Co-authored-by: Felanbird <41973452+Felanbird@users.noreply.github.com> Co-authored-by: pajlada <rasmus.karlsson+github@pajlada.com> Co-authored-by: nerix <nero.9@hotmail.de>
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Building on Windows
Note that installing all of the development prerequisites and libraries will require about 40 GB of free disk space. Please ensure this space is available on your C:
drive before proceeding.
This guide assumes you are on a 64-bit system. You might need to manually search out alternate download links should you desire to build Chatterino on a 32-bit system.
Installing prerequisites
Visual Studio
Download and install Visual Studio 2022 Community. In the installer, select "Desktop development with C++" and "Universal Windows Platform development".
Notes:
- This installation will take about 21 GB of disk space
- You do not need to sign in with a Microsoft account after setup completes. You may simply exit the login dialog.
Qt
- Visit the Qt Open Source Page.
- Scroll down to the bottom
- Then select "Download the Qt Online Installer"
- Within the installer, Qt will prompt you to create an account to access Qt downloads.
Notes:
- Installing the latest stable Qt version is advised for new installations, but if you want to use your existing installation please ensure you are running Qt 5.12 or later.
When prompted which components to install:
- Unfold the tree element that says "Qt"
- Unfold the top most tree element (latest stable Qt version, e.g.
Qt 6.5.3
) - Under this version, select the following entries:
MSVC 2019 64-bit
(or alternative version if you are using that)Qt 5 Compatibility Module
Additional Libraries
>Qt Image Formats
- Under the "Tools" tree element (at the bottom), ensure that
Qt Creator X.X.X
andDebugging Tools for Windows
are selected. (they should be checked by default) - Continue through the installer and let the installer finish installing Qt.
Note: This installation will take about 2 GB of disk space.
Once Qt is done installing, make sure you add its bin directory to your PATH
(e.g. C:\Qt\6.5.3\msvc2019_64\bin
)
How to add Qt to PATH
- Type "path" in the Windows start menu and click
Edit the system environment variables
. - Click the
Environment Variables...
button bottom right. - In the
User variables
(scoped to the current user) orSystem variables
(system-wide) section, scroll down until you findPath
and double click it. - Click the
New
button top right and paste in the file path for your Qt installation (e.g.C:\Qt\6.5.3\msvc2019_64\bin
by default). - Click
Ok
Advanced dependencies
These dependencies are only required if you are not using a package manager
Boost
-
First, download a boost installer appropriate for your version of Visual Studio.
-
Visit the downloads list on SourceForge.
-
Select the latest version from the list.
-
Download the
.exe
file appropriate to your Visual Studio installation version and system bitness (choose-64
for 64-bit systems). Visual Studio versions map as follows:14.3
in the filename corresponds to MSVC 2022,14.2
to 2019,14.1
to 2017,14.0
to 2015. Anything prior to Visual Studio 2015 is unsupported. Please upgrade should you have an older installation.Convenience link for Visual Studio 2022: boost_1_79_0-msvc-14.3-64.exe
-
-
When prompted where to install Boost, set the location to
C:\local\boost
. -
After the installation finishes, rename the
C:\local\boost\lib64-msvc-14.3
(or similar) directory to simplylib
(C:\local\boost\lib
).
Note: This installation will take about 2.1 GB of disk space.
OpenSSL
For our websocket library, we need OpenSSL 1.1
- Download OpenSSL for windows, version
1.1.1s
: Download - When prompted, install OpenSSL to
C:\local\openssl
- When prompted, copy the OpenSSL DLLs to "The OpenSSL binaries (/bin) directory".
Note: This installation will take about 200 MB of disk space.
Building
Using CMake
Install conan 2
Install conan 2 and make sure it's in your PATH
(default setting).
Adding conan to your PATH if you installed it with pip
Note: This will add all Python-scripts to your PATH
, conan being one of them.
- Type "path" in the Windows start menu and click
Edit the system environment variables
. - Click the
Environment Variables...
button bottom right. - In the
System variables
section, scroll down until you findPath
and double click it. - Click the
New
button top right. - Open up a terminal
where.exe conan
to find the file path (the folder that contains the conan.exe) to add. - Add conan 2's file path (e.g.
C:\Users\example\AppData\Roaming\Python\Python311\Scripts
) to the blank text box that shows up. This is your current Python installation's scripts folder. - Click
Ok
Then in a terminal, configure conan to use NMake Makefiles
as its generator:
- Generate a new profile
conan profile detect
Build
Open up your terminal with the Visual Studio environment variables (e.g. x64 Native Tools Command Prompt for VS 2022
), cd to the cloned chatterino2 directory and run the following commands:
mkdir build
cd build
conan install .. -s build_type=Release -c tools.cmake.cmaketoolchain:generator="NMake Makefiles" --build=missing --output-folder=.
cmake -G"NMake Makefiles" -DCMAKE_BUILD_TYPE=Release -DCMAKE_TOOLCHAIN_FILE="conan_toolchain.cmake" -DCMAKE_PREFIX_PATH="C:\Qt\6.5.3\msvc2019_64" ..
nmake
To build a debug build, you'll also need to add the -s compiler.runtime_type=Debug
flag to the conan install
invocation. See this StackOverflow post
Ensure DLLs are available
Once Chatterino has finished building, to ensure all .dll's are available you can run this from the build directory:
windeployqt bin/chatterino.exe --release --no-compiler-runtime --no-translations --no-opengl-sw --dir bin/
Can't find windeployqt? You forgot to add your Qt bin directory (e.g. C:\Qt\6.5.3\msvc2019_64\bin
) to your PATH
Run the build in Qt Creator
- Open the
CMakeLists.txt
file by double-clicking it, or by opening it via Qt Creator. - You will be presented with a screen that is titled "Configure Project". In this screen, you should have at least one option present ready to be configured, like this:
- Select the profile(s) you want to build with and click "Configure Project".
How to run and produce builds
- In the main screen, click the green "play symbol" on the bottom left to run the project directly.
- Click the hammer on the bottom left to generate a build (does not run the build though).
Build results will be placed in a folder at the same level as the "chatterino2" project folder (e.g. if your sources are at C:\Users\example\src\chatterino2
, then the build will be placed in an automatically generated folder under C:\Users\example\src
, e.g. C:\Users\example\src\build-chatterino-Desktop_Qt_6.5.3_MSVC2019_64bit-Release
.)
- Note that if you are building chatterino purely for usage, not for development, it is recommended that you click the "PC" icon above the play icon and select "Release" instead of "Debug".
- Output and error messages produced by the compiler can be seen under the "4 Compile Output" tab in Qt Creator.
Producing standalone builds
If you build chatterino, the result directories will contain a chatterino.exe
file in the $OUTPUTDIR\release\
directory. This .exe
file will not directly run on any given target system, because it will be lacking various Qt runtimes.
To produce a standalone package, you need to generate all required files using the tool windeployqt
. This tool can be found in the bin
directory of your Qt installation, e.g. at C:\Qt\6.5.3\msvc2019_64\bin\windeployqt.exe
.
To produce all supplement files for a standalone build, follow these steps (adjust paths as required):
-
Navigate to your build output directory with Windows Explorer, e.g.
C:\Users\example\src\build-chatterino-Desktop_Qt_6.5.3_MSVC2019_64bit-Release
-
Enter the
release
directory -
Delete all files except the
chatterino.exe
file. You should be left with a directory only containingchatterino.exe
. -
Open a command prompt and execute:
cd C:\Users\example\src\build-chatterino-Desktop_Qt_6.5.3_MSVC2019_64bit-Release\release C:\Qt\6.5.3\msvc2019_64\bin\windeployqt.exe chatterino.exe
-
The
releases
directory will now be populated with all the required files to make the chatterino build standalone.
You can now create a zip archive of all the contents in releases
and distribute the program as is, without requiring any development tools to be present on the target system. (However, the vcredist package must be present, as usual - see the README).
Building on MSVC with AddressSanitizer
Make sure you installed C++ AddressSanitizer
in your VisualStudio installation like described in the Microsoft Docs.
To build Chatterino with AddressSanitizer on MSVC, you need to add -DCMAKE_CXX_FLAGS=/fsanitize=address
to your CMake options.
When you start Chatterino, and it's complaining about clang_rt.asan_dbg_dynamic-x86_64.dll
missing,
copy the file found in <VisualStudio-installation-path>\VC\Tools\MSVC\<version>\bin\Hostx64\x64\clang_rt.asan_dbg_dynamic-x86_64.dll
to the Chatterino
folder inside your build
folder.
To learn more about AddressSanitizer and MSVC, visit the Microsoft Docs.
Building/Running in CLion
Note: We're using build
instead of the CLion default cmake-build-debug
folder.
Install conan and make sure it's in your PATH
(default setting).
Clone the repository as described in the readme. Open a terminal in the cloned folder and enter the following commands:
mkdir build && cd build
conan install .. -s build_type=Debug
Now open the project in CLion. You will be greeted with the Open Project Wizard. Set the CMake Options to
-DCMAKE_PREFIX_PATH=C:\Qt\6.5.3\msvc2019_64\lib\cmake\Qt6
-DCMAKE_TOOLCHAIN_FILE="conan_toolchain.cmake"
and the Build Directory to build
.
After the CMake project is loaded, open the Run/Debug Configurations.
Select the CMake Applications > chatterino
configuration and add a new Run External tool task to Before launch.
- Set the Program to
C:\Qt\6.5.3\msvc2019_64\bin\windeployqt.exe
- Set the Arguments
to
$CMakeCurrentProductFile$ --debug --no-compiler-runtime --no-translations --no-opengl-sw --dir bin/
- Set the Working directory to
$ProjectFileDir$\build
Now you can run the chatterino | Debug
configuration.
If you want to run the portable version of Chatterino, create a file called modes
inside of build/bin
and
write portable
into it.
Debugging
To visualize QT types like QString
, you need to inform CLion and LLDB
about these types.
- Set
Enable NatVis renderers for LLDB option
inSettings | Build, Execution, Deployment | Debugger | Data Views | C/C++
(should be enabled by default). - Use the official NatVis file for QT from
qt-labs/vstools
by saving them to the project root using PowerShell:
(irm "https://github.com/qt-labs/vstools/raw/dev/QtVsTools.Package/qt5.natvis.xml").Replace('##NAMESPACE##::', '') | Out-File qt5.natvis
# [OR] using the permalink
(irm "https://github.com/qt-labs/vstools/raw/0769d945f8d0040917d654d9731e6b65951e102c/QtVsTools.Package/qt5.natvis.xml").Replace('##NAMESPACE##::', '') | Out-File qt5.natvis
Now you can debug the application and see QT types rendered correctly. If this didn't work for you, try following the tutorial from JetBrains.