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Diffstat (limited to 'compression/lincompstream.hh')
-rw-r--r-- | compression/lincompstream.hh | 559 |
1 files changed, 0 insertions, 559 deletions
diff --git a/compression/lincompstream.hh b/compression/lincompstream.hh deleted file mode 100644 index 20140a0..0000000 --- a/compression/lincompstream.hh +++ /dev/null @@ -1,559 +0,0 @@ -/* -* This file is part of rasdaman community. -* -* Rasdaman community is free software: you can redistribute it and/or modify -* it under the terms of the GNU General Public License as published by -* the Free Software Foundation, either version 3 of the License, or -* (at your option) any later version. -* -* Rasdaman community 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 -* GNU General Public License for more details. -* -* You should have received a copy of the GNU General Public License -* along with rasdaman community. If not, see <http://www.gnu.org/licenses/>. -* -* Copyright 2003, 2004, 2005, 2006, 2007, 2008, 2009 Peter Baumann / -rasdaman GmbH. -* -* For more information please see <http://www.rasdaman.org> -* or contact Peter Baumann via <baumann@rasdaman.com>. -/ -/** - * INCLUDE: lincompstream.hh - * - * MODULE: compression - * CLASS: r_Lin_Comp_Stream, r_Lin_Decomp_Stream - * - * PURPOSE: - * Abstract base class for linear compression streams - * - * COMMENTS: - * -*/ - -/** -* @file lincompstream.hh -* -* @ingroup Compression -*/ - -#ifndef _LINCOMPSTREAM_H_ -#define _LINCOMPSTREAM_H_ - - -#include <stdio.h> -#include <iostream> - -#include "raslib/error.hh" -#include "raslib/storageman.hh" -#include "raslib/odmgtypes.hh" - - - - -class r_Parse_Params; -class RMTimer; - - -//@ManMemo: Module {\bf compression} - -/*@Doc: - r_Linear_Stream: - Abstract base class for linear compression and decompression strings. - Implements enumerator and common interface calls. - Linear streams are used to compress or uncompress data in a given format. - The can operate in static mode (the compressed data is stored to / read - from memory directly) or in streaming mode (the compressed data is stored - to / read from another linear stream, without having to buffer intermediate - data explicitly or in its entirety). Streaming mode results in nesting - linear streams, which can be done to arbitrary depth. -*/ - -class r_Linear_Stream -{ - public: - // stream identifiers - enum r_Lin_Stream_Format { - r_Lin_Stream_None, - r_Lin_Stream_RLE, - r_Lin_Stream_ZLib, - r_Lin_Stream_Arith, - r_Lin_Stream_File, - r_Lin_Stream_NUMBER // used as error code - }; - /// default constructor - r_Linear_Stream( void ); - /// destructor - virtual ~r_Linear_Stream( void ); - /// identification - virtual r_Lin_Stream_Format get_format( void ) const = 0; - /// get the name of the stream, returns r_Lin_Stream_Void if unknown - virtual const char* get_name(void) const = 0; - /// set compression parameters from a string - virtual void set_params( const char *str ) = 0; - /// set number of symbols in the stream (used by e.g. arithmetic coders) - virtual int set_num_symbols( unsigned int syms ); - /// get stream identifier from name - static r_Lin_Stream_Format get_id( const char *name ); - /** - the name (case independent) may be one of the following - - \begin{tabular}{ll} - none && r_No_(De)Comp_Stream\\ - rle && r_RLE_(De)Comp_Stream\\ - zlib && r_ZLib_(De)Comp_Stream\\ - arith && r_Arith_(De)Comp_Stream\\ - file && r_File_(De)Comp_Stream\\ - end{tabular} - */ - /// return the string representation of the given format - static const char *get_format_string( r_Lin_Stream_Format fmt ); - /// return a linear stream bank (concatenated streams), terminated by r_Lin_Stream_NUMBER - static r_Lin_Stream_Format *get_bank_ids( const char *names ); - /// return a string representation of the stream bank (caller frees with delete[]) - static char *get_bank_string( const r_Lin_Stream_Format *ids ); - - - protected: - /// instantiate the timer for benchmarking with a certain level - void instantiate_timer( const char *func, int level=0 ); - /// parameters - r_Parse_Params *params; - /// timer for benchmarking; always defined to keep object size constant - RMTimer *myTimer; - /// the character used to separate stream names in stream banks - static const char bankNameSep; -}; - - -//@ManMemo: Module {\bf compression} - -/// string output -extern std::ostream &operator<<( std::ostream &s, r_Linear_Stream::r_Lin_Stream_Format fmt ); - - - -//@ManMemo: Module {\bf compression} - -/*@Doc: - r_Lin_Comp_Store: - Class abstracting between storing compressed data statically in an object of - type r_Memory_Block_Vector or another r_Lin_Comp_Stream to unify normal and - (nested) streaming interface. There is a high-level and a low-level interface. - The high-level interface allows writing a specified number of bytes to the - object (which will redirect it to memory or stream automatically) and is the - preferred way. The low-level interface allows block-oriented, external - compression libraries like ZLib to operate by giving it a block to store - data to. In this case, use frag_ptr() to get the address of a block of - memory (``fragment'') which can be written to, the maximum size of which can - be obtained with frag_size() and write to it. After your data has been - written, you MUST call frag_stored() with the number of bytes you wrote to - frag_ptr(), otherwise subsequent calls of frag_ptr() will all return the - same data. See zlibstream for an implementation using the low-level - interface and the other streams on how the high-level interface is used. -*/ - -class r_Lin_Comp_Stream; -class r_Memory_Block_Vector; - -class r_Lin_Comp_Store -{ - public: - /// constructor for static mode, receiving block size for r_Memory_Block_Vector. - r_Lin_Comp_Store( r_ULong bsize ); - /// constructor for streaming mode, receiving stream compression object and cache size - r_Lin_Comp_Store( r_Lin_Comp_Stream *str, r_ULong csize=4096 ); - /// destructor - ~r_Lin_Comp_Store( void ); - - /// start output - int start( r_Bytes typeSize ); - /// write data; return 0 for OK, -1 for error - int put( const void *data, r_ULong size ); - /// write single byte - int put( unsigned char val ); - /// stop outputting data and return size - r_ULong stop( void ); - /// copy the data - void copy_data( void *dest ); - /// flush data - int flush( void ); - /// get pointer to current fragment (low-level interface) - void *frag_ptr( void ); - /// get the remaining space in the current fragmend (low-level interface) - r_ULong frag_size( void ) const; - /// notify that size bytes have been store to current fragmemt (low-level interface) - int frag_stored( r_ULong size ); - /// print status - void print_status( std::ostream &str ) const; - - - protected: - /// memory block vector for static mode - r_Memory_Block_Vector *mblocks; - /// compression stream for streaming mode - r_Lin_Comp_Stream *streamer; - /// cache in streaming mode - void *cache; - /// size and current offset in both modes - r_ULong cacheSize; - r_ULong cacheOff; -}; - -extern std::ostream &operator<<( std::ostream &str, const r_Lin_Comp_Store &store ); - - - -//@ManMemo: Module {\bf compression} - -/*@Doc: - Abstract base class for linear compression streams. Memory allocation is all - done transparently in the background. This class provides a common interface - to compression methods like zlib or RLE. It can operate in static or streaming - mode. In static mode, compressed data is stored explicitly in memory as a whole, - whereas in streaming mode, data merely streams through the object and is piped - into another object of type r_Lin_Comp_Stream; only a small amount of compressed - data is buffered internally for more efficiency. Use set_stream(str) with str != NULL - to activate streaming mode, using str as the receiving class. -*/ - -class r_Lin_Comp_Stream : public r_Linear_Stream -{ - public: - /// default constructor - r_Lin_Comp_Stream( void ); - /// copy constructor - r_Lin_Comp_Stream( const r_Lin_Comp_Stream &src ); - /// destructor - virtual ~r_Lin_Comp_Stream( void ); - - /// change memory handlers (don't change between begin() ... end()!) - virtual void set_storage_handler( const r_Storage_Man &newStore ); - - /// creation - static r_Lin_Comp_Stream* create( r_Lin_Stream_Format fmt, const char *pstr=NULL ) throw(r_Error); - /** - fmt may be one of the following: - - \begin{tabular}{ll} - r_Lin_Stream_None && r_No_(De)Comp_Stream\\ - r_Lin_Stream_RLE && r_RLE_(De)Comp_Stream\\ - r_Lin_Stream_ZLib && r_ZLib_(De)Comp_Stream\\ - r_Lin_Stream_Arith && r_Arith_(De)Comp_Stream\\ - r_Lin_Stream_File && r_File_(De)Comp_Stream\\ - \end{tabular} - - In addition, theres r_Lin_Stream_NUMBER used as error code. - */ - - /// create a stream bank (format as returned by r_Linear_Stream::get_bank_ids() ) - static r_Lin_Comp_Stream* create( r_Lin_Stream_Format *ids, const char *pstr=NULL ) throw(r_Error); - - /// cloning - virtual r_Lin_Comp_Stream* clone( void ) const = 0; - - /// set block size - void set_block_size( r_ULong bsize ); - /// select streaming interface - void set_stream( r_Lin_Comp_Stream *str ); - /* - Streamed compression doesn't buffer the data but writes it to the specified - lincompstream instead. This allows easy and efficient concatenation of - compression streams. - */ - /// get read/write streamer object - r_Lin_Comp_Stream *get_stream( void ); - /// get read-only streamer object - const r_Lin_Comp_Stream *get_stream( void ) const; - /// print the name of the entire stream bank (recursively) - void print_bank_name( std::ostream &str ) const; - /// free all child streams (recursively set by set_stream() ) - void free_streams( void ); - /// get the name of the output file, or NULL if stream bank doesn't contain file stream - const char *get_stream_file( void ) const; - /// set the name of the output file if stream bank contains file stream, otherwise return 0 - int set_stream_file( const char *name ); - - - //@Man: Interface - //@{ - /** - typeSize is the size of the base type to encode which is important - for some derived classes (e.g. RLE). Make sure that all size arguments - must be multiples of typeSize later on. The value 1 should always - work, but will usually not be optimal. - the inputSize parameter of begin() is the size of the input data or - 0 for using defaults). This parameter directly influences the size - of the input buffer for some streams and should therefore be used - with care. - */ - /// begin compression - virtual int begin( r_Bytes typeSize, r_ULong inputSize=0 ) = 0; - /// write data to stream - virtual int put( const void* data, r_ULong size ) = 0; - /// end compression - virtual void* end( r_ULong &size ) = 0; - /** - standard end call, allocates new (linear) memory, copies the data - there and frees all internal data - */ - /// alternative end call, just finalizes the stream and returns the size - virtual r_ULong end( void ) = 0; - /// copy output data into linear memory - virtual void copy_data( void* dest ) = 0; - //@} - virtual void set_params( const char *str ); - - - protected: - /// init the target object according to the mode - void init_target( void ); - /// completely finished the target object - void exit_target( void ); - /// memory management object, defaults to C-style - r_Storage_Man mystore; - /// storage abstraction object - r_Lin_Comp_Store *target; - /// compression stream for streaming mode - r_Lin_Comp_Stream *streamer; - /// block size for static mode - r_ULong blockSize; - /// automatically delete all child streams in destructor if bank constructor was used - int autoDeleteStreams; -}; - - -//@ManMemo: Moduke {\bf compression} - -//@Doc: print the stream (bank) name of the compression stream to a C++ stream - -extern std::ostream &operator<<( std::ostream &str, const r_Lin_Comp_Stream &comp ); - - - -//@ManMemo: Module {\bf compression} - -/*@Doc: - r_Lin_Decomp_Store: - Class abstracting between loading data from raw memory or from another r_Lin_Decomp_Stream - to unify normal and (nested) streaming interface. As in r_Lin_Comp_Store, there's a - high-level and a low-level interface. The high-level interface can be used to request - a specified number of bytes from the storage source (memory or another stream). The - low-level interface can be used for external, block-oriented compression libraries - like ZLib. Use frag_ptr() to get the start address of the input data and frag_size() - for the maximum number of bytes you can read from there. After you read a block, you - must call frag_read() with the size of the block as argument, otherwise frag_ptr() - will always return the same data. In addition, you should always call ensure_data() - before you call frag_ptr(). For an implementation of the low-level interface see - zlibstream and the other streams on how the high-level interface should be used. - */ - -class r_Lin_Decomp_Stream; - -class r_Lin_Decomp_Store -{ - public: - /// constructor for static mode - r_Lin_Decomp_Store( void ); - /// constructor for streaming mode, receiving stream decompression object and cache size - r_Lin_Decomp_Store( r_Lin_Decomp_Stream *str, r_ULong csize=4096 ); - /// destructor - ~r_Lin_Decomp_Store( void ); - - /// start reading data - int start( r_Bytes typeSize, const void *data, r_ULong size ); - /// read data, returns 0 for OK, negative number of unread bytes otherwise - int get( void *data, r_ULong size ); - /// read single byte; returns 0 for OK, -1 for error - int get( unsigned char &val ); - /// stop reading data - int stop( void ); - /// makes sure there's some data in the cache in streaming mode, returns -1 if EOF - int ensure_data( void ); - /// get pointer to current fragment (low-level interface) - const void *frag_ptr( void ) const; - /// get the valid bytes in the current fragment (low-level interface) - r_ULong frag_size( void ) const; - /// notify that size bytes have been read from the current fragment - int frag_read( r_ULong size ); - /// print status - void print_status( std::ostream &str ) const; - - - protected: - /// start of compressed data in static mode - const void *dataBase; - /// size of compressed data in static mode - r_ULong dataSize; - /// current offset in compressed data in static mode - r_ULong dataOffset; - /// decompression stream in streaming mode - r_Lin_Decomp_Stream *streamer; - /// cache in streaming mode - void *cache; - /// cache size, current fill level and current offset in streaming mode - r_ULong cacheSize; - r_ULong cacheLevel; - r_ULong cacheOff; -}; - -extern std::ostream &operator<<( std::ostream &str, const r_Lin_Decomp_Store &store ); - - - -//@ManMemo: Module {\bf compression} - -/*@Doc: - r_Lin_Decomp_Stream: - Abstract base class for linear decompression streams. Linear decompression streams - can operate in static mode (compressed data is read directly from memory) and - streaming mode (compressed data is read from another linear decompression stream). - In streaming mode, only a small amount of compressed data is ever buffered - internally for more efficiency. Use set_stream(str) with str != NULL to activate - streaming mode, using str as the stream providing the input data for this stream. - The data and size passed to the begin() method actually belong to str and are - passed to it automatically. - */ - -class r_Lin_Decomp_Stream : public r_Linear_Stream -{ - public: - /// default constructor - r_Lin_Decomp_Stream( void ); - /// destructor - virtual ~r_Lin_Decomp_Stream( void ); - - /// creation - static r_Lin_Decomp_Stream* create( r_Lin_Stream_Format fmt, const char *pstr=NULL ) throw(r_Error); - /** - for the values of fmt see r_Lin_Comp_Stream::create() - */ - /// create a stream bank - static r_Lin_Decomp_Stream* create( r_Lin_Stream_Format *ids, const char *pstr=NULL ) throw(r_Error); - - /// cloning - virtual r_Lin_Decomp_Stream* clone( void ) const = 0; - - /// select streaming interface - void set_stream( r_Lin_Decomp_Stream *str ); - /* - Streamed decompression doesn't read the data from linear memory but from another - object of type r_Lin_Decomp_Stream instead to allow easy and efficient concatenation - of decompression streams. - */ - /// get read/write streamer object - r_Lin_Decomp_Stream *get_stream( void ); - /// get read-only streamer object - const r_Lin_Decomp_Stream *get_stream( void ) const; - /// print the name of the entire stream bank (recursively) - void print_bank_name( std::ostream &str ) const; - /// free all child streams - void free_streams( void ); - /// get the name of the output file, or NULL if stream bank doesn't contain file stream - const char *get_stream_file( void ) const; - /// set the name of the output file if stream bank contains file stream, otherwise return 0 - int set_stream_file( const char *name ); - - //@Man: Interface - //@{ - /** - You can use three approaches: - \begin{enumerate} - \item - supply dest to begin() and use the get(size) call which will - store data to dest and increment dest afterwards, or - \item - use get(buffer, size) (in that case dest is irrelevant), or - \item - supply dest to begin() to store the pointer internally, retrieve - the pointer later using getDestPtr() and use it in some other - way in get(buffer, size) calls. - \end{enumerate} - */ - /// get the pointer to destination stored within the object - inline void* get_dest_ptr(void) {return destPtr;} - /// start decompression. - virtual int begin( r_Bytes typeSize, const void* data, r_ULong size, - void* dest=NULL ) = 0; - /// get() returns 0 for OK, otherwise the negative number of non-read bytes - virtual int get( void* buffer, r_ULong size ) = 0; - /// get data and store it in the internal destptr (which is incremented) - virtual int get( r_ULong size ) = 0; - /// end decompression - virtual int end( void ) = 0; - //@} - /// set compression parameters from string - virtual void set_params( const char *str ); - - - protected: - /// prepare the storage abstraction object - void init_source( void ); - /// finished with the storage abstraction object - void exit_source( void ); - /// default destination - void* destPtr; - /// storage abstraction object - r_Lin_Decomp_Store *source; - /// stream object in streaming mode - r_Lin_Decomp_Stream *streamer; - /// automatically delete all child streams in destructor if bank constructor was used - int autoDeleteStreams; -}; - - -//@ManMemo: Module {\bf compression} - -//@Doc: print the stream (bank) name of the decompression stream to a C++ stream - -extern std::ostream &operator<<( std::ostream &str, const r_Lin_Decomp_Stream &decomp ); - - - - -//@ManMemo: Module {\bf compression} - -/*@Doc: - Container class for matching compression and decompression streams -*/ - -class r_Lin_Codec_Stream -{ - public: - /// default constructor, should not be used - r_Lin_Codec_Stream( void ); - /// constructor that creates the codecs - r_Lin_Codec_Stream( r_Linear_Stream::r_Lin_Stream_Format fmt, const char *pstr=NULL ); - /** - for the values of fmt see r_Lin_Comp_Stream::create() - */ - /// constructor for a codec bank - r_Lin_Codec_Stream( r_Linear_Stream::r_Lin_Stream_Format *ids, const char *pstr=NULL ); - - /// copy constructor - r_Lin_Codec_Stream( const r_Lin_Codec_Stream &lc ); - /// destructor - ~r_Lin_Codec_Stream( void ); - - /// get the stream format - inline r_Linear_Stream::r_Lin_Stream_Format get_format( void ) { - return comp->get_format(); - } - /// get the compression stream - inline r_Lin_Comp_Stream *get_comp_stream( void ) { - return comp; - } - /// get the decompression stream - inline r_Lin_Decomp_Stream *get_decomp_stream( void ) { - return decomp; - } - - - protected: - r_Lin_Comp_Stream *comp; - r_Lin_Decomp_Stream *decomp; -}; - -#endif |