@ -1218,28 +1218,12 @@ namespace
enum {
enum {
kDefaultChipset = 0x00 ,
kDefaultChipset = 0x00 ,
kSavage4Chipset ,
kATIRageFuryChipset ,
kATIRageProChipset ,
kNVidiaTNTChipset ,
kNVidiaGeForceChipset ,
kMatroxG400Chipset ,
kIntelI810Chipset ,
kIntelI810Chipset ,
kSavage2000Chipset ,
kS3GenericChipset ,
kS3GenericChipset ,
kATIGenericChipset ,
kMatroxGenericChipset ,
kKYROChipset ,
kKYROChipset ,
kSavage3DChipset ,
kATIRadeonChipset ,
kATIRadeonChipset ,
kATIR7X00Chipset ,
kATIR7500Chipset ,
kATIR8X00Chipset ,
kATIR8X00Chipset ,
kMatroxParhelia ,
kMatroxParhelia ,
kNVidiaGeForce2Chipset ,
kNVidiaGeForce3Chipset ,
kNVidiaGeForce4MXChipset ,
kNVidiaGeForce4Chipset ,
kNVidiaGeForceFXChipset
kNVidiaGeForceFXChipset
} ;
} ;
@ -1255,8 +1239,6 @@ namespace
} FogTweakTable ;
} FogTweakTable ;
FogTweakTable dsDefaultFogVals = { 0 , 0 , 254.0 / 255.0 , 0.5f , 0.15f , 0.5f , 0.15f } ;
FogTweakTable dsDefaultFogVals = { 0 , 0 , 254.0 / 255.0 , 0.5f , 0.15f , 0.5f , 0.15f } ;
FogTweakTable dsATIFogVals = { 0.1f , 0.1f , 254.0 / 255.0 , 0.85f , 0.15f , 0.5f , 0.15f } ;
FogTweakTable dsS3DFogVals = { 0 , 0 , 254.0 / 255.0 , 1.0f , 1.0f , 1.0f , 1.0f } ;
FogTweakTable dsi810FogVals = { 0 , 0 , 254.0 / 255.0 , 0.6f , 0.15f , 0.4f , 0.15f } ;
FogTweakTable dsi810FogVals = { 0 , 0 , 254.0 / 255.0 , 0.6f , 0.15f , 0.4f , 0.15f } ;
FogTweakTable dsRadeonFogVals = { 0 , 0 , 254.0 / 255.0 , 0.7f , 0.15f , 0.5f , 0.2f } ;
FogTweakTable dsRadeonFogVals = { 0 , 0 , 254.0 / 255.0 , 0.7f , 0.15f , 0.5f , 0.2f } ;
@ -1271,24 +1253,9 @@ namespace
FogTweakTable * fFogTweaks ;
FogTweakTable * fFogTweaks ;
} CFTable ;
} CFTable ;
uint32_t dsSavageCapsClr [ ] = {
uint32_t dsGeForceFXCapsSet [ ] = {
4 , // First integer is always the length
hsG3DDeviceSelector : : kCapsCompressTextures ,
hsG3DDeviceSelector : : kCapsFogExp ,
hsG3DDeviceSelector : : kCapsFogExp2 ,
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
uint32_t dsSavageCapsSet [ ] = {
1 , // First integer is always the length
1 , // First integer is always the length
hsG3DDeviceSelector : : kCapsBadYonStuff } ;
hsG3DDeviceSelector : : kCapsNoAA } ;
uint32_t dsSavage2kCapsClr [ ] = {
5 , // First integer is always the length
hsG3DDeviceSelector : : kCapsCompressTextures ,
hsG3DDeviceSelector : : kCapsPixelFog ,
hsG3DDeviceSelector : : kCapsFogExp ,
hsG3DDeviceSelector : : kCapsFogExp2 ,
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
uint32_t dsS3GenerCapsClr [ ] = {
uint32_t dsS3GenerCapsClr [ ] = {
4 , // First integer is always the length
4 , // First integer is always the length
@ -1297,59 +1264,6 @@ namespace
hsG3DDeviceSelector : : kCapsFogExp2 ,
hsG3DDeviceSelector : : kCapsFogExp2 ,
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
uint32_t dsATIFuryCapsClr [ ] = {
3 , // First integer is always the length
hsG3DDeviceSelector : : kCapsFogExp ,
hsG3DDeviceSelector : : kCapsFogExp2 ,
hsG3DDeviceSelector : : kCapsPixelFog } ;
uint32_t dsATIRageCapsClr [ ] = {
4 , // First integer is always the length
hsG3DDeviceSelector : : kCapsFogExp ,
hsG3DDeviceSelector : : kCapsFogExp2 ,
hsG3DDeviceSelector : : kCapsDoesSmallTextures ,
hsG3DDeviceSelector : : kCapsPixelFog } ;
uint32_t dsATIGenerCapsClr [ ] = {
4 , // First integer is always the length
hsG3DDeviceSelector : : kCapsPixelFog ,
hsG3DDeviceSelector : : kCapsFogExp ,
hsG3DDeviceSelector : : kCapsFogExp2 ,
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
uint32_t dsATIRadeonCapsSet [ ] = {
2 , // First integer is always the length
hsG3DDeviceSelector : : kCapsBadManaged ,
hsG3DDeviceSelector : : kCapsShareDepth
} ;
uint32_t dsATIRadeonCapsClr [ ] = {
2 , // First integer is always the length
hsG3DDeviceSelector : : kCapsWBuffer ,
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
uint32_t dsATIR7X00CapsSet [ ] = {
4 , // First integer is always the length
hsG3DDeviceSelector : : kCapsCantShadow ,
hsG3DDeviceSelector : : kCapsBadManaged ,
hsG3DDeviceSelector : : kCapsShareDepth ,
hsG3DDeviceSelector : : kCapsNoAniso
} ;
uint32_t dsATIR7500CapsSet [ ] = {
5 , // First integer is always the length
hsG3DDeviceSelector : : kCapsMaxUVWSrc2 ,
hsG3DDeviceSelector : : kCapsCantShadow ,
hsG3DDeviceSelector : : kCapsBadManaged ,
hsG3DDeviceSelector : : kCapsShareDepth ,
hsG3DDeviceSelector : : kCapsNoAniso
} ;
uint32_t dsATIR7X00CapsClr [ ] = {
2 , // First integer is always the length
hsG3DDeviceSelector : : kCapsWBuffer ,
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
uint32_t dsATIR8X00CapsSet [ ] = {
uint32_t dsATIR8X00CapsSet [ ] = {
2 , // First integer is always the length
2 , // First integer is always the length
hsG3DDeviceSelector : : kCapsBadManaged ,
hsG3DDeviceSelector : : kCapsBadManaged ,
@ -1361,18 +1275,10 @@ namespace
hsG3DDeviceSelector : : kCapsWBuffer ,
hsG3DDeviceSelector : : kCapsWBuffer ,
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
uint32_t dsTNTCapsClr [ ] = {
1 , // First integer is always the length
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
uint32_t dsDefaultCapsClr [ ] = {
uint32_t dsDefaultCapsClr [ ] = {
1 , // First integer is always the length
1 , // First integer is always the length
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
uint32_t dsMG400CapsClr [ ] = {
1 , // First integer is always the length
hsG3DDeviceSelector : : kCapsDoesSmallTextures } ;
uint32_t dsKYROCapsClr [ ] = {
uint32_t dsKYROCapsClr [ ] = {
2 , // First integer is always the length
2 , // First integer is always the length
hsG3DDeviceSelector : : kCapsDoesSmallTextures ,
hsG3DDeviceSelector : : kCapsDoesSmallTextures ,
@ -1382,58 +1288,13 @@ namespace
1 , // First integer is always the length
1 , // First integer is always the length
hsG3DDeviceSelector : : kCapsNoKindaSmallTexs } ;
hsG3DDeviceSelector : : kCapsNoKindaSmallTexs } ;
uint32_t dsMatroxParheliaSet [ ] = {
1 ,
hsG3DDeviceSelector : : kCapsNoAA } ;
uint32_t dsGeForceSet [ ] = {
2 ,
hsG3DDeviceSelector : : kCapsCantProj ,
hsG3DDeviceSelector : : kCapsDoubleFlush } ;
uint32_t dsGeForce2Set [ ] = {
1 ,
hsG3DDeviceSelector : : kCapsDoubleFlush } ;
uint32_t dsGeForce3Set [ ] = {
1 ,
hsG3DDeviceSelector : : kCapsSingleFlush } ;
uint32_t dsGeForce4MXSet [ ] = {
1 ,
hsG3DDeviceSelector : : kCapsSingleFlush } ;
uint32_t dsGeForce4Set [ ] = {
1 ,
hsG3DDeviceSelector : : kCapsSingleFlush
} ;
CFTable dsCFTable [ ] =
CFTable dsCFTable [ ] =
{
{
// Chipset ID // F2Set // F2Clear // ZSuck // MaxLayers // LODBias // Fog Value Tables
// Chipset ID // F2Set // F2Clear // ZSuck // MaxLayers // LODBias // Fog Value Tables
{ kDefaultChipset , nil , dsDefaultCapsClr , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kDefaultChipset , nullptr , dsDefaultCapsClr , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kATIRageFuryChipset , nil , dsATIFuryCapsClr , 4.25f , 1 , 0 , & dsATIFogVals } ,
{ kNVidiaGeForceFXChipset , dsGeForceFXCapsSet , nullptr , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kATIRageProChipset , nil , dsATIRageCapsClr , 4.25f , 1 , 0 , & dsATIFogVals } ,
{ kIntelI810Chipset , nullptr , dsDefaultCapsClr , 4.5f , 1 , - 0.5f , & dsi810FogVals } ,
{ kATIGenericChipset , nil , dsATIGenerCapsClr , 4.25f , 1 , 0 , & dsATIFogVals } ,
{ kNVidiaTNTChipset , nil , dsTNTCapsClr , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kNVidiaGeForce2Chipset , dsGeForce2Set , nil , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kNVidiaGeForce3Chipset , dsGeForce3Set , nil , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kNVidiaGeForce4MXChipset , dsGeForce4MXSet , nil , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kNVidiaGeForce4Chipset , dsGeForce4Set , nil , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kNVidiaGeForceChipset , dsGeForceSet , nil , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kNVidiaGeForceFXChipset , nil , nil , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kMatroxG400Chipset , nil , dsMG400CapsClr , 3.25f , 0 , 0 , & dsDefaultFogVals } ,
{ kMatroxParhelia , dsMatroxParheliaSet , nil , 0 , 0 , 0 , & dsDefaultFogVals } ,
{ kMatroxGenericChipset , nil , dsMG400CapsClr , 3.25f , 0 , 0 , & dsDefaultFogVals } ,
{ kIntelI810Chipset , nil , dsDefaultCapsClr , 4.5f , 1 , - 0.5f , & dsi810FogVals } ,
{ kSavage4Chipset , dsSavageCapsSet , dsSavageCapsClr , 4.0f , 1 , 0 , & dsDefaultFogVals } , // LOD bias should be -0.5 here
{ kSavage2000Chipset , dsSavageCapsSet , dsSavage2kCapsClr , 4.0f , 1 , 0 , & dsDefaultFogVals } ,
{ kS3GenericChipset , dsSavageCapsSet , dsS3GenerCapsClr , 4.0f , 1 , 0 , & dsDefaultFogVals } ,
{ kKYROChipset , dsKYROCapsSet , dsKYROCapsClr , - 151.0f , 1 , 0 , & dsDefaultFogVals } ,
{ kKYROChipset , dsKYROCapsSet , dsKYROCapsClr , - 151.0f , 1 , 0 , & dsDefaultFogVals } ,
{ kSavage3DChipset , nil , dsDefaultCapsClr , 0 , 0 , 0 , & dsS3DFogVals } ,
{ kATIRadeonChipset , dsATIRadeonCapsSet , dsATIRadeonCapsClr , 0 , 0 , 0 , & dsRadeonFogVals } ,
{ kATIR7X00Chipset , dsATIR7X00CapsSet , dsATIR7X00CapsClr , 3.f , 2 , 0 , & dsRadeonFogVals } ,
{ kATIR7500Chipset , dsATIR7500CapsSet , dsATIR7X00CapsClr , 3.f , 2 , 0 , & dsRadeonFogVals } ,
{ kATIR8X00Chipset , dsATIR8X00CapsSet , dsATIR8X00CapsClr , 0 , 0 , 0 , & dsRadeonFogVals } ,
{ kATIR8X00Chipset , dsATIR8X00CapsSet , dsATIR8X00CapsClr , 0 , 0 , 0 , & dsRadeonFogVals } ,
} ;
} ;
@ -1472,201 +1333,46 @@ void hsG3DDeviceSelector::IFudgeDirectXDevice( hsG3DDeviceRecord &record,
hsStrcpy ( desc , szDesc ) ;
hsStrcpy ( desc , szDesc ) ;
hsStrLower ( desc ) ;
hsStrLower ( desc ) ;
//// S3-based Cards ///////////////////////////////////////////////////////
/// Detect Savage 4 chipset
if ( deviceID = = 0x00008a22 | | stricmp ( szDriver , " s3savg4.dll " ) = = 0 | |
( strstr ( desc , " diamond " ) ! = nil & & strstr ( desc , " stealth iii " ) ! = nil ) | |
strstr ( desc , " savage4 " ) ! = nil )
{
/// Yup, Savage 4.
hsStatusMessage ( " == Using fudge factors for a Savage 4 chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for a Savage 4 chipset " ) ;
ISetFudgeFactors ( kSavage4Chipset , record ) ;
}
/// Detect Savage 2000 chipset
else if ( deviceID = = 0x00009102 | |
stricmp ( szDriver , " s3sav2k.dll " ) = = 0 | |
( strstr ( desc , " diamond " ) ! = nil & &
strstr ( desc , " viperii " ) ! = nil ) | |
strstr ( desc , " savage2000 " ) ! = nil )
{
/// Yup, Savage 2000.
hsStatusMessage ( " == Using fudge factors for a Savage 2000 chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for a Savage 2000 chipset " ) ;
ISetFudgeFactors ( kSavage2000Chipset , record ) ;
}
/// Detect Savage3D chipset
else if ( deviceID = = 0x00008a20 | |
stricmp ( szDriver , " s3_6.dll " ) = = 0 | |
strstr ( desc , " savage3d " ) ! = nil )
{
/// Yup, Savage3D.
hsStatusMessage ( " == Using fudge factors for a Savage3D chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for a Savage3D chipset " ) ;
ISetFudgeFactors ( kSavage3DChipset , record ) ;
}
/// Detect Generic S3 chipset
else if ( ( strncmp ( szDriver , " s3 " , 2 ) = = 0 ) | | ( strstr ( desc , " savage " ) ! = nil ) )
{
/// Yup, Generic S3.
hsStatusMessage ( " == Using fudge factors for a generic S3 chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for a generic S3 chipset " ) ;
ISetFudgeFactors ( kS3GenericChipset , record ) ;
}
//// ATI-based Cards //////////////////////////////////////////////////////
/// Detect ATI Radeon HD
else if ( strstr ( desc , " radeon hd " ) ! = nullptr )
{
hsStatusMessage ( " == Using fudge factors for an ATI Radeon HD chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an ATI Radeon HD chipset " ) ;
ISetFudgeFactors ( kDefaultChipset , record ) ;
}
/// Detect ATI Rage 128 Pro chipset
else if ( ( deviceID = = 0x00005046 & & // Normal ATI Rage 128 Pro detection
( stricmp ( szDriver , " ati2dvaa.dll " ) = = 0
| | strstr ( desc , " rage 128 pro " ) ! = nil ) ) | |
( deviceID = = 0x00005246 & & // ATI All-in-wonder--same chipset, diff values
( stricmp ( szDriver , " ati3draa.dll " ) = = 0
| | strstr ( desc , " all-in-wonder 128 " ) ! = nil ) ) )
{
hsStatusMessage ( " == Using fudge factors for an ATI Rage 128 Pro chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an ATI Rage 128 Pro chipset " ) ;
ISetFudgeFactors ( kATIRageProChipset , record ) ;
}
/// Detect(detest?) ATI Rage FURY MAXX chipset
else if ( deviceID = = 0x00005046 & &
( stricmp ( szDriver , " ati3drau.dll " ) = = 0
| | strstr ( desc , " rage fury " ) ! = nil ) )
{
hsStatusMessage ( " == Using fudge factors for an ATI Rage Fury MAXX chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an ATI Rage Fury MAXX chipset " ) ;
ISetFudgeFactors ( kATIRageFuryChipset , record ) ;
}
/// Detect ATI Radeon chipset
/// Detect ATI Radeon chipset
// We will probably need to differentiate between different Radeons at some point in
// We will probably need to differentiate between different Radeons at some point in
// the future, but not now.
// the future, but not now.
else if ( // deviceID == 0x00005144 &&
if ( stricmp ( szDriver , " ati2dvag.dll " ) = = 0 | | strstr ( desc , " radeon " ) ! = nullptr )
( stricmp ( szDriver , " ati2dvag.dll " ) = = 0
| | strstr ( desc , " radeon " ) ! = nil ) )
{
{
int series = 0 ;
int series = 0 ;
const char * str = strstr ( desc , " radeon " ) ;
const char * str = strstr ( desc , " radeon " ) ;
if ( str )
if ( str )
str + = strlen ( " radeon " ) ;
str + = strlen ( " radeon " ) ;
else
{
str = strstr ( desc , " all-in-wonder " ) ;
if ( str )
str + = strlen ( " all-in-wonder " ) ;
}
if ( str )
if ( str )
{
{
if ( 1 = = sscanf ( str , " %d " , & series ) )
if ( 1 = = sscanf ( str , " %d " , & series ) )
{
{
if ( ( series = = 7500 ) | | ( series = = 7200 ) )
{
hsStatusMessage ( " == Using fudge factors for ATI Radeon 7200/7500 chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for ATI Radeon 7200/7500 chipset " ) ;
ISetFudgeFactors ( kATIR7500Chipset , record ) ;
}
else
if ( ( series > = 7000 ) & & ( series < 8000 ) )
{
hsStatusMessage ( " == Using fudge factors for ATI Radeon 7X00 chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for ATI Radeon 7X00 chipset " ) ;
ISetFudgeFactors ( kATIR7X00Chipset , record ) ;
}
else
if ( ( series > = 8000 ) & & ( series < 9000 ) )
if ( ( series > = 8000 ) & & ( series < 9000 ) )
{
{
hsStatusMessage ( " == Using fudge factors for ATI Radeon 8X00 chipset == \n " ) ;
hsStatusMessage ( " == Using fudge factors for ATI Radeon 8X00 chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for ATI Radeon 8X00 chipset " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for ATI Radeon 8X00 chipset " ) ;
ISetFudgeFactors ( kATIR8X00Chipset , record ) ;
ISetFudgeFactors ( kATIR8X00Chipset , record ) ;
}
}
else
else if ( series > = 9000 )
{
{
series = 0 ;
hsStatusMessage ( " == Using fudge factors for ATI Radeon 9X00 chipset == \n " ) ;
}
plDemoDebugFile : : Write ( " Using fudge factors for ATI Radeon 9X00 chipset " ) ;
ISetFudgeFactors ( kATIRadeonChipset , record ) ;
}
}
else
else
{
{
series = 0 ;
series = 0 ;
// Skip white space
while ( * str & & ( * str < = 0x32 ) )
str + + ;
// I've still never seen either of these, so I'm just going by ATI's site.
// Don't have the option of using device-id's.
if ( ( str [ 0 ] = = ' v ' ) & & ( str [ 1 ] = = ' e ' ) )
{
// Got an alias here. If it's an All-in-Wonder VE, it's really a 7500.
// If it's a Radeon VE, it's really a 7000.
if ( strstr ( desc , " radeon " ) )
series = 7000 ;
else if ( strstr ( desc , " all-in-wonder " ) )
series = 7500 ;
}
}
}
}
}
}
if ( ! series )
if ( series = = 0 )
{
{
hsStatusMessage ( " == Using fudge factors for ATI Radeon chipset == \n " ) ;
hsStatusMessage ( " == Using fudge factors for ATI/AMD Radeon X/HD/R chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for ATI Radeon chipset " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for ATI/AMD Radeon X/HD/R chipset " ) ;
ISetFudgeFactors ( kATIRadeon Chipset , record ) ;
ISetFudgeFactors ( kDefaultChipset , record ) ;
}
}
}
}
/// Detect generic ATI chipset
else if ( ( strncmp ( szDriver , " ati " , 3 ) = = 0 ) | | ( strstr ( desc , " ati " ) ! = nil ) )
{
hsStatusMessage ( " == Using fudge factors for a generic ATI chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for a generic ATI chipset " ) ;
ISetFudgeFactors ( kATIGenericChipset , record ) ;
}
//// Matrox-based Cards ///////////////////////////////////////////////////
else if ( ( deviceID = = 0x527 )
| | strstr ( desc , " parhelia " ) )
{
hsStatusMessage ( " == Using fudge factors for a Matrox Parhelia chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for a Matrox Millenium G400 chipset " ) ;
ISetFudgeFactors ( kMatroxParhelia , record ) ;
}
/// Detect Matrox G400 chipset
else if ( deviceID = = 0x00000525 & &
( stricmp ( szDriver , " g400d.dll " ) = = 0
| | ( strstr ( desc , " matrox " ) ! = nil & & strstr ( desc , " g400 " ) ! = nil ) ) )
{
hsStatusMessage ( " == Using fudge factors for a Matrox Millenium G400 chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for a Matrox Millenium G400 chipset " ) ;
ISetFudgeFactors ( kMatroxG400Chipset , record ) ;
}
/// Detect generic Matrox chipset
else if ( strstr ( desc , " matrox " ) ! = nil )
{
hsStatusMessage ( " == Using fudge factors for a generic Matrox chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for a generic Matrox chipset " ) ;
ISetFudgeFactors ( kMatroxGenericChipset , record ) ;
}
//// Other Cards //////////////////////////////////////////////////////////
//// Other Cards //////////////////////////////////////////////////////////
/// Detect NVidia RIVA TNT chipset
else if ( deviceID = = 0x00000020 & &
( stricmp ( szDriver , " nvdd32.dll " ) = = 0
| | strstr ( desc , " nvidia riva tnt " ) ! = nil ) )
{
hsStatusMessage ( " == Using fudge factors for an NVidia RIVA TNT chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an NVidia RIVA TNT chipset " ) ;
ISetFudgeFactors ( kNVidiaTNTChipset , record ) ;
if ( record . GetMemoryBytes ( ) < 16 * 1024 * 1024 )
{
hsStatusMessage ( " == (also fudging memory up to 16MB) == \n " ) ;
plDemoDebugFile : : Write ( " (also fudging memory up to 16MB) " ) ;
record . SetMemoryBytes ( 16 * 1024 * 1024 ) ;
}
}
/// Detect Intel i810 chipset
/// Detect Intel i810 chipset
else if ( deviceID = = 0x00007125 & &
else if ( deviceID = = 0x00007125 & &
( stricmp ( szDriver , " i81xdd.dll " ) = = 0
( stricmp ( szDriver , " i81xdd.dll " ) = = 0
@ -1683,58 +1389,13 @@ void hsG3DDeviceSelector::IFudgeDirectXDevice( hsG3DDeviceRecord &record,
plDemoDebugFile : : Write ( " Using fudge factors for a KYRO chipset " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for a KYRO chipset " ) ;
ISetFudgeFactors ( kKYROChipset , record ) ;
ISetFudgeFactors ( kKYROChipset , record ) ;
}
}
/// Detect for a GeForce-class card. We can be loose here because we want
/// Detect for a GeForc FX card. We only need to nerf the really low end one.
/// to get ALL GeForce/2/256 cards
else if ( strstr ( desc , " nvidia " ) ! = nil & & strstr ( desc , " geforce fx 5200 " ) ! = nil )
else if ( strstr ( desc , " nvidia " ) ! = nil & & strstr ( desc , " geforce2 " ) ! = nil )
{
hsStatusMessage ( " == Using fudge factors for an NVidia GeForce2-based chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an NVidia GeForce2-based chipset " ) ;
ISetFudgeFactors ( kNVidiaGeForce2Chipset , record ) ;
}
else if ( strstr ( desc , " nvidia " ) ! = nil & & strstr ( desc , " geforce3 " ) ! = nil )
{
hsStatusMessage ( " == Using fudge factors for an NVidia GeForce3-based chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an NVidia GeForce3-based chipset " ) ;
ISetFudgeFactors ( kNVidiaGeForce3Chipset , record ) ;
}
else if ( strstr ( desc , " nvidia " ) ! = nil & & strstr ( desc , " geforce4 mx " ) ! = nil )
{
hsStatusMessage ( " == Using fudge factors for an NVidia GeForce4MX-based chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an NVidia GeForce4MX-based chipset " ) ;
ISetFudgeFactors ( kNVidiaGeForce4MXChipset , record ) ;
}
else if ( strstr ( desc , " nvidia " ) ! = nil & & strstr ( desc , " geforce4 " ) ! = nil )
{
hsStatusMessage ( " == Using fudge factors for an NVidia GeForce4-based chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an NVidia GeForce4-based chipset " ) ;
ISetFudgeFactors ( kNVidiaGeForce4Chipset , record ) ;
}
else if (
strstr ( desc , " nvidia " ) & & strstr ( desc , " geforce " )
& & (
( deviceID = = 0x101 )
| | ( deviceID = = 0x100 )
| | strstr ( desc , " 256 " )
)
)
{
hsStatusMessage ( " == Using fudge factors for an NVidia GeForce-based chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an NVidia GeForce-based chipset " ) ;
ISetFudgeFactors ( kNVidiaGeForceChipset , record ) ;
}
else if ( strstr ( desc , " nvidia " ) ! = nil & & strstr ( desc , " geforce " ) ! = nil )
{
{
hsStatusMessage ( " == Using fudge factors for an NVidia GeForceFX-based chipset == \n " ) ;
hsStatusMessage ( " == Using fudge factors for an NVidia GeForceFX-based chipset == \n " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an NVidia GeForceFX-based chipset " ) ;
plDemoDebugFile : : Write ( " Using fudge factors for an NVidia GeForceFX-based chipset " ) ;
ISetFudgeFactors ( kNVidiaGeForceFXChipset , record ) ;
ISetFudgeFactors ( kNVidiaGeForceFXChipset , record ) ;
}
}
/// Detect for a TNT-based card and force it to >= 16MB memory, so we always use it
else if ( strstr ( desc , " tnt " ) ! = nil & & record . GetMemoryBytes ( ) < 16 * 1024 * 1024 )
{
hsStatusMessage ( " == NVidia TNT-based card detected. Fudging memory reading to 16MB == \n " ) ;
plDemoDebugFile : : Write ( " NVidia TNT-based card detected. Fudging memory reading to 16MB " ) ;
record . SetMemoryBytes ( 16 * 1024 * 1024 ) ;
}
/// Default fudge values
/// Default fudge values
else
else