//***********************************************************************************************
void CParticleWorkspace::save() throw(NLMISC::EStream)
{
NLMISC::COFile stream;
stream.open(_Filename);
NLMISC::COXml xmlStream;
xmlStream.init(&stream);
this->serial(xmlStream);
clearModifiedFlag();
}
// compile the source files to generate new object files
void CAIManager::compile()
{
// get the file names of input and output files
std::string srcFile=CAIFiles::fullSrcFileName(id());
std::string objFile=CAIFiles::fullObjFileName(id());
// make sure this file isn't in the ignore list
CConfigFile::CVar *varPtr;
varPtr=IService::getInstance()->ConfigFile.getVarPtr(std::string("IgnorePrimitives"));
if (varPtr==NULL)
{
nlwarning("Cannot compile file '%s' as IgnorePrimitives variable not found in .cfg file: Please add 'IgnorePrimitives={\"\"};' and try again",CAIFiles::fullSrcFileName(id()).c_str());
return;
}
for (uint i=0;i<varPtr->size();++i)
if (CAIFiles::srcName(id())==CFile::getFilenameWithoutExtension(varPtr->asString(i)))
{
nlinfo("Skipping file in .cfg ignoreList: %s",CAIFiles::fullSrcFileName(id()).c_str());
return;
}
// compile the input file
nlinfo("Compile %s => %s",srcFile.c_str(),objFile.c_str());
CAIDSActions::CurrentManager=id();
AI_SHARE::parsePrimFile(srcFile.c_str());
// make sure this file isn't in the ignore list (if the compiler found nothing interesting it will have been added)
varPtr=IService::getInstance()->ConfigFile.getVarPtr(std::string("IgnorePrimitives"));
for (uint i=0;i<varPtr->size();++i)
if (CAIFiles::srcName(id())==CFile::getFilenameWithoutExtension(varPtr->asString(i)))
{
nlinfo("- Skipping file as it has just been added to .cfg ignoreList: %s",CAIFiles::fullSrcFileName(id()).c_str());
return;
}
// write the output file
CAIFiles::writeObjFile(id());
// write the binary output file (for debugging only)
NLMISC::COFile file;
if (file.open(objFile+"_out"))
{
std::string s;
MgrDfnRootNode.serialToString(s);
file.serial(s);
file.close();
}
else
nlwarning("CAIManager::compile(): Failed to open the output file: %s",(objFile+"_out").c_str());
}
void CWaterPoolEditor::OnSavePool()
{
static char BASED_CODE szFilter[] = "NeL Water Pool Files (*.wpf)|*.wpf||";
CFileDialog fileDlg( TRUE, ".wpf", "*.wpf", OFN_HIDEREADONLY|OFN_OVERWRITEPROMPT, szFilter);
if (fileDlg.DoModal()==IDOK)
{
try
{
NLMISC::COXml oXml;
NLMISC::COFile oF;
if (oF.open((LPCTSTR) fileDlg.GetPathName()))
{
if (oXml.init (&oF))
{
_Wpm->serial(oXml);
oXml.flush();
oF.close();
}
else
{
oF.close();
MessageBox (("Unable to init xml stream from file : " + std::string((LPCTSTR) fileDlg.GetPathName())).c_str(), "NeL object viewer", MB_OK|MB_ICONEXCLAMATION);
}
}
else
{
MessageBox (("Unable to open file : " + std::string((LPCTSTR) fileDlg.GetPathName())).c_str(), "NeL object viewer", MB_OK|MB_ICONEXCLAMATION);
}
}
catch (NLMISC::Exception& e)
{
MessageBox (e.what(), "NeL object viewer", MB_OK|MB_ICONEXCLAMATION);
}
}
}
// ***************************************************************************
int main(int argc, char **argv)
{
uint8 algo;
// Parse Command Line.
//====================
if(argc<2)
{
writeInstructions();
return 0;
}
if(!strcmp(argv[1],"/?"))
{
writeInstructions();
return 0;
}
if(!strcmp(argv[1],"-?"))
{
writeInstructions();
return 0;
}
if(!parseOptions(argc, argv))
{
writeInstructions();
return 0;
}
// Reading TGA or PNG and converting to RGBA
//====================================
CBitmap picTga;
CBitmap picTga2;
CBitmap picSrc;
std::string inputFileName(argv[1]);
if(inputFileName.find("_usercolor")<inputFileName.length())
{
return 0;
}
NLMISC::CIFile input;
if(!input.open(inputFileName))
{
cerr<<"Can't open input file "<<inputFileName<<endl;
return 1;
}
uint8 imageDepth = picTga.load(input);
if(imageDepth==0)
{
cerr<<"Can't load file : "<<inputFileName<<endl;
return 1;
}
if(imageDepth!=16 && imageDepth!=24 && imageDepth!=32 && imageDepth!=8)
{
cerr<<"Image not supported : "<<imageDepth<<endl;
return 1;
}
input.close();
uint32 height = picTga.getHeight();
uint32 width= picTga.getWidth();
picTga.convertToType (CBitmap::RGBA);
// Output file name and algo.
//===========================
std::string outputFileName;
if (!OptOutputFileName.empty())
outputFileName = OptOutputFileName;
else
outputFileName = getOutputFileName(inputFileName);
// Check dest algo
if (OptAlgo==NOT_DEFINED)
OptAlgo = getType (outputFileName.c_str());
// Choose Algo.
if(OptAlgo!=NOT_DEFINED)
{
algo= OptAlgo;
}
else
{
if(imageDepth==24)
algo = DXT1;
else
algo = DXT5;
}
// Data check
//===========
if(dataCheck(inputFileName.c_str(),outputFileName.c_str(), OptAlgo, OptMipMap))
{
cout<<outputFileName<<" : a recent dds file already exists"<<endl;
return 0;
}
// Vectors for RGBA data
CObjectVector<uint8> RGBASrc = picTga.getPixels();
CObjectVector<uint8> RGBASrc2;
CObjectVector<uint8> RGBADest;
RGBADest.resize(height*width*4);
uint dstRGBADestId= 0;
// UserColor
//===========
/*
// Checking if option "usercolor" has been used
std::string userColorFileName;
if(argc>4)
{
if(strcmp("-usercolor",argv[4])==0)
{
if(argc!=6)
{
writeInstructions();
return;
}
userColorFileName = argv[5];
}
else
{
writeInstructions();
return;
}
}
*/
// Checking if associate usercolor file exists
std::string userColorFileName;
std::string::size_type pos = inputFileName.rfind(".");
if (pos == std::string::npos)
{
// name whithout extension
userColorFileName = inputFileName + "_usercolor";
}
else
{
// append input filename extension
userColorFileName = inputFileName.substr(0,pos) + "_usercolor" + inputFileName.substr(pos);
}
// Reading second Tga for user color
NLMISC::CIFile input2;
if (input2.open(userColorFileName))
{
picTga2.load(input2);
uint32 height2 = picTga2.getHeight();
uint32 width2 = picTga2.getWidth();
nlassert(width2==width);
nlassert(height2==height);
picTga2.convertToType (CBitmap::RGBA);
RGBASrc2 = picTga2.getPixels();
NLMISC::CRGBA *pRGBASrc = (NLMISC::CRGBA*)&RGBASrc[0];
NLMISC::CRGBA *pRGBASrc2 = (NLMISC::CRGBA*)&RGBASrc2[0];
for(uint32 i = 0; i<width*height; i++)
{
// If no UserColor, must take same RGB, and keep same Alpha from src1 !!! So texture can have both alpha
// userColor and other alpha usage.
if(pRGBASrc2[i].A==255)
{
RGBADest[dstRGBADestId++]= pRGBASrc[i].R;
RGBADest[dstRGBADestId++]= pRGBASrc[i].G;
RGBADest[dstRGBADestId++]= pRGBASrc[i].B;
RGBADest[dstRGBADestId++]= pRGBASrc[i].A;
}
else
{
// Old code.
/*uint8 F = (uint8) ((float)pRGBASrc[i].R*0.3 + (float)pRGBASrc[i].G*0.56 + (float)pRGBASrc[i].B*0.14);
uint8 Frgb;
if((F*pRGBASrc2[i].A/255)==255)
Frgb = 0;
else
Frgb = (255-pRGBASrc2[i].A)/(255-F*pRGBASrc2[i].A/255);
RGBADest[dstRGBADestId++]= Frgb*pRGBASrc[i].R/255;
RGBADest[dstRGBADestId++]= Frgb*pRGBASrc[i].G/255;
RGBADest[dstRGBADestId++]= Frgb*pRGBASrc[i].B/255;
RGBADest[dstRGBADestId++]= F*pRGBASrc[i].A/255;*/
// New code: use new restrictions from IDriver.
float Rt, Gt, Bt, At;
float Lt;
float Rtm, Gtm, Btm, Atm;
// read 0-1 RGB pixel.
Rt= (float)pRGBASrc[i].R/255;
Gt= (float)pRGBASrc[i].G/255;
Bt= (float)pRGBASrc[i].B/255;
Lt= Rt*0.3f + Gt*0.56f + Bt*0.14f;
// take Alpha from userColor src.
At= (float)pRGBASrc2[i].A/255;
Atm= 1-Lt*(1-At);
// If normal case.
if(Atm>0)
{
Rtm= Rt*At / Atm;
Gtm= Gt*At / Atm;
Btm= Bt*At / Atm;
}
// Else special case: At==0, and Lt==1.
else
{
Rtm= Gtm= Btm= 0;
}
// copy to buffer.
sint r,g,b,a;
r= (sint)floor(Rtm*255+0.5f);
g= (sint)floor(Gtm*255+0.5f);
b= (sint)floor(Btm*255+0.5f);
a= (sint)floor(Atm*255+0.5f);
clamp(r, 0,255);
clamp(g, 0,255);
clamp(b, 0,255);
clamp(a, 0,255);
RGBADest[dstRGBADestId++]= r;
RGBADest[dstRGBADestId++]= g;
RGBADest[dstRGBADestId++]= b;
RGBADest[dstRGBADestId++]= a;
}
}
}
else
RGBADest = RGBASrc;
// Copy to the dest bitmap.
picSrc.resize(width, height, CBitmap::RGBA);
picSrc.getPixels(0)= RGBADest;
// Resize the destination bitmap ?
while (Reduce != 0)
{
dividSize (picSrc);
Reduce--;
}
// 8 or 16 bits TGA or PNG ?
if ((algo == TGA16) || (algo == TGA8) || (algo == PNG16) || (algo == PNG8))
{
// Saving TGA or PNG file
//=================
NLMISC::COFile output;
if(!output.open(outputFileName))
{
cerr<<"Can't open output file "<<outputFileName<<endl;
return 1;
}
try
{
if (algo == TGA16)
{
picSrc.writeTGA (output, 16);
}
else if (algo == TGA8)
{
picSrc.convertToType(CBitmap::Luminance);
picSrc.writeTGA (output, 8);
}
else if (algo == PNG16)
{
picSrc.writePNG (output, 16);
}
else if (algo == PNG8)
{
picSrc.convertToType(CBitmap::Luminance);
picSrc.writePNG (output, 8);
}
}
catch(NLMISC::EWriteError &e)
{
cerr<<e.what()<<endl;
return 1;
}
output.close();
}
else
{
// Compress
//===========
// log.
std::string algostr;
switch(algo)
{
case DXT1:
algostr = "DXTC1";
break;
case DXT1A:
algostr = "DXTC1A";
break;
case DXT3:
algostr = "DXTC3";
break;
case DXT5:
algostr = "DXTC5";
break;
}
cout<<"compressing ("<<algostr<<") "<<inputFileName<<" to "<<outputFileName<<endl;
// Saving compressed DDS file
// =================
NLMISC::COFile output;
if(!output.open(outputFileName))
{
cerr<<"Can't open output file "<<outputFileName<<endl;
return 1;
}
try
{
CS3TCCompressor comp;
comp.compress(picSrc, OptMipMap, algo, output);
}
catch(NLMISC::EWriteError &e)
{
cerr<<e.what()<<endl;
return 1;
}
output.close();
}
return 0;
}
bool CUserComponentValidator::applySave(const std::string& signature)
{
NLMISC::COFile out;
std::string::size_type index = NLMISC::CFile::getLastSeparator(_Filename);
if (index != std::string::npos)
{
std::string dir = _Filename.substr(0, index);
if (NLMISC::CFile::isExists(dir) == false )
{
if (NLMISC::CFile::createDirectory(dir) == false)
{
return false;
}
}
}
if (!out.open(_Filename, false, false, true))
{
nlwarning("Can't save: the file %s can not be saved.", _Filename.c_str());
return false;
}
try
{
//std::stringstream out2;
//out2.str("");
//out2 << "---- Header\n";
//out2 << NLMISC::toString("-- Version = '%u'\n", 1 );
//out2 << NLMISC::toString("-- Signature = '%s'\n", signature.c_str() );
//out2 << NLMISC::toString("-- HeaderMD5 = '%s'\n", _HeaderMd5.c_str() );
//out2 << _HeaderBody;
//out2 << "---- /Header\n\n";
//out2 << _UserComponentBody;
//out.serialBuffer((uint8*)out2.str().c_str(),out2.str().size());
std::string out2;
out2 += "---- Header\n";
out2 += NLMISC::toString("-- Version = '%u'\n", 1 );
out2 += NLMISC::toString("-- Signature = '%s'\n", signature.c_str() );
out2 += NLMISC::toString("-- HeaderMD5 = '%s'\n", _HeaderMd5.c_str() );
out2 += _HeaderBody;
out2 += "---- /Header\n\n";
out2 += _UserComponentBody;
out.serialBuffer((uint8*)out2.c_str(),(uint)out2.size());
if (_Filename != std::string("data/r2_buffer.dat") )
{
nlinfo("UserComponent %s saved", _Filename.c_str());
}
out.close();
return true;
}
catch (...)
{
nlwarning("Can't save user component: the file %s can not be saved.", _Filename.c_str());
out.close();
return false;
}
return true;
}
IFileAccess::TReturnCode CWriteFile::execute(CFileAccessManager& manager)
{
bool fileExists = NLMISC::CFile::fileExists(getBackupFileName(Filename));
if (!fileExists)
{
if (checkFailureMode(MajorFailureIfFileNotExists))
{
FailureReason = NLMISC::toString("MAJOR_FAILURE:WRITE: file '%s' does not exist", Filename.c_str());
return MajorFailure;
}
if (checkFailureMode(MinorFailureIfFileNotExists))
{
FailureReason = NLMISC::toString("MINOR_FAILURE:WRITE: file '%s' does not exist", Filename.c_str());
return MinorFailure;
}
}
else
{
if (checkFailureMode(MajorFailureIfFileExists))
{
FailureReason = NLMISC::toString("MAJOR_FAILURE:WRITE: file '%s' already exists", Filename.c_str());
return MajorFailure;
}
if (checkFailureMode(MinorFailureIfFileExists))
{
FailureReason = NLMISC::toString("MINOR_FAILURE:WRITE: file '%s' already exists", Filename.c_str());
return MinorFailure;
}
}
if (CreateDir)
{
std::string dir = NLMISC::CFile::getPath(getBackupFileName(Filename));
if (!NLMISC::CFile::isExists(dir))
{
if (!NLMISC::CFile::createDirectoryTree(dir) ||
!NLMISC::CFile::setRWAccess(dir))
{
if (checkFailureMode(MajorFailureIfFileUnwritable))
{
FailureReason = NLMISC::toString("MAJOR_FAILURE:WRITE: can't open file '%s', failed to create directory", Filename.c_str());
return MajorFailure;
}
FailureReason = NLMISC::toString("MINOR_FAILURE:WRITE: can't open file '%s', failed to create directory", Filename.c_str());
return MinorFailure;
}
if (VerboseLog)
nlinfo("Created directory tree '%s'", dir.c_str());
}
}
// if can't open file, file is unwritable, failure in all cases (and no backup)
// file is kept untouched
NLMISC::COFile f;
bool fileOpen = f.open(getBackupFileName(Filename), Append, false, UseTempFile);
if (!fileOpen)
{
if (checkFailureMode(MajorFailureIfFileUnwritable))
{
FailureReason = NLMISC::toString("MAJOR_FAILURE:WRITE: can't open file '%s'", Filename.c_str());
return MajorFailure;
}
FailureReason = NLMISC::toString("MINOR_FAILURE:WRITE: can't open file '%s'", Filename.c_str());
return MinorFailure;
}
bool fileSaved = false;
try
{
f.serialBuffer(&(Data[0]), (uint)Data.size());
fileSaved = true;
if (VerboseLog)
nlinfo("%s %u octets to file '%s'", Append ? "Append" : "Save", Data.size(), Filename.c_str());
}
catch(const NLMISC::Exception &)
{
}
// if can't write in file, file is unwritable, failure in all cases (and no backup)
// file is kept untouched
if (!fileSaved && checkFailureMode(MajorFailureIfFileUnwritable))
{
if (checkFailureMode(MajorFailureIfFileUnwritable))
{
FailureReason = NLMISC::toString("MAJOR_FAILURE:WRITE: can't write file '%s'", Filename.c_str());
return MajorFailure;
}
FailureReason = NLMISC::toString("MINOR_FAILURE:WRITE: can't write file '%s'", Filename.c_str());
return MinorFailure;
}
// if backup failed
// -> if it is a major issue, don't write file
// -> else write file anyway
bool fileBackuped = true;
if (fileExists && BackupFile)
{
if (!NLMISC::CFile::copyFile( getBackupFileName(Filename)+".backup", getBackupFileName(Filename)))
{
fileBackuped = false;
if (checkFailureMode(MajorFailureIfFileUnbackupable))
{
FailureReason = NLMISC::toString("MAJOR_FAILURE:WRITE: can't backup file '%s'", Filename.c_str());
return MajorFailure;
}
}
}
f.close();
if (!fileBackuped)
{
FailureReason = NLMISC::toString("MINOR_FAILURE:WRITE: can't backup file '%s'", Filename.c_str());
return MinorFailure;
}
NLMISC::COFile flog;
std::string str = getBackupFileName(Filename)+"\n";
if(str.find("characters")!=std::string::npos)
{
flog.open(getBackupFileName("new_save.txt"), true);
flog.serialBuffer((uint8*)&(str[0]), str.size());
flog.close();
}
return Success;
}
// ---------------------------------------------------------------------------
// main
// ---------------------------------------------------------------------------
int main(int nNbArg, char **ppArgs)
{
if (nNbArg <3 || nNbArg >5)
{
outString ("ERROR : Wrong number of arguments\n");
outString ("USAGE : lightmap_optimizer <path_lightmaps> <path_shapes> [path_tags] [path_flag8bit]\n");
return -1;
}
vector<string> AllShapeNames;
vector<CMeshBase*> AllShapes;
std::vector<std::string> tags;
char sLMPDir[MAX_PATH];
char sSHPDir[MAX_PATH];
GetCurrentDirectory (MAX_PATH, sExeDir);
// Get absolute directory for lightmaps
if (!SetCurrentDirectory(ppArgs[1]))
{
outString (string("ERROR : directory ") + ppArgs[1] + " do not exists\n");
return -1;
}
GetCurrentDirectory (MAX_PATH, sLMPDir);
SetCurrentDirectory (sExeDir);
// Get absolute directory for shapes
if (!SetCurrentDirectory(ppArgs[2]))
{
outString (string("ERROR : directory ") + ppArgs[2] + " do not exists\n");
return -1;
}
GetCurrentDirectory (MAX_PATH, sSHPDir);
dir ("*.shape", AllShapeNames, false);
registerSerial3d ();
for (uint32 nShp = 0; nShp < AllShapeNames.size(); ++nShp)
{
try
{
CShapeStream mesh;
NLMISC::CIFile meshfile (AllShapeNames[nShp]);
meshfile.serial( mesh );
meshfile.close();
// Add the shape to the map.
CMeshBase *pMB = dynamic_cast<CMeshBase*>(mesh.getShapePointer());
AllShapes.push_back (pMB);
}
catch (NLMISC::EPathNotFound &e)
{
outString(string("ERROR: shape not found ")+AllShapeNames[nShp]+" - "+e.what());
return -1;
}
}
if (nNbArg > 3 && ppArgs[3] && strlen(ppArgs[3]) > 0)
{
SetCurrentDirectory (sExeDir);
if (!SetCurrentDirectory(ppArgs[3]))
{
outString (string("ERROR : directory ") + ppArgs[3] + " do not exists\n");
return -1;
}
dir ("*.tag", tags, false);
for(uint k = 0; k < tags.size(); ++k)
{
std::string::size_type pos = tags[k].find('.');
if (pos != std::string::npos)
{
tags[k] = tags[k].substr(0, pos);
}
}
}
// **** Parse all mesh loaded, to flag each lightmap if 8 bit or not (NB: all layers should be same mode)
std::set<string> setLM8Bit;
for(uint i=0;i<AllShapes.size();i++)
{
CMeshBase *pMB= AllShapes[i];
if(!pMB)
continue;
uint32 nbMat= pMB->getNbMaterial();
for (uint32 m = 0; m < nbMat; ++m)
{
CMaterial& rMat = const_cast<CMaterial&>(pMB->getMaterial (m));
if (rMat.getShader() == CMaterial::LightMap)
{
// Begin with stage 0
uint8 stage = 0;
while (rMat.getLightMap(stage) != NULL)
{
ITexture *pIT = rMat.getLightMap (stage);
CTextureFile *pTF = dynamic_cast<CTextureFile*>(pIT);
if (pTF != NULL)
{
string sTexName = NLMISC::strlwr(pTF->getFileName());
if(pTF->getUploadFormat()==ITexture::Luminance)
setLM8Bit.insert(sTexName);
}
++stage;
}
}
}
}
// **** Parse all lightmaps, sorted by layer, and 8 or 16 bit mode
SetCurrentDirectory (sExeDir);
for (uint32 lmc8bitMode = 0; lmc8bitMode < 2; ++lmc8bitMode)
for (uint32 nNbLayer = 0; nNbLayer < 256; ++nNbLayer)
{
// Get all lightmaps with same number of layer == nNbLayer
// merge lightmaps only if they are in same mode (8bits or 16 bits)
vector<string> AllLightmapNames;
vector<sint> AllLightmapTags;
vector<NLMISC::CBitmap*> AllLightmaps;
sint32 i, j, k, m, n;
string sFilter;
// **** Get All Lightmaps that have this number of layer, and this mode
sFilter = "*_" + NLMISC::toString(nNbLayer) + ".tga";
SetCurrentDirectory (sLMPDir);
dir (sFilter, AllLightmapNames, false);
// filter by layer
vector<string> tmpLMs;
tmpLMs.reserve(AllLightmapNames.size());
for (i = 0; i < (sint32)AllLightmapNames.size(); ++i)
{
string sTmp2 = getBaseName (AllLightmapNames[i]);
sTmp2 += NLMISC::toString(nNbLayer+1) + ".tga";
// if not More layer than expected, ok
if (!fileExist(sTmp2))
{
tmpLMs.push_back(AllLightmapNames[i]);
}
}
AllLightmapNames= tmpLMs;
// filter by 8bit or not mode.
tmpLMs.clear();
for (i = 0; i < (sint32)AllLightmapNames.size(); ++i)
{
bool lm8Bit= setLM8Bit.find( NLMISC::strlwr(AllLightmapNames[i]) ) !=setLM8Bit.end();
// if same mode
if( lm8Bit == (lmc8bitMode==1) )
{
tmpLMs.push_back(AllLightmapNames[i]);
}
}
AllLightmapNames= tmpLMs;
// **** Build tag info
/*
for(uint k = 0; k < tags.size(); ++k)
{
nlinfo("tag %d = %s", (int) k, tags[k].c_str());
}
*/
AllLightmapTags.resize(AllLightmapNames.size());
for(uint k = 0; k < AllLightmapNames.size(); ++k)
{
nlinfo("k = %d", (int) k);
AllLightmapTags[k] = -1;
// search for longest tag that match
uint bestLength = 0;
for(uint l = 0; l < tags.size(); ++l)
{
if (AllLightmapNames[k].size() > tags[l].size())
{
if (tags[l].size() > bestLength)
{
std::string start = AllLightmapNames[k].substr(0, tags[l].size());
if (NLMISC::nlstricmp(start, tags[l]) == 0)
{
bestLength = (uint)tags[l].size();
// the tag matchs
AllLightmapTags[k] = l;
}
}
}
}
if (AllLightmapTags[k] == -1)
{
nlinfo(NLMISC::toString("Lightmap %s has no tag", AllLightmapNames[k].c_str()).c_str());
}
else
{
nlinfo(NLMISC::toString("Lightmap %s has tag %d : %s", AllLightmapNames[k].c_str(), (int) AllLightmapTags[k], tags[AllLightmapTags[k]].c_str()).c_str());
}
}
// Check if all layer of the same lightmap has the same size
if (nNbLayer > 0)
for (i = 0; i < (sint32)AllLightmapNames.size(); ++i)
{
string sTmp2;
sTmp2 = getBaseName (AllLightmapNames[i]) + "0.tga";
uint32 wRef, hRef;
try
{
NLMISC::CIFile inFile;
inFile.open(sTmp2);
CBitmap::loadSize(inFile, wRef, hRef);
}
catch (NLMISC::Exception &e)
{
outString (string("ERROR :") + e.what());
return -1;
}
bool bFound = false;
for (k = 1; k <= (sint32)nNbLayer; ++k)
{
string sTmp3 = getBaseName (AllLightmapNames[i]) + NLMISC::toString(k) + ".tga";
uint32 wCur = wRef, hCur = hRef;
try
{
NLMISC::CIFile inFile;
inFile.open(sTmp3);
CBitmap::loadSize(inFile, wCur, hCur);
}
catch (NLMISC::Exception &)
{
}
if ((wCur != wRef) || (hCur != hRef))
{
bFound = true;
break;
}
}
// Should delete all layers of this lightmap (in fact in lightmapnames list we have
// only the name of the current layer)
if (bFound)
{
sTmp2 = getBaseName (AllLightmapNames[i]);
outString(string("ERROR: lightmaps ")+sTmp2+"*.tga not all the same size\n");
for (k = 0; k < (sint32)AllLightmapNames.size(); ++k)
{
if (strnicmp(AllLightmapNames[k].c_str(), sTmp2.c_str(), sTmp2.size()) == 0)
{
for (j = k+1; j < (sint32)AllLightmapNames.size(); ++j)
{
AllLightmapNames[j-1] = AllLightmapNames[j];
AllLightmapTags[j - 1] = AllLightmapTags[j];
}
AllLightmapNames.resize (AllLightmapNames.size()-1);
AllLightmapTags.resize(AllLightmapTags.size() - 1);
k = -1;
i = -1;
}
}
}
}
if (AllLightmapNames.size() == 0)
continue;
// Load all the lightmaps
AllLightmaps.resize (AllLightmapNames.size());
for (i = 0; i < (sint32)AllLightmaps.size(); ++i)
{
try
{
NLMISC::CBitmap *pBtmp = new NLMISC::CBitmap;
NLMISC::CIFile inFile;
inFile.open(AllLightmapNames[i]);
pBtmp->load(inFile);
AllLightmaps[i] = pBtmp;
}
catch (NLMISC::Exception &e)
{
outString (string("ERROR :") + e.what());
return -1;
}
}
// Sort all lightmaps by decreasing size
for (i = 0; i < (sint32)(AllLightmaps.size()-1); ++i)
for (j = i+1; j < (sint32)AllLightmaps.size(); ++j)
{
NLMISC::CBitmap *pBI = AllLightmaps[i];
NLMISC::CBitmap *pBJ = AllLightmaps[j];
if ((pBI->getWidth()*pBI->getHeight()) < (pBJ->getWidth()*pBJ->getHeight()))
{
NLMISC::CBitmap *pBTmp = AllLightmaps[i];
AllLightmaps[i] = AllLightmaps[j];
AllLightmaps[j] = pBTmp;
string sTmp = AllLightmapNames[i];
AllLightmapNames[i] = AllLightmapNames[j];
AllLightmapNames[j] = sTmp;
sint tagTmp = AllLightmapTags[i];
AllLightmapTags[i] = AllLightmapTags[j];
AllLightmapTags[j] = tagTmp;
}
}
nlassert(AllLightmapTags.size() == AllLightmapNames.size());
for (i = 0; i < (sint32)AllLightmapNames.size(); ++i)
{
outString(NLMISC::toString("%d / %d\n", (int) i, (int) AllLightmapNames.size()));
bool bAssigned = false;
for (j = 0; j < i; ++j)
{
// Tags of both textures must match. We don't want to spread lightmap chunk in bitmap whose other part aren't used by current ig lightmaps (this wastes vram for nothing)
if (AllLightmapTags[i] != AllLightmapTags[j]) continue;
// Try to place the texture i into the texture j
// This can be done only if texture was exported from the same zone. To ensure that, check
NLMISC::CBitmap *pBI = AllLightmaps[i];
NLMISC::CBitmap *pBJ = AllLightmaps[j];
sint32 x, y;
if (tryAllPos (pBI, pBJ, x, y))
{
bAssigned = true;
if (!putIn (pBI, pBJ, x, y))
{
outString (string("ERROR : cannot put reference lightmap ")+AllLightmapNames[i]+
" in "+AllLightmapNames[j]);
return -1;
}
// Put texture i into texture j for all layers of the lightmap !
for (k = 0; k <= (sint32)nNbLayer; ++k)
{
string sTexNameI = getBaseName (AllLightmapNames[i]) + NLMISC::toString(k) + ".tga";
string sTexNameJ = getBaseName (AllLightmapNames[j]) + NLMISC::toString(k) + ".tga";
NLMISC::CBitmap BitmapI;
NLMISC::CBitmap BitmapJ;
NLMISC::CIFile inFile;
outString (NLMISC::toString("INFO : Transfering %s (tag = %d) in %s (tag = %d)",
sTexNameI.c_str(), (int) AllLightmapTags[i],
sTexNameJ.c_str(), (int) AllLightmapTags[j]) +
" at ("+NLMISC::toString(x)+","+NLMISC::toString(y)+")\n");
try
{
inFile.open (sTexNameI);
BitmapI.load (inFile);
inFile.close ();
inFile.open (sTexNameJ);
BitmapJ.load (inFile);
inFile.close ();
}
catch (NLMISC::Exception &e)
{
outString (string("ERROR :") + e.what());
return -1;
}
if (!putIn (&BitmapI, &BitmapJ, x, y))
{
outString (string("ERROR : cannot put lightmap ")+sTexNameI+" in "+sTexNameJ+"\n");
return -1;
}
// Delete File
DeleteFile (sTexNameI.c_str());
outString (string("INFO : Deleting file ")+sTexNameI+"\n");
// Save destination image
NLMISC::COFile outFile;
outFile.open (sTexNameJ);
BitmapJ.writeTGA (outFile, 32);
outString (string("INFO : Saving file ")+sTexNameJ+"\n");
}
// Change shapes uvs related and names to the lightmap
// ---------------------------------------------------
SetCurrentDirectory (sSHPDir);
for (k = 0; k < (sint32)AllShapes.size(); ++k)
{
CMeshBase *pMB = AllShapes[k];
if (!pMB)
continue;
uint nNbMat = pMB->getNbMaterial ();
vector< vector<bool> > VerticesNeedRemap;
bool bMustSave = false;
// Initialize all VerticesNeedRemap
CMesh *pMesh = dynamic_cast<CMesh*>(pMB);
CMeshMRM *pMeshMRM = dynamic_cast<CMeshMRM*>(pMB);
CMeshMultiLod *pMeshML = dynamic_cast<CMeshMultiLod*>(pMB);
if (pMesh != NULL)
{
VerticesNeedRemap.resize(1); // Only one meshgeom
vector<bool> &rVNR = VerticesNeedRemap[0];
rVNR.resize (pMesh->getMeshGeom().getVertexBuffer().getNumVertices(), false);
}
else if (pMeshMRM != NULL)
{
VerticesNeedRemap.resize(1); // Only one meshmrmgeom
vector<bool> &rVNR = VerticesNeedRemap[0];
rVNR.resize (pMeshMRM->getMeshGeom().getVertexBuffer().getNumVertices(), false);
}
else if (pMeshML != NULL)
{
sint32 nNumSlot = pMeshML->getNumSlotMesh();
VerticesNeedRemap.resize(nNumSlot);
for (m = 0; m < nNumSlot; ++m)
{
vector<bool> &rVNR = VerticesNeedRemap[m];
const CMeshGeom *pMG = dynamic_cast<const CMeshGeom*>(&pMeshML->getMeshGeom(m));
if (pMG != NULL)
rVNR.resize (pMG->getVertexBuffer().getNumVertices(), false);
else
rVNR.resize(0);
}
}
else continue; // Next mesh
// All materials must have the lightmap names changed
for (m = 0; m < (sint32)nNbMat; ++m)
{
bool bMustRemapUV = false;
CMaterial& rMat = const_cast<CMaterial&>(pMB->getMaterial (m));
if (rMat.getShader() == CMaterial::LightMap)
{
// Begin with stage 0
uint8 stage = 0;
while (rMat.getLightMap(stage) != NULL)
{
ITexture *pIT = rMat.getLightMap (stage);
CTextureFile *pTF = dynamic_cast<CTextureFile*>(pIT);
if (pTF != NULL)
{
string sTexName = NLMISC::strlwr(getBaseName(pTF->getFileName()));
string sTexNameMoved = NLMISC::strlwr(getBaseName(AllLightmapNames[i]));
if (sTexName == sTexNameMoved)
{
// We must remap the name and indicate to remap uvs
bMustRemapUV = true;
//string sNewTexName = NLMISC::strlwr(getBaseName(AllLightmapNames[j]));
//sNewTexName += NLMISC::toString(getLayerNb(pTF->getFileName())) + ".tga";
//pTF->setFileName (sNewTexName);
}
}
++stage;
}
}
// We have to remap the uvs of this mesh for this material
if (bMustRemapUV) // Flaggage of the vertices to remap
{
if (pMesh != NULL)
{
// Flag all vertices linked to face with material m
FlagVertices (const_cast<CMeshGeom&>(pMesh->getMeshGeom()), m, VerticesNeedRemap[0]);
}
else if (pMeshMRM != NULL)
{
FlagVerticesMRM (const_cast<CMeshMRMGeom&>(pMeshMRM->getMeshGeom()), m, VerticesNeedRemap[0]);
}
else if (pMeshML != NULL)
{
sint32 nNumSlot = pMeshML->getNumSlotMesh();
for (n = 0; n < nNumSlot; ++n)
{
// Get the mesh geom
CMeshGeom *pMG = const_cast<CMeshGeom*>(dynamic_cast<const CMeshGeom*>(&pMeshML->getMeshGeom(n)));
if (pMG)
{
// Flag the vertices
FlagVertices (*pMG, m, VerticesNeedRemap[n]);
}
else
{
// Get the mesh MRM geom
CMeshMRMGeom *pMMRMG = const_cast<CMeshMRMGeom*>(dynamic_cast<const CMeshMRMGeom*>(&pMeshML->getMeshGeom(n)));
if (pMMRMG)
{
// Flag the vertices
FlagVerticesMRM (*pMMRMG, m, VerticesNeedRemap[n]);
}
}
}
}
}
}
// Change lightmap names
for (m = 0; m < (sint32)nNbMat; ++m)
{
CMaterial& rMat = const_cast<CMaterial&>(pMB->getMaterial (m));
if (rMat.getShader() == CMaterial::LightMap)
{
// Begin with stage 0
uint8 stage = 0;
while (rMat.getLightMap(stage) != NULL)
{
ITexture *pIT = rMat.getLightMap (stage);
CTextureFile *pTF = dynamic_cast<CTextureFile*>(pIT);
if (pTF != NULL)
{
string sTexName = NLMISC::strlwr(getBaseName(pTF->getFileName()));
string sTexNameMoved = NLMISC::strlwr(getBaseName(AllLightmapNames[i]));
if (sTexName == sTexNameMoved)
{
string sNewTexName = NLMISC::strlwr(getBaseName(AllLightmapNames[j]));
sNewTexName += NLMISC::toString(getLayerNb(pTF->getFileName())) + ".tga";
pTF->setFileName (sNewTexName);
}
}
++stage;
}
}
}
// We have now the list of vertices to remap for all material that have been changed
// So parse this list and apply the transformation : (uv * TexSizeI + decalXY) / TexSizeJ
for (m = 0; m < (sint32)VerticesNeedRemap.size(); ++m)
{
CVertexBuffer *pVB;
if (pMesh != NULL)
{
pVB = const_cast<CVertexBuffer*>(&pMesh->getMeshGeom().getVertexBuffer());
}
else if (pMeshMRM != NULL)
{
pVB = const_cast<CVertexBuffer*>(&pMeshMRM->getMeshGeom().getVertexBuffer());
}
else if (pMeshML != NULL)
{
const CMeshGeom *pMG = dynamic_cast<const CMeshGeom*>(&pMeshML->getMeshGeom(m));
pVB = const_cast<CVertexBuffer*>(&pMG->getVertexBuffer());
}
CVertexBufferReadWrite vba;
pVB->lock (vba);
vector<bool> &rVNR = VerticesNeedRemap[m];
for (n = 0; n < (sint32)rVNR.size(); ++n)
if (rVNR[n])
{
CUV *pUV = (CUV*)vba.getTexCoordPointer (n,1);
pUV->U = (pUV->U*pBI->getWidth() + x) / pBJ->getWidth();
pUV->V = (pUV->V*pBI->getHeight() + y) / pBJ->getHeight();
bMustSave = true;
}
}
if (bMustSave)
{
try
{
if (AllShapes[k])
{
CShapeStream mesh;
mesh.setShapePointer (AllShapes[k]);
NLMISC::COFile meshfile (AllShapeNames[k]);
meshfile.serial (mesh);
meshfile.close ();
}
}
catch (NLMISC::EPathNotFound &e)
{
outString(string("ERROR: cannot save shape ")+AllShapeNames[k]+" - "+e.what());
return -1;
}
}
}
SetCurrentDirectory (sLMPDir);
// Get out of the j loop
break;
}
}
// if assigned to another bitmap -> delete the bitmap i
if (bAssigned)
{
// Delete Names && tags
for (j = i+1; j < (sint32)AllLightmapNames.size(); ++j)
{
AllLightmapNames[j-1] = AllLightmapNames[j];
AllLightmapTags[j-1] = AllLightmapTags[j];
}
AllLightmapNames.resize (AllLightmapNames.size()-1);
AllLightmapTags.resize (AllLightmapTags.size()-1);
// Delete Lightmaps
delete AllLightmaps[i];
for (j = i+1; j < (sint32)AllLightmaps.size(); ++j)
AllLightmaps[j-1] = AllLightmaps[j];
AllLightmaps.resize (AllLightmaps.size()-1);
i = i - 1;
}
}
}
// **** Additionally, output or clear a "flag file" in a dir to info if a 8bit lihgtmap or not
if (nNbArg >=5 && ppArgs[4] && strlen(ppArgs[4]) > 0)
{
SetCurrentDirectory (sExeDir);
// out a text file, with list of
FILE *out= fopen(ppArgs[4], "wt");
if(!out)
{
outString(string("ERROR: cannot save ")+ppArgs[4]);
}
set<string>::iterator it(setLM8Bit.begin()), end(setLM8Bit.end());
for(;it!=end;it++)
{
string temp= (*it);
temp+= "\n";
fputs(temp.c_str(), out);
}
fclose(out);
}
return 0;
}
//-----------------------------------------------
// computeVS :
// compute Visual Slots for this sheet.
//-----------------------------------------------
void CSheetManager::computeVS()
{
static std::map< std::string, uint16 > ProcessedItem;
map< string, uint16 >::iterator it;
CVisualSlotManager::TVisualSlot vs;
vs.resize(SLOTTYPE::NB_SLOT);
//
TEntitySheetMap::iterator itS = _EntitySheetContainer.begin();
while(itS != _EntitySheetContainer.end())
{
// Visual Slots are only valid for Items.
CItemSheet *item = dynamic_cast<CItemSheet *>((*itS).second.EntitySheet);
if (item && (*itS).first.getSheetType()==CSheetId::typeFromFileExtension(std::string("sitem")))
{
for(uint j=0; j<SLOTTYPE::NB_SLOT_TYPE; ++j)
{
SLOTTYPE::TSlotType slotType= (SLOTTYPE::TSlotType)j;
if( item->hasSlot(slotType) )
{
SLOTTYPE::EVisualSlot visualSlot = SLOTTYPE::convertTypeToVisualSlot(slotType);
if(visualSlot != SLOTTYPE::HIDDEN_SLOT)
{
string currentSheet = ((*itS).first).toString();
CVisualSlotManager::TElement vsElmt;
string sheetName = toString("%s%d", currentSheet.c_str(), visualSlot);
// Is the sheet already process (could be process by a sheet with a different lvl)
it = ProcessedItem.find( sheetName );
// Insert if not found
if(it == ProcessedItem.end())
{
uint itemNumber;
if(vs[visualSlot].Element.size() == 0)
itemNumber = 1;
else
itemNumber = vs[visualSlot].Element[vs[visualSlot].Element.size()-1].Index+1;
// Item Processed
ProcessedItem.insert(make_pair(sheetName, itemNumber));
vsElmt.Index = itemNumber;
}
else
{
vsElmt.Index = (*it).second;
}
//
vsElmt.SheetId = (*itS).first;
vs[visualSlot].Element.push_back(vsElmt);
}
}
}
}
// Next Sheet
++itS;
}
// Open the file.
NLMISC::COFile f;
if(f.open("visual_slot.tab"))
{
// Dump entities.
f.serialCont(vs);
// Close the File.
f.close();
}
else
nlwarning("SheetMngr:load: cannot open/create the file 'visual_slot.tab'.");
}// computeVS //
