If your system's software repositories provide Qt5.9.x or higher and Python 3.4.x or higher, you may be able to compile Sigil using entirely repo-provided dependencies. These systems will likely be Ubuntu 16.04 (and its derivitives: like Mint 18), or Arch Linux, or Debian Unstable. If your system qualifies, check out the Building on Linux documentation.
Otherwise, continue on ...
To build Sigil on older Linux systems, you need to get/do the following things:
- A Linux build-toolchain with a C++11 capable compiler (gcc4.8.x-ish or higher recommended)
- CMake (3.0 or higher)
- Qt5.9.4
- Python 3.4 (or higher)
- The Sigil source code (downloaded tarball/zipfile or a git clone)
- Build/Install Sigil
- Test Sigil's Plugin Framework
- Advanced Stuff
Since I'm basically an Ubuntu/Debian guy at heart, I'll be mentioning stuff like:
sudo apt-get install
from here on out. You'll have to forgive me for not knowing all the yum/pacman/emerge equivalents. It's not a slight--I can assure you.
On Debian/Ubuntu systems you can use:
sudo apt-get install build-essential git
to get pretty-much everything you need to configure/compile/install C++ projects. On other flavors of Linux you need to basically make sure that you have gcc/g++ and "make" installed. If your software repositories don't provide you with gcc/g++ 4.8 or higher, you may need to look at manually installing a newer version. You're own your own, there. Sorry. Try typing:
gcc --version
at a command prompt to see if your version is sufficient. I've seen some later versions of 4.7.x that worked, but it's fringe at best.
Once again: sudo apt-get install cmake
will get you what you need on Debian type systems. If your favorite software repositories can't supply CMake 3.0 or better, you'll need to download the source from cmake.org and build it it yourself. I've done it myself and their instructions are pretty good. You can either build it with an older version of CMake, or there's a boot-strap method if all you have is gcc/make.
You can use one of the official precompiled Qt binaries higher than Qt5.9.x at this time. 5.12.3 recommended
Download a binary installer from the official Qt website. Sigil requires Qt5.9.4 or higher. Look for the version that's appropriate for your architecture (qt-opensource-linux-x86-5.12.x.run or qt-opensource-linux-x64-5.12.x.run). Make sure its executable bit is set and launch it with administrative privileges to install it in its default location of /opt/Qt5.12.x (which is what I recommend). Or install it wherever you like--but just note that my command line examples later are going to assume the location of /opt/Qt5.12.x. Adjust accordingly if you choose different location. Make sure you install the QWebEngine component.
If your software repos provide Python 3.4.0 or higher, by all means use them to get the correct pieces installed. On Ubuntu/Debian I recommend (at a minimum) to sudo apt-get install
the following packages (might need to be python3.4-<module name>
on some systems):
- python3
- python3-dev
- libpython3
- libpython3-dev
- python3-pip
- python3-lxml
- python3-six
- python3-css-parser (may have to use
pip3 install css-parser
if your distro has no package for this)
The folllowing command can be copied and pasted for convenience:
sudo apt-get install python3 python3-dev libpython3 libpython3-dev python3-pip python3-lxml python3-six python3-css-parser
If your repos don't include Python 3.4.x or higher, truck on over to Python.org and start reading how to build/install it from source. Whatever else you do, make sure you configure it with the --enable-shared
option. You'll need the libpython3.4m.so library to build Sigil.
That's all the Python 3.4 stuff you will need to get Sigil "up and running", but if you want to make use of Sigil plugins that people are developing, you will also want to install the "standard" modules that ship with the binary version of Sigil on Windows and OS X. Some of these can be installed from your distro's package manager, and some of them might not be able to be. I highly recommend doing so if you can. The one's that can't, can all be installed from python.org's Python Package Index using pip3 from the command-line. The entire current list (which I highly recommend installing) is:
- python3-tk (install with
sudo apt-get install python3-tk
if possible) - python3-pyqt5 (install with
sudo apt-get install python3-pyqt5
if possible) - html5lib
- regex
- Pillow
- cssselect
- chardet
To install the 'html5lib' module, for example, you would use the command:
sudo pip3 install html5lib
Note that to install the Pillow module, you'll need the libjpeg and zlib libraries and development headers to be available on your system. If you see error messages referring to libjpeg and or zlib when installing Pillow, you'll need to install them first (and then run sudo pip3 install Pillow
again). Those missing dependencies can be installed from the command line with apt-get (or your equivalent package manager) using the commands:
sudo apt-get install libjpeg8-dev
sudo apt-get install zlib1g-dev
You can clone the Sigil Github repository:
git clone https://github.com/Sigil-Ebook/Sigil.git
Or you can download a specific release tarball/zipfile from Sigil's releases page on Github.
I recommend the latter method, as the github repository version might not always be stable at any given moment (even though we try hard not to leave it broken).
Unzip/untar the source code. Rename the uppermost directory ("Sigil-0.X.X" if you've download the Sigil-0.X.X-Code.zip file ) to something useful like "sigil-src". Unless you like typing mixed-case stuff in a terminal.
First off ... you don't build IN the Sigil source directory. You do all the building in a separate "build" directory. So at the same directory level as the Sigil source code directory, create a new directory called "sigil-build". The rest of the instructions will assume that both your Sigil source directory (I renamed it "sigil-src" in the previous step; adjust accordingly if you didn't) and your Sigil build directory ("sigil-build) are at the root of your user's home (~) directory. I'm also assuming that you installed Qt5 into /opt/Qt5.12.x (adjust accordingly for different versions and/or different locations)
So first off, open a terminal and cd into your sigil-build directory
cd ~/sigil-build
Then issue the following command to configure Sigil for building on a 64-bit linux machine:
cmake -G "Unix Makefiles" -DQt5_DIR=/opt/Qt5.12.3/5.12/gcc_64/lib/cmake/Qt5 -DCMAKE_BUILD_TYPE=Release ../sigil-src
For a 32-bit machine it would be:
cmake -G "Unix Makefiles" -DQt5_Dir=/opt/Qt5.12.3/5.12/gcc/lib/cmake/Qt5 -DCMAKE_BUILD_TYPE=Release ../sigil-src
If there are no errors, you're ready to build.
The default install prefix is /usr/local. If you wish to change the install location, you can do so by adding a -DCMAKE_INSTALL_PREFIX
option to the above cmake configure command like so:
cmake -G "Unix Makefiles" -DCMAKE_PREFIX_PATH=/opt/Qt5.12.3/5.12/gcc_64/lib/cmake -DCMAKE_INSTALL_PREFIX=/a/different/install/prefix -DCMAKE_BUILD_TYPE=Release ../sigil-src
You can also customize/override where the Sigil support files get installed (<CMAKE_INSTALL_PREFIX>/share
by default) with the -DSHARE_INSTALL_PREFIX
option (not recommended for beginners).
If cmake couldn't automatically find the necessary Python 3.4 stuff it needs (like if you installed manually in an unusual location, or you want to use a different Python version) you may need to tell cmake specifically where things can be found. Do so with:
-DPYTHON_LIBRARY=<the full path to the python3.4 shared library> (usually something similar to /usr/lib/libpython34.so)
-DPYTHON_INCLUDE_DIR=<the full path to the directory where python3.4's header files can be found> (ex: /usr/include/python3.4)
-DPYTHON_EXECUTABLE=<the full path to the python3.4 interpreter> (ex: /usr/lib/python3)
Once the cmake configure command finishes with no errors, build Sigil with:
make (or make -j4 if you have plenty of processor cores)
If you get an error that mentions qopengl.h, or you get a "fatal error: GL/gl.h: No such file or directory #include <GL/gl.h>
" error message, this usually implies that the OpenGL development headers for your system's video driver are missing or outdated. This can usually be remedied by installing the mesa-common-dev meta-package:
sudo apt-get install mesa-common-dev
Note: this has nothing to do with actually updating or changing your system's video driver, it simply installs some development headers that can be used when compiling other programs.
If that still doesn't get rid of the "GL/gl.h errors
", some newer systems may be required to install an additional package:
sudo apt-get install libglu1-mesa-dev
If all goes well, install Sigil with:
sudo make install
If installing to a non-default and unprivileged prefix, simply:
make install
will suffice.
If you configured with the default install prefix, you can launch by entering "sigil" (no quotes) at a terminal. If you configured to install somewhere else, you may need to create a link to the sigil launch script (<CMAKE_INSTALL_PREFIX>/bin/sigil
) in a directory that is on your path. There's also a .desktop file in <SIGIL_SHARE_PREFIX>/share/applications
that you can create a link to on your desktop. Sigil should also appear in your Desktop Environment's menu system (under Office and/or Accessories). You may need to logout and back in for the menu entries to be visible after installing (you can also force your menus to update if you have the xdg-utils package installed by issuing the "xdg-desktop-menu forceupdate" command from a terminal)
To test if Sigil's Python 3.4 plugin framework is fully functional, you can do the following:
- download testplugin_v013.zip from https://github.com/Sigil-Ebook/Sigil/raw/master/docs/testplugin_v014.zip
- open Sigil to the normal nearly blank template epub it generates when opened
- use Plugins->Manage Plugins menu and make sure you have a Python 3.4 interpreter configured
- use the "Add Plugin" button to navigate to and add testplugin_vXXX.zip and then hit "Okay" to exit the Manage Plugins Dialog
- use Plugins->Edit->testplugin to launch the plugin and hit the "Start" button to run it
- check the plugin output window for your missing or broken plugin test results
Install any missing Python modules with your system's package management system or Python's pip3.
There are several configuration and environment variable options that can tailor how Sigil is built and/or run. I've talked about a few of the cmake options already, but I'll mention them here again along with the rest--with a brief explanation of their purposes.
-DQt5_DIR=<path>
Configures cmake to use a Qt5 installation other than the normal system version of Qt5 (ex. /opt/Qt5.12.3/5.12/gcc_64/lib/cmake/Qt5 - the path should alays end in /lib/cmake/Qt5)
-DCMAKE_INSTALL_PREFIX=<path>
Configures the prefix where Sigil will be installed to (default is /usr/local)
-DSHARE_INSTALL_PREFIX=<path>
Configures the prefix where Sigil's support files will be installed to (default is /usr/local meaning the support files will be installed in /usr/local/share/sigil)
-DUSE_SYSTEM_LIBS=(0|1) Tells cmake to try and use the system libraries when building Sigil instead of the ones bundled with Sigil in the 3rdParty directory. If a system version of a 3rd-party can't be found, Sigil falls back on the bundled version -- unless -DSYSTEM_LIBS_REQUIRED=1 is also specified (default is 0).
-DSYSTEM_LIBS_REQUIRED=(0|1) When used in conjunction with -DUSE_SYSTEM_LIBS=1, the Sigil build process will fail if all the necessary libraries can't be located on the system, instead of falling back on the bundled versions (default is 0).
-DINSTALL_BUNDLED_DICTS=(0|1) Default is 1. Can be used to enable/disable the installation of the bundled Hunspell dictionaries used for spellchecking. If this is disabled (-DINSTALL_BUNDLED_DICTS=0), then the standard system spell-check dictionary location of /usr/share/hunspell will be searched for eligible dictionaries. If additional system paths need to be searched for dictionaries, they can be added using the -DEXTRA_DICT_DIRS option. Setting this to 0 will require that you manually install the language-specific hunspell dictionaries (from your software repos) yourself (e.g. sudo apt-get install hunspell-en-us
).
-DEXTRA_DICT_DIRS=<path1>
:<path2>
Path(s) that should be searched for eligible spellcheck dictionaries (in addition to /usr/share/hunspell). Multiple paths should be separated by colons. This option is only relevant if -DINSTALL_BUNDLED_DICTS=0 is also specified.
-DMATHJAX_DIR=<path>
If you would like use your system's MathJax implementation instead of the one that comes bundled with Sigil, use this cmake directive when first configuring. A minimum of MathJax v2.7.0 is required to work with Sigil. NOTE: if -DMATHJAX_DIR=<path>
is used, Sigil will install a config script to <path>
/config/local. This file is required for Sigil's Preview to be able properly render MathML. This feature was added between Sigil 0.9.12 and 0.9.13.
The following three cmake options are used to manually specify which Python3 you want to use when building Sigil instead of relying on the included cmake utilities to try and automatically find a suitable version.
-DPYTHON_LIBRARY=<the path to the python3.4 shared library>
-DPYTHON_INCLUDE_DIR=<the path to the directory where python3.4's header files can be found>
-DPYTHON_EXECUTABLE=<the path to the python3.4 interpreter>
-DBUILD_PATCHED_LIBXML2=(0|1) Some newer versions of libxml2 have a bug that causes QtWebKit to render html entities twice. Adding -DBUILD_PATCHED_LIBXML2=1 to the cmake command will clone the libxml2 git repo, checkout a specific commit, patch the source, build it and install it alongside Sigil (does not affect the system version of libxml2). Requires git, libtool, autoconf and automake packages to be installed (as well as a working internet connection). Cmake should notify of any missing programs needed. The default is to NOT build the patched version of libxml2 (-DBUILD_PATCHED_LIBXML2=0).
The following are environment variables that can be set at runtime to affect how Sigil is run after building/installing. They are commonly set by manually editing Sigil's launch script (<CMAKE_INSTALL_PREFIX>
/bin/sigil).
SIGIL_PREFS_DIR - Changes where sigil looks for and updates its user preference data. Needs to specify a full path in a directory where the user has write privileges.
SIGIL_EXTRA_ROOT - Handy for relocating the Sigil support files. For instance you can move the <CMAKE_SHARE_PREFIX>/share/sigil
directory anywhere you like. You just have to set SIGIL_EXTRA_ROOT to the path where you moved <CMAKE_SHARE_PREFIX>/share/sigil
to.
SIGIL_DICTIONARIES - Used to tell Sigil what directories are to be searched for Hunspell dictionary files. Multiple directories can be specified by separating the paths with a colon. i.e. SIGIL_DICTIONARIES="/usr/share/hunspell" or SIGIL_DICTIONARIES="/usr/share/hunspell:/usr/share/hunspellextra" Setting this variable at run time will override all compile-time dictionary search paths (except for any user-supplied dictionaries manually added to their preference directory's hunspell_dictionary location).
SIGIL_ICON_SCALE_FACTOR - Valid values: 1.0 to 3.0. The default value (with no variable set) is 1.8. Sigil scales its menu icons based on font-size. This can sometimes result in icons being a bit too large (or too small) depending on the system Qt theme. Use this variable to tweak the icon size if deemed necessary. (Only works with Sigil v0.9.7 and earlier; v0.9.8 has a preference setting to adjust icons)
The Sigil launch script also sets a SIGIL_SHARE_PREFIX environment variable, but it is automatically set to be the same as the cmake SHARE_INSTALL_PREFIX build-time option. It would be unwise to change this environment variable. Use the SIGIL_EXTRA_ROOT environment variable instead, if you need to alter the location of Sigil's support files after building Sigil.