1 /*M/////////////////////////////////////////////////////////////////////////////////////// 2 // 3 // IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING. 4 // 5 // By downloading, copying, installing or using the software you agree to this license. 6 // If you do not agree to this license, do not download, install, 7 // copy or use the software. 8 // 9 // 10 // Intel License Agreement 11 // For Open Source Computer Vision Library 12 // 13 // Copyright (C) 2000, Intel Corporation, all rights reserved. 14 // Third party copyrights are property of their respective owners. 15 // 16 // Redistribution and use in source and binary forms, with or without modification, 17 // are permitted provided that the following conditions are met: 18 // 19 // * Redistribution's of source code must retain the above copyright notice, 20 // this list of conditions and the following disclaimer. 21 // 22 // * Redistribution's in binary form must reproduce the above copyright notice, 23 // this list of conditions and the following disclaimer in the documentation 24 // and/or other materials provided with the distribution. 25 // 26 // * The name of Intel Corporation may not be used to endorse or promote products 27 // derived from this software without specific prior written permission. 28 // 29 // This software is provided by the copyright holders and contributors "as is" and 30 // any express or implied warranties, including, but not limited to, the implied 31 // warranties of merchantability and fitness for a particular purpose are disclaimed. 32 // In no event shall the Intel Corporation or contributors be liable for any direct, 33 // indirect, incidental, special, exemplary, or consequential damages 34 // (including, but not limited to, procurement of substitute goods or services; 35 // loss of use, data, or profits; or business interruption) however caused 36 // and on any theory of liability, whether in contract, strict liability, 37 // or tort (including negligence or otherwise) arising in any way out of 38 // the use of this software, even if advised of the possibility of such damage. 39 // 40 //M*/ 41 42 #include "_cxcore.h" 43 #include <ctype.h> 44 45 /****************************************************************************************\ 46 * Common macros and type definitions * 47 \****************************************************************************************/ 48 49 #define cv_isprint(c) ((signed char)(c) >= (signed char)' ') 50 #define cv_isprint_or_tab(c) ((signed char)(c) >= (signed char)' ' || (c) == '\t') 51 52 static char* icv_itoa( int _val, char* buffer, int /*radix*/ ) 53 { 54 const int radix = 10; 55 char* ptr=buffer + 23 /* enough even for 64-bit integers */; 56 unsigned val = abs(_val); 57 58 *ptr = '\0'; 59 do 60 { 61 unsigned r = val / radix; 62 *--ptr = (char)(val - (r*radix) + '0'); 63 val = r; 64 } 65 while( val != 0 ); 66 67 if( _val < 0 ) 68 *--ptr = '-'; 69 70 return ptr; 71 } 72 73 74 typedef struct CvGenericHash 75 { 76 CV_SET_FIELDS() 77 int tab_size; 78 void** table; 79 } 80 CvGenericHash; 81 82 typedef CvGenericHash CvStringHash; 83 84 typedef struct CvFileMapNode 85 { 86 CvFileNode value; 87 const CvStringHashNode* key; 88 struct CvFileMapNode* next; 89 } 90 CvFileMapNode; 91 92 typedef struct CvXMLStackRecord 93 { 94 CvMemStoragePos pos; 95 CvString struct_tag; 96 int struct_indent; 97 int struct_flags; 98 } 99 CvXMLStackRecord; 100 101 #define CV_XML_OPENING_TAG 1 102 #define CV_XML_CLOSING_TAG 2 103 #define CV_XML_EMPTY_TAG 3 104 #define CV_XML_HEADER_TAG 4 105 #define CV_XML_DIRECTIVE_TAG 5 106 107 //typedef void (*CvParse)( struct CvFileStorage* fs ); 108 typedef void (*CvStartWriteStruct)( struct CvFileStorage* fs, const char* key, 109 int struct_flags, const char* type_name ); 110 typedef void (*CvEndWriteStruct)( struct CvFileStorage* fs ); 111 typedef void (*CvWriteInt)( struct CvFileStorage* fs, const char* key, int value ); 112 typedef void (*CvWriteReal)( struct CvFileStorage* fs, const char* key, double value ); 113 typedef void (*CvWriteString)( struct CvFileStorage* fs, const char* key, 114 const char* value, int quote ); 115 typedef void (*CvWriteComment)( struct CvFileStorage* fs, const char* comment, int eol_comment ); 116 typedef void (*CvStartNextStream)( struct CvFileStorage* fs ); 117 118 typedef struct CvFileStorage 119 { 120 int flags; 121 int is_xml; 122 int write_mode; 123 int is_first; 124 CvMemStorage* memstorage; 125 CvMemStorage* dststorage; 126 CvMemStorage* strstorage; 127 CvStringHash* str_hash; 128 CvSeq* roots; 129 CvSeq* write_stack; 130 int struct_indent; 131 int struct_flags; 132 CvString struct_tag; 133 int space; 134 char* filename; 135 FILE* file; 136 char* buffer; 137 char* buffer_start; 138 char* buffer_end; 139 int wrap_margin; 140 int lineno; 141 int dummy_eof; 142 const char* errmsg; 143 char errmsgbuf[128]; 144 145 CvStartWriteStruct start_write_struct; 146 CvEndWriteStruct end_write_struct; 147 CvWriteInt write_int; 148 CvWriteReal write_real; 149 CvWriteString write_string; 150 CvWriteComment write_comment; 151 CvStartNextStream start_next_stream; 152 //CvParse parse; 153 } 154 CvFileStorage; 155 156 157 #define CV_YML_INDENT 3 158 #define CV_XML_INDENT 2 159 #define CV_YML_INDENT_FLOW 1 160 #define CV_FS_MAX_LEN 4096 161 162 #define CV_FILE_STORAGE ('Y' + ('A' << 8) + ('M' << 16) + ('L' << 24)) 163 #define CV_IS_FILE_STORAGE(fs) ((fs) != 0 && (fs)->flags == CV_FILE_STORAGE) 164 165 #define CV_CHECK_FILE_STORAGE(fs) \ 166 { \ 167 if( !CV_IS_FILE_STORAGE(fs) ) \ 168 CV_ERROR( (fs) ? CV_StsBadArg : CV_StsNullPtr, \ 169 "Invalid pointer to file storage" ); \ 170 } 171 172 #define CV_CHECK_OUTPUT_FILE_STORAGE(fs) \ 173 { \ 174 CV_CHECK_FILE_STORAGE(fs); \ 175 if( !fs->write_mode ) \ 176 CV_ERROR( CV_StsError, "The file storage is opened for reading" ); \ 177 } 178 179 CV_IMPL const char* 180 cvAttrValue( const CvAttrList* attr, const char* attr_name ) 181 { 182 while( attr && attr->attr ) 183 { 184 int i; 185 for( i = 0; attr->attr[i*2] != 0; i++ ) 186 { 187 if( strcmp( attr_name, attr->attr[i*2] ) == 0 ) 188 return attr->attr[i*2+1]; 189 } 190 attr = attr->next; 191 } 192 193 return 0; 194 } 195 196 197 static CvGenericHash* 198 cvCreateMap( int flags, int header_size, int elem_size, 199 CvMemStorage* storage, int start_tab_size ) 200 { 201 CvGenericHash* map = 0; 202 203 CV_FUNCNAME( "cvCreateMap" ); 204 205 __BEGIN__; 206 207 if( header_size < (int)sizeof(CvGenericHash) ) 208 CV_ERROR( CV_StsBadSize, "Too small map header_size" ); 209 210 if( start_tab_size <= 0 ) 211 start_tab_size = 16; 212 213 CV_CALL( map = (CvGenericHash*)cvCreateSet( flags, header_size, elem_size, storage )); 214 215 map->tab_size = start_tab_size; 216 start_tab_size *= sizeof(map->table[0]); 217 CV_CALL( map->table = (void**)cvMemStorageAlloc( storage, start_tab_size )); 218 memset( map->table, 0, start_tab_size ); 219 220 __END__; 221 222 if( cvGetErrStatus() < 0 ) 223 map = 0; 224 225 return map; 226 } 227 228 229 #define CV_PARSE_ERROR( errmsg ) \ 230 { \ 231 icvParseError( fs, cvFuncName, (errmsg), __FILE__, __LINE__ ); \ 232 EXIT; \ 233 } 234 235 236 static void 237 icvParseError( CvFileStorage* fs, const char* func_name, 238 const char* err_msg, const char* source_file, int source_line ) 239 { 240 char buf[1<<10]; 241 sprintf( buf, "%s(%d): %s", fs->filename, fs->lineno, err_msg ); 242 cvError( CV_StsParseError, func_name, buf, source_file, source_line ); 243 } 244 245 246 static void 247 icvFSCreateCollection( CvFileStorage* fs, int tag, CvFileNode* collection ) 248 { 249 CV_FUNCNAME( "icvFSCreateCollection" ); 250 251 __BEGIN__; 252 253 if( CV_NODE_IS_MAP(tag) ) 254 { 255 if( collection->tag != CV_NODE_NONE ) 256 { 257 assert( fs->is_xml != 0 ); 258 CV_PARSE_ERROR( "Sequence element should not have name (use <_></_>)" ); 259 } 260 261 CV_CALL( collection->data.map = cvCreateMap( 0, sizeof(CvFileNodeHash), 262 sizeof(CvFileMapNode), fs->memstorage, 16 )); 263 } 264 else 265 { 266 CvSeq* seq; 267 CV_CALL( seq = cvCreateSeq( 0, sizeof(CvSeq), sizeof(CvFileNode), fs->memstorage )); 268 269 // if <collection> contains some scalar element, add it to the newly created collection 270 if( CV_NODE_TYPE(collection->tag) != CV_NODE_NONE ) 271 cvSeqPush( seq, collection ); 272 273 collection->data.seq = seq; 274 } 275 276 collection->tag = tag; 277 cvSetSeqBlockSize( collection->data.seq, 8 ); 278 279 __END__; 280 } 281 282 283 /*static void 284 icvFSReleaseCollection( CvSeq* seq ) 285 { 286 if( seq ) 287 { 288 int is_map = CV_IS_SET(seq); 289 CvSeqReader reader; 290 int i, total = seq->total; 291 cvStartReadSeq( seq, &reader, 0 ); 292 293 for( i = 0; i < total; i++ ) 294 { 295 CvFileNode* node = (CvFileNode*)reader.ptr; 296 297 if( (!is_map || CV_IS_SET_ELEM( node )) && CV_NODE_IS_COLLECTION(node->tag) ) 298 { 299 if( CV_NODE_IS_USER(node->tag) && node->info && node->data.obj.decoded ) 300 cvRelease( (void**)&node->data.obj.decoded ); 301 if( !CV_NODE_SEQ_IS_SIMPLE( node->data.seq )) 302 icvFSReleaseCollection( node->data.seq ); 303 } 304 CV_NEXT_SEQ_ELEM( seq->elem_size, reader ); 305 } 306 } 307 }*/ 308 309 310 static char* 311 icvFSDoResize( CvFileStorage* fs, char* ptr, int len ) 312 { 313 char* new_ptr = 0; 314 CV_FUNCNAME( "icvFSDoResize" ); 315 316 __BEGIN__; 317 318 int written_len = (int)(ptr - fs->buffer_start); 319 int new_size = (int)((fs->buffer_end - fs->buffer_start)*3/2); 320 new_size = MAX( written_len + len, new_size ); 321 CV_CALL( new_ptr = (char*)cvAlloc( new_size + 256 )); 322 fs->buffer = new_ptr + (fs->buffer - fs->buffer_start); 323 if( written_len > 0 ) 324 memcpy( new_ptr, fs->buffer_start, written_len ); 325 fs->buffer_start = new_ptr; 326 fs->buffer_end = fs->buffer_start + new_size; 327 new_ptr += written_len; 328 329 __END__; 330 331 return new_ptr; 332 } 333 334 335 inline char* icvFSResizeWriteBuffer( CvFileStorage* fs, char* ptr, int len ) 336 { 337 return ptr + len < fs->buffer_end ? ptr : icvFSDoResize( fs, ptr, len ); 338 } 339 340 341 static char* 342 icvFSFlush( CvFileStorage* fs ) 343 { 344 char* ptr = fs->buffer; 345 int indent; 346 347 if( ptr > fs->buffer_start + fs->space ) 348 { 349 ptr[0] = '\n'; 350 ptr[1] = '\0'; 351 fputs( fs->buffer_start, fs->file ); 352 fs->buffer = fs->buffer_start; 353 } 354 355 indent = fs->struct_indent; 356 357 if( fs->space != indent ) 358 { 359 if( fs->space < indent ) 360 memset( fs->buffer_start + fs->space, ' ', indent - fs->space ); 361 fs->space = indent; 362 } 363 364 ptr = fs->buffer = fs->buffer_start + fs->space; 365 366 return ptr; 367 } 368 369 370 /* closes file storage and deallocates buffers */ 371 CV_IMPL void 372 cvReleaseFileStorage( CvFileStorage** p_fs ) 373 { 374 CV_FUNCNAME("cvReleaseFileStorage" ); 375 376 __BEGIN__; 377 378 if( !p_fs ) 379 CV_ERROR( CV_StsNullPtr, "NULL double pointer to file storage" ); 380 381 if( *p_fs ) 382 { 383 CvFileStorage* fs = *p_fs; 384 *p_fs = 0; 385 386 if( fs->write_mode && fs->file ) 387 { 388 if( fs->write_stack ) 389 { 390 while( fs->write_stack->total > 0 ) 391 cvEndWriteStruct(fs); 392 } 393 icvFSFlush(fs); 394 if( fs->is_xml ) 395 fputs("</opencv_storage>\n", fs->file ); 396 } 397 398 //icvFSReleaseCollection( fs->roots ); // delete all the user types recursively 399 400 if( fs->file ) 401 { 402 fclose( fs->file ); 403 fs->file = 0; 404 } 405 406 cvReleaseMemStorage( &fs->strstorage ); 407 408 cvFree( &fs->buffer_start ); 409 cvReleaseMemStorage( &fs->memstorage ); 410 411 memset( fs, 0, sizeof(*fs) ); 412 cvFree( &fs ); 413 } 414 415 __END__; 416 } 417 418 419 #define CV_HASHVAL_SCALE 33 420 421 CV_IMPL CvStringHashNode* 422 cvGetHashedKey( CvFileStorage* fs, const char* str, int len, int create_missing ) 423 { 424 CvStringHashNode* node = 0; 425 CV_FUNCNAME( "cvGetHashedKey" ); 426 427 __BEGIN__; 428 429 unsigned hashval = 0; 430 int i, tab_size; 431 CvStringHash* map = fs->str_hash; 432 433 if( !fs ) 434 EXIT; 435 436 if( len < 0 ) 437 { 438 for( i = 0; str[i] != '\0'; i++ ) 439 hashval = hashval*CV_HASHVAL_SCALE + (unsigned char)str[i]; 440 len = i; 441 } 442 else for( i = 0; i < len; i++ ) 443 hashval = hashval*CV_HASHVAL_SCALE + (unsigned char)str[i]; 444 445 hashval &= INT_MAX; 446 tab_size = map->tab_size; 447 if( (tab_size & (tab_size - 1)) == 0 ) 448 i = (int)(hashval & (tab_size - 1)); 449 else 450 i = (int)(hashval % tab_size); 451 452 for( node = (CvStringHashNode*)(map->table[i]); node != 0; node = node->next ) 453 { 454 if( node->hashval == hashval && 455 node->str.len == len && 456 memcmp( node->str.ptr, str, len ) == 0 ) 457 break; 458 } 459 460 if( !node && create_missing ) 461 { 462 node = (CvStringHashNode*)cvSetNew( (CvSet*)map ); 463 node->hashval = hashval; 464 CV_CALL( node->str = cvMemStorageAllocString( map->storage, str, len )); 465 node->next = (CvStringHashNode*)(map->table[i]); 466 map->table[i] = node; 467 } 468 469 __END__; 470 471 return node; 472 } 473 474 475 CV_IMPL CvFileNode* 476 cvGetFileNode( CvFileStorage* fs, CvFileNode* _map_node, 477 const CvStringHashNode* key, 478 int create_missing ) 479 { 480 CvFileNode* value = 0; 481 482 CV_FUNCNAME( "cvGetFileNode" ); 483 484 __BEGIN__; 485 486 int k = 0, attempts = 1; 487 488 if( !fs ) 489 EXIT; 490 491 CV_CHECK_FILE_STORAGE(fs); 492 493 if( !key ) 494 CV_ERROR( CV_StsNullPtr, "Null key element" ); 495 496 if( _map_node ) 497 { 498 if( !fs->roots ) 499 EXIT; 500 attempts = fs->roots->total; 501 } 502 503 for( k = 0; k < attempts; k++ ) 504 { 505 int i, tab_size; 506 CvFileNode* map_node = _map_node; 507 CvFileMapNode* another; 508 CvFileNodeHash* map; 509 510 if( !map_node ) 511 map_node = (CvFileNode*)cvGetSeqElem( fs->roots, k ); 512 513 if( !CV_NODE_IS_MAP(map_node->tag) ) 514 { 515 if( (!CV_NODE_IS_SEQ(map_node->tag) || map_node->data.seq->total != 0) && 516 CV_NODE_TYPE(map_node->tag) != CV_NODE_NONE ) 517 CV_ERROR( CV_StsError, "The node is neither a map nor an empty collection" ); 518 EXIT; 519 } 520 521 map = map_node->data.map; 522 tab_size = map->tab_size; 523 524 if( (tab_size & (tab_size - 1)) == 0 ) 525 i = (int)(key->hashval & (tab_size - 1)); 526 else 527 i = (int)(key->hashval % tab_size); 528 529 for( another = (CvFileMapNode*)(map->table[i]); another != 0; another = another->next ) 530 if( another->key == key ) 531 { 532 if( !create_missing ) 533 { 534 value = &another->value; 535 EXIT; 536 } 537 CV_PARSE_ERROR( "Duplicated key" ); 538 } 539 540 if( k == attempts - 1 && create_missing ) 541 { 542 CvFileMapNode* node = (CvFileMapNode*)cvSetNew( (CvSet*)map ); 543 node->key = key; 544 545 node->next = (CvFileMapNode*)(map->table[i]); 546 map->table[i] = node; 547 value = (CvFileNode*)node; 548 } 549 } 550 551 __END__; 552 553 return value; 554 } 555 556 557 CV_IMPL CvFileNode* 558 cvGetFileNodeByName( const CvFileStorage* fs, const CvFileNode* _map_node, const char* str ) 559 { 560 CvFileNode* value = 0; 561 CV_FUNCNAME( "cvGetFileNodeByName" ); 562 563 __BEGIN__; 564 565 int i, len, tab_size; 566 unsigned hashval = 0; 567 int k = 0, attempts = 1; 568 569 if( !fs ) 570 EXIT; 571 572 CV_CHECK_FILE_STORAGE(fs); 573 574 if( !str ) 575 CV_ERROR( CV_StsNullPtr, "Null element name" ); 576 577 for( i = 0; str[i] != '\0'; i++ ) 578 hashval = hashval*CV_HASHVAL_SCALE + (unsigned char)str[i]; 579 hashval &= INT_MAX; 580 len = i; 581 582 if( !_map_node ) 583 { 584 if( !fs->roots ) 585 EXIT; 586 attempts = fs->roots->total; 587 } 588 589 for( k = 0; k < attempts; k++ ) 590 { 591 CvFileNodeHash* map; 592 const CvFileNode* map_node = _map_node; 593 CvFileMapNode* another; 594 595 if( !map_node ) 596 map_node = (CvFileNode*)cvGetSeqElem( fs->roots, k ); 597 598 if( !CV_NODE_IS_MAP(map_node->tag) ) 599 { 600 if( (!CV_NODE_IS_SEQ(map_node->tag) || map_node->data.seq->total != 0) && 601 CV_NODE_TYPE(map_node->tag) != CV_NODE_NONE ) 602 CV_ERROR( CV_StsError, "The node is neither a map nor an empty collection" ); 603 EXIT; 604 } 605 606 map = map_node->data.map; 607 tab_size = map->tab_size; 608 609 if( (tab_size & (tab_size - 1)) == 0 ) 610 i = (int)(hashval & (tab_size - 1)); 611 else 612 i = (int)(hashval % tab_size); 613 614 for( another = (CvFileMapNode*)(map->table[i]); another != 0; another = another->next ) 615 { 616 const CvStringHashNode* key = another->key; 617 618 if( key->hashval == hashval && 619 key->str.len == len && 620 memcmp( key->str.ptr, str, len ) == 0 ) 621 { 622 value = &another->value; 623 EXIT; 624 } 625 } 626 } 627 628 __END__; 629 630 return value; 631 } 632 633 634 CV_IMPL CvFileNode* 635 cvGetRootFileNode( const CvFileStorage* fs, int stream_index ) 636 { 637 CvFileNode* value = 0; 638 CV_FUNCNAME( "cvGetRootFileNode" ); 639 640 __BEGIN__; 641 642 CV_CHECK_FILE_STORAGE(fs); 643 644 if( !fs->roots || (unsigned)stream_index >= (unsigned)fs->roots->total ) 645 EXIT; 646 647 value = (CvFileNode*)cvGetSeqElem( fs->roots, stream_index ); 648 649 __END__; 650 651 return value; 652 } 653 654 655 /* returns the sequence element by its index */ 656 /*CV_IMPL CvFileNode* 657 cvGetFileNodeFromSeq( CvFileStorage* fs, 658 CvFileNode* seq_node, int index ) 659 { 660 CvFileNode* value = 0; 661 662 CV_FUNCNAME( "cvGetFileNodeFromSeq" ); 663 664 __BEGIN__; 665 666 CvSeq* seq; 667 668 if( !seq_node ) 669 seq = fs->roots; 670 else if( !CV_NODE_IS_SEQ(seq_node->tag) ) 671 { 672 if( CV_NODE_IS_MAP(seq_node->tag) ) 673 CV_ERROR( CV_StsError, "The node is map. Use cvGetFileNodeFromMap()." ); 674 if( CV_NODE_TYPE(seq_node->tag) == CV_NODE_NONE ) 675 CV_ERROR( CV_StsError, "The node is an empty object (None)." ); 676 if( index != 0 && index != -1 ) 677 CV_ERROR( CV_StsOutOfRange, "" ); 678 value = seq_node; 679 EXIT; 680 } 681 else 682 seq = seq_node->data.seq; 683 684 if( !seq ) 685 CV_ERROR( CV_StsNullPtr, "The file storage is empty" ); 686 687 value = (CvFileNode*)cvGetSeqElem( seq, index, 0 ); 688 689 __END__; 690 691 return value; 692 }*/ 693 694 695 static char* 696 icvDoubleToString( char* buf, double value ) 697 { 698 Cv64suf val; 699 unsigned ieee754_hi; 700 701 val.f = value; 702 ieee754_hi = (unsigned)(val.u >> 32); 703 704 if( (ieee754_hi & 0x7ff00000) != 0x7ff00000 ) 705 { 706 int ivalue = cvRound(value); 707 if( ivalue == value ) 708 sprintf( buf, "%d.", ivalue ); 709 else 710 { 711 static const char* fmt[] = {"%.16e", "%.16f"}; 712 double avalue = fabs(value); 713 char* ptr = buf; 714 sprintf( buf, fmt[0.01 <= avalue && avalue < 1000], value ); 715 if( *ptr == '+' || *ptr == '-' ) 716 ptr++; 717 for( ; isdigit(*ptr); ptr++ ) 718 ; 719 if( *ptr == ',' ) 720 *ptr = '.'; 721 } 722 } 723 else 724 { 725 unsigned ieee754_lo = (unsigned)val.u; 726 if( (ieee754_hi & 0x7fffffff) + (ieee754_lo != 0) > 0x7ff00000 ) 727 strcpy( buf, ".Nan" ); 728 else 729 strcpy( buf, (int)ieee754_hi < 0 ? "-.Inf" : ".Inf" ); 730 } 731 732 return buf; 733 } 734 735 736 static char* 737 icvFloatToString( char* buf, float value ) 738 { 739 Cv32suf val; 740 unsigned ieee754; 741 val.f = value; 742 ieee754 = val.u; 743 744 if( (ieee754 & 0x7f800000) != 0x7f800000 ) 745 { 746 int ivalue = cvRound(value); 747 if( ivalue == value ) 748 sprintf( buf, "%d.", ivalue ); 749 else 750 { 751 static const char* fmt[] = {"%.8e", "%.8f"}; 752 double avalue = fabs((double)value); 753 char* ptr = buf; 754 sprintf( buf, fmt[0.01 <= avalue && avalue < 1000], value ); 755 if( *ptr == '+' || *ptr == '-' ) 756 ptr++; 757 for( ; isdigit(*ptr); ptr++ ) 758 ; 759 if( *ptr == ',' ) 760 *ptr = '.'; 761 } 762 } 763 else 764 { 765 if( (ieee754 & 0x7fffffff) != 0x7f800000 ) 766 strcpy( buf, ".Nan" ); 767 else 768 strcpy( buf, (int)ieee754 < 0 ? "-.Inf" : ".Inf" ); 769 } 770 771 return buf; 772 } 773 774 775 static void 776 icvProcessSpecialDouble( CvFileStorage* fs, char* buf, double* value, char** endptr ) 777 { 778 CV_FUNCNAME( "icvProcessSpecialDouble" ); 779 780 __BEGIN__; 781 782 char c = buf[0]; 783 int inf_hi = 0x7ff00000; 784 785 if( c == '-' || c == '+' ) 786 { 787 inf_hi = c == '-' ? 0xfff00000 : 0x7ff00000; 788 c = *++buf; 789 } 790 791 if( c != '.' ) 792 CV_PARSE_ERROR( "Bad format of floating-point constant" ); 793 794 if( toupper(buf[1]) == 'I' && toupper(buf[2]) == 'N' && toupper(buf[3]) == 'F' ) 795 *(uint64*)value = ((uint64)inf_hi << 32); 796 else if( toupper(buf[1]) == 'N' && toupper(buf[2]) == 'A' && toupper(buf[3]) == 'N' ) 797 *(uint64*)value = (uint64)-1; 798 else 799 CV_PARSE_ERROR( "Bad format of floating-point constant" ); 800 801 *endptr = buf + 4; 802 803 __END__; 804 } 805 806 807 static double icv_strtod( CvFileStorage* fs, char* ptr, char** endptr ) 808 { 809 double fval = strtod( ptr, endptr ); 810 if( **endptr == '.' ) 811 { 812 char* dot_pos = *endptr; 813 *dot_pos = ','; 814 double fval2 = strtod( ptr, endptr ); 815 *dot_pos = '.'; 816 if( *endptr > dot_pos ) 817 fval = fval2; 818 else 819 *endptr = dot_pos; 820 } 821 822 if( *endptr == ptr || isalpha(**endptr) ) 823 icvProcessSpecialDouble( fs, ptr, &fval, endptr ); 824 825 return fval; 826 } 827 828 829 /****************************************************************************************\ 830 * YAML Parser * 831 \****************************************************************************************/ 832 833 static char* 834 icvYMLSkipSpaces( CvFileStorage* fs, char* ptr, int min_indent, int max_comment_indent ) 835 { 836 CV_FUNCNAME( "icvYMLSkipSpaces" ); 837 838 __BEGIN__; 839 840 for(;;) 841 { 842 while( *ptr == ' ' ) 843 ptr++; 844 if( *ptr == '#' ) 845 { 846 if( ptr - fs->buffer_start > max_comment_indent ) 847 EXIT; 848 *ptr = '\0'; 849 } 850 else if( cv_isprint(*ptr) ) 851 { 852 if( ptr - fs->buffer_start < min_indent ) 853 CV_PARSE_ERROR( "Incorrect indentation" ); 854 break; 855 } 856 else if( *ptr == '\0' || *ptr == '\n' || *ptr == '\r' ) 857 { 858 int max_size = (int)(fs->buffer_end - fs->buffer_start); 859 ptr = fgets( fs->buffer_start, max_size, fs->file ); 860 if( !ptr ) 861 { 862 // emulate end of stream 863 ptr = fs->buffer_start; 864 ptr[0] = ptr[1] = ptr[2] = '.'; 865 ptr[3] = '\0'; 866 fs->dummy_eof = 1; 867 break; 868 } 869 else 870 { 871 int l = (int)strlen(ptr); 872 if( ptr[l-1] != '\n' && ptr[l-1] != '\r' && !feof(fs->file) ) 873 CV_PARSE_ERROR( "Too long string or a last string w/o newline" ); 874 } 875 876 fs->lineno++; 877 } 878 else 879 CV_PARSE_ERROR( *ptr == '\t' ? "Tabs are prohibited in YAML!" : "Invalid character" ); 880 } 881 882 __END__; 883 884 return ptr; 885 } 886 887 888 static char* 889 icvYMLParseKey( CvFileStorage* fs, char* ptr, 890 CvFileNode* map_node, CvFileNode** value_placeholder ) 891 { 892 CV_FUNCNAME( "icvYMLParseKey" ); 893 894 __BEGIN__; 895 896 char c; 897 char *endptr = ptr - 1, *saveptr; 898 CvStringHashNode* str_hash_node; 899 900 if( *ptr == '-' ) 901 CV_PARSE_ERROR( "Key may not start with \'-\'" ); 902 903 do c = *++endptr; 904 while( cv_isprint(c) && c != ':' ); 905 906 if( c != ':' ) 907 CV_PARSE_ERROR( "Missing \':\'" ); 908 909 saveptr = endptr + 1; 910 do c = *--endptr; 911 while( c == ' ' ); 912 913 ++endptr; 914 if( endptr == ptr ) 915 CV_PARSE_ERROR( "An empty key" ); 916 917 CV_CALL( str_hash_node = cvGetHashedKey( fs, ptr, (int)(endptr - ptr), 1 )); 918 CV_CALL( *value_placeholder = cvGetFileNode( fs, map_node, str_hash_node, 1 )); 919 ptr = saveptr; 920 921 __END__; 922 923 return ptr; 924 } 925 926 927 static char* 928 icvYMLParseValue( CvFileStorage* fs, char* ptr, CvFileNode* node, 929 int parent_flags, int min_indent ) 930 { 931 CV_FUNCNAME( "icvYMLParseValue" ); 932 933 __BEGIN__; 934 935 char buf[CV_FS_MAX_LEN + 1024]; 936 char* endptr = 0; 937 char c = ptr[0], d = ptr[1]; 938 int is_parent_flow = CV_NODE_IS_FLOW(parent_flags); 939 int value_type = CV_NODE_NONE; 940 int len; 941 942 memset( node, 0, sizeof(*node) ); 943 944 if( c == '!' ) // handle explicit type specification 945 { 946 if( d == '!' || d == '^' ) 947 { 948 ptr++; 949 value_type |= CV_NODE_USER; 950 } 951 952 endptr = ptr++; 953 do d = *++endptr; 954 while( cv_isprint(d) && d != ' ' ); 955 len = (int)(endptr - ptr); 956 if( len == 0 ) 957 CV_PARSE_ERROR( "Empty type name" ); 958 d = *endptr; 959 *endptr = '\0'; 960 961 if( len == 3 && !CV_NODE_IS_USER(value_type) ) 962 { 963 if( memcmp( ptr, "str", 3 ) == 0 ) 964 value_type = CV_NODE_STRING; 965 else if( memcmp( ptr, "int", 3 ) == 0 ) 966 value_type = CV_NODE_INT; 967 else if( memcmp( ptr, "seq", 3 ) == 0 ) 968 value_type = CV_NODE_SEQ; 969 else if( memcmp( ptr, "map", 3 ) == 0 ) 970 value_type = CV_NODE_MAP; 971 } 972 else if( len == 5 && !CV_NODE_IS_USER(value_type) ) 973 { 974 if( memcmp( ptr, "float", 5 ) == 0 ) 975 value_type = CV_NODE_REAL; 976 } 977 else if( CV_NODE_IS_USER(value_type) ) 978 { 979 CV_CALL( node->info = cvFindType( ptr )); 980 if( !node->info ) 981 node->tag &= ~CV_NODE_USER; 982 } 983 984 *endptr = d; 985 CV_CALL( ptr = icvYMLSkipSpaces( fs, endptr, min_indent, INT_MAX )); 986 987 c = *ptr; 988 989 if( !CV_NODE_IS_USER(value_type) ) 990 { 991 if( value_type == CV_NODE_STRING && c != '\'' && c != '\"' ) 992 goto force_string; 993 if( value_type == CV_NODE_INT ) 994 goto force_int; 995 if( value_type == CV_NODE_REAL ) 996 goto force_real; 997 } 998 } 999 1000 if( isdigit(c) || 1001 ((c == '-' || c == '+') && (isdigit(d) || d == '.')) || 1002 (c == '.' && isalnum(d))) // a number 1003 { 1004 double fval; 1005 int ival; 1006 endptr = ptr + (c == '-' || c == '+'); 1007 while( isdigit(*endptr) ) 1008 endptr++; 1009 if( *endptr == '.' || *endptr == 'e' ) 1010 { 1011 force_real: 1012 fval = icv_strtod( fs, ptr, &endptr ); 1013 /*if( endptr == ptr || isalpha(*endptr) ) 1014 CV_CALL( icvProcessSpecialDouble( fs, endptr, &fval, &endptr ));*/ 1015 1016 node->tag = CV_NODE_REAL; 1017 node->data.f = fval; 1018 } 1019 else 1020 { 1021 force_int: 1022 ival = (int)strtol( ptr, &endptr, 0 ); 1023 node->tag = CV_NODE_INT; 1024 node->data.i = ival; 1025 } 1026 1027 if( !endptr || endptr == ptr ) 1028 CV_PARSE_ERROR( "Invalid numeric value (inconsistent explicit type specification?)" ); 1029 1030 ptr = endptr; 1031 } 1032 else if( c == '\'' || c == '\"' ) // an explicit string 1033 { 1034 node->tag = CV_NODE_STRING; 1035 if( c == '\'' ) 1036 for( len = 0; len < CV_FS_MAX_LEN; ) 1037 { 1038 c = *++ptr; 1039 if( isalnum(c) || (c != '\'' && cv_isprint(c))) 1040 buf[len++] = c; 1041 else if( c == '\'' ) 1042 { 1043 c = *++ptr; 1044 if( c != '\'' ) 1045 break; 1046 buf[len++] = c; 1047 } 1048 else 1049 CV_PARSE_ERROR( "Invalid character" ); 1050 } 1051 else 1052 for( len = 0; len < CV_FS_MAX_LEN; ) 1053 { 1054 c = *++ptr; 1055 if( isalnum(c) || (c != '\\' && c != '\"' && cv_isprint(c))) 1056 buf[len++] = c; 1057 else if( c == '\"' ) 1058 { 1059 ++ptr; 1060 break; 1061 } 1062 else if( c == '\\' ) 1063 { 1064 d = *++ptr; 1065 if( d == '\'' ) 1066 buf[len++] = d; 1067 else if( d == '\"' || d == '\\' || d == '\'' ) 1068 buf[len++] = d; 1069 else if( d == 'n' ) 1070 buf[len++] = '\n'; 1071 else if( d == 'r' ) 1072 buf[len++] = '\r'; 1073 else if( d == 't' ) 1074 buf[len++] = '\t'; 1075 else if( d == 'x' || (isdigit(d) && d < '8') ) 1076 { 1077 int val, is_hex = d == 'x'; 1078 c = ptr[3]; 1079 ptr[3] = '\0'; 1080 val = strtol( ptr + is_hex, &endptr, is_hex ? 8 : 16 ); 1081 ptr[3] = c; 1082 if( endptr == ptr + is_hex ) 1083 buf[len++] = 'x'; 1084 else 1085 { 1086 buf[len++] = (char)val; 1087 ptr = endptr; 1088 } 1089 } 1090 } 1091 else 1092 CV_PARSE_ERROR( "Invalid character" ); 1093 } 1094 1095 if( len >= CV_FS_MAX_LEN ) 1096 CV_PARSE_ERROR( "Too long string literal" ); 1097 1098 CV_CALL( node->data.str = cvMemStorageAllocString( fs->memstorage, buf, len )); 1099 } 1100 else if( c == '[' || c == '{' ) // collection as a flow 1101 { 1102 int new_min_indent = min_indent + !is_parent_flow; 1103 int struct_flags = CV_NODE_FLOW + (c == '{' ? CV_NODE_MAP : CV_NODE_SEQ); 1104 int is_simple = 1; 1105 1106 CV_CALL( icvFSCreateCollection( fs, CV_NODE_TYPE(struct_flags) + 1107 (node->info ? CV_NODE_USER : 0), node )); 1108 1109 d = c == '[' ? ']' : '}'; 1110 1111 for( ++ptr ;;) 1112 { 1113 CvFileNode* elem = 0; 1114 1115 CV_CALL( ptr = icvYMLSkipSpaces( fs, ptr, new_min_indent, INT_MAX )); 1116 if( *ptr == '}' || *ptr == ']' ) 1117 { 1118 if( *ptr != d ) 1119 CV_PARSE_ERROR( "The wrong closing bracket" ); 1120 ptr++; 1121 break; 1122 } 1123 1124 if( node->data.seq->total != 0 ) 1125 { 1126 if( *ptr != ',' ) 1127 CV_PARSE_ERROR( "Missing , between the elements" ); 1128 CV_CALL( ptr = icvYMLSkipSpaces( fs, ptr + 1, new_min_indent, INT_MAX )); 1129 } 1130 1131 if( CV_NODE_IS_MAP(struct_flags) ) 1132 { 1133 CV_CALL( ptr = icvYMLParseKey( fs, ptr, node, &elem )); 1134 CV_CALL( ptr = icvYMLSkipSpaces( fs, ptr, new_min_indent, INT_MAX )); 1135 } 1136 else 1137 { 1138 if( *ptr == ']' ) 1139 break; 1140 elem = (CvFileNode*)cvSeqPush( node->data.seq, 0 ); 1141 } 1142 CV_CALL( ptr = icvYMLParseValue( fs, ptr, elem, struct_flags, new_min_indent )); 1143 if( CV_NODE_IS_MAP(struct_flags) ) 1144 elem->tag |= CV_NODE_NAMED; 1145 is_simple &= !CV_NODE_IS_COLLECTION(elem->tag); 1146 } 1147 node->data.seq->flags |= is_simple ? CV_NODE_SEQ_SIMPLE : 0; 1148 } 1149 else 1150 { 1151 int indent, struct_flags, is_simple; 1152 1153 if( is_parent_flow || c != '-' ) 1154 { 1155 // implicit (one-line) string or nested block-style collection 1156 if( !is_parent_flow ) 1157 { 1158 if( c == '?' ) 1159 CV_PARSE_ERROR( "Complex keys are not supported" ); 1160 if( c == '|' || c == '>' ) 1161 CV_PARSE_ERROR( "Multi-line text literals are not supported" ); 1162 } 1163 1164 force_string: 1165 endptr = ptr - 1; 1166 1167 do c = *++endptr; 1168 while( cv_isprint(c) && 1169 (!is_parent_flow || (c != ',' && c != '}' && c != ']')) && 1170 (is_parent_flow || c != ':' || value_type == CV_NODE_STRING)); 1171 1172 if( endptr == ptr ) 1173 CV_PARSE_ERROR( "Invalid character" ); 1174 1175 if( is_parent_flow || c != ':' ) 1176 { 1177 char* str_end = endptr; 1178 node->tag = CV_NODE_STRING; 1179 // strip spaces in the end of string 1180 do c = *--str_end; 1181 while( str_end > ptr && c == ' ' ); 1182 str_end++; 1183 CV_CALL( node->data.str = cvMemStorageAllocString( fs->memstorage, ptr, (int)(str_end - ptr) )); 1184 ptr = endptr; 1185 EXIT; 1186 } 1187 struct_flags = CV_NODE_MAP; 1188 } 1189 else 1190 struct_flags = CV_NODE_SEQ; 1191 1192 CV_CALL( icvFSCreateCollection( fs, struct_flags + 1193 (node->info ? CV_NODE_USER : 0), node )); 1194 1195 indent = (int)(ptr - fs->buffer_start); 1196 is_simple = 1; 1197 1198 for(;;) 1199 { 1200 CvFileNode* elem = 0; 1201 1202 if( CV_NODE_IS_MAP(struct_flags) ) 1203 { 1204 CV_CALL( ptr = icvYMLParseKey( fs, ptr, node, &elem )); 1205 } 1206 else 1207 { 1208 c = *ptr++; 1209 if( c != '-' ) 1210 CV_PARSE_ERROR( "Block sequence elements must be preceded with \'-\'" ); 1211 1212 CV_CALL( elem = (CvFileNode*)cvSeqPush( node->data.seq, 0 )); 1213 } 1214 1215 CV_CALL( ptr = icvYMLSkipSpaces( fs, ptr, indent + 1, INT_MAX )); 1216 CV_CALL( ptr = icvYMLParseValue( fs, ptr, elem, struct_flags, indent + 1 )); 1217 if( CV_NODE_IS_MAP(struct_flags) ) 1218 elem->tag |= CV_NODE_NAMED; 1219 is_simple &= !CV_NODE_IS_COLLECTION(elem->tag); 1220 1221 CV_CALL( ptr = icvYMLSkipSpaces( fs, ptr, 0, INT_MAX )); 1222 if( ptr - fs->buffer_start != indent ) 1223 { 1224 if( ptr - fs->buffer_start < indent ) 1225 break; 1226 else 1227 CV_PARSE_ERROR( "Incorrect indentation" ); 1228 } 1229 if( memcmp( ptr, "...", 3 ) == 0 ) 1230 break; 1231 } 1232 1233 node->data.seq->flags |= is_simple ? CV_NODE_SEQ_SIMPLE : 0; 1234 } 1235 1236 __END__; 1237 1238 return ptr; 1239 } 1240 1241 1242 static void 1243 icvYMLParse( CvFileStorage* fs ) 1244 { 1245 CV_FUNCNAME( "icvYMLParse" ); 1246 1247 __BEGIN__; 1248 1249 char* ptr = fs->buffer_start; 1250 int is_first = 1; 1251 1252 for(;;) 1253 { 1254 // 0. skip leading comments and directives and ... 1255 // 1. reach the first item 1256 for(;;) 1257 { 1258 CV_CALL( ptr = icvYMLSkipSpaces( fs, ptr, 0, INT_MAX )); 1259 if( !ptr ) 1260 EXIT; 1261 1262 if( *ptr == '%' ) 1263 { 1264 if( memcmp( ptr, "%YAML:", 6 ) == 0 && 1265 memcmp( ptr, "%YAML:1.", 8 ) != 0 ) 1266 CV_PARSE_ERROR( "Unsupported YAML version (it must be 1.x)" ); 1267 *ptr = '\0'; 1268 } 1269 else if( *ptr == '-' ) 1270 { 1271 if( memcmp(ptr, "---", 3) == 0 ) 1272 { 1273 ptr += 3; 1274 break; 1275 } 1276 else if( is_first ) 1277 break; 1278 } 1279 else if( isalnum(*ptr) || *ptr=='_') 1280 { 1281 if( !is_first ) 1282 CV_PARSE_ERROR( "The YAML streams must start with '---', except the first one" ); 1283 break; 1284 } 1285 else 1286 CV_PARSE_ERROR( "Invalid or unsupported syntax" ); 1287 } 1288 1289 CV_CALL( ptr = icvYMLSkipSpaces( fs, ptr, 0, INT_MAX )); 1290 if( memcmp( ptr, "...", 3 ) != 0 ) 1291 { 1292 // 2. parse the collection 1293 CvFileNode* root_node = (CvFileNode*)cvSeqPush( fs->roots, 0 ); 1294 1295 CV_CALL( ptr = icvYMLParseValue( fs, ptr, root_node, CV_NODE_NONE, 0 )); 1296 if( !CV_NODE_IS_COLLECTION(root_node->tag) ) 1297 CV_PARSE_ERROR( "Only collections as YAML streams are supported by this parser" ); 1298 1299 // 3. parse until the end of file or next collection 1300 CV_CALL( ptr = icvYMLSkipSpaces( fs, ptr, 0, INT_MAX )); 1301 if( !ptr ) 1302 EXIT; 1303 } 1304 1305 if( fs->dummy_eof ) 1306 break; 1307 ptr += 3; 1308 is_first = 0; 1309 } 1310 1311 __END__; 1312 } 1313 1314 1315 /****************************************************************************************\ 1316 * YAML Emitter * 1317 \****************************************************************************************/ 1318 1319 static void 1320 icvYMLWrite( CvFileStorage* fs, const char* key, const char* data, const char* cvFuncName ) 1321 { 1322 //CV_FUNCNAME( "icvYMLWrite" ); 1323 1324 __BEGIN__; 1325 1326 int i, keylen = 0; 1327 int datalen = 0; 1328 int struct_flags; 1329 char* ptr; 1330 1331 struct_flags = fs->struct_flags; 1332 1333 if( key && key[0] == '\0' ) 1334 key = 0; 1335 1336 if( CV_NODE_IS_COLLECTION(struct_flags) ) 1337 { 1338 if( (CV_NODE_IS_MAP(struct_flags) ^ (key != 0)) ) 1339 CV_ERROR( CV_StsBadArg, "An attempt to add element without a key to a map, " 1340 "or add element with key to sequence" ); 1341 } 1342 else 1343 { 1344 fs->is_first = 0; 1345 struct_flags = CV_NODE_EMPTY | (key ? CV_NODE_MAP : CV_NODE_SEQ); 1346 } 1347 1348 if( key ) 1349 { 1350 keylen = (int)strlen(key); 1351 if( keylen == 0 ) 1352 CV_ERROR( CV_StsBadArg, "The key is an empty" ); 1353 1354 if( keylen > CV_FS_MAX_LEN ) 1355 CV_ERROR( CV_StsBadArg, "The key is too long" ); 1356 } 1357 1358 if( data ) 1359 datalen = (int)strlen(data); 1360 1361 if( CV_NODE_IS_FLOW(struct_flags) ) 1362 { 1363 int new_offset; 1364 ptr = fs->buffer; 1365 if( !CV_NODE_IS_EMPTY(struct_flags) ) 1366 *ptr++ = ','; 1367 new_offset = (int)(ptr - fs->buffer_start) + keylen + datalen; 1368 if( new_offset > fs->wrap_margin && new_offset - fs->struct_indent > 10 ) 1369 { 1370 fs->buffer = ptr; 1371 ptr = icvFSFlush(fs); 1372 } 1373 else 1374 *ptr++ = ' '; 1375 } 1376 else 1377 { 1378 ptr = icvFSFlush(fs); 1379 if( !CV_NODE_IS_MAP(struct_flags) ) 1380 { 1381 *ptr++ = '-'; 1382 if( data ) 1383 *ptr++ = ' '; 1384 } 1385 } 1386 1387 if( key ) 1388 { 1389 if( !isalpha(key[0]) && key[0] != '_' ) 1390 CV_ERROR( CV_StsBadArg, "Key must start with a letter or _" ); 1391 1392 ptr = icvFSResizeWriteBuffer( fs, ptr, keylen ); 1393 1394 for( i = 0; i < keylen; i++ ) 1395 { 1396 int c = key[i]; 1397 1398 ptr[i] = (char)c; 1399 if( !isalnum(c) && c != '-' && c != '_' && c != ' ' ) 1400 CV_ERROR( CV_StsBadArg, "Invalid character occurs in the key" ); 1401 } 1402 1403 ptr += keylen; 1404 *ptr++ = ':'; 1405 if( !CV_NODE_IS_FLOW(struct_flags) && data ) 1406 *ptr++ = ' '; 1407 } 1408 1409 if( data ) 1410 { 1411 ptr = icvFSResizeWriteBuffer( fs, ptr, datalen ); 1412 memcpy( ptr, data, datalen ); 1413 ptr += datalen; 1414 } 1415 1416 fs->buffer = ptr; 1417 fs->struct_flags = struct_flags & ~CV_NODE_EMPTY; 1418 1419 __END__; 1420 } 1421 1422 1423 static void 1424 icvYMLStartWriteStruct( CvFileStorage* fs, const char* key, int struct_flags, 1425 const char* type_name CV_DEFAULT(0)) 1426 { 1427 CV_FUNCNAME( "icvYMLStartWriteStruct" ); 1428 1429 __BEGIN__; 1430 1431 int parent_flags; 1432 char buf[CV_FS_MAX_LEN + 1024]; 1433 const char* data = 0; 1434 1435 struct_flags = (struct_flags & (CV_NODE_TYPE_MASK|CV_NODE_FLOW)) | CV_NODE_EMPTY; 1436 if( !CV_NODE_IS_COLLECTION(struct_flags)) 1437 CV_ERROR( CV_StsBadArg, 1438 "Some collection type - CV_NODE_SEQ or CV_NODE_MAP, must be specified" ); 1439 1440 if( CV_NODE_IS_FLOW(struct_flags) ) 1441 { 1442 char c = CV_NODE_IS_MAP(struct_flags) ? '{' : '['; 1443 struct_flags |= CV_NODE_FLOW; 1444 1445 if( type_name ) 1446 sprintf( buf, "!!%s %c", type_name, c ); 1447 else 1448 { 1449 buf[0] = c; 1450 buf[1] = '\0'; 1451 } 1452 data = buf; 1453 } 1454 else if( type_name ) 1455 { 1456 sprintf( buf, "!!%s", type_name ); 1457 data = buf; 1458 } 1459 1460 CV_CALL( icvYMLWrite( fs, key, data, cvFuncName )); 1461 1462 parent_flags = fs->struct_flags; 1463 cvSeqPush( fs->write_stack, &parent_flags ); 1464 fs->struct_flags = struct_flags; 1465 1466 if( !CV_NODE_IS_FLOW(parent_flags) ) 1467 fs->struct_indent += CV_YML_INDENT + CV_NODE_IS_FLOW(struct_flags); 1468 1469 __END__; 1470 } 1471 1472 1473 static void 1474 icvYMLEndWriteStruct( CvFileStorage* fs ) 1475 { 1476 CV_FUNCNAME( "icvYMLEndWriteStruct" ); 1477 1478 __BEGIN__; 1479 1480 int parent_flags = 0, struct_flags; 1481 char* ptr; 1482 1483 struct_flags = fs->struct_flags; 1484 if( fs->write_stack->total == 0 ) 1485 CV_ERROR( CV_StsError, "EndWriteStruct w/o matching StartWriteStruct" ); 1486 1487 cvSeqPop( fs->write_stack, &parent_flags ); 1488 1489 if( CV_NODE_IS_FLOW(struct_flags) ) 1490 { 1491 ptr = fs->buffer; 1492 if( ptr > fs->buffer_start + fs->struct_indent && !CV_NODE_IS_EMPTY(struct_flags) ) 1493 *ptr++ = ' '; 1494 *ptr++ = CV_NODE_IS_MAP(struct_flags) ? '}' : ']'; 1495 fs->buffer = ptr; 1496 } 1497 else if( CV_NODE_IS_EMPTY(struct_flags) ) 1498 { 1499 ptr = icvFSFlush(fs); 1500 memcpy( ptr, CV_NODE_IS_MAP(struct_flags) ? "{}" : "[]", 2 ); 1501 fs->buffer = ptr + 2; 1502 } 1503 1504 if( !CV_NODE_IS_FLOW(parent_flags) ) 1505 fs->struct_indent -= CV_YML_INDENT + CV_NODE_IS_FLOW(struct_flags); 1506 assert( fs->struct_indent >= 0 ); 1507 1508 fs->struct_flags = parent_flags; 1509 1510 __END__; 1511 } 1512 1513 1514 static void 1515 icvYMLStartNextStream( CvFileStorage* fs ) 1516 { 1517 //CV_FUNCNAME( "icvYMLStartNextStream" ); 1518 1519 __BEGIN__; 1520 1521 if( !fs->is_first ) 1522 { 1523 while( fs->write_stack->total > 0 ) 1524 icvYMLEndWriteStruct(fs); 1525 1526 fs->struct_indent = 0; 1527 icvFSFlush(fs); 1528 fputs( "...\n", fs->file ); 1529 fputs( "---\n", fs->file ); 1530 fs->buffer = fs->buffer_start; 1531 } 1532 1533 __END__; 1534 } 1535 1536 1537 static void 1538 icvYMLWriteInt( CvFileStorage* fs, const char* key, int value ) 1539 { 1540 CV_FUNCNAME( "icvYMLWriteInt" ); 1541 1542 __BEGIN__; 1543 1544 char buf[128]; 1545 CV_CALL( icvYMLWrite( fs, key, icv_itoa( value, buf, 10 ), cvFuncName )); 1546 1547 __END__; 1548 } 1549 1550 1551 static void 1552 icvYMLWriteReal( CvFileStorage* fs, const char* key, double value ) 1553 { 1554 CV_FUNCNAME( "icvYMLWriteReal" ); 1555 1556 __BEGIN__; 1557 1558 char buf[128]; 1559 CV_CALL( icvYMLWrite( fs, key, icvDoubleToString( buf, value ), cvFuncName )); 1560 1561 __END__; 1562 } 1563 1564 1565 static void 1566 icvYMLWriteString( CvFileStorage* fs, const char* key, 1567 const char* str, int quote CV_DEFAULT(0)) 1568 { 1569 CV_FUNCNAME( "icvYMLWriteString" ); 1570 1571 __BEGIN__; 1572 1573 char buf[CV_FS_MAX_LEN*4+16]; 1574 char* data = (char*)str; 1575 int i, len; 1576 1577 if( !str ) 1578 CV_ERROR( CV_StsNullPtr, "Null string pointer" ); 1579 1580 len = (int)strlen(str); 1581 if( len > CV_FS_MAX_LEN ) 1582 CV_ERROR( CV_StsBadArg, "The written string is too long" ); 1583 1584 if( quote || len == 0 || str[0] != str[len-1] || (str[0] != '\"' && str[0] != '\'') ) 1585 { 1586 int need_quote = quote || len == 0; 1587 data = buf; 1588 *data++ = '\"'; 1589 for( i = 0; i < len; i++ ) 1590 { 1591 char c = str[i]; 1592 1593 if( !need_quote && !isalnum(c) && c != '_' && c != ' ' && c != '-' && 1594 c != '(' && c != ')' && c != '/' && c != '+' && c != ';' ) 1595 need_quote = 1; 1596 1597 if( !isalnum(c) && (!cv_isprint(c) || c == '\\' || c == '\'' || c == '\"') ) 1598 { 1599 *data++ = '\\'; 1600 if( cv_isprint(c) ) 1601 *data++ = c; 1602 else if( c == '\n' ) 1603 *data++ = 'n'; 1604 else if( c == '\r' ) 1605 *data++ = 'r'; 1606 else if( c == '\t' ) 1607 *data++ = 't'; 1608 else 1609 { 1610 sprintf( data, "x%02x", c ); 1611 data += 3; 1612 } 1613 } 1614 else 1615 *data++ = c; 1616 } 1617 if( !need_quote && (isdigit(str[0]) || 1618 str[0] == '+' || str[0] == '-' || str[0] == '.' )) 1619 need_quote = 1; 1620 1621 if( need_quote ) 1622 *data++ = '\"'; 1623 *data++ = '\0'; 1624 data = buf + !need_quote; 1625 } 1626 1627 CV_CALL( icvYMLWrite( fs, key, data, cvFuncName )); 1628 1629 __END__; 1630 } 1631 1632 1633 static void 1634 icvYMLWriteComment( CvFileStorage* fs, const char* comment, int eol_comment ) 1635 { 1636 CV_FUNCNAME( "icvYMLWriteComment" ); 1637 1638 __BEGIN__; 1639 1640 int len; //, indent; 1641 int multiline; 1642 const char* eol; 1643 char* ptr; 1644 1645 if( !comment ) 1646 CV_ERROR( CV_StsNullPtr, "Null comment" ); 1647 1648 len = (int)strlen(comment); 1649 eol = strchr(comment, '\n'); 1650 multiline = eol != 0; 1651 ptr = fs->buffer; 1652 1653 if( !eol_comment || multiline || 1654 fs->buffer_end - ptr < len || ptr == fs->buffer_start ) 1655 ptr = icvFSFlush( fs ); 1656 else 1657 *ptr++ = ' '; 1658 1659 while( comment ) 1660 { 1661 *ptr++ = '#'; 1662 *ptr++ = ' '; 1663 if( eol ) 1664 { 1665 ptr = icvFSResizeWriteBuffer( fs, ptr, (int)(eol - comment) + 1 ); 1666 memcpy( ptr, comment, eol - comment + 1 ); 1667 fs->buffer = ptr + (eol - comment); 1668 comment = eol + 1; 1669 eol = strchr( comment, '\n' ); 1670 } 1671 else 1672 { 1673 len = (int)strlen(comment); 1674 ptr = icvFSResizeWriteBuffer( fs, ptr, len ); 1675 memcpy( ptr, comment, len ); 1676 fs->buffer = ptr + len; 1677 comment = 0; 1678 } 1679 ptr = icvFSFlush( fs ); 1680 } 1681 1682 __END__; 1683 } 1684 1685 1686 /****************************************************************************************\ 1687 * XML Parser * 1688 \****************************************************************************************/ 1689 1690 #define CV_XML_INSIDE_COMMENT 1 1691 #define CV_XML_INSIDE_TAG 2 1692 #define CV_XML_INSIDE_DIRECTIVE 3 1693 1694 static char* 1695 icvXMLSkipSpaces( CvFileStorage* fs, char* ptr, int mode ) 1696 { 1697 CV_FUNCNAME( "icvXMLSkipSpaces" ); 1698 1699 __BEGIN__; 1700 1701 int level = 0; 1702 1703 for(;;) 1704 { 1705 char c; 1706 ptr--; 1707 1708 if( mode == CV_XML_INSIDE_COMMENT ) 1709 { 1710 do c = *++ptr; 1711 while( cv_isprint_or_tab(c) && (c != '-' || ptr[1] != '-' || ptr[2] != '>') ); 1712 1713 if( c == '-' ) 1714 { 1715 assert( ptr[1] == '-' && ptr[2] == '>' ); 1716 mode = 0; 1717 ptr += 3; 1718 } 1719 } 1720 else if( mode == CV_XML_INSIDE_DIRECTIVE ) 1721 { 1722 // !!!NOTE!!! This is not quite correct, but should work in most cases 1723 do 1724 { 1725 c = *++ptr; 1726 level += c == '<'; 1727 level -= c == '>'; 1728 if( level < 0 ) 1729 EXIT; 1730 } while( cv_isprint_or_tab(c) ); 1731 } 1732 else 1733 { 1734 do c = *++ptr; 1735 while( c == ' ' || c == '\t' ); 1736 1737 if( c == '<' && ptr[1] == '!' && ptr[2] == '-' && ptr[3] == '-' ) 1738 { 1739 if( mode != 0 ) 1740 CV_PARSE_ERROR( "Comments are not allowed here" ); 1741 mode = CV_XML_INSIDE_COMMENT; 1742 ptr += 4; 1743 } 1744 else if( cv_isprint(c) ) 1745 break; 1746 } 1747 1748 if( !cv_isprint(*ptr) ) 1749 { 1750 int max_size = (int)(fs->buffer_end - fs->buffer_start); 1751 if( *ptr != '\0' && *ptr != '\n' && *ptr != '\r' ) 1752 CV_PARSE_ERROR( "Invalid character in the stream" ); 1753 ptr = fgets( fs->buffer_start, max_size, fs->file ); 1754 if( !ptr ) 1755 { 1756 ptr = fs->buffer_start; 1757 *ptr = '\0'; 1758 fs->dummy_eof = 1; 1759 break; 1760 } 1761 else 1762 { 1763 int l = (int)strlen(ptr); 1764 if( ptr[l-1] != '\n' && ptr[l-1] != '\r' && !feof(fs->file) ) 1765 CV_PARSE_ERROR( "Too long string or a last string w/o newline" ); 1766 } 1767 fs->lineno++; 1768 } 1769 } 1770 1771 __END__; 1772 1773 return ptr; 1774 } 1775 1776 1777 static char* 1778 icvXMLParseTag( CvFileStorage* fs, char* ptr, CvStringHashNode** _tag, 1779 CvAttrList** _list, int* _tag_type ); 1780 1781 static char* 1782 icvXMLParseValue( CvFileStorage* fs, char* ptr, CvFileNode* node, 1783 int value_type CV_DEFAULT(CV_NODE_NONE)) 1784 { 1785 CV_FUNCNAME( "icvXMLParseValue" ); 1786 1787 __BEGIN__; 1788 1789 CvFileNode *elem = node; 1790 int have_space = 1, is_simple = 1; 1791 int is_user_type = CV_NODE_IS_USER(value_type); 1792 memset( node, 0, sizeof(*node) ); 1793 1794 value_type = CV_NODE_TYPE(value_type); 1795 1796 for(;;) 1797 { 1798 char c = *ptr, d; 1799 char* endptr; 1800 1801 if( isspace(c) || c == '\0' || (c == '<' && ptr[1] == '!' && ptr[2] == '-') ) 1802 { 1803 CV_CALL( ptr = icvXMLSkipSpaces( fs, ptr, 0 )); 1804 have_space = 1; 1805 c = *ptr; 1806 } 1807 1808 d = ptr[1]; 1809 1810 if( c =='<' ) 1811 { 1812 CvStringHashNode *key = 0, *key2 = 0; 1813 CvAttrList* list = 0; 1814 CvTypeInfo* info = 0; 1815 int tag_type = 0; 1816 int is_noname = 0; 1817 const char* type_name = 0; 1818 int elem_type = CV_NODE_NONE; 1819 1820 if( d == '/' ) 1821 break; 1822 1823 CV_CALL( ptr = icvXMLParseTag( fs, ptr, &key, &list, &tag_type )); 1824 1825 if( tag_type == CV_XML_DIRECTIVE_TAG ) 1826 CV_PARSE_ERROR( "Directive tags are not allowed here" ); 1827 if( tag_type == CV_XML_EMPTY_TAG ) 1828 CV_PARSE_ERROR( "Empty tags are not supported" ); 1829 1830 assert( tag_type == CV_XML_OPENING_TAG ); 1831 1832 type_name = list ? cvAttrValue( list, "type_id" ) : 0; 1833 if( type_name ) 1834 { 1835 if( strcmp( type_name, "str" ) == 0 ) 1836 elem_type = CV_NODE_STRING; 1837 else if( strcmp( type_name, "map" ) == 0 ) 1838 elem_type = CV_NODE_MAP; 1839 else if( strcmp( type_name, "seq" ) == 0 ) 1840 elem_type = CV_NODE_MAP; 1841 else 1842 { 1843 CV_CALL( info = cvFindType( type_name )); 1844 if( info ) 1845 elem_type = CV_NODE_USER; 1846 } 1847 } 1848 1849 is_noname = key->str.len == 1 && key->str.ptr[0] == '_'; 1850 if( !CV_NODE_IS_COLLECTION(node->tag) ) 1851 { 1852 CV_CALL( icvFSCreateCollection( fs, is_noname ? CV_NODE_SEQ : CV_NODE_MAP, node )); 1853 } 1854 else if( is_noname ^ CV_NODE_IS_SEQ(node->tag) ) 1855 CV_PARSE_ERROR( is_noname ? "Map element should have a name" : 1856 "Sequence element should not have name (use <_></_>)" ); 1857 1858 if( is_noname ) 1859 elem = (CvFileNode*)cvSeqPush( node->data.seq, 0 ); 1860 else 1861 CV_CALL( elem = cvGetFileNode( fs, node, key, 1 )); 1862 1863 CV_CALL( ptr = icvXMLParseValue( fs, ptr, elem, elem_type)); 1864 if( !is_noname ) 1865 elem->tag |= CV_NODE_NAMED; 1866 is_simple &= !CV_NODE_IS_COLLECTION(elem->tag); 1867 elem->info = info; 1868 CV_CALL( ptr = icvXMLParseTag( fs, ptr, &key2, &list, &tag_type )); 1869 if( tag_type != CV_XML_CLOSING_TAG || key2 != key ) 1870 CV_PARSE_ERROR( "Mismatched closing tag" ); 1871 have_space = 1; 1872 } 1873 else 1874 { 1875 if( !have_space ) 1876 CV_PARSE_ERROR( "There should be space between literals" ); 1877 1878 elem = node; 1879 if( node->tag != CV_NODE_NONE ) 1880 { 1881 if( !CV_NODE_IS_COLLECTION(node->tag) ) 1882 CV_CALL( icvFSCreateCollection( fs, CV_NODE_SEQ, node )); 1883 1884 elem = (CvFileNode*)cvSeqPush( node->data.seq, 0 ); 1885 elem->info = 0; 1886 } 1887 1888 if( value_type != CV_NODE_STRING && 1889 (isdigit(c) || ((c == '-' || c == '+') && 1890 (isdigit(d) || d == '.')) || (c == '.' && isalnum(d))) ) // a number 1891 { 1892 double fval; 1893 int ival; 1894 endptr = ptr + (c == '-' || c == '+'); 1895 while( isdigit(*endptr) ) 1896 endptr++; 1897 if( *endptr == '.' || *endptr == 'e' ) 1898 { 1899 fval = icv_strtod( fs, ptr, &endptr ); 1900 /*if( endptr == ptr || isalpha(*endptr) ) 1901 CV_CALL( icvProcessSpecialDouble( fs, ptr, &fval, &endptr ));*/ 1902 elem->tag = CV_NODE_REAL; 1903 elem->data.f = fval; 1904 } 1905 else 1906 { 1907 ival = (int)strtol( ptr, &endptr, 0 ); 1908 elem->tag = CV_NODE_INT; 1909 elem->data.i = ival; 1910 } 1911 1912 if( endptr == ptr ) 1913 CV_PARSE_ERROR( "Invalid numeric value (inconsistent explicit type specification?)" ); 1914 1915 ptr = endptr; 1916 } 1917 else 1918 { 1919 // string 1920 char buf[CV_FS_MAX_LEN+16]; 1921 int i = 0, len, is_quoted = 0; 1922 elem->tag = CV_NODE_STRING; 1923 if( c == '\"' ) 1924 is_quoted = 1; 1925 else 1926 --ptr; 1927 1928 for( ;; ) 1929 { 1930 c = *++ptr; 1931 if( !isalnum(c) ) 1932 { 1933 if( c == '\"' ) 1934 { 1935 if( !is_quoted ) 1936 CV_PARSE_ERROR( "Literal \" is not allowed within a string. Use "" ); 1937 ++ptr; 1938 break; 1939 } 1940 else if( !cv_isprint(c) || c == '<' || (!is_quoted && isspace(c))) 1941 { 1942 if( is_quoted ) 1943 CV_PARSE_ERROR( "Closing \" is expected" ); 1944 break; 1945 } 1946 else if( c == '\'' || c == '>' ) 1947 { 1948 CV_PARSE_ERROR( "Literal \' or > are not allowed. Use ' or >" ); 1949 } 1950 else if( c == '&' ) 1951 { 1952 if( *ptr == '#' ) 1953 { 1954 int val; 1955 ptr++; 1956 val = (int)strtol( ptr, &endptr, 0 ); 1957 if( (unsigned)val > (unsigned)255 || 1958 !endptr || *endptr != ';' ) 1959 CV_PARSE_ERROR( "Invalid numeric value in the string" ); 1960 c = (char)val; 1961 } 1962 else 1963 { 1964 endptr = ptr++; 1965 do c = *++endptr; 1966 while( isalnum(c) ); 1967 if( c != ';' ) 1968 CV_PARSE_ERROR( "Invalid character in the symbol entity name" ); 1969 len = (int)(endptr - ptr); 1970 if( len == 2 && memcmp( ptr, "lt", len ) == 0 ) 1971 c = '<'; 1972 else if( len == 2 && memcmp( ptr, "gt", len ) == 0 ) 1973 c = '>'; 1974 else if( len == 3 && memcmp( ptr, "amp", len ) == 0 ) 1975 c = '&'; 1976 else if( len == 4 && memcmp( ptr, "apos", len ) == 0 ) 1977 c = '\''; 1978 else if( len == 4 && memcmp( ptr, "quot", len ) == 0 ) 1979 c = '\"'; 1980 else 1981 { 1982 memcpy( buf + i, ptr-1, len + 2 ); 1983 i += len + 2; 1984 } 1985 } 1986 ptr = endptr; 1987 } 1988 } 1989 buf[i++] = c; 1990 if( i >= CV_FS_MAX_LEN ) 1991 CV_PARSE_ERROR( "Too long string literal" ); 1992 } 1993 CV_CALL( elem->data.str = cvMemStorageAllocString( fs->memstorage, buf, i )); 1994 } 1995 1996 if( !CV_NODE_IS_COLLECTION(value_type) && value_type != CV_NODE_NONE ) 1997 break; 1998 have_space = 0; 1999 } 2000 } 2001 2002 if( (CV_NODE_TYPE(node->tag) == CV_NODE_NONE || 2003 (CV_NODE_TYPE(node->tag) != value_type && 2004 !CV_NODE_IS_COLLECTION(node->tag))) && 2005 CV_NODE_IS_COLLECTION(value_type) ) 2006 { 2007 CV_CALL( icvFSCreateCollection( fs, CV_NODE_IS_MAP(value_type) ? 2008 CV_NODE_MAP : CV_NODE_SEQ, node )); 2009 } 2010 2011 if( value_type != CV_NODE_NONE && 2012 value_type != CV_NODE_TYPE(node->tag) ) 2013 CV_PARSE_ERROR( "The actual type is different from the specified type" ); 2014 2015 if( CV_NODE_IS_COLLECTION(node->tag) && is_simple ) 2016 node->data.seq->flags |= CV_NODE_SEQ_SIMPLE; 2017 2018 node->tag |= is_user_type ? CV_NODE_USER : 0; 2019 2020 __END__; 2021 2022 return ptr; 2023 } 2024 2025 2026 static char* 2027 icvXMLParseTag( CvFileStorage* fs, char* ptr, CvStringHashNode** _tag, 2028 CvAttrList** _list, int* _tag_type ) 2029 { 2030 int tag_type = 0; 2031 CvStringHashNode* tagname = 0; 2032 CvAttrList *first = 0, *last = 0; 2033 int count = 0, max_count = 4; 2034 int attr_buf_size = (max_count*2 + 1)*sizeof(char*) + sizeof(CvAttrList); 2035 2036 CV_FUNCNAME( "icvXMLParseTag" ); 2037 2038 __BEGIN__; 2039 2040 char* endptr; 2041 char c; 2042 int have_space; 2043 2044 if( *ptr != '<' ) 2045 CV_PARSE_ERROR( "Tag should start with \'<\'" ); 2046 2047 ptr++; 2048 if( isalnum(*ptr) || *ptr == '_' ) 2049 tag_type = CV_XML_OPENING_TAG; 2050 else if( *ptr == '/' ) 2051 { 2052 tag_type = CV_XML_CLOSING_TAG; 2053 ptr++; 2054 } 2055 else if( *ptr == '?' ) 2056 { 2057 tag_type = CV_XML_HEADER_TAG; 2058 ptr++; 2059 } 2060 else if( *ptr == '!' ) 2061 { 2062 tag_type = CV_XML_DIRECTIVE_TAG; 2063 assert( ptr[1] != '-' || ptr[2] != '-' ); 2064 ptr++; 2065 } 2066 else 2067 CV_PARSE_ERROR( "Unknown tag type" ); 2068 2069 for(;;) 2070 { 2071 CvStringHashNode* attrname; 2072 2073 if( !isalpha(*ptr) && *ptr != '_' ) 2074 CV_PARSE_ERROR( "Name should start with a letter or underscore" ); 2075 2076 endptr = ptr - 1; 2077 do c = *++endptr; 2078 while( isalnum(c) || c == '_' || c == '-' ); 2079 2080 CV_CALL( attrname = cvGetHashedKey( fs, ptr, (int)(endptr - ptr), 1 )); 2081 ptr = endptr; 2082 2083 if( !tagname ) 2084 tagname = attrname; 2085 else 2086 { 2087 if( tag_type == CV_XML_CLOSING_TAG ) 2088 CV_PARSE_ERROR( "Closing tag should not contain any attributes" ); 2089 2090 if( !last || count >= max_count ) 2091 { 2092 CvAttrList* chunk; 2093 2094 CV_CALL( chunk = (CvAttrList*)cvMemStorageAlloc( fs->memstorage, attr_buf_size )); 2095 memset( chunk, 0, attr_buf_size ); 2096 chunk->attr = (const char**)(chunk + 1); 2097 count = 0; 2098 if( !last ) 2099 first = last = chunk; 2100 else 2101 last = last->next = chunk; 2102 } 2103 last->attr[count*2] = attrname->str.ptr; 2104 } 2105 2106 if( last ) 2107 { 2108 CvFileNode stub; 2109 2110 if( *ptr != '=' ) 2111 { 2112 CV_CALL( ptr = icvXMLSkipSpaces( fs, ptr, CV_XML_INSIDE_TAG )); 2113 if( *ptr != '=' ) 2114 CV_PARSE_ERROR( "Attribute name should be followed by \'=\'" ); 2115 } 2116 2117 c = *++ptr; 2118 if( c != '\"' && c != '\'' ) 2119 { 2120 CV_CALL( ptr = icvXMLSkipSpaces( fs, ptr, CV_XML_INSIDE_TAG )); 2121 if( *ptr != '\"' && *ptr != '\'' ) 2122 CV_PARSE_ERROR( "Attribute value should be put into single or double quotes" ); 2123 } 2124 2125 ptr = icvXMLParseValue( fs, ptr, &stub, CV_NODE_STRING ); 2126 assert( stub.tag == CV_NODE_STRING ); 2127 last->attr[count*2+1] = stub.data.str.ptr; 2128 count++; 2129 } 2130 2131 c = *ptr; 2132 have_space = isspace(c) || c == '\0'; 2133 2134 if( c != '>' ) 2135 { 2136 CV_CALL( ptr = icvXMLSkipSpaces( fs, ptr, CV_XML_INSIDE_TAG )); 2137 c = *ptr; 2138 } 2139 2140 if( c == '>' ) 2141 { 2142 if( tag_type == CV_XML_HEADER_TAG ) 2143 CV_PARSE_ERROR( "Invalid closing tag for <?xml ..." ); 2144 ptr++; 2145 break; 2146 } 2147 else if( c == '?' && tag_type == CV_XML_HEADER_TAG ) 2148 { 2149 if( ptr[1] != '>' ) 2150 CV_PARSE_ERROR( "Invalid closing tag for <?xml ..." ); 2151 ptr += 2; 2152 break; 2153 } 2154 else if( c == '/' && ptr[1] == '>' && tag_type == CV_XML_OPENING_TAG ) 2155 { 2156 tag_type = CV_XML_EMPTY_TAG; 2157 ptr += 2; 2158 break; 2159 } 2160 2161 if( !have_space ) 2162 CV_PARSE_ERROR( "There should be space between attributes" ); 2163 } 2164 2165 __END__; 2166 2167 *_tag = tagname; 2168 *_tag_type = tag_type; 2169 *_list = first; 2170 2171 return ptr; 2172 } 2173 2174 2175 static void 2176 icvXMLParse( CvFileStorage* fs ) 2177 { 2178 CV_FUNCNAME( "icvXMLParse" ); 2179 2180 __BEGIN__; 2181 2182 char* ptr = fs->buffer_start; 2183 CvStringHashNode *key = 0, *key2 = 0; 2184 CvAttrList* list = 0; 2185 int tag_type = 0; 2186 2187 // CV_XML_INSIDE_TAG is used to prohibit leading comments 2188 CV_CALL( ptr = icvXMLSkipSpaces( fs, ptr, CV_XML_INSIDE_TAG )); 2189 2190 if( memcmp( ptr, "<?xml", 5 ) != 0 ) 2191 CV_PARSE_ERROR( "Valid XML should start with \'<?xml ...?>\'" ); 2192 2193 CV_CALL( ptr = icvXMLParseTag( fs, ptr, &key, &list, &tag_type )); 2194 2195 /*{ 2196 const char* version = cvAttrValue( list, "version" ); 2197 if( version && strncmp( version, "1.", 2 ) != 0 ) 2198 CV_ERROR( CV_StsParseError, "Unsupported version of XML" ); 2199 }*/ 2200 { 2201 const char* encoding = cvAttrValue( list, "encoding" ); 2202 if( encoding && strcmp( encoding, "ASCII" ) != 0 ) 2203 CV_PARSE_ERROR( "Unsupported encoding" ); 2204 } 2205 2206 while( *ptr != '\0' ) 2207 { 2208 CV_CALL( ptr = icvXMLSkipSpaces( fs, ptr, 0 )); 2209 2210 if( *ptr != '\0' ) 2211 { 2212 CvFileNode* root_node; 2213 CV_CALL( ptr = icvXMLParseTag( fs, ptr, &key, &list, &tag_type )); 2214 if( tag_type != CV_XML_OPENING_TAG || 2215 strcmp(key->str.ptr,"opencv_storage") != 0 ) 2216 CV_PARSE_ERROR( "<opencv_storage> tag is missing" ); 2217 2218 root_node = (CvFileNode*)cvSeqPush( fs->roots, 0 ); 2219 CV_CALL( ptr = icvXMLParseValue( fs, ptr, root_node, CV_NODE_NONE )); 2220 CV_CALL( ptr = icvXMLParseTag( fs, ptr, &key2, &list, &tag_type )); 2221 if( tag_type != CV_XML_CLOSING_TAG || key != key2 ) 2222 CV_PARSE_ERROR( "</opencv_storage> tag is missing" ); 2223 CV_CALL( ptr = icvXMLSkipSpaces( fs, ptr, 0 )); 2224 } 2225 } 2226 2227 assert( fs->dummy_eof != 0 ); 2228 2229 __END__; 2230 } 2231 2232 2233 /****************************************************************************************\ 2234 * XML Emitter * 2235 \****************************************************************************************/ 2236 2237 #define icvXMLFlush icvFSFlush 2238 2239 static void 2240 icvXMLWriteTag( CvFileStorage* fs, const char* key, int tag_type, CvAttrList list ) 2241 { 2242 CV_FUNCNAME( "icvXMLWriteTag" ); 2243 2244 __BEGIN__; 2245 2246 char* ptr = fs->buffer; 2247 int i, len = 0; 2248 int struct_flags = fs->struct_flags; 2249 2250 if( key && key[0] == '\0' ) 2251 key = 0; 2252 2253 if( tag_type == CV_XML_OPENING_TAG || tag_type == CV_XML_EMPTY_TAG ) 2254 { 2255 if( CV_NODE_IS_COLLECTION(struct_flags) ) 2256 { 2257 if( CV_NODE_IS_MAP(struct_flags) ^ (key != 0) ) 2258 CV_ERROR( CV_StsBadArg, "An attempt to add element without a key to a map, " 2259 "or add element with key to sequence" ); 2260 } 2261 else 2262 { 2263 struct_flags = CV_NODE_EMPTY + (key ? CV_NODE_MAP : CV_NODE_SEQ); 2264 fs->is_first = 0; 2265 } 2266 2267 if( !CV_NODE_IS_EMPTY(struct_flags) ) 2268 ptr = icvXMLFlush(fs); 2269 } 2270 2271 if( !key ) 2272 key = "_"; 2273 else if( key[0] == '_' && key[1] == '\0' ) 2274 CV_ERROR( CV_StsBadArg, "A single _ is a reserved tag name" ); 2275 2276 len = (int)strlen( key ); 2277 *ptr++ = '<'; 2278 if( tag_type == CV_XML_CLOSING_TAG ) 2279 { 2280 if( list.attr ) 2281 CV_ERROR( CV_StsBadArg, "Closing tag should not include any attributes" ); 2282 *ptr++ = '/'; 2283 } 2284 2285 if( !isalpha(key[0]) && key[0] != '_' ) 2286 CV_ERROR( CV_StsBadArg, "Key should start with a letter or _" ); 2287 2288 ptr = icvFSResizeWriteBuffer( fs, ptr, len ); 2289 for( i = 0; i < len; i++ ) 2290 { 2291 char c = key[i]; 2292 if( !isalnum(c) && c != '_' && c != '-' ) 2293 CV_ERROR( CV_StsBadArg, "Invalid character in the key" ); 2294 ptr[i] = c; 2295 } 2296 ptr += len; 2297 2298 for(;;) 2299 { 2300 const char** attr = list.attr; 2301 2302 for( ; attr && attr[0] != 0; attr += 2 ) 2303 { 2304 int len0 = (int)strlen(attr[0]); 2305 int len1 = (int)strlen(attr[1]); 2306 2307 ptr = icvFSResizeWriteBuffer( fs, ptr, len0 + len1 + 4 ); 2308 *ptr++ = ' '; 2309 memcpy( ptr, attr[0], len0 ); 2310 ptr += len0; 2311 *ptr++ = '='; 2312 *ptr++ = '\"'; 2313 memcpy( ptr, attr[1], len1 ); 2314 ptr += len1; 2315 *ptr++ = '\"'; 2316 } 2317 if( !list.next ) 2318 break; 2319 list = *list.next; 2320 } 2321 2322 if( tag_type == CV_XML_EMPTY_TAG ) 2323 *ptr++ = '/'; 2324 *ptr++ = '>'; 2325 fs->buffer = ptr; 2326 fs->struct_flags = struct_flags & ~CV_NODE_EMPTY; 2327 2328 __END__; 2329 } 2330 2331 2332 static void 2333 icvXMLStartWriteStruct( CvFileStorage* fs, const char* key, int struct_flags, 2334 const char* type_name CV_DEFAULT(0)) 2335 { 2336 CV_FUNCNAME( "icvXMLStartWriteStruct" ); 2337 2338 __BEGIN__; 2339 2340 CvXMLStackRecord parent; 2341 const char* attr[10]; 2342 int idx = 0; 2343 2344 struct_flags = (struct_flags & (CV_NODE_TYPE_MASK|CV_NODE_FLOW)) | CV_NODE_EMPTY; 2345 if( !CV_NODE_IS_COLLECTION(struct_flags)) 2346 CV_ERROR( CV_StsBadArg, 2347 "Some collection type: CV_NODE_SEQ or CV_NODE_MAP must be specified" ); 2348 2349 if( type_name ) 2350 { 2351 attr[idx++] = "type_id"; 2352 attr[idx++] = type_name; 2353 } 2354 attr[idx++] = 0; 2355 2356 CV_CALL( icvXMLWriteTag( fs, key, CV_XML_OPENING_TAG, cvAttrList(attr,0) )); 2357 2358 parent.struct_flags = fs->struct_flags & ~CV_NODE_EMPTY; 2359 parent.struct_indent = fs->struct_indent; 2360 parent.struct_tag = fs->struct_tag; 2361 cvSaveMemStoragePos( fs->strstorage, &parent.pos ); 2362 cvSeqPush( fs->write_stack, &parent ); 2363 2364 fs->struct_indent += CV_XML_INDENT; 2365 if( !CV_NODE_IS_FLOW(struct_flags) ) 2366 icvXMLFlush( fs ); 2367 2368 fs->struct_flags = struct_flags; 2369 if( key ) 2370 { 2371 CV_CALL( fs->struct_tag = cvMemStorageAllocString( fs->strstorage, (char*)key, -1 )); 2372 } 2373 else 2374 { 2375 fs->struct_tag.ptr = 0; 2376 fs->struct_tag.len = 0; 2377 } 2378 2379 __END__; 2380 } 2381 2382 2383 static void 2384 icvXMLEndWriteStruct( CvFileStorage* fs ) 2385 { 2386 CV_FUNCNAME( "icvXMLStartWriteStruct" ); 2387 2388 __BEGIN__; 2389 2390 CvXMLStackRecord parent; 2391 2392 if( fs->write_stack->total == 0 ) 2393 CV_ERROR( CV_StsError, "An extra closing tag" ); 2394 2395 CV_CALL( icvXMLWriteTag( fs, fs->struct_tag.ptr, CV_XML_CLOSING_TAG, cvAttrList(0,0) )); 2396 cvSeqPop( fs->write_stack, &parent ); 2397 2398 fs->struct_indent = parent.struct_indent; 2399 fs->struct_flags = parent.struct_flags; 2400 fs->struct_tag = parent.struct_tag; 2401 cvRestoreMemStoragePos( fs->strstorage, &parent.pos ); 2402 2403 __END__; 2404 } 2405 2406 2407 static void 2408 icvXMLStartNextStream( CvFileStorage* fs ) 2409 { 2410 //CV_FUNCNAME( "icvXMLStartNextStream" ); 2411 2412 __BEGIN__; 2413 2414 if( !fs->is_first ) 2415 { 2416 while( fs->write_stack->total > 0 ) 2417 icvXMLEndWriteStruct(fs); 2418 2419 fs->struct_indent = 0; 2420 icvXMLFlush(fs); 2421 /* XML does not allow multiple top-level elements, 2422 so we just put a comment and continue 2423 the current (and the only) "stream" */ 2424 fputs( "\n<!-- next stream -->\n", fs->file ); 2425 /*fputs( "</opencv_storage>\n", fs->file ); 2426 fputs( "<opencv_storage>\n", fs->file );*/ 2427 fs->buffer = fs->buffer_start; 2428 } 2429 2430 __END__; 2431 } 2432 2433 2434 static void 2435 icvXMLWriteScalar( CvFileStorage* fs, const char* key, const char* data, int len ) 2436 { 2437 CV_FUNCNAME( "icvXMLWriteScalar" ); 2438 2439 __BEGIN__; 2440 2441 if( CV_NODE_IS_MAP(fs->struct_flags) || 2442 (!CV_NODE_IS_COLLECTION(fs->struct_flags) && key) ) 2443 { 2444 icvXMLWriteTag( fs, key, CV_XML_OPENING_TAG, cvAttrList(0,0) ); 2445 char* ptr = icvFSResizeWriteBuffer( fs, fs->buffer, len ); 2446 memcpy( ptr, data, len ); 2447 fs->buffer = ptr + len; 2448 icvXMLWriteTag( fs, key, CV_XML_CLOSING_TAG, cvAttrList(0,0) ); 2449 } 2450 else 2451 { 2452 char* ptr = fs->buffer; 2453 int new_offset = (int)(ptr - fs->buffer_start) + len; 2454 2455 if( key ) 2456 CV_ERROR( CV_StsBadArg, "elements with keys can not be written to sequence" ); 2457 2458 fs->struct_flags = CV_NODE_SEQ; 2459 2460 if( (new_offset > fs->wrap_margin && new_offset - fs->struct_indent > 10) || 2461 (ptr > fs->buffer_start && ptr[-1] == '>' && !CV_NODE_IS_EMPTY(fs->struct_flags)) ) 2462 { 2463 ptr = icvXMLFlush(fs); 2464 } 2465 else if( ptr > fs->buffer_start + fs->struct_indent && ptr[-1] != '>' ) 2466 *ptr++ = ' '; 2467 2468 memcpy( ptr, data, len ); 2469 fs->buffer = ptr + len; 2470 } 2471 2472 __END__; 2473 } 2474 2475 2476 static void 2477 icvXMLWriteInt( CvFileStorage* fs, const char* key, int value ) 2478 { 2479 //CV_FUNCNAME( "cvXMLWriteInt" ); 2480 2481 __BEGIN__; 2482 2483 char buf[128], *ptr = icv_itoa( value, buf, 10 ); 2484 int len = (int)strlen(ptr); 2485 icvXMLWriteScalar( fs, key, ptr, len ); 2486 2487 __END__; 2488 } 2489 2490 2491 static void 2492 icvXMLWriteReal( CvFileStorage* fs, const char* key, double value ) 2493 { 2494 //CV_FUNCNAME( "cvXMLWriteReal" ); 2495 2496 __BEGIN__; 2497 2498 char buf[128]; 2499 int len = (int)strlen( icvDoubleToString( buf, value )); 2500 icvXMLWriteScalar( fs, key, buf, len ); 2501 2502 __END__; 2503 } 2504 2505 2506 static void 2507 icvXMLWriteString( CvFileStorage* fs, const char* key, const char* str, int quote ) 2508 { 2509 CV_FUNCNAME( "cvXMLWriteString" ); 2510 2511 __BEGIN__; 2512 2513 char buf[CV_FS_MAX_LEN*6+16]; 2514 char* data = (char*)str; 2515 int i, len; 2516 2517 if( !str ) 2518 CV_ERROR( CV_StsNullPtr, "Null string pointer" ); 2519 2520 len = (int)strlen(str); 2521 if( len > CV_FS_MAX_LEN ) 2522 CV_ERROR( CV_StsBadArg, "The written string is too long" ); 2523 2524 if( quote || len == 0 || str[0] != '\"' || str[0] != str[len-1] ) 2525 { 2526 int need_quote = quote || len == 0; 2527 data = buf; 2528 *data++ = '\"'; 2529 for( i = 0; i < len; i++ ) 2530 { 2531 char c = str[i]; 2532 2533 if( !isalnum(c) && (!cv_isprint(c) || c == '<' || c == '>' || 2534 c == '&' || c == '\'' || c == '\"') ) 2535 { 2536 *data++ = '&'; 2537 if( c == '<' ) 2538 { 2539 memcpy(data, "lt", 2); 2540 data += 2; 2541 } 2542 else if( c == '>' ) 2543 { 2544 memcpy(data, "gt", 2); 2545 data += 2; 2546 } 2547 else if( c == '&' ) 2548 { 2549 memcpy(data, "amp", 3); 2550 data += 3; 2551 } 2552 else if( c == '\'' ) 2553 { 2554 memcpy(data, "apos", 4); 2555 data += 4; 2556 } 2557 else if( c == '\"' ) 2558 { 2559 memcpy( data, "quot", 4); 2560 data += 4; 2561 } 2562 else 2563 { 2564 sprintf( data, "#x%02x", c ); 2565 data += 4; 2566 } 2567 *data++ = ';'; 2568 } 2569 else 2570 { 2571 if( c == ' ' ) 2572 need_quote = 1; 2573 *data++ = c; 2574 } 2575 } 2576 if( !need_quote && (isdigit(str[0]) || 2577 str[0] == '+' || str[0] == '-' || str[0] == '.' )) 2578 need_quote = 1; 2579 2580 if( need_quote ) 2581 *data++ = '\"'; 2582 len = (int)(data - buf) - !need_quote; 2583 *data++ = '\0'; 2584 data = buf + !need_quote; 2585 } 2586 2587 icvXMLWriteScalar( fs, key, data, len ); 2588 2589 __END__; 2590 } 2591 2592 2593 static void 2594 icvXMLWriteComment( CvFileStorage* fs, const char* comment, int eol_comment ) 2595 { 2596 CV_FUNCNAME( "cvXMLWriteComment" ); 2597 2598 __BEGIN__; 2599 2600 int len; 2601 int multiline; 2602 const char* eol; 2603 char* ptr; 2604 2605 if( !comment ) 2606 CV_ERROR( CV_StsNullPtr, "Null comment" ); 2607 2608 if( strstr(comment, "--") != 0 ) 2609 CV_ERROR( CV_StsBadArg, "Double hyphen \'--\' is not allowed in the comments" ); 2610 2611 len = (int)strlen(comment); 2612 eol = strchr(comment, '\n'); 2613 multiline = eol != 0; 2614 ptr = fs->buffer; 2615 2616 if( multiline || !eol_comment || fs->buffer_end - ptr < len + 5 ) 2617 ptr = icvXMLFlush( fs ); 2618 else if( ptr > fs->buffer_start + fs->struct_indent ) 2619 *ptr++ = ' '; 2620 2621 if( !multiline ) 2622 { 2623 ptr = icvFSResizeWriteBuffer( fs, ptr, len + 9 ); 2624 sprintf( ptr, "<!-- %s -->", comment ); 2625 len = (int)strlen(ptr); 2626 } 2627 else 2628 { 2629 strcpy( ptr, "<!--" ); 2630 len = 4; 2631 } 2632 2633 fs->buffer = ptr + len; 2634 ptr = icvXMLFlush(fs); 2635 2636 if( multiline ) 2637 { 2638 while( comment ) 2639 { 2640 if( eol ) 2641 { 2642 ptr = icvFSResizeWriteBuffer( fs, ptr, (int)(eol - comment) + 1 ); 2643 memcpy( ptr, comment, eol - comment + 1 ); 2644 ptr += eol - comment; 2645 comment = eol + 1; 2646 eol = strchr( comment, '\n' ); 2647 } 2648 else 2649 { 2650 len = (int)strlen(comment); 2651 ptr = icvFSResizeWriteBuffer( fs, ptr, len ); 2652 memcpy( ptr, comment, len ); 2653 ptr += len; 2654 comment = 0; 2655 } 2656 fs->buffer = ptr; 2657 ptr = icvXMLFlush( fs ); 2658 } 2659 sprintf( ptr, "-->" ); 2660 fs->buffer = ptr + 3; 2661 icvXMLFlush( fs ); 2662 } 2663 2664 __END__; 2665 } 2666 2667 2668 /****************************************************************************************\ 2669 * Common High-Level Functions * 2670 \****************************************************************************************/ 2671 2672 CV_IMPL CvFileStorage* 2673 cvOpenFileStorage( const char* filename, CvMemStorage* dststorage, int flags ) 2674 { 2675 CvFileStorage* fs = 0; 2676 char* xml_buf = 0; 2677 2678 CV_FUNCNAME("cvOpenFileStorage" ); 2679 2680 __BEGIN__; 2681 2682 int default_block_size = 1 << 18; 2683 bool append = (flags & 3) == CV_STORAGE_APPEND; 2684 2685 if( !filename ) 2686 CV_ERROR( CV_StsNullPtr, "NULL filename" ); 2687 2688 CV_CALL( fs = (CvFileStorage*)cvAlloc( sizeof(*fs) )); 2689 memset( fs, 0, sizeof(*fs)); 2690 2691 CV_CALL( fs->memstorage = cvCreateMemStorage( default_block_size )); 2692 fs->dststorage = dststorage ? dststorage : fs->memstorage; 2693 2694 CV_CALL( fs->filename = (char*)cvMemStorageAlloc( fs->memstorage, strlen(filename)+1 )); 2695 strcpy( fs->filename, filename ); 2696 2697 fs->flags = CV_FILE_STORAGE; 2698 fs->write_mode = (flags & 3) != 0; 2699 fs->file = fopen( fs->filename, !fs->write_mode ? "rt" : !append ? "wt" : "a+t" ); 2700 if( !fs->file ) 2701 EXIT; 2702 2703 fs->roots = 0; 2704 fs->struct_indent = 0; 2705 fs->struct_flags = 0; 2706 fs->wrap_margin = 71; 2707 2708 if( fs->write_mode ) 2709 { 2710 // we use factor=6 for XML (the longest characters (' and ") are encoded with 6 bytes (' and ") 2711 // and factor=4 for YAML ( as we use 4 bytes for non ASCII characters (e.g. \xAB)) 2712 int buf_size = CV_FS_MAX_LEN*(fs->is_xml ? 6 : 4) + 1024; 2713 2714 char* dot_pos = strrchr( fs->filename, '.' ); 2715 fs->is_xml = dot_pos && (strcmp( dot_pos, ".xml" ) == 0 || 2716 strcmp( dot_pos, ".XML" ) == 0 || strcmp( dot_pos, ".Xml" ) == 0); 2717 2718 if( append ) 2719 fseek( fs->file, 0, SEEK_END ); 2720 2721 fs->write_stack = cvCreateSeq( 0, sizeof(CvSeq), fs->is_xml ? 2722 sizeof(CvXMLStackRecord) : sizeof(int), fs->memstorage ); 2723 fs->is_first = 1; 2724 fs->struct_indent = 0; 2725 fs->struct_flags = CV_NODE_EMPTY; 2726 CV_CALL( fs->buffer_start = fs->buffer = (char*)cvAlloc( buf_size + 1024 )); 2727 fs->buffer_end = fs->buffer_start + buf_size; 2728 if( fs->is_xml ) 2729 { 2730 int file_size = (int)ftell( fs->file ); 2731 CV_CALL( fs->strstorage = cvCreateChildMemStorage( fs->memstorage )); 2732 if( !append || file_size == 0 ) 2733 { 2734 fputs( "<?xml version=\"1.0\"?>\n", fs->file ); 2735 fputs( "<opencv_storage>\n", fs->file ); 2736 } 2737 else 2738 { 2739 int xml_buf_size = 1 << 10; 2740 char substr[] = "</opencv_storage>"; 2741 int last_occurence = -1; 2742 xml_buf_size = MIN(xml_buf_size, file_size); 2743 fseek( fs->file, -xml_buf_size, SEEK_END ); 2744 CV_CALL(xml_buf = (char*)cvAlloc( xml_buf_size+2 )); 2745 // find the last occurence of </opencv_storage> 2746 for(;;) 2747 { 2748 int line_offset = ftell( fs->file ); 2749 char* ptr0 = fgets( xml_buf, xml_buf_size, fs->file ), *ptr; 2750 if( !ptr0 ) 2751 break; 2752 ptr = ptr0; 2753 for(;;) 2754 { 2755 ptr = strstr( ptr, substr ); 2756 if( !ptr ) 2757 break; 2758 last_occurence = line_offset + (int)(ptr - ptr0); 2759 ptr += strlen(substr); 2760 } 2761 } 2762 if( last_occurence < 0 ) 2763 CV_ERROR( CV_StsError, "Could not find </opencv_storage> in the end of file.\n" ); 2764 fclose( fs->file ); 2765 fs->file = fopen( fs->filename, "r+t" ); 2766 fseek( fs->file, last_occurence, SEEK_SET ); 2767 // replace the last "</opencv_storage>" with " <!-- resumed -->", which has the same length 2768 fputs( " <!-- resumed -->", fs->file ); 2769 fseek( fs->file, 0, SEEK_END ); 2770 fputs( "\n", fs->file ); 2771 } 2772 fs->start_write_struct = icvXMLStartWriteStruct; 2773 fs->end_write_struct = icvXMLEndWriteStruct; 2774 fs->write_int = icvXMLWriteInt; 2775 fs->write_real = icvXMLWriteReal; 2776 fs->write_string = icvXMLWriteString; 2777 fs->write_comment = icvXMLWriteComment; 2778 fs->start_next_stream = icvXMLStartNextStream; 2779 } 2780 else 2781 { 2782 if( !append ) 2783 fputs( "%YAML:1.0\n", fs->file ); 2784 else 2785 fputs( "...\n---\n", fs->file ); 2786 fs->start_write_struct = icvYMLStartWriteStruct; 2787 fs->end_write_struct = icvYMLEndWriteStruct; 2788 fs->write_int = icvYMLWriteInt; 2789 fs->write_real = icvYMLWriteReal; 2790 fs->write_string = icvYMLWriteString; 2791 fs->write_comment = icvYMLWriteComment; 2792 fs->start_next_stream = icvYMLStartNextStream; 2793 } 2794 } 2795 else 2796 { 2797 int buf_size; 2798 const char* yaml_signature = "%YAML:"; 2799 char buf[16]; 2800 fgets( buf, sizeof(buf)-2, fs->file ); 2801 fs->is_xml = strncmp( buf, yaml_signature, strlen(yaml_signature) ) != 0; 2802 2803 fseek( fs->file, 0, SEEK_END ); 2804 buf_size = ftell( fs->file ); 2805 fseek( fs->file, 0, SEEK_SET ); 2806 2807 buf_size = MIN( buf_size, (1 << 20) ); 2808 buf_size = MAX( buf_size, CV_FS_MAX_LEN*2 + 1024 ); 2809 2810 CV_CALL( fs->str_hash = cvCreateMap( 0, sizeof(CvStringHash), 2811 sizeof(CvStringHashNode), fs->memstorage, 256 )); 2812 2813 CV_CALL( fs->roots = cvCreateSeq( 0, sizeof(CvSeq), 2814 sizeof(CvFileNode), fs->memstorage )); 2815 2816 CV_CALL( fs->buffer = fs->buffer_start = (char*)cvAlloc( buf_size + 256 )); 2817 fs->buffer_end = fs->buffer_start + buf_size; 2818 fs->buffer[0] = '\n'; 2819 fs->buffer[1] = '\0'; 2820 2821 //mode = cvGetErrMode(); 2822 //cvSetErrMode( CV_ErrModeSilent ); 2823 if( fs->is_xml ) 2824 icvXMLParse( fs ); 2825 else 2826 icvYMLParse( fs ); 2827 //cvSetErrMode( mode ); 2828 2829 // release resources that we do not need anymore 2830 cvFree( &fs->buffer_start ); 2831 fs->buffer = fs->buffer_end = 0; 2832 } 2833 2834 __END__; 2835 2836 if( fs ) 2837 { 2838 if( cvGetErrStatus() < 0 || !fs->file ) 2839 { 2840 cvReleaseFileStorage( &fs ); 2841 } 2842 else if( !fs->write_mode ) 2843 { 2844 fclose( fs->file ); 2845 fs->file = 0; 2846 } 2847 } 2848 2849 cvFree( &xml_buf ); 2850 2851 return fs; 2852 } 2853 2854 2855 CV_IMPL void 2856 cvStartWriteStruct( CvFileStorage* fs, const char* key, int struct_flags, 2857 const char* type_name, CvAttrList /*attributes*/ ) 2858 { 2859 CV_FUNCNAME( "cvStartWriteStruct" ); 2860 2861 __BEGIN__; 2862 2863 CV_CHECK_OUTPUT_FILE_STORAGE(fs); 2864 CV_CALL( fs->start_write_struct( fs, key, struct_flags, type_name )); 2865 2866 __END__; 2867 } 2868 2869 2870 CV_IMPL void 2871 cvEndWriteStruct( CvFileStorage* fs ) 2872 { 2873 CV_FUNCNAME( "cvEndWriteStruct" ); 2874 2875 __BEGIN__; 2876 2877 CV_CHECK_OUTPUT_FILE_STORAGE(fs); 2878 CV_CALL( fs->end_write_struct( fs )); 2879 2880 __END__; 2881 } 2882 2883 2884 CV_IMPL void 2885 cvWriteInt( CvFileStorage* fs, const char* key, int value ) 2886 { 2887 CV_FUNCNAME( "cvWriteInt" ); 2888 2889 __BEGIN__; 2890 2891 CV_CHECK_OUTPUT_FILE_STORAGE(fs); 2892 CV_CALL( fs->write_int( fs, key, value )); 2893 2894 __END__; 2895 } 2896 2897 2898 CV_IMPL void 2899 cvWriteReal( CvFileStorage* fs, const char* key, double value ) 2900 { 2901 CV_FUNCNAME( "cvWriteReal" ); 2902 2903 __BEGIN__; 2904 2905 CV_CHECK_OUTPUT_FILE_STORAGE(fs); 2906 CV_CALL( fs->write_real( fs, key, value )); 2907 2908 __END__; 2909 } 2910 2911 2912 CV_IMPL void 2913 cvWriteString( CvFileStorage* fs, const char* key, const char* value, int quote ) 2914 { 2915 CV_FUNCNAME( "cvWriteString" ); 2916 2917 __BEGIN__; 2918 2919 CV_CHECK_OUTPUT_FILE_STORAGE(fs); 2920 CV_CALL( fs->write_string( fs, key, value, quote )); 2921 2922 __END__; 2923 } 2924 2925 2926 CV_IMPL void 2927 cvWriteComment( CvFileStorage* fs, const char* comment, int eol_comment ) 2928 { 2929 CV_FUNCNAME( "cvWriteComment" ); 2930 2931 __BEGIN__; 2932 2933 CV_CHECK_OUTPUT_FILE_STORAGE(fs); 2934 CV_CALL( fs->write_comment( fs, comment, eol_comment )); 2935 2936 __END__; 2937 } 2938 2939 2940 CV_IMPL void 2941 cvStartNextStream( CvFileStorage* fs ) 2942 { 2943 CV_FUNCNAME( "cvStartNextStream" ); 2944 2945 __BEGIN__; 2946 2947 CV_CHECK_OUTPUT_FILE_STORAGE(fs); 2948 CV_CALL( fs->start_next_stream( fs )); 2949 2950 __END__; 2951 } 2952 2953 2954 static const char icvTypeSymbol[] = "ucwsifdr"; 2955 #define CV_FS_MAX_FMT_PAIRS 128 2956 2957 static char* 2958 icvEncodeFormat( int elem_type, char* dt ) 2959 { 2960 sprintf( dt, "%d%c", CV_MAT_CN(elem_type), icvTypeSymbol[CV_MAT_DEPTH(elem_type)] ); 2961 return dt + ( dt[2] == '\0' && dt[0] == '1' ); 2962 } 2963 2964 static int 2965 icvDecodeFormat( const char* dt, int* fmt_pairs, int max_len ) 2966 { 2967 int fmt_pair_count = 0; 2968 CV_FUNCNAME( "icvDecodeFormat" ); 2969 2970 __BEGIN__; 2971 2972 int i = 0, k = 0, len = dt ? (int)strlen(dt) : 0; 2973 2974 if( !dt || !len ) 2975 EXIT; 2976 2977 assert( fmt_pairs != 0 && max_len > 0 ); 2978 fmt_pairs[0] = 0; 2979 max_len *= 2; 2980 2981 for( ; k < len; k++ ) 2982 { 2983 char c = dt[k]; 2984 2985 if( isdigit(c) ) 2986 { 2987 int count = c - '0'; 2988 if( isdigit(dt[k+1]) ) 2989 { 2990 char* endptr = 0; 2991 count = (int)strtol( dt+k, &endptr, 10 ); 2992 k = (int)(endptr - dt) - 1; 2993 } 2994 2995 if( count <= 0 ) 2996 CV_ERROR( CV_StsBadArg, "Invalid data type specification" ); 2997 2998 fmt_pairs[i] = count; 2999 } 3000 else 3001 { 3002 const char* pos = strchr( icvTypeSymbol, c ); 3003 if( !pos ) 3004 CV_ERROR( CV_StsBadArg, "Invalid data type specification" ); 3005 if( fmt_pairs[i] == 0 ) 3006 fmt_pairs[i] = 1; 3007 fmt_pairs[i+1] = (int)(pos - icvTypeSymbol); 3008 if( i > 0 && fmt_pairs[i+1] == fmt_pairs[i-1] ) 3009 fmt_pairs[i-2] += fmt_pairs[i]; 3010 else 3011 { 3012 i += 2; 3013 if( i >= max_len ) 3014 CV_ERROR( CV_StsBadArg, "Too long data type specification" ); 3015 } 3016 fmt_pairs[i] = 0; 3017 } 3018 } 3019 3020 fmt_pair_count = i/2; 3021 3022 __END__; 3023 3024 return fmt_pair_count; 3025 } 3026 3027 3028 static int 3029 icvCalcElemSize( const char* dt, int initial_size ) 3030 { 3031 int size = 0; 3032 CV_FUNCNAME( "icvCalcElemSize" ); 3033 3034 __BEGIN__; 3035 3036 int fmt_pairs[CV_FS_MAX_FMT_PAIRS], i, fmt_pair_count; 3037 int comp_size; 3038 3039 CV_CALL( fmt_pair_count = icvDecodeFormat( dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS )); 3040 fmt_pair_count *= 2; 3041 for( i = 0, size = initial_size; i < fmt_pair_count; i += 2 ) 3042 { 3043 comp_size = CV_ELEM_SIZE(fmt_pairs[i+1]); 3044 size = cvAlign( size, comp_size ); 3045 size += comp_size * fmt_pairs[i]; 3046 } 3047 if( initial_size == 0 ) 3048 { 3049 comp_size = CV_ELEM_SIZE(fmt_pairs[1]); 3050 size = cvAlign( size, comp_size ); 3051 } 3052 3053 __END__; 3054 3055 return size; 3056 } 3057 3058 3059 static int 3060 icvDecodeSimpleFormat( const char* dt ) 3061 { 3062 int elem_type = -1; 3063 3064 CV_FUNCNAME( "icvDecodeSimpleFormat" ); 3065 3066 __BEGIN__; 3067 3068 int fmt_pairs[CV_FS_MAX_FMT_PAIRS], fmt_pair_count; 3069 3070 CV_CALL( fmt_pair_count = icvDecodeFormat( dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS )); 3071 if( fmt_pair_count != 1 || fmt_pairs[0] > 4 ) 3072 CV_ERROR( CV_StsError, "Too complex format for the matrix" ); 3073 3074 elem_type = CV_MAKETYPE( fmt_pairs[1], fmt_pairs[0] ); 3075 3076 __END__; 3077 3078 return elem_type; 3079 } 3080 3081 3082 CV_IMPL void 3083 cvWriteRawData( CvFileStorage* fs, const void* _data, int len, const char* dt ) 3084 { 3085 const char* data0 = (const char*)_data; 3086 3087 CV_FUNCNAME( "cvWriteRawData" ); 3088 3089 __BEGIN__; 3090 3091 int offset = 0; 3092 int fmt_pairs[CV_FS_MAX_FMT_PAIRS*2], k, fmt_pair_count; 3093 char buf[256] = ""; 3094 3095 CV_CHECK_OUTPUT_FILE_STORAGE( fs ); 3096 3097 if( !data0 ) 3098 CV_ERROR( CV_StsNullPtr, "Null data pointer" ); 3099 3100 if( len < 0 ) 3101 CV_ERROR( CV_StsOutOfRange, "Negative number of elements" ); 3102 3103 CV_CALL( fmt_pair_count = icvDecodeFormat( dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS )); 3104 3105 if( !len ) 3106 EXIT; 3107 3108 if( fmt_pair_count == 1 ) 3109 { 3110 fmt_pairs[0] *= len; 3111 len = 1; 3112 } 3113 3114 for(;len--;) 3115 { 3116 for( k = 0; k < fmt_pair_count; k++ ) 3117 { 3118 int i, count = fmt_pairs[k*2]; 3119 int elem_type = fmt_pairs[k*2+1]; 3120 int elem_size = CV_ELEM_SIZE(elem_type); 3121 const char* data, *ptr; 3122 3123 offset = cvAlign( offset, elem_size ); 3124 data = data0 + offset; 3125 3126 for( i = 0; i < count; i++ ) 3127 { 3128 switch( elem_type ) 3129 { 3130 case CV_8U: 3131 ptr = icv_itoa( *(uchar*)data, buf, 10 ); 3132 data++; 3133 break; 3134 case CV_8S: 3135 ptr = icv_itoa( *(char*)data, buf, 10 ); 3136 data++; 3137 break; 3138 case CV_16U: 3139 ptr = icv_itoa( *(ushort*)data, buf, 10 ); 3140 data += sizeof(ushort); 3141 break; 3142 case CV_16S: 3143 ptr = icv_itoa( *(short*)data, buf, 10 ); 3144 data += sizeof(short); 3145 break; 3146 case CV_32S: 3147 ptr = icv_itoa( *(int*)data, buf, 10 ); 3148 data += sizeof(int); 3149 break; 3150 case CV_32F: 3151 ptr = icvFloatToString( buf, *(float*)data ); 3152 data += sizeof(float); 3153 break; 3154 case CV_64F: 3155 ptr = icvDoubleToString( buf, *(double*)data ); 3156 data += sizeof(double); 3157 break; 3158 case CV_USRTYPE1: /* reference */ 3159 ptr = icv_itoa( (int)*(size_t*)data, buf, 10 ); 3160 data += sizeof(size_t); 3161 break; 3162 default: 3163 assert(0); 3164 EXIT; 3165 } 3166 3167 if( fs->is_xml ) 3168 { 3169 int buf_len = (int)strlen(ptr); 3170 CV_CALL( icvXMLWriteScalar( fs, 0, ptr, buf_len )); 3171 } 3172 else 3173 CV_CALL( icvYMLWrite( fs, 0, ptr, cvFuncName )); 3174 } 3175 3176 offset = (int)(data - data0); 3177 } 3178 } 3179 3180 __END__; 3181 } 3182 3183 3184 CV_IMPL void 3185 cvStartReadRawData( const CvFileStorage* fs, const CvFileNode* src, CvSeqReader* reader ) 3186 { 3187 CV_FUNCNAME( "cvStartReadRawData" ); 3188 3189 __BEGIN__; 3190 3191 int node_type; 3192 CV_CHECK_FILE_STORAGE( fs ); 3193 3194 if( !src || !reader ) 3195 CV_ERROR( CV_StsNullPtr, "Null pointer to source file node or reader" ); 3196 3197 node_type = CV_NODE_TYPE(src->tag); 3198 if( node_type == CV_NODE_INT || node_type == CV_NODE_REAL ) 3199 { 3200 // emulate reading from 1-element sequence 3201 reader->ptr = (schar*)src; 3202 reader->block_max = reader->ptr + sizeof(*src)*2; 3203 reader->block_min = reader->ptr; 3204 reader->seq = 0; 3205 } 3206 else if( node_type == CV_NODE_SEQ ) 3207 { 3208 CV_CALL( cvStartReadSeq( src->data.seq, reader, 0 )); 3209 } 3210 else if( node_type == CV_NODE_NONE ) 3211 { 3212 memset( reader, 0, sizeof(*reader) ); 3213 } 3214 else 3215 CV_ERROR( CV_StsBadArg, "The file node should be a numerical scalar or a sequence" ); 3216 3217 __END__; 3218 } 3219 3220 3221 CV_IMPL void 3222 cvReadRawDataSlice( const CvFileStorage* fs, CvSeqReader* reader, 3223 int len, void* _data, const char* dt ) 3224 { 3225 char* data0 = (char*)_data; 3226 CV_FUNCNAME( "cvReadRawDataSlice" ); 3227 3228 __BEGIN__; 3229 3230 int fmt_pairs[CV_FS_MAX_FMT_PAIRS*2], k = 0, fmt_pair_count; 3231 int i = 0, offset = 0, count = 0; 3232 3233 CV_CHECK_FILE_STORAGE( fs ); 3234 3235 if( !reader || !data0 ) 3236 CV_ERROR( CV_StsNullPtr, "Null pointer to reader or destination array" ); 3237 3238 if( !reader->seq && len != 1 ) 3239 CV_ERROR( CV_StsBadSize, "The readed sequence is a scalar, thus len must be 1" ); 3240 3241 CV_CALL( fmt_pair_count = icvDecodeFormat( dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS )); 3242 3243 for(;;) 3244 { 3245 for( k = 0; k < fmt_pair_count; k++ ) 3246 { 3247 int elem_type = fmt_pairs[k*2+1]; 3248 int elem_size = CV_ELEM_SIZE(elem_type); 3249 char* data; 3250 3251 count = fmt_pairs[k*2]; 3252 offset = cvAlign( offset, elem_size ); 3253 data = data0 + offset; 3254 3255 for( i = 0; i < count; i++ ) 3256 { 3257 CvFileNode* node = (CvFileNode*)reader->ptr; 3258 if( CV_NODE_IS_INT(node->tag) ) 3259 { 3260 int ival = node->data.i; 3261 3262 switch( elem_type ) 3263 { 3264 case CV_8U: 3265 *(uchar*)data = CV_CAST_8U(ival); 3266 data++; 3267 break; 3268 case CV_8S: 3269 *(char*)data = CV_CAST_8S(ival); 3270 break; 3271 case CV_16U: 3272 *(ushort*)data = CV_CAST_16U(ival); 3273 data += sizeof(ushort); 3274 break; 3275 case CV_16S: 3276 *(short*)data = CV_CAST_16S(ival); 3277 data += sizeof(short); 3278 break; 3279 case CV_32S: 3280 *(int*)data = ival; 3281 data += sizeof(int); 3282 break; 3283 case CV_32F: 3284 *(float*)data = (float)ival; 3285 data += sizeof(float); 3286 break; 3287 case CV_64F: 3288 *(double*)data = (double)ival; 3289 data += sizeof(double); 3290 break; 3291 case CV_USRTYPE1: /* reference */ 3292 *(size_t*)data = ival; 3293 data += sizeof(size_t); 3294 break; 3295 default: 3296 assert(0); 3297 EXIT; 3298 } 3299 } 3300 else if( CV_NODE_IS_REAL(node->tag) ) 3301 { 3302 double fval = node->data.f; 3303 int ival; 3304 3305 switch( elem_type ) 3306 { 3307 case CV_8U: 3308 ival = cvRound(fval); 3309 *(uchar*)data = CV_CAST_8U(ival); 3310 data++; 3311 break; 3312 case CV_8S: 3313 ival = cvRound(fval); 3314 *(char*)data = CV_CAST_8S(ival); 3315 break; 3316 case CV_16U: 3317 ival = cvRound(fval); 3318 *(ushort*)data = CV_CAST_16U(ival); 3319 data += sizeof(ushort); 3320 break; 3321 case CV_16S: 3322 ival = cvRound(fval); 3323 *(short*)data = CV_CAST_16S(ival); 3324 data += sizeof(short); 3325 break; 3326 case CV_32S: 3327 ival = cvRound(fval); 3328 *(int*)data = ival; 3329 data += sizeof(int); 3330 break; 3331 case CV_32F: 3332 *(float*)data = (float)fval; 3333 data += sizeof(float); 3334 break; 3335 case CV_64F: 3336 *(double*)data = fval; 3337 data += sizeof(double); 3338 break; 3339 case CV_USRTYPE1: /* reference */ 3340 ival = cvRound(fval); 3341 *(size_t*)data = ival; 3342 data += sizeof(size_t); 3343 break; 3344 default: 3345 assert(0); 3346 EXIT; 3347 } 3348 } 3349 else 3350 CV_ERROR( CV_StsError, 3351 "The sequence element is not a numerical scalar" ); 3352 3353 CV_NEXT_SEQ_ELEM( sizeof(CvFileNode), *reader ); 3354 if( !--len ) 3355 goto end_loop; 3356 } 3357 3358 offset = (int)(data - data0); 3359 } 3360 } 3361 3362 end_loop: 3363 if( i != count - 1 || k != fmt_pair_count - 1 ) 3364 CV_ERROR( CV_StsBadSize, 3365 "The sequence slice does not fit an integer number of records" ); 3366 3367 if( !reader->seq ) 3368 reader->ptr -= sizeof(CvFileNode); 3369 3370 __END__; 3371 } 3372 3373 3374 CV_IMPL void 3375 cvReadRawData( const CvFileStorage* fs, const CvFileNode* src, 3376 void* data, const char* dt ) 3377 { 3378 CV_FUNCNAME( "cvReadRawData" ); 3379 3380 __BEGIN__; 3381 3382 CvSeqReader reader; 3383 3384 if( !src || !data ) 3385 CV_ERROR( CV_StsNullPtr, "Null pointers to source file node or destination array" ); 3386 3387 CV_CALL( cvStartReadRawData( fs, src, &reader )); 3388 cvReadRawDataSlice( fs, &reader, CV_NODE_IS_SEQ(src->tag) ? 3389 src->data.seq->total : 1, data, dt ); 3390 3391 __END__; 3392 } 3393 3394 3395 static void 3396 icvWriteFileNode( CvFileStorage* fs, const char* name, const CvFileNode* node ); 3397 3398 static void 3399 icvWriteCollection( CvFileStorage* fs, const CvFileNode* node ) 3400 { 3401 int i, total = node->data.seq->total; 3402 int elem_size = node->data.seq->elem_size; 3403 int is_map = CV_NODE_IS_MAP(node->tag); 3404 CvSeqReader reader; 3405 3406 cvStartReadSeq( node->data.seq, &reader, 0 ); 3407 3408 for( i = 0; i < total; i++ ) 3409 { 3410 CvFileMapNode* elem = (CvFileMapNode*)reader.ptr; 3411 if( !is_map || CV_IS_SET_ELEM(elem) ) 3412 { 3413 const char* name = is_map ? elem->key->str.ptr : 0; 3414 icvWriteFileNode( fs, name, &elem->value ); 3415 } 3416 CV_NEXT_SEQ_ELEM( elem_size, reader ); 3417 } 3418 } 3419 3420 static void 3421 icvWriteFileNode( CvFileStorage* fs, const char* name, const CvFileNode* node ) 3422 { 3423 CV_FUNCNAME( "icvWriteFileNode" ); 3424 3425 __BEGIN__; 3426 3427 switch( CV_NODE_TYPE(node->tag) ) 3428 { 3429 case CV_NODE_INT: 3430 fs->write_int( fs, name, node->data.i ); 3431 break; 3432 case CV_NODE_REAL: 3433 fs->write_real( fs, name, node->data.f ); 3434 break; 3435 case CV_NODE_STR: 3436 fs->write_string( fs, name, node->data.str.ptr, 0 ); 3437 break; 3438 case CV_NODE_SEQ: 3439 case CV_NODE_MAP: 3440 fs->start_write_struct( fs, name, CV_NODE_TYPE(node->tag) + 3441 (CV_NODE_SEQ_IS_SIMPLE(node->data.seq) ? CV_NODE_FLOW : 0), 3442 node->info ? node->info->type_name : 0 ); 3443 icvWriteCollection( fs, node ); 3444 fs->end_write_struct( fs ); 3445 break; 3446 case CV_NODE_NONE: 3447 fs->start_write_struct( fs, name, CV_NODE_SEQ, 0 ); 3448 fs->end_write_struct( fs ); 3449 break; 3450 default: 3451 CV_ERROR( CV_StsBadFlag, "Unknown type of file node" ); 3452 } 3453 3454 __END__; 3455 } 3456 3457 3458 CV_IMPL void 3459 cvWriteFileNode( CvFileStorage* fs, const char* new_node_name, 3460 const CvFileNode* node, int embed ) 3461 { 3462 CvFileStorage* dst = 0; 3463 3464 CV_FUNCNAME( "cvWriteFileNode" ); 3465 3466 __BEGIN__; 3467 3468 CV_CHECK_OUTPUT_FILE_STORAGE(fs); 3469 3470 if( !node ) 3471 EXIT; 3472 3473 if( CV_NODE_IS_COLLECTION(node->tag) && embed ) 3474 { 3475 CV_CALL( icvWriteCollection( fs, node )); 3476 } 3477 else 3478 { 3479 CV_CALL( icvWriteFileNode( fs, new_node_name, node )); 3480 } 3481 /* 3482 int i, stream_count; 3483 stream_count = fs->roots->total; 3484 for( i = 0; i < stream_count; i++ ) 3485 { 3486 CvFileNode* node = (CvFileNode*)cvGetSeqElem( fs->roots, i, 0 ); 3487 icvDumpCollection( dst, node ); 3488 if( i < stream_count - 1 ) 3489 dst->start_next_stream( dst ); 3490 }*/ 3491 3492 __END__; 3493 3494 cvReleaseFileStorage( &dst ); 3495 } 3496 3497 3498 CV_IMPL const char* 3499 cvGetFileNodeName( const CvFileNode* file_node ) 3500 { 3501 return file_node && CV_NODE_HAS_NAME(file_node->tag) ? 3502 ((CvFileMapNode*)file_node)->key->str.ptr : 0; 3503 } 3504 3505 /****************************************************************************************\ 3506 * Reading/Writing etc. for standard types * 3507 \****************************************************************************************/ 3508 3509 /*#define CV_TYPE_NAME_MAT "opencv-matrix" 3510 #define CV_TYPE_NAME_MATND "opencv-nd-matrix" 3511 #define CV_TYPE_NAME_SPARSE_MAT "opencv-sparse-matrix" 3512 #define CV_TYPE_NAME_IMAGE "opencv-image" 3513 #define CV_TYPE_NAME_SEQ "opencv-sequence" 3514 #define CV_TYPE_NAME_SEQ_TREE "opencv-sequence-tree" 3515 #define CV_TYPE_NAME_GRAPH "opencv-graph"*/ 3516 3517 /******************************* CvMat ******************************/ 3518 3519 static int 3520 icvIsMat( const void* ptr ) 3521 { 3522 return CV_IS_MAT_HDR(ptr); 3523 } 3524 3525 static void 3526 icvWriteMat( CvFileStorage* fs, const char* name, 3527 const void* struct_ptr, CvAttrList /*attr*/ ) 3528 { 3529 CV_FUNCNAME( "icvWriteMat" ); 3530 3531 __BEGIN__; 3532 3533 const CvMat* mat = (const CvMat*)struct_ptr; 3534 char dt[16]; 3535 CvSize size; 3536 int y; 3537 3538 assert( CV_IS_MAT(mat) ); 3539 3540 CV_CALL( cvStartWriteStruct( fs, name, CV_NODE_MAP, CV_TYPE_NAME_MAT )); 3541 cvWriteInt( fs, "rows", mat->rows ); 3542 cvWriteInt( fs, "cols", mat->cols ); 3543 cvWriteString( fs, "dt", icvEncodeFormat( CV_MAT_TYPE(mat->type), dt ), 0 ); 3544 cvStartWriteStruct( fs, "data", CV_NODE_SEQ + CV_NODE_FLOW ); 3545 3546 size = cvGetSize(mat); 3547 if( CV_IS_MAT_CONT(mat->type) ) 3548 { 3549 size.width *= size.height; 3550 size.height = 1; 3551 } 3552 3553 for( y = 0; y < size.height; y++ ) 3554 cvWriteRawData( fs, mat->data.ptr + y*mat->step, size.width, dt ); 3555 cvEndWriteStruct( fs ); 3556 cvEndWriteStruct( fs ); 3557 3558 __END__; 3559 } 3560 3561 3562 static int 3563 icvFileNodeSeqLen( CvFileNode* node ) 3564 { 3565 return CV_NODE_IS_COLLECTION(node->tag) ? node->data.seq->total : 3566 CV_NODE_TYPE(node->tag) != CV_NODE_NONE; 3567 } 3568 3569 3570 static void* 3571 icvReadMat( CvFileStorage* fs, CvFileNode* node ) 3572 { 3573 void* ptr = 0; 3574 CV_FUNCNAME( "icvReadMat" ); 3575 3576 __BEGIN__; 3577 3578 CvMat* mat; 3579 const char* dt; 3580 CvFileNode* data; 3581 int rows, cols, elem_type; 3582 3583 CV_CALL( rows = cvReadIntByName( fs, node, "rows", 0 )); 3584 cols = cvReadIntByName( fs, node, "cols", 0 ); 3585 dt = cvReadStringByName( fs, node, "dt", 0 ); 3586 3587 if( rows == 0 || cols == 0 || dt == 0 ) 3588 CV_ERROR( CV_StsError, "Some of essential matrix attributes are absent" ); 3589 3590 CV_CALL( elem_type = icvDecodeSimpleFormat( dt )); 3591 3592 data = cvGetFileNodeByName( fs, node, "data" ); 3593 if( !data ) 3594 CV_ERROR( CV_StsError, "The matrix data is not found in file storage" ); 3595 3596 if( icvFileNodeSeqLen( data ) != rows*cols*CV_MAT_CN(elem_type) ) 3597 CV_ERROR( CV_StsUnmatchedSizes, 3598 "The matrix size does not match to the number of stored elements" ); 3599 3600 CV_CALL( mat = cvCreateMat( rows, cols, elem_type )); 3601 CV_CALL( cvReadRawData( fs, data, mat->data.ptr, dt )); 3602 3603 ptr = mat; 3604 3605 __END__; 3606 3607 return ptr; 3608 } 3609 3610 3611 /******************************* CvMatND ******************************/ 3612 3613 static int 3614 icvIsMatND( const void* ptr ) 3615 { 3616 return CV_IS_MATND(ptr); 3617 } 3618 3619 3620 static void 3621 icvWriteMatND( CvFileStorage* fs, const char* name, 3622 const void* struct_ptr, CvAttrList /*attr*/ ) 3623 { 3624 CV_FUNCNAME( "icvWriteMatND" ); 3625 3626 __BEGIN__; 3627 3628 void* mat = (void*)struct_ptr; 3629 CvMatND stub; 3630 CvNArrayIterator iterator; 3631 int dims, sizes[CV_MAX_DIM]; 3632 char dt[16]; 3633 3634 assert( CV_IS_MATND(mat) ); 3635 3636 CV_CALL( cvStartWriteStruct( fs, name, CV_NODE_MAP, CV_TYPE_NAME_MATND )); 3637 dims = cvGetDims( mat, sizes ); 3638 cvStartWriteStruct( fs, "sizes", CV_NODE_SEQ + CV_NODE_FLOW ); 3639 cvWriteRawData( fs, sizes, dims, "i" ); 3640 cvEndWriteStruct( fs ); 3641 cvWriteString( fs, "dt", icvEncodeFormat( cvGetElemType(mat), dt ), 0 ); 3642 cvStartWriteStruct( fs, "data", CV_NODE_SEQ + CV_NODE_FLOW ); 3643 3644 CV_CALL( cvInitNArrayIterator( 1, &mat, 0, &stub, &iterator )); 3645 3646 do 3647 cvWriteRawData( fs, iterator.ptr[0], iterator.size.width, dt ); 3648 while( cvNextNArraySlice( &iterator )); 3649 cvEndWriteStruct( fs ); 3650 cvEndWriteStruct( fs ); 3651 3652 __END__; 3653 } 3654 3655 3656 static void* 3657 icvReadMatND( CvFileStorage* fs, CvFileNode* node ) 3658 { 3659 void* ptr = 0; 3660 CV_FUNCNAME( "icvReadMatND" ); 3661 3662 __BEGIN__; 3663 3664 CvMatND* mat; 3665 const char* dt; 3666 CvFileNode* data; 3667 CvFileNode* sizes_node; 3668 int sizes[CV_MAX_DIM], dims, elem_type; 3669 int i, total_size; 3670 3671 CV_CALL( sizes_node = cvGetFileNodeByName( fs, node, "sizes" )); 3672 dt = cvReadStringByName( fs, node, "dt", 0 ); 3673 3674 if( !sizes_node || !dt ) 3675 CV_ERROR( CV_StsError, "Some of essential matrix attributes are absent" ); 3676 3677 dims = CV_NODE_IS_SEQ(sizes_node->tag) ? sizes_node->data.seq->total : 3678 CV_NODE_IS_INT(sizes_node->tag) ? 1 : -1; 3679 3680 if( dims <= 0 || dims > CV_MAX_DIM ) 3681 CV_ERROR( CV_StsParseError, "Could not determine the matrix dimensionality" ); 3682 3683 CV_CALL( cvReadRawData( fs, sizes_node, sizes, "i" )); 3684 CV_CALL( elem_type = icvDecodeSimpleFormat( dt )); 3685 3686 data = cvGetFileNodeByName( fs, node, "data" ); 3687 if( !data ) 3688 CV_ERROR( CV_StsError, "The matrix data is not found in file storage" ); 3689 3690 for( total_size = CV_MAT_CN(elem_type), i = 0; i < dims; i++ ) 3691 total_size *= sizes[i]; 3692 3693 if( icvFileNodeSeqLen( data ) != total_size ) 3694 CV_ERROR( CV_StsUnmatchedSizes, 3695 "The matrix size does not match to the number of stored elements" ); 3696 3697 CV_CALL( mat = cvCreateMatND( dims, sizes, elem_type )); 3698 CV_CALL( cvReadRawData( fs, data, mat->data.ptr, dt )); 3699 3700 ptr = mat; 3701 3702 __END__; 3703 3704 return ptr; 3705 } 3706 3707 3708 /******************************* CvSparseMat ******************************/ 3709 3710 static int 3711 icvIsSparseMat( const void* ptr ) 3712 { 3713 return CV_IS_SPARSE_MAT(ptr); 3714 } 3715 3716 3717 static int 3718 icvSortIdxCmpFunc( const void* _a, const void* _b, void* userdata ) 3719 { 3720 int i, dims = *(int*)userdata; 3721 const int* a = *(const int**)_a; 3722 const int* b = *(const int**)_b; 3723 3724 for( i = 0; i < dims; i++ ) 3725 { 3726 int delta = a[i] - b[i]; 3727 if( delta ) 3728 return delta; 3729 } 3730 3731 return 0; 3732 } 3733 3734 3735 static void 3736 icvWriteSparseMat( CvFileStorage* fs, const char* name, 3737 const void* struct_ptr, CvAttrList /*attr*/ ) 3738 { 3739 CvMemStorage* memstorage = 0; 3740 3741 CV_FUNCNAME( "icvWriteSparseMat" ); 3742 3743 __BEGIN__; 3744 3745 const CvSparseMat* mat = (const CvSparseMat*)struct_ptr; 3746 CvSparseMatIterator iterator; 3747 CvSparseNode* node; 3748 CvSeq* elements; 3749 CvSeqReader reader; 3750 int i, dims; 3751 int *prev_idx = 0; 3752 char dt[16]; 3753 3754 assert( CV_IS_SPARSE_MAT(mat) ); 3755 3756 CV_CALL( memstorage = cvCreateMemStorage()); 3757 3758 CV_CALL( cvStartWriteStruct( fs, name, CV_NODE_MAP, CV_TYPE_NAME_SPARSE_MAT )); 3759 dims = cvGetDims( mat, 0 ); 3760 3761 cvStartWriteStruct( fs, "sizes", CV_NODE_SEQ + CV_NODE_FLOW ); 3762 cvWriteRawData( fs, mat->size, dims, "i" ); 3763 cvEndWriteStruct( fs ); 3764 cvWriteString( fs, "dt", icvEncodeFormat( CV_MAT_TYPE(mat->type), dt ), 0 ); 3765 cvStartWriteStruct( fs, "data", CV_NODE_SEQ + CV_NODE_FLOW ); 3766 3767 elements = cvCreateSeq( CV_SEQ_ELTYPE_PTR, sizeof(CvSeq), sizeof(int*), memstorage ); 3768 3769 node = cvInitSparseMatIterator( mat, &iterator ); 3770 while( node ) 3771 { 3772 int* idx = CV_NODE_IDX( mat, node ); 3773 cvSeqPush( elements, &idx ); 3774 node = cvGetNextSparseNode( &iterator ); 3775 } 3776 3777 cvSeqSort( elements, icvSortIdxCmpFunc, &dims ); 3778 cvStartReadSeq( elements, &reader, 0 ); 3779 3780 for( i = 0; i < elements->total; i++ ) 3781 { 3782 int* idx; 3783 void* val; 3784 int k = 0; 3785 3786 CV_READ_SEQ_ELEM( idx, reader ); 3787 if( i > 0 ) 3788 { 3789 for( ; idx[k] == prev_idx[k]; k++ ) 3790 assert( k < dims ); 3791 if( k < dims - 1 ) 3792 fs->write_int( fs, 0, k - dims + 1 ); 3793 } 3794 for( ; k < dims; k++ ) 3795 fs->write_int( fs, 0, idx[k] ); 3796 prev_idx = idx; 3797 3798 node = (CvSparseNode*)((uchar*)idx - mat->idxoffset ); 3799 val = CV_NODE_VAL( mat, node ); 3800 3801 cvWriteRawData( fs, val, 1, dt ); 3802 } 3803 3804 cvEndWriteStruct( fs ); 3805 cvEndWriteStruct( fs ); 3806 3807 __END__; 3808 3809 cvReleaseMemStorage( &memstorage ); 3810 } 3811 3812 3813 static void* 3814 icvReadSparseMat( CvFileStorage* fs, CvFileNode* node ) 3815 { 3816 void* ptr = 0; 3817 CV_FUNCNAME( "icvReadSparseMat" ); 3818 3819 __BEGIN__; 3820 3821 CvSparseMat* mat; 3822 const char* dt; 3823 CvFileNode* data; 3824 CvFileNode* sizes_node; 3825 CvSeqReader reader; 3826 CvSeq* elements; 3827 int* idx; 3828 int* sizes = 0, dims, elem_type, cn; 3829 int i; 3830 3831 CV_CALL( sizes_node = cvGetFileNodeByName( fs, node, "sizes" )); 3832 dt = cvReadStringByName( fs, node, "dt", 0 ); 3833 3834 if( !sizes_node || !dt ) 3835 CV_ERROR( CV_StsError, "Some of essential matrix attributes are absent" ); 3836 3837 dims = CV_NODE_IS_SEQ(sizes_node->tag) ? sizes_node->data.seq->total : 3838 CV_NODE_IS_INT(sizes_node->tag) ? 1 : -1; 3839 3840 if( dims <= 0 || dims > CV_MAX_DIM_HEAP ) 3841 CV_ERROR( CV_StsParseError, "Could not determine sparse matrix dimensionality" ); 3842 3843 sizes = (int*)alloca( dims*sizeof(sizes[0])); 3844 CV_CALL( cvReadRawData( fs, sizes_node, sizes, "i" )); 3845 CV_CALL( elem_type = icvDecodeSimpleFormat( dt )); 3846 3847 data = cvGetFileNodeByName( fs, node, "data" ); 3848 if( !data || !CV_NODE_IS_SEQ(data->tag) ) 3849 CV_ERROR( CV_StsError, "The matrix data is not found in file storage" ); 3850 3851 CV_CALL( mat = cvCreateSparseMat( dims, sizes, elem_type )); 3852 3853 cn = CV_MAT_CN(elem_type); 3854 idx = (int*)alloca( dims*sizeof(idx[0]) ); 3855 elements = data->data.seq; 3856 cvStartReadRawData( fs, data, &reader ); 3857 3858 for( i = 0; i < elements->total; ) 3859 { 3860 CvFileNode* elem = (CvFileNode*)reader.ptr; 3861 uchar* val; 3862 int k; 3863 if( !CV_NODE_IS_INT(elem->tag )) 3864 CV_ERROR( CV_StsParseError, "Sparse matrix data is corrupted" ); 3865 k = elem->data.i; 3866 if( i > 0 && k >= 0 ) 3867 idx[dims-1] = k; 3868 else 3869 { 3870 if( i > 0 ) 3871 k = dims + k - 1; 3872 else 3873 idx[0] = k, k = 1; 3874 for( ; k < dims; k++ ) 3875 { 3876 CV_NEXT_SEQ_ELEM( elements->elem_size, reader ); 3877 i++; 3878 elem = (CvFileNode*)reader.ptr; 3879 if( !CV_NODE_IS_INT(elem->tag ) || elem->data.i < 0 ) 3880 CV_ERROR( CV_StsParseError, "Sparse matrix data is corrupted" ); 3881 idx[k] = elem->data.i; 3882 } 3883 } 3884 CV_NEXT_SEQ_ELEM( elements->elem_size, reader ); 3885 i++; 3886 CV_CALL( val = cvPtrND( mat, idx, 0, 1, 0 )); 3887 CV_CALL( cvReadRawDataSlice( fs, &reader, cn, val, dt )); 3888 i += cn; 3889 } 3890 3891 ptr = mat; 3892 3893 __END__; 3894 3895 return ptr; 3896 } 3897 3898 3899 /******************************* IplImage ******************************/ 3900 3901 static int 3902 icvIsImage( const void* ptr ) 3903 { 3904 return CV_IS_IMAGE_HDR(ptr); 3905 } 3906 3907 static void 3908 icvWriteImage( CvFileStorage* fs, const char* name, 3909 const void* struct_ptr, CvAttrList /*attr*/ ) 3910 { 3911 CV_FUNCNAME( "icvWriteImage" ); 3912 3913 __BEGIN__; 3914 3915 const IplImage* image = (const IplImage*)struct_ptr; 3916 char dt_buf[16], *dt; 3917 CvSize size; 3918 int y, depth; 3919 3920 assert( CV_IS_IMAGE(image) ); 3921 3922 if( image->dataOrder == IPL_DATA_ORDER_PLANE ) 3923 CV_ERROR( CV_StsUnsupportedFormat, 3924 "Images with planar data layout are not supported" ); 3925 3926 CV_CALL( cvStartWriteStruct( fs, name, CV_NODE_MAP, CV_TYPE_NAME_IMAGE )); 3927 cvWriteInt( fs, "width", image->width ); 3928 cvWriteInt( fs, "height", image->height ); 3929 cvWriteString( fs, "origin", image->origin == IPL_ORIGIN_TL 3930 ? "top-left" : "bottom-left", 0 ); 3931 cvWriteString( fs, "layout", image->dataOrder == IPL_DATA_ORDER_PLANE 3932 ? "planar" : "interleaved", 0 ); 3933 if( image->roi ) 3934 { 3935 cvStartWriteStruct( fs, "roi", CV_NODE_MAP + CV_NODE_FLOW ); 3936 cvWriteInt( fs, "x", image->roi->xOffset ); 3937 cvWriteInt( fs, "y", image->roi->yOffset ); 3938 cvWriteInt( fs, "width", image->roi->width ); 3939 cvWriteInt( fs, "height", image->roi->height ); 3940 cvWriteInt( fs, "coi", image->roi->coi ); 3941 cvEndWriteStruct( fs ); 3942 } 3943 3944 depth = icvIplToCvDepth(image->depth); 3945 sprintf( dt_buf, "%d%c", image->nChannels, icvTypeSymbol[depth] ); 3946 dt = dt_buf + (dt_buf[2] == '\0' && dt_buf[0] == '1'); 3947 cvWriteString( fs, "dt", dt, 0 ); 3948 3949 size = cvSize(image->width, image->height); 3950 if( size.width*image->nChannels*CV_ELEM_SIZE(depth) == image->widthStep ) 3951 { 3952 size.width *= size.height; 3953 size.height = 1; 3954 } 3955 3956 cvStartWriteStruct( fs, "data", CV_NODE_SEQ + CV_NODE_FLOW ); 3957 for( y = 0; y < size.height; y++ ) 3958 cvWriteRawData( fs, image->imageData + y*image->widthStep, size.width, dt ); 3959 cvEndWriteStruct( fs ); 3960 cvEndWriteStruct( fs ); 3961 3962 __END__; 3963 } 3964 3965 3966 static void* 3967 icvReadImage( CvFileStorage* fs, CvFileNode* node ) 3968 { 3969 void* ptr = 0; 3970 CV_FUNCNAME( "icvReadImage" ); 3971 3972 __BEGIN__; 3973 3974 IplImage* image; 3975 const char* dt; 3976 CvFileNode* data; 3977 CvFileNode* roi_node; 3978 CvSeqReader reader; 3979 CvRect roi; 3980 int y, width, height, elem_type, coi, depth; 3981 const char* origin, *data_order; 3982 3983 CV_CALL( width = cvReadIntByName( fs, node, "width", 0 )); 3984 height = cvReadIntByName( fs, node, "height", 0 ); 3985 dt = cvReadStringByName( fs, node, "dt", 0 ); 3986 origin = cvReadStringByName( fs, node, "origin", 0 ); 3987 3988 if( width == 0 || height == 0 || dt == 0 || origin == 0 ) 3989 CV_ERROR( CV_StsError, "Some of essential image attributes are absent" ); 3990 3991 CV_CALL( elem_type = icvDecodeSimpleFormat( dt )); 3992 data_order = cvReadStringByName( fs, node, "layout", "interleaved" ); 3993 if( strcmp( data_order, "interleaved" ) != 0 ) 3994 CV_ERROR( CV_StsError, "Only interleaved images can be read" ); 3995 3996 data = cvGetFileNodeByName( fs, node, "data" ); 3997 if( !data ) 3998 CV_ERROR( CV_StsError, "The image data is not found in file storage" ); 3999 4000 if( icvFileNodeSeqLen( data ) != width*height*CV_MAT_CN(elem_type) ) 4001 CV_ERROR( CV_StsUnmatchedSizes, 4002 "The matrix size does not match to the number of stored elements" ); 4003 4004 depth = cvCvToIplDepth(elem_type); 4005 CV_CALL( image = cvCreateImage( cvSize(width,height), depth, CV_MAT_CN(elem_type) )); 4006 4007 roi_node = cvGetFileNodeByName( fs, node, "roi" ); 4008 if( roi_node ) 4009 { 4010 roi.x = cvReadIntByName( fs, roi_node, "x", 0 ); 4011 roi.y = cvReadIntByName( fs, roi_node, "y", 0 ); 4012 roi.width = cvReadIntByName( fs, roi_node, "width", 0 ); 4013 roi.height = cvReadIntByName( fs, roi_node, "height", 0 ); 4014 coi = cvReadIntByName( fs, roi_node, "coi", 0 ); 4015 4016 cvSetImageROI( image, roi ); 4017 cvSetImageCOI( image, coi ); 4018 } 4019 4020 if( width*CV_ELEM_SIZE(elem_type) == image->widthStep ) 4021 { 4022 width *= height; 4023 height = 1; 4024 } 4025 4026 width *= CV_MAT_CN(elem_type); 4027 cvStartReadRawData( fs, data, &reader ); 4028 for( y = 0; y < height; y++ ) 4029 { 4030 CV_CALL( cvReadRawDataSlice( fs, &reader, width, 4031 image->imageData + y*image->widthStep, dt )); 4032 } 4033 4034 ptr = image; 4035 4036 __END__; 4037 4038 return ptr; 4039 } 4040 4041 4042 /******************************* CvSeq ******************************/ 4043 4044 static int 4045 icvIsSeq( const void* ptr ) 4046 { 4047 return CV_IS_SEQ(ptr); 4048 } 4049 4050 4051 static void 4052 icvReleaseSeq( void** ptr ) 4053 { 4054 CV_FUNCNAME( "icvReleaseSeq" ); 4055 4056 __BEGIN__; 4057 4058 if( !ptr ) 4059 CV_ERROR( CV_StsNullPtr, "NULL double pointer" ); 4060 4061 *ptr = 0; // it's impossible now to release seq, so just clear the pointer 4062 4063 __END__; 4064 } 4065 4066 4067 static void* 4068 icvCloneSeq( const void* ptr ) 4069 { 4070 return cvSeqSlice( (CvSeq*)ptr, CV_WHOLE_SEQ, 4071 0 /* use the same storage as for the original sequence */, 1 ); 4072 } 4073 4074 4075 static void 4076 icvWriteHeaderData( CvFileStorage* fs, const CvSeq* seq, 4077 CvAttrList* attr, int initial_header_size ) 4078 { 4079 CV_FUNCNAME( "icvWriteHeaderData" ); 4080 4081 __BEGIN__; 4082 4083 char header_dt_buf[128]; 4084 const char* header_dt = cvAttrValue( attr, "header_dt" ); 4085 4086 if( header_dt ) 4087 { 4088 int dt_header_size; 4089 CV_CALL( dt_header_size = icvCalcElemSize( header_dt, initial_header_size )); 4090 if( dt_header_size > seq->header_size ) 4091 CV_ERROR( CV_StsUnmatchedSizes, 4092 "The size of header calculated from \"header_dt\" is greater than header_size" ); 4093 } 4094 else if( seq->header_size > initial_header_size ) 4095 { 4096 if( CV_IS_SEQ(seq) && CV_IS_SEQ_POINT_SET(seq) && 4097 seq->header_size == sizeof(CvPoint2DSeq) && 4098 seq->elem_size == sizeof(int)*2 ) 4099 { 4100 CvPoint2DSeq* point_seq = (CvPoint2DSeq*)seq; 4101 4102 cvStartWriteStruct( fs, "rect", CV_NODE_MAP + CV_NODE_FLOW ); 4103 cvWriteInt( fs, "x", point_seq->rect.x ); 4104 cvWriteInt( fs, "y", point_seq->rect.y ); 4105 cvWriteInt( fs, "width", point_seq->rect.width ); 4106 cvWriteInt( fs, "height", point_seq->rect.height ); 4107 cvEndWriteStruct( fs ); 4108 cvWriteInt( fs, "color", point_seq->color ); 4109 } 4110 else if( CV_IS_SEQ(seq) && CV_IS_SEQ_CHAIN(seq) && 4111 CV_MAT_TYPE(seq->flags) == CV_8UC1 ) 4112 { 4113 CvChain* chain = (CvChain*)seq; 4114 4115 cvStartWriteStruct( fs, "origin", CV_NODE_MAP + CV_NODE_FLOW ); 4116 cvWriteInt( fs, "x", chain->origin.x ); 4117 cvWriteInt( fs, "y", chain->origin.y ); 4118 cvEndWriteStruct( fs ); 4119 } 4120 else 4121 { 4122 unsigned extra_size = seq->header_size - initial_header_size; 4123 // a heuristic to provide nice defaults for sequences of int's & float's 4124 if( extra_size % sizeof(int) == 0 ) 4125 sprintf( header_dt_buf, "%ui", (unsigned)(extra_size/sizeof(int)) ); 4126 else 4127 sprintf( header_dt_buf, "%uu", extra_size ); 4128 header_dt = header_dt_buf; 4129 } 4130 } 4131 4132 if( header_dt ) 4133 { 4134 cvWriteString( fs, "header_dt", header_dt, 0 ); 4135 cvStartWriteStruct( fs, "header_user_data", CV_NODE_SEQ + CV_NODE_FLOW ); 4136 cvWriteRawData( fs, (uchar*)seq + sizeof(CvSeq), 1, header_dt ); 4137 cvEndWriteStruct( fs ); 4138 } 4139 4140 __END__; 4141 } 4142 4143 4144 static char* 4145 icvGetFormat( const CvSeq* seq, const char* dt_key, CvAttrList* attr, 4146 int initial_elem_size, char* dt_buf ) 4147 { 4148 char* dt = 0; 4149 4150 CV_FUNCNAME( "icvWriteFormat" ); 4151 4152 __BEGIN__; 4153 4154 dt = (char*)cvAttrValue( attr, dt_key ); 4155 4156 if( dt ) 4157 { 4158 int dt_elem_size; 4159 CV_CALL( dt_elem_size = icvCalcElemSize( dt, initial_elem_size )); 4160 if( dt_elem_size != seq->elem_size ) 4161 CV_ERROR( CV_StsUnmatchedSizes, 4162 "The size of element calculated from \"dt\" and " 4163 "the elem_size do not match" ); 4164 } 4165 else if( CV_MAT_TYPE(seq->flags) != 0 || seq->elem_size == 1 ) 4166 { 4167 int align = CV_MAT_DEPTH(seq->flags) == CV_64F ? sizeof(double) : sizeof(size_t); 4168 int full_elem_size = cvAlign(CV_ELEM_SIZE(seq->flags) + initial_elem_size, align); 4169 if( seq->elem_size != full_elem_size ) 4170 CV_ERROR( CV_StsUnmatchedSizes, 4171 "Size of sequence element (elem_size) is inconsistent with seq->flags" ); 4172 dt = icvEncodeFormat( CV_MAT_TYPE(seq->flags), dt_buf ); 4173 } 4174 else if( seq->elem_size > initial_elem_size ) 4175 { 4176 unsigned extra_elem_size = seq->elem_size - initial_elem_size; 4177 // a heuristic to provide nice defaults for sequences of int's & float's 4178 if( extra_elem_size % sizeof(int) == 0 ) 4179 sprintf( dt_buf, "%ui", (unsigned)(extra_elem_size/sizeof(int)) ); 4180 else 4181 sprintf( dt_buf, "%uu", extra_elem_size ); 4182 dt = dt_buf; 4183 } 4184 4185 __END__; 4186 4187 return dt; 4188 } 4189 4190 4191 static void 4192 icvWriteSeq( CvFileStorage* fs, const char* name, 4193 const void* struct_ptr, 4194 CvAttrList attr, int level ) 4195 { 4196 CV_FUNCNAME( "icvWriteSeq" ); 4197 4198 __BEGIN__; 4199 4200 const CvSeq* seq = (CvSeq*)struct_ptr; 4201 CvSeqBlock* block; 4202 char buf[128]; 4203 char dt_buf[128], *dt; 4204 4205 assert( CV_IS_SEQ( seq )); 4206 CV_CALL( cvStartWriteStruct( fs, name, CV_NODE_MAP, CV_TYPE_NAME_SEQ )); 4207 4208 if( level >= 0 ) 4209 cvWriteInt( fs, "level", level ); 4210 4211 sprintf( buf, "%08x", seq->flags ); 4212 cvWriteString( fs, "flags", buf, 1 ); 4213 cvWriteInt( fs, "count", seq->total ); 4214 CV_CALL( dt = icvGetFormat( seq, "dt", &attr, 0, dt_buf )); 4215 cvWriteString( fs, "dt", dt, 0 ); 4216 4217 CV_CALL( icvWriteHeaderData( fs, seq, &attr, sizeof(CvSeq) )); 4218 cvStartWriteStruct( fs, "data", CV_NODE_SEQ + CV_NODE_FLOW ); 4219 4220 for( block = seq->first; block; block = block->next ) 4221 { 4222 cvWriteRawData( fs, block->data, block->count, dt ); 4223 if( block == seq->first->prev ) 4224 break; 4225 } 4226 cvEndWriteStruct( fs ); 4227 cvEndWriteStruct( fs ); 4228 4229 __END__; 4230 } 4231 4232 4233 static void 4234 icvWriteSeqTree( CvFileStorage* fs, const char* name, 4235 const void* struct_ptr, CvAttrList attr ) 4236 { 4237 CV_FUNCNAME( "icvWriteSeqTree" ); 4238 4239 __BEGIN__; 4240 4241 const CvSeq* seq = (CvSeq*)struct_ptr; 4242 const char* recursive_value = cvAttrValue( &attr, "recursive" ); 4243 int is_recursive = recursive_value && 4244 strcmp(recursive_value,"0") != 0 && 4245 strcmp(recursive_value,"false") != 0 && 4246 strcmp(recursive_value,"False") != 0 && 4247 strcmp(recursive_value,"FALSE") != 0; 4248 4249 assert( CV_IS_SEQ( seq )); 4250 4251 if( !is_recursive ) 4252 { 4253 CV_CALL( icvWriteSeq( fs, name, seq, attr, -1 )); 4254 } 4255 else 4256 { 4257 CvTreeNodeIterator tree_iterator; 4258 4259 CV_CALL( cvStartWriteStruct( fs, name, CV_NODE_MAP, CV_TYPE_NAME_SEQ_TREE )); 4260 CV_CALL( cvStartWriteStruct( fs, "sequences", CV_NODE_SEQ )); 4261 cvInitTreeNodeIterator( &tree_iterator, seq, INT_MAX ); 4262 4263 for(;;) 4264 { 4265 if( !tree_iterator.node ) 4266 break; 4267 CV_CALL( icvWriteSeq( fs, 0, tree_iterator.node, attr, tree_iterator.level )); 4268 cvNextTreeNode( &tree_iterator ); 4269 } 4270 4271 cvEndWriteStruct( fs ); 4272 cvEndWriteStruct( fs ); 4273 } 4274 4275 __END__; 4276 } 4277 4278 4279 static void* 4280 icvReadSeq( CvFileStorage* fs, CvFileNode* node ) 4281 { 4282 void* ptr = 0; 4283 CV_FUNCNAME( "icvReadSeq" ); 4284 4285 __BEGIN__; 4286 4287 CvSeq* seq; 4288 CvSeqBlock* block; 4289 CvFileNode *data, *header_node, *rect_node, *origin_node; 4290 CvSeqReader reader; 4291 int total, flags; 4292 int elem_size, header_size = sizeof(CvSeq); 4293 int fmt_pairs[CV_FS_MAX_FMT_PAIRS], i, fmt_pair_count; 4294 int items_per_elem = 0; 4295 const char* flags_str; 4296 const char* header_dt; 4297 const char* dt; 4298 char* endptr = 0; 4299 4300 CV_CALL( flags_str = cvReadStringByName( fs, node, "flags", 0 )); 4301 total = cvReadIntByName( fs, node, "count", -1 ); 4302 dt = cvReadStringByName( fs, node, "dt", 0 ); 4303 4304 if( !flags_str || total == -1 || !dt ) 4305 CV_ERROR( CV_StsError, "Some of essential sequence attributes are absent" ); 4306 4307 flags = (int)strtol( flags_str, &endptr, 16 ); 4308 if( endptr == flags_str || (flags & CV_MAGIC_MASK) != CV_SEQ_MAGIC_VAL ) 4309 CV_ERROR( CV_StsError, "The sequence flags are invalid" ); 4310 4311 header_dt = cvReadStringByName( fs, node, "header_dt", 0 ); 4312 header_node = cvGetFileNodeByName( fs, node, "header_user_data" ); 4313 4314 if( (header_dt != 0) ^ (header_node != 0) ) 4315 CV_ERROR( CV_StsError, 4316 "One of \"header_dt\" and \"header_user_data\" is there, while the other is not" ); 4317 4318 rect_node = cvGetFileNodeByName( fs, node, "rect" ); 4319 origin_node = cvGetFileNodeByName( fs, node, "origin" ); 4320 4321 if( (header_node != 0) + (rect_node != 0) + (origin_node != 0) > 1 ) 4322 CV_ERROR( CV_StsError, "Only one of \"header_user_data\", \"rect\" and \"origin\" tags may occur" ); 4323 4324 if( header_dt ) 4325 { 4326 CV_CALL( header_size = icvCalcElemSize( header_dt, header_size )); 4327 } 4328 else if( rect_node ) 4329 header_size = sizeof(CvPoint2DSeq); 4330 else if( origin_node ) 4331 header_size = sizeof(CvChain); 4332 4333 CV_CALL( elem_size = icvCalcElemSize( dt, 0 )); 4334 CV_CALL( seq = cvCreateSeq( flags, header_size, elem_size, fs->dststorage )); 4335 4336 if( header_node ) 4337 { 4338 CV_CALL( cvReadRawData( fs, header_node, (char*)seq + sizeof(CvSeq), header_dt )); 4339 } 4340 else if( rect_node ) 4341 { 4342 CvPoint2DSeq* point_seq = (CvPoint2DSeq*)seq; 4343 point_seq->rect.x = cvReadIntByName( fs, rect_node, "x", 0 ); 4344 point_seq->rect.y = cvReadIntByName( fs, rect_node, "y", 0 ); 4345 point_seq->rect.width = cvReadIntByName( fs, rect_node, "width", 0 ); 4346 point_seq->rect.height = cvReadIntByName( fs, rect_node, "height", 0 ); 4347 point_seq->color = cvReadIntByName( fs, node, "color", 0 ); 4348 } 4349 else if( origin_node ) 4350 { 4351 CvChain* chain = (CvChain*)seq; 4352 chain->origin.x = cvReadIntByName( fs, origin_node, "x", 0 ); 4353 chain->origin.y = cvReadIntByName( fs, origin_node, "y", 0 ); 4354 } 4355 4356 cvSeqPushMulti( seq, 0, total, 0 ); 4357 CV_CALL( fmt_pair_count = icvDecodeFormat( dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS )); 4358 fmt_pair_count *= 2; 4359 for( i = 0; i < fmt_pair_count; i += 2 ) 4360 items_per_elem += fmt_pairs[i]; 4361 4362 data = cvGetFileNodeByName( fs, node, "data" ); 4363 if( !data ) 4364 CV_ERROR( CV_StsError, "The image data is not found in file storage" ); 4365 4366 if( icvFileNodeSeqLen( data ) != total*items_per_elem ) 4367 CV_ERROR( CV_StsError, "The number of stored elements does not match to \"count\"" ); 4368 4369 cvStartReadRawData( fs, data, &reader ); 4370 for( block = seq->first; block; block = block->next ) 4371 { 4372 int delta = block->count*items_per_elem; 4373 cvReadRawDataSlice( fs, &reader, delta, block->data, dt ); 4374 if( block == seq->first->prev ) 4375 break; 4376 } 4377 4378 ptr = seq; 4379 4380 __END__; 4381 4382 return ptr; 4383 } 4384 4385 4386 static void* 4387 icvReadSeqTree( CvFileStorage* fs, CvFileNode* node ) 4388 { 4389 void* ptr = 0; 4390 CV_FUNCNAME( "icvReadSeqTree" ); 4391 4392 __BEGIN__; 4393 4394 CvFileNode *sequences_node = cvGetFileNodeByName( fs, node, "sequences" ); 4395 CvSeq* sequences; 4396 CvSeq* root = 0; 4397 CvSeq* parent = 0; 4398 CvSeq* prev_seq = 0; 4399 CvSeqReader reader; 4400 int i, total; 4401 int prev_level = 0; 4402 4403 if( !sequences_node || !CV_NODE_IS_SEQ(sequences_node->tag) ) 4404 CV_ERROR( CV_StsParseError, 4405 "opencv-sequence-tree instance should contain a field \"sequences\" that should be a sequence" ); 4406 4407 sequences = sequences_node->data.seq; 4408 total = sequences->total; 4409 4410 cvStartReadSeq( sequences, &reader, 0 ); 4411 for( i = 0; i < total; i++ ) 4412 { 4413 CvFileNode* elem = (CvFileNode*)reader.ptr; 4414 CvSeq* seq; 4415 int level; 4416 CV_CALL( seq = (CvSeq*)cvRead( fs, elem )); 4417 CV_CALL( level = cvReadIntByName( fs, elem, "level", -1 )); 4418 if( level < 0 ) 4419 CV_ERROR( CV_StsParseError, "All the sequence tree nodes should contain \"level\" field" ); 4420 if( !root ) 4421 root = seq; 4422 if( level > prev_level ) 4423 { 4424 assert( level == prev_level + 1 ); 4425 parent = prev_seq; 4426 prev_seq = 0; 4427 if( parent ) 4428 parent->v_next = seq; 4429 } 4430 else if( level < prev_level ) 4431 { 4432 for( ; prev_level > level; prev_level-- ) 4433 prev_seq = prev_seq->v_prev; 4434 parent = prev_seq->v_prev; 4435 } 4436 seq->h_prev = prev_seq; 4437 if( prev_seq ) 4438 prev_seq->h_next = seq; 4439 seq->v_prev = parent; 4440 prev_seq = seq; 4441 prev_level = level; 4442 CV_NEXT_SEQ_ELEM( sequences->elem_size, reader ); 4443 } 4444 4445 ptr = root; 4446 4447 __END__; 4448 4449 return ptr; 4450 } 4451 4452 /******************************* CvGraph ******************************/ 4453 4454 static int 4455 icvIsGraph( const void* ptr ) 4456 { 4457 return CV_IS_GRAPH(ptr); 4458 } 4459 4460 4461 static void 4462 icvReleaseGraph( void** ptr ) 4463 { 4464 CV_FUNCNAME( "icvReleaseGraph" ); 4465 4466 __BEGIN__; 4467 4468 if( !ptr ) 4469 CV_ERROR( CV_StsNullPtr, "NULL double pointer" ); 4470 4471 *ptr = 0; // it's impossible now to release graph, so just clear the pointer 4472 4473 __END__; 4474 } 4475 4476 4477 static void* 4478 icvCloneGraph( const void* ptr ) 4479 { 4480 return cvCloneGraph( (const CvGraph*)ptr, 0 ); 4481 } 4482 4483 4484 static void 4485 icvWriteGraph( CvFileStorage* fs, const char* name, 4486 const void* struct_ptr, CvAttrList attr ) 4487 { 4488 int* flag_buf = 0; 4489 char* write_buf = 0; 4490 CV_FUNCNAME( "icvWriteGraph" ); 4491 4492 __BEGIN__; 4493 4494 const CvGraph* graph = (const CvGraph*)struct_ptr; 4495 CvSeqReader reader; 4496 char buf[128]; 4497 int i, k, vtx_count, edge_count; 4498 char vtx_dt_buf[128], *vtx_dt; 4499 char edge_dt_buf[128], *edge_dt; 4500 int write_buf_size; 4501 4502 assert( CV_IS_GRAPH(graph) ); 4503 vtx_count = cvGraphGetVtxCount( graph ); 4504 edge_count = cvGraphGetEdgeCount( graph ); 4505 CV_CALL( flag_buf = (int*)cvAlloc( vtx_count*sizeof(flag_buf[0]))); 4506 4507 // count vertices 4508 cvStartReadSeq( (CvSeq*)graph, &reader ); 4509 for( i = 0, k = 0; i < graph->total; i++ ) 4510 { 4511 if( CV_IS_SET_ELEM( reader.ptr )) 4512 { 4513 CvGraphVtx* vtx = (CvGraphVtx*)reader.ptr; 4514 flag_buf[k] = vtx->flags; 4515 vtx->flags = k++; 4516 } 4517 CV_NEXT_SEQ_ELEM( graph->elem_size, reader ); 4518 } 4519 4520 // write header 4521 CV_CALL( cvStartWriteStruct( fs, name, CV_NODE_MAP, CV_TYPE_NAME_GRAPH )); 4522 4523 sprintf( buf, "%08x", graph->flags ); 4524 cvWriteString( fs, "flags", buf, 1 ); 4525 4526 cvWriteInt( fs, "vertex_count", vtx_count ); 4527 CV_CALL( vtx_dt = icvGetFormat( (CvSeq*)graph, "vertex_dt", 4528 &attr, sizeof(CvGraphVtx), vtx_dt_buf )); 4529 if( vtx_dt ) 4530 cvWriteString( fs, "vertex_dt", vtx_dt, 0 ); 4531 4532 cvWriteInt( fs, "edge_count", edge_count ); 4533 CV_CALL( edge_dt = icvGetFormat( (CvSeq*)graph->edges, "edge_dt", 4534 &attr, sizeof(CvGraphEdge), buf )); 4535 sprintf( edge_dt_buf, "2if%s", edge_dt ? edge_dt : "" ); 4536 edge_dt = edge_dt_buf; 4537 cvWriteString( fs, "edge_dt", edge_dt, 0 ); 4538 4539 CV_CALL( icvWriteHeaderData( fs, (CvSeq*)graph, &attr, sizeof(CvGraph) )); 4540 4541 write_buf_size = MAX( 3*graph->elem_size, 1 << 16 ); 4542 write_buf_size = MAX( 3*graph->edges->elem_size, write_buf_size ); 4543 CV_CALL( write_buf = (char*)cvAlloc( write_buf_size )); 4544 4545 // as vertices and edges are written in similar way, 4546 // do it as a parametrized 2-iteration loop 4547 for( k = 0; k < 2; k++ ) 4548 { 4549 const char* dt = k == 0 ? vtx_dt : edge_dt; 4550 if( dt ) 4551 { 4552 CvSet* data = k == 0 ? (CvSet*)graph : graph->edges; 4553 int elem_size = data->elem_size; 4554 int write_elem_size = icvCalcElemSize( dt, 0 ); 4555 char* src_ptr = write_buf; 4556 int write_max = write_buf_size / write_elem_size, write_count = 0; 4557 4558 // alignment of user part of the edge data following 2if 4559 int edge_user_align = sizeof(float); 4560 4561 if( k == 1 ) 4562 { 4563 int fmt_pairs[CV_FS_MAX_FMT_PAIRS], fmt_pair_count; 4564 fmt_pair_count = icvDecodeFormat( dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS ); 4565 if( fmt_pair_count > 2 || CV_ELEM_SIZE(fmt_pairs[2*2+1]) >= (int)sizeof(double)) 4566 edge_user_align = sizeof(double); 4567 } 4568 4569 cvStartWriteStruct( fs, k == 0 ? "vertices" : "edges", 4570 CV_NODE_SEQ + CV_NODE_FLOW ); 4571 cvStartReadSeq( (CvSeq*)data, &reader ); 4572 for( i = 0; i < data->total; i++ ) 4573 { 4574 if( CV_IS_SET_ELEM( reader.ptr )) 4575 { 4576 if( k == 0 ) // vertices 4577 memcpy( src_ptr, reader.ptr + sizeof(CvGraphVtx), write_elem_size ); 4578 else 4579 { 4580 CvGraphEdge* edge = (CvGraphEdge*)reader.ptr; 4581 src_ptr = (char*)cvAlignPtr( src_ptr, sizeof(int) ); 4582 ((int*)src_ptr)[0] = edge->vtx[0]->flags; 4583 ((int*)src_ptr)[1] = edge->vtx[1]->flags; 4584 *(float*)(src_ptr + sizeof(int)*2) = edge->weight; 4585 if( elem_size > (int)sizeof(CvGraphEdge) ) 4586 { 4587 char* src_ptr2 = (char*)cvAlignPtr( src_ptr + 2*sizeof(int) 4588 + sizeof(float), edge_user_align ); 4589 memcpy( src_ptr2, edge + 1, elem_size - sizeof(CvGraphEdge) ); 4590 } 4591 } 4592 src_ptr += write_elem_size; 4593 if( ++write_count >= write_max ) 4594 { 4595 cvWriteRawData( fs, write_buf, write_count, dt ); 4596 write_count = 0; 4597 src_ptr = write_buf; 4598 } 4599 } 4600 CV_NEXT_SEQ_ELEM( data->elem_size, reader ); 4601 } 4602 4603 if( write_count > 0 ) 4604 cvWriteRawData( fs, write_buf, write_count, dt ); 4605 cvEndWriteStruct( fs ); 4606 } 4607 } 4608 4609 cvEndWriteStruct( fs ); 4610 4611 // final stage. restore the graph flags 4612 cvStartReadSeq( (CvSeq*)graph, &reader ); 4613 vtx_count = 0; 4614 for( i = 0; i < graph->total; i++ ) 4615 { 4616 if( CV_IS_SET_ELEM( reader.ptr )) 4617 ((CvGraphVtx*)reader.ptr)->flags = flag_buf[vtx_count++]; 4618 CV_NEXT_SEQ_ELEM( graph->elem_size, reader ); 4619 } 4620 4621 __END__; 4622 4623 cvFree( &write_buf ); 4624 cvFree( &flag_buf ); 4625 } 4626 4627 4628 static void* 4629 icvReadGraph( CvFileStorage* fs, CvFileNode* node ) 4630 { 4631 void* ptr = 0; 4632 char* read_buf = 0; 4633 CvGraphVtx** vtx_buf = 0; 4634 CV_FUNCNAME( "icvReadGraph" ); 4635 4636 __BEGIN__; 4637 4638 CvGraph* graph; 4639 CvFileNode *header_node, *vtx_node, *edge_node; 4640 int flags, vtx_count, edge_count; 4641 int vtx_size = sizeof(CvGraphVtx), edge_size, header_size = sizeof(CvGraph); 4642 int src_vtx_size = 0, src_edge_size; 4643 int fmt_pairs[CV_FS_MAX_FMT_PAIRS], fmt_pair_count; 4644 int vtx_items_per_elem = 0, edge_items_per_elem = 0; 4645 int edge_user_align = sizeof(float); 4646 int read_buf_size; 4647 int i, k; 4648 const char* flags_str; 4649 const char* header_dt; 4650 const char* vtx_dt; 4651 const char* edge_dt; 4652 char* endptr = 0; 4653 4654 CV_CALL( flags_str = cvReadStringByName( fs, node, "flags", 0 )); 4655 vtx_dt = cvReadStringByName( fs, node, "vertex_dt", 0 ); 4656 edge_dt = cvReadStringByName( fs, node, "edge_dt", 0 ); 4657 vtx_count = cvReadIntByName( fs, node, "vertex_count", -1 ); 4658 edge_count = cvReadIntByName( fs, node, "edge_count", -1 ); 4659 4660 if( !flags_str || vtx_count == -1 || edge_count == -1 || !edge_dt ) 4661 CV_ERROR( CV_StsError, "Some of essential sequence attributes are absent" ); 4662 4663 flags = (int)strtol( flags_str, &endptr, 16 ); 4664 if( endptr == flags_str || 4665 (flags & (CV_SEQ_KIND_MASK|CV_MAGIC_MASK)) != (CV_GRAPH|CV_SET_MAGIC_VAL)) 4666 CV_ERROR( CV_StsError, "Invalid graph signature" ); 4667 4668 header_dt = cvReadStringByName( fs, node, "header_dt", 0 ); 4669 header_node = cvGetFileNodeByName( fs, node, "header_user_data" ); 4670 4671 if( (header_dt != 0) ^ (header_node != 0) ) 4672 CV_ERROR( CV_StsError, 4673 "One of \"header_dt\" and \"header_user_data\" is there, while the other is not" ); 4674 4675 if( header_dt ) 4676 CV_CALL( header_size = icvCalcElemSize( header_dt, header_size )); 4677 4678 if( vtx_dt > 0 ) 4679 { 4680 CV_CALL( src_vtx_size = icvCalcElemSize( vtx_dt, 0 )); 4681 CV_CALL( vtx_size = icvCalcElemSize( vtx_dt, vtx_size )); 4682 CV_CALL( fmt_pair_count = icvDecodeFormat( edge_dt, 4683 fmt_pairs, CV_FS_MAX_FMT_PAIRS )); 4684 fmt_pair_count *= 2; 4685 for( i = 0; i < fmt_pair_count; i += 2 ) 4686 vtx_items_per_elem += fmt_pairs[i]; 4687 } 4688 4689 { 4690 char dst_edge_dt_buf[128]; 4691 const char* dst_edge_dt = 0; 4692 4693 CV_CALL( fmt_pair_count = icvDecodeFormat( edge_dt, 4694 fmt_pairs, CV_FS_MAX_FMT_PAIRS )); 4695 if( fmt_pair_count < 2 || 4696 fmt_pairs[0] != 2 || fmt_pairs[1] != CV_32S || 4697 fmt_pairs[2] < 1 || fmt_pairs[3] != CV_32F ) 4698 CV_ERROR( CV_StsBadArg, 4699 "Graph edges should start with 2 integers and a float" ); 4700 4701 // alignment of user part of the edge data following 2if 4702 if( fmt_pair_count > 2 && CV_ELEM_SIZE(fmt_pairs[5]) >= (int)sizeof(double)) 4703 edge_user_align = sizeof(double); 4704 4705 fmt_pair_count *= 2; 4706 for( i = 0; i < fmt_pair_count; i += 2 ) 4707 edge_items_per_elem += fmt_pairs[i]; 4708 4709 if( edge_dt[2] == 'f' || (edge_dt[2] == '1' && edge_dt[3] == 'f') ) 4710 dst_edge_dt = edge_dt + 3 + isdigit(edge_dt[2]); 4711 else 4712 { 4713 int val = (int)strtol( edge_dt + 2, &endptr, 10 ); 4714 sprintf( dst_edge_dt_buf, "%df%s", val-1, endptr ); 4715 dst_edge_dt = dst_edge_dt_buf; 4716 } 4717 4718 CV_CALL( edge_size = icvCalcElemSize( dst_edge_dt, sizeof(CvGraphEdge) )); 4719 CV_CALL( src_edge_size = icvCalcElemSize( edge_dt, 0 )); 4720 } 4721 4722 CV_CALL( graph = cvCreateGraph( flags, header_size, vtx_size, edge_size, fs->dststorage )); 4723 4724 if( header_node ) 4725 CV_CALL( cvReadRawData( fs, header_node, (char*)graph + sizeof(CvGraph), header_dt )); 4726 4727 read_buf_size = MAX( src_vtx_size*3, 1 << 16 ); 4728 read_buf_size = MAX( src_edge_size*3, read_buf_size ); 4729 CV_CALL( read_buf = (char*)cvAlloc( read_buf_size )); 4730 CV_CALL( vtx_buf = (CvGraphVtx**)cvAlloc( vtx_count * sizeof(vtx_buf[0]) )); 4731 4732 vtx_node = cvGetFileNodeByName( fs, node, "vertices" ); 4733 edge_node = cvGetFileNodeByName( fs, node, "edges" ); 4734 if( !edge_node ) 4735 CV_ERROR( CV_StsBadArg, "No edges data" ); 4736 if( vtx_dt && !vtx_node ) 4737 CV_ERROR( CV_StsBadArg, "No vertices data" ); 4738 4739 // as vertices and edges are read in similar way, 4740 // do it as a parametrized 2-iteration loop 4741 for( k = 0; k < 2; k++ ) 4742 { 4743 const char* dt = k == 0 ? vtx_dt : edge_dt; 4744 int elem_size = k == 0 ? vtx_size : edge_size; 4745 int src_elem_size = k == 0 ? src_vtx_size : src_edge_size; 4746 int items_per_elem = k == 0 ? vtx_items_per_elem : edge_items_per_elem; 4747 int elem_count = k == 0 ? vtx_count : edge_count; 4748 char* dst_ptr = read_buf; 4749 int read_max = read_buf_size /MAX(src_elem_size, 1), read_count = 0; 4750 CvSeqReader reader; 4751 cvStartReadRawData( fs, k == 0 ? vtx_node : edge_node, &reader ); 4752 4753 for( i = 0; i < elem_count; i++ ) 4754 { 4755 if( read_count == 0 && dt ) 4756 { 4757 int count = MIN( elem_count - i, read_max )*items_per_elem; 4758 cvReadRawDataSlice( fs, &reader, count, read_buf, dt ); 4759 read_count = count; 4760 dst_ptr = read_buf; 4761 } 4762 4763 if( k == 0 ) 4764 { 4765 CvGraphVtx* vtx; 4766 cvGraphAddVtx( graph, 0, &vtx ); 4767 vtx_buf[i] = vtx; 4768 if( dt ) 4769 memcpy( vtx + 1, dst_ptr, src_elem_size ); 4770 } 4771 else 4772 { 4773 CvGraphEdge* edge = 0; 4774 int vtx1 = ((int*)dst_ptr)[0]; 4775 int vtx2 = ((int*)dst_ptr)[1]; 4776 int result; 4777 4778 if( (unsigned)vtx1 >= (unsigned)vtx_count || 4779 (unsigned)vtx2 >= (unsigned)vtx_count ) 4780 CV_ERROR( CV_StsOutOfRange, 4781 "Some of stored vertex indices are out of range" ); 4782 4783 CV_CALL( result = cvGraphAddEdgeByPtr( graph, 4784 vtx_buf[vtx1], vtx_buf[vtx2], 0, &edge )); 4785 4786 if( result == 0 ) 4787 CV_ERROR( CV_StsBadArg, "Duplicated edge has occured" ); 4788 4789 edge->weight = *(float*)(dst_ptr + sizeof(int)*2); 4790 if( elem_size > (int)sizeof(CvGraphEdge) ) 4791 { 4792 char* dst_ptr2 = (char*)cvAlignPtr( dst_ptr + sizeof(int)*2 + 4793 sizeof(float), edge_user_align ); 4794 memcpy( edge + 1, dst_ptr2, elem_size - sizeof(CvGraphEdge) ); 4795 } 4796 } 4797 4798 dst_ptr += src_elem_size; 4799 read_count--; 4800 } 4801 } 4802 4803 ptr = graph; 4804 4805 __END__; 4806 4807 cvFree( &read_buf ); 4808 cvFree( &vtx_buf ); 4809 4810 return ptr; 4811 } 4812 4813 /****************************************************************************************\ 4814 * RTTI Functions * 4815 \****************************************************************************************/ 4816 4817 CvTypeInfo *CvType::first = 0, *CvType::last = 0; 4818 4819 CvType::CvType( const char* type_name, 4820 CvIsInstanceFunc is_instance, CvReleaseFunc release, 4821 CvReadFunc read, CvWriteFunc write, CvCloneFunc clone ) 4822 { 4823 CvTypeInfo _info; 4824 _info.flags = 0; 4825 _info.header_size = sizeof(_info); 4826 _info.type_name = type_name; 4827 _info.prev = _info.next = 0; 4828 _info.is_instance = is_instance; 4829 _info.release = release; 4830 _info.clone = clone; 4831 _info.read = read; 4832 _info.write = write; 4833 4834 cvRegisterType( &_info ); 4835 info = first; 4836 } 4837 4838 4839 CvType::~CvType() 4840 { 4841 cvUnregisterType( info->type_name ); 4842 } 4843 4844 4845 CvType seq_type( CV_TYPE_NAME_SEQ, icvIsSeq, icvReleaseSeq, icvReadSeq, 4846 icvWriteSeqTree /* this is the entry point for 4847 writing a single sequence too */, icvCloneSeq ); 4848 4849 CvType seq_tree_type( CV_TYPE_NAME_SEQ_TREE, icvIsSeq, icvReleaseSeq, 4850 icvReadSeqTree, icvWriteSeqTree, icvCloneSeq ); 4851 4852 CvType seq_graph_type( CV_TYPE_NAME_GRAPH, icvIsGraph, icvReleaseGraph, 4853 icvReadGraph, icvWriteGraph, icvCloneGraph ); 4854 4855 CvType sparse_mat_type( CV_TYPE_NAME_SPARSE_MAT, icvIsSparseMat, 4856 (CvReleaseFunc)cvReleaseSparseMat, icvReadSparseMat, 4857 icvWriteSparseMat, (CvCloneFunc)cvCloneSparseMat ); 4858 4859 CvType image_type( CV_TYPE_NAME_IMAGE, icvIsImage, (CvReleaseFunc)cvReleaseImage, 4860 icvReadImage, icvWriteImage, (CvCloneFunc)cvCloneImage ); 4861 4862 CvType mat_type( CV_TYPE_NAME_MAT, icvIsMat, (CvReleaseFunc)cvReleaseMat, 4863 icvReadMat, icvWriteMat, (CvCloneFunc)cvCloneMat ); 4864 4865 CvType matnd_type( CV_TYPE_NAME_MATND, icvIsMatND, (CvReleaseFunc)cvReleaseMatND, 4866 icvReadMatND, icvWriteMatND, (CvCloneFunc)cvCloneMatND ); 4867 4868 CV_IMPL void 4869 cvRegisterType( const CvTypeInfo* _info ) 4870 { 4871 CV_FUNCNAME("cvRegisterType" ); 4872 4873 __BEGIN__; 4874 4875 CvTypeInfo* info = 0; 4876 int i, len; 4877 char c; 4878 4879 //if( !CvType::first ) 4880 // icvCreateStandardTypes(); 4881 4882 if( !_info || _info->header_size != sizeof(CvTypeInfo) ) 4883 CV_ERROR( CV_StsBadSize, "Invalid type info" ); 4884 4885 if( !_info->is_instance || !_info->release || 4886 !_info->read || !_info->write ) 4887 CV_ERROR( CV_StsNullPtr, 4888 "Some of required function pointers " 4889 "(is_instance, release, read or write) are NULL"); 4890 4891 c = _info->type_name[0]; 4892 if( !isalpha(c) && c != '_' ) 4893 CV_ERROR( CV_StsBadArg, "Type name should start with a letter or _" ); 4894 4895 len = (int)strlen(_info->type_name); 4896 4897 for( i = 0; i < len; i++ ) 4898 { 4899 c = _info->type_name[i]; 4900 if( !isalnum(c) && c != '-' && c != '_' ) 4901 CV_ERROR( CV_StsBadArg, 4902 "Type name should contain only letters, digits, - and _" ); 4903 } 4904 4905 CV_CALL( info = (CvTypeInfo*)cvAlloc( sizeof(*info) + len + 1 )); 4906 4907 *info = *_info; 4908 info->type_name = (char*)(info + 1); 4909 memcpy( (char*)info->type_name, _info->type_name, len + 1 ); 4910 4911 info->flags = 0; 4912 info->next = CvType::first; 4913 info->prev = 0; 4914 if( CvType::first ) 4915 CvType::first->prev = info; 4916 else 4917 CvType::last = info; 4918 CvType::first = info; 4919 4920 __END__; 4921 } 4922 4923 4924 CV_IMPL void 4925 cvUnregisterType( const char* type_name ) 4926 { 4927 CV_FUNCNAME("cvUnregisterType" ); 4928 4929 __BEGIN__; 4930 4931 CvTypeInfo* info; 4932 4933 CV_CALL( info = cvFindType( type_name )); 4934 if( info ) 4935 { 4936 if( info->prev ) 4937 info->prev->next = info->next; 4938 else 4939 CvType::first = info->next; 4940 4941 if( info->next ) 4942 info->next->prev = info->prev; 4943 else 4944 CvType::last = info->prev; 4945 4946 if( !CvType::first || !CvType::last ) 4947 CvType::first = CvType::last = 0; 4948 4949 cvFree( &info ); 4950 } 4951 4952 __END__; 4953 } 4954 4955 4956 CV_IMPL CvTypeInfo* 4957 cvFirstType( void ) 4958 { 4959 return CvType::first; 4960 } 4961 4962 4963 CV_IMPL CvTypeInfo* 4964 cvFindType( const char* type_name ) 4965 { 4966 CvTypeInfo* info = 0; 4967 4968 for( info = CvType::first; info != 0; info = info->next ) 4969 if( strcmp( info->type_name, type_name ) == 0 ) 4970 break; 4971 4972 return info; 4973 } 4974 4975 4976 CV_IMPL CvTypeInfo* 4977 cvTypeOf( const void* struct_ptr ) 4978 { 4979 CvTypeInfo* info = 0; 4980 4981 for( info = CvType::first; info != 0; info = info->next ) 4982 if( info->is_instance( struct_ptr )) 4983 break; 4984 4985 return info; 4986 } 4987 4988 4989 /* universal functions */ 4990 CV_IMPL void 4991 cvRelease( void** struct_ptr ) 4992 { 4993 CV_FUNCNAME("cvRelease" ); 4994 4995 __BEGIN__; 4996 4997 CvTypeInfo* info; 4998 4999 if( !struct_ptr ) 5000 CV_ERROR( CV_StsNullPtr, "NULL double pointer" ); 5001 5002 if( *struct_ptr ) 5003 { 5004 CV_CALL( info = cvTypeOf( *struct_ptr )); 5005 if( !info ) 5006 CV_ERROR( CV_StsError, "Unknown object type" ); 5007 if( !info->release ) 5008 CV_ERROR( CV_StsError, "release function pointer is NULL" ); 5009 5010 CV_CALL( info->release( struct_ptr )); 5011 *struct_ptr = 0; 5012 } 5013 5014 __END__; 5015 } 5016 5017 5018 void* cvClone( const void* struct_ptr ) 5019 { 5020 void* struct_copy = 0; 5021 5022 CV_FUNCNAME("cvClone" ); 5023 5024 __BEGIN__; 5025 5026 CvTypeInfo* info; 5027 5028 if( !struct_ptr ) 5029 CV_ERROR( CV_StsNullPtr, "NULL structure pointer" ); 5030 5031 CV_CALL( info = cvTypeOf( struct_ptr )); 5032 if( !info ) 5033 CV_ERROR( CV_StsError, "Unknown object type" ); 5034 if( !info->clone ) 5035 CV_ERROR( CV_StsError, "clone function pointer is NULL" ); 5036 5037 CV_CALL( struct_copy = info->clone( struct_ptr )); 5038 5039 __END__; 5040 5041 return struct_copy; 5042 } 5043 5044 5045 /* reads matrix, image, sequence, graph etc. */ 5046 CV_IMPL void* 5047 cvRead( CvFileStorage* fs, CvFileNode* node, CvAttrList* list ) 5048 { 5049 void* obj = 0; 5050 5051 CV_FUNCNAME( "cvRead" ); 5052 5053 __BEGIN__; 5054 5055 CV_CHECK_FILE_STORAGE( fs ); 5056 5057 if( !node ) 5058 EXIT; 5059 5060 if( !CV_NODE_IS_USER(node->tag) || !node->info ) 5061 CV_ERROR( CV_StsError, "The node does not represent a user object (unknown type?)" ); 5062 5063 CV_CALL( obj = node->info->read( fs, node )); 5064 5065 __END__; 5066 5067 if( list ) 5068 *list = cvAttrList(0,0); 5069 5070 return obj; 5071 } 5072 5073 5074 /* writes matrix, image, sequence, graph etc. */ 5075 CV_IMPL void 5076 cvWrite( CvFileStorage* fs, const char* name, 5077 const void* ptr, CvAttrList attributes ) 5078 { 5079 CV_FUNCNAME( "cvWrite" ); 5080 5081 __BEGIN__; 5082 5083 CvTypeInfo* info; 5084 5085 CV_CHECK_OUTPUT_FILE_STORAGE( fs ); 5086 5087 if( !ptr ) 5088 CV_ERROR( CV_StsNullPtr, "Null pointer to the written object" ); 5089 5090 CV_CALL( info = cvTypeOf( ptr )); 5091 if( !info ) 5092 CV_ERROR( CV_StsBadArg, "Unknown object" ); 5093 5094 if( !info->write ) 5095 CV_ERROR( CV_StsBadArg, "The object does not have write function" ); 5096 5097 CV_CALL( info->write( fs, name, ptr, attributes )); 5098 5099 __END__; 5100 } 5101 5102 5103 /* simple API for reading/writing data */ 5104 CV_IMPL void 5105 cvSave( const char* filename, const void* struct_ptr, 5106 const char* _name, const char* comment, CvAttrList attributes ) 5107 { 5108 CvFileStorage* fs = 0; 5109 5110 CV_FUNCNAME( "cvSave" ); 5111 5112 __BEGIN__; 5113 5114 char name_buf[CV_FS_MAX_LEN + 256]; 5115 char* name = (char*)_name; 5116 5117 if( !struct_ptr ) 5118 CV_ERROR( CV_StsNullPtr, "NULL object pointer" ); 5119 5120 CV_CALL( fs = cvOpenFileStorage( filename, 0, CV_STORAGE_WRITE )); 5121 if( !fs ) 5122 CV_ERROR( CV_StsError, "Could not open the file storage. Check the path and permissions" ); 5123 5124 if( !name ) 5125 { 5126 static const char* stubname = "unnamed"; 5127 const char* ptr2 = filename + strlen( filename ); 5128 const char* ptr = ptr2 - 1; 5129 5130 while( ptr >= filename && *ptr != '\\' && *ptr != '/' && *ptr != ':' ) 5131 { 5132 if( *ptr == '.' && !*ptr2 ) 5133 ptr2 = ptr; 5134 ptr--; 5135 } 5136 ptr++; 5137 if( ptr == ptr2 ) 5138 CV_ERROR( CV_StsBadArg, "Invalid filename" ); 5139 5140 name=name_buf; 5141 5142 // name must start with letter or '_' 5143 if( !isalpha(*ptr) && *ptr!= '_' ){ 5144 *name++ = '_'; 5145 } 5146 5147 while( ptr < ptr2 ) 5148 { 5149 char c = *ptr++; 5150 if( !isalnum(c) && c != '-' && c != '_' ) 5151 c = '_'; 5152 *name++ = c; 5153 } 5154 *name = '\0'; 5155 name = name_buf; 5156 if( strcmp( name, "_" ) == 0 ) 5157 strcpy( name, stubname ); 5158 } 5159 5160 if( comment ) 5161 CV_CALL( cvWriteComment( fs, comment, 0 )); 5162 CV_CALL( cvWrite( fs, name, struct_ptr, attributes )); 5163 5164 __END__; 5165 5166 cvReleaseFileStorage( &fs ); 5167 } 5168 5169 5170 CV_IMPL void* 5171 cvLoad( const char* filename, CvMemStorage* memstorage, 5172 const char* name, const char** _real_name ) 5173 { 5174 void* ptr = 0; 5175 const char* real_name = 0; 5176 CvFileStorage* fs = 0; 5177 5178 CV_FUNCNAME( "cvLoad" ); 5179 5180 __BEGIN__; 5181 5182 CvFileNode* node = 0; 5183 CV_CALL( fs = cvOpenFileStorage( filename, memstorage, CV_STORAGE_READ )); 5184 5185 if( !fs ) 5186 EXIT; 5187 5188 if( name ) 5189 { 5190 CV_CALL( node = cvGetFileNodeByName( fs, 0, name )); 5191 } 5192 else 5193 { 5194 int i, k; 5195 for( k = 0; k < fs->roots->total; k++ ) 5196 { 5197 CvSeq* seq; 5198 CvSeqReader reader; 5199 5200 node = (CvFileNode*)cvGetSeqElem( fs->roots, k ); 5201 if( !CV_NODE_IS_MAP( node->tag )) 5202 EXIT; 5203 seq = node->data.seq; 5204 node = 0; 5205 5206 cvStartReadSeq( seq, &reader, 0 ); 5207 5208 // find the first element in the map 5209 for( i = 0; i < seq->total; i++ ) 5210 { 5211 if( CV_IS_SET_ELEM( reader.ptr )) 5212 { 5213 node = (CvFileNode*)reader.ptr; 5214 goto stop_search; 5215 } 5216 CV_NEXT_SEQ_ELEM( seq->elem_size, reader ); 5217 } 5218 } 5219 5220 stop_search: 5221 ; 5222 } 5223 5224 if( !node ) 5225 CV_ERROR( CV_StsObjectNotFound, "Could not find the/an object in file storage" ); 5226 5227 real_name = cvGetFileNodeName( node ); 5228 CV_CALL( ptr = cvRead( fs, node, 0 )); 5229 5230 // sanity check 5231 if( !memstorage && (CV_IS_SEQ( ptr ) || CV_IS_SET( ptr )) ) 5232 CV_ERROR( CV_StsNullPtr, 5233 "NULL memory storage is passed - the loaded dynamic structure can not be stored" ); 5234 5235 __END__; 5236 5237 cvReleaseFileStorage( &fs ); 5238 if( cvGetErrStatus() < 0 ) 5239 { 5240 cvRelease( (void**)&ptr ); 5241 real_name = 0; 5242 } 5243 5244 if( _real_name ) 5245 *_real_name = real_name; 5246 5247 return ptr; 5248 } 5249 5250 /* End of file. */ 5251
