CWE-ou-minkata/Sources/Tools/MaxConvert/plBitmapCreator.cpp

/*==LICENSE==*

CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.

This program 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.

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 General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.

Additional permissions under GNU GPL version 3 section 7

If you modify this Program, or any covered work, by linking or
combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK,
NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent
JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK
(or a modified version of those libraries),
containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA,
PhysX SDK EULA, DirectX SDK EULA, OpenSSL and SSLeay licenses, IJG
JPEG Library README, Windows Media SDK EULA, or QuickTime SDK EULA, the
licensors of this Program grant you additional
permission to convey the resulting work. Corresponding Source for a
non-source form of such a combination shall include the source code for
the parts of OpenSSL and IJG JPEG Library used as well as that of the covered
work.

You can contact Cyan Worlds, Inc. by email legal@cyan.com
 or by snail mail at:
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*==LICENSE==*/
#include "hsTypes.h"
#include "max.h"
#include <commdlg.h>
#include "bmmlib.h"

#include "../../Plasma/PubUtilLib/plGImage/plMipmap.h"
#include "hsExceptionStack.h"
#include "../../Plasma/PubUtilLib/plGImage/hsCodecManager.h"

#include "plBitmapCreator.h"

#include "../MaxMain/plPluginResManager.h"
#include "../MaxExport/plErrorMsg.h"
#include "../MaxPlasmaMtls/Layers/plStaticEnvLayer.h"

#include "../plGImage/plMipmap.h"
#include "../plGImage/plDynamicTextMap.h"
#include "../plGImage/plCubicEnvironmap.h"
#include "../pnKeyedObject/plKey.h"
#include "../pnKeyedObject/plUoid.h"
#include "../plResMgr/plRegistryHelpers.h"
#include "../plResMgr/plLocalization.h"
#include "../plAgeDescription/plAgeDescription.h"

//// plCommonBitmapLib ///////////////////////////////////////////////////////
//	Derived class for our textures, since they all go in a common page
//	(namely, "Textures")

#include "../MaxMain/plCommonObjLib.h"

class plCommonBitmapLib : public plCommonObjLib
{
	public:
		virtual hsBool	IsInteresting( const plKey &objectKey )
		{
			if( objectKey->GetUoid().GetClassType() == plCubicEnvironmap::Index() ||
				objectKey->GetUoid().GetClassType() == plMipmap::Index() )
			{
				return true;
			}
			return false;
		}
};

static plCommonBitmapLib		sCommonBitmapLib;


plBitmapCreator::plBitmapCreator()
{
	fErrorMsg = nil;
}
plBitmapCreator::~plBitmapCreator()
{
}

plBitmapCreator	&plBitmapCreator::Instance()
{
	static plBitmapCreator	fInstance;
	return fInstance;
}

void	plBitmapCreator::Init( hsBool save, plErrorMsg *msg )
{
	fErrorMsg = msg;
}

void	plBitmapCreator::DeInit( void )
{
	CleanUpMaps();
}

void	plBitmapCreator::CleanUpMaps( void )
{
	sCommonBitmapLib.ClearObjectList();
}

void	plBitmapCreator::DeleteExportedBitmap( const plKey &constKey )
{
	plKey key = constKey;
	sCommonBitmapLib.RemoveObjectAndKey( key );
}

//
// Create Bitmap
//
plMipmap *plBitmapCreator::ICreateBitmap(plBitmapData *bd)
{
	hsGuardBegin("hsConverterUtils::CreateBitmap");

    // Load the bitmap
    BitmapInfo bi;
    bi.SetName(bd->fileName);

#if 0 // This isn't really an issue since the textures are packed -Colin
	const int kMaxFileNameLength = 30;
	if (strlen(bi.Filename()) > kMaxFileNameLength)
	{
		// Allow to continue, But make it painful
		char errStr[256];
		sprintf(errStr, "File name longer than %d, won't burn to CD (%s)", kMaxFileNameLength, bi.Filename());//bitmapTex->GetName());
		MessageBox(GetActiveWindow(), errStr, bd->fileName, MB_OK|MB_ICONEXCLAMATION);	
	}
#endif

	hsBool notMipped = (bd->texFlags & plMipmap::kForceOneMipLevel) != 0;
	float sigma = bd->sig;
    
    // Load the bitmap
	Bitmap *bm = TheManager->Load(&bi);
	if (!bm)
	{
		// FIXME
		/*
		if (fErrorMsg->Set(!(fWarned & kWarnedNoMoreBitmapLoadErr), 
			"Error loading bitmap", pathName).CheckAskOrCancel())
		{
			fWarned |= kWarnedNoMoreBitmapLoadErr;
		}
		*/
		return nil;
	}
	BitmapStorage *storage = bm->Storage();
	BitmapInfo *bInfo = &storage->bi;

	ICheckOutBitmap(bInfo, bm, bd->fileName);

    //
    // Create a plMipmap 
    //
    plMipmap *hBitmap = TRACKED_NEW plMipmap;
    if( (bm->Width() ^ (bm->Width() & -bm->Width()))
        ||(bm->Height() ^ (bm->Height() & -bm->Height())) )
    {
        IResampBitmap(bm, *hBitmap);
    }
    else if( ((bm->Width() >> 3) > bm->Height())||((bm->Height() >> 3) > bm->Width()) )
    {
        IResampBitmap(bm, *hBitmap);
    }
    else
    {
        ICopyBitmap(bm, *hBitmap);
    }
	bm->DeleteThis();

	if( bd->invertAlpha )
		IInvertAlpha(*hBitmap);

	// Do it
	plMipmap *hMipmap = nil;
	if (sigma > 0.f)
	{
		hMipmap = TRACKED_NEW plMipmap(hBitmap, sigma, bd->createFlags, bd->detailDropoffStart, 
								bd->detailDropoffStop, bd->detailMax, bd->detailMin);
	}
	else
	{
		hMipmap = TRACKED_NEW plMipmap(hBitmap, -1.f, bd->createFlags, bd->detailDropoffStart, 
								bd->detailDropoffStop, bd->detailMax, bd->detailMin);
	}
	delete hBitmap;

	/// Clamp the border if we're using clamping
	if( bd->clampFlags != 0 )
	{
		hMipmap->EnsureKonstantBorder( ( bd->clampFlags & plBitmapData::kClampU ) ? true : false,
									   ( bd->clampFlags & plBitmapData::kClampV ) ? true : false );
	}

	/// Cut this down to whatever size we were told to :)
	if( bd->maxDimension != 0 )
		hMipmap->ClipToMaxSize( bd->maxDimension );

	if( notMipped )
	{
		// Done AFTER ClipToMaxSize() so we still get the export size specified 
		hMipmap->RemoveMipping();
	}

	hBitmap = hMipmap;
        
	UInt32	flagsToSet = 0;

	if( bd->texFlags & plMipmap::kNoMaxSize )
		flagsToSet |= plMipmap::kNoMaxSize;
	if( bd->texFlags & plMipmap::kHalfSize )
		flagsToSet |= plMipmap::kHalfSize;
	if( bd->texFlags & plMipmap::kDontThrowAwayImage )
		flagsToSet |= plMipmap::kDontThrowAwayImage;

	hBitmap->SetFlags( hBitmap->GetFlags() | flagsToSet );
	if (bd->useJPEG)
		hBitmap->fCompressionType = plMipmap::kJPEGCompression;

	// FIXME
	if (/*fSave &&*/ !(bd->texFlags & plMipmap::kForceNonCompressed) && !bd->useJPEG)
	{
		// Are we on?  Check Plasma Util panel
//		SwitchUtil *pu = (SwitchUtil *)CreateInstance(UTILITY_CLASS_ID, PlasmaUtilClassID);
//		if (!pu || pu->TextureCompressionEnabled()) 
		{
			plMipmap *compressed = hsCodecManager::Instance().CreateCompressedMipmap(plMipmap::kDirectXCompression, hBitmap);
//				hsDXTSoftwareCodec::Instance().CreateCompressedBitmap(hBitmap);
//				hsDXTDirectXCodec::Instance().CreateCompressedBitmap(hBitmap);

			if (compressed)
			{
				delete hBitmap;
				hBitmap = compressed;
				hBitmap->SetFlags( hBitmap->GetFlags() | flagsToSet );
			}
		}
	}

	return hBitmap;
	hsGuardEnd; 
}




//
// Verify that bitmap is the correct type/size
//
void plBitmapCreator::ICheckOutBitmap(BitmapInfo* bInfo, Bitmap* bm, const char *fileName)
{
	hsGuardBegin("hsConverterUtils::ICheckOutBitmap");

	// Check out bitmap
	if (bm->Flags() & MAP_FLIPPED)
		MessageBox(GetActiveWindow(), "Bitmap is flipped horizontally", fileName, MB_OK);	
	if (bm->Flags() & MAP_INVERTED)
		MessageBox(GetActiveWindow(), "Bitmap is inverted vertically", fileName, MB_OK);	

	if (bInfo->Flags() & MAP_FLIPPED)
		MessageBox(GetActiveWindow(), "BI:Bitmap is flipped horizontally", fileName, MB_OK);	
	if (bInfo->Flags() & MAP_INVERTED)
		MessageBox(GetActiveWindow(), "BI:Bitmap is inverted vertically", fileName, MB_OK);	

	hsGuardEnd;
}

int plBitmapCreator::IResampBitmap(Bitmap *bm, plMipmap &hBitmap)
{
	hsGuardBegin("hsConverterUtils::IResampBitmap");

	BitmapStorage *storage = bm->Storage();
	BitmapInfo *bInfo = &storage->bi;

	int dbgW = bm->Width(), dbgH = bm->Height();
	int it;
	for( it = 1; it <= bm->Width(); it <<= 1 );
	it >>= 1;
	hBitmap.fWidth = it;
	for( it = 1; it <= bm->Height(); it <<= 1 );
	it >>= 1;
	hBitmap.fHeight = it;
	if( (hBitmap.fHeight >> 3) > hBitmap.fWidth )
		hBitmap.fHeight = hBitmap.fWidth << 3;
	else
	if( (hBitmap.fWidth >> 3) > hBitmap.fHeight )
		hBitmap.fWidth = hBitmap.fHeight << 3;

	hBitmap.fPixelSize	= 32;
	hBitmap.fRowBytes	= hBitmap.fWidth * hBitmap.fPixelSize >> 3;
	hBitmap.fNumLevels = 1;

	hBitmap.fImage		= HSMemory::New(hBitmap.fRowBytes * hBitmap.fHeight);

#ifdef COLOR_BLACK_WHITE
	hBitmap.fFlags |= plMipmap::kColorWhite | plMipmap::kColorBlack;
#endif // COLOR_BLACK_WHITE
	hBitmap.fFlags &= ~( plMipmap::kAlphaBitFlag | plMipmap::kAlphaChannelFlag );

	int y,x;
	float scaleY, scaleX;
	hsRGBAColor32  *dstColor;
	dstColor = (hsRGBAColor32*)hBitmap.fImage;

	scaleX = ((float)bm->Width())/(float)hBitmap.fWidth;
	scaleY = ((float)bm->Height())/(float)hBitmap.fHeight;
	for (y = 0; y < hBitmap.fHeight; y++)
	{
		for (x = 0; x < hBitmap.fWidth; x++)
		{
			BMM_Color_64 c64_00, c64_01, c64_10, c64_11;
			int ix, iy;
			float fracX, fracY;
			float t;
			t = x * scaleX;
			ix = (int)t;
			fracX = t-ix;
			t = y * scaleY;
			iy = (int)t;
			fracY = t-iy;

			int ret = storage->GetPixels(ix,iy,1,&c64_00);
// FIXME
//			fErrorMsg->Set(ret == 0, "ResampBitmap", "Failure getting pixels %dX%d", x, y).Check();
			ret = storage->GetPixels(ix+1,iy,1,&c64_10);
			ret = storage->GetPixels(ix,iy+1,1,&c64_01);
			ret = storage->GetPixels(ix+1,iy+1,1,&c64_11);

			dstColor->r = (unsigned char)(255.0 / 65535.0
				* ( c64_00.r * (1.f - fracX) * (1.f - fracY)
				  + c64_10.r * (      fracX) * (1.f - fracY)
				  + c64_01.r * (1.f - fracX) * (      fracY)
				  + c64_11.r * (      fracX) * (      fracY) ));
			dstColor->g = (unsigned char)(255.0 / 65535.0
				* ( c64_00.g * (1.f - fracX) * (1.f - fracY)
				  + c64_10.g * (      fracX) * (1.f - fracY)
				  + c64_01.g * (1.f - fracX) * (      fracY)
				  + c64_11.g * (      fracX) * (      fracY) ));
			dstColor->b =  (unsigned char)(255.0 / 65535.0
				* ( c64_00.b * (1.f - fracX) * (1.f - fracY)
				  + c64_10.b * (      fracX) * (1.f - fracY)
				  + c64_01.b * (1.f - fracX) * (      fracY)
				  + c64_11.b * (      fracX) * (      fracY) ));
			dstColor->a =  (unsigned char)(255.0 / 65535.0
				* ( c64_00.a * (1.f - fracX) * (1.f - fracY)
				  + c64_10.a * (      fracX) * (1.f - fracY)
				  + c64_01.a * (1.f - fracX) * (      fracY)
				  + c64_11.a * (      fracX) * (      fracY) ));


#ifdef COLOR_BLACK_WHITE
			if( dstColor->r | dstColor->g | dstColor->b )
				hBitmap.fFlags &= ~plMipmap::kColorBlack;
			if( ~(dstColor->r & dstColor->g & dstColor->b) )
				hBitmap.fFlags &= ~plMipmap::kColorWhite;
#endif // COLOR_BLACK_WHITE

			if( dstColor->a < 255 )
			{
				hBitmap.fFlags |= plMipmap::kAlphaBitFlag;
				if( dstColor->a > 0 )
					hBitmap.fFlags |= plMipmap::kAlphaChannelFlag;
			}
			dstColor++;
		}
	}
	if( hBitmap.fFlags & plMipmap::kAlphaChannelFlag )
		hBitmap.fFlags &= ~plMipmap::kAlphaBitFlag;

	return 0;
	hsGuardEnd; 
}

int plBitmapCreator::ICopyBitmap(Bitmap *bm, plMipmap &hBitmap)
{
	hsGuardBegin("hsConverterUtils::ICopyBitmap");

	BitmapStorage *storage = bm->Storage();
	BitmapInfo *bInfo = &storage->bi;

	hBitmap.fWidth		= bm->Width();
	hBitmap.fHeight		= bm->Height();
	hBitmap.fPixelSize	= 32;
	hBitmap.fRowBytes	= bm->Width()*hBitmap.fPixelSize/8;
	hBitmap.fNumLevels = 1;

	hBitmap.fImage		= HSMemory::New(hBitmap.fRowBytes * hBitmap.fHeight);

#ifdef COLOR_BLACK_WHITE
	hBitmap.fFlags |= plMipmap::kColorWhite | plMipmap::kColorBlack;
#endif // COLOR_BLACK_WHITE
	hBitmap.fFlags &= ~( plMipmap::kAlphaBitFlag | plMipmap::kAlphaChannelFlag );

	int y,x;
	hsRGBAColor32  *dstColor;
	dstColor = (hsRGBAColor32*)hBitmap.fImage;

	for (y = 0; y < hBitmap.fHeight; y++)
	{
		for (x = 0; x < hBitmap.fWidth; x++)
		{
			BMM_Color_64 c64;
			int ret = storage->GetPixels(x,y,1,&c64);
// FIXME
//			fErrorMsg->Set(ret == 0, "CopyBitmap", "Failure getting pixels %dX%d", x, y).Check();

			// Convert from 16 bits to 8 bits
			dstColor->r = (char)(255.0*c64.r/65535.0);
			dstColor->g = (char)(255.0*c64.g/65535.0);
			dstColor->b = (char)(255.0*c64.b/65535.0);
			dstColor->a = (char)(255.0*c64.a/65535.0);

#ifdef COLOR_BLACK_WHITE
			if( dstColor->r | dstColor->g | dstColor->b )
				hBitmap.fFlags &= ~plMipmap::kColorBlack;
			if( ~(dstColor->r & dstColor->g & dstColor->b) )
				hBitmap.fFlags &= ~plMipmap::kColorWhite;
#endif // COLOR_BLACK_WHITE

			if( dstColor->a < 255 )
			{
				hBitmap.fFlags |= plMipmap::kAlphaBitFlag;
				if( dstColor->a > 0 )
					hBitmap.fFlags |= plMipmap::kAlphaChannelFlag;
			}
			dstColor++;
		}
	}
	if( hBitmap.fFlags & plMipmap::kAlphaChannelFlag )
		hBitmap.fFlags &= ~plMipmap::kAlphaBitFlag;

	return 0;
	hsGuardEnd; 
}

int plBitmapCreator::IInvertAlpha(plMipmap& hBitmap)
{
	hsGuardBegin("hsConverterUtils::ICopyBitmap");

	hsAssert(hBitmap.fPixelSize == 32, "Only RGBA32 implemented");
	if( hBitmap.fPixelSize != 32 )
		return -1;

	hsRGBAColor32* dstColor = (hsRGBAColor32*)hBitmap.fImage;
	int n = hBitmap.GetWidth() * hBitmap.GetHeight();
	int i;
	for( i = 0; i < n; i++ )
	{
		dstColor->a = 255 - dstColor->a;
		dstColor++;
	}

	return 0;
	hsGuardEnd; 
}

plBitmap *plBitmapCreator::CreateTexture(plBitmapData *bd, const plLocation &loc, int clipID)
{
	plBitmap* bm = ICreateTexture(bd, loc, clipID);

	for (int i = 0; i < plLocalization::GetNumLocales(); i++)
	{
		char localName[MAX_PATH];
		if (plLocalization::ExportGetLocalized(bd->fileName, i, localName))
		{
			const char* oldName = bd->fileName;
			bd->fileName = localName;
			ICreateTexture(bd, loc, clipID);
			bd->fileName = oldName;
		}
	}

	return bm;
}

//// ICreateTexture ////////////////////////////////////////////////////////////
//	Plasma texture creator.  Pass it a completed bitmapdata structure and it 
//	returns a registered texture pointer, or nil if something goes wrong.
//
//	9.14.2001 mcn - clipID added to uniquely identify mipmaps that have been 
//	rescaled differently (approximately represents how many powers of 2 it was 
//	scaled down from the original source).
//
//	3.29.2002 mcn - Moved to plBitmapCreator, where it really belongs, and
//	added code to handle tracking/cleaning up all materials that are exported.

plBitmap *plBitmapCreator::ICreateTexture( plBitmapData *bd, const plLocation &loc, int clipID )
{
	hsGuardBegin( "plBitmapCreator::CreateTexture" );

	const plLocation &textureLoc = plPluginResManager::ResMgr()->GetCommonPage( loc, plAgeDescription::kTextures );

	if( !bd )
	{
		fErrorMsg->Set( true, "Bitmap Error", "No bitmap data" ).Show();
		fErrorMsg->Set();
		return nil;
	}

	if( bd->fileName == nil || bd->fileName[ 0 ] == 0 )
	{
		fErrorMsg->Set( true, "Bitmap Error", "Material texture has null bitmap name." ).Show();
		fErrorMsg->Set();	
		return nil;
	}

	// Get and mangle key name
	char name[ 256 ], temp[ 256 ];
	_splitpath(bd->fileName, NULL, NULL, temp, NULL);

	// Somehow, sometimes, we get the same file in with different cases. So we need to force the
	// case identical all the time, else the patching process for dat files will think they're
	// "different" when they're really not
	strlwr( temp );

	/// Mangle name for detail textures, so we don't end up overwriting settings elsewhere
	if( bd->createFlags & plMipmap::kCreateDetailMask )
	{	
		// Mangle of the form: name@dropStart&dropStop&max&min
		if( clipID != -1 )
			sprintf( name, "%s*%x#%d@%s&%3.2f&%3.2f&%3.2f&%3.2f", temp, bd->texFlags, clipID, 
					bd->createFlags & plMipmap::kCreateDetailAlpha ? "al" : ( bd->createFlags & plMipmap::kCreateDetailAdd ? "ad" : "mu" ),
					bd->detailDropoffStart, bd->detailDropoffStop, bd->detailMax, bd->detailMin );
		else
			sprintf( name, "%s*%x@%s&%3.2f&%3.2f&%3.2f&%3.2f", temp, bd->texFlags, 
					bd->createFlags & plMipmap::kCreateDetailAlpha ? "al" : ( bd->createFlags == plMipmap::kCreateDetailAdd ? "ad" : "mu" ),
					bd->detailDropoffStart, bd->detailDropoffStop, bd->detailMax, bd->detailMin );
	}
	else if( clipID != -1 )
		sprintf( name, "%s*%x#%d", temp, bd->texFlags, clipID );
	else
		sprintf( name, "%s*%x", temp, bd->texFlags );
	if( bd->invertAlpha )
		strcat( name, "_inva" );
	strcat( name, ".hsm" );


	// Has this texture been used before?
	plKey key;

	plBitmap *texture = plBitmap::ConvertNoRef( sCommonBitmapLib.FindObject( name, ( bd->isStaticCubicEnvMap ) ? plCubicEnvironmap::Index() : plMipmap::Index() ) );
	//hsAssert( texture == nil || texture->GetKey()->GetUoid().GetLocation() == textureLoc, "Somehow our texture objectLib has a texture not in the right page? Should be harmless tho..." );

	// Texture reuse optimization
	if( texture )
	{
		WIN32_FILE_ATTRIBUTE_DATA fileAttrib;
		GetFileAttributesEx(bd->fileName, GetFileExInfoStandard, &fileAttrib);
		FILETIME &fileTime = fileAttrib.ftLastWriteTime;

		// If this texture has been modified since the last export, delete the old version but reuse the key
		if (!texture->IsSameModifiedTime(fileTime.dwLowDateTime, fileTime.dwHighDateTime))
		{
			DeleteExportedBitmap( texture->GetKey() );
			texture = nil;
			key = nil;
		}
	}

	if( texture )
	{
		// If it's in the registry, great, use it.
		if( bd->texFlags & plMipmap::kNoMaxSize )
			texture->SetFlags( texture->GetFlags() | plMipmap::kNoMaxSize );

		if( bd->texFlags & plMipmap::kHalfSize )
			texture->SetFlags( texture->GetFlags() | plMipmap::kHalfSize );
	}
	else
	{
		// If it hasn't been used before, make a new texture
		if( bd->isStaticCubicEnvMap )
		{
			plCubicEnvironmap *cubic = TRACKED_NEW plCubicEnvironmap;
			
			plMipmap	*face;

			/// Build and set the faces
			bd->fileName = bd->faceNames[ plStaticEnvLayer::kTopFace ];
			face = ICreateBitmap( bd );
			if( face == nil ) return nil;
			cubic->CopyToFace( face, plCubicEnvironmap::kTopFace );

			bd->fileName = bd->faceNames[ plStaticEnvLayer::kBottomFace ];
			face = ICreateBitmap( bd );
			if( face == nil ) return nil;
			cubic->CopyToFace( face, plCubicEnvironmap::kBottomFace );

			bd->fileName = bd->faceNames[ plStaticEnvLayer::kLeftFace ];
			face = ICreateBitmap( bd );
			if( face == nil ) return nil;
			cubic->CopyToFace( face, plCubicEnvironmap::kLeftFace );

			bd->fileName = bd->faceNames[ plStaticEnvLayer::kRightFace ];
			face = ICreateBitmap( bd );
			if( face == nil ) return nil;
			cubic->CopyToFace( face, plCubicEnvironmap::kRightFace );

			/// NOTE: For whatever reason, MAX decided that the front and back faces should be'
			/// switched, literally. It's as if the cube for the cube map starts at the back face
			/// and then wraps around, instead of starting at the front face. Since we do things
			/// the RIGHT way (or rather, the front way :) on client-side, we need to flip the 
			/// two here. If you convert this to the real MAX UI, make sure the faces are still
			/// flipped!!!!!!!!

			bd->fileName = bd->faceNames[ plStaticEnvLayer::kBackFace ];
			face = ICreateBitmap( bd );
			if( face == nil ) return nil;
			cubic->CopyToFace( face, plCubicEnvironmap::kFrontFace );

			bd->fileName = bd->faceNames[ plStaticEnvLayer::kFrontFace ];
			face = ICreateBitmap( bd );
			if( face == nil ) return nil;
			cubic->CopyToFace( face, plCubicEnvironmap::kBackFace );


			key = hsgResMgr::ResMgr()->NewKey( name, cubic, textureLoc );

			texture = (plBitmap *)cubic;
		}
		else
		{
			plMipmap *mipmap = ICreateBitmap(bd);
			if (!mipmap)
				return nil;

			key = hsgResMgr::ResMgr()->NewKey( name, mipmap, textureLoc );

			texture = (plBitmap *)mipmap;
		}

		// Texture reuse optimization
		WIN32_FILE_ATTRIBUTE_DATA fileAttrib;
		GetFileAttributesEx(bd->fileName, GetFileExInfoStandard, &fileAttrib);
		FILETIME &fileTime = fileAttrib.ftLastWriteTime;
		texture->SetModifiedTime(fileTime.dwLowDateTime, fileTime.dwHighDateTime);

		// Add to our list of created textures and ref, since we have a hold of them
		IAddBitmap( texture );
	}

	return texture;

	hsGuardEnd;
}

//// IAddBitmap ///////////////////////////////////////////////////////////////

void	plBitmapCreator::IAddBitmap( plBitmap *bitmap, hsBool dontRef )
{
	sCommonBitmapLib.AddObject( bitmap );
}

//// CreateBlankMipmap ////////////////////////////////////////////////////////
//	Simple mipmap creator, but importantly, it also adds the mipmap to the list
//	of "converted" maps to clean up at the end of export.

plMipmap	*plBitmapCreator::CreateBlankMipmap( UInt32 width, UInt32 height, unsigned config, UInt8 numLevels, 
												 const char *keyName, const plLocation &keyLocation )
{
	hsGuardBegin( "plBitmapCreator::CreateBlankMipmap" );

	// Get our real location
	const plLocation &textureLoc = plPluginResManager::ResMgr()->GetCommonPage( keyLocation, plAgeDescription::kTextures );

	// Is it already created?
	plKey key = hsgResMgr::ResMgr()->FindKey( plUoid( textureLoc, plMipmap::Index(), keyName ) );
	if( key != nil )
		return plMipmap::ConvertNoRef( key->GetObjectPtr() );

	// Create
	plMipmap	*mip = TRACKED_NEW plMipmap( width, height, config, numLevels );

	// Assign key
	hsgResMgr::ResMgr()->NewKey( keyName, mip, textureLoc );

	// Add to our list
	IAddBitmap( mip );

	return mip;

	hsGuardEnd;
}