# Dependancy Red Panda C++ need Qt 5 (>=5.12) to build. # Windows | Library + Toolchain \ Target | x86 | x64 | ARM64 | | ---------------------------- | --- | --- | ----- | | MSYS2 + GNU-based MinGW | ✔️ | ✔️ | ❌ | | MSYS2 + LLVM-based MinGW | ✔️ | ✔️ | ✔️ | | Qt.io + MinGW | ✔️ | ✔️ | ❌ | | Qt.io + MSVC | ✔️ | ✔️ | ❌ | | vcpkg + MSVC | ✔️ | ✔️ | ❌ | Notes for Windows on ARM: - Red Panda C++ can be built for ARM64 ABI only on Windows 11 ARM64, while it is supposed (but not tested) to run on Windows 10 ARM64. - The ARM64EC (“emulation compatible”) ABI, which highlights interoperability with x64, is currently not supported. - ARM64EC does not bring significant benefit, since Red Panda C++ can be built to ARM64 classic ABI. - However, ARM64EC will allow users to use their favorite input methods, fancy Qt styles. - With the [ARM32 deprecation in Windows 11 Insider Preview Build 25905](https://blogs.windows.com/windows-insider/2023/07/12/announcing-windows-11-insider-preview-build-25905/), ARM32 support will never be added. ## MSYS2 Qt Library with MinGW Toolchain (Recommended) Red Panda C++ should work with any MinGW toolchain from MSYS2, including GCCs and Clangs in three GNU-based environments (MINGW32, MINGW64 and UCRT64), and Clangs in three LLVM-based environments (CLANG32, CLANG64 and CLANGARM64; see also [MSYS2’s document](https://www.msys2.org/docs/environments/)), while the following toolchains are frequently tested: - MINGW32 GCC, - MINGW64 GCC, - UCRT64 GCC (recommended for x64) - CLANGARM64 Clang (the only and recommended toolchain for ARM64). Official distributions of Red Panda C++ are built with MINGW32 GCC and MINGW64 GCC. Prerequisites: 0. Windows 8.1 x64 or later, or Windows 11 ARM64. 1. Install MSYS2. 2. In selected environment, install toolchain and Qt 5 library: ```bash pacman -S $MINGW_PACKAGE_PREFIX-toolchain $MINGW_PACKAGE_PREFIX-qt5-static ``` For build only: 1. In selected environment, set related variables: ```bash SRC_DIR="/c/src/redpanda-src" # “C:\src\redpanda-src” for example BUILD_DIR="/c/src/redpanda-build" # “C:\src\redpanda-build” for example INSTALL_DIR="/c/src/redpanda-pkg" # “C:\src\redpanda-pkg” for example ``` 2. Navigate to build directory: ```bash rm -rf "$BUILD_DIR" # optional for clean build mkdir -p "$BUILD_DIR" && cd "$BUILD_DIR" ``` 3. Configure, build and install: ```bash $MSYSTEM_PREFIX/qt5-static/bin/qmake PREFIX="$INSTALL_DIR" "$SRC_DIR/Red_Panda_CPP.pro" mingw32-make -j$(nproc) mingw32-make install ``` For development: 1. Install Qt Creator (either MSYS2 edition from package `$MINGW_PACKAGE_PREFIX-qt-creator` or standalone edition from [Qt.io downloads site](https://download.qt.io/official_releases/qtcreator/)). 2. Open `Red_Panda_CPP.pro` with Qt Creator. ## Qt.io Qt Library with MinGW Toolchain or MSVC Toolchain Prerequisites: 0. Windows 7 x64 or later. ARM64 is not supported. 1. Install Qt with online installer from [Qt.io](https://www.qt.io/download-qt-installer-oss). - Select the library (in _Qt_ group, _Qt 5.15.2_ subgroup, check at lease one of _MinGW 8.1.0 32-bit_, _MinGW 8.1.0 64-bit_, _MSVC 2019 32-bit_ or _MSVC 2019 64-bit_). - For MinGW toolchain, select the toolchain (in _Qt_ group, _Developer and Designer Tools_ subgroup, check _MinGW 8.1.0 32-bit_ or _MinGW 8.1.0 64-bit_, matching the library). - Optionally select Qt Creator (in _Qt_ group, _Developer and Designer Tools_ subgroup; recomended for MSVC toolchain for parallel build support). 2. For MSVC toolchain, install Visual Studio 2019 or later, or Visual Studio Build Tools 2019 or later, with _Desktop Development with C++_ workload. - In _Installation Details_ panel, under the _Desktop Development with C++_ workload, select at least one _MSVC x86/x64 build tools_ and one _Windows SDK_. For build only: 1. Launch Qt environment from Start Menu. 2. In Qt environment, set related variables: ```bat rem no quotes even if path contains spaces set SRC_DIR=C:\src\redpanda-src set BUILD_DIR=C:\src\redpanda-build set INSTALL_DIR=C:\src\redpanda-pkg rem for MSVC toolchain set VS_INSTALL_PATH=C:\Program Files\Microsoft Visual Studio\2022\Community rem for MSVC toolchain; or x86 set VC_ARCH=amd64 rem for MSVC toolchain; keep unset if Qt Creator is not installed set QT_CREATOR_DIR=C:\Qt\Tools\QtCreator ``` 3. Navigate to build directory: ```bat rem optional for clean build rmdir /s /q "%BUILD_DIR%" mkdir "%BUILD_DIR%" && cd /d "%BUILD_DIR%" ``` 4. Configure, build and install. For MinGW toolchain: ```bat qmake PREFIX="%INSTALL_DIR%" "%SRC_DIR%\Red_Panda_CPP.pro" mingw32-make -j%NUMBER_OF_PROCESSORS% mingw32-make install windeployqt "%INSTALL_DIR%\RedPandaIDE.exe" ``` For MSVC toolchain: ```bat call "%VS_INSTALL_PATH%\Common7\Tools\VsDevCmd.bat" -arch=%VC_ARCH% qmake PREFIX="%INSTALL_DIR%" "%SRC_DIR%\Red_Panda_CPP.pro" set JOM=%QT_CREATOR_DIR%\bin\jom\jom.exe if "%QT_CREATOR_DIR%" neq "" ( "%JOM%" -j%NUMBER_OF_PROCESSORS% "%JOM%" install ) else ( nmake nmake install ) windeployqt "%INSTALL_DIR%\RedPandaIDE.exe" ``` For development: 1. Open `Red_Panda_CPP.pro` with Qt Creator. ## Advanced Option: vcpkg Qt Static Library with MSVC Toolchain Prerequisites: 0. Windows 7 x64 or later. ARM64 is not supported. - For a fresh installation of Windows 7, install following components in order: 1. SHA-2 code signing support (prerequisite of .NET Framework 4.8), 2. .NET Framework 4.8 (prerequisite of Windows Management Framework 5.1 and Visual Studio; also optional dependency of Git for Windows), 3. Windows Management Framework 5.1 (prerequisite of vcpkg bootstrapping). 1. Install Visual Studio 2017 or later, or Visual Studio Build Tools 2017 or later, with _Desktop Development with C++_ workload. - In _Installation Details_ panel, under the _Desktop Development with C++_ workload, select at least one _MSVC x86/x64 build tools_ and one _Windows SDK_. 2. Install [standalone vcpkg](https://vcpkg.io/en/getting-started). - As of 2023.08.09, [a patch](./packages/windows/vcpkg-win7-2023.08.09.patch) is required for Windows 7 to use compatible version of Python. Affected files will change over time, so manually edit them to apply the patch. 3. Install Qt with vcpkg. ```ps1 $TARGET = "x64-windows-static" # or "x86-windows-static" vcpkg install qt5-base:$TARGET qt5-svg:$TARGET qt5-tools:$TARGET ``` To build with VS 2019 or later in PowerShell (Core) or Windows PowerShell: 1. Set related variables: ```ps1 $SRC_DIR = "C:\src\redpanda-src" $BUILD_DIR = "C:\src\redpanda-build" $INSTALL_DIR = "C:\src\redpanda-pkg" $VCPKG_ROOT = "C:\src\vcpkg" $VCPKG_TARGET = "x64-windows-static" # or "x86-windows-static" $VS_INSTALL_PATH = "C:\Program Files\Microsoft Visual Studio\2022\Community" $VC_ARCH = "amd64" # or "x86" $JOM = "$VCPKG_ROOT\downloads\tools\jom\jom-1.1.3\jom.exe" # check the version ``` 2. Navigate to build directory: ```ps1 Remove-Item -Recurse -Force "$BUILD_DIR" # optional for clean build (New-Item -ItemType Directory -Force "$BUILD_DIR") -and (Set-Location "$BUILD_DIR") ``` 3. Configure, build and install: ```ps1 Import-Module "$VS_INSTALL_PATH\Common7\Tools\Microsoft.VisualStudio.DevShell.dll" Enter-VsDevShell -VsInstallPath "$VS_INSTALL_PATH" -SkipAutomaticLocation -DevCmdArguments "-arch=$VC_ARCH" & "$VCPKG_ROOT\installed\$VCPKG_TARGET\tools\qt5\bin\qmake.exe" PREFIX="$INSTALL_DIR" "$SRC_DIR\Red_Panda_CPP.pro" & "$JOM" "-j${Env:NUMBER_OF_PROCESSORS}" & "$JOM" install ``` To build with VS 2017 or later in Command Prompt: 1. Launch proper VC environment from Start Menu. 2. Set related variables: ```bat rem no quotes even if path contains spaces set SRC_DIR=C:\src\redpanda-src set BUILD_DIR=C:\src\redpanda-build set INSTALL_DIR=C:\src\redpanda-pkg set VCPKG_ROOT=C:\src\vcpkg rem or x86-windows-static set VCPKG_TARGET=x64-windows-static rem check the version set JOM=%VCPKG_ROOT%\downloads\tools\jom\jom-1.1.3\jom.exe ``` 3. Navigate to build directory: ```bat rem optional for clean build rmdir /s /q "%BUILD_DIR%" mkdir "%BUILD_DIR%" && cd /d "%BUILD_DIR%" ``` 4. Configure, build and install: ```bat "%VCPKG_ROOT%\installed\%VCPKG_TARGET%\tools\qt5\bin\qmake.exe" PREFIX="%INSTALL_DIR%" "%SRC_DIR%\Red_Panda_CPP.pro" "%JOM%" -j%NUMBER_OF_PROCESSORS% "%JOM%" install ``` # Linux - Install gcc and qt5 - Optionally install fcitx5-qt for building with static version of Qt - Open `Red_Panda_CPP.pro` with Qt Creator qmake variables: - `PREFIX`: default to `/usr/local`. It should be set to `/usr` or `/opt/redpanda-cpp` when packaging. - `LIBEXECDIR`: directory for auxiliary executables, default to `$PREFIX/libexec`. Arch Linux uses `/usr/lib`. - `XDG_ADAPTIVE_ICON=ON`: install the icon file following [freedesktop.org Icon Theme Specification](https://specifications.freedesktop.org/icon-theme-spec/icon-theme-spec-latest.html) for adaptiveness to themes and sizes. Required by AppImage; recommended for Linux packaging if `PREFIX` set to `/usr`. - `LINUX_STATIC_IME_PLUGIN=ON` (make phase): link to static ime plugin. Recommended for building with static version of Qt; **DO NOT** set for dynamic version of Qt. ## Debian and Its Derivatives ### “deb” Package for Current OS 1. Install dependency: ```bash sudo apt install \ build-essential debhelper \ libqt5svg5-dev qtbase5-dev qtbase5-dev-tools qttools5-dev-tools ``` 2. Build the package: ```bash ./packages/debian/builddeb.sh ``` 3. Install the package: ```bash sudo apt install /tmp/redpanda-cpp_*.deb ``` 4. Run Red Panda C++: ```bash RedPandaIDE ``` ### Build Packages for Multiple Architectures and Versions in Containers Extra requirements for Windows host: - Docker uses WSL 2 based engine, or enable file sharing on the project folder (Settings > Resources > File sharing); - PowerShell (Core) or Windows PowerShell. * Linux host: ```bash DOCKER=docker # or podman SOURCE_DIR=/build/RedPanda-CPP # source directory *in container* MIRROR=mirrors.kernel.org # leave empty for default mirror PLATFORM=linux/amd64 # or linux/386, linux/arm64/v8, linux/arm/v7, linux/riscv64 IMAGE=debian:12 # or Ubuntu (e.g. ubuntu:22.04) $DOCKER run --rm -e MIRROR=$MIRROR -e SOURCE_DIR=$SOURCE_DIR -v $PWD:$SOURCE_DIR --platform $PLATFORM $IMAGE $SOURCE_DIR/packages/debian/01-in-docker.sh ``` * Windows host: ```ps1 $DOCKER = "docker" # or "podman" $SOURCE_DIR = "/build/RedPanda-CPP" # source directory *in container* $MIRROR = "mirrors.kernel.org" # leave empty for default mirror $PLATFORM = "linux/amd64" # or "linux/386", "linux/arm64/v8", "linux/arm/v7", "linux/riscv64" $IMAGE = "debian:12" # or Ubuntu (e.g. "ubuntu:22.04") & $DOCKER run --rm -e MIRROR=$MIRROR -e SOURCE_DIR=$SOURCE_DIR -v "$(Get-Location):$SOURCE_DIR" --platform $PLATFORM $IMAGE $SOURCE_DIR/packages/debian/01-in-docker.sh ``` ### Manual Install 1. Install compiler ```bash apt install gcc g++ make gdb gdbserver ``` 2. Install Qt 5 and other dependencies ```bash apt install qtbase5-dev qttools5-dev-tools libqt5svg5-dev git qterminal ``` 3. Fetch source code ```bash git clone https://github.com/royqh1979/RedPanda-CPP.git ``` 4. Build ```bash cd RedPanda-CPP/ qmake Red_Panda_CPP.pro make -j$(nproc) sudo make install ``` 5. Run ```bash RedPandaIDE ``` ## Arch Linux A reference PKGBUILD is available at `packages/archlinux`. Build RedPanda C++ with [makepkg](https://wiki.archlinux.org/title/Makepkg) and then install. Enter `RedPandaIDE` to launch RedPanda C++. Note that makepkg checks out HEAD of the repo, so any change should be committed before building. ## AppImage 1. Install dependency: Docker or Podman. Extra requirements for Windows host: - Docker uses WSL 2 based engine, or enable file sharing on the project folder (Settings > Resources > File sharing); - PowerShell (Core) or Windows PowerShell. 2. Prepare build environment. Linux host: ```bash ARCH=x86_64 # or aarch64, riscv64 DOCKER=docker # or podman $DOCKER build -t redpanda-builder-$ARCH packages/appimage/dockerfile-$ARCH ``` Windows host: ```ps1 $ARCH = "x86_64" # or "aarch64", "riscv64" $DOCKER = "docker" # or "podman" & $DOCKER build -t redpanda-builder-$ARCH packages/appimage/dockerfile-$ARCH ``` 3. Build AppImage. Linux host: ```bash ARCH=x86_64 DOCKER=docker $DOCKER run --rm -v $PWD:/build/RedPanda-CPP -e CARCH=$ARCH redpanda-builder-$ARCH /build/RedPanda-CPP/packages/appimage/01-in-docker.sh ``` Windows host: ```ps1 $ARCH = "x86_64" $DOCKER = "docker" & $DOCKER run --rm -v "$(Get-Location):/build/RedPanda-CPP" -e CARCH=$ARCH redpanda-builder-$ARCH /build/RedPanda-CPP/packages/appimage/01-in-docker.sh ``` 4. Run Red Panda C++. ```bash ./dist/RedPandaIDE-x86_64.AppImage # or *-aarch64.AppImage, *-riscv64.AppImage ``` ## Emulated Native Build for Foreign Architectures It is possible to build Red Panda C++ for foreign architectures using targets’ native toolchains with QEMU user space emulation. Note: Always run emulated native build **in containers**. Mixing architectures may kill your system. For Linux host, install statically linked QEMU user space emulator (package name is likely `qemu-user-static`) and make sure that binfmt support is enabled. For Windows host, Docker and Podman should have QEMU user space emulation enabled. If not, * For Docker: ```ps1 docker run --rm --privileged multiarch/qemu-user-static:register ``` * For Podman, whose virtual machine is based on Fedora WSL, simply enable binfmt support: ```ps1 wsl -d podman-machine-default sudo cp /usr/lib/binfmt.d/qemu-aarch64-static.conf /proc/sys/fs/binfmt_misc/register wsl -d podman-machine-default sudo cp /usr/lib/binfmt.d/qemu-riscv64-static.conf /proc/sys/fs/binfmt_misc/register ```