CWE-ou-minkata/Sources/Plasma/PubUtilLib/plPipeline/plDXEnumerate.cpp

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*==LICENSE==*/
#include "plDXEnumerate.h"
#include "hsG3DDeviceSelector.h"
#include "hsUtils.h"

//// Local Typedefs ///////////////////////////////////////////////////////////

typedef LPDIRECT3D9 (WINAPI * Direct3DCreateProc)( UINT sdkVersion );

const UInt8 hsGDirect3DTnLEnumerate::kNumDisplayFormats = 6;
const D3DFORMAT hsGDirect3DTnLEnumerate::kDisplayFormats[] = 
{
	D3DFMT_A1R5G5B5,
		D3DFMT_A2B10G10R10,
		D3DFMT_A8R8G8B8,
		D3DFMT_R5G6B5,
		D3DFMT_X1R5G5B5,
		D3DFMT_X8R8G8B8,
};

HRESULT hsGDirect3DTnLEnumerate::SelectFromDevMode(const hsG3DDeviceRecord* devRec, const hsG3DDeviceMode* devMode)
{

	int i;
	for( i = 0; i < GetNumDrivers(); i++ )
	{
		if( !stricmp(GetDriver(i)->fAdapterInfo.Description, devRec->GetDriverDesc()) )
		{
			int j;
			for( j = 0; j < GetDriver(i)->fDevices.GetCount(); j++ )
			{
				if( !stricmp(GetDriver(i)->fDevices[j].fStrName, devRec->GetDeviceDesc()) )
				{
					SetCurrentDriver(GetDriver(i));
					SetCurrentDevice(&GetDriver(i)->fDevices[j]);
					D3DEnum_SelectDefaultMode(
						devMode->GetWidth(),
						devMode->GetHeight(),
						devMode->GetColorDepth());
					return false;
				}
			}
		}
	}
	char errStr[256];

	sprintf(errStr, "Can't find requested device - %s:%s:%s:%s:%s",
		devRec->GetG3DDeviceTypeName(), 
		devRec->GetDriverDesc(), 
		devRec->GetDriverName(),
		devRec->GetDriverVersion(),
		devRec->GetDeviceDesc());

	DWORD enumFlags = 0;
	int width = devMode->GetWidth();
	int height = devMode->GetHeight();
	int colorDepth = devMode->GetColorDepth();
	// for a window, take whatever colordepth we can get.
	if( !colorDepth )
		enumFlags |= D3DENUM_CANWINDOW;
	enumFlags |= D3DENUM_TNLHAL;

	D3DEnum_SelectDefaultDriver(enumFlags);

	// If we didn't get what we want, try for anything.
	if( !GetCurrentDriver() || !GetCurrentDevice() )
	{
		enumFlags = colorDepth ? 0 : D3DENUM_CANWINDOW;
		D3DEnum_SelectDefaultDriver(enumFlags);
	}
	if( !GetCurrentDriver() || !GetCurrentDevice() )
		D3DEnum_SelectDefaultDriver(0);
	if( !GetCurrentDriver() || !GetCurrentDevice() )
	{
		if( !*GetEnumeErrorStr() )
			SetEnumeErrorStr("Error finding device");
		return true;
	}	
	D3DEnum_SelectDefaultMode(width, height, colorDepth);
	if( !GetCurrentMode() )
	{
		if( !*GetEnumeErrorStr() )
			SetEnumeErrorStr("Error finding mode");
		return true;
	}

	return false;
}

HRESULT hsGDirect3DTnLEnumerate::D3DEnum_SelectDefaultMode(int width, int height, int depth)
{
	hsAssert(GetCurrentDriver() && GetCurrentDevice(), "Must have selected device already");

	BOOL windowed = false;
	if (depth == 0)
	{
		// Legacy code writes out 0 bit depth to mean windowed
		windowed = true;
		depth = 32;
	}

	D3DEnum_DeviceInfo* device = GetCurrentDevice();
	int i;
	for( i = 0; i < device->fModes.GetCount(); i++ )
	{
		D3DEnum_ModeInfo* mode = &device->fModes[i];
		if (mode->fWindowed != windowed)
			continue;

		if( depth )
		{
			if( width < mode->fDDmode.Width )
				continue;
			if( height < mode->fDDmode.Height )
				continue;
		}
		if( depth < mode->fBitDepth )
			continue;

		if( GetCurrentMode() )
		{
			D3DEnum_ModeInfo* curMode = GetCurrentDriver()->fCurrentMode;
			if( depth )
			{
				if( curMode->fDDmode.Width > mode->fDDmode.Width )
					continue;
				if( curMode->fDDmode.Height > mode->fDDmode.Height )
					continue;
			}
			if( curMode->fBitDepth > mode->fBitDepth )
				continue;

		}

		SetCurrentMode(mode);
	}
	return S_OK;
}

//-----------------------------------------------------------------------------
// Name: D3DEnum_SelectDefaultDriver()
// Desc: Picks a default driver according to the passed in flags.
//-----------------------------------------------------------------------------
HRESULT hsGDirect3DTnLEnumerate::D3DEnum_SelectDefaultDriver( DWORD dwFlags )
{


	// If a specific driver was requested, perform that search here
	if( dwFlags & D3DENUM_MASK )
	{
		int i;
		for( i = 0; i < fDrivers.GetCount(); i++ )
		{
			D3DEnum_DriverInfo* pDriver = &fDrivers[i];
			int j;
			for( j = 0; j < pDriver->fDevices.GetCount(); j++ )
			{
				D3DEnum_DeviceInfo* pDevice = &pDriver->fDevices[j]; 
				BOOL bFound = FALSE;

				if( pDevice->fDDType == D3DDEVTYPE_REF )
				{
					if( dwFlags & D3DENUM_REFERENCERAST )
						bFound = TRUE;
				}
				else if( pDevice->fDDType == D3DDEVTYPE_HAL && 
					pDevice->fDDCaps.DevCaps & D3DDEVCAPS_HWTRANSFORMANDLIGHT )
				{
					if( dwFlags & D3DENUM_TNLHAL )
						bFound = TRUE;
				}
				else
				{
					if( dwFlags & D3DENUM_CANWINDOW )
					{
						if( (pDriver == &fDrivers[0]) )
						{
							if( ( pDevice->fDDCaps.DevCaps & D3DDEVCAPS_HWTRANSFORMANDLIGHT )
								^ !(dwFlags & D3DENUM_TNLHAL) )
								bFound = TRUE;
						}
					}
					else
						if( dwFlags & D3DENUM_PRIMARYHAL )
						{
							if( pDriver == &fDrivers[0] )
								bFound = TRUE;
						}
						else
							if( dwFlags & D3DENUM_SECONDARYHAL )
							{
								if( pDriver != &fDrivers[0] )
									bFound = TRUE;
							}
				}

				if( bFound )
				{
					SetCurrentDriver(pDriver);
					SetCurrentDevice(pDevice);
					return S_OK;
				}
			}
		}
		return D3DENUMERR_NOTFOUND;
	}

	int i;
	for( i = 0; i < fDrivers.GetCount(); i++ )
	{
		D3DEnum_DriverInfo* pDriver = &fDrivers[i];
		int j;
		for( j = 0; j < pDriver->fDevices.GetCount(); j++ )
		{
			D3DEnum_DeviceInfo* pDevice = &pDriver->fDevices[j]; 
			if( !pDevice->fIsHardware )
				continue;

			SetCurrentDriver(pDriver);
			SetCurrentDevice(pDevice);

			return S_OK;
		}
	}

	// No compatible devices were found. Return an error code
	return D3DENUMERR_NOCOMPATIBLEDEVICES;
}


//// Constructor //////////////////////////////////////////////////////////////
//
//	Inits the enumeration and builds our list of devices/whatever.

hsGDirect3DTnLEnumerate::hsGDirect3DTnLEnumerate()
{
	memset( &fEnumeErrorStr[0], 0x00, sizeof(fEnumeErrorStr) );

	fCurrentDriver = NULL;		// The selected DD driver
	fDrivers.Reset();		// List of DD drivers


	// Create a D3D object to use
	IDirect3D9		*pD3D = Direct3DCreate9( D3D_SDK_VERSION );
	if( pD3D == nil )
	{
		strcpy( fEnumeErrorStr, "Cannot load DirectX!" );
		return;
	}

	/// Loop through the "adapters" (we don't call them drivers anymore)
	UINT	iAdapter;
	for( iAdapter = 0; iAdapter < pD3D->GetAdapterCount(); iAdapter++ )
	{
		D3DEnum_DriverInfo* newDriver = fDrivers.Push();
		ZeroMemory( newDriver, sizeof( *newDriver ) );

		// Copy data to a device info structure
		D3DADAPTER_IDENTIFIER9		adapterInfo;
		pD3D->GetAdapterIdentifier( iAdapter, 0, &adapterInfo );
		pD3D->GetAdapterDisplayMode( iAdapter, &newDriver->fDesktopMode );

		memcpy( &newDriver->fAdapterInfo, &adapterInfo, sizeof( adapterInfo ) );
		strncpy( newDriver->fStrName, adapterInfo.Driver, 39 );
		strncpy( newDriver->fStrDesc, adapterInfo.Description, 39 );
		newDriver->fGuid = adapterInfo.DeviceIdentifier;
		newDriver->fMemory = 16 * 1024 * 1024;		/// Simulate 16 MB

		/// Do the mode and device enumeration for this adapter
		IEnumAdapterDevices( pD3D, iAdapter, newDriver );		
	}

	// Cleanup
	pD3D->Release();
}

//// IEnumAdapterDevices //////////////////////////////////////////////////////
//
//	DirectX: Enumerates all the modes for a given adapter, then using the
//	two faked modes for HAL and REF, attaches the modes to each "device" that
//	can support them. 

void	hsGDirect3DTnLEnumerate::IEnumAdapterDevices( IDirect3D9 *pD3D, UINT iAdapter, D3DEnum_DriverInfo *drivInfo )
{
	// A bit backwards from DX8... First we have to go through our list of formats and check for validity.
	// Then we can enum through the modes for each format.

	const DWORD numDeviceTypes = 2;
	const TCHAR* strDeviceDescs[] = { "HAL", "REF" };
	const D3DDEVTYPE deviceTypes[] = { D3DDEVTYPE_HAL, D3DDEVTYPE_REF };

	BOOL *formatWorks = TRACKED_NEW BOOL[kNumDisplayFormats + 1];		// One for each format
	DWORD *behavior = TRACKED_NEW DWORD[kNumDisplayFormats + 1];
	UINT iDevice;
	for (iDevice = 0; iDevice < numDeviceTypes; iDevice++)
	{
		D3DEnum_DeviceInfo	*deviceInfo = drivInfo->fDevices.Push();
		ZeroMemory(deviceInfo, sizeof(*deviceInfo));

		pD3D->GetDeviceCaps(iAdapter, deviceTypes[iDevice], &deviceInfo->fDDCaps);
		strncpy(deviceInfo->fStrName, strDeviceDescs[iDevice], 39);
		deviceInfo->fDDType = deviceTypes[iDevice];
		deviceInfo->fIsHardware = deviceInfo->fDDCaps.DevCaps & D3DDEVCAPS_HWRASTERIZATION;

		/// Loop through the formats, checking each against this device to see
		/// if it will work. If so, add all modes matching that format
		UInt8 iFormat;
		for (iFormat = 0; iFormat < kNumDisplayFormats + 1; iFormat++ )
		{
			// the desktop format gets to be first, everything else is nudged over one.
			D3DFORMAT currFormat = (iFormat == 0 ? drivInfo->fDesktopMode.Format : kDisplayFormats[iFormat - 1]);
			formatWorks[iFormat] = FALSE;

			int	bitDepth = IGetDXBitDepth(currFormat);
			if (bitDepth == 0)
				continue;		// Don't like this mode, skip it

			/// Can it be used as a render target?
			if (FAILED(pD3D->CheckDeviceType(iAdapter, deviceTypes[iDevice], 
				currFormat,
				currFormat, 
				FALSE)))
				continue;	// Nope--skip it

			if (deviceInfo->fDDCaps.DevCaps & D3DDEVCAPS_HWTRANSFORMANDLIGHT)
			{
				/// Confirm that HW vertex processing works on this device
				if (deviceInfo->fDDCaps.DevCaps & D3DDEVCAPS_PUREDEVICE)
				{
					behavior[iFormat] = D3DCREATE_HARDWARE_VERTEXPROCESSING;
					if (SUCCEEDED(IConfirmDevice(&deviceInfo->fDDCaps, behavior[iFormat],
						currFormat)))
					{
						formatWorks[iFormat] = TRUE;
					}
				}

				if (!formatWorks[iFormat])
				{
					/// HW vertex & Pure didn't work--just try HW vertex
					behavior[iFormat] = D3DCREATE_HARDWARE_VERTEXPROCESSING;
					if (SUCCEEDED(IConfirmDevice(&deviceInfo->fDDCaps, behavior[iFormat],
						currFormat)))
					{
						formatWorks[iFormat] = TRUE;
					}
				}

				if (!formatWorks[iFormat])
				{
					/// HW vertex didn't work--can we do mixed?
					behavior[iFormat] = D3DCREATE_MIXED_VERTEXPROCESSING;

					if (SUCCEEDED(IConfirmDevice(&deviceInfo->fDDCaps, behavior[iFormat],
						currFormat)))
					{
						formatWorks[iFormat] = TRUE;
					}
				}
			}

			if (!formatWorks[iFormat])
			{
				/// Egads. Try SW vertex processing
				behavior[iFormat] = D3DCREATE_SOFTWARE_VERTEXPROCESSING;

				if (SUCCEEDED(IConfirmDevice(&deviceInfo->fDDCaps, behavior[iFormat],
					currFormat)))
				{
					formatWorks[iFormat] = TRUE;
				}
			}

			if (formatWorks[iFormat])
			{
				/// Now go through all the modes. If a given mode has a format that works,
				/// add it to the device
				UINT numAdapterModes = pD3D->GetAdapterModeCount(iAdapter, currFormat);
				DWORD iMode;
				for (iMode = 0; iMode < numAdapterModes; iMode++)
				{
					// TODO: Check for modes that only differ by refresh rate and exclude duplicates.

					/// Get the mode attributes
					D3DDISPLAYMODE		dispMode;
					pD3D->EnumAdapterModes(iAdapter, currFormat, iMode, &dispMode);
					{
						/// Add it to our driver's global mode list
						D3DEnum_ModeInfo *modeInfo = drivInfo->fModes.Push();
						ZeroMemory( modeInfo, sizeof( *modeInfo ) );
						modeInfo->fDDmode = dispMode;
						sprintf( modeInfo->fStrDesc, TEXT( "%ld x %ld x %ld" ), dispMode.Width, dispMode.Height, bitDepth );
						modeInfo->fBitDepth = bitDepth;

						// Add it to the device
						modeInfo->fDDBehavior = behavior[ iFormat ];
						IFindDepthFormats( pD3D, iAdapter, deviceInfo->fDDType, modeInfo );
						IFindFSAATypes( pD3D, iAdapter, deviceInfo->fDDType, modeInfo );
						ICheckCubicRenderTargets( pD3D, iAdapter, deviceInfo->fDDType, modeInfo );
						deviceInfo->fModes.Append( *modeInfo );

						// Special check for the desktop, which we know is the first entry, because we put it there.
						if (iFormat == 0)
						{
							/// Check if the device can window and/or is compatible with the desktop display mode
							deviceInfo->fCompatibleWithDesktop = TRUE;

							// As of DirectX 9, any device supports windowed mode
							//if (deviceInfo->fDDCaps.Caps2 & D3DCAPS2_CANRENDERWINDOWED)
							{
								deviceInfo->fCanWindow = TRUE;

								/// Add a fake mode to represent windowed. Silly, but here for legacy
								D3DEnum_ModeInfo *pModeInfo = drivInfo->fModes.Push();
								ZeroMemory(pModeInfo, sizeof(*pModeInfo));
								pModeInfo->fDDmode = dispMode;
								pModeInfo->fDDBehavior = behavior[iFormat];
								pModeInfo->fBitDepth = bitDepth;
								sprintf(pModeInfo->fStrDesc, TEXT("Windowed"));
								pModeInfo->fWindowed = true;

								IFindDepthFormats(pD3D, iAdapter, deviceInfo->fDDType, pModeInfo);
								IFindFSAATypes(pD3D, iAdapter, deviceInfo->fDDType, pModeInfo);
								ICheckCubicRenderTargets(pD3D, iAdapter, deviceInfo->fDDType, pModeInfo);
								deviceInfo->fModes.Append( *pModeInfo );
							}
						}
					}
				}


			}
		}
	}

	delete [] formatWorks;
	delete [] behavior;
}

//// IFindDepthFormats ////////////////////////////////////////////////////////
//	DirectX: Given a device and mode, find ALL available depth/stencil
//	formats and add them to the mode info struct.

hsBool	hsGDirect3DTnLEnumerate::IFindDepthFormats( IDirect3D9 *pD3D, UINT iAdapter, D3DDEVTYPE deviceType,
												   D3DEnum_ModeInfo *modeInfo )
{
#if HS_BUILD_FOR_XBOX
	D3DFORMAT		formats[] = { D3DFMT_D16, D3DFMT_D24S8, D3DFMT_UNKNOWN };
#else
	D3DFORMAT		formats[] = { D3DFMT_D16, D3DFMT_D24X8, D3DFMT_D32,
		D3DFMT_D15S1, D3DFMT_D24X4S4, D3DFMT_D24S8, D3DFMT_UNKNOWN };
#endif

	/// Try 'em
	for( int i = 0; formats[ i ] != D3DFMT_UNKNOWN; i++ )
	{
		if( SUCCEEDED( pD3D->CheckDeviceFormat( iAdapter, deviceType, modeInfo->fDDmode.Format,
			D3DUSAGE_DEPTHSTENCIL, D3DRTYPE_SURFACE, 
			formats[ i ] ) ) )
		{
			if( SUCCEEDED( pD3D->CheckDepthStencilMatch( iAdapter, deviceType, 
				modeInfo->fDDmode.Format, modeInfo->fDDmode.Format, formats[ i ] ) ) )
			{
				modeInfo->fDepthFormats.Append( formats[ i ] );
			}
		}
	}

	return( modeInfo->fDepthFormats.GetCount() > 0 ? true : false );
}

//// IFindFSAATypes ///////////////////////////////////////////////////////////
//	DirectX: Given a device and mode, find ALL available multisample types
//	and add them to the mode info struct.

hsBool	hsGDirect3DTnLEnumerate::IFindFSAATypes( IDirect3D9 *pD3D, UINT iAdapter, D3DDEVTYPE deviceType,
												D3DEnum_ModeInfo *modeInfo )
{
	/// Try 'em
	for (int type = 2; type <= 16; type++)
	{
		if (SUCCEEDED(pD3D->CheckDeviceMultiSampleType(iAdapter, deviceType, modeInfo->fDDmode.Format, 
			modeInfo->fWindowed ? TRUE : FALSE,
			(D3DMULTISAMPLE_TYPE)type, NULL)))
		{
			modeInfo->fFSAATypes.Append((D3DMULTISAMPLE_TYPE)type);
		}
	}

	return (modeInfo->fFSAATypes.GetCount() > 0 ? true : false);
}

//// ICheckCubicRenderTargets /////////////////////////////////////////////////

hsBool	hsGDirect3DTnLEnumerate::ICheckCubicRenderTargets( IDirect3D9 *pD3D, UINT iAdapter, D3DDEVTYPE deviceType,
														  D3DEnum_ModeInfo *modeInfo )
{
	if( SUCCEEDED( pD3D->CheckDeviceFormat( iAdapter, deviceType, modeInfo->fDDmode.Format,
		D3DUSAGE_RENDERTARGET, D3DRTYPE_CUBETEXTURE, 
		modeInfo->fDDmode.Format ) ) )
	{
		modeInfo->fCanRenderToCubic = true;
		return true;
	}

	modeInfo->fCanRenderToCubic = false;
	return false;
}

//// IConfirmDevice ///////////////////////////////////////////////////////////
//
//	Nice, encapsulated way of testing for specific caps on a particular device

HRESULT hsGDirect3DTnLEnumerate::IConfirmDevice( D3DCAPS9* pCaps, DWORD dwBehavior,
												D3DFORMAT Format )
{
	short		bits;


	bits = IGetDXBitDepth( Format );
	if( bits == 16 || bits == 24 || bits == 32 )
		return S_OK;

	return E_FAIL;
}


//-----------------------------------------------------------------------------
// Name: ~hsGDirect3DTnLEnumerate()
// Desc: 
//-----------------------------------------------------------------------------
hsGDirect3DTnLEnumerate::~hsGDirect3DTnLEnumerate()
{
	D3DEnum_FreeResources();
}

//-----------------------------------------------------------------------------
// Name: D3DEnum_FreeResources()
// Desc: Frees all resources used for driver enumeration
//-----------------------------------------------------------------------------
VOID hsGDirect3DTnLEnumerate::D3DEnum_FreeResources()
{
}

//-----------------------------------------------------------------------------
// Name: SetEnumeErrorStr()
// Desc: 
//-----------------------------------------------------------------------------
void hsGDirect3DTnLEnumerate::SetEnumeErrorStr(const char* s) 
{ 
	hsStrncpy(fEnumeErrorStr, s, 128); 
}

//// IGetDXBitDepth //////////////////////////////////////////////////////////
//
//	From a D3DFORMAT enumeration, return the bit depth associated with it.
//	Copied from hsGDirect3DDevice to prevent inclusion of that class in
//	the RenderMenu project (for some reason, VC can't figure out we're only
//	calling one static function!)

short	hsGDirect3DTnLEnumerate::IGetDXBitDepth( D3DFORMAT format )
{
#define ReturnDepth(type, depth) if (format == type) return depth

	ReturnDepth(D3DFMT_UNKNOWN, 0);
	ReturnDepth(D3DFMT_A8R8G8B8, 32);
	ReturnDepth(D3DFMT_X8R8G8B8, 32);
	ReturnDepth(D3DFMT_R5G6B5, 16);
	ReturnDepth(D3DFMT_X1R5G5B5, 16);
	ReturnDepth(D3DFMT_A1R5G5B5, 16);

	// Supported by DX9, but we don't currently support it. Can add support if needed.
	//ReturnDepth(D3DFMT_A2B10G10R10, 32); 

	// Unsupported translation format--return 0
	return 0;
}

///////////////////////////////////////////////////////////////////////////////
//// Direct3D DeviceSelector Code ///////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////

//// IGetD3DCardInfo /////////////////////////////////////////////////////////
//	Given two enum structs, strips out and produces the vendor ID, device ID
//	and the driver name. Returns true if processed, false otherwise.

hsBool	hsG3DDeviceSelector::IGetD3DCardInfo( hsG3DDeviceRecord &record,			// In
											  void *driverInfo,
											  void *deviceInfo,
											  DWORD *vendorID, DWORD *deviceID,	// Out
											  char **driverString, char **descString  )
{
	D3DEnum_DriverInfo	*driverD3DInfo = (D3DEnum_DriverInfo *)driverInfo;
	D3DEnum_DeviceInfo	*deviceD3DInfo = (D3DEnum_DeviceInfo *)deviceInfo;

	D3DADAPTER_IDENTIFIER9	*adapterInfo;

	adapterInfo = &driverD3DInfo->fAdapterInfo;

	*vendorID = adapterInfo->VendorId;
	*deviceID = adapterInfo->DeviceId;
	*driverString = adapterInfo->Driver;
	*descString = adapterInfo->Description;

	return true;
}

//// ITryDirect3DTnL //////////////////////////////////////////////////////////

void hsG3DDeviceSelector::ITryDirect3DTnL(hsWinRef winRef)
{
	hsGDirect3DTnLEnumerate d3dEnum;

	int i;
	for( i = 0; i < d3dEnum.GetNumDrivers(); i++ )
	{
		ITryDirect3DTnLDriver(d3dEnum.GetDriver(i));
	}
}

//// ITryDirect3DDriver ///////////////////////////////////////////////////////
//
//	New DirectX Way

void hsG3DDeviceSelector::ITryDirect3DTnLDriver(D3DEnum_DriverInfo* drivInfo)
{
	hsG3DDeviceRecord devRec;
	devRec.Clear();
	devRec.SetG3DDeviceType( kDevTypeDirect3D );

	devRec.SetDriverName( drivInfo->fAdapterInfo.Driver );
	devRec.SetDriverDesc( drivInfo->fAdapterInfo.Description );

	char	buff[ 256 ];
	sprintf( buff, "%d.%02d.%02d.%04d",
		HIWORD( drivInfo->fAdapterInfo.DriverVersion.u.HighPart ),
		LOWORD( drivInfo->fAdapterInfo.DriverVersion.u.HighPart ),
		HIWORD( drivInfo->fAdapterInfo.DriverVersion.u.LowPart ),
		LOWORD( drivInfo->fAdapterInfo.DriverVersion.u.LowPart ) );


	devRec.SetDriverVersion(buff);

	devRec.SetMemoryBytes(drivInfo->fMemory);

	int i;
	for( i = 0; i < drivInfo->fDevices.GetCount(); i++ )
	{
		/// 9.6.2000 mcn - Changed here so we can do fudging here, rather
		/// than passing all the messy driver data to the function
		hsG3DDeviceRecord	currDevRec = devRec;

		/// Done first now, so we can alter the D3D type later
		ITryDirect3DTnLDevice( &drivInfo->fDevices[i], currDevRec );
		IFudgeDirectXDevice( currDevRec, (D3DEnum_DriverInfo *)drivInfo, (D3DEnum_DeviceInfo *)&drivInfo->fDevices[ i ] );

		if( currDevRec.GetModes().GetCount() )
			fRecords.Append( currDevRec );
	}
}

//// ITryDirect3DTnLDevice ////////////////////////////////////////////////////
//
//	New DirectX Way

void hsG3DDeviceSelector::ITryDirect3DTnLDevice(D3DEnum_DeviceInfo* devInfo, hsG3DDeviceRecord& devRec)
{
	devRec.SetDeviceDesc(devInfo->fStrName);

	if( devInfo->fDDType == D3DDEVTYPE_REF )
		devRec.SetG3DHALorHEL( kHHD3DRefDev );
	else if( devInfo->fDDType == D3DDEVTYPE_HAL )
	{
		if( devInfo->fDDCaps.DevCaps & D3DDEVCAPS_HWTRANSFORMANDLIGHT )
		{	
			devRec.SetG3DHALorHEL( kHHD3DTnLHalDev );
			devRec.SetCap( kCapsHWTransform );
		}
		else
			devRec.SetG3DHALorHEL( kHHD3DHALDev );
	}

	if( devInfo->fDDCaps.TextureCaps & D3DPTEXTURECAPS_CUBEMAP )
		devRec.SetCap( kCapsCubicTextures );

	devRec.SetLayersAtOnce( devInfo->fDDCaps.MaxSimultaneousTextures );

	if( devInfo->fDDCaps.TextureFilterCaps & D3DPTFILTERCAPS_MIPFLINEAR )
		devRec.SetCap( kCapsMipmap );
	if( devInfo->fDDCaps.TextureCaps & D3DPTEXTURECAPS_MIPCUBEMAP )
		devRec.SetCap( kCapsCubicMipmap );
	if( devInfo->fDDCaps.TextureCaps & D3DPTEXTURECAPS_PERSPECTIVE )
		devRec.SetCap(kCapsPerspective);
	if( devInfo->fIsHardware )
		devRec.SetCap( kCapsHardware );
	if( devInfo->fDDCaps.RasterCaps & D3DPRASTERCAPS_FOGTABLE )
	{
		devRec.SetCap( kCapsFogLinear );
		devRec.SetCap( kCapsFogExp );
		devRec.SetCap( kCapsFogExp2 );
		devRec.SetCap( kCapsPixelFog );
	}
	else
	{
		devRec.SetCap( kCapsFogLinear );
	}
	if( devInfo->fDDCaps.RasterCaps & D3DPRASTERCAPS_FOGRANGE )
		devRec.SetCap( kCapsFogRange );

	if( devInfo->fDDCaps.MaxAnisotropy <= 1 )
		devRec.SetMaxAnisotropicSamples( 0 );
	else
		devRec.SetMaxAnisotropicSamples( (UInt8)devInfo->fDDCaps.MaxAnisotropy );

	if (D3DSHADER_VERSION_MAJOR(devInfo->fDDCaps.PixelShaderVersion) > 0)
		devRec.SetCap(kCapsPixelShader);

	/// Assume these by default
	devRec.SetCap( kCapsCompressTextures );
	devRec.SetCap( kCapsDoesSmallTextures );

#if 1 // mf - want to leave this one off by default
	//	if( devInfo->fCanAntialias )
	//		devRec.SetCap( kCapsAntiAlias );
#endif // mf - want to leave this one off by default

	hsG3DDeviceMode devMode;
	int i, j;

	const struct 
	{
		D3DFORMAT fmt; UInt16 depth; 
	} depths[] = { { D3DFMT_D16, 0x0010 }, { D3DFMT_D24X8, 0x0018 }, { D3DFMT_D32, 0x0020 },
	{ D3DFMT_D15S1, 0x010f }, { D3DFMT_D24X4S4, 0x0418 }, { D3DFMT_D24S8, 0x0818 }, { D3DFMT_UNKNOWN, 0 } };

	for( i = 0; i < devInfo->fModes.GetCount(); i++ )
	{
		D3DEnum_ModeInfo* modeInfo = &devInfo->fModes[i];

		devMode.Clear();
		devMode.SetWidth( modeInfo->fDDmode.Width );
		devMode.SetHeight( modeInfo->fDDmode.Height );
		devMode.SetColorDepth( modeInfo->fBitDepth );

		if( modeInfo->fCanRenderToCubic )
			devMode.SetCanRenderToCubics( true );
		else
			devMode.SetCanRenderToCubics( false );

		for( j = 0; depths[ j ].depth != 0; j++ )
		{
			if( modeInfo->fDepthFormats.Find( depths[ j ].fmt ) != modeInfo->fDepthFormats.kMissingIndex )
				devMode.AddZStencilDepth( depths[ j ].depth );
		}

		for( j = 2; j <= 16; j++ )
		{
			if( modeInfo->fFSAATypes.Find( (D3DMULTISAMPLE_TYPE)j ) != modeInfo->fFSAATypes.kMissingIndex )
				devMode.AddFSAAType( j );
		}

		devRec.GetModes().Append( devMode );
	}
}