// This file is part of OpenCV project. // It is subject to the license terms in the LICENSE file found in the top-level directory // of this distribution and at http://opencv.org/license.html #include "precomp.hpp" #include "persistence.hpp" static inline bool cv_strcasecmp(const char * s1, const char * s2) { if ( s1 == 0 && s2 == 0 ) return true; else if ( s1 == 0 || s2 == 0 ) return false; size_t len1 = strlen(s1); size_t len2 = strlen(s2); if ( len1 != len2 ) return false; for ( size_t i = 0U; i < len1; i++ ) if ( tolower( static_cast(s1[i]) ) != tolower( static_cast(s2[i]) ) ) return false; return true; } // this function will convert "aa?bb&cc&dd" to {"aa", "bb", "cc", "dd"} static std::vector analyze_file_name( std::string const & file_name ) { static const char not_file_name = '\n'; static const char parameter_begin = '?'; static const char parameter_separator = '&'; std::vector result; if ( file_name.find(not_file_name, 0U) != std::string::npos ) return result; size_t beg = file_name.find_last_of(parameter_begin); size_t end = file_name.size(); result.push_back(file_name.substr(0U, beg)); if ( beg != std::string::npos ) { beg ++; for ( size_t param_beg = beg, param_end = beg; param_end < end; param_beg = param_end + 1U ) { param_end = file_name.find_first_of( parameter_separator, param_beg ); if ( (param_end == std::string::npos || param_end != param_beg) && param_beg + 1U < end ) { result.push_back( file_name.substr( param_beg, param_end - param_beg ) ); } } } return result; } static bool is_param_exist( const std::vector & params, const std::string & param ) { if ( params.size() < 2U ) return false; return std::find(params.begin(), params.end(), param) != params.end(); } //=========================================================================================== static void cvOpenFileStorage_(CvFileStorage*& fs, const char* query, CvMemStorage* dststorage, int flags, const char* encoding) { int default_block_size = 1 << 18; bool append = (flags & 3) == CV_STORAGE_APPEND; bool mem = (flags & CV_STORAGE_MEMORY) != 0; bool write_mode = (flags & 3) != 0; bool write_base64 = (write_mode || append) && (flags & CV_STORAGE_BASE64) != 0; bool isGZ = false; size_t fnamelen = 0; const char * filename = query; std::vector params; if ( !mem ) { params = analyze_file_name( query ); if ( !params.empty() ) filename = params.begin()->c_str(); if ( write_base64 == false && is_param_exist( params, "base64" ) ) write_base64 = (write_mode || append); } if( !filename || filename[0] == '\0' ) { if( !write_mode ) CV_Error( CV_StsNullPtr, mem ? "NULL or empty filename" : "NULL or empty buffer" ); mem = true; } else fnamelen = strlen(filename); if( mem && append ) CV_Error( CV_StsBadFlag, "CV_STORAGE_APPEND and CV_STORAGE_MEMORY are not currently compatible" ); fs->memstorage = cvCreateMemStorage( default_block_size ); fs->dststorage = dststorage ? dststorage : fs->memstorage; fs->flags = CV_FILE_STORAGE; fs->write_mode = write_mode; if( !mem ) { fs->filename = (char*)cvMemStorageAlloc( fs->memstorage, fnamelen+1 ); strcpy( fs->filename, filename ); char* dot_pos = strrchr(fs->filename, '.'); char compression = '\0'; if( dot_pos && dot_pos[1] == 'g' && dot_pos[2] == 'z' && (dot_pos[3] == '\0' || (cv_isdigit(dot_pos[3]) && dot_pos[4] == '\0')) ) { if( append ) { cvReleaseFileStorage( &fs ); CV_Error(CV_StsNotImplemented, "Appending data to compressed file is not implemented" ); } isGZ = true; compression = dot_pos[3]; if( compression ) dot_pos[3] = '\0', fnamelen--; } if( !isGZ ) { fs->file = fopen(fs->filename, !fs->write_mode ? "rt" : !append ? "wt" : "a+t" ); if( !fs->file ) goto _exit_; } else { #if USE_ZLIB char mode[] = { fs->write_mode ? 'w' : 'r', 'b', compression ? compression : '3', '\0' }; fs->gzfile = gzopen(fs->filename, mode); if( !fs->gzfile ) goto _exit_; #else cvReleaseFileStorage( &fs ); CV_Error(CV_StsNotImplemented, "There is no compressed file storage support in this configuration"); #endif } } fs->roots = 0; fs->struct_indent = 0; fs->struct_flags = 0; fs->wrap_margin = 71; if( fs->write_mode ) { int fmt = flags & CV_STORAGE_FORMAT_MASK; if( mem ) fs->outbuf = new std::deque; if( fmt == CV_STORAGE_FORMAT_AUTO && filename ) { const char* dot_pos = NULL; const char* dot_pos2 = NULL; // like strrchr() implementation, but save two last positions simultaneously for (const char* pos = filename; pos[0] != 0; pos++) { if (pos[0] == '.') { dot_pos2 = dot_pos; dot_pos = pos; } } if (cv_strcasecmp(dot_pos, ".gz") && dot_pos2 != NULL) { dot_pos = dot_pos2; } fs->fmt = (cv_strcasecmp(dot_pos, ".xml") || cv_strcasecmp(dot_pos, ".xml.gz")) ? CV_STORAGE_FORMAT_XML : (cv_strcasecmp(dot_pos, ".json") || cv_strcasecmp(dot_pos, ".json.gz")) ? CV_STORAGE_FORMAT_JSON : CV_STORAGE_FORMAT_YAML ; } else if ( fmt != CV_STORAGE_FORMAT_AUTO ) { fs->fmt = fmt; } else { fs->fmt = CV_STORAGE_FORMAT_XML; } // we use factor=6 for XML (the longest characters (' and ") are encoded with 6 bytes (' and ") // and factor=4 for YAML ( as we use 4 bytes for non ASCII characters (e.g. \xAB)) int buf_size = CV_FS_MAX_LEN*(fs->fmt == CV_STORAGE_FORMAT_XML ? 6 : 4) + 1024; if (append) { fseek( fs->file, 0, SEEK_END ); if (ftell(fs->file) == 0) append = false; } fs->write_stack = cvCreateSeq( 0, sizeof(CvSeq), fs->fmt == CV_STORAGE_FORMAT_XML ? sizeof(CvXMLStackRecord) : sizeof(int), fs->memstorage ); fs->is_first = 1; fs->struct_indent = 0; fs->struct_flags = CV_NODE_EMPTY; fs->buffer_start = fs->buffer = (char*)cvAlloc( buf_size + 1024 ); fs->buffer_end = fs->buffer_start + buf_size; fs->base64_writer = 0; fs->is_default_using_base64 = write_base64; fs->state_of_writing_base64 = base64::fs::Uncertain; fs->is_write_struct_delayed = false; fs->delayed_struct_key = 0; fs->delayed_struct_flags = 0; fs->delayed_type_name = 0; if( fs->fmt == CV_STORAGE_FORMAT_XML ) { size_t file_size = fs->file ? (size_t)ftell( fs->file ) : (size_t)0; fs->strstorage = cvCreateChildMemStorage( fs->memstorage ); if( !append || file_size == 0 ) { if( encoding ) { if( strcmp( encoding, "UTF-16" ) == 0 || strcmp( encoding, "utf-16" ) == 0 || strcmp( encoding, "Utf-16" ) == 0 ) { cvReleaseFileStorage( &fs ); CV_Error( CV_StsBadArg, "UTF-16 XML encoding is not supported! Use 8-bit encoding\n"); } CV_Assert( strlen(encoding) < 1000 ); char buf[1100]; sprintf(buf, "\n", encoding); icvPuts( fs, buf ); } else icvPuts( fs, "\n" ); icvPuts( fs, "\n" ); } else { int xml_buf_size = 1 << 10; char substr[] = ""; int last_occurence = -1; xml_buf_size = MIN(xml_buf_size, int(file_size)); fseek( fs->file, -xml_buf_size, SEEK_END ); char* xml_buf = (char*)cvAlloc( xml_buf_size+2 ); // find the last occurrence of for(;;) { int line_offset = (int)ftell( fs->file ); char* ptr0 = icvGets( fs, xml_buf, xml_buf_size ), *ptr; if( !ptr0 ) break; ptr = ptr0; for(;;) { ptr = strstr( ptr, substr ); if( !ptr ) break; last_occurence = line_offset + (int)(ptr - ptr0); ptr += strlen(substr); } } cvFree( &xml_buf ); if( last_occurence < 0 ) { cvReleaseFileStorage( &fs ); CV_Error( CV_StsError, "Could not find in the end of file.\n" ); } icvCloseFile( fs ); fs->file = fopen( fs->filename, "r+t" ); CV_Assert(fs->file); fseek( fs->file, last_occurence, SEEK_SET ); // replace the last "" with " ", which has the same length icvPuts( fs, " " ); fseek( fs->file, 0, SEEK_END ); icvPuts( fs, "\n" ); } fs->start_write_struct = icvXMLStartWriteStruct; fs->end_write_struct = icvXMLEndWriteStruct; fs->write_int = icvXMLWriteInt; fs->write_real = icvXMLWriteReal; fs->write_string = icvXMLWriteString; fs->write_comment = icvXMLWriteComment; fs->start_next_stream = icvXMLStartNextStream; } else if( fs->fmt == CV_STORAGE_FORMAT_YAML ) { if( !append) icvPuts( fs, "%YAML:1.0\n---\n" ); else icvPuts( fs, "...\n---\n" ); fs->start_write_struct = icvYMLStartWriteStruct; fs->end_write_struct = icvYMLEndWriteStruct; fs->write_int = icvYMLWriteInt; fs->write_real = icvYMLWriteReal; fs->write_string = icvYMLWriteString; fs->write_comment = icvYMLWriteComment; fs->start_next_stream = icvYMLStartNextStream; } else { if( !append ) icvPuts( fs, "{\n" ); else { bool valid = false; long roffset = 0; for ( ; fseek( fs->file, roffset, SEEK_END ) == 0; roffset -= 1 ) { const char end_mark = '}'; if ( fgetc( fs->file ) == end_mark ) { fseek( fs->file, roffset, SEEK_END ); valid = true; break; } } if ( valid ) { icvCloseFile( fs ); fs->file = fopen( fs->filename, "r+t" ); CV_Assert(fs->file); fseek( fs->file, roffset, SEEK_END ); fputs( ",", fs->file ); } else { CV_Error( CV_StsError, "Could not find '}' in the end of file.\n" ); } } fs->struct_indent = 4; fs->start_write_struct = icvJSONStartWriteStruct; fs->end_write_struct = icvJSONEndWriteStruct; fs->write_int = icvJSONWriteInt; fs->write_real = icvJSONWriteReal; fs->write_string = icvJSONWriteString; fs->write_comment = icvJSONWriteComment; fs->start_next_stream = icvJSONStartNextStream; } } else { if( mem ) { fs->strbuf = filename; fs->strbufsize = fnamelen; } size_t buf_size = 1 << 20; const char* yaml_signature = "%YAML"; const char* json_signature = "{"; const char* xml_signature = "fmt = CV_STORAGE_FORMAT_YAML; else if(strncmp( bufPtr, json_signature, strlen(json_signature) ) == 0) fs->fmt = CV_STORAGE_FORMAT_JSON; else if(strncmp( bufPtr, xml_signature, strlen(xml_signature) ) == 0) fs->fmt = CV_STORAGE_FORMAT_XML; else if(fs->strbufsize == bufOffset) CV_Error(CV_BADARG_ERR, "Input file is empty"); else CV_Error(CV_BADARG_ERR, "Unsupported file storage format"); if( !isGZ ) { if( !mem ) { fseek( fs->file, 0, SEEK_END ); buf_size = ftell( fs->file ); } else buf_size = fs->strbufsize; buf_size = MIN( buf_size, (size_t)(1 << 20) ); buf_size = MAX( buf_size, (size_t)(CV_FS_MAX_LEN*2 + 1024) ); } icvRewind(fs); fs->strbufpos = bufOffset; fs->str_hash = cvCreateMap( 0, sizeof(CvStringHash), sizeof(CvStringHashNode), fs->memstorage, 256 ); fs->roots = cvCreateSeq( 0, sizeof(CvSeq), sizeof(CvFileNode), fs->memstorage ); fs->buffer = fs->buffer_start = (char*)cvAlloc( buf_size + 256 ); fs->buffer_end = fs->buffer_start + buf_size; fs->buffer[0] = '\n'; fs->buffer[1] = '\0'; //mode = cvGetErrMode(); //cvSetErrMode( CV_ErrModeSilent ); switch (fs->fmt) { case CV_STORAGE_FORMAT_XML : { icvXMLParse ( fs ); break; } case CV_STORAGE_FORMAT_YAML: { icvYMLParse ( fs ); break; } case CV_STORAGE_FORMAT_JSON: { icvJSONParse( fs ); break; } default: break; } //cvSetErrMode( mode ); // release resources that we do not need anymore cvFree( &fs->buffer_start ); fs->buffer = fs->buffer_end = 0; } fs->is_opened = true; _exit_: if( fs ) { if( cvGetErrStatus() < 0 || (!fs->file && !fs->gzfile && !fs->outbuf && !fs->strbuf) ) { cvReleaseFileStorage( &fs ); } else if( !fs->write_mode ) { icvCloseFile(fs); // we close the file since it's not needed anymore. But icvCloseFile() resets is_opened, // which may be misleading. Since we restore the value of is_opened. fs->is_opened = true; } } return; } CV_IMPL CvFileStorage* cvOpenFileStorage(const char* query, CvMemStorage* dststorage, int flags, const char* encoding) { CvFileStorage* fs = (CvFileStorage*)cvAlloc( sizeof(*fs) ); CV_Assert(fs); memset( fs, 0, sizeof(*fs)); try { cvOpenFileStorage_(fs, query, dststorage, flags, encoding); return fs; } catch (...) { if (fs) cvReleaseFileStorage(&fs); throw; } } /* closes file storage and deallocates buffers */ CV_IMPL void cvReleaseFileStorage( CvFileStorage** p_fs ) { if( !p_fs ) CV_Error( CV_StsNullPtr, "NULL double pointer to file storage" ); if( *p_fs ) { CvFileStorage* fs = *p_fs; *p_fs = 0; icvClose(fs, 0); cvReleaseMemStorage( &fs->strstorage ); cvFree( &fs->buffer_start ); cvReleaseMemStorage( &fs->memstorage ); delete fs->outbuf; delete fs->base64_writer; delete[] fs->delayed_struct_key; delete[] fs->delayed_type_name; memset( fs, 0, sizeof(*fs) ); cvFree( &fs ); } } CV_IMPL void* cvLoad( const char* filename, CvMemStorage* memstorage, const char* name, const char** _real_name ) { void* ptr = 0; const char* real_name = 0; cv::FileStorage fs(cvOpenFileStorage(filename, memstorage, CV_STORAGE_READ)); CvFileNode* node = 0; if( !fs.isOpened() ) return 0; if( name ) { node = cvGetFileNodeByName( *fs, 0, name ); } else { int i, k; for( k = 0; k < (*fs)->roots->total; k++ ) { CvSeq* seq; CvSeqReader reader; node = (CvFileNode*)cvGetSeqElem( (*fs)->roots, k ); CV_Assert(node != NULL); if( !CV_NODE_IS_MAP( node->tag )) return 0; seq = node->data.seq; node = 0; cvStartReadSeq( seq, &reader, 0 ); // find the first element in the map for( i = 0; i < seq->total; i++ ) { if( CV_IS_SET_ELEM( reader.ptr )) { node = (CvFileNode*)reader.ptr; goto stop_search; } CV_NEXT_SEQ_ELEM( seq->elem_size, reader ); } } stop_search: ; } if( !node ) CV_Error( CV_StsObjectNotFound, "Could not find the/an object in file storage" ); real_name = cvGetFileNodeName( node ); ptr = cvRead( *fs, node, 0 ); // sanity check if( !memstorage && (CV_IS_SEQ( ptr ) || CV_IS_SET( ptr )) ) CV_Error( CV_StsNullPtr, "NULL memory storage is passed - the loaded dynamic structure can not be stored" ); if( cvGetErrStatus() < 0 ) { cvRelease( (void**)&ptr ); real_name = 0; } if( _real_name) { if (real_name) { *_real_name = (const char*)cvAlloc(strlen(real_name)); memcpy((void*)*_real_name, real_name, strlen(real_name)); } else { *_real_name = 0; } } return ptr; } CV_IMPL const char* cvAttrValue( const CvAttrList* attr, const char* attr_name ) { while( attr && attr->attr ) { int i; for( i = 0; attr->attr[i*2] != 0; i++ ) { if( strcmp( attr_name, attr->attr[i*2] ) == 0 ) return attr->attr[i*2+1]; } attr = attr->next; } return 0; } #define CV_HASHVAL_SCALE 33 CV_IMPL CvStringHashNode* cvGetHashedKey( CvFileStorage* fs, const char* str, int len, int create_missing ) { CvStringHashNode* node = 0; unsigned hashval = 0; int i, tab_size; if( !fs ) return 0; CvStringHash* map = fs->str_hash; if( len < 0 ) { for( i = 0; str[i] != '\0'; i++ ) hashval = hashval*CV_HASHVAL_SCALE + (unsigned char)str[i]; len = i; } else for( i = 0; i < len; i++ ) hashval = hashval*CV_HASHVAL_SCALE + (unsigned char)str[i]; hashval &= INT_MAX; tab_size = map->tab_size; if( (tab_size & (tab_size - 1)) == 0 ) i = (int)(hashval & (tab_size - 1)); else i = (int)(hashval % tab_size); for( node = (CvStringHashNode*)(map->table[i]); node != 0; node = node->next ) { if( node->hashval == hashval && node->str.len == len && memcmp( node->str.ptr, str, len ) == 0 ) break; } if( !node && create_missing ) { node = (CvStringHashNode*)cvSetNew( (CvSet*)map ); node->hashval = hashval; node->str = cvMemStorageAllocString( map->storage, str, len ); node->next = (CvStringHashNode*)(map->table[i]); map->table[i] = node; } return node; } CV_IMPL CvFileNode* cvGetFileNode( CvFileStorage* fs, CvFileNode* _map_node, const CvStringHashNode* key, int create_missing ) { CvFileNode* value = 0; int k = 0, attempts = 1; if( !fs ) return 0; CV_CHECK_FILE_STORAGE(fs); if( !key ) CV_Error( CV_StsNullPtr, "Null key element" ); if( _map_node ) { if( !fs->roots ) return 0; attempts = fs->roots->total; } for( k = 0; k < attempts; k++ ) { int i, tab_size; CvFileNode* map_node = _map_node; CvFileMapNode* another; CvFileNodeHash* map; if( !map_node ) map_node = (CvFileNode*)cvGetSeqElem( fs->roots, k ); CV_Assert(map_node != NULL); if( !CV_NODE_IS_MAP(map_node->tag) ) { if( (!CV_NODE_IS_SEQ(map_node->tag) || map_node->data.seq->total != 0) && CV_NODE_TYPE(map_node->tag) != CV_NODE_NONE ) CV_Error( CV_StsError, "The node is neither a map nor an empty collection" ); return 0; } map = map_node->data.map; tab_size = map->tab_size; if( (tab_size & (tab_size - 1)) == 0 ) i = (int)(key->hashval & (tab_size - 1)); else i = (int)(key->hashval % tab_size); for( another = (CvFileMapNode*)(map->table[i]); another != 0; another = another->next ) if( another->key == key ) { if( !create_missing ) { value = &another->value; return value; } CV_PARSE_ERROR( "Duplicated key" ); } if( k == attempts - 1 && create_missing ) { CvFileMapNode* node = (CvFileMapNode*)cvSetNew( (CvSet*)map ); node->key = key; node->next = (CvFileMapNode*)(map->table[i]); map->table[i] = node; value = (CvFileNode*)node; } } return value; } CV_IMPL CvFileNode* cvGetFileNodeByName( const CvFileStorage* fs, const CvFileNode* _map_node, const char* str ) { CvFileNode* value = 0; int i, len, tab_size; unsigned hashval = 0; int k = 0, attempts = 1; if( !fs ) return 0; CV_CHECK_FILE_STORAGE(fs); if( !str ) CV_Error( CV_StsNullPtr, "Null element name" ); for( i = 0; str[i] != '\0'; i++ ) hashval = hashval*CV_HASHVAL_SCALE + (unsigned char)str[i]; hashval &= INT_MAX; len = i; if( !_map_node ) { if( !fs->roots ) return 0; attempts = fs->roots->total; } for( k = 0; k < attempts; k++ ) { CvFileNodeHash* map; const CvFileNode* map_node = _map_node; CvFileMapNode* another; if( !map_node ) map_node = (CvFileNode*)cvGetSeqElem( fs->roots, k ); if( !CV_NODE_IS_MAP(map_node->tag) ) { if( (!CV_NODE_IS_SEQ(map_node->tag) || map_node->data.seq->total != 0) && CV_NODE_TYPE(map_node->tag) != CV_NODE_NONE ) CV_Error( CV_StsError, "The node is neither a map nor an empty collection" ); return 0; } map = map_node->data.map; tab_size = map->tab_size; if( (tab_size & (tab_size - 1)) == 0 ) i = (int)(hashval & (tab_size - 1)); else i = (int)(hashval % tab_size); for( another = (CvFileMapNode*)(map->table[i]); another != 0; another = another->next ) { const CvStringHashNode* key = another->key; if( key->hashval == hashval && key->str.len == len && memcmp( key->str.ptr, str, len ) == 0 ) { value = &another->value; return value; } } } return value; } CV_IMPL CvFileNode* cvGetRootFileNode( const CvFileStorage* fs, int stream_index ) { CV_CHECK_FILE_STORAGE(fs); if( !fs->roots || (unsigned)stream_index >= (unsigned)fs->roots->total ) return 0; return (CvFileNode*)cvGetSeqElem( fs->roots, stream_index ); } CV_IMPL void cvStartWriteStruct( CvFileStorage* fs, const char* key, int struct_flags, const char* type_name, CvAttrList /*attributes*/ ) { CV_CHECK_OUTPUT_FILE_STORAGE(fs); check_if_write_struct_is_delayed( fs ); if ( fs->state_of_writing_base64 == base64::fs::NotUse ) switch_to_Base64_state( fs, base64::fs::Uncertain ); if ( fs->state_of_writing_base64 == base64::fs::Uncertain && CV_NODE_IS_SEQ(struct_flags) && fs->is_default_using_base64 && type_name == 0 ) { /* Uncertain whether output Base64 data */ make_write_struct_delayed( fs, key, struct_flags, type_name ); } else if ( type_name && memcmp(type_name, "binary", 6) == 0 ) { /* Must output Base64 data */ if ( !CV_NODE_IS_SEQ(struct_flags) ) CV_Error( CV_StsBadArg, "must set 'struct_flags |= CV_NODE_SEQ' if using Base64."); else if ( fs->state_of_writing_base64 != base64::fs::Uncertain ) CV_Error( CV_StsError, "function \'cvStartWriteStruct\' calls cannot be nested if using Base64."); fs->start_write_struct( fs, key, struct_flags, type_name ); if ( fs->state_of_writing_base64 != base64::fs::Uncertain ) switch_to_Base64_state( fs, base64::fs::Uncertain ); switch_to_Base64_state( fs, base64::fs::InUse ); } else { /* Won't output Base64 data */ if ( fs->state_of_writing_base64 == base64::fs::InUse ) CV_Error( CV_StsError, "At the end of the output Base64, `cvEndWriteStruct` is needed."); fs->start_write_struct( fs, key, struct_flags, type_name ); if ( fs->state_of_writing_base64 != base64::fs::Uncertain ) switch_to_Base64_state( fs, base64::fs::Uncertain ); switch_to_Base64_state( fs, base64::fs::NotUse ); } } CV_IMPL void cvEndWriteStruct( CvFileStorage* fs ) { CV_CHECK_OUTPUT_FILE_STORAGE(fs); check_if_write_struct_is_delayed( fs ); if ( fs->state_of_writing_base64 != base64::fs::Uncertain ) switch_to_Base64_state( fs, base64::fs::Uncertain ); fs->end_write_struct( fs ); } CV_IMPL void cvWriteInt( CvFileStorage* fs, const char* key, int value ) { CV_CHECK_OUTPUT_FILE_STORAGE(fs); fs->write_int( fs, key, value ); } CV_IMPL void cvWriteReal( CvFileStorage* fs, const char* key, double value ) { CV_CHECK_OUTPUT_FILE_STORAGE(fs); fs->write_real( fs, key, value ); } CV_IMPL void cvWriteString( CvFileStorage* fs, const char* key, const char* value, int quote ) { CV_CHECK_OUTPUT_FILE_STORAGE(fs); fs->write_string( fs, key, value, quote ); } CV_IMPL void cvWriteComment( CvFileStorage* fs, const char* comment, int eol_comment ) { CV_CHECK_OUTPUT_FILE_STORAGE(fs); fs->write_comment( fs, comment, eol_comment ); } CV_IMPL void cvStartNextStream( CvFileStorage* fs ) { CV_CHECK_OUTPUT_FILE_STORAGE(fs); fs->start_next_stream( fs ); } CV_IMPL void cvWriteRawData( CvFileStorage* fs, const void* _data, int len, const char* dt ) { if (fs->is_default_using_base64 || fs->state_of_writing_base64 == base64::fs::InUse ) { cvWriteRawDataBase64( fs, _data, len, dt ); return; } else if ( fs->state_of_writing_base64 == base64::fs::Uncertain ) { switch_to_Base64_state( fs, base64::fs::NotUse ); } const char* data0 = (const char*)_data; int offset = 0; int fmt_pairs[CV_FS_MAX_FMT_PAIRS*2], k, fmt_pair_count; char buf[256] = ""; CV_CHECK_OUTPUT_FILE_STORAGE( fs ); if( len < 0 ) CV_Error( CV_StsOutOfRange, "Negative number of elements" ); fmt_pair_count = icvDecodeFormat( dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS ); if( !len ) return; if( !data0 ) CV_Error( CV_StsNullPtr, "Null data pointer" ); if( fmt_pair_count == 1 ) { fmt_pairs[0] *= len; len = 1; } for(;len--;) { for( k = 0; k < fmt_pair_count; k++ ) { int i, count = fmt_pairs[k*2]; int elem_type = fmt_pairs[k*2+1]; int elem_size = CV_ELEM_SIZE(elem_type); const char* data, *ptr; offset = cvAlign( offset, elem_size ); data = data0 + offset; for( i = 0; i < count; i++ ) { switch( elem_type ) { case CV_8U: ptr = icv_itoa( *(uchar*)data, buf, 10 ); data++; break; case CV_8S: ptr = icv_itoa( *(char*)data, buf, 10 ); data++; break; case CV_16U: ptr = icv_itoa( *(ushort*)data, buf, 10 ); data += sizeof(ushort); break; case CV_16S: ptr = icv_itoa( *(short*)data, buf, 10 ); data += sizeof(short); break; case CV_32S: ptr = icv_itoa( *(int*)data, buf, 10 ); data += sizeof(int); break; case CV_32F: ptr = icvFloatToString( buf, *(float*)data ); data += sizeof(float); break; case CV_64F: ptr = icvDoubleToString( buf, *(double*)data ); data += sizeof(double); break; case CV_USRTYPE1: /* reference */ ptr = icv_itoa( (int)*(size_t*)data, buf, 10 ); data += sizeof(size_t); break; default: CV_Error( CV_StsUnsupportedFormat, "Unsupported type" ); return; } if( fs->fmt == CV_STORAGE_FORMAT_XML ) { int buf_len = (int)strlen(ptr); icvXMLWriteScalar( fs, 0, ptr, buf_len ); } else if ( fs->fmt == CV_STORAGE_FORMAT_YAML ) { icvYMLWrite( fs, 0, ptr ); } else { if( elem_type == CV_32F || elem_type == CV_64F ) { size_t buf_len = strlen(ptr); if( buf_len > 0 && ptr[buf_len-1] == '.' ) { // append zero if CV_32F or CV_64F string ends with decimal place to match JSON standard // ptr will point to buf, so can write to buf given ptr is const buf[buf_len] = '0'; buf[buf_len+1] = '\0'; } } icvJSONWrite( fs, 0, ptr ); } } offset = (int)(data - data0); } } } CV_IMPL void cvStartReadRawData( const CvFileStorage* fs, const CvFileNode* src, CvSeqReader* reader ) { int node_type; CV_CHECK_FILE_STORAGE( fs ); if( !src || !reader ) CV_Error( CV_StsNullPtr, "Null pointer to source file node or reader" ); node_type = CV_NODE_TYPE(src->tag); if( node_type == CV_NODE_INT || node_type == CV_NODE_REAL ) { // emulate reading from 1-element sequence reader->ptr = (schar*)src; reader->block_max = reader->ptr + sizeof(*src)*2; reader->block_min = reader->ptr; reader->seq = 0; } else if( node_type == CV_NODE_SEQ ) { cvStartReadSeq( src->data.seq, reader, 0 ); } else if( node_type == CV_NODE_NONE ) { memset( reader, 0, sizeof(*reader) ); } else CV_Error( CV_StsBadArg, "The file node should be a numerical scalar or a sequence" ); } CV_IMPL void cvReadRawDataSlice( const CvFileStorage* fs, CvSeqReader* reader, int len, void* _data, const char* dt ) { char* data0 = (char*)_data; int fmt_pairs[CV_FS_MAX_FMT_PAIRS*2], k = 0, fmt_pair_count; int i = 0, count = 0; CV_CHECK_FILE_STORAGE( fs ); if( !reader || !data0 ) CV_Error( CV_StsNullPtr, "Null pointer to reader or destination array" ); if( !reader->seq && len != 1 ) CV_Error( CV_StsBadSize, "The read sequence is a scalar, thus len must be 1" ); fmt_pair_count = icvDecodeFormat( dt, fmt_pairs, CV_FS_MAX_FMT_PAIRS ); size_t step = ::icvCalcStructSize(dt, 0); for(;;) { int offset = 0; for( k = 0; k < fmt_pair_count; k++ ) { int elem_type = fmt_pairs[k*2+1]; int elem_size = CV_ELEM_SIZE(elem_type); char* data; count = fmt_pairs[k*2]; offset = cvAlign( offset, elem_size ); data = data0 + offset; for( i = 0; i < count; i++ ) { CvFileNode* node = (CvFileNode*)reader->ptr; if( CV_NODE_IS_INT(node->tag) ) { int ival = node->data.i; switch( elem_type ) { case CV_8U: *(uchar*)data = cv::saturate_cast(ival); data++; break; case CV_8S: *(char*)data = cv::saturate_cast(ival); data++; break; case CV_16U: *(ushort*)data = cv::saturate_cast(ival); data += sizeof(ushort); break; case CV_16S: *(short*)data = cv::saturate_cast(ival); data += sizeof(short); break; case CV_32S: *(int*)data = ival; data += sizeof(int); break; case CV_32F: *(float*)data = (float)ival; data += sizeof(float); break; case CV_64F: *(double*)data = (double)ival; data += sizeof(double); break; case CV_USRTYPE1: /* reference */ *(size_t*)data = ival; data += sizeof(size_t); break; default: CV_Error( CV_StsUnsupportedFormat, "Unsupported type" ); return; } } else if( CV_NODE_IS_REAL(node->tag) ) { double fval = node->data.f; int ival; switch( elem_type ) { case CV_8U: ival = cvRound(fval); *(uchar*)data = cv::saturate_cast(ival); data++; break; case CV_8S: ival = cvRound(fval); *(char*)data = cv::saturate_cast(ival); data++; break; case CV_16U: ival = cvRound(fval); *(ushort*)data = cv::saturate_cast(ival); data += sizeof(ushort); break; case CV_16S: ival = cvRound(fval); *(short*)data = cv::saturate_cast(ival); data += sizeof(short); break; case CV_32S: ival = cvRound(fval); *(int*)data = ival; data += sizeof(int); break; case CV_32F: *(float*)data = (float)fval; data += sizeof(float); break; case CV_64F: *(double*)data = fval; data += sizeof(double); break; case CV_USRTYPE1: /* reference */ ival = cvRound(fval); *(size_t*)data = ival; data += sizeof(size_t); break; default: CV_Error( CV_StsUnsupportedFormat, "Unsupported type" ); return; } } else CV_Error( CV_StsError, "The sequence element is not a numerical scalar" ); CV_NEXT_SEQ_ELEM( sizeof(CvFileNode), *reader ); if( !--len ) goto end_loop; } offset = (int)(data - data0); } data0 += step; } end_loop: if( i != count - 1 || k != fmt_pair_count - 1 ) CV_Error( CV_StsBadSize, "The sequence slice does not fit an integer number of records" ); if( !reader->seq ) reader->ptr -= sizeof(CvFileNode); } CV_IMPL void cvReadRawData( const CvFileStorage* fs, const CvFileNode* src, void* data, const char* dt ) { CvSeqReader reader; if( !src || !data ) CV_Error( CV_StsNullPtr, "Null pointers to source file node or destination array" ); cvStartReadRawData( fs, src, &reader ); cvReadRawDataSlice( fs, &reader, CV_NODE_IS_SEQ(src->tag) ? src->data.seq->total : 1, data, dt ); } CV_IMPL void cvWriteFileNode( CvFileStorage* fs, const char* new_node_name, const CvFileNode* node, int embed ) { CvFileStorage* dst = 0; CV_CHECK_OUTPUT_FILE_STORAGE(fs); if( !node ) return; if( CV_NODE_IS_COLLECTION(node->tag) && embed ) { icvWriteCollection( fs, node ); } else { icvWriteFileNode( fs, new_node_name, node ); } /* int i, stream_count; stream_count = fs->roots->total; for( i = 0; i < stream_count; i++ ) { CvFileNode* node = (CvFileNode*)cvGetSeqElem( fs->roots, i, 0 ); icvDumpCollection( dst, node ); if( i < stream_count - 1 ) dst->start_next_stream( dst ); }*/ cvReleaseFileStorage( &dst ); } CV_IMPL const char* cvGetFileNodeName( const CvFileNode* file_node ) { return file_node && CV_NODE_HAS_NAME(file_node->tag) ? ((CvFileMapNode*)file_node)->key->str.ptr : 0; } CV_IMPL void cvRegisterType( const CvTypeInfo* _info ) { CvTypeInfo* info = 0; int i, len; char c; //if( !CvType::first ) // icvCreateStandardTypes(); if( !_info || _info->header_size != sizeof(CvTypeInfo) ) CV_Error( CV_StsBadSize, "Invalid type info" ); if( !_info->is_instance || !_info->release || !_info->read || !_info->write ) CV_Error( CV_StsNullPtr, "Some of required function pointers " "(is_instance, release, read or write) are NULL"); c = _info->type_name[0]; if( !cv_isalpha(c) && c != '_' ) CV_Error( CV_StsBadArg, "Type name should start with a letter or _" ); len = (int)strlen(_info->type_name); for( i = 0; i < len; i++ ) { c = _info->type_name[i]; if( !cv_isalnum(c) && c != '-' && c != '_' ) CV_Error( CV_StsBadArg, "Type name should contain only letters, digits, - and _" ); } info = (CvTypeInfo*)cvAlloc( sizeof(*info) + len + 1 ); *info = *_info; info->type_name = (char*)(info + 1); memcpy( (char*)info->type_name, _info->type_name, len + 1 ); info->flags = 0; info->next = CvType::first; info->prev = 0; if( CvType::first ) CvType::first->prev = info; else CvType::last = info; CvType::first = info; } CV_IMPL void cvUnregisterType( const char* type_name ) { CvTypeInfo* info; info = cvFindType( type_name ); if( info ) { if( info->prev ) info->prev->next = info->next; else CvType::first = info->next; if( info->next ) info->next->prev = info->prev; else CvType::last = info->prev; if( !CvType::first || !CvType::last ) CvType::first = CvType::last = 0; cvFree( &info ); } } CV_IMPL CvTypeInfo* cvFirstType( void ) { return CvType::first; } CV_IMPL CvTypeInfo* cvFindType( const char* type_name ) { CvTypeInfo* info = 0; if (type_name) for( info = CvType::first; info != 0; info = info->next ) if( strcmp( info->type_name, type_name ) == 0 ) break; return info; } CV_IMPL CvTypeInfo* cvTypeOf( const void* struct_ptr ) { CvTypeInfo* info = 0; if( struct_ptr ) { for( info = CvType::first; info != 0; info = info->next ) if( info->is_instance( struct_ptr )) break; } return info; } /* reads matrix, image, sequence, graph etc. */ CV_IMPL void* cvRead( CvFileStorage* fs, CvFileNode* node, CvAttrList* list ) { void* obj = 0; CV_CHECK_FILE_STORAGE( fs ); if( !node ) return 0; if( !CV_NODE_IS_USER(node->tag) || !node->info ) CV_Error( CV_StsError, "The node does not represent a user object (unknown type?)" ); obj = node->info->read( fs, node ); if( list ) *list = cvAttrList(0,0); return obj; } /* writes matrix, image, sequence, graph etc. */ CV_IMPL void cvWrite( CvFileStorage* fs, const char* name, const void* ptr, CvAttrList attributes ) { CvTypeInfo* info; CV_CHECK_OUTPUT_FILE_STORAGE( fs ); if( !ptr ) CV_Error( CV_StsNullPtr, "Null pointer to the written object" ); info = cvTypeOf( ptr ); if( !info ) CV_Error( CV_StsBadArg, "Unknown object" ); if( !info->write ) CV_Error( CV_StsBadArg, "The object does not have write function" ); info->write( fs, name, ptr, attributes ); } /* simple API for reading/writing data */ CV_IMPL void cvSave( const char* filename, const void* struct_ptr, const char* _name, const char* comment, CvAttrList attributes ) { CvFileStorage* fs = 0; if( !struct_ptr ) CV_Error( CV_StsNullPtr, "NULL object pointer" ); fs = cvOpenFileStorage( filename, 0, CV_STORAGE_WRITE ); if( !fs ) CV_Error( CV_StsError, "Could not open the file storage. Check the path and permissions" ); cv::String name = _name ? cv::String(_name) : cv::FileStorage::getDefaultObjectName(filename); if( comment ) cvWriteComment( fs, comment, 0 ); cvWrite( fs, name.c_str(), struct_ptr, attributes ); cvReleaseFileStorage( &fs ); }