nomacs is a free, open source image viewer, which supports multiple platforms. You can use it for viewing all common image formats including RAW and psd images. nomacs is licensed under the GNU General Public License v3 and available for Windows, Linux, FreeBSD, Mac, and OS/2.
We assume you have an IDE (i.e. Visual Studio), python, git, and Qt installed.
Get all dependencies:
git submodule init
git submodule update
Project folders in 3rd-party
will not be empty anymore. Now call:
python scripts/make.py "qtpath/bin"
This will build nomacs into build/nomacs
. If you are using Visual Studio, you can then double-click build/nomacs/nomacs.sln
. Right-click the nomacs project and choose Set as StartUp Project
.
Build individual projects using:
python scripts/make.py "qt/bin" --project quazip,libraw --force
I like having a separate developer build (without submodules) that uses 3rd party libs already compiled. To do so you need to:
git submodule update --init --remote scripts
# python scripts/make.py "C:\Qt\Qt-5.14.1-installer\5.14.2\msvc2017_64\bin" --lib-path C:\coding\nomacs\nomacs\3rd-party\build
python scripts/make.py "qt/bin" --lib-path "nomacs/3rd-party/build"
- check if you have setup opencv (otherwise uncheck ENABLE_OPENCV)
- check if your Qt is set correctly (otherwise set the path to
qt_install_dir/qtbase/bin/qmake.exe
) - check if your builds proceeded correctly
Get the required packages:
-
For Ubuntu 21.04 and above:
sudo apt-get install debhelper cdbs qt5-qmake qttools5-dev-tools qtbase5-dev qttools5-dev libqt5svg5-dev qt5-image-formats-plugins libexiv2-dev libraw-dev libopencv-dev cmake libtiff-dev libquazip5-dev libwebp-dev git build-essential lcov libzip-dev
-
For older Ubuntu versions:
sudo apt-get install debhelper cdbs qt5-qmake qttools5-dev-tools qt5-default qttools5-dev libqt5svg5-dev qt5-image-formats-plugins libexiv2-dev libraw-dev libopencv-dev cmake libtiff-dev libquazip5-dev libwebp-dev git build-essential lcov libzip-dev
Clone the nomacs repository from GitHub:
git clone https://github.com/nomacs/nomacs.git
This will by default place the source into ~/nomacs
Go to the nomacs/ImageLounge directory and run cmake
to get the Makefiles:
mkdir build
cd build
cmake ../ImageLounge/.
Compile nomacs:
make
You will now have a binary (~/nomacs/build/nomacs), which you can test (or use directly). To install it to /usr/local/bin, use:
sudo make install
note that you have to execute
sudo ldconfig
after a successful install.
Install the heif plugin for HEIF support.
- Set
ENABLE_TRANSLATIONS
totrue
(default:false
) - Build all officially supported plugins
Install Homebrew for easier installation of dependencies. Install required dependencies:
brew install qt5 exiv2 opencv libraw quazip cmake pkg-config
Clone the nomacs repository from GitHub:
git clone https://github.com/nomacs/nomacs.git
Go to the nomacs
directory and run cmake to get the Makefiles:
cd nomacs
mkdir build
cd build
For Homebrew on Intel models:
# qt5
$ export CPLUS_INCLUDE_PATH=/usr/local/include
$ Qt5_DIR=/usr/local/opt/qt5/ cmake -D QT_VERSION_MAJOR=5 --install-prefix /Applications ../ImageLounge/.
# qt6
$ cmake -D QT_VERSION_MAJOR=6 -D ENABLE_QUAZIP=ON --install-prefix /Applications ../ImageLounge/.
For Homebrew on Apple Silicon models:
$ Qt5_DIR=/opt/homebrew/opt/qt5/ cmake -DQT_QMAKE_EXECUTABLE=/opt/homebrew/opt/qt5/bin/qmake --install-prefix /Applications ../ImageLounge/.
Run make:
$ make
You will now have a binary (nomacs.app
), which you can test (or use directly). To install it to /Applications
, use
sudo make install
If you want to have an independent bundle image (nomacs.dmg
) you can create it by using
$ make bundle
If macdeployqt complains about ERROR: Cannot resolve rpath "@rpath/QtGui.framework/Versions/A/QtGui"
here is the solution:
$ cd /usr/local/lib/QtGui.framework/Versions/A
$ install_name_tool -id '@rpath/QtGui.framework/Versions/A/QtGui' QtGui
% otool -L QtGui| head -2
QtGui:
@rpath/QtGui.framework/Versions/A/QtGui (compatibility version 6.0.0, current version 6.7.0)
Compiles nomacs for Windows using M Cross Environment (MXE) from a Linux/Unix host.
MXE environment is usually compiled from source, however you may be able to skip this if MXE has packages for your platform:
git clone <mxe url>
cd mxe
# qt5
make MXE_TARGETS='x86_64-w64-mingw32.shared' qtbase qtimageformats qtwinextras opencv quazip tiff exiv2 libraw
# qt6 (quazip-qt6 is unavailable)
make MXE_TARGETS='x86_64-w64-mingw32.shared' qt6-qtbase qt6-qtimageformats qt6-qttools opencv tiff exiv2 libraw
Setup build environment:
export MXE_DIR=~/mxe
export MXE_TARGET=x86_64-w64-mingw32.shared
export PATH="${MXE_DIR}/usr/bin:$PATH"
alias pkg-config=${MXE_TARGET}-pkg-config
alias qmake=${MXE_TARGET}-qmake
alias cmake=${MXE_TARGET}-cmake
Run cmake out-of-tree:
mkdir build-nomacs
cd build-nomacs
cmake -D QT_VERSION_MAJOR=5 -D ENABLE_TRANSLATIONS=ON -D ENABLE_HEIF=ON -D ENABLE_AVIF=ON \
-DENABLE_JXL=ON -D USE_SYSTEM_QUAZIP=OFF <nomacs-path>/ImageLounge
Compile nomacs:
make -j8
make collect
Run on WINE:
wine nomacs-mingw/nomacs.exe
Run on Windows:
cd C:\
xcopy /DEY <shared-folder>\build-nomacs\nomacs-mingw nomacs
cd nomacs
nomacs.exe
export target=mingw-w64-x86_64
pacman -S $target-qt5-base $target-qt5-svg $target-qt5-winextras $target-qt5-tools \
$target-libraw $target-libtiff $target-exiv2 $target-opencv $target-cmake $target-gcc
export PATH=/ming64:$PATH
cd <build-dir>
cmake -D QT_MAJOR_VERSION=5 -D ENABLE_TRANSLATIONS=ON -D USE_SYSTEM_QUAZIP=ON <nomacs-dir>/ImageLounge
cmake --build . --parallel 8
We have created a docker image that best simulates the old travis system (currently it's ubuntu xenial 16.04). To build nomacs in a docker, you have to create the image:
docker build --rm -f "Dockerfile" -t nomacs:latest empty-docker-dir
To deploy nomacs in a docker on your system, you can mount this directory using:
docker run --rm -it -v C:\\coding\\nomacs:/usr/nomacs nomacs:latest
If needed, you can upload the image:
docker login
docker tag nomacs diemmarkus/nomacs
docker push diemmarkus/nomacs:latest
To enable Qt debug messages set
cmake -D CMAKE_BUILD_TYPE=Debug ...
at the Makefiles generation phase.
To build tests, install GoogleTest before running the cmake configuration.
A check
target will be created by default if GoogleTest is present
to build the test binaries and execute ctest
.
make check