bool ExtractSingleModel(std::string& fname)
{
if (fname.substr(fname.length() - 4, 4) == ".mdx")
{
fname.erase(fname.length() - 2, 2);
fname.append("2");
}
std::string originalName = fname;
char* name = GetPlainName((char*)fname.c_str());
FixNameCase(name, strlen(name));
FixNameSpaces(name, strlen(name));
std::string output(szWorkDirWmo);
output += "/";
output += name;
if (FileExists(output.c_str()))
return true;
Model mdl(originalName);
if (!mdl.open())
return false;
return mdl.ConvertToVMAPModel(output.c_str());
}
void ExtractGameobjectModels()
{
printf("Extracting GameObject models...");
DBCFile dbc(LocaleMpq, "DBFilesClient\\GameObjectDisplayInfo.dbc");
if(!dbc.open())
{
printf("Fatal error: Invalid GameObjectDisplayInfo.dbc file format!\n");
exit(1);
}
std::string basepath = szWorkDirWmo;
basepath += "/";
std::string path;
FILE * model_list = fopen((basepath + "temp_gameobject_models").c_str(), "wb");
for (DBCFile::Iterator it = dbc.begin(); it != dbc.end(); ++it)
{
path = it->getString(1);
if (path.length() < 4)
continue;
FixNameCase((char*)path.c_str(), path.size());
char * name = GetPlainName((char*)path.c_str());
FixNameSpaces(name, strlen(name));
char * ch_ext = GetExtension(name);
if (!ch_ext)
continue;
strToLower(ch_ext);
bool result = false;
if (!strcmp(ch_ext, ".wmo"))
result = ExtractSingleWmo(path);
else if (!strcmp(ch_ext, ".mdl")) // TODO: extract .mdl files, if needed
continue;
else //if (!strcmp(ch_ext, ".mdx") || !strcmp(ch_ext, ".m2"))
result = ExtractSingleModel(path);
if (result)
{
uint32 displayId = it->getUInt(0);
uint32 path_length = strlen(name);
fwrite(&displayId, sizeof(uint32), 1, model_list);
fwrite(&path_length, sizeof(uint32), 1, model_list);
fwrite(name, sizeof(char), path_length, model_list);
}
}
fclose(model_list);
printf("Done!\n");
}
bool ADTFile::init(uint32 map_num, uint32 originalMapId)
{
if (dirfileCache)
return initFromCache(map_num, originalMapId);
if (_file.isEof())
return false;
uint32 size;
std::string dirname = std::string(szWorkDirWmo) + "/dir_bin";
FILE* dirfile = fopen(dirname.c_str(), "ab");
if(!dirfile)
{
printf("Can't open dirfile!'%s'\n", dirname.c_str());
return false;
}
if (cacheable)
dirfileCache = new std::vector<ADTOutputCache>();
while (!_file.isEof())
{
char fourcc[5];
_file.read(&fourcc,4);
_file.read(&size, 4);
flipcc(fourcc);
fourcc[4] = 0;
size_t nextpos = _file.getPos() + size;
if (!strcmp(fourcc,"MCIN"))
{
}
else if (!strcmp(fourcc,"MTEX"))
{
}
else if (!strcmp(fourcc,"MMDX"))
{
if (size)
{
char* buf = new char[size];
_file.read(buf, size);
char* p = buf;
while (p < buf + size)
{
std::string path(p);
char* s = GetPlainName(p);
FixNameCase(s, strlen(s));
FixNameSpaces(s, strlen(s));
ModelInstanceNames.emplace_back(s);
ExtractSingleModel(path);
p += strlen(p) + 1;
}
delete[] buf;
}
}
else if (!strcmp(fourcc,"MWMO"))
{
if (size)
{
char* buf = new char[size];
_file.read(buf, size);
char* p = buf;
while (p < buf + size)
{
std::string path(p);
char* s = GetPlainName(p);
FixNameCase(s, strlen(s));
FixNameSpaces(s, strlen(s));
WmoInstanceNames.emplace_back(s);
ExtractSingleWmo(path);
p += strlen(p) + 1;
}
delete[] buf;
}
}
//======================
else if (!strcmp(fourcc, "MDDF"))
{
if (size)
{
uint32 doodadCount = size / sizeof(ADT::MDDF);
for (uint32 i = 0; i < doodadCount; ++i)
{
ADT::MDDF doodadDef;
_file.read(&doodadDef, sizeof(ADT::MDDF));
if (!(doodadDef.Flags & 0x40))
{
Doodad::Extract(doodadDef, ModelInstanceNames[doodadDef.Id].c_str(), map_num, originalMapId, dirfile, dirfileCache);
}
else
{
std::string fileName = Trinity::StringFormat("FILE%08X.xxx", doodadDef.Id);
ExtractSingleModel(fileName);
Doodad::Extract(doodadDef, fileName.c_str(), map_num, originalMapId, dirfile, dirfileCache);
}
}
ModelInstanceNames.clear();
}
}
else if (!strcmp(fourcc,"MODF"))
{
if (size)
{
uint32 mapObjectCount = size / sizeof(ADT::MODF);
for (uint32 i = 0; i < mapObjectCount; ++i)
{
ADT::MODF mapObjDef;
_file.read(&mapObjDef, sizeof(ADT::MODF));
if (!(mapObjDef.Flags & 0x8))
{
MapObject::Extract(mapObjDef, WmoInstanceNames[mapObjDef.Id].c_str(), false, map_num, originalMapId, dirfile, dirfileCache);
Doodad::ExtractSet(WmoDoodads[WmoInstanceNames[mapObjDef.Id]], mapObjDef, false, map_num, originalMapId, dirfile, dirfileCache);
}
else
{
std::string fileName = Trinity::StringFormat("FILE%08X.xxx", mapObjDef.Id);
ExtractSingleWmo(fileName);
MapObject::Extract(mapObjDef, fileName.c_str(), false, map_num, originalMapId, dirfile, dirfileCache);
Doodad::ExtractSet(WmoDoodads[fileName], mapObjDef, false, map_num, originalMapId, dirfile, dirfileCache);
}
}
WmoInstanceNames.clear();
}
}
//======================
_file.seek(nextpos);
}
_file.close();
fclose(dirfile);
return true;
}
bool ADTFile::init(uint32 map_num, uint32 tileX, uint32 tileY)
{
if(ADT.isEof ())
return false;
uint32 size;
string xMap;
string yMap;
Adtfilename.erase(Adtfilename.find(".adt"),4);
string TempMapNumber;
TempMapNumber = Adtfilename.substr(Adtfilename.length()-6,6);
xMap = TempMapNumber.substr(TempMapNumber.find("_")+1,(TempMapNumber.find_last_of("_")-1) - (TempMapNumber.find("_")));
yMap = TempMapNumber.substr(TempMapNumber.find_last_of("_")+1,(TempMapNumber.length()) - (TempMapNumber.find_last_of("_")));
Adtfilename.erase((Adtfilename.length()-xMap.length()-yMap.length()-2), (xMap.length()+yMap.length()+2));
//string AdtMapNumber = xMap + ' ' + yMap + ' ' + GetPlainName((char*)Adtfilename.c_str());
//printf("Processing map %s...\n", AdtMapNumber.c_str());
//printf("MapNumber = %s\n", TempMapNumber.c_str());
//printf("xMap = %s\n", xMap.c_str());
//printf("yMap = %s\n", yMap.c_str());
std::string dirname = std::string(szWorkDirWmo) + "/dir_bin";
FILE *dirfile;
dirfile = fopen(dirname.c_str(), "ab");
if(!dirfile)
{
printf("Can't open dirfile!'%s'\n", dirname.c_str());
return false;
}
while (!ADT.isEof())
{
char fourcc[5];
ADT.read(&fourcc,4);
ADT.read(&size, 4);
flipcc(fourcc);
fourcc[4] = 0;
size_t nextpos = ADT.getPos() + size;
if (!strcmp(fourcc,"MCIN"))
{
}
else if (!strcmp(fourcc,"MTEX"))
{
}
else if (!strcmp(fourcc,"MMDX"))
{
if (size)
{
char* buf = new char[size];
ADT.read(buf, size);
char* p = buf;
int t = 0;
ModelInstanceNames = new std::string[size];
while (p < buf + size)
{
std::string path(p);
char* s = GetPlainName(p);
FixNameCase(s, strlen(s));
FixNameSpaces(s, strlen(s));
ModelInstanceNames[t++] = s;
ExtractSingleModel(path);
p += strlen(p) + 1;
}
delete[] buf;
}
}
else if (!strcmp(fourcc,"MWMO"))
{
if (size)
{
char* buf = new char[size];
ADT.read(buf, size);
char* p = buf;
int q = 0;
WmoInstanceNames = new std::string[size];
while (p < buf + size)
{
char* s = GetPlainName(p);
FixNameCase(s, strlen(s));
FixNameSpaces(s, strlen(s));
WmoInstanceNames[q++] = s;
p += strlen(p) + 1;
}
delete[] buf;
}
}
//======================
else if (!strcmp(fourcc,"MDDF"))
{
if (size)
{
nMDX = (int)size / 36;
for (int i=0; i<nMDX; ++i)
{
uint32 id;
ADT.read(&id, 4);
ModelInstance inst(ADT, ModelInstanceNames[id].c_str(), map_num, tileX, tileY, dirfile);
}
delete[] ModelInstanceNames;
ModelInstanceNames = NULL;
}
}
else if (!strcmp(fourcc,"MODF"))
{
if (size)
{
nWMO = (int)size / 64;
for (int i=0; i<nWMO; ++i)
{
uint32 id;
ADT.read(&id, 4);
WMOInstance inst(ADT, WmoInstanceNames[id].c_str(), map_num, tileX, tileY, dirfile);
}
delete[] WmoInstanceNames;
WmoInstanceNames = NULL;
}
}
//======================
ADT.seek(nextpos);
}
ADT.close();
fclose(dirfile);
return true;
}
bool ADTFile::init(uint32 map_num, uint32 tileX, uint32 tileY)
{
if (ADT.isEof())
return false;
uint32 size;
std::string dirname = std::string(szWorkDirWmo) + "/dir_bin";
FILE *dirfile;
dirfile = fopen(dirname.c_str(), "ab");
if(!dirfile)
{
printf("Can't open dirfile!'%s'\n", dirname.c_str());
return false;
}
while (!ADT.isEof())
{
char fourcc[5];
ADT.read(&fourcc,4);
ADT.read(&size, 4);
flipcc(fourcc);
fourcc[4] = 0;
size_t nextpos = ADT.getPos() + size;
if (!strcmp(fourcc,"MCIN"))
{
}
else if (!strcmp(fourcc,"MTEX"))
{
}
else if (!strcmp(fourcc,"MMDX"))
{
if (size)
{
char* buf = new char[size];
ADT.read(buf, size);
char* p = buf;
while (p < buf + size)
{
std::string path(p);
char* s = GetPlainName(p);
FixNameCase(s, strlen(s));
FixNameSpaces(s, strlen(s));
ModelInstanceNames.push_back(s);
ExtractSingleModel(path);
p += strlen(p) + 1;
}
delete[] buf;
}
}
else if (!strcmp(fourcc,"MWMO"))
{
if (size)
{
char* buf = new char[size];
ADT.read(buf, size);
char* p = buf;
while (p < buf + size)
{
char* s = GetPlainName(p);
FixNameCase(s, strlen(s));
FixNameSpaces(s, strlen(s));
WmoInstanceNames.push_back(s);
p += strlen(p) + 1;
}
delete[] buf;
}
}
//======================
else if (!strcmp(fourcc,"MDDF"))
{
if (size)
{
nMDX = (int)size / 36;
for (int i=0; i<nMDX; ++i)
{
uint32 id;
ADT.read(&id, 4);
ModelInstance inst(ADT, ModelInstanceNames[id].c_str(), map_num, tileX, tileY, dirfile);
}
ModelInstanceNames.clear();
}
}
else if (!strcmp(fourcc,"MODF"))
{
if (size)
{
nWMO = (int)size / 64;
for (int i=0; i<nWMO; ++i)
{
uint32 id;
ADT.read(&id, 4);
WMOInstance inst(ADT, WmoInstanceNames[id].c_str(), map_num, tileX, tileY, dirfile);
}
WmoInstanceNames.clear();
}
}
//======================
ADT.seek(nextpos);
}
ADT.close();
fclose(dirfile);
return true;
}
bool ExtractSingleWmo(std::string& fname)
{
// Copy files from archive
char szLocalFile[1024];
const char * plain_name = GetPlainName(fname.c_str());
sprintf(szLocalFile, "%s/%s", szWorkDirWmo, plain_name);
FixNameCase(szLocalFile, strlen(szLocalFile));
FixNameSpaces(szLocalFile, strlen(szLocalFile));
if (FileExists(szLocalFile))
return true;
int p = 0;
// Select root wmo files
char const* rchr = strrchr(plain_name, '_');
if (rchr != NULL)
{
char cpy[4];
memcpy(cpy, rchr, 4);
for (int i = 0; i < 4; ++i)
{
int m = cpy[i];
if (isdigit(m))
p++;
}
}
if (p == 3)
return true;
bool file_ok = true;
printf("Extracting %s\n", fname.c_str());
WMORoot froot(fname);
if(!froot.open())
{
printf("Couldn't open RootWmo!!!\n");
return true;
}
FILE *output = fopen(szLocalFile,"wb");
if(!output)
{
printf("couldn't open %s for writing!\n", szLocalFile);
return false;
}
froot.ConvertToVMAPRootWmo(output);
int Wmo_nVertices = 0;
//printf("root has %d groups\n", froot->nGroups);
for (std::size_t i = 0; i < froot.groupFileDataIDs.size(); ++i)
{
std::string s = Trinity::StringFormat("FILE%08X.xxx", froot.groupFileDataIDs[i]);
WMOGroup fgroup(s);
if(!fgroup.open())
{
printf("Could not open all Group file for: %s\n", plain_name);
file_ok = false;
break;
}
Wmo_nVertices += fgroup.ConvertToVMAPGroupWmo(output, &froot, preciseVectorData);
}
fseek(output, 8, SEEK_SET); // store the correct no of vertices
fwrite(&Wmo_nVertices,sizeof(int),1,output);
fclose(output);
// Delete the extracted file in the case of an error
if (!file_ok)
remove(szLocalFile);
return true;
}
bool ExtractSingleWmo(std::string& fname)
{
// Copy files from archive
std::string originalName = fname;
char szLocalFile[1024];
char* plain_name = GetPlainName(&fname[0]);
FixNameCase(plain_name, strlen(plain_name));
FixNameSpaces(plain_name, strlen(plain_name));
sprintf(szLocalFile, "%s/%s", szWorkDirWmo, plain_name);
if (FileExists(szLocalFile))
return true;
int p = 0;
// Select root wmo files
char const* rchr = strrchr(plain_name, '_');
if (rchr != NULL)
{
char cpy[4];
memcpy(cpy, rchr, 4);
for (int i = 0; i < 4; ++i)
{
int m = cpy[i];
if (isdigit(m))
p++;
}
}
if (p == 3)
return true;
bool file_ok = true;
printf("Extracting %s\n", originalName.c_str());
WMORoot froot(originalName);
if (!froot.open())
{
printf("Couldn't open RootWmo!!!\n");
return true;
}
FILE *output = fopen(szLocalFile,"wb");
if(!output)
{
printf("couldn't open %s for writing!\n", szLocalFile);
return false;
}
froot.ConvertToVMAPRootWmo(output);
WMODoodadData& doodads = WmoDoodads[plain_name];
std::swap(doodads, froot.DoodadData);
int Wmo_nVertices = 0;
//printf("root has %d groups\n", froot->nGroups);
for (std::size_t i = 0; i < froot.groupFileDataIDs.size(); ++i)
{
std::string s = Trinity::StringFormat("FILE%08X.xxx", froot.groupFileDataIDs[i]);
WMOGroup fgroup(s);
if (!fgroup.open(&froot))
{
printf("Could not open all Group file for: %s\n", plain_name);
file_ok = false;
break;
}
Wmo_nVertices += fgroup.ConvertToVMAPGroupWmo(output, preciseVectorData);
for (uint16 groupReference : fgroup.DoodadReferences)
{
if (groupReference >= doodads.Spawns.size())
continue;
uint32 doodadNameIndex = doodads.Spawns[groupReference].NameIndex;
if (froot.ValidDoodadNames.find(doodadNameIndex) == froot.ValidDoodadNames.end())
continue;
doodads.References.insert(groupReference);
}
}
fseek(output, 8, SEEK_SET); // store the correct no of vertices
fwrite(&Wmo_nVertices,sizeof(int),1,output);
fclose(output);
// Delete the extracted file in the case of an error
if (!file_ok)
remove(szLocalFile);
return true;
}
bool WDTFile::init(uint32 mapId)
{
if (_file.isEof())
return false;
char fourcc[5];
uint32 size;
std::string dirname = std::string(szWorkDirWmo) + "/dir_bin";
FILE* dirfile = fopen(dirname.c_str(), "ab");
if (!dirfile)
{
printf("Can't open dirfile!'%s'\n", dirname.c_str());
return false;
}
while (!_file.isEof())
{
_file.read(fourcc,4);
_file.read(&size, 4);
flipcc(fourcc);
fourcc[4] = 0;
size_t nextpos = _file.getPos() + size;
if (!strcmp(fourcc,"MAIN"))
{
}
if (!strcmp(fourcc,"MWMO"))
{
// global map objects
if (size)
{
char *buf = new char[size];
_file.read(buf, size);
char *p = buf;
while (p < buf + size)
{
std::string path(p);
char* s = wdtGetPlainName(p);
FixNameCase(s, strlen(s));
FixNameSpaces(s, strlen(s));
p = p + strlen(p) + 1;
_wmoNames.push_back(s);
ExtractSingleWmo(path);
}
delete[] buf;
}
}
else if (!strcmp(fourcc, "MODF"))
{
// global wmo instance data
if (size)
{
int32 gnWMO = (int)size / 64;
for (int i = 0; i < gnWMO; ++i)
{
int id;
_file.read(&id, 4);
WMOInstance inst(_file, _wmoNames[id].c_str(), mapId, 65, 65, mapId, dirfile, nullptr);
}
}
}
_file.seek((int)nextpos);
}
_file.close();
fclose(dirfile);
return true;
}
void ExtractGameobjectModels(char* input_path)
{
HANDLE localeFile;
char localMPQ[512];
sprintf(localMPQ, "%smisc.MPQ", input_path);
if (FileExists(localMPQ)==false)
{ // Use misc.mpq
printf(localMPQ, "%s/Data/%s/locale-%s.MPQ", input_path);
}
if (!SFileOpenArchive(localMPQ, 0, MPQ_OPEN_READ_ONLY, &localeFile))
{
exit(1);
}
printf("Extracting GameObject models...");
DBCFile dbc(localeFile, "DBFilesClient\\GameObjectDisplayInfo.dbc");
if(!dbc.open())
{
printf("Fatal error: Invalid GameObjectDisplayInfo.dbc file format!\n");
exit(1);
}
std::string basepath = szWorkDirWmo;
basepath += "/";
std::string path;
FILE * model_list = fopen((basepath + "temp_gameobject_models").c_str(), "wb");
for (DBCFile::Iterator it = dbc.begin(); it != dbc.end(); ++it)
{
path = it->getString(1);
if (path.length() < 4)
continue;
FixNameCase((char*)path.c_str(), path.size());
char * name = GetPlainName((char*)path.c_str());
FixNameSpaces(name, strlen(name));
char * ch_ext = GetExtension(name);
if (!ch_ext)
continue;
strToLower(ch_ext);
bool result = false;
if (!strcmp(ch_ext, ".wmo"))
result = ExtractSingleWmo(path);
else if (!strcmp(ch_ext, ".mdl")) // TODO: extract .mdl files, if needed
continue;
else //if (!strcmp(ch_ext, ".mdx") || !strcmp(ch_ext, ".m2"))
result = ExtractSingleModel(path);
if (result)
{
uint32 displayId = it->getUInt(0);
uint32 path_length = strlen(name);
fwrite(&displayId, sizeof(uint32), 1, model_list);
fwrite(&path_length, sizeof(uint32), 1, model_list);
fwrite(name, sizeof(char), path_length, model_list);
}
}
fclose(model_list);
printf("Done!\n");
}