283 lines
12 KiB
C
283 lines
12 KiB
C
/* ******************************************************************
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FSE : Finite State Entropy coder
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header file for static linking (only)
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Copyright (C) 2013-2015, Yann Collet
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BSD 2-Clause License (http://www.opensource.org/licenses/bsd-license.php)
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions are
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met:
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* Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above
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copyright notice, this list of conditions and the following disclaimer
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in the documentation and/or other materials provided with the
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distribution.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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You can contact the author at :
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- Source repository : https://github.com/Cyan4973/FiniteStateEntropy
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- Public forum : https://groups.google.com/forum/#!forum/lz4c
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****************************************************************** */
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#pragma once
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#if defined (__cplusplus)
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extern "C" {
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#endif
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/******************************************
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* FSE API compatible with DLL
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******************************************/
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#include "fse.h"
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/******************************************
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* Static allocation
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******************************************/
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/* FSE buffer bounds */
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#define FSE_NCOUNTBOUND 512
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#define FSE_BLOCKBOUND(size) (size + (size>>7))
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#define FSE_COMPRESSBOUND(size) (FSE_NCOUNTBOUND + FSE_BLOCKBOUND(size)) /* Macro version, useful for static allocation */
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/* You can statically allocate FSE CTable/DTable as a table of unsigned using below macro */
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#define FSE_CTABLE_SIZE_U32(maxTableLog, maxSymbolValue) (1 + (1<<(maxTableLog-1)) + ((maxSymbolValue+1)*2))
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#define FSE_DTABLE_SIZE_U32(maxTableLog) (1 + (1<<maxTableLog))
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/* Huff0 buffer bounds */
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#define HUF_CTABLEBOUND 129
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#define HUF_BLOCKBOUND(size) (size + (size>>8) + 8) /* only true if pre-filtered with fast heuristic */
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#define HUF_COMPRESSBOUND(size) (HUF_CTABLEBOUND + HUF_BLOCKBOUND(size)) /* Macro version, useful for static allocation */
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/* You can statically allocate Huff0 DTable as a table of unsigned short using below macro */
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#define HUF_DTABLE_SIZE_U16(maxTableLog) (1 + (1<<maxTableLog))
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#define HUF_CREATE_STATIC_DTABLE(DTable, maxTableLog) \
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unsigned short DTable[HUF_DTABLE_SIZE_U16(maxTableLog)] = { maxTableLog }
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/******************************************
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* Error Management
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******************************************/
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#define FSE_LIST_ERRORS(ITEM) \
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ITEM(FSE_OK_NoError) ITEM(FSE_ERROR_GENERIC) \
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ITEM(FSE_ERROR_tableLog_tooLarge) ITEM(FSE_ERROR_maxSymbolValue_tooLarge) ITEM(FSE_ERROR_maxSymbolValue_tooSmall) \
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ITEM(FSE_ERROR_dstSize_tooSmall) ITEM(FSE_ERROR_srcSize_wrong)\
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ITEM(FSE_ERROR_corruptionDetected) \
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ITEM(FSE_ERROR_maxCode)
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#define FSE_GENERATE_ENUM(ENUM) ENUM,
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typedef enum { FSE_LIST_ERRORS(FSE_GENERATE_ENUM) } FSE_errorCodes; /* enum is exposed, to detect & handle specific errors; compare function result to -enum value */
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/******************************************
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* FSE advanced API
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******************************************/
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size_t FSE_countFast(unsigned* count, unsigned* maxSymbolValuePtr, const unsigned char* src, size_t srcSize);
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/* same as FSE_count(), but blindly trust that all values within src are <= maxSymbolValuePtr[0] */
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size_t FSE_buildCTable_raw (FSE_CTable* ct, unsigned nbBits);
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/* build a fake FSE_CTable, designed to not compress an input, where each symbol uses nbBits */
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size_t FSE_buildCTable_rle (FSE_CTable* ct, unsigned char symbolValue);
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/* build a fake FSE_CTable, designed to compress always the same symbolValue */
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size_t FSE_buildDTable_raw (FSE_DTable* dt, unsigned nbBits);
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/* build a fake FSE_DTable, designed to read an uncompressed bitstream where each symbol uses nbBits */
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size_t FSE_buildDTable_rle (FSE_DTable* dt, unsigned char symbolValue);
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/* build a fake FSE_DTable, designed to always generate the same symbolValue */
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/******************************************
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* FSE symbol compression API
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******************************************/
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/*
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This API consists of small unitary functions, which highly benefit from being inlined.
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You will want to enable link-time-optimization to ensure these functions are properly inlined in your binary.
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Visual seems to do it automatically.
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For gcc or clang, you'll need to add -flto flag at compilation and linking stages.
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If none of these solutions is applicable, include "fse.c" directly.
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*/
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typedef struct
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{
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size_t bitContainer;
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int bitPos;
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char* startPtr;
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char* ptr;
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char* endPtr;
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} FSE_CStream_t;
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typedef struct
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{
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ptrdiff_t value;
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const void* stateTable;
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const void* symbolTT;
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unsigned stateLog;
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} FSE_CState_t;
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size_t FSE_initCStream(FSE_CStream_t* bitC, void* dstBuffer, size_t maxDstSize);
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void FSE_initCState(FSE_CState_t* CStatePtr, const FSE_CTable* ct);
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void FSE_encodeSymbol(FSE_CStream_t* bitC, FSE_CState_t* CStatePtr, unsigned symbol);
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void FSE_addBits(FSE_CStream_t* bitC, size_t value, unsigned nbBits);
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void FSE_flushBits(FSE_CStream_t* bitC);
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void FSE_flushCState(FSE_CStream_t* bitC, const FSE_CState_t* CStatePtr);
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size_t FSE_closeCStream(FSE_CStream_t* bitC);
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/*
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These functions are inner components of FSE_compress_usingCTable().
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They allow the creation of custom streams, mixing multiple tables and bit sources.
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A key property to keep in mind is that encoding and decoding are done **in reverse direction**.
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So the first symbol you will encode is the last you will decode, like a LIFO stack.
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You will need a few variables to track your CStream. They are :
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FSE_CTable ct; // Provided by FSE_buildCTable()
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FSE_CStream_t bitStream; // bitStream tracking structure
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FSE_CState_t state; // State tracking structure (can have several)
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The first thing to do is to init bitStream and state.
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size_t errorCode = FSE_initCStream(&bitStream, dstBuffer, maxDstSize);
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FSE_initCState(&state, ct);
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Note that FSE_initCStream() can produce an error code, so its result should be tested, using FSE_isError();
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You can then encode your input data, byte after byte.
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FSE_encodeSymbol() outputs a maximum of 'tableLog' bits at a time.
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Remember decoding will be done in reverse direction.
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FSE_encodeByte(&bitStream, &state, symbol);
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At any time, you can also add any bit sequence.
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Note : maximum allowed nbBits is 25, for compatibility with 32-bits decoders
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FSE_addBits(&bitStream, bitField, nbBits);
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The above methods don't commit data to memory, they just store it into local register, for speed.
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Local register size is 64-bits on 64-bits systems, 32-bits on 32-bits systems (size_t).
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Writing data to memory is a manual operation, performed by the flushBits function.
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FSE_flushBits(&bitStream);
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Your last FSE encoding operation shall be to flush your last state value(s).
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FSE_flushState(&bitStream, &state);
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Finally, you must close the bitStream.
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The function returns the size of CStream in bytes.
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If data couldn't fit into dstBuffer, it will return a 0 ( == not compressible)
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If there is an error, it returns an errorCode (which can be tested using FSE_isError()).
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size_t size = FSE_closeCStream(&bitStream);
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*/
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/******************************************
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* FSE symbol decompression API
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******************************************/
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typedef struct
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{
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size_t bitContainer;
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unsigned bitsConsumed;
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const char* ptr;
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const char* start;
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} FSE_DStream_t;
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typedef struct
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{
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size_t state;
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const void* table; /* precise table may vary, depending on U16 */
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} FSE_DState_t;
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size_t FSE_initDStream(FSE_DStream_t* bitD, const void* srcBuffer, size_t srcSize);
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void FSE_initDState(FSE_DState_t* DStatePtr, FSE_DStream_t* bitD, const FSE_DTable* dt);
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unsigned char FSE_decodeSymbol(FSE_DState_t* DStatePtr, FSE_DStream_t* bitD);
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size_t FSE_readBits(FSE_DStream_t* bitD, unsigned nbBits);
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unsigned int FSE_reloadDStream(FSE_DStream_t* bitD);
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unsigned FSE_endOfDStream(const FSE_DStream_t* bitD);
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unsigned FSE_endOfDState(const FSE_DState_t* DStatePtr);
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typedef enum { FSE_DStream_unfinished = 0,
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FSE_DStream_endOfBuffer = 1,
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FSE_DStream_completed = 2,
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FSE_DStream_tooFar = 3 } FSE_DStream_status; /* result of FSE_reloadDStream() */
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/* 1,2,4,8 would be better for bitmap combinations, but slows down performance a bit ... ?! */
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/*
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Let's now decompose FSE_decompress_usingDTable() into its unitary components.
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You will decode FSE-encoded symbols from the bitStream,
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and also any other bitFields you put in, **in reverse order**.
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You will need a few variables to track your bitStream. They are :
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FSE_DStream_t DStream; // Stream context
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FSE_DState_t DState; // State context. Multiple ones are possible
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FSE_DTable* DTablePtr; // Decoding table, provided by FSE_buildDTable()
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The first thing to do is to init the bitStream.
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errorCode = FSE_initDStream(&DStream, srcBuffer, srcSize);
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You should then retrieve your initial state(s)
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(in reverse flushing order if you have several ones) :
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errorCode = FSE_initDState(&DState, &DStream, DTablePtr);
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You can then decode your data, symbol after symbol.
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For information the maximum number of bits read by FSE_decodeSymbol() is 'tableLog'.
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Keep in mind that symbols are decoded in reverse order, like a LIFO stack (last in, first out).
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unsigned char symbol = FSE_decodeSymbol(&DState, &DStream);
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You can retrieve any bitfield you eventually stored into the bitStream (in reverse order)
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Note : maximum allowed nbBits is 25, for 32-bits compatibility
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size_t bitField = FSE_readBits(&DStream, nbBits);
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All above operations only read from local register (which size depends on size_t).
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Refueling the register from memory is manually performed by the reload method.
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endSignal = FSE_reloadDStream(&DStream);
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FSE_reloadDStream() result tells if there is still some more data to read from DStream.
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FSE_DStream_unfinished : there is still some data left into the DStream.
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FSE_DStream_endOfBuffer : Dstream reached end of buffer. Its container may no longer be completely filled.
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FSE_DStream_completed : Dstream reached its exact end, corresponding in general to decompression completed.
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FSE_DStream_tooFar : Dstream went too far. Decompression result is corrupted.
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When reaching end of buffer (FSE_DStream_endOfBuffer), progress slowly, notably if you decode multiple symbols per loop,
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to properly detect the exact end of stream.
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After each decoded symbol, check if DStream is fully consumed using this simple test :
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FSE_reloadDStream(&DStream) >= FSE_DStream_completed
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When it's done, verify decompression is fully completed, by checking both DStream and the relevant states.
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Checking if DStream has reached its end is performed by :
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FSE_endOfDStream(&DStream);
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Check also the states. There might be some symbols left there, if some high probability ones (>50%) are possible.
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FSE_endOfDState(&DState);
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*/
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/******************************************
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* FSE unsafe symbol API
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******************************************/
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size_t FSE_readBitsFast(FSE_DStream_t* bitD, unsigned nbBits);
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/* faster, but works only if nbBits >= 1 (otherwise, result will be corrupted) */
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unsigned char FSE_decodeSymbolFast(FSE_DState_t* DStatePtr, FSE_DStream_t* bitD);
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/* faster, but works only if allways nbBits >= 1 (otherwise, result will be corrupted) */
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#if defined (__cplusplus)
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}
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#endif
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