This is an extension to Haskell's package manager Cabal to allow you to add,
remove, and upgrade dependencies by modifying your cabal file from the
command line. This behaves similar to install --save
commands in other
package managers.
cabal-edit add
cabal-edit upgrade
cabal-edit upgradeall
cabal-edit remove
cabal-edit list
cabal-edit format
cabal-edit extensions
cabal-edit lint
cabal-edit latest
cabal-edit rebuild
For example to setup a new project one often wants to add common dependencies
like text
and aeson
. We can use cabal-edit
to automatically append these
to our dependency list and deduce the latest versions from Hackage.
$ cabal init --lib --cabal-version=3.0
$ cabal-edit add aeson
Adding dependency: aeson ^>=1.5 to sample.cabal
$ cabal-edit add text
Adding dependency: text ^>=1.2 to sample.cabal
If we want to depend on a specific version of aeson
, we can pass this
explicitly as an argument.
$ cabal-edit add aeson==1.4.0.0
Multiple packages can be passed to the add command at once. For example:
$ cabal-edit add base bytestring aeson text process filepath directory mtl transformers protolude
Adding latest dependency: base ^>=4.14 to sample.cabal
Adding latest dependency: bytestring ^>=0.10 to sample.cabal
Adding latest dependency: aeson ^>=1.5 to sample.cabal
Adding latest dependency: text ^>=1.2 to sample.cabal
Adding latest dependency: process ^>=1.6 to sample.cabal
Adding latest dependency: filepath ^>=1.4 to sample.cabal
Adding latest dependency: directory ^>=1.3 to sample.cabal
Adding latest dependency: mtl ^>=2.2 to sample.cabal
Adding latest dependency: transformers ^>=0.5 to sample.cabal
Adding latest dependency: protolude ^>=0.3 to sample.cabal
Note: Dependency modification will happen over the library stanza of your Cabal file, and not the executable sections.
The upgrade command can be used to safely manipulate the version bounds for a
given library. For instance if one has a simple dependency on text
for 1.0
version range, like as follows:
library
exposed-modules: MyLib
default-language: Haskell2010
build-depends:
base >= 4.14 && <=5.0,
text ^>= 1.0
We can bump the bound of this library to upgrade it to allow the latest version
from Hackage. We simply pass the upgrade
command the name of the package (i.e.
text
) and it will automatically figure out the appropriate version range for
the upgrade including previously version ranges. The resulting version ranges
will always have an upper bound and will conform to Hackage PVP standards.
$ cabal-edit upgrade text
Upgrading bounds for text to 1.3
This will produce the following modified Cabal file.
library
exposed-modules: MyLib
default-language: Haskell2010
build-depends:
base >=4.14 && <=5.0,
text >=1.0 && <=1.3
upgradeall
behaves like upgrade
but performs the version bound bump for all
available dependencies. This sets the upper bounds for all dependencies to the
latest available version on Hackage.
$ cabal-edit upgradeall
Upgrading bounds for Cabal to 3.3
Upgrading bounds for aeson to 1.6
Upgrading bounds for base to 4.15
Upgrading bounds for bytestring to 0.11
Upgrading bounds for ghc to 8.11
Upgrading bounds for text to 1.3
Remove will remove a given dependency from the file completely.
$ cabal-edit remove microlens
Removing depndency on microlens
The Hackage database can be queried from the command line to search for all
available versions to use with the list
command.
$ cabal-edit list filepath
1.0
1.1.0.0
1.1.0.1
1.1.0.2
1.1.0.3
1.1.0.4
1.2.0.0
1.2.0.1
1.3.0.0
1.3.0.1
1.3.0.2
1.4.0.0
1.4.1.0
1.4.1.1
1.4.1.2
1.4.2
1.4.2.1
The format
command will canonicalise the Cabal into by parsing it and running
it through the pretty printer again.
$ cabal-edit format
Formatting: sample.cabal
The extensions
command will enumerate all the default extensions enabled for
the given library. This is useful if you wish to add these headers to files
within the project.
$ cabal-edit extensions
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE BlockArguments #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
The lint
command will detect common problems with your version bounds and
recommend package upgrades when available.
$ cabal-edit lint
aeson : Consider upgrading major bound to latest version 1.6
text : Consider upgrading major bound to latest version 1.3
The latest
command will return the dependency string for adding the latest
version of a given package.
$ cabal-edit latest aeson
aeson ^>=1.5
cabal-edit uses a cache of Hackage package versions internally. This is normally
built on first run and whenever the package database is older than 30 days. If
you wish to manually rebuild it after running cabal update
then run:
$ cabal-edit rebuild
Done.
Download this repository.
$ git clone git@github.com:sdiehl/cabal-edit.git
$ cd cabal-edit
Then install either with Stack, Cabal or Nix.
$ stack install
$ cabal install --installdir=/home/$USER/.local/bin
$ nix-build -A cabal-edit
Note: This library links directly against Cabal, so you must be using the same version of Cabal you intend to compile your package against. It is reccomened to use Cabal > 3.0 to support modern versioning schemes.
We can tab complete on the Hackage package index we install the local
completions for you shell. Run one of the following commands to generate the
shell completer appropriate to your shell. Then add the output to one of
~/.zshrc
, ~/.bashrc
or ~/.config/fish/config.fish
.
$ cabal-edit --zsh-completion-script cabal-edit
$ cabal-edit --bash-completion-script cabal-edit
$ cabal-edit --fish-completion-script cabal-edit
This will completion against the Hackage database prefixed by name.
$ cabal-edit add gh
zsh: do you wish to see all 103 possibilities (15 lines)?
$ cabal-edit add ghc-pa
ghc-parmake ghc-parser ghc-paths
bash
_cabal-edit()
{
local CMDLINE
local IFS=$'\n'
CMDLINE=(--bash-completion-index $COMP_CWORD)
for arg in ${COMP_WORDS[@]}; do
CMDLINE=(${CMDLINE[@]} --bash-completion-word $arg)
done
COMPREPLY=( $(cabal-edit "${CMDLINE[@]}") )
}
complete -o filenames -F _cabal-edit cabal-edit
zsh
#compdef cabal-edit
local request
local completions
local word
local index=$((CURRENT - 1))
request=(--bash-completion-enriched --bash-completion-index $index)
for arg in ${words[@]}; do
request=(${request[@]} --bash-completion-word $arg)
done
IFS=$'\n' completions=($( cabal-edit "${request[@]}" ))
for word in $completions; do
local -a parts
# Split the line at a tab if there is one.
IFS=$'\t' parts=($( echo $word ))
if [[ -n $parts[2] ]]; then
if [[ $word[1] == "-" ]]; then
local desc=("$parts[1] ($parts[2])")
compadd -d desc -- $parts[1]
else
local desc=($(print -f "%-019s -- %s" $parts[1] $parts[2]))
compadd -l -d desc -- $parts[1]
fi
else
compadd -f -- $word
fi
done
fish
function _cabal-edit
set -l cl (commandline --tokenize --current-process)
# Hack around fish issue #3934
set -l cn (commandline --tokenize --cut-at-cursor --current-process)
set -l cn (count $cn)
set -l tmpline --bash-completion-enriched --bash-completion-index $cn
for arg in $cl
set tmpline $tmpline --bash-completion-word $arg
end
for opt in (cabal-edit $tmpline)
if test -d $opt
echo -E "$opt/"
else
echo -E "$opt"
end
end
end
complete --no-files --command cabal-edit --arguments '(_cabal-edit)'
Since this library works directly with the PackageDescription
data structure
it cannot handle Cabal files in their full generality. Instead we directly
manipulate the internal structure used to represent the Cabal file which is not
capable of representing all surface constructs. If your Cabal file currently
uses:
- Common stanzas
- Conditional blocks
- Preprocessor definitions
These constructs will be compiled into the PackageDescription
and inlined if
you use cabal-edit
. This makes cabal-edit
useful for small beginning
projects and ones that don't use advanced Cabal features.
MIT License Copyright (c) 2020, Stephen Diehl