GlyphSetPtr GlyphSet::createFromDatFile(const std::string& vfsPath,
const std::string& fontname,
const std::string& language,
Resolution resolution)
{
ArchiveFilePtr file = GlobalFileSystem().openFile(vfsPath);
// Check file size
if (file->size() != sizeof(q3font::Q3FontInfo))
{
rWarning() << "FontLoader: invalid file size of file "
<< vfsPath << ", expected " << sizeof(q3font::Q3FontInfo)
<< ", found " << file->size() << std::endl;
return GlyphSetPtr();
}
// Allocate a buffer with the Quake3 info structure
q3font::Q3FontInfoPtr buf(new q3font::Q3FontInfo);
InputStream& stream = file->getInputStream();
stream.read(
reinterpret_cast<StreamBase::byte_type*>(buf.get()),
sizeof(q3font::Q3FontInfo)
);
// Construct a glyph set using the loaded info
GlyphSetPtr glyphSet(new GlyphSet(*buf, fontname, language, resolution));
rMessage() << "FontLoader: " << vfsPath << " loaded successfully." << std::endl;
return glyphSet;
}
model::IModelPtr MD5ModelLoader::loadModelFromPath(const std::string& name)
{
// Open an ArchiveFile to load
ArchiveFilePtr file = GlobalFileSystem().openFile(name);
if (file != NULL)
{
// Construct a new MD5Model container
MD5ModelPtr model(new MD5Model);
// Store the VFS path in this model
model->setModelPath(name);
// Set the filename this model was loaded from
model->setFilename(os::getFilename(file->getName()));
// greebo: Get the Inputstream from the given file
BinaryToTextInputStream<InputStream> inputStream(file->getInputStream());
// Construct a Tokeniser object and start reading the file
try
{
std::istream is(&inputStream);
parser::BasicDefTokeniser<std::istream> tokeniser(is);
// Invoke the parser routine (might throw)
model->parseFromTokens(tokeniser);
}
catch (parser::ParseException& e)
{
rError() << "[md5model] Parse failure. Exception was:" << std::endl
<< e.what() << std::endl;
// Return an empty model on error
return model::IModelPtr();
}
// Load was successful, return the model
return model;
}
else
{
rError() << "Failed to load model " << name << std::endl;
return model::IModelPtr(); // delete the model
}
}
// Load the given model from the VFS path
IModelPtr PicoModelLoader::loadModelFromPath(const std::string& name)
{
// Open an ArchiveFile to load
ArchiveFilePtr file = GlobalFileSystem().openFile(name);
if (file == NULL)
{
rError() << "Failed to load model " << name << std::endl;
return IModelPtr();
}
// Determine the file extension (ASE or LWO) to pass down to the PicoModel
std::string fName = file->getName();
boost::algorithm::to_lower(fName);
std::string fExt = fName.substr(fName.size() - 3, 3);
picoModel_t* model = PicoModuleLoadModelStream(
_module,
&file->getInputStream(),
picoInputStreamReam,
file->size(),
0
);
// greebo: Check if the model load was successful
if (model == NULL || model->numSurfaces == 0) {
// Model is either NULL or has no surfaces, this must've failed
return IModelPtr();
}
RenderablePicoModelPtr modelObj(
new RenderablePicoModel(model, fExt)
);
// Set the filename
modelObj->setFilename(os::getFilename(file->getName()));
modelObj->setModelPath(name);
PicoFreeModel(model);
return modelObj;
}
std::size_t Doom3FileSystem::loadFile(const std::string& filename, void **buffer) {
std::string fixedFilename(os::standardPathWithSlash(filename));
ArchiveFilePtr file = openFile(fixedFilename);
if (file != NULL) {
// Allocate one byte more for the trailing zero
*buffer = malloc(file->size()+1);
// we need to end the buffer with a 0
((char*) (*buffer))[file->size()] = 0;
std::size_t length = file->getInputStream().read(
reinterpret_cast<InputStream::byte_type*>(*buffer),
file->size()
);
return length;
}
*buffer = NULL;
return 0;
}
