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# Building TinyGo
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TinyGo depends on LLVM and libclang, which are both big C++ libraries. It can
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also optionally use a built-in lld to ease cross compiling. There are two ways
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these can be linked: dynamically and statically. An install with `go install` is
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dynamic linking because it is fast and works almost out of the box on
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Debian-based systems with the right packages installed.
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This guide describes how to statically link TinyGo against LLVM, libclang and
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lld so that the binary can be easily moved between systems. It also shows how to
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build a release tarball that includes this binary and all necessary extra files.
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**Note**: this documentation describes how to build a statically linked release
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tarball. If you want to help with development of TinyGo itself, you should follow the guide located at https://tinygo.org/docs/guides/build/
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## Dependencies
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LLVM, Clang and LLD are quite light on dependencies, requiring only standard
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build tools to be built. Go is of course necessary to build TinyGo itself.
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* Go (1.18+)
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* Standard build tools (gcc/clang)
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* git
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* CMake
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* [Ninja](https://ninja-build.org/)
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The rest of this guide assumes you're running Linux, but it should be equivalent
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on a different system like Mac.
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## Download the source
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The first step is to download the TinyGo sources (use `--recursive` if you clone
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the git repository). Then, inside the directory, download the LLVM source:
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make llvm-source
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You can also store LLVM outside of the TinyGo root directory by setting the
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`LLVM_BUILDDIR`, `CLANG_SRC` and `LLD_SRC` make variables, but that is not
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covered by this guide.
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## Build LLVM, Clang, LLD
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Before starting the build, you may want to set the following environment
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variables to speed up the build. Most Linux distributions ship with GCC as the
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default compiler, but Clang is significantly faster and uses much less memory
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while producing binaries that are about as fast.
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export CC=clang
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export CXX=clang++
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The Makefile includes a default configuration that is good for most users. It
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builds a release version of LLVM (optimized, no asserts) and includes all
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targets supported by TinyGo:
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make llvm-build
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This can take over an hour depending on the speed of your system.
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## Build TinyGo
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The last step of course is to build TinyGo itself. This can again be done with
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make:
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make
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## Verify TinyGo
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Try running TinyGo:
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./build/tinygo help
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Also, make sure the `tinygo` binary really is statically linked. Check this
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using `ldd` (not to be confused with `lld`):
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ldd ./build/tinygo
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The result should not contain libclang or libLLVM.
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## Make a release tarball
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Now that we have a working static build, it's time to make a release tarball:
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make release
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If you did not clone the repository with the `--recursive` option, you will get errors until you initialize the project submodules:
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git submodule update --init
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The release tarball is stored in build/release.tar.gz, and can be extracted with
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the following command (for example in ~/lib):
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tar -xvf path/to/release.tar.gz
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TinyGo will get extracted to a `tinygo` directory. You can then call it with:
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./tinygo/bin/tinygo
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