## Dependencies * C++17 compiler * Latest QT6 * Various libraries for Linux & macOS, see below * On Windows all the libraries are included in the repository For debian/ubuntu, those packages are needed ```shell libavformat-dev libavutil-dev libbz2-dev libeb16-dev libhunspell-dev \ liblzma-dev liblzo2-dev libopencc-dev libvorbis-dev \ libx11-dev libxtst-dev libzim-dev libzstd-dev qt6-5compat-dev \ qt6-base-dev qt6-multimedia-dev qt6-speech-dev qt6-svg-dev \ qt6-tools-dev qt6-tools-dev-tools qt6-webchannel-dev \ qt6-webengine-dev x11proto-record-dev zlib1g-dev ``` In other words, those libraries * Qt6 (with webengine) * ffmpeg * libzim * xapian * hunspell * opencc * libeb * libvorbis * x11 (linux only) And a few compression libraries: * xz (lzma) * bzip2 * lzo2 * zlib ## CMake Build Basically, you need those commands: ```shell cd goldendict-ng && mkdir build_dir # config step cmake -S . -B build_dir \ --install-prefix=/usr/local/ \ -DCMAKE_BUILD_TYPE=Release # actual build cmake --build build_dir --parallel 7 cmake --install ./build_dir/ ``` ### Feature flags Append `-D{flag_names}=ON/OFF` to cmake's config step Available flags can be found on the top of `CMakeLists.txt` ### Windows Install Qt6(msvc) through the standard installer and pass Qt's path to CMake ``` -DCMAKE_PREFIX_PATH=F:\Qt\6.4.1\msvc2019_64 ``` The built artifacts will end up in `build_dir/goldendict` To run the built `goldendict.exe` directly, you have to add `F:\Qt\6.5.2\msvc2019_64\bin` to your PATH environment variable To have a redistributable goldendict (runable on someone else's computer by just copying the folder), you can build the deployment target which will copy necessary files to the folder ``` cmake --build . --target windeploy ``` The `build_dir/goldendict` will be ready to share with others. Use`windeployqt.exe {your_build_dir}/goldendict.exe` which will copy the qt related `.dll` and other necessary files automatically. ### macOS If you build in an IDE, then the created `goldendict-ng.app` will be runnable from the IDE which set up necessary magics for you. To make the `.app` runnable elsewhere, you can run `cmake --install build_dir/` which will invoke macdeployqt, ad-hoc code signing and various other things. The produced app will end up in `build_dir/redist/goldendict-ng.app` To create `.dmg` installer, you have to have [create-dmg](https://github.com/create-dmg/create-dmg) installed on your machine, then also `cmake --install build_dir/`. ## Qmake ### Build Steps **Notice**: All additional configs for `qmake` that must be combined in one of pass config options to `qmake`: ```shell qmake6 "CONFIG+=release" make ``` For ARM macOS, `QMAKE_APPLE_DEVICE_ARCHS="arm64"` should be passed to qmake. #### Building with Chinese conversion support To add Chinese conversion support you need at first install libopencc-dev package, then pass `"CONFIG+=chinese_conversion_support"` to `qmake`. ``` sudo apt-get install libopencc-dev ``` #### Building with Zim dictionaries support To add Zim formats support you need `libzim`, then pass `"CONFIG+=zim_support"` to `qmake` **Note**: Some linux distros do not support latest zim version, so you need to compile from latest source. On Windows, you can use vcpkg to compile the libzim ``` vcpkg install libzim:x64-windows ``` and copy the corresponding(debug/release) library to the `winlibs/lib` folder. the zim's `include` directory to the `winlibs/include` directory. #### Building without Epwing format support If you have problem building with libeb-dev package, you can pass `"CONFIG+=no_epwing_support"` to `qmake` in order to disable Epwing format support #### Building without internal audio players If you have problem building with FFmpeg (for example, very old linux distro), you can pass `"CONFIG+=no_ffmpeg_player"` to `qmake` in order to disable FFmpeg internal audio player back end. If you have problem building with Qt5 Multimedia or experience GStreamer run-time errors (for example, Ubuntu 14.04), you can pass `"CONFIG+=no_qtmultimedia_player"` to `qmake` in order to disable Qt Multimedia internal audio player back end. #### Building with xapian build xapian from source, download and extract the xapian-core source code. ``` ./configure make make install ``` On Windows, `vcpkg install xapian:x64-windows` and copy the libs/dlls into the `winlibs` A precompiled version of xapian lib has provided in winlibs. On Linux, install libxapian-dev package using package manager. On Mac, use homebrew to install xapian `brew install xapian` Goldendict-ng has used xapian as the default and the only one fulltext engine. #### use iconv (recommend to enable) use `CONFIG+=use_iconv` to enable this feature. when enabled ,iconv will be used to convert encoding other than the QTextCodec(which will be deprecated in future Qt version) ``` qmake "CONFIG+=use_iconv" ``` when enabled ,iconv should be installed on the platform at the same time. #### use breakpad use `CONFIG+=use_breakpad` to enable this crash dump. when enabled [breakpad](https://chromium.googlesource.com/breakpad/breakpad/+/master/docs), goldendict will generate a crash dump alongside with Goldendict in the `crash` directory. on Windows: `vcpkg install breakpad:x64-windows-release` and copy the installed packages into `thirdparty/breakpad` directory. with a structure like this: ``` ├─breakpad │ ├─include │ │ ├─client │ │ │ └─windows │ │ │ ├─common │ │ │ ├─crash_generation │ │ │ ├─handler │ │ │ └─sender │ │ ├─common │ │ │ └─windows │ │ └─google_breakpad │ │ ├─common │ │ └─processor │ └─lib ``` on Mac/Linux: [vcpkg](https://techviewleo.com/install-vcpkg-c-library-manager-on-linux-macos-windows/) can also be used or you can just install breakpad from source or use precompiled packages. Then enable google breakpad like this with qmake: ``` qmake "CONFIG+=use_breakpad" ``` #### build with tts disabled `CONFIG+=no_tts_support` will disable the QTextToSpeech feature. ### Build with VS2019 VS2019 support CMake project, open the source directory directly then you go. #### build After successful build, run windeployqt.exe(bundled with Qt installation) in the target folder (where GoldenDict.exe is located), which will copy all necessary files to this folder. You can click on the exe to verify that the application can be run. After all this, you can debug the application normally.