteger() == 2 ) {
			interval = 1;
		}

		if ( wglSwapIntervalEXT ) {
			wglSwapIntervalEXT( interval );
		}
	}

	qwglSwapBuffers( win32.hDC );
}

/*
===========================================================

SMP acceleration

===========================================================
*/

/*
===================
GLimp_ActivateContext
===================
*/
void GLimp_ActivateContext() {
	if ( !qwglMakeCurrent( win32.hDC, win32.hGLRC ) ) {
		win32.wglErrors++;
	}
}

/*
===================
GLimp_DeactivateContext
===================
*/
void GLimp_DeactivateContext() {
	qglFinish();
	if ( !qwglMakeCurrent( win32.hDC, NULL ) ) {
		win32.wglErrors++;
	}
}

/*
===================
GLimp_RenderThreadWrapper
===================
*/
static void GLimp_RenderThreadWrapper() {
	win32.glimpRenderThread();

	// unbind the context before we die
	qwglMakeCurrent( win32.hDC, NULL );
}

/*
=======================
GLimp_SpawnRenderThread

Returns false if the system only has a single processor
=======================
*/
bool GLimp_SpawnRenderThread( void (*function)() ) {
	SYSTEM_INFO info;

	// check number of processors
	GetSystemInfo( &info );
	if ( info.dwNumberOfProcessors < 2 ) {
		return false;
	}
	
	// create the IPC elements
	win32.renderCommandsEvent = CreateEvent( NULL, TRUE, FALSE, NULL );
	win32.renderCompletedEvent = CreateEvent( NULL, TRUE, FALSE, NULL );
	win32.renderActiveEvent = CreateEvent( NULL, TRUE, FALSE, NULL );

	win32.glimpRenderThread = function;

	win32.renderThreadHandle = CreateThread(
	   NULL,	// LPSECURITY_ATTRIBUTES lpsa,
	   0,		// DWORD cbStack,
	   (LPTHREAD_START_ROUTINE)GLimp_RenderThreadWrapper,	// LPTHREAD_START_ROUTINE lpStartAddr,
	   0,			// LPVOID lpvThreadParm,
	   0,			//   DWORD fdwCreate,
	   &win32.renderThreadId );

	if ( !win32.renderThreadHandle ) {
		common->Error( "GLimp_SpawnRenderThread: failed" );
	}

	SetThreadPriority( win32.renderThreadHandle, THREAD_PRIORITY_ABOVE_NORMAL );
#if 0
	// make sure they always run on different processors
	SetThreadAffinityMask( GetCurrentThread, 1 );
	SetThreadAffinityMask( win32.renderThreadHandle, 2 );
#endif

	return true;
}


//#define	DEBUG_PRINTS

/*
===================
GLimp_BackEndSleep
===================
*/
void *GLimp_BackEndSleep() {
	void	*data;

#ifdef DEBUG_PRINTS
OutputDebugString( "-->GLimp_BackEndSleep\n" );
#endif
	ResetEvent( win32.renderActiveEvent );

	// after this, the front end can exit GLimp_FrontEndSleep
	SetEvent( win32.renderCompletedEvent );

	WaitForSingleObject( win32.renderCommandsEvent, INFINITE );

	ResetEvent( win32.renderCompletedEvent );
	ResetEvent( win32.renderCommandsEvent );

	data = win32.smpData;

	// after this, the main thread can exit GLimp_WakeRenderer
	SetEvent( win32.renderActiveEvent );

#ifdef DEBUG_PRINTS
OutputDebugString( "<--GLimp_BackEndSleep\n" );
#endif
	return data;
}

/*
===================
GLimp_FrontEndSleep
===================
*/
void GLimp_FrontEndSleep() {
#ifdef DEBUG_PRINTS
OutputDebugString( "-->GLimp_FrontEndSleep\n" );
#endif
	WaitForSingleObject( win32.renderCompletedEvent, INFINITE );

#ifdef DEBUG_PRINTS
OutputDebugString( "<--GLimp_FrontEndSleep\n" );
#endif
}

volatile bool	renderThreadActive;

/*
===================
GLimp_WakeBackEnd
===================
*/
void GLimp_WakeBackEnd( void *data ) {
	int		r;

#ifdef DEBUG_PRINTS
OutputDebugString( "-->GLimp_WakeBackEnd\n" );
#endif
	win32.smpData = data;

	if ( renderThreadActive ) {
		common->FatalError( "GLimp_WakeBackEnd: already active" );
	}

	r = WaitForSingleObject( win32.renderActiveEvent, 0 );
	if ( r == WAIT_OBJECT_0 ) {
		common->FatalError( "GLimp_WakeBackEnd: already signaled" );
	}

	r = WaitForSingleObject( win32.renderCommandsEvent, 0 );
	if ( r == WAIT_OBJECT_0 ) {
		common->FatalError( "GLimp_WakeBackEnd: commands already signaled" );
	}

	// after this, the renderer can continue through GLimp_RendererSleep
	SetEvent( win32.renderCommandsEvent );

	r = WaitForSingleObject( win32.renderActiveEvent, 5000 );

	if ( r == WAIT_TIMEOUT ) {
		common->FatalError( "GLimp_WakeBackEnd: WAIT_TIMEOUT" );
	}

#ifdef DEBUG_PRINTS
OutputDebugString( "<--GLimp_WakeBackEnd\n" );
#endif
}

/*
===================
GLimp_ExtensionPointer

Returns a function pointer for an OpenGL extension entry point
===================
*/
GLExtension_t GLimp_ExtensionPointer( const char *name ) {
	void	(*proc)();

	proc = (GLExtension_t)qwglGetProcAddress( name );

	if ( !proc ) {
		common->Printf( "Couldn't find proc address for: %s\n", name );
	}

	return proc;
}