D 2024-08-20T23:49:26.454 L Building\sfrom\ssource N text/x-markdown P 433c7a61b1d719952cccca340af5c3e353e03440a7afddde9b24928668fd3ff6 U js W 5865 In order to build ObjFW from source, you first need to acquire the source code first. You can do so either by using one of the [releases](Releases) or you [clone the repository](Cloning the repository) to get the latest development state. In most cases, you can use the generic instructions, but there are some more specific instructions for some operating systems further below. # Generic instructions To build ObjFW from source and install it, just run the following commands: ./configure make make check sudo make install In case you checked out ObjFW from the repository, you need to run the following command first: ./autogen.sh # macOS and iOS The generic instructions apply, but keep reading on for some macOS and iOS specifics. ## Building as a .framework When building for macOS or iOS, everything is built as a `.framework` by default if `--disable-shared` has not been specified to `./configure`. The frameworks will end up in `$PREFIX/Library/Frameworks`. To build for macOS, just follow the generic instructions above. To build for iOS, follow the generic instructions above, but instead of `./configure` do something like this: clang="xcrun --sdk iphoneos clang" export OBJC="$clang -arch arm64e -arch arm64" export OBJCPP="$clang -arch arm64e -E" export IPHONEOS_DEPLOYMENT_TARGET="10.0" ./configure --prefix=/usr/local/ios --host=arm64-apple-darwin To build for the iOS simulator, follow the generic instructions above, but instead of `./configure` use something like this: clang="xcrun --sdk iphonesimulator clang" export OBJC="$clang -arch $(uname -m)" export IPHONEOS_DEPLOYMENT_TARGET="10.0" ./configure --prefix=/usr/local/iossim --host=$(uname -m)-apple-darwin ## Using the macOS or iOS .framework in Xcode To use the macOS framework in Xcode, you need to add the `.framework`s to your project and add the following flags to `Other C Flags`: -fconstant-string-class=OFConstantString -fno-constant-cfstrings # Windows Windows is only officially supported when following these instructions, as there are many MinGW versions that behave slightly differently and often cause problems. ## Getting MSYS2 The first thing to install is [MSYS2](https://www.msys2.org) to provide a basic UNIX-like environment for Windows. Unfortunately, the binaries are not signed, so make sure you download it via HTTPS. However, packages you download and install via MSYS2 are cryptographically signed. ## Setting up MSYS2 MSYS2 currently supports 7 different [environments](https://www.msys2.org/docs/environments/). All of them except for the one called just "MSYS" are supported, but which packages you need to install depends on the environment(s) you want to use. If you only want to target Windows 10 and newer, the CLANG64 and CLANG32 environments are the recommended ones. For CLANG64, use: pacman -Syu mingw-w64-clang-x86_64-clang \ mingw-w64-clang-x86_64-fossil \ mingw-w64-clang-x86_64-openssl For CLANG32, use: pacman -Syu mingw-w64-clang-i686-clang \ mingw-w64-clang-i686-fossil \ mingw-w64-clang-i686-openssl For CLANGARM64, use (you need to use Fossil via another environment): pacman -Syu mingw-w64-clang-aarch64-clang mingw-w64-clang-aarch64-openssl For MINGW64, use: pacman -Syu mingw-w64-x86_64-clang \ mingw-w64-x86_64-fossil \ mingw-w64-x86_64-openssl For MINGW32, use: pacman -Syu mingw-w64-i686-clang \ mingw-w64-i686-fossil \ mingw-w64-i686-openssl For UCRT64, use: pacman -Syu mingw-w64-ucrt-x86_64-clang \ mingw-w64-ucrt-x86_64-fossil \ mingw-w64-ucrt-x86_64-openssl When using `pacman` to install the packages, `pacman` might tell you to close the window. If it does so, close the window, restart MSYS2 and execute the `pacman` command again. There is nothing wrong with installing multiple environments, as MSYS2 has created shortcuts for each of them in your start menu. Just make sure to use the correct shortcut for the environment you want to use. Finally, install a few more things that are common between all environments: pacman -S autoconf automake make ## Getting, building and installing ObjFW Start the MSYS2 using the shortcut for the environment you want to use and check out ObjFW: fossil clone https://objfw.nil.im You can also download a release tarball if you want. Now `cd` to the newly checked out repository and build and install it: ./autogen.sh && ./configure && make -j16 install If everything was successful, you can now build projects using ObjFW for Windows using the normal `objfw-compile` and friends. # Nintendo consoles Download and install [devkitPro](https://devkitpro.org/wiki/Getting_Started). ## Nintendo DS Follow the generic instructions, but instead of `./configure` run: ./configure --host=arm-none-eabi --with-nds ## Nintendo 3DS Follow the generic instructions, but instead of `./configure` run: ./configure --host=arm-none-eabi --with-3ds ## Wii Follow the generic instructions, but instead of `./configure` run: ./configure --host=powerpc-eabi --with-wii ## Wii U Follow the generic instructions, but instead of `./configure` run: ./configure --host=powerpc-eabi --with-wii-u ## Nintendo Switch Follow the generic instructions, but instead of `./configure` run: ./configure --host=aarch64-none-elf --with-nintendo-switch # Amiga Install [amiga-gcc](https://github.com/bebbo/amiga-gcc). Then follow the generic instructions, but instead of `./configure` run: ./configure --host=m68k-amigaos Z 8ece2f5272bedb71884e72086c299922