llvm-hs - Haskell bindings for LLVM
This project aims to provide a relatively complete set of bindings for the LLVM API. If you find that anything is missing please open an issue! We generally try to stay close to the LLVM C++-API so you can consult the LLVM documentation and reuse existing resources.
Getting started
If you’ve worked with LLVM before, take a look at the examples in the llvm-hs-examples repo. If not, you can find a translation of the official LLVM tutorial at https://github.com/llvm-hs/llvm-hs-kaleidoscope. In general, we try to stay very close to the API and AST provided by LLVM itself, so the LLVM language reference is also very useful.
Contributing
We love all kinds of contributions so feel free to open issues for missing LLVM features, report & fix bugs or report API inconveniences.
Installing LLVM
Homebrew
Example using Homebrew on macOS:
$ brew install llvm-hs/llvm/llvm-9
Debian/Ubuntu
For Debian/Ubuntu based Linux distributions, the LLVM.org website provides binary distribution packages. Check apt.llvm.org for instructions for adding the correct package database for your OS version, and then:
$ apt-get install llvm-9-dev
Nix
Nix users can use the following commands to build the library:
$ nix-shell
$ cabal new-build llvm-hs
The Nix shell uses a pinned version of nixpkgs by default.
You can define the nixpkgs
argument to use a different nixpkgs tree:
$ nix-shell --arg nixpkgs '<nixpkgs>'
Building from source
Example of building LLVM from source. Detailed build instructions are available on the LLVM.org website here. CMake 3.4.3 and a recent C++ compiler are required, at least Clang 3.1, GCC 4.8, or Visual Studio 2015 (Update 3).
-
Download and unpack the LLVM-9.0 source code. We'll refer to the path the source tree was unpacked to as
LLVM_SRC
. -
Create a temporary build directory and
cd
to it, for example:mkdir /tmp/build cd /tmp/build
-
Execute the following to configure the build. Here,
INSTALL_PREFIX
is where LLVM is to be installed, for example/usr/local
:cmake $LLVM_SRC -DCMAKE_INSTALL_PREFIX=$INSTALL_PREFIX -DLLVM_BUILD_LLVM_DYLIB=True -DLLVM_LINK_LLVM_DYLIB=True
See options and variables for a list of additional build parameters you can specify.
-
Build and install:
cmake --build . cmake --build . --target install
-
For macOS only, some additional steps are useful to work around issues related to System Integrity Protection:
cd $INSTALL_PREFIX/lib ln -s libLLVM.dylib libLLVM-9.dylib install_name_tool -id $PWD/libLTO.dylib libLTO.dylib install_name_tool -id $PWD/libLLVM.dylib libLLVM.dylib install_name_tool -change '@rpath/libLLVM.dylib' $PWD/libLLVM.dylib libLTO.dylib
Versioning
Trying to represent the version of LLVM in the version number but also
allowing for version bumps in the bindings themselves while respecting
the PVP can be tricky. Luckily LLVM is
switching to a
new versioning scheme
of major.0.patch
starting from version 4.0
. This means that we can
use the last two components for these bindings while the first
component indicates the version of LLVM. A special case are the
versions 3.major.minor
that represent bindings to LLVM 3.9. Bindings
to earlier versions are not provided.
How is this related to llvm-general?
This project is a fork of the venerable llvm-general
that aims to improve the public release story, and better provide the interfaces needed for any Haskell project looking to leverage LLVM. Contributions are encouraged.
IRBuilder
A IRBuilder, starting out as a thin reinterpretation of the C++ IRBuilder inside
of a Haskell State monad. Goal is to eliminate a lot of boilerplate around the
most common uses of llvm-hs
as a compiler backend.
Example LLVM module that adds two numbers:
; ModuleID = 'exampleModule'
define external ccc i32 @add(i32 %a, i32 %b){
entry:
%0 = add i32 %a, %b
ret i32 %0
}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecursiveDo #-}
import Data.Text.Lazy.IO as T
import LLVM.Pretty -- from the llvm-hs-pretty package
import LLVM.AST hiding (function)
import LLVM.AST.Type as AST
import qualified LLVM.AST.Float as F
import qualified LLVM.AST.Constant as C
import LLVM.IRBuilder.Module
import LLVM.IRBuilder.Monad
import LLVM.IRBuilder.Instruction
simple :: IO ()
simple = T.putStrLn $ ppllvm $ buildModule "exampleModule" $ mdo
function "add" [(i32, "a"), (i32, "b")] i32 $ \[a, b] -> mdo
entry <- block `named` "entry"; do
c <- add a b
ret c