// ========================================================== // Metadata functions implementation // // Design and implementation by // - Hervé Drolon (drolon@infonie.fr) // // This file is part of FreeImage 3 // // COVERED CODE IS PROVIDED UNDER THIS LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTY // OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, WITHOUT LIMITATION, WARRANTIES // THAT THE COVERED CODE IS FREE OF DEFECTS, MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE // OR NON-INFRINGING. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE COVERED // CODE IS WITH YOU. SHOULD ANY COVERED CODE PROVE DEFECTIVE IN ANY RESPECT, YOU (NOT // THE INITIAL DEVELOPER OR ANY OTHER CONTRIBUTOR) ASSUME THE COST OF ANY NECESSARY // SERVICING, REPAIR OR CORRECTION. THIS DISCLAIMER OF WARRANTY CONSTITUTES AN ESSENTIAL // PART OF THIS LICENSE. NO USE OF ANY COVERED CODE IS AUTHORIZED HEREUNDER EXCEPT UNDER // THIS DISCLAIMER. // // Use at your own risk! // ========================================================== #ifdef _MSC_VER #pragma warning (disable : 4786) // identifier was truncated to 'number' characters #endif #include "../stdafx.h" #include "FreeImageTag.h" // ---------------------------------------------------------- // IPTC JPEG / TIFF markers routines // ---------------------------------------------------------- static const char* IPTC_DELIMITER = ";"; // keywords/supplemental category delimiter /** Read and decode IPTC binary data */ BOOL read_iptc_profile(FIBITMAP *dib, const uint8_t *dataptr, unsigned int datalen) { char defaultKey[16]; size_t length = datalen; uint8_t *profile = (uint8_t*)dataptr; const char *JPEG_AdobeCM_Tag = "Adobe_CM"; std::string Keywords; std::string SupplementalCategory; uint16_t tag_id; if(!dataptr || (datalen == 0)) { return FALSE; } if(datalen > 8) { if(memcmp(JPEG_AdobeCM_Tag, dataptr, 8) == 0) { // the "Adobe_CM" APP13 segment presumably contains color management information, // but the meaning of the data is currently unknown. // If anyone has an idea about what this means, please let me know. return FALSE; } } // create a tag FITAG *tag = FreeImage_CreateTag(); TagLib& tag_lib = TagLib::instance(); // find start of the BIM portion of the binary data size_t offset = 0; while(offset < length - 1) { if((profile[offset] == 0x1C) && (profile[offset+1] == 0x02)) break; offset++; } // for each tag while (offset < length) { // identifies start of a tag if (profile[offset] != 0x1c) { break; } // we need at least five bytes left to read a tag if ((offset + 5) >= length) { break; } offset++; int directoryType = profile[offset++]; int tagType = profile[offset++];; int tagByteCount = ((profile[offset] & 0xFF) << 8) | (profile[offset + 1] & 0xFF); offset += 2; if ((offset + tagByteCount) > length) { // data for tag extends beyond end of iptc segment break; } if(tagByteCount == 0) { // go to next tag continue; } // process the tag tag_id = (uint16_t)(tagType | (directoryType << 8)); FreeImage_SetTagID(tag, tag_id); FreeImage_SetTagLength(tag, tagByteCount); // allocate a buffer to store the tag value uint8_t *iptc_value = (uint8_t*)malloc((tagByteCount + 1) * sizeof(uint8_t)); memset(iptc_value, 0, (tagByteCount + 1) * sizeof(uint8_t)); // get the tag value switch (tag_id) { case TAG_RECORD_VERSION: { // short FreeImage_SetTagType(tag, FIDT_SSHORT); FreeImage_SetTagCount(tag, 1); short *pvalue = (short*)&iptc_value[0]; *pvalue = (short)((profile[offset] << 8) | profile[offset + 1]); FreeImage_SetTagValue(tag, pvalue); break; } case TAG_RELEASE_DATE: case TAG_DATE_CREATED: // Date object case TAG_RELEASE_TIME: case TAG_TIME_CREATED: // time default: { // string FreeImage_SetTagType(tag, FIDT_ASCII); FreeImage_SetTagCount(tag, tagByteCount); for(int i = 0; i < tagByteCount; i++) { iptc_value[i] = profile[offset + i]; } iptc_value[tagByteCount] = '\0'; FreeImage_SetTagValue(tag, (char*)&iptc_value[0]); break; } } if(tag_id == TAG_SUPPLEMENTAL_CATEGORIES) { // concatenate the categories if(SupplementalCategory.length() == 0) { SupplementalCategory.append((char*)iptc_value); } else { SupplementalCategory.append(IPTC_DELIMITER); SupplementalCategory.append((char*)iptc_value); } } else if(tag_id == TAG_KEYWORDS) { // concatenate the keywords if(Keywords.length() == 0) { Keywords.append((char*)iptc_value); } else { Keywords.append(IPTC_DELIMITER); Keywords.append((char*)iptc_value); } } else { // get the tag key and description const char *key = tag_lib.getTagFieldName(TagLib::IPTC, tag_id, defaultKey); FreeImage_SetTagKey(tag, key); const char *description = tag_lib.getTagDescription(TagLib::IPTC, tag_id); FreeImage_SetTagDescription(tag, description); // store the tag if(key) { FreeImage_SetMetadata(FIMD_IPTC, dib, key, tag); } } free(iptc_value); // next tag offset += tagByteCount; } // store the 'keywords' tag if(Keywords.length()) { FreeImage_SetTagType(tag, FIDT_ASCII); FreeImage_SetTagID(tag, TAG_KEYWORDS); FreeImage_SetTagKey(tag, tag_lib.getTagFieldName(TagLib::IPTC, TAG_KEYWORDS, defaultKey)); FreeImage_SetTagDescription(tag, tag_lib.getTagDescription(TagLib::IPTC, TAG_KEYWORDS)); FreeImage_SetTagLength(tag, (uint32_t)Keywords.length()); FreeImage_SetTagCount(tag, (uint32_t)Keywords.length()); FreeImage_SetTagValue(tag, (char*)Keywords.c_str()); FreeImage_SetMetadata(FIMD_IPTC, dib, FreeImage_GetTagKey(tag), tag); } // store the 'supplemental category' tag if(SupplementalCategory.length()) { FreeImage_SetTagType(tag, FIDT_ASCII); FreeImage_SetTagID(tag, TAG_SUPPLEMENTAL_CATEGORIES); FreeImage_SetTagKey(tag, tag_lib.getTagFieldName(TagLib::IPTC, TAG_SUPPLEMENTAL_CATEGORIES, defaultKey)); FreeImage_SetTagDescription(tag, tag_lib.getTagDescription(TagLib::IPTC, TAG_SUPPLEMENTAL_CATEGORIES)); FreeImage_SetTagLength(tag, (uint32_t)SupplementalCategory.length()); FreeImage_SetTagCount(tag, (uint32_t)SupplementalCategory.length()); FreeImage_SetTagValue(tag, (char*)SupplementalCategory.c_str()); FreeImage_SetMetadata(FIMD_IPTC, dib, FreeImage_GetTagKey(tag), tag); } // delete the tag FreeImage_DeleteTag(tag); return TRUE; } // -------------------------------------------------------------------------- static uint8_t* append_iptc_tag(uint8_t *profile, unsigned *profile_size, uint16_t id, uint32_t length, const void *value) { uint8_t *buffer = NULL; // calculate the new buffer size size_t buffer_size = (5 + *profile_size + length) * sizeof(uint8_t); buffer = (uint8_t*)malloc(buffer_size); if(!buffer) return NULL; // add the header buffer[0] = 0x1C; buffer[1] = 0x02; // add the tag type buffer[2] = (uint8_t)(id & 0x00FF); // add the tag length buffer[3] = (uint8_t)(length >> 8); buffer[4] = (uint8_t)(length & 0xFF); // add the tag value memcpy(buffer + 5, (uint8_t*)value, length); // append the previous profile if(NULL == profile) { *profile_size = (5 + length); } else { memcpy(buffer + 5 + length, profile, *profile_size); *profile_size += (5 + length); free(profile); } return buffer; } /** Encode IPTC metadata into a binary buffer. The buffer is allocated by the function and must be freed by the caller. */ BOOL write_iptc_profile(FIBITMAP *dib, uint8_t **profile, unsigned *profile_size) { FITAG *tag = NULL; FIMETADATA *mdhandle = NULL; uint8_t *buffer = NULL; unsigned buffer_size = 0; // parse all IPTC tags and rebuild a IPTC profile mdhandle = FreeImage_FindFirstMetadata(FIMD_IPTC, dib, &tag); if(mdhandle) { do { uint16_t tag_id = FreeImage_GetTagID(tag); // append the tag to the profile switch(tag_id) { case TAG_RECORD_VERSION: // ignore (already handled) break; case TAG_SUPPLEMENTAL_CATEGORIES: case TAG_KEYWORDS: if(FreeImage_GetTagType(tag) == FIDT_ASCII) { std::string value = (const char*)FreeImage_GetTagValue(tag); // split the tag value std::vector output; std::string delimiter = IPTC_DELIMITER; size_t offset = 0; size_t delimiterIndex = 0; delimiterIndex = value.find(delimiter, offset); while (delimiterIndex != std::string::npos) { output.push_back(value.substr(offset, delimiterIndex - offset)); offset += delimiterIndex - offset + delimiter.length(); delimiterIndex = value.find(delimiter, offset); } output.push_back(value.substr(offset)); // add as many tags as there are comma separated strings for(int i = 0; i < (int)output.size(); i++) { std::string& tag_value = output[i]; buffer = append_iptc_tag(buffer, &buffer_size, tag_id, (uint32_t)tag_value.length(), tag_value.c_str()); } } break; case TAG_URGENCY: if(FreeImage_GetTagType(tag) == FIDT_ASCII) { uint32_t length = 1; // keep the first octet only buffer = append_iptc_tag(buffer, &buffer_size, tag_id, length, FreeImage_GetTagValue(tag)); } break; default: if(FreeImage_GetTagType(tag) == FIDT_ASCII) { uint32_t length = FreeImage_GetTagLength(tag); buffer = append_iptc_tag(buffer, &buffer_size, tag_id, length, FreeImage_GetTagValue(tag)); } break; } } while(FreeImage_FindNextMetadata(mdhandle, &tag)); FreeImage_FindCloseMetadata(mdhandle); // add the DirectoryVersion tag const short version = 0x0200; buffer = append_iptc_tag(buffer, &buffer_size, TAG_RECORD_VERSION, sizeof(version), &version); *profile = buffer; *profile_size = buffer_size; return TRUE; } return FALSE; }