/* This file is (c) 2008-2009 Konstantin Isakov * Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */ #ifndef __CHUNKEDSTORAGE_HH_INCLUDED__ #define __CHUNKEDSTORAGE_HH_INCLUDED__ #include "ex.hh" #include "file.hh" #include /// A chunked compression storage. We use this for articles' bodies. The idea /// is to store data in a separately-compressed chunks, much like in dictzip, /// but without any fancy gzip-compatibility or whatever. Another difference /// is that any block of data saved is always contained without one chunk, /// even if its size does exceed its maximum allowed size. This is very /// handy since we're retrieving the data by the same blocks we used to save /// it as, that' the only kind of seek we support, really. namespace ChunkedStorage { using std::vector; DEF_EX( Ex, "Chunked storage exception", std::exception ) DEF_EX( exFailedToCompressChunk, "Failed to compress a chunk", Ex ) DEF_EX( exAddressOutOfRange, "The given chunked address is out of range", Ex ) DEF_EX( exFailedToDecompressChunk, "Failed to decompress a chunk", Ex ) /// This class writes data blocks in chunks. class Writer { vector< uint32_t > offsets; File::Class & file; public: Writer( File::Class & ); /// Starts new block. Returns its address. uint32_t startNewBlock(); /// Add data to the previously started block. void addToBlock( void const * data, size_t size ); /// Finishes writing chunks and returns the offset to the chunk table which /// gets written at the moment of finishing. uint32_t finish(); private: /// Indicates that an address was allocated, which would mean the writeout /// of the pending chunk is required even if its size is zero. bool chunkStarted; // This buffer accumulates the chunk data until either enough data is // stored (>=ChunkMaxSize), or there's no more data left to store. vector< unsigned char > buffer; // Here we compress the chunk before writing it out to file. vector< unsigned char > bufferCompressed; // The amount of data stored in buffer so far. We keep it separate // from buffer.size() for performance reasons; the latter one only // grows, but never shrinks. size_t bufferUsed; void saveCurrentChunk(); }; /// This class reads data blocks previously written by Writer. class Reader { vector< uint32_t > offsets; File::Class & file; public: /// Creates reader by giving it a file to read from and the offset returned /// by Writer::finish(). Reader( File::Class &, uint32_t ); /// Reads the block previously written by Writer, identified by its address. /// Uses the user-provided storage to load the entire chunk, and then to /// return a pointer to the requested block inside it. char * getBlock( uint32_t address, vector< char > & ); }; } #endif