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/*
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* Copyright ( c ) 2017 - 2020 , Yann Collet , Facebook , Inc .
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* All rights reserved .
*
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* This source code is licensed under both the BSD - style license ( found in the
* LICENSE file in the root directory of this source tree ) and the GPLv2 ( found
* in the COPYING file in the root directory of this source tree ) .
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* You may select , at your option , one of the above - listed licenses .
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*/
# include <limits.h>
# include <math.h>
# include <stddef.h>
# include <stdio.h>
# include <stdlib.h>
# include <string.h>
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# include "util.h"
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# include "timefn.h" /* UTIL_clockSpanMicro, SEC_TO_MICRO, UTIL_TIME_INITIALIZER */
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# include "zstd.h"
# include "zstd_internal.h"
# include "mem.h"
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# define ZDICT_STATIC_LINKING_ONLY
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# include "zdict.h"
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fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
/* Direct access to internal compression functions is required */
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# include "zstd_compress.c"
# define XXH_STATIC_LINKING_ONLY
# include "xxhash.h" /* XXH64 */
# ifndef MIN
# define MIN(a, b) ((a) < (b) ? (a) : (b))
# endif
# ifndef MAX_PATH
# ifdef PATH_MAX
# define MAX_PATH PATH_MAX
# else
# define MAX_PATH 256
# endif
# endif
/*-************************************
* DISPLAY Macros
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# define DISPLAY(...) fprintf(stderr, __VA_ARGS__)
# define DISPLAYLEVEL(l, ...) if (g_displayLevel>=l) { DISPLAY(__VA_ARGS__); }
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static U32 g_displayLevel = 2 ;
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# define DISPLAYUPDATE(...) \
do { \
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if ( ( UTIL_clockSpanMicro ( g_displayClock ) > g_refreshRate ) | | \
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( g_displayLevel > = 4 ) ) { \
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g_displayClock = UTIL_getTime ( ) ; \
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DISPLAY ( __VA_ARGS__ ) ; \
if ( g_displayLevel > = 4 ) fflush ( stderr ) ; \
} \
} while ( 0 )
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static const U64 g_refreshRate = SEC_TO_MICRO / 6 ;
static UTIL_time_t g_displayClock = UTIL_TIME_INITIALIZER ;
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# define CHECKERR(code) \
do { \
if ( ZSTD_isError ( code ) ) { \
DISPLAY ( " Error occurred while generating data: %s \n " , \
ZSTD_getErrorName ( code ) ) ; \
exit ( 1 ) ; \
} \
} while ( 0 )
/*-*******************************************************
* Random function
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
static U32 RAND ( U32 * src )
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{
# define RAND_rotl32(x,r) ((x << r) | (x >> (32 - r)))
static const U32 prime1 = 2654435761U ;
static const U32 prime2 = 2246822519U ;
U32 rand32 = * src ;
rand32 * = prime1 ;
rand32 + = prime2 ;
rand32 = RAND_rotl32 ( rand32 , 13 ) ;
* src = rand32 ;
return RAND_rotl32 ( rand32 , 27 ) ;
# undef RAND_rotl32
}
# define DISTSIZE (8192)
/* Write `size` bytes into `ptr`, all of which are less than or equal to `maxSymb` */
static void RAND_bufferMaxSymb ( U32 * seed , void * ptr , size_t size , int maxSymb )
{
size_t i ;
BYTE * op = ptr ;
for ( i = 0 ; i < size ; i + + ) {
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op [ i ] = ( BYTE ) ( RAND ( seed ) % ( maxSymb + 1 ) ) ;
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}
}
/* Write `size` random bytes into `ptr` */
static void RAND_buffer ( U32 * seed , void * ptr , size_t size )
{
size_t i ;
BYTE * op = ptr ;
for ( i = 0 ; i + 4 < = size ; i + = 4 ) {
MEM_writeLE32 ( op + i , RAND ( seed ) ) ;
}
for ( ; i < size ; i + + ) {
op [ i ] = RAND ( seed ) & 0xff ;
}
}
/* Write `size` bytes into `ptr` following the distribution `dist` */
static void RAND_bufferDist ( U32 * seed , BYTE * dist , void * ptr , size_t size )
{
size_t i ;
BYTE * op = ptr ;
for ( i = 0 ; i < size ; i + + ) {
op [ i ] = dist [ RAND ( seed ) % DISTSIZE ] ;
}
}
/* Generate a random distribution where the frequency of each symbol follows a
* geometric distribution defined by ` weight `
* ` dist ` should have size at least ` DISTSIZE ` */
static void RAND_genDist ( U32 * seed , BYTE * dist , double weight )
{
size_t i = 0 ;
size_t statesLeft = DISTSIZE ;
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BYTE symb = ( BYTE ) ( RAND ( seed ) % 256 ) ;
BYTE step = ( BYTE ) ( ( RAND ( seed ) % 256 ) | 1 ) ; /* force it to be odd so it's relatively prime to 256 */
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while ( i < DISTSIZE ) {
size_t states = ( ( size_t ) ( weight * statesLeft ) ) + 1 ;
size_t j ;
for ( j = 0 ; j < states & & i < DISTSIZE ; j + + , i + + ) {
dist [ i ] = symb ;
}
symb + = step ;
statesLeft - = states ;
}
}
/* Generates a random number in the range [min, max) */
static inline U32 RAND_range ( U32 * seed , U32 min , U32 max )
{
return ( RAND ( seed ) % ( max - min ) ) + min ;
}
# define ROUND(x) ((U32)(x + 0.5))
/* Generates a random number in an exponential distribution with mean `mean` */
static double RAND_exp ( U32 * seed , double mean )
{
double const u = RAND ( seed ) / ( double ) UINT_MAX ;
return log ( 1 - u ) * ( - mean ) ;
}
/*-*******************************************************
* Constants and Structs
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
const char * BLOCK_TYPES [ ] = { " raw " , " rle " , " compressed " } ;
# define MAX_DECOMPRESSED_SIZE_LOG 20
# define MAX_DECOMPRESSED_SIZE (1ULL << MAX_DECOMPRESSED_SIZE_LOG)
# define MAX_WINDOW_LOG 22 /* Recommended support is 8MB, so limit to 4MB + mantissa */
# define MIN_SEQ_LEN (3)
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# define MAX_NB_SEQ ((ZSTD_BLOCKSIZE_MAX + MIN_SEQ_LEN - 1) / MIN_SEQ_LEN)
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BYTE CONTENT_BUFFER [ MAX_DECOMPRESSED_SIZE ] ;
BYTE FRAME_BUFFER [ MAX_DECOMPRESSED_SIZE * 2 ] ;
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BYTE LITERAL_BUFFER [ ZSTD_BLOCKSIZE_MAX ] ;
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seqDef SEQUENCE_BUFFER [ MAX_NB_SEQ ] ;
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BYTE SEQUENCE_LITERAL_BUFFER [ ZSTD_BLOCKSIZE_MAX ] ; /* storeSeq expects a place to copy literals to */
BYTE SEQUENCE_LLCODE [ ZSTD_BLOCKSIZE_MAX ] ;
BYTE SEQUENCE_MLCODE [ ZSTD_BLOCKSIZE_MAX ] ;
BYTE SEQUENCE_OFCODE [ ZSTD_BLOCKSIZE_MAX ] ;
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unsigned WKSP [ HUF_WORKSPACE_SIZE_U32 ] ;
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typedef struct {
size_t contentSize ; /* 0 means unknown (unless contentSize == windowSize == 0) */
unsigned windowSize ; /* contentSize >= windowSize means single segment */
} frameHeader_t ;
/* For repeat modes */
typedef struct {
U32 rep [ ZSTD_REP_NUM ] ;
int hufInit ;
/* the distribution used in the previous block for repeat mode */
BYTE hufDist [ DISTSIZE ] ;
U32 hufTable [ 256 ] ; /* HUF_CElt is an incomplete type */
int fseInit ;
FSE_CTable offcodeCTable [ FSE_CTABLE_SIZE_U32 ( OffFSELog , MaxOff ) ] ;
FSE_CTable matchlengthCTable [ FSE_CTABLE_SIZE_U32 ( MLFSELog , MaxML ) ] ;
FSE_CTable litlengthCTable [ FSE_CTABLE_SIZE_U32 ( LLFSELog , MaxLL ) ] ;
/* Symbols that were present in the previous distribution, for use with
* set_repeat */
BYTE litlengthSymbolSet [ 36 ] ;
BYTE offsetSymbolSet [ 29 ] ;
BYTE matchlengthSymbolSet [ 53 ] ;
} cblockStats_t ;
typedef struct {
void * data ;
void * dataStart ;
void * dataEnd ;
void * src ;
void * srcStart ;
void * srcEnd ;
frameHeader_t header ;
cblockStats_t stats ;
cblockStats_t oldStats ; /* so they can be rolled back if uncompressible */
} frame_t ;
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typedef struct {
int useDict ;
U32 dictID ;
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size_t dictContentSize ;
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BYTE * dictContent ;
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} dictInfo ;
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typedef enum {
gt_frame = 0 , /* generate frames */
gt_block , /* generate compressed blocks without block/frame headers */
} genType_e ;
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/*-*******************************************************
* Global variables ( set from command line )
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
U32 g_maxDecompressedSizeLog = MAX_DECOMPRESSED_SIZE_LOG ; /* <= 20 */
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U32 g_maxBlockSize = ZSTD_BLOCKSIZE_MAX ; /* <= 128 KB */
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/*-*******************************************************
* Generator Functions
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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struct {
int contentSize ; /* force the content size to be present */
} opts ; /* advanced options on generation */
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/* Generate and write a random frame header */
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static void writeFrameHeader ( U32 * seed , frame_t * frame , dictInfo info )
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{
BYTE * const op = frame - > data ;
size_t pos = 0 ;
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frameHeader_t fh ;
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BYTE windowByte = 0 ;
int singleSegment = 0 ;
int contentSizeFlag = 0 ;
int fcsCode = 0 ;
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memset ( & fh , 0 , sizeof ( fh ) ) ;
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/* generate window size */
{
/* Follow window algorithm from specification */
int const exponent = RAND ( seed ) % ( MAX_WINDOW_LOG - 10 ) ;
int const mantissa = RAND ( seed ) % 8 ;
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windowByte = ( BYTE ) ( ( exponent < < 3 ) | mantissa ) ;
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fh . windowSize = ( 1U < < ( exponent + 10 ) ) ;
fh . windowSize + = fh . windowSize / 8 * mantissa ;
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}
{
/* Generate random content size */
size_t highBit ;
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if ( RAND ( seed ) & 7 & & g_maxDecompressedSizeLog > 7 ) {
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/* do content of at least 128 bytes */
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highBit = 1ULL < < RAND_range ( seed , 7 , g_maxDecompressedSizeLog ) ;
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} else if ( RAND ( seed ) & 3 ) {
/* do small content */
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highBit = 1ULL < < RAND_range ( seed , 0 , MIN ( 7 , 1U < < g_maxDecompressedSizeLog ) ) ;
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} else {
/* 0 size frame */
highBit = 0 ;
}
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fh . contentSize = highBit ? highBit + ( RAND ( seed ) % highBit ) : 0 ;
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/* provide size sometimes */
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contentSizeFlag = opts . contentSize | ( RAND ( seed ) & 1 ) ;
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if ( contentSizeFlag & & ( fh . contentSize = = 0 | | ! ( RAND ( seed ) & 7 ) ) ) {
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/* do single segment sometimes */
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fh . windowSize = ( U32 ) fh . contentSize ;
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singleSegment = 1 ;
}
}
if ( contentSizeFlag ) {
/* Determine how large fcs field has to be */
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int minFcsCode = ( fh . contentSize > = 256 ) +
( fh . contentSize > = 65536 + 256 ) +
( fh . contentSize > 0xFFFFFFFFU ) ;
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if ( ! singleSegment & & ! minFcsCode ) {
minFcsCode = 1 ;
}
fcsCode = minFcsCode + ( RAND ( seed ) % ( 4 - minFcsCode ) ) ;
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if ( fcsCode = = 1 & & fh . contentSize < 256 ) fcsCode + + ;
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}
/* write out the header */
MEM_writeLE32 ( op + pos , ZSTD_MAGICNUMBER ) ;
pos + = 4 ;
{
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/*
* fcsCode : 2 - bit flag specifying how many bytes used to represent Frame_Content_Size ( bits 7 - 6 )
* singleSegment : 1 - bit flag describing if data must be regenerated within a single continuous memory segment . ( bit 5 )
* contentChecksumFlag : 1 - bit flag that is set if frame includes checksum at the end - - set to 1 below ( bit 2 )
* dictBits : 2 - bit flag describing how many bytes Dictionary_ID uses - - set to 3 ( bits 1 - 0 )
* For more information : https : //github.com/facebook/zstd/blob/dev/doc/zstd_compression_format.md#frame_header
*/
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int const dictBits = info . useDict ? 3 : 0 ;
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BYTE const frameHeaderDescriptor =
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( BYTE ) ( ( fcsCode < < 6 ) | ( singleSegment < < 5 ) | ( 1 < < 2 ) | dictBits ) ;
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op [ pos + + ] = frameHeaderDescriptor ;
}
if ( ! singleSegment ) {
op [ pos + + ] = windowByte ;
}
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if ( info . useDict ) {
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MEM_writeLE32 ( op + pos , ( U32 ) info . dictID ) ;
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pos + = 4 ;
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}
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if ( contentSizeFlag ) {
switch ( fcsCode ) {
default : /* Impossible */
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case 0 : op [ pos + + ] = ( BYTE ) fh . contentSize ; break ;
case 1 : MEM_writeLE16 ( op + pos , ( U16 ) ( fh . contentSize - 256 ) ) ; pos + = 2 ; break ;
case 2 : MEM_writeLE32 ( op + pos , ( U32 ) fh . contentSize ) ; pos + = 4 ; break ;
case 3 : MEM_writeLE64 ( op + pos , ( U64 ) fh . contentSize ) ; pos + = 8 ; break ;
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}
}
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 3 , " frame content size: \t %u \n " , ( unsigned ) fh . contentSize ) ;
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DISPLAYLEVEL ( 3 , " frame window size: \t %u \n " , fh . windowSize ) ;
DISPLAYLEVEL ( 3 , " content size flag: \t %d \n " , contentSizeFlag ) ;
DISPLAYLEVEL ( 3 , " single segment flag: \t %d \n " , singleSegment ) ;
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frame - > data = op + pos ;
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frame - > header = fh ;
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}
/* Write a literal block in either raw or RLE form, return the literals size */
static size_t writeLiteralsBlockSimple ( U32 * seed , frame_t * frame , size_t contentSize )
{
BYTE * op = ( BYTE * ) frame - > data ;
int const type = RAND ( seed ) % 2 ;
int const sizeFormatDesc = RAND ( seed ) % 8 ;
size_t litSize ;
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size_t maxLitSize = MIN ( contentSize , g_maxBlockSize ) ;
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if ( sizeFormatDesc = = 0 ) {
/* Size_FormatDesc = ?0 */
maxLitSize = MIN ( maxLitSize , 31 ) ;
} else if ( sizeFormatDesc < = 4 ) {
/* Size_FormatDesc = 01 */
maxLitSize = MIN ( maxLitSize , 4095 ) ;
} else {
/* Size_Format = 11 */
maxLitSize = MIN ( maxLitSize , 1048575 ) ;
}
litSize = RAND ( seed ) % ( maxLitSize + 1 ) ;
if ( frame - > src = = frame - > srcStart & & litSize = = 0 ) {
litSize = 1 ; /* no empty literals if there's nothing preceding this block */
}
if ( litSize + 3 > contentSize ) {
litSize = contentSize ; /* no matches shorter than 3 are allowed */
}
/* use smallest size format that fits */
if ( litSize < 32 ) {
op [ 0 ] = ( type | ( 0 < < 2 ) | ( litSize < < 3 ) ) & 0xff ;
op + = 1 ;
} else if ( litSize < 4096 ) {
op [ 0 ] = ( type | ( 1 < < 2 ) | ( litSize < < 4 ) ) & 0xff ;
op [ 1 ] = ( litSize > > 4 ) & 0xff ;
op + = 2 ;
} else {
op [ 0 ] = ( type | ( 3 < < 2 ) | ( litSize < < 4 ) ) & 0xff ;
op [ 1 ] = ( litSize > > 4 ) & 0xff ;
op [ 2 ] = ( litSize > > 12 ) & 0xff ;
op + = 3 ;
}
if ( type = = 0 ) {
/* Raw literals */
DISPLAYLEVEL ( 4 , " raw literals \n " ) ;
RAND_buffer ( seed , LITERAL_BUFFER , litSize ) ;
memcpy ( op , LITERAL_BUFFER , litSize ) ;
op + = litSize ;
} else {
/* RLE literals */
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BYTE const symb = ( BYTE ) ( RAND ( seed ) % 256 ) ;
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fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 4 , " rle literals: 0x%02x \n " , ( unsigned ) symb ) ;
2017-02-22 23:59:15 +00:00
memset ( LITERAL_BUFFER , symb , litSize ) ;
op [ 0 ] = symb ;
op + + ;
}
frame - > data = op ;
return litSize ;
}
/* Generate a Huffman header for the given source */
static size_t writeHufHeader ( U32 * seed , HUF_CElt * hufTable , void * dst , size_t dstSize ,
const void * src , size_t srcSize )
{
BYTE * const ostart = ( BYTE * ) dst ;
BYTE * op = ostart ;
unsigned huffLog = 11 ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
unsigned maxSymbolValue = 255 ;
2017-02-22 23:59:15 +00:00
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
unsigned count [ HUF_SYMBOLVALUE_MAX + 1 ] ;
2017-02-22 23:59:15 +00:00
/* Scan input and build symbol stats */
2018-10-26 20:21:37 +00:00
{ size_t const largest = HIST_count_wksp ( count , & maxSymbolValue , ( const BYTE * ) src , srcSize , WKSP , sizeof ( WKSP ) ) ;
2018-06-13 23:49:31 +00:00
assert ( ! HIST_isError ( largest ) ) ;
2017-02-22 23:59:15 +00:00
if ( largest = = srcSize ) { * ostart = ( ( const BYTE * ) src ) [ 0 ] ; return 0 ; } /* single symbol, rle */
if ( largest < = ( srcSize > > 7 ) + 1 ) return 0 ; /* Fast heuristic : not compressible enough */
}
/* Build Huffman Tree */
/* Max Huffman log is 11, min is highbit(maxSymbolValue)+1 */
huffLog = RAND_range ( seed , ZSTD_highbit32 ( maxSymbolValue ) + 1 , huffLog + 1 ) ;
DISPLAYLEVEL ( 6 , " huffman log: %u \n " , huffLog ) ;
{ size_t const maxBits = HUF_buildCTable_wksp ( hufTable , count , maxSymbolValue , huffLog , WKSP , sizeof ( WKSP ) ) ;
CHECKERR ( maxBits ) ;
huffLog = ( U32 ) maxBits ;
}
/* Write table description header */
{ size_t const hSize = HUF_writeCTable ( op , dstSize , hufTable , maxSymbolValue , huffLog ) ;
if ( hSize + 12 > = srcSize ) return 0 ; /* not useful to try compression */
op + = hSize ;
}
return op - ostart ;
}
2017-09-12 21:29:39 +00:00
/* Write a Huffman coded literals block and return the literals size */
2017-02-22 23:59:15 +00:00
static size_t writeLiteralsBlockCompressed ( U32 * seed , frame_t * frame , size_t contentSize )
{
BYTE * origop = ( BYTE * ) frame - > data ;
BYTE * opend = ( BYTE * ) frame - > dataEnd ;
BYTE * op ;
BYTE * const ostart = origop ;
int const sizeFormat = RAND ( seed ) % 4 ;
size_t litSize ;
size_t hufHeaderSize = 0 ;
size_t compressedSize = 0 ;
2017-09-13 22:07:03 +00:00
size_t maxLitSize = MIN ( contentSize - 3 , g_maxBlockSize ) ;
2017-02-22 23:59:15 +00:00
symbolEncodingType_e hType ;
if ( contentSize < 64 ) {
/* make sure we get reasonably-sized literals for compression */
return ERROR ( GENERIC ) ;
}
DISPLAYLEVEL ( 4 , " compressed literals \n " ) ;
switch ( sizeFormat ) {
case 0 : /* fall through, size is the same as case 1 */
case 1 :
maxLitSize = MIN ( maxLitSize , 1023 ) ;
origop + = 3 ;
break ;
case 2 :
maxLitSize = MIN ( maxLitSize , 16383 ) ;
origop + = 4 ;
break ;
case 3 :
maxLitSize = MIN ( maxLitSize , 262143 ) ;
origop + = 5 ;
break ;
default : ; /* impossible */
}
do {
op = origop ;
do {
litSize = RAND ( seed ) % ( maxLitSize + 1 ) ;
} while ( litSize < 32 ) ; /* avoid small literal sizes */
if ( litSize + 3 > contentSize ) {
litSize = contentSize ; /* no matches shorter than 3 are allowed */
}
/* most of the time generate a new distribution */
if ( ( RAND ( seed ) & 3 ) | | ! frame - > stats . hufInit ) {
do {
if ( RAND ( seed ) & 3 ) {
2019-04-12 18:18:11 +00:00
/* add 10 to ensure some compressibility */
2017-02-22 23:59:15 +00:00
double const weight = ( ( RAND ( seed ) % 90 ) + 10 ) / 100.0 ;
DISPLAYLEVEL ( 5 , " distribution weight: %d%% \n " ,
( int ) ( weight * 100 ) ) ;
RAND_genDist ( seed , frame - > stats . hufDist , weight ) ;
} else {
/* sometimes do restricted range literals to force
* non - huffman headers */
DISPLAYLEVEL ( 5 , " small range literals \n " ) ;
RAND_bufferMaxSymb ( seed , frame - > stats . hufDist , DISTSIZE ,
15 ) ;
}
RAND_bufferDist ( seed , frame - > stats . hufDist , LITERAL_BUFFER ,
litSize ) ;
/* generate the header from the distribution instead of the
* actual data to avoid bugs with symbols that were in the
* distribution but never showed up in the output */
hufHeaderSize = writeHufHeader (
seed , ( HUF_CElt * ) frame - > stats . hufTable , op , opend - op ,
frame - > stats . hufDist , DISTSIZE ) ;
CHECKERR ( hufHeaderSize ) ;
/* repeat until a valid header is written */
} while ( hufHeaderSize = = 0 ) ;
op + = hufHeaderSize ;
hType = set_compressed ;
frame - > stats . hufInit = 1 ;
} else {
/* repeat the distribution/table from last time */
DISPLAYLEVEL ( 5 , " huffman repeat stats \n " ) ;
RAND_bufferDist ( seed , frame - > stats . hufDist , LITERAL_BUFFER ,
litSize ) ;
hufHeaderSize = 0 ;
hType = set_repeat ;
}
do {
compressedSize =
sizeFormat = = 0
? HUF_compress1X_usingCTable (
op , opend - op , LITERAL_BUFFER , litSize ,
( HUF_CElt * ) frame - > stats . hufTable )
: HUF_compress4X_usingCTable (
op , opend - op , LITERAL_BUFFER , litSize ,
( HUF_CElt * ) frame - > stats . hufTable ) ;
CHECKERR ( compressedSize ) ;
/* this only occurs when it could not compress or similar */
} while ( compressedSize < = 0 ) ;
op + = compressedSize ;
compressedSize + = hufHeaderSize ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 5 , " regenerated size: %u \n " , ( unsigned ) litSize ) ;
DISPLAYLEVEL ( 5 , " compressed size: %u \n " , ( unsigned ) compressedSize ) ;
2017-02-22 23:59:15 +00:00
if ( compressedSize > = litSize ) {
DISPLAYLEVEL ( 5 , " trying again \n " ) ;
/* if we have to try again, reset the stats so we don't accidentally
* try to repeat a distribution we just made */
frame - > stats = frame - > oldStats ;
} else {
break ;
}
} while ( 1 ) ;
/* write header */
switch ( sizeFormat ) {
case 0 : /* fall through, size is the same as case 1 */
case 1 : {
U32 const header = hType | ( sizeFormat < < 2 ) | ( ( U32 ) litSize < < 4 ) |
( ( U32 ) compressedSize < < 14 ) ;
MEM_writeLE24 ( ostart , header ) ;
break ;
}
case 2 : {
U32 const header = hType | ( sizeFormat < < 2 ) | ( ( U32 ) litSize < < 4 ) |
( ( U32 ) compressedSize < < 18 ) ;
MEM_writeLE32 ( ostart , header ) ;
break ;
}
case 3 : {
U32 const header = hType | ( sizeFormat < < 2 ) | ( ( U32 ) litSize < < 4 ) |
( ( U32 ) compressedSize < < 22 ) ;
MEM_writeLE32 ( ostart , header ) ;
ostart [ 4 ] = ( BYTE ) ( compressedSize > > 10 ) ;
break ;
}
default : ; /* impossible */
}
frame - > data = op ;
return litSize ;
}
static size_t writeLiteralsBlock ( U32 * seed , frame_t * frame , size_t contentSize )
{
/* only do compressed for larger segments to avoid compressibility issues */
if ( RAND ( seed ) & 7 & & contentSize > = 64 ) {
return writeLiteralsBlockCompressed ( seed , frame , contentSize ) ;
} else {
return writeLiteralsBlockSimple ( seed , frame , contentSize ) ;
}
}
static inline void initSeqStore ( seqStore_t * seqStore ) {
2018-08-23 22:28:12 +00:00
seqStore - > maxNbSeq = MAX_NB_SEQ ;
2018-08-28 20:56:47 +00:00
seqStore - > maxNbLit = ZSTD_BLOCKSIZE_MAX ;
2017-02-22 23:59:15 +00:00
seqStore - > sequencesStart = SEQUENCE_BUFFER ;
seqStore - > litStart = SEQUENCE_LITERAL_BUFFER ;
seqStore - > llCode = SEQUENCE_LLCODE ;
seqStore - > mlCode = SEQUENCE_MLCODE ;
seqStore - > ofCode = SEQUENCE_OFCODE ;
ZSTD_resetSeqStore ( seqStore ) ;
}
/* Randomly generate sequence commands */
static U32 generateSequences ( U32 * seed , frame_t * frame , seqStore_t * seqStore ,
2017-06-19 23:23:00 +00:00
size_t contentSize , size_t literalsSize , dictInfo info )
2017-02-22 23:59:15 +00:00
{
/* The total length of all the matches */
size_t const remainingMatch = contentSize - literalsSize ;
2017-02-24 18:53:16 +00:00
size_t excessMatch = 0 ;
U32 numSequences = 0 ;
2017-03-20 19:38:19 +00:00
2017-02-22 23:59:15 +00:00
U32 i ;
const BYTE * literals = LITERAL_BUFFER ;
BYTE * srcPtr = frame - > src ;
2017-02-24 18:53:16 +00:00
if ( literalsSize ! = contentSize ) {
2017-02-22 23:59:15 +00:00
/* each match must be at least MIN_SEQ_LEN, so this is the maximum
* number of sequences we can have */
U32 const maxSequences = ( U32 ) remainingMatch / MIN_SEQ_LEN ;
numSequences = ( RAND ( seed ) % maxSequences ) + 1 ;
/* the extra match lengths we have to allocate to each sequence */
excessMatch = remainingMatch - numSequences * MIN_SEQ_LEN ;
}
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 5 , " total match lengths: %u \n " , ( unsigned ) remainingMatch ) ;
2017-02-22 23:59:15 +00:00
for ( i = 0 ; i < numSequences ; i + + ) {
/* Generate match and literal lengths by exponential distribution to
* ensure nice numbers */
U32 matchLen =
MIN_SEQ_LEN +
ROUND ( RAND_exp ( seed , excessMatch / ( double ) ( numSequences - i ) ) ) ;
U32 literalLen =
( RAND ( seed ) & 7 )
? ROUND ( RAND_exp ( seed ,
literalsSize /
( double ) ( numSequences - i ) ) )
: 0 ;
/* actual offset, code to send, and point to copy up to when shifting
* codes in the repeat offsets history */
U32 offset , offsetCode , repIndex ;
/* bounds checks */
2017-03-20 23:02:24 +00:00
matchLen = ( U32 ) MIN ( matchLen , excessMatch + MIN_SEQ_LEN ) ;
literalLen = MIN ( literalLen , ( U32 ) literalsSize ) ;
2017-02-22 23:59:15 +00:00
if ( i = = 0 & & srcPtr = = frame - > srcStart & & literalLen = = 0 ) literalLen = 1 ;
2017-03-20 23:02:24 +00:00
if ( i + 1 = = numSequences ) matchLen = MIN_SEQ_LEN + ( U32 ) excessMatch ;
2017-02-22 23:59:15 +00:00
memcpy ( srcPtr , literals , literalLen ) ;
srcPtr + = literalLen ;
do {
if ( RAND ( seed ) & 7 ) {
/* do a normal offset */
2017-06-23 22:54:51 +00:00
U32 const dataDecompressed = ( U32 ) ( ( BYTE * ) srcPtr - ( BYTE * ) frame - > srcStart ) ;
2017-02-22 23:59:15 +00:00
offset = ( RAND ( seed ) %
MIN ( frame - > header . windowSize ,
2017-02-23 23:53:44 +00:00
( size_t ) ( ( BYTE * ) srcPtr - ( BYTE * ) frame - > srcStart ) ) ) +
2017-02-22 23:59:15 +00:00
1 ;
2017-06-23 22:54:51 +00:00
if ( info . useDict & & ( RAND ( seed ) & 1 ) & & i + 1 ! = numSequences & & dataDecompressed < frame - > header . windowSize ) {
2017-06-09 16:48:56 +00:00
/* need to occasionally generate offsets that go past the start */
2017-06-23 20:44:24 +00:00
/* including i+1 != numSequences because the last sequences has to adhere to predetermined contentSize */
2017-06-23 18:22:29 +00:00
U32 lenPastStart = ( RAND ( seed ) % info . dictContentSize ) + 1 ;
2017-06-23 19:00:48 +00:00
offset = ( U32 ) ( ( BYTE * ) srcPtr - ( BYTE * ) frame - > srcStart ) + lenPastStart ;
2017-06-22 21:43:44 +00:00
if ( offset > frame - > header . windowSize ) {
2017-06-23 18:22:29 +00:00
if ( lenPastStart < MIN_SEQ_LEN ) {
/* when offset > windowSize, matchLen bound by end of dictionary (lenPastStart) */
/* this also means that lenPastStart must be greater than MIN_SEQ_LEN */
/* make sure lenPastStart does not go past dictionary start though */
2017-06-23 19:00:48 +00:00
lenPastStart = MIN ( lenPastStart + MIN_SEQ_LEN , ( U32 ) info . dictContentSize ) ;
offset = ( U32 ) ( ( BYTE * ) srcPtr - ( BYTE * ) frame - > srcStart ) + lenPastStart ;
2017-06-23 18:22:29 +00:00
}
{
U32 const matchLenBound = MIN ( frame - > header . windowSize , lenPastStart ) ;
matchLen = MIN ( matchLen , matchLenBound ) ;
}
2017-06-22 21:43:44 +00:00
}
2017-06-09 16:48:56 +00:00
}
2017-02-22 23:59:15 +00:00
offsetCode = offset + ZSTD_REP_MOVE ;
repIndex = 2 ;
} else {
/* do a repeat offset */
offsetCode = RAND ( seed ) % 3 ;
if ( literalLen > 0 ) {
offset = frame - > stats . rep [ offsetCode ] ;
repIndex = offsetCode ;
} else {
/* special case */
offset = offsetCode = = 2 ? frame - > stats . rep [ 0 ] - 1
: frame - > stats . rep [ offsetCode + 1 ] ;
repIndex = MIN ( 2 , offsetCode + 1 ) ;
}
}
2017-06-19 23:23:00 +00:00
} while ( ( ( ! info . useDict ) & & ( offset > ( size_t ) ( ( BYTE * ) srcPtr - ( BYTE * ) frame - > srcStart ) ) ) | | offset = = 0 ) ;
2017-02-22 23:59:15 +00:00
2017-06-20 16:50:28 +00:00
{
size_t j ;
BYTE * const dictEnd = info . dictContent + info . dictContentSize ;
2017-02-22 23:59:15 +00:00
for ( j = 0 ; j < matchLen ; j + + ) {
2017-06-23 19:00:48 +00:00
if ( ( U32 ) ( ( BYTE * ) srcPtr - ( BYTE * ) frame - > srcStart ) < offset ) {
2017-06-13 18:54:43 +00:00
/* copy from dictionary instead of literals */
2017-06-20 18:27:39 +00:00
size_t const dictOffset = offset - ( srcPtr - ( BYTE * ) frame - > srcStart ) ;
2017-06-20 16:50:28 +00:00
* srcPtr = * ( dictEnd - dictOffset ) ;
2017-06-13 18:54:43 +00:00
}
2017-06-19 21:07:56 +00:00
else {
2017-06-13 18:54:43 +00:00
* srcPtr = * ( srcPtr - offset ) ;
}
2017-02-22 23:59:15 +00:00
srcPtr + + ;
}
}
{ int r ;
for ( r = repIndex ; r > 0 ; r - - ) {
frame - > stats . rep [ r ] = frame - > stats . rep [ r - 1 ] ;
}
frame - > stats . rep [ 0 ] = offset ;
}
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 6 , " LL: %5u OF: %5u ML: %5u " ,
( unsigned ) literalLen , ( unsigned ) offset , ( unsigned ) matchLen ) ;
2017-03-20 19:38:19 +00:00
DISPLAYLEVEL ( 7 , " srcPos: %8u seqNb: %3u " ,
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
( unsigned ) ( ( BYTE * ) srcPtr - ( BYTE * ) frame - > srcStart ) , ( unsigned ) i ) ;
2017-02-22 23:59:15 +00:00
DISPLAYLEVEL ( 6 , " \n " ) ;
if ( offsetCode < 3 ) {
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 7 , " repeat offset: %d \n " , ( int ) repIndex ) ;
2017-02-22 23:59:15 +00:00
}
/* use libzstd sequence handling */
2019-09-20 08:09:47 +00:00
ZSTD_storeSeq ( seqStore , literalLen , literals , literals + literalLen ,
offsetCode , matchLen - MINMATCH ) ;
2017-02-22 23:59:15 +00:00
literalsSize - = literalLen ;
excessMatch - = ( matchLen - MIN_SEQ_LEN ) ;
literals + = literalLen ;
}
memcpy ( srcPtr , literals , literalsSize ) ;
srcPtr + = literalsSize ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 6 , " excess literals: %5u " , ( unsigned ) literalsSize ) ;
DISPLAYLEVEL ( 7 , " srcPos: %8u " , ( unsigned ) ( ( BYTE * ) srcPtr - ( BYTE * ) frame - > srcStart ) ) ;
2017-02-22 23:59:15 +00:00
DISPLAYLEVEL ( 6 , " \n " ) ;
return numSequences ;
}
static void initSymbolSet ( const BYTE * symbols , size_t len , BYTE * set , BYTE maxSymbolValue )
{
size_t i ;
memset ( set , 0 , ( size_t ) maxSymbolValue + 1 ) ;
for ( i = 0 ; i < len ; i + + ) {
set [ symbols [ i ] ] = 1 ;
}
}
static int isSymbolSubset ( const BYTE * symbols , size_t len , const BYTE * set , BYTE maxSymbolValue )
{
size_t i ;
for ( i = 0 ; i < len ; i + + ) {
if ( symbols [ i ] > maxSymbolValue | | ! set [ symbols [ i ] ] ) {
return 0 ;
}
}
return 1 ;
}
static size_t writeSequences ( U32 * seed , frame_t * frame , seqStore_t * seqStorePtr ,
size_t nbSeq )
{
/* This code is mostly copied from ZSTD_compressSequences in zstd_compress.c */
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
unsigned count [ MaxSeq + 1 ] ;
2017-02-22 23:59:15 +00:00
S16 norm [ MaxSeq + 1 ] ;
FSE_CTable * CTable_LitLength = frame - > stats . litlengthCTable ;
FSE_CTable * CTable_OffsetBits = frame - > stats . offcodeCTable ;
FSE_CTable * CTable_MatchLength = frame - > stats . matchlengthCTable ;
U32 LLtype , Offtype , MLtype ; /* compressed, raw or rle */
const seqDef * const sequences = seqStorePtr - > sequencesStart ;
const BYTE * const ofCodeTable = seqStorePtr - > ofCode ;
const BYTE * const llCodeTable = seqStorePtr - > llCode ;
const BYTE * const mlCodeTable = seqStorePtr - > mlCode ;
BYTE * const oend = ( BYTE * ) frame - > dataEnd ;
BYTE * op = ( BYTE * ) frame - > data ;
BYTE * seqHead ;
2020-08-27 00:52:54 +00:00
BYTE scratchBuffer [ FSE_BUILD_CTABLE_WORKSPACE_SIZE ( MaxSeq , MaxFSELog ) ] ;
2017-02-22 23:59:15 +00:00
/* literals compressing block removed so that can be done separately */
/* Sequences Header */
if ( ( oend - op ) < 3 /*max nbSeq Size*/ + 1 /*seqHead */ ) return ERROR ( dstSize_tooSmall ) ;
if ( nbSeq < 0x7F ) * op + + = ( BYTE ) nbSeq ;
else if ( nbSeq < LONGNBSEQ ) op [ 0 ] = ( BYTE ) ( ( nbSeq > > 8 ) + 0x80 ) , op [ 1 ] = ( BYTE ) nbSeq , op + = 2 ;
else op [ 0 ] = 0xFF , MEM_writeLE16 ( op + 1 , ( U16 ) ( nbSeq - LONGNBSEQ ) ) , op + = 3 ;
if ( nbSeq = = 0 ) {
frame - > data = op ;
return 0 ;
}
2018-10-21 01:53:02 +00:00
/* seqHead : flags for FSE encoding type */
seqHead = op + + ;
2017-02-22 23:59:15 +00:00
/* convert length/distances into codes */
ZSTD_seqToCodes ( seqStorePtr ) ;
/* CTable for Literal Lengths */
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
{ unsigned max = MaxLL ;
2018-10-26 20:21:37 +00:00
size_t const mostFrequent = HIST_countFast_wksp ( count , & max , llCodeTable , nbSeq , WKSP , sizeof ( WKSP ) ) ; /* cannot fail */
2018-06-13 23:49:31 +00:00
assert ( ! HIST_isError ( mostFrequent ) ) ;
2019-06-26 23:39:00 +00:00
if ( frame - > stats . fseInit & & ! ( RAND ( seed ) & 3 ) & &
2017-02-22 23:59:15 +00:00
isSymbolSubset ( llCodeTable , nbSeq ,
frame - > stats . litlengthSymbolSet , 35 ) ) {
/* maybe do repeat mode if we're allowed to */
LLtype = set_repeat ;
2019-06-26 23:39:00 +00:00
} else if ( mostFrequent = = nbSeq ) {
/* do RLE if we have the chance */
* op + + = llCodeTable [ 0 ] ;
FSE_buildCTable_rle ( CTable_LitLength , ( BYTE ) max ) ;
LLtype = set_rle ;
2017-02-22 23:59:15 +00:00
} else if ( ! ( RAND ( seed ) & 3 ) ) {
/* maybe use the default distribution */
2020-08-27 00:52:54 +00:00
CHECKERR ( FSE_buildCTable_wksp ( CTable_LitLength , LL_defaultNorm , MaxLL , LL_defaultNormLog , scratchBuffer , sizeof ( scratchBuffer ) ) ) ;
2017-02-22 23:59:15 +00:00
LLtype = set_basic ;
} else {
/* fall back on a full table */
size_t nbSeq_1 = nbSeq ;
const U32 tableLog = FSE_optimalTableLog ( LLFSELog , nbSeq , max ) ;
if ( count [ llCodeTable [ nbSeq - 1 ] ] > 1 ) { count [ llCodeTable [ nbSeq - 1 ] ] - - ; nbSeq_1 - - ; }
2020-08-18 23:57:35 +00:00
FSE_normalizeCount ( norm , tableLog , count , nbSeq_1 , max , nbSeq > = 2048 ) ;
2017-02-22 23:59:15 +00:00
{ size_t const NCountSize = FSE_writeNCount ( op , oend - op , norm , max , tableLog ) ; /* overflow protected */
if ( FSE_isError ( NCountSize ) ) return ERROR ( GENERIC ) ;
op + = NCountSize ; }
2020-08-27 00:52:54 +00:00
CHECKERR ( FSE_buildCTable_wksp ( CTable_LitLength , norm , max , tableLog , scratchBuffer , sizeof ( scratchBuffer ) ) ) ;
2017-02-22 23:59:15 +00:00
LLtype = set_compressed ;
} }
/* CTable for Offsets */
/* see Literal Lengths for descriptions of mode choices */
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
{ unsigned max = MaxOff ;
2018-10-26 20:21:37 +00:00
size_t const mostFrequent = HIST_countFast_wksp ( count , & max , ofCodeTable , nbSeq , WKSP , sizeof ( WKSP ) ) ; /* cannot fail */
2018-06-13 23:49:31 +00:00
assert ( ! HIST_isError ( mostFrequent ) ) ;
2019-06-26 23:39:00 +00:00
if ( frame - > stats . fseInit & & ! ( RAND ( seed ) & 3 ) & &
2017-02-22 23:59:15 +00:00
isSymbolSubset ( ofCodeTable , nbSeq ,
frame - > stats . offsetSymbolSet , 28 ) ) {
Offtype = set_repeat ;
2019-06-26 23:39:00 +00:00
} else if ( mostFrequent = = nbSeq ) {
* op + + = ofCodeTable [ 0 ] ;
FSE_buildCTable_rle ( CTable_OffsetBits , ( BYTE ) max ) ;
Offtype = set_rle ;
2017-02-22 23:59:15 +00:00
} else if ( ! ( RAND ( seed ) & 3 ) ) {
2017-09-18 23:54:53 +00:00
FSE_buildCTable_wksp ( CTable_OffsetBits , OF_defaultNorm , DefaultMaxOff , OF_defaultNormLog , scratchBuffer , sizeof ( scratchBuffer ) ) ;
2017-02-22 23:59:15 +00:00
Offtype = set_basic ;
} else {
size_t nbSeq_1 = nbSeq ;
const U32 tableLog = FSE_optimalTableLog ( OffFSELog , nbSeq , max ) ;
if ( count [ ofCodeTable [ nbSeq - 1 ] ] > 1 ) { count [ ofCodeTable [ nbSeq - 1 ] ] - - ; nbSeq_1 - - ; }
2020-08-18 23:57:35 +00:00
FSE_normalizeCount ( norm , tableLog , count , nbSeq_1 , max , nbSeq > = 2048 ) ;
2017-02-22 23:59:15 +00:00
{ size_t const NCountSize = FSE_writeNCount ( op , oend - op , norm , max , tableLog ) ; /* overflow protected */
if ( FSE_isError ( NCountSize ) ) return ERROR ( GENERIC ) ;
op + = NCountSize ; }
FSE_buildCTable_wksp ( CTable_OffsetBits , norm , max , tableLog , scratchBuffer , sizeof ( scratchBuffer ) ) ;
Offtype = set_compressed ;
} }
/* CTable for MatchLengths */
/* see Literal Lengths for descriptions of mode choices */
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
{ unsigned max = MaxML ;
2018-10-26 20:21:37 +00:00
size_t const mostFrequent = HIST_countFast_wksp ( count , & max , mlCodeTable , nbSeq , WKSP , sizeof ( WKSP ) ) ; /* cannot fail */
2018-06-13 23:49:31 +00:00
assert ( ! HIST_isError ( mostFrequent ) ) ;
2019-06-26 23:39:00 +00:00
if ( frame - > stats . fseInit & & ! ( RAND ( seed ) & 3 ) & &
2017-02-22 23:59:15 +00:00
isSymbolSubset ( mlCodeTable , nbSeq ,
frame - > stats . matchlengthSymbolSet , 52 ) ) {
MLtype = set_repeat ;
2019-06-26 23:39:00 +00:00
} else if ( mostFrequent = = nbSeq ) {
* op + + = * mlCodeTable ;
FSE_buildCTable_rle ( CTable_MatchLength , ( BYTE ) max ) ;
MLtype = set_rle ;
2017-02-22 23:59:15 +00:00
} else if ( ! ( RAND ( seed ) & 3 ) ) {
/* sometimes do default distribution */
FSE_buildCTable_wksp ( CTable_MatchLength , ML_defaultNorm , MaxML , ML_defaultNormLog , scratchBuffer , sizeof ( scratchBuffer ) ) ;
MLtype = set_basic ;
} else {
/* fall back on table */
size_t nbSeq_1 = nbSeq ;
const U32 tableLog = FSE_optimalTableLog ( MLFSELog , nbSeq , max ) ;
if ( count [ mlCodeTable [ nbSeq - 1 ] ] > 1 ) { count [ mlCodeTable [ nbSeq - 1 ] ] - - ; nbSeq_1 - - ; }
2020-08-18 23:57:35 +00:00
FSE_normalizeCount ( norm , tableLog , count , nbSeq_1 , max , nbSeq > = 2048 ) ;
2017-02-22 23:59:15 +00:00
{ size_t const NCountSize = FSE_writeNCount ( op , oend - op , norm , max , tableLog ) ; /* overflow protected */
if ( FSE_isError ( NCountSize ) ) return ERROR ( GENERIC ) ;
op + = NCountSize ; }
FSE_buildCTable_wksp ( CTable_MatchLength , norm , max , tableLog , scratchBuffer , sizeof ( scratchBuffer ) ) ;
MLtype = set_compressed ;
} }
frame - > stats . fseInit = 1 ;
initSymbolSet ( llCodeTable , nbSeq , frame - > stats . litlengthSymbolSet , 35 ) ;
initSymbolSet ( ofCodeTable , nbSeq , frame - > stats . offsetSymbolSet , 28 ) ;
initSymbolSet ( mlCodeTable , nbSeq , frame - > stats . matchlengthSymbolSet , 52 ) ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 5 , " LL type: %d OF type: %d ML type: %d \n " , ( unsigned ) LLtype , ( unsigned ) Offtype , ( unsigned ) MLtype ) ;
2017-02-22 23:59:15 +00:00
* seqHead = ( BYTE ) ( ( LLtype < < 6 ) + ( Offtype < < 4 ) + ( MLtype < < 2 ) ) ;
/* Encoding Sequences */
{ BIT_CStream_t blockStream ;
FSE_CState_t stateMatchLength ;
FSE_CState_t stateOffsetBits ;
FSE_CState_t stateLitLength ;
2019-01-28 22:27:29 +00:00
RETURN_ERROR_IF (
ERR_isError ( BIT_initCStream ( & blockStream , op , oend - op ) ) ,
dstSize_tooSmall , " not enough space remaining " ) ;
2017-02-22 23:59:15 +00:00
/* first symbols */
FSE_initCState2 ( & stateMatchLength , CTable_MatchLength , mlCodeTable [ nbSeq - 1 ] ) ;
FSE_initCState2 ( & stateOffsetBits , CTable_OffsetBits , ofCodeTable [ nbSeq - 1 ] ) ;
FSE_initCState2 ( & stateLitLength , CTable_LitLength , llCodeTable [ nbSeq - 1 ] ) ;
BIT_addBits ( & blockStream , sequences [ nbSeq - 1 ] . litLength , LL_bits [ llCodeTable [ nbSeq - 1 ] ] ) ;
if ( MEM_32bits ( ) ) BIT_flushBits ( & blockStream ) ;
BIT_addBits ( & blockStream , sequences [ nbSeq - 1 ] . matchLength , ML_bits [ mlCodeTable [ nbSeq - 1 ] ] ) ;
if ( MEM_32bits ( ) ) BIT_flushBits ( & blockStream ) ;
BIT_addBits ( & blockStream , sequences [ nbSeq - 1 ] . offset , ofCodeTable [ nbSeq - 1 ] ) ;
BIT_flushBits ( & blockStream ) ;
{ size_t n ;
for ( n = nbSeq - 2 ; n < nbSeq ; n - - ) { /* intentional underflow */
BYTE const llCode = llCodeTable [ n ] ;
BYTE const ofCode = ofCodeTable [ n ] ;
BYTE const mlCode = mlCodeTable [ n ] ;
U32 const llBits = LL_bits [ llCode ] ;
U32 const ofBits = ofCode ; /* 32b*/ /* 64b*/
U32 const mlBits = ML_bits [ mlCode ] ;
/* (7)*/ /* (7)*/
FSE_encodeSymbol ( & blockStream , & stateOffsetBits , ofCode ) ; /* 15 */ /* 15 */
FSE_encodeSymbol ( & blockStream , & stateMatchLength , mlCode ) ; /* 24 */ /* 24 */
if ( MEM_32bits ( ) ) BIT_flushBits ( & blockStream ) ; /* (7)*/
FSE_encodeSymbol ( & blockStream , & stateLitLength , llCode ) ; /* 16 */ /* 33 */
if ( MEM_32bits ( ) | | ( ofBits + mlBits + llBits > = 64 - 7 - ( LLFSELog + MLFSELog + OffFSELog ) ) )
BIT_flushBits ( & blockStream ) ; /* (7)*/
BIT_addBits ( & blockStream , sequences [ n ] . litLength , llBits ) ;
if ( MEM_32bits ( ) & & ( ( llBits + mlBits ) > 24 ) ) BIT_flushBits ( & blockStream ) ;
BIT_addBits ( & blockStream , sequences [ n ] . matchLength , mlBits ) ;
if ( MEM_32bits ( ) ) BIT_flushBits ( & blockStream ) ; /* (7)*/
BIT_addBits ( & blockStream , sequences [ n ] . offset , ofBits ) ; /* 31 */
BIT_flushBits ( & blockStream ) ; /* (7)*/
} }
FSE_flushCState ( & blockStream , & stateMatchLength ) ;
FSE_flushCState ( & blockStream , & stateOffsetBits ) ;
FSE_flushCState ( & blockStream , & stateLitLength ) ;
{ size_t const streamSize = BIT_closeCStream ( & blockStream ) ;
if ( streamSize = = 0 ) return ERROR ( dstSize_tooSmall ) ; /* not enough space */
op + = streamSize ;
} }
frame - > data = op ;
return 0 ;
}
static size_t writeSequencesBlock ( U32 * seed , frame_t * frame , size_t contentSize ,
2017-06-19 23:23:00 +00:00
size_t literalsSize , dictInfo info )
2017-02-22 23:59:15 +00:00
{
seqStore_t seqStore ;
size_t numSequences ;
initSeqStore ( & seqStore ) ;
/* randomly generate sequences */
2017-06-19 23:23:00 +00:00
numSequences = generateSequences ( seed , frame , & seqStore , contentSize , literalsSize , info ) ;
2017-02-22 23:59:15 +00:00
/* write them out to the frame data */
CHECKERR ( writeSequences ( seed , frame , & seqStore , numSequences ) ) ;
return numSequences ;
}
2017-06-19 23:23:00 +00:00
static size_t writeCompressedBlock ( U32 * seed , frame_t * frame , size_t contentSize , dictInfo info )
2017-02-22 23:59:15 +00:00
{
BYTE * const blockStart = ( BYTE * ) frame - > data ;
size_t literalsSize ;
size_t nbSeq ;
DISPLAYLEVEL ( 4 , " compressed block: \n " ) ;
literalsSize = writeLiteralsBlock ( seed , frame , contentSize ) ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 4 , " literals size: %u \n " , ( unsigned ) literalsSize ) ;
2017-02-22 23:59:15 +00:00
2017-06-19 23:23:00 +00:00
nbSeq = writeSequencesBlock ( seed , frame , contentSize , literalsSize , info ) ;
2017-02-22 23:59:15 +00:00
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 4 , " number of sequences: %u \n " , ( unsigned ) nbSeq ) ;
2017-02-22 23:59:15 +00:00
return ( BYTE * ) frame - > data - blockStart ;
}
static void writeBlock ( U32 * seed , frame_t * frame , size_t contentSize ,
2017-06-19 23:23:00 +00:00
int lastBlock , dictInfo info )
2017-02-22 23:59:15 +00:00
{
int const blockTypeDesc = RAND ( seed ) % 8 ;
size_t blockSize ;
int blockType ;
BYTE * const header = ( BYTE * ) frame - > data ;
BYTE * op = header + 3 ;
2017-10-07 22:19:52 +00:00
DISPLAYLEVEL ( 4 , " block: \n " ) ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 4 , " block content size: %u \n " , ( unsigned ) contentSize ) ;
2017-10-07 22:19:52 +00:00
DISPLAYLEVEL ( 4 , " last block: %s \n " , lastBlock ? " yes " : " no " ) ;
2017-02-22 23:59:15 +00:00
if ( blockTypeDesc = = 0 ) {
/* Raw data frame */
RAND_buffer ( seed , frame - > src , contentSize ) ;
memcpy ( op , frame - > src , contentSize ) ;
op + = contentSize ;
blockType = 0 ;
blockSize = contentSize ;
2019-07-18 21:32:09 +00:00
} else if ( blockTypeDesc = = 1 & & frame - > header . contentSize > 0 ) {
/* RLE (Don't create RLE block if frame content is 0 since block size of 1 may exceed max block size)*/
2017-02-22 23:59:15 +00:00
BYTE const symbol = RAND ( seed ) & 0xff ;
op [ 0 ] = symbol ;
memset ( frame - > src , symbol , contentSize ) ;
op + + ;
blockType = 1 ;
blockSize = contentSize ;
} else {
/* compressed, most common */
size_t compressedSize ;
blockType = 2 ;
frame - > oldStats = frame - > stats ;
frame - > data = op ;
2017-06-19 23:23:00 +00:00
compressedSize = writeCompressedBlock ( seed , frame , contentSize , info ) ;
2017-10-07 22:19:52 +00:00
if ( compressedSize > = contentSize ) { /* compressed block must be strictly smaller than uncompressed one */
2017-02-22 23:59:15 +00:00
blockType = 0 ;
memcpy ( op , frame - > src , contentSize ) ;
op + = contentSize ;
blockSize = contentSize ; /* fall back on raw block if data doesn't
compress */
frame - > stats = frame - > oldStats ; /* don't update the stats */
} else {
op + = compressedSize ;
blockSize = compressedSize ;
}
}
frame - > src = ( BYTE * ) frame - > src + contentSize ;
2017-10-07 22:19:52 +00:00
DISPLAYLEVEL ( 4 , " block type: %s \n " , BLOCK_TYPES [ blockType ] ) ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 4 , " block size field: %u \n " , ( unsigned ) blockSize ) ;
2017-02-22 23:59:15 +00:00
2017-03-20 23:02:24 +00:00
header [ 0 ] = ( BYTE ) ( ( lastBlock | ( blockType < < 1 ) | ( blockSize < < 3 ) ) & 0xff ) ;
MEM_writeLE16 ( header + 1 , ( U16 ) ( blockSize > > 5 ) ) ;
2017-02-22 23:59:15 +00:00
frame - > data = op ;
}
2017-06-19 23:23:00 +00:00
static void writeBlocks ( U32 * seed , frame_t * frame , dictInfo info )
2017-02-22 23:59:15 +00:00
{
size_t contentLeft = frame - > header . contentSize ;
2017-09-13 22:07:03 +00:00
size_t const maxBlockSize = MIN ( g_maxBlockSize , frame - > header . windowSize ) ;
2017-02-22 23:59:15 +00:00
while ( 1 ) {
/* 1 in 4 chance of ending frame */
int const lastBlock = contentLeft > maxBlockSize ? 0 : ! ( RAND ( seed ) & 3 ) ;
size_t blockContentSize ;
if ( lastBlock ) {
blockContentSize = contentLeft ;
} else {
if ( contentLeft > 0 & & ( RAND ( seed ) & 7 ) ) {
2017-10-07 22:19:52 +00:00
/* some variable size block */
2017-02-22 23:59:15 +00:00
blockContentSize = RAND ( seed ) % ( MIN ( maxBlockSize , contentLeft ) + 1 ) ;
} else if ( contentLeft > maxBlockSize & & ( RAND ( seed ) & 1 ) ) {
2017-10-07 22:19:52 +00:00
/* some full size block */
2017-02-22 23:59:15 +00:00
blockContentSize = maxBlockSize ;
} else {
2017-10-07 22:19:52 +00:00
/* some empty block */
2017-02-22 23:59:15 +00:00
blockContentSize = 0 ;
}
}
2017-06-19 23:23:00 +00:00
writeBlock ( seed , frame , blockContentSize , lastBlock , info ) ;
2017-02-22 23:59:15 +00:00
contentLeft - = blockContentSize ;
if ( lastBlock ) break ;
}
}
static void writeChecksum ( frame_t * frame )
{
/* write checksum so implementations can verify their output */
U64 digest = XXH64 ( frame - > srcStart , ( BYTE * ) frame - > src - ( BYTE * ) frame - > srcStart , 0 ) ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 3 , " checksum: %08x \n " , ( unsigned ) digest ) ;
2017-02-22 23:59:15 +00:00
MEM_writeLE32 ( frame - > data , ( U32 ) digest ) ;
frame - > data = ( BYTE * ) frame - > data + 4 ;
}
static void outputBuffer ( const void * buf , size_t size , const char * const path )
{
/* write data out to file */
const BYTE * ip = ( const BYTE * ) buf ;
FILE * out ;
if ( path ) {
out = fopen ( path , " wb " ) ;
} else {
out = stdout ;
}
if ( ! out ) {
fprintf ( stderr , " Failed to open file at %s: " , path ) ;
perror ( NULL ) ;
exit ( 1 ) ;
}
2017-10-07 22:19:52 +00:00
{ size_t fsize = size ;
2017-02-22 23:59:15 +00:00
size_t written = 0 ;
while ( written < fsize ) {
written + = fwrite ( ip + written , 1 , fsize - written , out ) ;
if ( ferror ( out ) ) {
fprintf ( stderr , " Failed to write to file at %s: " , path ) ;
perror ( NULL ) ;
exit ( 1 ) ;
}
}
}
if ( path ) {
fclose ( out ) ;
}
}
static void initFrame ( frame_t * fr )
{
memset ( fr , 0 , sizeof ( * fr ) ) ;
fr - > data = fr - > dataStart = FRAME_BUFFER ;
fr - > dataEnd = FRAME_BUFFER + sizeof ( FRAME_BUFFER ) ;
fr - > src = fr - > srcStart = CONTENT_BUFFER ;
fr - > srcEnd = CONTENT_BUFFER + sizeof ( CONTENT_BUFFER ) ;
/* init repeat codes */
fr - > stats . rep [ 0 ] = 1 ;
fr - > stats . rep [ 1 ] = 4 ;
fr - > stats . rep [ 2 ] = 8 ;
}
2017-09-12 21:29:39 +00:00
/**
* Generated a single zstd compressed block with no block / frame header .
* Returns the final seed .
*/
static U32 generateCompressedBlock ( U32 seed , frame_t * frame , dictInfo info )
{
size_t blockContentSize ;
int blockWritten = 0 ;
BYTE * op ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 4 , " block seed: %u \n " , ( unsigned ) seed ) ;
2017-09-12 21:29:39 +00:00
initFrame ( frame ) ;
op = ( BYTE * ) frame - > data ;
while ( ! blockWritten ) {
size_t cSize ;
/* generate window size */
2017-10-07 22:19:52 +00:00
{ int const exponent = RAND ( & seed ) % ( MAX_WINDOW_LOG - 10 ) ;
2017-09-12 21:29:39 +00:00
int const mantissa = RAND ( & seed ) % 8 ;
frame - > header . windowSize = ( 1U < < ( exponent + 10 ) ) ;
frame - > header . windowSize + = ( frame - > header . windowSize / 8 ) * mantissa ;
}
/* generate content size */
2017-10-07 22:19:52 +00:00
{ size_t const maxBlockSize = MIN ( g_maxBlockSize , frame - > header . windowSize ) ;
2017-09-12 21:29:39 +00:00
if ( RAND ( & seed ) & 15 ) {
/* some full size blocks */
blockContentSize = maxBlockSize ;
2017-09-13 22:07:03 +00:00
} else if ( RAND ( & seed ) & 7 & & g_maxBlockSize > = ( 1U < < 7 ) ) {
2017-09-12 21:29:39 +00:00
/* some small blocks <= 128 bytes*/
blockContentSize = RAND ( & seed ) % ( 1U < < 7 ) ;
} else {
/* some variable size blocks */
blockContentSize = RAND ( & seed ) % maxBlockSize ;
}
}
/* try generating a compressed block */
frame - > oldStats = frame - > stats ;
frame - > data = op ;
cSize = writeCompressedBlock ( & seed , frame , blockContentSize , info ) ;
2017-10-07 22:19:52 +00:00
if ( cSize > = blockContentSize ) { /* compressed size must be strictly smaller than decompressed size : https://github.com/facebook/zstd/blob/dev/doc/zstd_compression_format.md#blocks */
2017-09-12 21:29:39 +00:00
/* data doesn't compress -- try again */
frame - > stats = frame - > oldStats ; /* don't update the stats */
2017-10-07 22:19:52 +00:00
DISPLAYLEVEL ( 5 , " can't compress block : try again \n " ) ;
2017-09-12 21:29:39 +00:00
} else {
blockWritten = 1 ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 4 , " block size: %u \n " , ( unsigned ) cSize ) ;
2017-09-12 21:29:39 +00:00
frame - > src = ( BYTE * ) frame - > src + blockContentSize ;
}
}
return seed ;
}
2017-02-22 23:59:15 +00:00
/* Return the final seed */
2017-06-19 23:23:00 +00:00
static U32 generateFrame ( U32 seed , frame_t * fr , dictInfo info )
2017-02-22 23:59:15 +00:00
{
/* generate a complete frame */
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAYLEVEL ( 3 , " frame seed: %u \n " , ( unsigned ) seed ) ;
2017-02-22 23:59:15 +00:00
initFrame ( fr ) ;
2017-06-19 23:23:00 +00:00
writeFrameHeader ( & seed , fr , info ) ;
writeBlocks ( & seed , fr , info ) ;
2017-02-22 23:59:15 +00:00
writeChecksum ( fr ) ;
return seed ;
}
2017-06-19 23:23:00 +00:00
/*_*******************************************************
* Dictionary Helper Functions
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/* returns 0 if successful, otherwise returns 1 upon error */
2017-10-07 22:19:52 +00:00
static int genRandomDict ( U32 dictID , U32 seed , size_t dictSize , BYTE * fullDict )
{
2017-06-20 17:12:13 +00:00
/* allocate space for samples */
2017-06-22 01:24:19 +00:00
int ret = 0 ;
2017-06-20 17:12:13 +00:00
unsigned const numSamples = 4 ;
2017-06-20 22:31:54 +00:00
size_t sampleSizes [ 4 ] ;
2017-06-22 22:52:33 +00:00
BYTE * const samples = malloc ( 5000 * sizeof ( BYTE ) ) ;
2017-06-22 01:24:19 +00:00
if ( samples = = NULL ) {
DISPLAY ( " Error: could not allocate space for samples \n " ) ;
return 1 ;
}
2017-06-19 23:23:00 +00:00
2017-06-20 17:12:13 +00:00
/* generate samples */
2017-10-07 22:19:52 +00:00
{ unsigned literalValue = 1 ;
2017-06-22 01:30:27 +00:00
unsigned samplesPos = 0 ;
2017-06-20 17:12:13 +00:00
size_t currSize = 1 ;
2017-06-22 01:30:27 +00:00
while ( literalValue < = 4 ) {
sampleSizes [ literalValue - 1 ] = currSize ;
2017-10-07 22:19:52 +00:00
{ size_t k ;
2017-06-20 22:31:54 +00:00
for ( k = 0 ; k < currSize ; k + + ) {
2017-06-22 22:36:28 +00:00
* ( samples + ( samplesPos + + ) ) = ( BYTE ) literalValue ;
2017-10-07 22:19:52 +00:00
} }
2017-06-22 01:30:27 +00:00
literalValue + + ;
2017-06-20 17:12:13 +00:00
currSize * = 16 ;
2017-10-07 22:19:52 +00:00
} }
2017-06-19 23:23:00 +00:00
2017-10-07 22:19:52 +00:00
{ size_t dictWriteSize = 0 ;
2017-06-20 17:12:13 +00:00
ZDICT_params_t zdictParams ;
2017-06-28 19:19:37 +00:00
size_t const headerSize = MAX ( dictSize / 4 , 256 ) ;
size_t const dictContentSize = dictSize - headerSize ;
2017-06-20 17:12:13 +00:00
BYTE * const dictContent = fullDict + headerSize ;
if ( dictContentSize < ZDICT_CONTENTSIZE_MIN | | dictSize < ZDICT_DICTSIZE_MIN ) {
DISPLAY ( " Error: dictionary size is too small \n " ) ;
2017-06-22 01:24:19 +00:00
ret = 1 ;
goto exitGenRandomDict ;
2017-06-19 23:23:00 +00:00
}
2017-06-20 17:12:13 +00:00
/* init dictionary params */
memset ( & zdictParams , 0 , sizeof ( zdictParams ) ) ;
zdictParams . dictID = dictID ;
zdictParams . notificationLevel = 1 ;
/* fill in dictionary content */
RAND_buffer ( & seed , ( void * ) dictContent , dictContentSize ) ;
/* finalize dictionary with random samples */
dictWriteSize = ZDICT_finalizeDictionary ( fullDict , dictSize ,
dictContent , dictContentSize ,
samples , sampleSizes , numSamples ,
zdictParams ) ;
2017-06-19 23:23:00 +00:00
2017-06-20 17:14:03 +00:00
if ( ZDICT_isError ( dictWriteSize ) ) {
2017-06-19 23:23:00 +00:00
DISPLAY ( " Could not finalize dictionary: %s \n " , ZDICT_getErrorName ( dictWriteSize ) ) ;
2017-06-22 01:24:19 +00:00
ret = 1 ;
2017-06-19 23:23:00 +00:00
}
}
2017-06-20 17:12:13 +00:00
2017-06-22 01:24:19 +00:00
exitGenRandomDict :
free ( samples ) ;
return ret ;
2017-06-19 23:23:00 +00:00
}
static dictInfo initDictInfo ( int useDict , size_t dictContentSize , BYTE * dictContent , U32 dictID ) {
/* allocate space statically */
dictInfo dictOp ;
2017-06-22 00:46:37 +00:00
memset ( & dictOp , 0 , sizeof ( dictOp ) ) ;
2017-06-19 23:23:00 +00:00
dictOp . useDict = useDict ;
dictOp . dictContentSize = dictContentSize ;
dictOp . dictContent = dictContent ;
dictOp . dictID = dictID ;
return dictOp ;
}
2017-06-09 00:06:30 +00:00
2017-02-22 23:59:15 +00:00
/*-*******************************************************
* Test Mode
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
BYTE DECOMPRESSED_BUFFER [ MAX_DECOMPRESSED_SIZE ] ;
static size_t testDecodeSimple ( frame_t * fr )
{
/* test decoding the generated data with the simple API */
size_t const ret = ZSTD_decompress ( DECOMPRESSED_BUFFER , MAX_DECOMPRESSED_SIZE ,
fr - > dataStart , ( BYTE * ) fr - > data - ( BYTE * ) fr - > dataStart ) ;
if ( ZSTD_isError ( ret ) ) return ret ;
if ( memcmp ( DECOMPRESSED_BUFFER , fr - > srcStart ,
( BYTE * ) fr - > src - ( BYTE * ) fr - > srcStart ) ! = 0 ) {
return ERROR ( corruption_detected ) ;
}
return ret ;
}
static size_t testDecodeStreaming ( frame_t * fr )
{
/* test decoding the generated data with the streaming API */
ZSTD_DStream * zd = ZSTD_createDStream ( ) ;
ZSTD_inBuffer in ;
ZSTD_outBuffer out ;
size_t ret ;
if ( ! zd ) return ERROR ( memory_allocation ) ;
in . src = fr - > dataStart ;
in . pos = 0 ;
in . size = ( BYTE * ) fr - > data - ( BYTE * ) fr - > dataStart ;
out . dst = DECOMPRESSED_BUFFER ;
out . pos = 0 ;
out . size = ZSTD_DStreamOutSize ( ) ;
ZSTD_initDStream ( zd ) ;
while ( 1 ) {
ret = ZSTD_decompressStream ( zd , & out , & in ) ;
if ( ZSTD_isError ( ret ) ) goto cleanup ; /* error */
if ( ret = = 0 ) break ; /* frame is done */
/* force decoding to be done in chunks */
out . size + = MIN ( ZSTD_DStreamOutSize ( ) , MAX_DECOMPRESSED_SIZE - out . size ) ;
}
ret = out . pos ;
if ( memcmp ( out . dst , fr - > srcStart , out . pos ) ! = 0 ) {
return ERROR ( corruption_detected ) ;
}
cleanup :
ZSTD_freeDStream ( zd ) ;
return ret ;
}
2017-09-12 21:29:39 +00:00
static size_t testDecodeWithDict ( U32 seed , genType_e genType )
2017-06-20 00:13:00 +00:00
{
2017-06-20 17:17:38 +00:00
/* create variables */
2017-06-28 19:19:37 +00:00
size_t const dictSize = RAND ( & seed ) % ( 10 < < 20 ) + ZDICT_DICTSIZE_MIN + ZDICT_CONTENTSIZE_MIN ;
2017-06-20 00:13:00 +00:00
U32 const dictID = RAND ( & seed ) ;
2017-06-20 00:18:43 +00:00
size_t errorDetected = 0 ;
2017-06-20 00:13:00 +00:00
BYTE * const fullDict = malloc ( dictSize ) ;
if ( fullDict = = NULL ) {
return ERROR ( GENERIC ) ;
}
2017-06-20 17:17:38 +00:00
/* generate random dictionary */
2017-10-07 22:19:52 +00:00
if ( genRandomDict ( dictID , seed , dictSize , fullDict ) ) { /* return 0 on success */
errorDetected = ERROR ( GENERIC ) ;
goto dictTestCleanup ;
2017-06-20 00:13:00 +00:00
}
2017-06-20 17:17:38 +00:00
2017-10-07 22:19:52 +00:00
{ frame_t fr ;
2017-09-12 21:29:39 +00:00
dictInfo info ;
ZSTD_DCtx * const dctx = ZSTD_createDCtx ( ) ;
size_t ret ;
2017-06-20 17:17:38 +00:00
2017-09-12 21:29:39 +00:00
/* get dict info */
2017-10-07 22:19:52 +00:00
{ size_t const headerSize = MAX ( dictSize / 4 , 256 ) ;
2017-06-28 19:19:37 +00:00
size_t const dictContentSize = dictSize - headerSize ;
BYTE * const dictContent = fullDict + headerSize ;
2017-09-12 21:29:39 +00:00
info = initDictInfo ( 1 , dictContentSize , dictContent , dictID ) ;
2017-06-20 00:43:16 +00:00
}
2017-06-20 00:13:00 +00:00
2017-06-20 17:17:38 +00:00
/* manually decompress and check difference */
2017-09-12 21:29:39 +00:00
if ( genType = = gt_frame ) {
/* Test frame */
2017-10-07 22:19:52 +00:00
generateFrame ( seed , & fr , info ) ;
2017-09-12 21:29:39 +00:00
ret = ZSTD_decompress_usingDict ( dctx , DECOMPRESSED_BUFFER , MAX_DECOMPRESSED_SIZE ,
fr . dataStart , ( BYTE * ) fr . data - ( BYTE * ) fr . dataStart ,
fullDict , dictSize ) ;
} else {
/* Test block */
2017-10-07 22:19:52 +00:00
generateCompressedBlock ( seed , & fr , info ) ;
2017-09-12 21:29:39 +00:00
ret = ZSTD_decompressBegin_usingDict ( dctx , fullDict , dictSize ) ;
if ( ZSTD_isError ( ret ) ) {
errorDetected = ret ;
ZSTD_freeDCtx ( dctx ) ;
2017-06-20 00:43:16 +00:00
goto dictTestCleanup ;
}
2017-09-12 21:29:39 +00:00
ret = ZSTD_decompressBlock ( dctx , DECOMPRESSED_BUFFER , MAX_DECOMPRESSED_SIZE ,
fr . dataStart , ( BYTE * ) fr . data - ( BYTE * ) fr . dataStart ) ;
}
ZSTD_freeDCtx ( dctx ) ;
if ( ZSTD_isError ( ret ) ) {
errorDetected = ret ;
goto dictTestCleanup ;
}
if ( memcmp ( DECOMPRESSED_BUFFER , fr . srcStart , ( BYTE * ) fr . src - ( BYTE * ) fr . srcStart ) ! = 0 ) {
errorDetected = ERROR ( corruption_detected ) ;
goto dictTestCleanup ;
2017-06-20 00:13:00 +00:00
}
}
dictTestCleanup :
free ( fullDict ) ;
return errorDetected ;
}
2017-09-12 21:29:39 +00:00
static size_t testDecodeRawBlock ( frame_t * fr )
{
ZSTD_DCtx * dctx = ZSTD_createDCtx ( ) ;
size_t ret = ZSTD_decompressBegin ( dctx ) ;
if ( ZSTD_isError ( ret ) ) return ret ;
ret = ZSTD_decompressBlock (
dctx ,
DECOMPRESSED_BUFFER , MAX_DECOMPRESSED_SIZE ,
fr - > dataStart , ( BYTE * ) fr - > data - ( BYTE * ) fr - > dataStart ) ;
ZSTD_freeDCtx ( dctx ) ;
if ( ZSTD_isError ( ret ) ) return ret ;
if ( memcmp ( DECOMPRESSED_BUFFER , fr - > srcStart ,
( BYTE * ) fr - > src - ( BYTE * ) fr - > srcStart ) ! = 0 ) {
return ERROR ( corruption_detected ) ;
}
return ret ;
}
static int runBlockTest ( U32 * seed )
{
frame_t fr ;
U32 const seedCopy = * seed ;
2017-10-07 22:19:52 +00:00
{ dictInfo const info = initDictInfo ( 0 , 0 , NULL , 0 ) ;
2017-09-12 21:29:39 +00:00
* seed = generateCompressedBlock ( * seed , & fr , info ) ;
}
{ size_t const r = testDecodeRawBlock ( & fr ) ;
if ( ZSTD_isError ( r ) ) {
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAY ( " Error in block mode on test seed %u: %s \n " ,
( unsigned ) seedCopy , ZSTD_getErrorName ( r ) ) ;
2017-09-12 21:29:39 +00:00
return 1 ;
}
}
2017-10-07 22:19:52 +00:00
{ size_t const r = testDecodeWithDict ( * seed , gt_block ) ;
2017-09-12 21:29:39 +00:00
if ( ZSTD_isError ( r ) ) {
DISPLAY ( " Error in block mode with dictionary on test seed %u: %s \n " ,
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
( unsigned ) seedCopy , ZSTD_getErrorName ( r ) ) ;
2017-09-12 21:29:39 +00:00
return 1 ;
}
}
return 0 ;
}
static int runFrameTest ( U32 * seed )
{
frame_t fr ;
U32 const seedCopy = * seed ;
2017-10-07 22:19:52 +00:00
{ dictInfo const info = initDictInfo ( 0 , 0 , NULL , 0 ) ;
2017-09-12 21:29:39 +00:00
* seed = generateFrame ( * seed , & fr , info ) ;
}
{ size_t const r = testDecodeSimple ( & fr ) ;
if ( ZSTD_isError ( r ) ) {
2017-10-07 22:19:52 +00:00
DISPLAY ( " Error in simple mode on test seed %u: %s \n " ,
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
( unsigned ) seedCopy , ZSTD_getErrorName ( r ) ) ;
2017-09-12 21:29:39 +00:00
return 1 ;
}
}
{ size_t const r = testDecodeStreaming ( & fr ) ;
if ( ZSTD_isError ( r ) ) {
2017-10-07 22:19:52 +00:00
DISPLAY ( " Error in streaming mode on test seed %u: %s \n " ,
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
( unsigned ) seedCopy , ZSTD_getErrorName ( r ) ) ;
2017-09-12 21:29:39 +00:00
return 1 ;
}
}
2017-10-07 22:19:52 +00:00
{ size_t const r = testDecodeWithDict ( * seed , gt_frame ) ; /* avoid big dictionaries */
2017-09-12 21:29:39 +00:00
if ( ZSTD_isError ( r ) ) {
2017-10-07 22:19:52 +00:00
DISPLAY ( " Error in dictionary mode on test seed %u: %s \n " ,
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
( unsigned ) seedCopy , ZSTD_getErrorName ( r ) ) ;
2017-09-12 21:29:39 +00:00
return 1 ;
}
}
return 0 ;
}
static int runTestMode ( U32 seed , unsigned numFiles , unsigned const testDurationS ,
genType_e genType )
2017-02-22 23:59:15 +00:00
{
unsigned fnum ;
2017-11-30 03:11:12 +00:00
UTIL_time_t const startClock = UTIL_getTime ( ) ;
U64 const maxClockSpan = testDurationS * SEC_TO_MICRO ;
2017-02-22 23:59:15 +00:00
if ( numFiles = = 0 & & ! testDurationS ) numFiles = 1 ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAY ( " seed: %u \n " , ( unsigned ) seed ) ;
2017-02-22 23:59:15 +00:00
2017-11-30 03:11:12 +00:00
for ( fnum = 0 ; fnum < numFiles | | UTIL_clockSpanMicro ( startClock ) < maxClockSpan ; fnum + + ) {
2017-02-22 23:59:15 +00:00
if ( fnum < numFiles )
DISPLAYUPDATE ( " \r %u/%u " , fnum , numFiles ) ;
else
DISPLAYUPDATE ( " \r %u " , fnum ) ;
2017-10-07 22:19:52 +00:00
{ int const ret = ( genType = = gt_frame ) ?
runFrameTest ( & seed ) :
runBlockTest ( & seed ) ;
if ( ret ) return ret ;
2017-06-20 00:29:15 +00:00
}
2017-02-22 23:59:15 +00:00
}
DISPLAY ( " \r %u tests completed: " , fnum ) ;
DISPLAY ( " OK \n " ) ;
return 0 ;
}
/*-*******************************************************
* File I / O
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
static int generateFile ( U32 seed , const char * const path ,
2017-09-12 21:29:39 +00:00
const char * const origPath , genType_e genType )
2017-02-22 23:59:15 +00:00
{
frame_t fr ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAY ( " seed: %u \n " , ( unsigned ) seed ) ;
2017-02-23 21:06:50 +00:00
2017-10-07 22:19:52 +00:00
{ dictInfo const info = initDictInfo ( 0 , 0 , NULL , 0 ) ;
2017-09-12 21:29:39 +00:00
if ( genType = = gt_frame ) {
generateFrame ( seed , & fr , info ) ;
} else {
generateCompressedBlock ( seed , & fr , info ) ;
}
2017-06-19 23:23:00 +00:00
}
2017-02-22 23:59:15 +00:00
outputBuffer ( fr . dataStart , ( BYTE * ) fr . data - ( BYTE * ) fr . dataStart , path ) ;
if ( origPath ) {
outputBuffer ( fr . srcStart , ( BYTE * ) fr . src - ( BYTE * ) fr . srcStart , origPath ) ;
}
return 0 ;
}
static int generateCorpus ( U32 seed , unsigned numFiles , const char * const path ,
2017-09-12 21:29:39 +00:00
const char * const origPath , genType_e genType )
2017-02-22 23:59:15 +00:00
{
char outPath [ MAX_PATH ] ;
unsigned fnum ;
fix confusion between unsigned <-> U32
as suggested in #1441.
generally U32 and unsigned are the same thing,
except when they are not ...
case : 32-bit compilation for MIPS (uint32_t == unsigned long)
A vast majority of transformation consists in transforming U32 into unsigned.
In rare cases, it's the other way around (typically for internal code, such as seeds).
Among a few issues this patches solves :
- some parameters were declared with type `unsigned` in *.h,
but with type `U32` in their implementation *.c .
- some parameters have type unsigned*,
but the caller user a pointer to U32 instead.
These fixes are useful.
However, the bulk of changes is about %u formating,
which requires unsigned type,
but generally receives U32 values instead,
often just for brevity (U32 is shorter than unsigned).
These changes are generally minor, or even annoying.
As a consequence, the amount of code changed is larger than I would expect for such a patch.
Testing is also a pain :
it requires manually modifying `mem.h`,
in order to lie about `U32`
and force it to be an `unsigned long` typically.
On a 64-bit system, this will break the equivalence unsigned == U32.
Unfortunately, it will also break a few static_assert(), controlling structure sizes.
So it also requires modifying `debug.h` to make `static_assert()` a noop.
And then reverting these changes.
So it's inconvenient, and as a consequence,
this property is currently not checked during CI tests.
Therefore, these problems can emerge again in the future.
I wonder if it is worth ensuring proper distinction of U32 != unsigned in CI tests.
It's another restriction for coding, adding more frustration during merge tests,
since most platforms don't need this distinction (hence contributor will not see it),
and while this can matter in theory, the number of platforms impacted seems minimal.
Thoughts ?
2018-12-22 00:19:44 +00:00
DISPLAY ( " seed: %u \n " , ( unsigned ) seed ) ;
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for ( fnum = 0 ; fnum < numFiles ; fnum + + ) {
frame_t fr ;
DISPLAYUPDATE ( " \r %u/%u " , fnum , numFiles ) ;
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{ dictInfo const info = initDictInfo ( 0 , 0 , NULL , 0 ) ;
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if ( genType = = gt_frame ) {
seed = generateFrame ( seed , & fr , info ) ;
} else {
seed = generateCompressedBlock ( seed , & fr , info ) ;
}
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}
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if ( snprintf ( outPath , MAX_PATH , " %s/z%06u.zst " , path , fnum ) + 1 > MAX_PATH ) {
DISPLAY ( " Error: path too long \n " ) ;
return 1 ;
}
outputBuffer ( fr . dataStart , ( BYTE * ) fr . data - ( BYTE * ) fr . dataStart , outPath ) ;
if ( origPath ) {
if ( snprintf ( outPath , MAX_PATH , " %s/z%06u " , origPath , fnum ) + 1 > MAX_PATH ) {
DISPLAY ( " Error: path too long \n " ) ;
return 1 ;
}
outputBuffer ( fr . srcStart , ( BYTE * ) fr . src - ( BYTE * ) fr . srcStart , outPath ) ;
}
}
DISPLAY ( " \r %u/%u \n " , fnum , numFiles ) ;
return 0 ;
}
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static int generateCorpusWithDict ( U32 seed , unsigned numFiles , const char * const path ,
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const char * const origPath , const size_t dictSize ,
genType_e genType )
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{
char outPath [ MAX_PATH ] ;
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BYTE * fullDict ;
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U32 const dictID = RAND ( & seed ) ;
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int errorDetected = 0 ;
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if ( snprintf ( outPath , MAX_PATH , " %s/dictionary " , path ) + 1 > MAX_PATH ) {
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DISPLAY ( " Error: path too long \n " ) ;
return 1 ;
}
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/* allocate space for the dictionary */
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fullDict = malloc ( dictSize ) ;
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if ( fullDict = = NULL ) {
DISPLAY ( " Error: could not allocate space for full dictionary. \n " ) ;
return 1 ;
}
2017-06-19 18:27:50 +00:00
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/* randomly generate the dictionary */
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{ int const ret = genRandomDict ( dictID , seed , dictSize , fullDict ) ;
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if ( ret ! = 0 ) {
errorDetected = ret ;
goto dictCleanup ;
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}
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}
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/* write out dictionary */
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if ( numFiles ! = 0 ) {
if ( snprintf ( outPath , MAX_PATH , " %s/dictionary " , path ) + 1 > MAX_PATH ) {
DISPLAY ( " Error: dictionary path too long \n " ) ;
errorDetected = 1 ;
goto dictCleanup ;
}
outputBuffer ( fullDict , dictSize , outPath ) ;
}
else {
outputBuffer ( fullDict , dictSize , " dictionary " ) ;
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}
2017-06-14 17:54:47 +00:00
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/* generate random compressed/decompressed files */
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{ unsigned fnum ;
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for ( fnum = 0 ; fnum < MAX ( numFiles , 1 ) ; fnum + + ) {
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frame_t fr ;
DISPLAYUPDATE ( " \r %u/%u " , fnum , numFiles ) ;
{
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size_t const headerSize = MAX ( dictSize / 4 , 256 ) ;
size_t const dictContentSize = dictSize - headerSize ;
BYTE * const dictContent = fullDict + headerSize ;
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dictInfo const info = initDictInfo ( 1 , dictContentSize , dictContent , dictID ) ;
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if ( genType = = gt_frame ) {
seed = generateFrame ( seed , & fr , info ) ;
} else {
seed = generateCompressedBlock ( seed , & fr , info ) ;
}
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}
2017-06-09 00:06:30 +00:00
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if ( numFiles ! = 0 ) {
if ( snprintf ( outPath , MAX_PATH , " %s/z%06u.zst " , path , fnum ) + 1 > MAX_PATH ) {
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DISPLAY ( " Error: path too long \n " ) ;
errorDetected = 1 ;
goto dictCleanup ;
2017-06-19 23:32:38 +00:00
}
2017-06-20 18:07:38 +00:00
outputBuffer ( fr . dataStart , ( BYTE * ) fr . data - ( BYTE * ) fr . dataStart , outPath ) ;
if ( origPath ) {
if ( snprintf ( outPath , MAX_PATH , " %s/z%06u " , origPath , fnum ) + 1 > MAX_PATH ) {
DISPLAY ( " Error: path too long \n " ) ;
errorDetected = 1 ;
goto dictCleanup ;
}
outputBuffer ( fr . srcStart , ( BYTE * ) fr . src - ( BYTE * ) fr . srcStart , outPath ) ;
}
}
else {
outputBuffer ( fr . dataStart , ( BYTE * ) fr . data - ( BYTE * ) fr . dataStart , path ) ;
if ( origPath ) {
outputBuffer ( fr . srcStart , ( BYTE * ) fr . src - ( BYTE * ) fr . srcStart , origPath ) ;
}
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}
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}
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}
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dictCleanup :
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free ( fullDict ) ;
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return errorDetected ;
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}
2017-02-22 23:59:15 +00:00
/*_*******************************************************
* Command line
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
static U32 makeSeed ( void )
{
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U32 t = ( U32 ) time ( NULL ) ;
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return XXH32 ( & t , sizeof ( t ) , 0 ) % 65536 ;
}
static unsigned readInt ( const char * * argument )
{
unsigned val = 0 ;
while ( ( * * argument > = ' 0 ' ) & & ( * * argument < = ' 9 ' ) ) {
val * = 10 ;
val + = * * argument - ' 0 ' ;
( * argument ) + + ;
}
return val ;
}
static void usage ( const char * programName )
{
DISPLAY ( " Usage : \n " ) ;
DISPLAY ( " %s [args] \n " , programName ) ;
DISPLAY ( " \n " ) ;
DISPLAY ( " Arguments : \n " ) ;
DISPLAY ( " -p<path> : select output path (default:stdout) \n " ) ;
DISPLAY ( " in multiple files mode this should be a directory \n " ) ;
DISPLAY ( " -o<path> : select path to output original file (default:no output) \n " ) ;
DISPLAY ( " in multiple files mode this should be a directory \n " ) ;
DISPLAY ( " -s# : select seed (default:random based on time) \n " ) ;
DISPLAY ( " -n# : number of files to generate (default:1) \n " ) ;
DISPLAY ( " -t : activate test mode (test files against libzstd instead of outputting them) \n " ) ;
DISPLAY ( " -T# : length of time to run tests for \n " ) ;
DISPLAY ( " -v : increase verbosity level (default:0, max:7) \n " ) ;
2017-02-23 21:06:50 +00:00
DISPLAY ( " -h/H : display help/long help and exit \n " ) ;
}
static void advancedUsage ( const char * programName )
{
usage ( programName ) ;
DISPLAY ( " \n " ) ;
2017-09-13 22:07:03 +00:00
DISPLAY ( " Advanced arguments : \n " ) ;
DISPLAY ( " --content-size : always include the content size in the frame header \n " ) ;
DISPLAY ( " --use-dict=# : include a dictionary used to decompress the corpus \n " ) ;
DISPLAY ( " --gen-blocks : generate raw compressed blocks without block/frame headers \n " ) ;
DISPLAY ( " --max-block-size-log=# : max block size log, must be in range [2, 17] \n " ) ;
DISPLAY ( " --max-content-size-log=# : max content size log, must be <= 20 \n " ) ;
DISPLAY ( " (this is ignored with gen-blocks) \n " ) ;
2017-06-22 17:04:14 +00:00
}
/*! readU32FromChar() :
@ return : unsigned integer value read from input in ` char ` format
allows and interprets K , KB , KiB , M , MB and MiB suffix .
Will also modify ` * stringPtr ` , advancing it to position where it stopped reading .
Note : function result can overflow if digit string > MAX_UINT */
static unsigned readU32FromChar ( const char * * stringPtr )
{
unsigned result = 0 ;
while ( ( * * stringPtr > = ' 0 ' ) & & ( * * stringPtr < = ' 9 ' ) )
result * = 10 , result + = * * stringPtr - ' 0 ' , ( * stringPtr ) + + ;
if ( ( * * stringPtr = = ' K ' ) | | ( * * stringPtr = = ' M ' ) ) {
result < < = 10 ;
if ( * * stringPtr = = ' M ' ) result < < = 10 ;
( * stringPtr ) + + ;
if ( * * stringPtr = = ' i ' ) ( * stringPtr ) + + ;
if ( * * stringPtr = = ' B ' ) ( * stringPtr ) + + ;
}
return result ;
}
/** longCommandWArg() :
* check if * stringPtr is the same as longCommand .
* If yes , @ return 1 and advances * stringPtr to the position which immediately follows longCommand .
* @ return 0 and doesn ' t modify * stringPtr otherwise .
*/
static unsigned longCommandWArg ( const char * * stringPtr , const char * longCommand )
{
size_t const comSize = strlen ( longCommand ) ;
int const result = ! strncmp ( * stringPtr , longCommand , comSize ) ;
if ( result ) * stringPtr + = comSize ;
return result ;
2017-02-22 23:59:15 +00:00
}
int main ( int argc , char * * argv )
{
U32 seed = 0 ;
int seedset = 0 ;
unsigned numFiles = 0 ;
unsigned testDuration = 0 ;
int testMode = 0 ;
const char * path = NULL ;
const char * origPath = NULL ;
2017-06-19 23:23:00 +00:00
int useDict = 0 ;
2017-06-09 00:06:30 +00:00
unsigned dictSize = ( 10 < < 10 ) ; /* 10 kB default */
2017-09-12 21:29:39 +00:00
genType_e genType = gt_frame ;
2017-02-22 23:59:15 +00:00
int argNb ;
/* Check command line */
for ( argNb = 1 ; argNb < argc ; argNb + + ) {
const char * argument = argv [ argNb ] ;
if ( ! argument ) continue ; /* Protection if argument empty */
/* Handle commands. Aggregated commands are allowed */
if ( argument [ 0 ] = = ' - ' ) {
argument + + ;
while ( * argument ! = 0 ) {
switch ( * argument )
{
case ' h ' :
usage ( argv [ 0 ] ) ;
return 0 ;
2017-02-23 21:06:50 +00:00
case ' H ' :
advancedUsage ( argv [ 0 ] ) ;
return 0 ;
2017-02-22 23:59:15 +00:00
case ' v ' :
argument + + ;
g_displayLevel + + ;
break ;
case ' s ' :
argument + + ;
seedset = 1 ;
seed = readInt ( & argument ) ;
break ;
case ' n ' :
argument + + ;
numFiles = readInt ( & argument ) ;
break ;
case ' T ' :
argument + + ;
testDuration = readInt ( & argument ) ;
if ( * argument = = ' m ' ) {
testDuration * = 60 ;
argument + + ;
if ( * argument = = ' n ' ) argument + + ;
}
break ;
case ' o ' :
argument + + ;
origPath = argument ;
argument + = strlen ( argument ) ;
break ;
case ' p ' :
argument + + ;
path = argument ;
argument + = strlen ( argument ) ;
break ;
case ' t ' :
argument + + ;
testMode = 1 ;
break ;
2017-02-23 21:06:50 +00:00
case ' - ' :
argument + + ;
if ( strcmp ( argument , " content-size " ) = = 0 ) {
opts . contentSize = 1 ;
2017-06-22 17:04:14 +00:00
} else if ( longCommandWArg ( & argument , " use-dict= " ) ) {
dictSize = readU32FromChar ( & argument ) ;
2017-06-19 23:23:00 +00:00
useDict = 1 ;
2017-09-12 21:29:39 +00:00
} else if ( strcmp ( argument , " gen-blocks " ) = = 0 ) {
genType = gt_block ;
2017-09-13 22:07:03 +00:00
} else if ( longCommandWArg ( & argument , " max-block-size-log= " ) ) {
U32 value = readU32FromChar ( & argument ) ;
2017-10-07 22:19:52 +00:00
if ( value > = 2 & & value < = ZSTD_BLOCKSIZE_MAX ) {
2017-09-13 22:07:03 +00:00
g_maxBlockSize = 1U < < value ;
}
} else if ( longCommandWArg ( & argument , " max-content-size-log= " ) ) {
U32 value = readU32FromChar ( & argument ) ;
g_maxDecompressedSizeLog =
MIN ( MAX_DECOMPRESSED_SIZE_LOG , value ) ;
2017-02-23 21:06:50 +00:00
} else {
advancedUsage ( argv [ 0 ] ) ;
return 1 ;
}
argument + = strlen ( argument ) ;
break ;
2017-02-22 23:59:15 +00:00
default :
usage ( argv [ 0 ] ) ;
return 1 ;
} } } } /* for (argNb=1; argNb<argc; argNb++) */
if ( ! seedset ) {
seed = makeSeed ( ) ;
}
if ( testMode ) {
2017-09-12 21:29:39 +00:00
return runTestMode ( seed , numFiles , testDuration , genType ) ;
2017-02-22 23:59:15 +00:00
} else {
if ( testDuration ) {
DISPLAY ( " Error: -T requires test mode (-t) \n \n " ) ;
usage ( argv [ 0 ] ) ;
return 1 ;
}
}
2017-02-23 21:06:50 +00:00
if ( ! path ) {
DISPLAY ( " Error: path is required in file generation mode \n " ) ;
usage ( argv [ 0 ] ) ;
return 1 ;
}
2017-06-19 23:23:00 +00:00
if ( numFiles = = 0 & & useDict = = 0 ) {
2017-09-12 21:29:39 +00:00
return generateFile ( seed , path , origPath , genType ) ;
2017-06-19 23:23:00 +00:00
} else if ( useDict = = 0 ) {
2017-09-12 21:29:39 +00:00
return generateCorpus ( seed , numFiles , path , origPath , genType ) ;
2017-06-16 01:06:32 +00:00
} else {
/* should generate files with a dictionary */
2017-09-12 21:29:39 +00:00
return generateCorpusWithDict ( seed , numFiles , path , origPath , dictSize , genType ) ;
2017-02-22 23:59:15 +00:00
}
2017-06-09 00:06:30 +00:00
2017-02-22 23:59:15 +00:00
}