The application provides a comprehensive set of editing tools. The library is actively maintained and regularly updated to include support for the latest camera models.ĭigiKam can also manage video files for cataloging purpose, and the application uses the couple FFmpegĪnd QtAv libraries to extract metadata and play media. You can also combine several criteria for more advanced searches.ĭigiKam rely on Exiv2 library to handle metadata tag contents from files to populate the photo library.ĭigiKam can handle raw files, and the application uses the excellent LibRaw library for decoding raw files. You can search photos by tags, labels, rating, data, location, and even specific EXIF, IPTC, or XMP metadata. In addition to filtering functionality, digiKam features powerful searching capabilities that let you search the photo library by a wide range of criteria. You can then use filtering functionality to quickly find items that match specific criteria. But the application also features powerful tagging tools that allow you to assign tags, ratings, and labels to The application allows you to configure import settings and rules that process and organize imported items on-the-fly.ĭigiKam organizes photos, raw files, and videos into albums. You can use digiKam’s import capabilities to easily transfer photos, raw files, and videos directly from your camera and external storage devices (SD cards, USB disks, etc.). Set of tools for importing, managing, editing, and sharing photos and raw files. Just change this value accordingly to speed-up compilation.įiles will be installed to the standard path used by your Linux system to host applications (usually /usr).DigiKam is an advanced open-source digital photo management application that runs on Linux, Windows, and macOS. If more cores are available on your computer, Note: make -j4 will use 4 CPU cores to compile all source code. You should use a separate build folder to help cleaning up sources if something goes wrong.Īll configuration tasks can be performed by bootstrap.linux script. To compile the source code under linux you have to give these commands in the source code folder. Stage 3: digiKam Compilation and installation in your Linux system When all is ready, from web interface send a Pull Request (PR) for futureĬodes review and backport to master repository. Note: for developers who whant to contribute, create a fork from GiLab repository web interface and make yourĬhanges in your own repository. To get this branch instead master code, use this command line: # git checkout qt5-maintenance This branch do not accept new features, only bug fixes. This code is compatible with Qt5 and Qt6 and will targeted to future 8.0.0 release.Ī dedicated git branch named qt5-maintenance is used to publish the mature and stable qt5 based releases, aka 7.6, 7.7, 7.8, etc. This will checkout the master branch where new features will be added. To checkout digiKam code from the git repository,Įnter these command lines in a directory where you have enough space disk: # git clone digikam Urpmi (Mageia), zipper (Suse, OpenSuse, …), etc. The system packages manager as apt-get (Ubuntu, Debian, …), yum (RedHat, Fedora, CentOS, …), Generally with a “-devel” postfix (as libgphoto2-devel for ex), and can be installated separatly using Most of these dependencies will be available as developement packages from your Linux distribution, So, before compiling yourself digiKam, you’ll have to download and install them.The up to date dependencies list is given in the developer documentation available in this section How to get digiKam from git master repository Stage 1: Install external dependenciesĭigiKam requires a lot of libraries.
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