Copyright © 2019-2023, Digital Asset (Switzerland) GmbH and/or its affiliates. All rights reserved. SPDX-License-Identifier: (Apache-2.0 OR BSD-3-Clause)
The GHC API allows you to use the GHC compiler as a library, so you can parse, analyze and compile Haskell code. The GHC API comes preinstalled with GHC, and is tied to that GHC version - if you are using GHC 8.6.3, you get version 8.6.3 of the API, and can't change it. The ghc-lib
project solves that problem, letting you mix and match versions of the GHC compiler and GHC API. Why might you want that?
- Imagine you are writing a tool to work with several versions of the GHC compiler. The GHC API changes significantly between each version, so doing this would require writing a lot of C preprocessor code to support it. An alternative is to use one version of
ghc-lib
which works across multiple versions of GHC.
More precisely, building ghc-lib
is the same as bootstrapping GHC. For a given ghc-lib 'flavor' (like --ghc-flavor=ghc-9.6.1
), a build GHC can be at most "two versions behind & not newer" (e.g. --ghc-flavor=ghc-9.6.1
⇒ [ghc-9.2.1, ghc-9.6.2)1. ghc-lib
cabal files will not produce build plans for configurations outside of these bounds. Clients assume the same build constraints through transitivity e.g. HLint.
- Imagine you are modifying the GHC API or want features from GHC HEAD. With
ghc-lib
you can depend on the revised GHC API, without upgrading the compiler used to build everything, speeding up iteration.
The ghc-lib
project provides two packages : ghc-lib-parser
and ghc-lib
. The ghc-lib-parser
package is that subset of the GHC API that is just enough to parse Haskell code. The ghc-lib
package extends (and re-exports) ghc-lib-parser
with the rest. While ghc-lib
provides the full GHC API, it doesn't contain a runtime system, nor does it create a package database. That means you can't run code produced by ghc-lib
(no runtime), and compiling off-the-shelf code is very hard (no package database containing the base
library). What you can do:
- Parse Haskell code, making
ghc-lib-parser
a potential replacement forhaskell-src-exts
. See the demoghc-lib-test-mini-hlint
in this repo; - Compile Haskell code as far as GHC's Core language, which includes renaming and type checking. See the demo
ghc-lib-test-mini-compile
in this repo, and the carefully tailored file it compiles.
There are some downsides to ghc-lib
:
- The lack of runtime means you can't run code, which includes running code at compile time, e.g.
TemplateHaskell
. - While
ghc-lib
isn't tied to any specific GHC versions, it can only read package databases and.hi
files for one particular version of GHC. That means your existing package database probably can't be consumed byghc-lib
(unless you happen to perfectly match the GHC version, in which case you could just have used the GHC API), and it doesn't ship with a package database so you'd have to painfully build your own. - Compilation times for the
ghc-lib
packages are not small, taking approximately 5 minutes for each on our CI machines.
The packages ghc-lib-parser
and ghc-lib
are available on Hackage, and can be used like any normal packages, e.g. cabal install ghc-lib
. Since ghc-lib-parser
and ghc-lib
conflict perfectly with the GHC API and template-haskell
, the packages are not exposed by default so if you use GHC directly, you need to pass -package ghc-lib
, the GHC user guide has more information : use the language extension PackageImports
to do import "ghc-lib" ...
or import "ghc-lib-parser" ...
as approriate. There are two release streams within the ghc-lib
name:
- Version 8.8.1 will be the version of
ghc-lib
produced against the released GHC 8.8.1, once it comes out; - Version 0.20190204 is the version of
ghc-lib
using GHC HEAD on the date 2019-02-04.
The Hackage packages are licensed under the BSD-3-Clause license, just like GHC itself. This repo, including the examples and the script that generates ghc-lib
, are licensed under the BSD-3-Clause OR Apache-2.0 license.
We create the packages by taking a checkout of GHC, and combining the ghc
package with the various dependencies it is tightly tied to (e.g. template-haskell
) in two new cabal files ghc-lib-parser.cabal
and ghc-lib.cabal
. These new packages depend on a few generated outputs (which we build using the GHC build system) and some Cmm files. The ghc-lib-gen
directory contains a script that puts all the pieces together. Because GHC itself is capable of being bootstrapped with older GHC versions (> 8.4.4) (its Stage0 build), the generated ghc-lib
also compiles with multiple GHC versions.
To build ghc-lib-parser
and ghc-lib
you need clones of this repository and the GHC repository.
Warning : ghc-lib-parser
and ghc-lib
are known to work on all of MacOS, Linux and Windows. Distributions produced with cabal sdist
on Linux/MacOS build on Windows, but a cabal sdist
produced on Windows does not build on MacOS/Linux.
By far the easist way to produce ghc-lib-parser
and ghc-lib
packages is to execute the CI script which incidentally builds and executes the examples (this procedure makes versioned packages based on the current date and expresses the version constraint between ghc-lib
and ghc-lib-parser
accordingly).
# Setup
git clone git@github.com:digital-asset/ghc-lib.git
cd ghc-lib
cabal run exe:ghc-lib-build-tool -- --ghc-flavor=ghc-8.8.1
Build ghc-lib
using the above instructions and upload the resulting .tar.gz
files to Hackage.
Read the Standard CPP macros section of the GHC users guide for the semantics of the MIN_VERSION_pkgname(x, y, z)
macros and keep in mind that builds of ghc-lib-parser
/ghc-lib
from GHC head are ascribed version numbers of the form 0.α.
The CI.hs
script has special support for building custom versions of
ghc-lib specifically tailored to the DAML compiler, which requires a handful of
patches to be applied on top of GHC. The syntax is slightly different from the
general case: the --ghc-flavor
flag is replaced with an "enabling" flag
--da
and three more specific flags. A full call example would be:
cabal run exe:ghc-lib-build-tool -- \
--da \
--merge-base-sha=ghc-8.8.1-release \
--patch=upstream/da-master-8.8.1 \
--patch=upstream/da-unit-ids-8.8.1 \
--gen-flavor=da-ghc-8.8.1 \
--upstream=https://github.com/digital-asset/ghc.git
The DAML-specific process only differs from the normal one in that it patches GHC with the given patches. More specifically, it will:
- Clone GHC. (This is also done by the normal workflow.)
- Add the DA fork of GHC as a remote
named
upstream
; this can be overridden with the--upstream
flag. For example, in local development,--upstream=$PWD/../ghc-fork/
. Note that if you want to specify a local path (as in this example), it should be an absolute one, as the command will be run from the folder into which GHC has been cloned. - Checkout the commit provided as
merge-base-sha
. - Create a new commit by merging in all of the commits specified through the
--patch
flags. - Proceed as normal for the rest of the workflow.
At some later stage, the workflow calls out to the ghc-lib-gen
program, and
at that point it needs to pass in a "flavor" argument; it will use the value of
the --gen-flavor
option for that.
Note that deployment for the DAML version is handled from within the DAML CI.
Footnotes
-
The set ghc-9.2.1, ghc-9.2.2, ..., ghc-9.4.1, ghc-9.4.2, ..., ghc-9.6.1 ↩