1*3117ece4Schristos /* 2*3117ece4Schristos * Copyright (c) Meta Platforms, Inc. and affiliates. 3*3117ece4Schristos * All rights reserved. 4*3117ece4Schristos * 5*3117ece4Schristos * This source code is licensed under both the BSD-style license (found in the 6*3117ece4Schristos * LICENSE file in the root directory of this source tree) and the GPLv2 (found 7*3117ece4Schristos * in the COPYING file in the root directory of this source tree). 8*3117ece4Schristos * You may select, at your option, one of the above-listed licenses. 9*3117ece4Schristos */ 10*3117ece4Schristos 11*3117ece4Schristos 12*3117ece4Schristos 13*3117ece4Schristos /* ************************************** 14*3117ece4Schristos * Compiler Warnings 15*3117ece4Schristos ****************************************/ 16*3117ece4Schristos #ifdef _MSC_VER 17*3117ece4Schristos # pragma warning(disable : 4127) /* disable: C4127: conditional expression is constant */ 18*3117ece4Schristos #endif 19*3117ece4Schristos 20*3117ece4Schristos 21*3117ece4Schristos /*-************************************* 22*3117ece4Schristos * Includes 23*3117ece4Schristos ***************************************/ 24*3117ece4Schristos #include "platform.h" /* Large Files support */ 25*3117ece4Schristos #include "util.h" /* UTIL_getFileSize, UTIL_getTotalFileSize */ 26*3117ece4Schristos #include <stdlib.h> /* malloc, free */ 27*3117ece4Schristos #include <string.h> /* memset */ 28*3117ece4Schristos #include <stdio.h> /* fprintf, fopen, ftello64 */ 29*3117ece4Schristos #include <errno.h> /* errno */ 30*3117ece4Schristos 31*3117ece4Schristos #include "timefn.h" /* UTIL_time_t, UTIL_clockSpanMicro, UTIL_getTime */ 32*3117ece4Schristos #include "../lib/common/debug.h" /* assert */ 33*3117ece4Schristos #include "../lib/common/mem.h" /* read */ 34*3117ece4Schristos #include "../lib/zstd_errors.h" 35*3117ece4Schristos #include "dibio.h" 36*3117ece4Schristos 37*3117ece4Schristos 38*3117ece4Schristos /*-************************************* 39*3117ece4Schristos * Constants 40*3117ece4Schristos ***************************************/ 41*3117ece4Schristos #define KB *(1 <<10) 42*3117ece4Schristos #define MB *(1 <<20) 43*3117ece4Schristos #define GB *(1U<<30) 44*3117ece4Schristos 45*3117ece4Schristos #define SAMPLESIZE_MAX (128 KB) 46*3117ece4Schristos #define MEMMULT 11 /* rough estimation : memory cost to analyze 1 byte of sample */ 47*3117ece4Schristos #define COVER_MEMMULT 9 /* rough estimation : memory cost to analyze 1 byte of sample */ 48*3117ece4Schristos #define FASTCOVER_MEMMULT 1 /* rough estimation : memory cost to analyze 1 byte of sample */ 49*3117ece4Schristos static const size_t g_maxMemory = (sizeof(size_t) == 4) ? (2 GB - 64 MB) : ((size_t)(512 MB) << sizeof(size_t)); 50*3117ece4Schristos 51*3117ece4Schristos #define NOISELENGTH 32 52*3117ece4Schristos #define MAX_SAMPLES_SIZE (2 GB) /* training dataset limited to 2GB */ 53*3117ece4Schristos 54*3117ece4Schristos 55*3117ece4Schristos /*-************************************* 56*3117ece4Schristos * Console display 57*3117ece4Schristos ***************************************/ 58*3117ece4Schristos #define DISPLAY(...) fprintf(stderr, __VA_ARGS__) 59*3117ece4Schristos #define DISPLAYLEVEL(l, ...) if (displayLevel>=l) { DISPLAY(__VA_ARGS__); } 60*3117ece4Schristos 61*3117ece4Schristos static const U64 g_refreshRate = SEC_TO_MICRO / 6; 62*3117ece4Schristos static UTIL_time_t g_displayClock = UTIL_TIME_INITIALIZER; 63*3117ece4Schristos 64*3117ece4Schristos #define DISPLAYUPDATE(l, ...) { if (displayLevel>=l) { \ 65*3117ece4Schristos if ((UTIL_clockSpanMicro(g_displayClock) > g_refreshRate) || (displayLevel>=4)) \ 66*3117ece4Schristos { g_displayClock = UTIL_getTime(); DISPLAY(__VA_ARGS__); \ 67*3117ece4Schristos if (displayLevel>=4) fflush(stderr); } } } 68*3117ece4Schristos 69*3117ece4Schristos /*-************************************* 70*3117ece4Schristos * Exceptions 71*3117ece4Schristos ***************************************/ 72*3117ece4Schristos #ifndef DEBUG 73*3117ece4Schristos # define DEBUG 0 74*3117ece4Schristos #endif 75*3117ece4Schristos #define DEBUGOUTPUT(...) if (DEBUG) DISPLAY(__VA_ARGS__); 76*3117ece4Schristos #define EXM_THROW(error, ...) \ 77*3117ece4Schristos { \ 78*3117ece4Schristos DEBUGOUTPUT("Error defined at %s, line %i : \n", __FILE__, __LINE__); \ 79*3117ece4Schristos DISPLAY("Error %i : ", error); \ 80*3117ece4Schristos DISPLAY(__VA_ARGS__); \ 81*3117ece4Schristos DISPLAY("\n"); \ 82*3117ece4Schristos exit(error); \ 83*3117ece4Schristos } 84*3117ece4Schristos 85*3117ece4Schristos 86*3117ece4Schristos /* ******************************************************** 87*3117ece4Schristos * Helper functions 88*3117ece4Schristos **********************************************************/ 89*3117ece4Schristos #undef MIN 90*3117ece4Schristos #define MIN(a,b) ((a) < (b) ? (a) : (b)) 91*3117ece4Schristos 92*3117ece4Schristos /** 93*3117ece4Schristos Returns the size of a file. 94*3117ece4Schristos If error returns -1. 95*3117ece4Schristos */ 96*3117ece4Schristos static S64 DiB_getFileSize (const char * fileName) 97*3117ece4Schristos { 98*3117ece4Schristos U64 const fileSize = UTIL_getFileSize(fileName); 99*3117ece4Schristos return (fileSize == UTIL_FILESIZE_UNKNOWN) ? -1 : (S64)fileSize; 100*3117ece4Schristos } 101*3117ece4Schristos 102*3117ece4Schristos /* ******************************************************** 103*3117ece4Schristos * File related operations 104*3117ece4Schristos **********************************************************/ 105*3117ece4Schristos /** DiB_loadFiles() : 106*3117ece4Schristos * load samples from files listed in fileNamesTable into buffer. 107*3117ece4Schristos * works even if buffer is too small to load all samples. 108*3117ece4Schristos * Also provides the size of each sample into sampleSizes table 109*3117ece4Schristos * which must be sized correctly, using DiB_fileStats(). 110*3117ece4Schristos * @return : nb of samples effectively loaded into `buffer` 111*3117ece4Schristos * *bufferSizePtr is modified, it provides the amount data loaded within buffer. 112*3117ece4Schristos * sampleSizes is filled with the size of each sample. 113*3117ece4Schristos */ 114*3117ece4Schristos static int DiB_loadFiles( 115*3117ece4Schristos void* buffer, size_t* bufferSizePtr, 116*3117ece4Schristos size_t* sampleSizes, int sstSize, 117*3117ece4Schristos const char** fileNamesTable, int nbFiles, 118*3117ece4Schristos size_t targetChunkSize, int displayLevel ) 119*3117ece4Schristos { 120*3117ece4Schristos char* const buff = (char*)buffer; 121*3117ece4Schristos size_t totalDataLoaded = 0; 122*3117ece4Schristos int nbSamplesLoaded = 0; 123*3117ece4Schristos int fileIndex = 0; 124*3117ece4Schristos FILE * f = NULL; 125*3117ece4Schristos 126*3117ece4Schristos assert(targetChunkSize <= SAMPLESIZE_MAX); 127*3117ece4Schristos 128*3117ece4Schristos while ( nbSamplesLoaded < sstSize && fileIndex < nbFiles ) { 129*3117ece4Schristos size_t fileDataLoaded; 130*3117ece4Schristos S64 const fileSize = DiB_getFileSize(fileNamesTable[fileIndex]); 131*3117ece4Schristos if (fileSize <= 0) { 132*3117ece4Schristos /* skip if zero-size or file error */ 133*3117ece4Schristos ++fileIndex; 134*3117ece4Schristos continue; 135*3117ece4Schristos } 136*3117ece4Schristos 137*3117ece4Schristos f = fopen( fileNamesTable[fileIndex], "rb"); 138*3117ece4Schristos if (f == NULL) 139*3117ece4Schristos EXM_THROW(10, "zstd: dictBuilder: %s %s ", fileNamesTable[fileIndex], strerror(errno)); 140*3117ece4Schristos DISPLAYUPDATE(2, "Loading %s... \r", fileNamesTable[fileIndex]); 141*3117ece4Schristos 142*3117ece4Schristos /* Load the first chunk of data from the file */ 143*3117ece4Schristos fileDataLoaded = targetChunkSize > 0 ? 144*3117ece4Schristos (size_t)MIN(fileSize, (S64)targetChunkSize) : 145*3117ece4Schristos (size_t)MIN(fileSize, SAMPLESIZE_MAX ); 146*3117ece4Schristos if (totalDataLoaded + fileDataLoaded > *bufferSizePtr) 147*3117ece4Schristos break; 148*3117ece4Schristos if (fread( buff+totalDataLoaded, 1, fileDataLoaded, f ) != fileDataLoaded) 149*3117ece4Schristos EXM_THROW(11, "Pb reading %s", fileNamesTable[fileIndex]); 150*3117ece4Schristos sampleSizes[nbSamplesLoaded++] = fileDataLoaded; 151*3117ece4Schristos totalDataLoaded += fileDataLoaded; 152*3117ece4Schristos 153*3117ece4Schristos /* If file-chunking is enabled, load the rest of the file as more samples */ 154*3117ece4Schristos if (targetChunkSize > 0) { 155*3117ece4Schristos while( (S64)fileDataLoaded < fileSize && nbSamplesLoaded < sstSize ) { 156*3117ece4Schristos size_t const chunkSize = MIN((size_t)(fileSize-fileDataLoaded), targetChunkSize); 157*3117ece4Schristos if (totalDataLoaded + chunkSize > *bufferSizePtr) /* buffer is full */ 158*3117ece4Schristos break; 159*3117ece4Schristos 160*3117ece4Schristos if (fread( buff+totalDataLoaded, 1, chunkSize, f ) != chunkSize) 161*3117ece4Schristos EXM_THROW(11, "Pb reading %s", fileNamesTable[fileIndex]); 162*3117ece4Schristos sampleSizes[nbSamplesLoaded++] = chunkSize; 163*3117ece4Schristos totalDataLoaded += chunkSize; 164*3117ece4Schristos fileDataLoaded += chunkSize; 165*3117ece4Schristos } 166*3117ece4Schristos } 167*3117ece4Schristos fileIndex += 1; 168*3117ece4Schristos fclose(f); f = NULL; 169*3117ece4Schristos } 170*3117ece4Schristos if (f != NULL) 171*3117ece4Schristos fclose(f); 172*3117ece4Schristos 173*3117ece4Schristos DISPLAYLEVEL(2, "\r%79s\r", ""); 174*3117ece4Schristos DISPLAYLEVEL(4, "Loaded %d KB total training data, %d nb samples \n", 175*3117ece4Schristos (int)(totalDataLoaded / (1 KB)), nbSamplesLoaded ); 176*3117ece4Schristos *bufferSizePtr = totalDataLoaded; 177*3117ece4Schristos return nbSamplesLoaded; 178*3117ece4Schristos } 179*3117ece4Schristos 180*3117ece4Schristos #define DiB_rotl32(x,r) ((x << r) | (x >> (32 - r))) 181*3117ece4Schristos static U32 DiB_rand(U32* src) 182*3117ece4Schristos { 183*3117ece4Schristos static const U32 prime1 = 2654435761U; 184*3117ece4Schristos static const U32 prime2 = 2246822519U; 185*3117ece4Schristos U32 rand32 = *src; 186*3117ece4Schristos rand32 *= prime1; 187*3117ece4Schristos rand32 ^= prime2; 188*3117ece4Schristos rand32 = DiB_rotl32(rand32, 13); 189*3117ece4Schristos *src = rand32; 190*3117ece4Schristos return rand32 >> 5; 191*3117ece4Schristos } 192*3117ece4Schristos 193*3117ece4Schristos /* DiB_shuffle() : 194*3117ece4Schristos * shuffle a table of file names in a semi-random way 195*3117ece4Schristos * It improves dictionary quality by reducing "locality" impact, so if sample set is very large, 196*3117ece4Schristos * it will load random elements from it, instead of just the first ones. */ 197*3117ece4Schristos static void DiB_shuffle(const char** fileNamesTable, unsigned nbFiles) { 198*3117ece4Schristos U32 seed = 0xFD2FB528; 199*3117ece4Schristos unsigned i; 200*3117ece4Schristos if (nbFiles == 0) 201*3117ece4Schristos return; 202*3117ece4Schristos for (i = nbFiles - 1; i > 0; --i) { 203*3117ece4Schristos unsigned const j = DiB_rand(&seed) % (i + 1); 204*3117ece4Schristos const char* const tmp = fileNamesTable[j]; 205*3117ece4Schristos fileNamesTable[j] = fileNamesTable[i]; 206*3117ece4Schristos fileNamesTable[i] = tmp; 207*3117ece4Schristos } 208*3117ece4Schristos } 209*3117ece4Schristos 210*3117ece4Schristos 211*3117ece4Schristos /*-******************************************************** 212*3117ece4Schristos * Dictionary training functions 213*3117ece4Schristos **********************************************************/ 214*3117ece4Schristos static size_t DiB_findMaxMem(unsigned long long requiredMem) 215*3117ece4Schristos { 216*3117ece4Schristos size_t const step = 8 MB; 217*3117ece4Schristos void* testmem = NULL; 218*3117ece4Schristos 219*3117ece4Schristos requiredMem = (((requiredMem >> 23) + 1) << 23); 220*3117ece4Schristos requiredMem += step; 221*3117ece4Schristos if (requiredMem > g_maxMemory) requiredMem = g_maxMemory; 222*3117ece4Schristos 223*3117ece4Schristos while (!testmem) { 224*3117ece4Schristos testmem = malloc((size_t)requiredMem); 225*3117ece4Schristos requiredMem -= step; 226*3117ece4Schristos } 227*3117ece4Schristos 228*3117ece4Schristos free(testmem); 229*3117ece4Schristos return (size_t)requiredMem; 230*3117ece4Schristos } 231*3117ece4Schristos 232*3117ece4Schristos 233*3117ece4Schristos static void DiB_fillNoise(void* buffer, size_t length) 234*3117ece4Schristos { 235*3117ece4Schristos unsigned const prime1 = 2654435761U; 236*3117ece4Schristos unsigned const prime2 = 2246822519U; 237*3117ece4Schristos unsigned acc = prime1; 238*3117ece4Schristos size_t p=0; 239*3117ece4Schristos 240*3117ece4Schristos for (p=0; p<length; p++) { 241*3117ece4Schristos acc *= prime2; 242*3117ece4Schristos ((unsigned char*)buffer)[p] = (unsigned char)(acc >> 21); 243*3117ece4Schristos } 244*3117ece4Schristos } 245*3117ece4Schristos 246*3117ece4Schristos 247*3117ece4Schristos static void DiB_saveDict(const char* dictFileName, 248*3117ece4Schristos const void* buff, size_t buffSize) 249*3117ece4Schristos { 250*3117ece4Schristos FILE* const f = fopen(dictFileName, "wb"); 251*3117ece4Schristos if (f==NULL) EXM_THROW(3, "cannot open %s ", dictFileName); 252*3117ece4Schristos 253*3117ece4Schristos { size_t const n = fwrite(buff, 1, buffSize, f); 254*3117ece4Schristos if (n!=buffSize) EXM_THROW(4, "%s : write error", dictFileName) } 255*3117ece4Schristos 256*3117ece4Schristos { size_t const n = (size_t)fclose(f); 257*3117ece4Schristos if (n!=0) EXM_THROW(5, "%s : flush error", dictFileName) } 258*3117ece4Schristos } 259*3117ece4Schristos 260*3117ece4Schristos typedef struct { 261*3117ece4Schristos S64 totalSizeToLoad; 262*3117ece4Schristos int nbSamples; 263*3117ece4Schristos int oneSampleTooLarge; 264*3117ece4Schristos } fileStats; 265*3117ece4Schristos 266*3117ece4Schristos /*! DiB_fileStats() : 267*3117ece4Schristos * Given a list of files, and a chunkSize (0 == no chunk, whole files) 268*3117ece4Schristos * provides the amount of data to be loaded and the resulting nb of samples. 269*3117ece4Schristos * This is useful primarily for allocation purpose => sample buffer, and sample sizes table. 270*3117ece4Schristos */ 271*3117ece4Schristos static fileStats DiB_fileStats(const char** fileNamesTable, int nbFiles, size_t chunkSize, int displayLevel) 272*3117ece4Schristos { 273*3117ece4Schristos fileStats fs; 274*3117ece4Schristos int n; 275*3117ece4Schristos memset(&fs, 0, sizeof(fs)); 276*3117ece4Schristos 277*3117ece4Schristos /* We assume that if chunking is requested, the chunk size is < SAMPLESIZE_MAX */ 278*3117ece4Schristos assert( chunkSize <= SAMPLESIZE_MAX ); 279*3117ece4Schristos 280*3117ece4Schristos for (n=0; n<nbFiles; n++) { 281*3117ece4Schristos S64 const fileSize = DiB_getFileSize(fileNamesTable[n]); 282*3117ece4Schristos /* TODO: is there a minimum sample size? What if the file is 1-byte? */ 283*3117ece4Schristos if (fileSize == 0) { 284*3117ece4Schristos DISPLAYLEVEL(3, "Sample file '%s' has zero size, skipping...\n", fileNamesTable[n]); 285*3117ece4Schristos continue; 286*3117ece4Schristos } 287*3117ece4Schristos 288*3117ece4Schristos /* the case where we are breaking up files in sample chunks */ 289*3117ece4Schristos if (chunkSize > 0) { 290*3117ece4Schristos /* TODO: is there a minimum sample size? Can we have a 1-byte sample? */ 291*3117ece4Schristos fs.nbSamples += (int)((fileSize + chunkSize-1) / chunkSize); 292*3117ece4Schristos fs.totalSizeToLoad += fileSize; 293*3117ece4Schristos } 294*3117ece4Schristos else { 295*3117ece4Schristos /* the case where one file is one sample */ 296*3117ece4Schristos if (fileSize > SAMPLESIZE_MAX) { 297*3117ece4Schristos /* flag excessively large sample files */ 298*3117ece4Schristos fs.oneSampleTooLarge |= (fileSize > 2*SAMPLESIZE_MAX); 299*3117ece4Schristos 300*3117ece4Schristos /* Limit to the first SAMPLESIZE_MAX (128kB) of the file */ 301*3117ece4Schristos DISPLAYLEVEL(3, "Sample file '%s' is too large, limiting to %d KB", 302*3117ece4Schristos fileNamesTable[n], SAMPLESIZE_MAX / (1 KB)); 303*3117ece4Schristos } 304*3117ece4Schristos fs.nbSamples += 1; 305*3117ece4Schristos fs.totalSizeToLoad += MIN(fileSize, SAMPLESIZE_MAX); 306*3117ece4Schristos } 307*3117ece4Schristos } 308*3117ece4Schristos DISPLAYLEVEL(4, "Found training data %d files, %d KB, %d samples\n", nbFiles, (int)(fs.totalSizeToLoad / (1 KB)), fs.nbSamples); 309*3117ece4Schristos return fs; 310*3117ece4Schristos } 311*3117ece4Schristos 312*3117ece4Schristos int DiB_trainFromFiles(const char* dictFileName, size_t maxDictSize, 313*3117ece4Schristos const char** fileNamesTable, int nbFiles, size_t chunkSize, 314*3117ece4Schristos ZDICT_legacy_params_t* params, ZDICT_cover_params_t* coverParams, 315*3117ece4Schristos ZDICT_fastCover_params_t* fastCoverParams, int optimize, unsigned memLimit) 316*3117ece4Schristos { 317*3117ece4Schristos fileStats fs; 318*3117ece4Schristos size_t* sampleSizes; /* vector of sample sizes. Each sample can be up to SAMPLESIZE_MAX */ 319*3117ece4Schristos int nbSamplesLoaded; /* nb of samples effectively loaded in srcBuffer */ 320*3117ece4Schristos size_t loadedSize; /* total data loaded in srcBuffer for all samples */ 321*3117ece4Schristos void* srcBuffer /* contiguous buffer with training data/samples */; 322*3117ece4Schristos void* const dictBuffer = malloc(maxDictSize); 323*3117ece4Schristos int result = 0; 324*3117ece4Schristos 325*3117ece4Schristos int const displayLevel = params ? params->zParams.notificationLevel : 326*3117ece4Schristos coverParams ? coverParams->zParams.notificationLevel : 327*3117ece4Schristos fastCoverParams ? fastCoverParams->zParams.notificationLevel : 0; 328*3117ece4Schristos 329*3117ece4Schristos /* Shuffle input files before we start assessing how much sample datA to load. 330*3117ece4Schristos The purpose of the shuffle is to pick random samples when the sample 331*3117ece4Schristos set is larger than what we can load in memory. */ 332*3117ece4Schristos DISPLAYLEVEL(3, "Shuffling input files\n"); 333*3117ece4Schristos DiB_shuffle(fileNamesTable, nbFiles); 334*3117ece4Schristos 335*3117ece4Schristos /* Figure out how much sample data to load with how many samples */ 336*3117ece4Schristos fs = DiB_fileStats(fileNamesTable, nbFiles, chunkSize, displayLevel); 337*3117ece4Schristos 338*3117ece4Schristos { 339*3117ece4Schristos int const memMult = params ? MEMMULT : 340*3117ece4Schristos coverParams ? COVER_MEMMULT: 341*3117ece4Schristos FASTCOVER_MEMMULT; 342*3117ece4Schristos size_t const maxMem = DiB_findMaxMem(fs.totalSizeToLoad * memMult) / memMult; 343*3117ece4Schristos /* Limit the size of the training data to the free memory */ 344*3117ece4Schristos /* Limit the size of the training data to 2GB */ 345*3117ece4Schristos /* TODO: there is opportunity to stop DiB_fileStats() early when the data limit is reached */ 346*3117ece4Schristos loadedSize = (size_t)MIN( MIN((S64)maxMem, fs.totalSizeToLoad), MAX_SAMPLES_SIZE ); 347*3117ece4Schristos if (memLimit != 0) { 348*3117ece4Schristos DISPLAYLEVEL(2, "! Warning : setting manual memory limit for dictionary training data at %u MB \n", 349*3117ece4Schristos (unsigned)(memLimit / (1 MB))); 350*3117ece4Schristos loadedSize = (size_t)MIN(loadedSize, memLimit); 351*3117ece4Schristos } 352*3117ece4Schristos srcBuffer = malloc(loadedSize+NOISELENGTH); 353*3117ece4Schristos sampleSizes = (size_t*)malloc(fs.nbSamples * sizeof(size_t)); 354*3117ece4Schristos } 355*3117ece4Schristos 356*3117ece4Schristos /* Checks */ 357*3117ece4Schristos if ((fs.nbSamples && !sampleSizes) || (!srcBuffer) || (!dictBuffer)) 358*3117ece4Schristos EXM_THROW(12, "not enough memory for DiB_trainFiles"); /* should not happen */ 359*3117ece4Schristos if (fs.oneSampleTooLarge) { 360*3117ece4Schristos DISPLAYLEVEL(2, "! Warning : some sample(s) are very large \n"); 361*3117ece4Schristos DISPLAYLEVEL(2, "! Note that dictionary is only useful for small samples. \n"); 362*3117ece4Schristos DISPLAYLEVEL(2, "! As a consequence, only the first %u bytes of each sample are loaded \n", SAMPLESIZE_MAX); 363*3117ece4Schristos } 364*3117ece4Schristos if (fs.nbSamples < 5) { 365*3117ece4Schristos DISPLAYLEVEL(2, "! Warning : nb of samples too low for proper processing ! \n"); 366*3117ece4Schristos DISPLAYLEVEL(2, "! Please provide _one file per sample_. \n"); 367*3117ece4Schristos DISPLAYLEVEL(2, "! Alternatively, split files into fixed-size blocks representative of samples, with -B# \n"); 368*3117ece4Schristos EXM_THROW(14, "nb of samples too low"); /* we now clearly forbid this case */ 369*3117ece4Schristos } 370*3117ece4Schristos if (fs.totalSizeToLoad < (S64)maxDictSize * 8) { 371*3117ece4Schristos DISPLAYLEVEL(2, "! Warning : data size of samples too small for target dictionary size \n"); 372*3117ece4Schristos DISPLAYLEVEL(2, "! Samples should be about 100x larger than target dictionary size \n"); 373*3117ece4Schristos } 374*3117ece4Schristos 375*3117ece4Schristos /* init */ 376*3117ece4Schristos if ((S64)loadedSize < fs.totalSizeToLoad) 377*3117ece4Schristos DISPLAYLEVEL(1, "Training samples set too large (%u MB); training on %u MB only...\n", 378*3117ece4Schristos (unsigned)(fs.totalSizeToLoad / (1 MB)), 379*3117ece4Schristos (unsigned)(loadedSize / (1 MB))); 380*3117ece4Schristos 381*3117ece4Schristos /* Load input buffer */ 382*3117ece4Schristos nbSamplesLoaded = DiB_loadFiles( 383*3117ece4Schristos srcBuffer, &loadedSize, sampleSizes, fs.nbSamples, fileNamesTable, 384*3117ece4Schristos nbFiles, chunkSize, displayLevel); 385*3117ece4Schristos 386*3117ece4Schristos { size_t dictSize = ZSTD_error_GENERIC; 387*3117ece4Schristos if (params) { 388*3117ece4Schristos DiB_fillNoise((char*)srcBuffer + loadedSize, NOISELENGTH); /* guard band, for end of buffer condition */ 389*3117ece4Schristos dictSize = ZDICT_trainFromBuffer_legacy(dictBuffer, maxDictSize, 390*3117ece4Schristos srcBuffer, sampleSizes, nbSamplesLoaded, 391*3117ece4Schristos *params); 392*3117ece4Schristos } else if (coverParams) { 393*3117ece4Schristos if (optimize) { 394*3117ece4Schristos dictSize = ZDICT_optimizeTrainFromBuffer_cover(dictBuffer, maxDictSize, 395*3117ece4Schristos srcBuffer, sampleSizes, nbSamplesLoaded, 396*3117ece4Schristos coverParams); 397*3117ece4Schristos if (!ZDICT_isError(dictSize)) { 398*3117ece4Schristos unsigned splitPercentage = (unsigned)(coverParams->splitPoint * 100); 399*3117ece4Schristos DISPLAYLEVEL(2, "k=%u\nd=%u\nsteps=%u\nsplit=%u\n", coverParams->k, coverParams->d, 400*3117ece4Schristos coverParams->steps, splitPercentage); 401*3117ece4Schristos } 402*3117ece4Schristos } else { 403*3117ece4Schristos dictSize = ZDICT_trainFromBuffer_cover(dictBuffer, maxDictSize, srcBuffer, 404*3117ece4Schristos sampleSizes, nbSamplesLoaded, *coverParams); 405*3117ece4Schristos } 406*3117ece4Schristos } else if (fastCoverParams != NULL) { 407*3117ece4Schristos if (optimize) { 408*3117ece4Schristos dictSize = ZDICT_optimizeTrainFromBuffer_fastCover(dictBuffer, maxDictSize, 409*3117ece4Schristos srcBuffer, sampleSizes, nbSamplesLoaded, 410*3117ece4Schristos fastCoverParams); 411*3117ece4Schristos if (!ZDICT_isError(dictSize)) { 412*3117ece4Schristos unsigned splitPercentage = (unsigned)(fastCoverParams->splitPoint * 100); 413*3117ece4Schristos DISPLAYLEVEL(2, "k=%u\nd=%u\nf=%u\nsteps=%u\nsplit=%u\naccel=%u\n", fastCoverParams->k, 414*3117ece4Schristos fastCoverParams->d, fastCoverParams->f, fastCoverParams->steps, splitPercentage, 415*3117ece4Schristos fastCoverParams->accel); 416*3117ece4Schristos } 417*3117ece4Schristos } else { 418*3117ece4Schristos dictSize = ZDICT_trainFromBuffer_fastCover(dictBuffer, maxDictSize, srcBuffer, 419*3117ece4Schristos sampleSizes, nbSamplesLoaded, *fastCoverParams); 420*3117ece4Schristos } 421*3117ece4Schristos } else { 422*3117ece4Schristos assert(0 /* Impossible */); 423*3117ece4Schristos } 424*3117ece4Schristos if (ZDICT_isError(dictSize)) { 425*3117ece4Schristos DISPLAYLEVEL(1, "dictionary training failed : %s \n", ZDICT_getErrorName(dictSize)); /* should not happen */ 426*3117ece4Schristos result = 1; 427*3117ece4Schristos goto _cleanup; 428*3117ece4Schristos } 429*3117ece4Schristos /* save dict */ 430*3117ece4Schristos DISPLAYLEVEL(2, "Save dictionary of size %u into file %s \n", (unsigned)dictSize, dictFileName); 431*3117ece4Schristos DiB_saveDict(dictFileName, dictBuffer, dictSize); 432*3117ece4Schristos } 433*3117ece4Schristos 434*3117ece4Schristos /* clean up */ 435*3117ece4Schristos _cleanup: 436*3117ece4Schristos free(srcBuffer); 437*3117ece4Schristos free(sampleSizes); 438*3117ece4Schristos free(dictBuffer); 439*3117ece4Schristos return result; 440*3117ece4Schristos } 441