forked from enlightenment/efl
Eet: Update lz4 code to rev. 77. This fix compilation on NetBSD 5.0
SVN revision: 77449
This commit is contained in:
parent
1c96844922
commit
079b6c94c3
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@ -4,7 +4,7 @@
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eet_data_descriptor_decode_cipher(),
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eet_data_descriptor_encode_cipher(), eet_data_xattr_cipher_get(),
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eet_data_xattr_cipher_set().
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2012-09-27 Carsten Haitzler (The Rasterman)
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* Fix return value of eina_mmap_safety_enabled_set() and
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@ -27,7 +27,7 @@
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* Documentation for eina list specified and eina stringshare fixed
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2012-09-11 Cedric Bail
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* Speedup Eina Rbtree Iterator by recycling memory instead of
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massively calling malloc/free.
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@ -35,3 +35,7 @@
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* Fix EINA_INLIST_FOREACH_SAFE macro to work when inlist is not the
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first item in the struct.
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2012-10-04 Vincent Torri
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* Update lz4 code to rev. 77. This fix compilation on NetBSD 5.0
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@ -34,31 +34,24 @@
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//**************************************
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// Tuning parameters
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//**************************************
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// COMPRESSIONLEVEL :
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// Increasing this value improves compression ratio
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// Lowering this value reduces memory usage
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// Reduced memory usage typically improves speed, due to cache effect (ex : L1 32KB for Intel, L1 64KB for AMD)
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// Memory usage formula : N->2^(N+2) Bytes (examples : 12 -> 16KB ; 17 -> 512KB)
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#define COMPRESSIONLEVEL 12
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// MEMORY_USAGE :
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// Memory usage formula : N->2^N Bytes (examples : 10 -> 1KB; 12 -> 4KB ; 16 -> 64KB; 20 -> 1MB; etc.)
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// Increasing memory usage improves compression ratio
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// Reduced memory usage can improve speed, due to cache effect
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// Default value is 14, for 16KB, which nicely fits into Intel x86 L1 cache
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#define MEMORY_USAGE 14
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// NOTCOMPRESSIBLE_CONFIRMATION :
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// NOTCOMPRESSIBLE_DETECTIONLEVEL :
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// Decreasing this value will make the algorithm skip faster data segments considered "incompressible"
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// This may decrease compression ratio dramatically, but will be faster on incompressible data
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// Increasing this value will make the algorithm search more before declaring a segment "incompressible"
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// This could improve compression a bit, but will be slower on incompressible data
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// The default value (6) is recommended
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#define NOTCOMPRESSIBLE_CONFIRMATION 6
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// LZ4_COMPRESSMIN :
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// Compression function will *fail* if it is not successful at compressing input by at least LZ4_COMPRESSMIN bytes
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// Since the compression function stops working prematurely, it results in a speed gain
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// The output however is unusable. Compression function result will be zero.
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// Default : 0 = disabled
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#define LZ4_COMPRESSMIN 0
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#define NOTCOMPRESSIBLE_DETECTIONLEVEL 6
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// BIG_ENDIAN_NATIVE_BUT_INCOMPATIBLE :
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// This will provide a boost to performance for big endian cpu, but the resulting compressed stream will be incompatible with little-endian CPU.
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// You can set this option to 1 in situations where data will stay within closed environment
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// This will provide a small boost to performance for big endian cpu, but the resulting compressed stream will be incompatible with little-endian CPU.
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// You can set this option to 1 in situations where data will remain within closed environment
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// This option is useless on Little_Endian CPU (such as x86)
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//#define BIG_ENDIAN_NATIVE_BUT_INCOMPATIBLE 1
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@ -108,6 +101,7 @@
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#ifdef _MSC_VER // Visual Studio
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# define inline __forceinline // Visual is not C99, but supports some kind of inline
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# include <intrin.h> // For Visual 2005
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# if LZ4_ARCH64 // 64-bit
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# pragma intrinsic(_BitScanForward64) // For Visual 2005
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# pragma intrinsic(_BitScanReverse64) // For Visual 2005
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@ -181,11 +175,11 @@ typedef struct _U64_S { U64 v; } U64_S;
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//**************************************
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#define MINMATCH 4
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#define HASH_LOG COMPRESSIONLEVEL
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#define HASH_LOG (MEMORY_USAGE-2)
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#define HASHTABLESIZE (1 << HASH_LOG)
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#define HASH_MASK (HASHTABLESIZE - 1)
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#define SKIPSTRENGTH (NOTCOMPRESSIBLE_CONFIRMATION>2?NOTCOMPRESSIBLE_CONFIRMATION:2)
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#define SKIPSTRENGTH (NOTCOMPRESSIBLE_DETECTIONLEVEL>2?NOTCOMPRESSIBLE_DETECTIONLEVEL:2)
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#define STACKLIMIT 13
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#define HEAPMODE (HASH_LOG>STACKLIMIT) // Defines if memory is allocated into the stack (local variable), or into the heap (malloc()).
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#define COPYLENGTH 8
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@ -257,7 +251,7 @@ struct refTables
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//****************************
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#if LZ4_ARCH64
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inline static int LZ4_NbCommonBytes (register U64 val)
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static inline int LZ4_NbCommonBytes (register U64 val)
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{
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#if defined(LZ4_BIG_ENDIAN)
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#if defined(_MSC_VER) && !defined(LZ4_FORCE_SW_BITCOUNT)
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@ -289,7 +283,7 @@ inline static int LZ4_NbCommonBytes (register U64 val)
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#else
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inline static int LZ4_NbCommonBytes (register U32 val)
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static inline int LZ4_NbCommonBytes (register U32 val)
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{
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#if defined(LZ4_BIG_ENDIAN)
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#if defined(_MSC_VER) && !defined(LZ4_FORCE_SW_BITCOUNT)
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#endif
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//****************************
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// Public functions
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//****************************
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int LZ4_compressBound(int isize)
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{
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return (isize + (isize/255) + 16);
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}
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//******************************
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// Compression functions
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//******************************
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int LZ4_compressCtx(void** ctx,
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// LZ4_compressCtx :
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// -----------------
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// Compress 'isize' bytes from 'source' into an output buffer 'dest' of maximum size 'maxOutputSize'.
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// If it cannot achieve it, compression will stop, and result of the function will be zero.
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// return : the number of bytes written in buffer 'dest', or 0 if the compression fails
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static inline int LZ4_compressCtx(void** ctx,
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const char* source,
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char* dest,
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int isize)
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int isize,
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int maxOutputSize)
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{
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#if HEAPMODE
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struct refTables *srt = (struct refTables *) (*ctx);
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@ -356,6 +347,7 @@ int LZ4_compressCtx(void** ctx,
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#define matchlimit (iend - LASTLITERALS)
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BYTE* op = (BYTE*) dest;
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BYTE* const oend = op + maxOutputSize;
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int len, length;
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const int skipStrength = SKIPSTRENGTH;
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while ((ip>anchor) && (ref>(BYTE*)source) && unlikely(ip[-1]==ref[-1])) { ip--; ref--; }
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// Encode Literal length
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length = ip - anchor;
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length = (int)(ip - anchor);
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token = op++;
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if unlikely(op + length + (2 + 1 + LASTLITERALS) + (length>>8) >= oend) return 0; // Check output limit
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#ifdef _MSC_VER
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if (length>=(int)RUN_MASK)
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{
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int len = length-RUN_MASK;
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*token=(RUN_MASK<<ML_BITS);
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if (len>254)
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{
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do { *op++ = 255; len -= 255; } while (len>254);
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*op++ = (BYTE)len;
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memcpy(op, anchor, length);
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op += length;
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goto _next_match;
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}
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else
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*op++ = (BYTE)len;
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}
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else *token = (length<<ML_BITS);
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#else
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if (length>=(int)RUN_MASK) { *token=(RUN_MASK<<ML_BITS); len = length-RUN_MASK; for(; len > 254 ; len-=255) *op++ = 255; *op++ = (BYTE)len; }
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else *token = (length<<ML_BITS);
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#endif
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// Copy Literals
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LZ4_BLINDCOPY(anchor, op, length);
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_next_match:
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// Encode Offset
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LZ4_WRITE_LITTLEENDIAN_16(op,ip-ref);
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LZ4_WRITE_LITTLEENDIAN_16(op,(U16)(ip-ref));
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// Start Counting
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ip+=MINMATCH; ref+=MINMATCH; // MinMatch verified
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_endCount:
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// Encode MatchLength
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len = (ip - anchor);
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len = (int)(ip - anchor);
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if unlikely(op + (1 + LASTLITERALS) + (len>>8) >= oend) return 0; // Check output limit
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if (len>=(int)ML_MASK) { *token+=ML_MASK; len-=ML_MASK; for(; len > 509 ; len-=510) { *op++ = 255; *op++ = 255; } if (len > 254) { len-=255; *op++ = 255; } *op++ = (BYTE)len; }
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else *token += len;
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_last_literals:
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// Encode Last Literals
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{
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int lastRun = iend - anchor;
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if ((LZ4_COMPRESSMIN>0) && (((op - (BYTE*)dest) + lastRun + 1 + ((lastRun-15)/255)) > isize - LZ4_COMPRESSMIN)) return 0;
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int lastRun = (int)(iend - anchor);
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if (((char*)op - dest) + lastRun + 1 + ((lastRun-15)/255) >= maxOutputSize) return 0;
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if (lastRun>=(int)RUN_MASK) { *op++=(RUN_MASK<<ML_BITS); lastRun-=RUN_MASK; for(; lastRun > 254 ; lastRun-=255) *op++ = 255; *op++ = (BYTE) lastRun; }
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else *op++ = (lastRun<<ML_BITS);
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memcpy(op, anchor, iend - anchor);
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#define HASH64KTABLESIZE (1U<<HASHLOG64K)
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#define LZ4_HASH64K_FUNCTION(i) (((i) * 2654435761U) >> ((MINMATCH*8)-HASHLOG64K))
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#define LZ4_HASH64K_VALUE(p) LZ4_HASH64K_FUNCTION(A32(p))
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int LZ4_compress64kCtx(void** ctx,
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static inline int LZ4_compress64kCtx(void** ctx,
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const char* source,
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char* dest,
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int isize)
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int isize,
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int maxOutputSize)
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{
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#if HEAPMODE
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struct refTables *srt = (struct refTables *) (*ctx);
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#define matchlimit (iend - LASTLITERALS)
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BYTE* op = (BYTE*) dest;
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BYTE* const oend = op + maxOutputSize;
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int len, length;
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const int skipStrength = SKIPSTRENGTH;
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forwardH = LZ4_HASH64K_VALUE(forwardIp);
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ref = base + HashTable[h];
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HashTable[h] = ip - base;
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HashTable[h] = (U16)(ip - base);
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} while (A32(ref) != A32(ip));
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while ((ip>anchor) && (ref>(BYTE*)source) && (ip[-1]==ref[-1])) { ip--; ref--; }
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// Encode Literal length
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length = ip - anchor;
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length = (int)(ip - anchor);
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token = op++;
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if unlikely(op + length + (2 + 1 + LASTLITERALS) + (length>>8) >= oend) return 0; // Check output limit
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#ifdef _MSC_VER
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if (length>=(int)RUN_MASK)
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{
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int len = length-RUN_MASK;
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*token=(RUN_MASK<<ML_BITS);
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if (len>254)
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{
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do { *op++ = 255; len -= 255; } while (len>254);
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*op++ = (BYTE)len;
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memcpy(op, anchor, length);
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op += length;
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goto _next_match;
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}
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else
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*op++ = (BYTE)len;
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}
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else *token = (length<<ML_BITS);
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#else
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if (length>=(int)RUN_MASK) { *token=(RUN_MASK<<ML_BITS); len = length-RUN_MASK; for(; len > 254 ; len-=255) *op++ = 255; *op++ = (BYTE)len; }
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else *token = (length<<ML_BITS);
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#endif
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// Copy Literals
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LZ4_BLINDCOPY(anchor, op, length);
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_next_match:
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// Encode Offset
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LZ4_WRITE_LITTLEENDIAN_16(op,ip-ref);
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LZ4_WRITE_LITTLEENDIAN_16(op,(U16)(ip-ref));
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// Start Counting
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ip+=MINMATCH; ref+=MINMATCH; // MinMatch verified
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@ -578,7 +613,8 @@ _next_match:
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_endCount:
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// Encode MatchLength
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len = (ip - anchor);
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len = (int)(ip - anchor);
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if unlikely(op + (1 + LASTLITERALS) + (len>>8) >= oend) return 0; // Check output limit
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if (len>=(int)ML_MASK) { *token+=ML_MASK; len-=ML_MASK; for(; len > 509 ; len-=510) { *op++ = 255; *op++ = 255; } if (len > 254) { len-=255; *op++ = 255; } *op++ = (BYTE)len; }
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else *token += len;
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@ -586,11 +622,11 @@ _endCount:
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if (ip > mflimit) { anchor = ip; break; }
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// Fill table
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HashTable[LZ4_HASH64K_VALUE(ip-2)] = ip - 2 - base;
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HashTable[LZ4_HASH64K_VALUE(ip-2)] = (U16)(ip - 2 - base);
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// Test next position
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ref = base + HashTable[LZ4_HASH64K_VALUE(ip)];
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HashTable[LZ4_HASH64K_VALUE(ip)] = ip - base;
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HashTable[LZ4_HASH64K_VALUE(ip)] = (U16)(ip - base);
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if (A32(ref) == A32(ip)) { token = op++; *token=0; goto _next_match; }
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// Prepare next loop
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@ -601,8 +637,8 @@ _endCount:
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_last_literals:
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// Encode Last Literals
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{
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int lastRun = iend - anchor;
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if ((LZ4_COMPRESSMIN>0) && (((op - (BYTE*)dest) + lastRun + 1 + ((lastRun-15)/255)) > isize - LZ4_COMPRESSMIN)) return 0;
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int lastRun = (int)(iend - anchor);
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if (((char*)op - dest) + lastRun + 1 + ((lastRun)>>8) >= maxOutputSize) return 0;
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if (lastRun>=(int)RUN_MASK) { *op++=(RUN_MASK<<ML_BITS); lastRun-=RUN_MASK; for(; lastRun > 254 ; lastRun-=255) *op++ = 255; *op++ = (BYTE) lastRun; }
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else *op++ = (lastRun<<ML_BITS);
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memcpy(op, anchor, iend - anchor);
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@ -614,26 +650,34 @@ _last_literals:
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}
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int LZ4_compress(const char* source,
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char* dest,
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int isize)
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int LZ4_compress_limitedOutput(const char* source,
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char* dest,
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int isize,
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int maxOutputSize)
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{
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#if HEAPMODE
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void* ctx = malloc(sizeof(struct refTables));
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int result;
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if (isize < LZ4_64KLIMIT)
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result = LZ4_compress64kCtx(&ctx, source, dest, isize);
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else result = LZ4_compressCtx(&ctx, source, dest, isize);
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result = LZ4_compress64kCtx(&ctx, source, dest, isize, maxOutputSize);
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else result = LZ4_compressCtx(&ctx, source, dest, isize, maxOutputSize);
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free(ctx);
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return result;
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#else
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if (isize < (int)LZ4_64KLIMIT) return LZ4_compress64kCtx(NULL, source, dest, isize);
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return LZ4_compressCtx(NULL, source, dest, isize);
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if (isize < (int)LZ4_64KLIMIT) return LZ4_compress64kCtx(NULL, source, dest, isize, maxOutputSize);
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return LZ4_compressCtx(NULL, source, dest, isize, maxOutputSize);
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#endif
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}
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int LZ4_compress(const char* source,
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char* dest,
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int isize)
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{
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return LZ4_compress_limitedOutput(source, dest, isize, LZ4_compressBound(isize));
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}
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//****************************
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@ -47,19 +47,22 @@ int LZ4_uncompress (const char* source, char* dest, int osize);
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/*
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LZ4_compress() :
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Compresses 'isize' bytes from 'source' into 'dest'.
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Destination buffer must be already allocated,
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and must be sized to handle worst cases situations (input data not compressible)
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Worst case size evaluation is provided by macro LZ4_compressBound()
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isize : is the input size. Max supported value is ~1.9GB
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return : the number of bytes written in buffer dest
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or 0 if the compression fails (if LZ4_COMPRESSMIN is set)
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note : destination buffer must be already allocated.
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destination buffer must be sized to handle worst cases situations (input data not compressible)
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worst case size evaluation is provided by function LZ4_compressBound()
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LZ4_uncompress() :
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osize : is the output size, therefore the original size
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return : the number of bytes read in the source buffer
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If the source stream is malformed, the function will stop decoding and return a negative result, indicating the byte position of the faulty instruction
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This function never writes beyond dest + osize, and is therefore protected against malicious data packets
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note : destination buffer must be already allocated
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note : destination buffer must be already allocated.
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its size must be a minimum of 'osize' bytes.
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*/
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@ -67,7 +70,7 @@ LZ4_uncompress() :
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// Advanced Functions
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//****************************
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int LZ4_compressBound(int isize);
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#define LZ4_compressBound(isize) (isize + (isize/255) + 16)
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/*
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LZ4_compressBound() :
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@ -80,6 +83,21 @@ LZ4_compressBound() :
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*/
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int LZ4_compress_limitedOutput (const char* source, char* dest, int isize, int maxOutputSize);
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/*
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LZ4_compress_limitedOutput() :
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Compress 'isize' bytes from 'source' into an output buffer 'dest' of maximum size 'maxOutputSize'.
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If it cannot achieve it, compression will stop, and result of the function will be zero.
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This function never writes outside of provided output buffer.
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|
||||
isize : is the input size. Max supported value is ~1.9GB
|
||||
maxOutputSize : is the size of the destination buffer (which must be already allocated)
|
||||
return : the number of bytes written in buffer 'dest'
|
||||
or 0 if the compression fails
|
||||
*/
|
||||
|
||||
|
||||
int LZ4_uncompress_unknownOutputSize (const char* source, char* dest, int isize, int maxOutputSize);
|
||||
|
||||
/*
|
||||
|
@ -94,27 +112,6 @@ LZ4_uncompress_unknownOutputSize() :
|
|||
*/
|
||||
|
||||
|
||||
int LZ4_compressCtx(void** ctx, const char* source, char* dest, int isize);
|
||||
int LZ4_compress64kCtx(void** ctx, const char* source, char* dest, int isize);
|
||||
|
||||
/*
|
||||
LZ4_compressCtx() :
|
||||
This function explicitly handles the CTX memory structure.
|
||||
It avoids allocating/deallocating memory between each call, improving performance when malloc is heavily invoked.
|
||||
This function is only useful when memory is allocated into the heap (HASH_LOG value beyond STACK_LIMIT)
|
||||
Performance difference will be noticeable only when repetitively calling the compression function over many small segments.
|
||||
Note : by default, memory is allocated into the stack, therefore "malloc" is not invoked.
|
||||
LZ4_compress64kCtx() :
|
||||
Same as LZ4_compressCtx(), but specific to small inputs (<64KB).
|
||||
isize *Must* be <64KB, otherwise the output will be corrupted.
|
||||
|
||||
On first call : provide a *ctx=NULL; It will be automatically allocated.
|
||||
On next calls : reuse the same ctx pointer.
|
||||
Use different pointers for different threads when doing multi-threading.
|
||||
|
||||
*/
|
||||
|
||||
|
||||
#if defined (__cplusplus)
|
||||
}
|
||||
#endif
|
||||
|
|
|
@ -68,12 +68,20 @@
|
|||
|
||||
#ifdef _MSC_VER
|
||||
#define inline __forceinline // Visual is not C99, but supports some kind of inline
|
||||
#include <intrin.h> // For Visual 2005
|
||||
# if LZ4_ARCH64 // 64-bit
|
||||
# pragma intrinsic(_BitScanForward64) // For Visual 2005
|
||||
# pragma intrinsic(_BitScanReverse64) // For Visual 2005
|
||||
# else
|
||||
# pragma intrinsic(_BitScanForward) // For Visual 2005
|
||||
# pragma intrinsic(_BitScanReverse) // For Visual 2005
|
||||
# endif
|
||||
#endif
|
||||
|
||||
#ifdef _MSC_VER // Visual Studio
|
||||
#define bswap16(x) _byteswap_ushort(x)
|
||||
#define lz4_bswap16(x) _byteswap_ushort(x)
|
||||
#else
|
||||
#define bswap16(x) ((unsigned short int) ((((x) >> 8) & 0xffu) | (((x) & 0xffu) << 8)))
|
||||
#define lz4_bswap16(x) ((unsigned short int) ((((x) >> 8) & 0xffu) | (((x) & 0xffu) << 8)))
|
||||
#endif
|
||||
|
||||
|
||||
|
@ -174,8 +182,8 @@ typedef struct _U64_S { U64 v; } U64_S;
|
|||
#endif
|
||||
|
||||
#if defined(LZ4_BIG_ENDIAN)
|
||||
#define LZ4_READ_LITTLEENDIAN_16(d,s,p) { U16 v = A16(p); v = bswap16(v); d = (s) - v; }
|
||||
#define LZ4_WRITE_LITTLEENDIAN_16(p,i) { U16 v = (U16)(i); v = bswap16(v); A16(p) = v; p+=2; }
|
||||
#define LZ4_READ_LITTLEENDIAN_16(d,s,p) { U16 v = A16(p); v = lz4_bswap16(v); d = (s) - v; }
|
||||
#define LZ4_WRITE_LITTLEENDIAN_16(p,i) { U16 v = (U16)(i); v = lz4_bswap16(v); A16(p) = v; p+=2; }
|
||||
#else // Little Endian
|
||||
#define LZ4_READ_LITTLEENDIAN_16(d,s,p) { d = (s) - A16(p); }
|
||||
#define LZ4_WRITE_LITTLEENDIAN_16(p,v) { A16(p) = v; p+=2; }
|
||||
|
@ -350,7 +358,7 @@ inline static int LZ4HC_InsertAndFindBestMatch (LZ4HC_Data_Structure* hc4, const
|
|||
if ((ipt<matchlimit) && (*reft == *ipt)) ipt++;
|
||||
_endCount:
|
||||
|
||||
if (ipt-ip > ml) { ml = ipt-ip; *matchpos = ref; }
|
||||
if (ipt-ip > ml) { ml = (int)(ipt-ip); *matchpos = ref; }
|
||||
}
|
||||
ref = GETNEXT(ref);
|
||||
}
|
||||
|
@ -366,7 +374,7 @@ inline static int LZ4HC_InsertAndGetWiderMatch (LZ4HC_Data_Structure* hc4, const
|
|||
INITBASE(base,hc4->base);
|
||||
const BYTE* ref;
|
||||
int nbAttempts = MAX_NB_ATTEMPTS;
|
||||
int delta = ip-startLimit;
|
||||
int delta = (int)(ip-startLimit);
|
||||
|
||||
// First Match
|
||||
LZ4HC_Insert(hc4, ip);
|
||||
|
@ -399,7 +407,7 @@ _endCount:
|
|||
|
||||
if ((ipt-startt) > longest)
|
||||
{
|
||||
longest = ipt-startt;
|
||||
longest = (int)(ipt-startt);
|
||||
*matchpos = reft;
|
||||
*startpos = startt;
|
||||
}
|
||||
|
@ -417,7 +425,7 @@ inline static int LZ4_encodeSequence(const BYTE** ip, BYTE** op, const BYTE** an
|
|||
BYTE* token;
|
||||
|
||||
// Encode Literal length
|
||||
length = *ip - *anchor;
|
||||
length = (int)(*ip - *anchor);
|
||||
token = (*op)++;
|
||||
if (length>=(int)RUN_MASK) { *token=(RUN_MASK<<ML_BITS); len = length-RUN_MASK; for(; len > 254 ; len-=255) *(*op)++ = 255; *(*op)++ = (BYTE)len; }
|
||||
else *token = (length<<ML_BITS);
|
||||
|
@ -426,7 +434,7 @@ inline static int LZ4_encodeSequence(const BYTE** ip, BYTE** op, const BYTE** an
|
|||
LZ4_BLINDCOPY(*anchor, *op, length);
|
||||
|
||||
// Encode Offset
|
||||
LZ4_WRITE_LITTLEENDIAN_16(*op,*ip-ref);
|
||||
LZ4_WRITE_LITTLEENDIAN_16(*op,(U16)(*ip-ref));
|
||||
|
||||
// Encode MatchLength
|
||||
len = (int)(ml-MINMATCH);
|
||||
|
@ -519,8 +527,8 @@ _Search3:
|
|||
int correction;
|
||||
int new_ml = ml;
|
||||
if (new_ml > OPTIMAL_ML) new_ml = OPTIMAL_ML;
|
||||
if (ip+new_ml > start2 + ml2 - MINMATCH) new_ml = start2 - ip + ml2 - MINMATCH;
|
||||
correction = new_ml - (start2 - ip);
|
||||
if (ip+new_ml > start2 + ml2 - MINMATCH) new_ml = (int)(start2 - ip) + ml2 - MINMATCH;
|
||||
correction = new_ml - (int)(start2 - ip);
|
||||
if (correction > 0)
|
||||
{
|
||||
start2 += correction;
|
||||
|
@ -543,8 +551,8 @@ _Search3:
|
|||
{
|
||||
int correction;
|
||||
if (ml > OPTIMAL_ML) ml = OPTIMAL_ML;
|
||||
if (ip+ml > start2 + ml2 - MINMATCH) ml = start2 - ip + ml2 - MINMATCH;
|
||||
correction = ml - (start2 - ip);
|
||||
if (ip+ml > start2 + ml2 - MINMATCH) ml = (int)(start2 - ip) + ml2 - MINMATCH;
|
||||
correction = ml - (int)(start2 - ip);
|
||||
if (correction > 0)
|
||||
{
|
||||
start2 += correction;
|
||||
|
@ -554,7 +562,7 @@ _Search3:
|
|||
}
|
||||
else
|
||||
{
|
||||
ml = start2 - ip;
|
||||
ml = (int)(start2 - ip);
|
||||
}
|
||||
}
|
||||
// Now, encode 2 sequences
|
||||
|
@ -570,7 +578,7 @@ _Search3:
|
|||
{
|
||||
if (start2 < ip+ml)
|
||||
{
|
||||
int correction = (ip+ml) - start2;
|
||||
int correction = (int)(ip+ml - start2);
|
||||
start2 += correction;
|
||||
ref2 += correction;
|
||||
ml2 -= correction;
|
||||
|
@ -607,8 +615,8 @@ _Search3:
|
|||
{
|
||||
int correction;
|
||||
if (ml > OPTIMAL_ML) ml = OPTIMAL_ML;
|
||||
if (ip + ml > start2 + ml2 - MINMATCH) ml = start2 - ip + ml2 - MINMATCH;
|
||||
correction = ml - (start2 - ip);
|
||||
if (ip + ml > start2 + ml2 - MINMATCH) ml = (int)(start2 - ip) + ml2 - MINMATCH;
|
||||
correction = ml - (int)(start2 - ip);
|
||||
if (correction > 0)
|
||||
{
|
||||
start2 += correction;
|
||||
|
@ -618,7 +626,7 @@ _Search3:
|
|||
}
|
||||
else
|
||||
{
|
||||
ml = start2 - ip;
|
||||
ml = (int)(start2 - ip);
|
||||
}
|
||||
}
|
||||
LZ4_encodeSequence(&ip, &op, &anchor, ml, ref);
|
||||
|
@ -637,7 +645,7 @@ _Search3:
|
|||
|
||||
// Encode Last Literals
|
||||
{
|
||||
int lastRun = iend - anchor;
|
||||
int lastRun = (int)(iend - anchor);
|
||||
if (lastRun>=(int)RUN_MASK) { *op++=(RUN_MASK<<ML_BITS); lastRun-=RUN_MASK; for(; lastRun > 254 ; lastRun-=255) *op++ = 255; *op++ = (BYTE) lastRun; }
|
||||
else *op++ = (lastRun<<ML_BITS);
|
||||
memcpy(op, anchor, iend - anchor);
|
||||
|
|
Loading…
Reference in New Issue