// ***************************************************************** -*- C++ -*- /* * Copyright (C) 2004-2021 Exiv2 authors * This program is part of the Exiv2 distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, 5th Floor, Boston, MA 02110-1301 USA. */ // ***************************************************************************** // included header files #include "config.h" #include "orfimage.hpp" #include "orfimage_int.hpp" #include "tiffimage.hpp" #include "tiffcomposite_int.hpp" #include "tiffimage_int.hpp" #include "image.hpp" #include "basicio.hpp" #include "error.hpp" #include "futils.hpp" // + standard includes #include #include #include #include // ***************************************************************************** // class member definitions namespace Exiv2 { using namespace Internal; OrfImage::OrfImage(BasicIo::UniquePtr io, bool create) : TiffImage(/*ImageType::orf, mdExif | mdIptc | mdXmp,*/ std::move(io),create) { setTypeSupported(ImageType::orf, mdExif | mdIptc | mdXmp); } // OrfImage::OrfImage std::string OrfImage::mimeType() const { return "image/x-olympus-orf"; } int OrfImage::pixelWidth() const { auto imageWidth = exifData_.findKey(Exiv2::ExifKey("Exif.Image.ImageWidth")); if (imageWidth != exifData_.end() && imageWidth->count() > 0) { return imageWidth->toLong(); } return 0; } int OrfImage::pixelHeight() const { auto imageHeight = exifData_.findKey(Exiv2::ExifKey("Exif.Image.ImageLength")); if (imageHeight != exifData_.end() && imageHeight->count() > 0) { return imageHeight->toLong(); } return 0; } void OrfImage::setComment(const std::string& /*comment*/) { // not supported throw(Error(kerInvalidSettingForImage, "Image comment", "ORF")); } void OrfImage::printStructure(std::ostream& out, PrintStructureOption option, int depth) { out << "ORF IMAGE" << std::endl; if (io_->open() != 0) throw Error(kerDataSourceOpenFailed, io_->path(), strError()); // Ensure that this is the correct image type if ( imageType() == ImageType::none ) if (!isOrfType(*io_, false)) { if (io_->error() || io_->eof()) throw Error(kerFailedToReadImageData); throw Error(kerNotAJpeg); } io_->seek(0,BasicIo::beg); printTiffStructure(io(),out,option,depth-1); } // OrfImage::printStructure void OrfImage::readMetadata() { #ifdef EXIV2_DEBUG_MESSAGES std::cerr << "Reading ORF file " << io_->path() << "\n"; #endif if (io_->open() != 0) { throw Error(kerDataSourceOpenFailed, io_->path(), strError()); } IoCloser closer(*io_); // Ensure that this is the correct image type if (!isOrfType(*io_, false)) { if (io_->error() || io_->eof()) throw Error(kerFailedToReadImageData); throw Error(kerNotAnImage, "ORF"); } clearMetadata(); ByteOrder bo = OrfParser::decode(exifData_, iptcData_, xmpData_, io_->mmap(), static_cast(io_->size())); setByteOrder(bo); } // OrfImage::readMetadata void OrfImage::writeMetadata() { #ifdef EXIV2_DEBUG_MESSAGES std::cerr << "Writing ORF file " << io_->path() << "\n"; #endif ByteOrder bo = byteOrder(); byte* pData = nullptr; long size = 0; IoCloser closer(*io_); if (io_->open() == 0) { // Ensure that this is the correct image type if (isOrfType(*io_, false)) { pData = io_->mmap(true); size = static_cast(io_->size()); OrfHeader orfHeader; if (0 == orfHeader.read(pData, 8)) { bo = orfHeader.byteOrder(); } } } if (bo == invalidByteOrder) { bo = littleEndian; } setByteOrder(bo); OrfParser::encode(*io_, pData, size, bo, exifData_, iptcData_, xmpData_); // may throw } // OrfImage::writeMetadata ByteOrder OrfParser::decode( ExifData& exifData, IptcData& iptcData, XmpData& xmpData, const byte* pData, uint32_t size ) { OrfHeader orfHeader; return TiffParserWorker::decode(exifData, iptcData, xmpData, pData, size, Tag::root, TiffMapping::findDecoder, &orfHeader); } WriteMethod OrfParser::encode( BasicIo& io, const byte* pData, uint32_t size, ByteOrder byteOrder, const ExifData& exifData, const IptcData& iptcData, const XmpData& xmpData ) { // Copy to be able to modify the Exif data ExifData ed = exifData; // Delete IFDs which do not occur in TIFF images static const IfdId filteredIfds[] = { panaRawId }; for (auto&& filteredIfd : filteredIfds) { #ifdef EXIV2_DEBUG_MESSAGES std::cerr << "Warning: Exif IFD " << filteredIfds << " not encoded\n"; #endif ed.erase(std::remove_if(ed.begin(), ed.end(), FindExifdatum(filteredIfd)), ed.end()); } std::unique_ptr header(new OrfHeader(byteOrder)); return TiffParserWorker::encode(io, pData, size, ed, iptcData, xmpData, Tag::root, TiffMapping::findEncoder, header.get(), nullptr); } // ************************************************************************* // free functions Image::UniquePtr newOrfInstance(BasicIo::UniquePtr io, bool create) { auto image = std::make_unique(std::move(io), create); if (!image->good()) { image.reset(); } return image; } bool isOrfType(BasicIo& iIo, bool advance) { const int32_t len = 8; byte buf[len]; iIo.read(buf, len); if (iIo.error() || iIo.eof()) { return false; } OrfHeader orfHeader; bool rc = orfHeader.read(buf, len); if (!advance || !rc) { iIo.seek(-len, BasicIo::cur); } return rc; } } // namespace Exiv2