OpenSceneGraph/include/osgDB/Registry
Ralf Habacker 3e7f2feb6b Identify files in object cache by filename and optional provided options.
Objects with the same filename may be different from others based on the provided
plugin options. Using filename *and* the provided options as object cache key
helps to avoid fetching the wrong object.

(cherry picked from commit 85cd1c456f)
2019-05-29 09:46:55 +02:00

747 lines
34 KiB
C++

/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2006 Robert Osfield
*
* This library is open source and may be redistributed and/or modified under
* the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or
* (at your option) any later version. The full license is in LICENSE file
* included with this distribution, and on the openscenegraph.org website.
*
* This library 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
* OpenSceneGraph Public License for more details.
*/
#ifndef OSGDB_REGISTRY
#define OSGDB_REGISTRY 1
#include <OpenThreads/ReentrantMutex>
#include <osg/ref_ptr>
#include <osg/ArgumentParser>
#include <osg/KdTree>
#include <osgDB/DynamicLibrary>
#include <osgDB/ReaderWriter>
#include <osgDB/Options>
#include <osgDB/DotOsgWrapper>
#include <osgDB/ObjectWrapper>
#include <osgDB/FileCache>
#include <osgDB/ObjectCache>
#include <osgDB/SharedStateManager>
#include <osgDB/ImageProcessor>
#include <vector>
#include <map>
#include <string>
extern "C"
{
typedef void (* CPluginFunction) (void);
}
namespace osgDB {
/**
Registry is a singleton factory which stores
the reader/writers which are linked in
at runtime for reading non-native file formats.
The RegisterReaderWriterProxy can be used to automatically
register at runtime a reader/writer with the Registry.
*/
class OSGDB_EXPORT Registry : public osg::Referenced
{
public:
static Registry* instance(bool erase = false);
/** read the command line arguments.*/
void readCommandLine(osg::ArgumentParser& commandLine);
/** register an .fileextension alias to mapExt toExt, the later
* should be the extension name of the readerwriter plugin library.
* For example to map .tif files to the tiff loader, use
* addExtAlias("tif","tiff") which will enable .tif to be read
* by the libdb_tiff readerwriter plugin.*/
void addFileExtensionAlias(const std::string mapExt, const std::string toExt);
/** Reads a file that configures extension mappings. File is ASCII text
* and each line contains the parameters to the addFileExtensionAlias
* method. Lines can be commented out with an initial '#' character.*/
bool readPluginAliasConfigurationFile( const std::string& file );
typedef std::map< std::string, std::string> MimeTypeExtensionMap;
/** Registers a mapping of a mime-type to an extension. A process fetching data
* over HTTP can use this facility to determine the proper ReaderWriter to use
* when there is no filename extension to rely upon.
*/
void addMimeTypeExtensionMapping(const std::string fromMimeType, const std::string toExt);
MimeTypeExtensionMap& getMimeTypeExtensionMap() { return _mimeTypeExtMap; }
const MimeTypeExtensionMap& getMimeTypeExtensionMap() const { return _mimeTypeExtMap; }
void addReaderWriter(ReaderWriter* rw);
void removeReaderWriter(ReaderWriter* rw);
void addImageProcessor(ImageProcessor* ip);
void removeImageProcessor(ImageProcessor* ip);
/** create the platform specific library name associated with file.*/
std::string createLibraryNameForFile(const std::string& fileName);
/** create the platform specific library name associated with file extension.*/
std::string createLibraryNameForExtension(const std::string& ext);
/** create the platform specific library name associated with nodekit library name.*/
std::string createLibraryNameForNodeKit(const std::string& name);
enum LoadStatus {
NOT_LOADED = 0,
PREVIOUSLY_LOADED,
LOADED
};
/** find the library in the OSG_LIBRARY_PATH and load it.*/
LoadStatus loadLibrary(const std::string& fileName);
/** close the attached library with specified name.*/
bool closeLibrary(const std::string& fileName);
/** close all libraries.*/
void closeAllLibraries();
typedef std::vector< osg::ref_ptr<ReaderWriter> > ReaderWriterList;
/** get a reader writer which handles specified extension.*/
ReaderWriter* getReaderWriterForExtension(const std::string& ext);
/** gets a reader/writer that handles the extension mapped to by one of
* the registered mime-types. */
ReaderWriter* getReaderWriterForMimeType(const std::string& mimeType);
/** get list of all registered ReaderWriters.*/
ReaderWriterList& getReaderWriterList() { return _rwList; }
/** get const list of all registered ReaderWriters.*/
const ReaderWriterList& getReaderWriterList() const { return _rwList; }
/** get a list of registered ReaderWriters which can handle given protocol */
void getReaderWriterListForProtocol(const std::string& protocol, ReaderWriterList& results) const;
ReaderWriter* getReaderWriterForProtocolAndExtension(const std::string& protocol, const std::string& extension);
typedef std::vector< osg::ref_ptr<ImageProcessor> > ImageProcessorList;
/** get a image processor if available.*/
ImageProcessor* getImageProcessor();
/** get a image processor which is associated specified extension.*/
ImageProcessor* getImageProcessorForExtension(const std::string& ext);
/** get list of all registered ImageProcessors.*/
ImageProcessorList& getImageProcessorList() { return _ipList; }
/** get const list of all registered ImageProcessors.*/
const ImageProcessorList& getImageProcessorList() const { return _ipList; }
typedef class osgDB::FindFileCallback FindFileCallback;
typedef class osgDB::ReadFileCallback ReadFileCallback;
typedef class osgDB::WriteFileCallback WriteFileCallback;
typedef class osgDB::FileLocationCallback FileLocationCallback;
/** Set the Registry callback to use in place of the default findFile calls.*/
void setFindFileCallback( FindFileCallback* cb) { _findFileCallback = cb; }
/** Get the findFile callback.*/
FindFileCallback* getFindFileCallback() { return _findFileCallback.get(); }
/** Get the const findFile callback.*/
const FindFileCallback* getFindFileCallback() const { return _findFileCallback.get(); }
std::string findDataFile(const std::string& fileName, const Options* options, CaseSensitivity caseSensitivity)
{
if (options && options->getFindFileCallback()) return options->getFindFileCallback()->findDataFile(fileName, options, caseSensitivity);
else if (_findFileCallback.valid()) return _findFileCallback->findDataFile(fileName, options, caseSensitivity);
else return findDataFileImplementation(fileName, options, caseSensitivity);
}
std::string findDataFileImplementation(const std::string& fileName, const Options* options, CaseSensitivity caseSensitivity);
std::string findLibraryFile(const std::string& fileName, const Options* options, CaseSensitivity caseSensitivity)
{
if (options && options->getFindFileCallback()) return options->getFindFileCallback()->findLibraryFile(fileName, options, caseSensitivity);
else if (_findFileCallback.valid()) return _findFileCallback->findLibraryFile(fileName, options, caseSensitivity);
else return findLibraryFileImplementation(fileName, options, caseSensitivity);
}
std::string findLibraryFileImplementation(const std::string& fileName, const Options* options, CaseSensitivity caseSensitivity);
/** Set the Registry callback to use in place of the default readFile calls.*/
void setReadFileCallback( ReadFileCallback* cb) { _readFileCallback = cb; }
/** Get the readFile callback.*/
ReadFileCallback* getReadFileCallback() { return _readFileCallback.get(); }
/** Get the const readFile callback.*/
const ReadFileCallback* getReadFileCallback() const { return _readFileCallback.get(); }
ReaderWriter::ReadResult openArchive(const std::string& fileName,ReaderWriter::ArchiveStatus status, unsigned int indexBlockSizeHint, const Options* options)
{
if (options && options->getReadFileCallback()) return options->getReadFileCallback()->openArchive(fileName, status, indexBlockSizeHint, options);
else if (_readFileCallback.valid()) return _readFileCallback->openArchive(fileName, status, indexBlockSizeHint, options);
else return openArchiveImplementation(fileName, status, indexBlockSizeHint, options);
}
ReaderWriter::ReadResult openArchiveImplementation(const std::string& fileName, ReaderWriter::ArchiveStatus status, unsigned int indexBlockSizeHint, const Options* options);
ReaderWriter::ReadResult readObject(const std::string& fileName,const Options* options, bool buildKdTreeIfRequired=true)
{
ReaderWriter::ReadResult result;
if (options && options->getReadFileCallback()) result = options->getReadFileCallback()->readObject(fileName,options);
else if (_readFileCallback.valid()) result = _readFileCallback->readObject(fileName,options);
else result = readObjectImplementation(fileName,options);
if (buildKdTreeIfRequired) _buildKdTreeIfRequired(result, options);
return result;
}
ReaderWriter::ReadResult readObjectImplementation(const std::string& fileName,const Options* options);
ReaderWriter::ReadResult readImage(const std::string& fileName,const Options* options)
{
if (options && options->getReadFileCallback()) return options->getReadFileCallback()->readImage(fileName,options);
else if (_readFileCallback.valid()) return _readFileCallback->readImage(fileName,options);
else return readImageImplementation(fileName,options);
}
ReaderWriter::ReadResult readImageImplementation(const std::string& fileName,const Options* options);
ReaderWriter::ReadResult readHeightField(const std::string& fileName,const Options* options)
{
if (options && options->getReadFileCallback()) return options->getReadFileCallback()->readHeightField(fileName,options);
else if (_readFileCallback.valid()) return _readFileCallback->readHeightField(fileName,options);
else return readHeightFieldImplementation(fileName,options);
}
ReaderWriter::ReadResult readHeightFieldImplementation(const std::string& fileName,const Options* options);
ReaderWriter::ReadResult readNode(const std::string& fileName,const Options* options, bool buildKdTreeIfRequired=true)
{
ReaderWriter::ReadResult result;
if (options && options->getReadFileCallback()) result = options->getReadFileCallback()->readNode(fileName,options);
else if (_readFileCallback.valid()) result = _readFileCallback->readNode(fileName,options);
else result = readNodeImplementation(fileName,options);
if (buildKdTreeIfRequired) _buildKdTreeIfRequired(result, options);
return result;
}
ReaderWriter::ReadResult readNodeImplementation(const std::string& fileName,const Options* options);
ReaderWriter::ReadResult readShader(const std::string& fileName,const Options* options)
{
if (options && options->getReadFileCallback()) return options->getReadFileCallback()->readShader(fileName,options);
if (_readFileCallback.valid()) return _readFileCallback->readShader(fileName,options);
else return readShaderImplementation(fileName,options);
}
ReaderWriter::ReadResult readShaderImplementation(const std::string& fileName,const Options* options);
ReaderWriter::ReadResult readScript(const std::string& fileName,const Options* options)
{
if (options && options->getReadFileCallback()) return options->getReadFileCallback()->readScript(fileName,options);
else if (_readFileCallback.valid()) return _readFileCallback->readScript(fileName,options);
else return readScriptImplementation(fileName,options);
}
ReaderWriter::ReadResult readScriptImplementation(const std::string& fileName,const Options* options);
/** Set the Registry callback to use in place of the default writeFile calls.*/
void setWriteFileCallback( WriteFileCallback* cb) { _writeFileCallback = cb; }
/** Get the writeFile callback.*/
WriteFileCallback* getWriteFileCallback() { return _writeFileCallback.get(); }
/** Get the const writeFile callback.*/
const WriteFileCallback* getWriteFileCallback() const { return _writeFileCallback.get(); }
ReaderWriter::WriteResult writeObject(const osg::Object& obj, const std::string& fileName,const Options* options)
{
if (options && options->getWriteFileCallback()) return options->getWriteFileCallback()->writeObject(obj,fileName,options);
else if (_writeFileCallback.valid()) return _writeFileCallback->writeObject(obj,fileName,options);
else return writeObjectImplementation(obj,fileName,options);
}
ReaderWriter::WriteResult writeObjectImplementation(const osg::Object& obj, const std::string& fileName,const Options* options);
ReaderWriter::WriteResult writeImage(const osg::Image& obj, const std::string& fileName,const Options* options)
{
if (options && options->getWriteFileCallback()) return options->getWriteFileCallback()->writeImage(obj,fileName,options);
else if (_writeFileCallback.valid()) return _writeFileCallback->writeImage(obj,fileName,options);
else return writeImageImplementation(obj,fileName,options);
}
ReaderWriter::WriteResult writeImageImplementation(const osg::Image& obj, const std::string& fileName,const Options* options);
ReaderWriter::WriteResult writeHeightField(const osg::HeightField& obj, const std::string& fileName,const Options* options)
{
if (options && options->getWriteFileCallback()) return options->getWriteFileCallback()->writeHeightField(obj,fileName,options);
else if (_writeFileCallback.valid()) return _writeFileCallback->writeHeightField(obj,fileName,options);
else return writeHeightFieldImplementation(obj,fileName,options);
}
ReaderWriter::WriteResult writeHeightFieldImplementation(const osg::HeightField& obj, const std::string& fileName,const Options* options);
ReaderWriter::WriteResult writeNode(const osg::Node& node, const std::string& fileName,const Options* options)
{
if (options && options->getWriteFileCallback()) return options->getWriteFileCallback()->writeNode(node,fileName,options);
else if (_writeFileCallback.valid()) return _writeFileCallback->writeNode(node,fileName,options);
else return writeNodeImplementation(node,fileName,options);
}
ReaderWriter::WriteResult writeNodeImplementation(const osg::Node& node, const std::string& fileName,const Options* options);
ReaderWriter::WriteResult writeShader(const osg::Shader& obj, const std::string& fileName,const Options* options)
{
if (options && options->getWriteFileCallback()) return options->getWriteFileCallback()->writeShader(obj,fileName,options);
else if (_writeFileCallback.valid()) return _writeFileCallback->writeShader(obj,fileName,options);
else return writeShaderImplementation(obj,fileName,options);
}
ReaderWriter::WriteResult writeShaderImplementation(const osg::Shader& obj, const std::string& fileName,const Options* options);
ReaderWriter::WriteResult writeScript(const osg::Script& obj, const std::string& fileName,const Options* options)
{
if (options && options->getWriteFileCallback()) return options->getWriteFileCallback()->writeScript(obj,fileName,options);
else if (_writeFileCallback.valid()) return _writeFileCallback->writeScript(obj,fileName,options);
else return writeScriptImplementation(obj,fileName,options);
}
ReaderWriter::WriteResult writeScriptImplementation(const osg::Script& obj, const std::string& fileName,const Options* options);
inline void _buildKdTreeIfRequired(ReaderWriter::ReadResult& result, const Options* options)
{
bool doKdTreeBuilder = (options && options->getBuildKdTreesHint()!=Options::NO_PREFERENCE) ?
options->getBuildKdTreesHint() == Options::BUILD_KDTREES :
_buildKdTreesHint == Options::BUILD_KDTREES;
if (doKdTreeBuilder && _kdTreeBuilder.valid() && result.validNode())
{
osg::ref_ptr<osg::KdTreeBuilder> builder = _kdTreeBuilder->clone();
result.getNode()->accept(*builder);
}
}
/** Set the callback to use inform to the DatabasePager whether a file is located on local or remote file system.*/
void setFileLocationCallback( FileLocationCallback* cb) { _fileLocationCallback = cb; }
/** Get the callback to use inform to the DatabasePager whether a file is located on local or remote file system.*/
FileLocationCallback* getFileLocationCallback() const { return _fileLocationCallback.get(); }
/** Set whether the KdTrees should be built for geometry in the loader model. */
void setBuildKdTreesHint(Options::BuildKdTreesHint hint) { _buildKdTreesHint = hint; }
/** Get whether the KdTrees should be built for geometry in the loader model. */
Options::BuildKdTreesHint getBuildKdTreesHint() const { return _buildKdTreesHint; }
/** Set the KdTreeBuilder visitor that is used to build KdTree on loaded models.*/
void setKdTreeBuilder(osg::KdTreeBuilder* builder) { _kdTreeBuilder = builder; }
/** Get the KdTreeBuilder visitor that is used to build KdTree on loaded models.*/
osg::KdTreeBuilder* getKdTreeBuilder() { return _kdTreeBuilder.get(); }
/** Set the FileCache that is used to manage local storage of files downloaded from the internet.*/
void setFileCache(FileCache* fileCache) { _fileCache = fileCache; }
/** Get the FileCache that is used to manage local storage of files downloaded from the internet.*/
FileCache* getFileCache() { return _fileCache.get(); }
/** Get the const FileCache that is used to manage local storage of files downloaded from the internet.*/
const FileCache* getFileCache() const { return _fileCache.get(); }
/** Set the password map to be used by plugins when access files from secure locations.*/
void setAuthenticationMap(AuthenticationMap* authenticationMap) { _authenticationMap = authenticationMap; }
/** Get the password map to be used by plugins when access files from secure locations.*/
AuthenticationMap* getAuthenticationMap() { return _authenticationMap.get(); }
/** Get the password map to be used by plugins when access files from secure locations.*/
const AuthenticationMap* getAuthenticationMap() const { return _authenticationMap.get(); }
void setCreateNodeFromImage(bool flag) { _createNodeFromImage = flag; }
bool getCreateNodeFromImage() const { return _createNodeFromImage; }
void setOptions(Options* opt) { _options = opt; }
Options* getOptions() { return _options.get(); }
const Options* getOptions() const { return _options.get(); }
/** initialize both the Data and Library FilePaths, by default called by the
* constructor, so it should only be required if you want to force
* the re-reading of environmental variables.*/
void initFilePathLists() { initDataFilePathList(); initLibraryFilePathList(); }
/** initialize the Data FilePath by reading the OSG_FILE_PATH environmental variable.*/
void initDataFilePathList();
/** Set the data file path using a list of paths stored in a FilePath, which is used when search for data files.*/
void setDataFilePathList(const FilePathList& filepath) { _dataFilePath = filepath; }
/** Set the data file path using a single string delimited either with ';' (Windows) or ':' (All other platforms), which is used when search for data files.*/
void setDataFilePathList(const std::string& paths);
/** get the data file path which is used when search for data files.*/
FilePathList& getDataFilePathList() { return _dataFilePath; }
/** get the const data file path which is used when search for data files.*/
const FilePathList& getDataFilePathList() const { return _dataFilePath; }
/** initialize the Library FilePath by reading the OSG_LIBRARY_PATH
* and the appropriate system environmental variables*/
void initLibraryFilePathList();
/** Set the library file path using a list of paths stored in a FilePath, which is used when search for data files.*/
void setLibraryFilePathList(const FilePathList& filepath) { _libraryFilePath = filepath; }
/** Set the library file path using a single string delimited either with ';' (Windows) or ':' (All other platforms), which is used when search for data files.*/
void setLibraryFilePathList(const std::string& paths);
/** get the library file path which is used when search for library (dso/dll's) files.*/
FilePathList& getLibraryFilePathList() { return _libraryFilePath; }
/** get the const library file path which is used when search for library (dso/dll's) files.*/
const FilePathList& getLibraryFilePathList() const { return _libraryFilePath; }
/** Set the ObjectCache that is used to manage local storage of files downloaded from the internet.*/
void setObjectCache(ObjectCache* objectCache) { _objectCache = objectCache; }
/** Get the ObjectCache that is used to manage local storage of files downloaded from the internet.*/
ObjectCache* getObjectCache() { return _objectCache.get(); }
/** Get the const ObjectCache that is used to manage local storage of files downloaded from the internet.*/
const ObjectCache* getObjectCache() const { return _objectCache.get(); }
/** set hint to viewer code calling removeExpiredObjectsInCache to specify how long it should give before expiring objects in Registry cache,*/
void setExpiryDelay(double expiryDelay) { _expiryDelay = expiryDelay; }
double getExpiryDelay() const { return _expiryDelay; }
/** For each object in the cache which has an reference count greater than 1
* (and therefore referenced by elsewhere in the application) set the time stamp
* for that object in the cache to specified time.
* This would typically be called once per frame by applications which are doing database paging,
* and need to prune objects that are no longer required.
* The time used is taken from the FrameStamp::getReferenceTime().*/
void updateTimeStampOfObjectsInCacheWithExternalReferences(const osg::FrameStamp& frameStamp);
/** Removed object in the cache which have a time stamp at or before the specified expiry time.
* This would typically be called once per frame by applications which are doing database paging,
* and need to prune objects that are no longer required, and called after the a called
* after the call to updateTimeStampOfObjectsInCacheWithExternalReferences(frameStamp).*/
void removeExpiredObjectsInCache(const osg::FrameStamp& frameStamp);
/** Remove all objects in the cache regardless of having external references or expiry times.*/
void clearObjectCache();
/** Add a filename,object,timestamp triple to the Registry::ObjectCache.*/
void addEntryToObjectCache(const std::string& filename, osg::Object* object, double timestamp = 0.0, Options *options = NULL);
/** Remove Object from cache.*/
void removeFromObjectCache(const std::string& fileName, Options *options = NULL);
/** Get an Object from the object cache*/
osg::Object* getFromObjectCache(const std::string& fileName, Options *options = NULL);
/** Get an ref_ptr<Object> from the object cache*/
osg::ref_ptr<osg::Object> getRefFromObjectCache(const std::string& fileName, Options *options = NULL);
/** Add archive to archive cache so that future calls reference this archive.*/
void addToArchiveCache(const std::string& fileName, osgDB::Archive* archive);
/** Remove Archive from cache.*/
void removeFromArchiveCache(const std::string& fileName);
/** Get an Archive from the archive cache.*/
osgDB::Archive* getFromArchiveCache(const std::string& fileName);
/** Get an ref_ptr<Archive> from the archive cache.*/
osg::ref_ptr<osgDB::Archive> getRefFromArchiveCache(const std::string& fileName);
/** Remove all archives from the archive cache.*/
void clearArchiveCache();
/** If State is non-zero, this function releases OpenGL objects for
* the specified graphics context. Otherwise, releases OpenGL objexts
* for all graphics contexts. */
void releaseGLObjects(osg::State* state=0);
/** get the attached library with specified name.*/
DynamicLibrary* getLibrary(const std::string& fileName);
/** Set the SharedStateManager.*/
void setSharedStateManager(SharedStateManager* SharedStateManager) { _sharedStateManager = SharedStateManager; }
/** Get the SharedStateManager, creating one if one is not already created.*/
SharedStateManager* getOrCreateSharedStateManager();
/** Get the SharedStateManager. Return 0 if no SharedStateManager has been assigned.*/
SharedStateManager* getSharedStateManager() { return _sharedStateManager.get(); }
/** Add an Archive extension.*/
void addArchiveExtension(const std::string ext);
/** registers a protocol */
void registerProtocol(const std::string& protocol);
/** returns true, if named protocol is registered */
bool isProtocolRegistered(const std::string& protocol);
/** Get the ObjectWrapperManager that is used to store all the ObjectWrappers. */
ObjectWrapperManager* getObjectWrapperManager() { return _objectWrapperManager.get(); }
/** Get the ObjectWrapperManager that is used to store all the ObjectWrappers. */
DeprecatedDotOsgWrapperManager* getDeprecatedDotOsgObjectWrapperManager() { return _deprecatedDotOsgWrapperManager.get(); }
typedef std::vector< std::string> ArchiveExtensionList;
const ArchiveExtensionList& getArchiveExtensions() const { return _archiveExtList; }
protected:
virtual ~Registry();
typedef std::vector< osg::ref_ptr<DynamicLibrary> > DynamicLibraryList;
typedef std::map< std::string, std::string> ExtensionAliasMap;
typedef std::map<std::string, osg::ref_ptr<osgDB::Archive> > ArchiveCache;
typedef std::set<std::string> RegisteredProtocolsSet;
/** constructor is private, as its a singleton, preventing
construction other than via the instance() method and
therefore ensuring only one copy is ever constructed*/
Registry();
/** get the attached library with specified name.*/
DynamicLibraryList::iterator getLibraryItr(const std::string& fileName);
Options::BuildKdTreesHint _buildKdTreesHint;
osg::ref_ptr<osg::KdTreeBuilder> _kdTreeBuilder;
osg::ref_ptr<FileCache> _fileCache;
osg::ref_ptr<AuthenticationMap> _authenticationMap;
bool _createNodeFromImage;
RegisteredProtocolsSet _registeredProtocols;
public:
/** Functor used in internal implementations.*/
struct ReadFunctor
{
ReadFunctor(const std::string& filename, const Options* options):
_filename(filename),
_options(options) {}
virtual ~ReadFunctor() {}
virtual ReaderWriter::ReadResult doRead(ReaderWriter& rw) const = 0;
virtual bool isValid(ReaderWriter::ReadResult& readResult) const = 0;
virtual bool isValid(osg::Object* object) const = 0;
virtual ReadFunctor* cloneType(const std::string& filename, const Options* options) const = 0;
std::string _filename;
const Options* _options;
};
protected:
void destruct();
// forward declare helper classes
struct ReadObjectFunctor;
struct ReadImageFunctor;
struct ReadHeightFieldFunctor;
struct ReadNodeFunctor;
struct ReadArchiveFunctor;
struct ReadShaderFunctor;
struct ReadScriptFunctor;
// make helper classes friends to get round VS6.0 "issues"
friend struct ReadFunctor;
friend struct ReadObjectFunctor;
friend struct ReadImageFunctor;
friend struct ReadHeightFieldFunctor;
friend struct ReadNodeFunctor;
friend struct ReadArchiveFunctor;
friend struct ReadShaderFunctor;
friend struct ReadScriptFunctor;
ReaderWriter::ReadResult read(const ReadFunctor& readFunctor);
ReaderWriter::ReadResult readImplementation(const ReadFunctor& readFunctor,Options::CacheHintOptions cacheHint);
// forward declare helper class
class AvailableReaderWriterIterator;
friend class AvailableReaderWriterIterator;
class AvailableArchiveIterator;
friend class AvailableArchiveIterator;
osg::ref_ptr<FindFileCallback> _findFileCallback;
osg::ref_ptr<ReadFileCallback> _readFileCallback;
osg::ref_ptr<WriteFileCallback> _writeFileCallback;
osg::ref_ptr<FileLocationCallback> _fileLocationCallback;
OpenThreads::ReentrantMutex _pluginMutex;
ReaderWriterList _rwList;
ImageProcessorList _ipList;
DynamicLibraryList _dlList;
OpenThreads::ReentrantMutex _archiveCacheMutex;
ArchiveCache _archiveCache;
bool _openingLibrary;
// map to alias to extensions to plugins.
ExtensionAliasMap _extAliasMap;
// maps mime-types to extensions.
MimeTypeExtensionMap _mimeTypeExtMap;
// Utility: Removes whitespace from both ends of a string.
static std::string trim( const std::string& str );
// options to pass to reader writers.
osg::ref_ptr<Options> _options;
FilePathList _dataFilePath;
FilePathList _libraryFilePath;
osg::ref_ptr<ObjectCache> _objectCache;
double _expiryDelay;
ArchiveExtensionList _archiveExtList;
osg::ref_ptr<SharedStateManager> _sharedStateManager;
osg::ref_ptr<ObjectWrapperManager> _objectWrapperManager;
osg::ref_ptr<DeprecatedDotOsgWrapperManager> _deprecatedDotOsgWrapperManager;
};
/** read the command line arguments.*/
inline void readCommandLine(osg::ArgumentParser& parser)
{
Registry::instance()->readCommandLine(parser);
}
/** Proxy class for automatic registration of reader/writers with the Registry.*/
template<class T>
class RegisterReaderWriterProxy
{
public:
RegisterReaderWriterProxy()
{
if (Registry::instance())
{
_rw = new T;
Registry::instance()->addReaderWriter(_rw.get());
}
}
~RegisterReaderWriterProxy()
{
if (Registry::instance())
{
Registry::instance()->removeReaderWriter(_rw.get());
}
}
T* get() { return _rw.get(); }
protected:
osg::ref_ptr<T> _rw;
};
/** Proxy class for automatic registration of reader/writers with the Registry.*/
template<class T>
class RegisterImageProcessorProxy
{
public:
RegisterImageProcessorProxy()
{
if (Registry::instance())
{
_rw = new T;
Registry::instance()->addImageProcessor(_rw.get());
}
}
~RegisterImageProcessorProxy()
{
if (Registry::instance())
{
Registry::instance()->removeImageProcessor(_rw.get());
}
}
T* get() { return _rw.get(); }
protected:
osg::ref_ptr<T> _rw;
};
struct PluginFunctionProxy
{
PluginFunctionProxy(CPluginFunction function) { (function)(); }
};
#define USE_OSGPLUGIN(ext) \
extern "C" void osgdb_##ext(void); \
static osgDB::PluginFunctionProxy proxy_##ext(osgdb_##ext);
#define USE_DOTOSGWRAPPER(classname) \
extern "C" void dotosgwrapper_##classname(void); \
static osgDB::PluginFunctionProxy proxy_dotosgwrapper_##classname(dotosgwrapper_##classname);
#define USE_DOTOSGWRAPPER_LIBRARY(libname) \
extern "C" void dotosgwrapper_library_##libname(void); \
static osgDB::PluginFunctionProxy proxy_dotosgwrapper_library_##libname(dotosgwrapper_library_##libname);
#define USE_SERIALIZER_WRAPPER(classname) \
extern "C" void wrapper_serializer_##classname(void); \
static osgDB::PluginFunctionProxy proxy_serializer_##classname(wrapper_serializer_##classname);
#define USE_SERIALIZER_WRAPPER_LIBRARY(libname) \
extern "C" void wrapper_serializer_library_##libname(void); \
static osgDB::PluginFunctionProxy proxy_serializer_library_##libname(wrapper_serializer_library_##libname);
#define USE_COMPRESSOR_WRAPPER(classname) \
extern "C" void wrapper_compressor_##classname(void); \
static osgDB::PluginFunctionProxy proxy_compressor_##classname(wrapper_compressor_##classname);
#define REGISTER_OSGPLUGIN(ext, classname) \
extern "C" void osgdb_##ext(void) {} \
static osgDB::RegisterReaderWriterProxy<classname> g_proxy_##classname;
#define REGISTER_OSGIMAGEPROCESSOR(ext, classname) \
extern "C" void osgdb_##ext(void) {} \
static osgDB::RegisterImageProcessorProxy<classname> g_proxy_##classname;
}
#endif