Difference between revisions of "How to write a Haskell program"
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=== Revision control ===
=== Revision control ===
Use [http://darcs.net Darcs] unless you have a specific reason not to.
a lightweight distributed revision control (and written in Haskell). massive market share in the Haskell world, if you want to encourage contributions from other Haskell hackers darcs best. Darcs hosting is available on [http://code.haskell.org code.haskell.org] and [http://patch-tag.com patch-tag]. [http://github.com/ github] popular.
=== Build system ===
=== Build system ===
Revision as of 17:40, 26 April 2011
A guide to creating a new Haskell project or program.
- 1 Recommended tools
- 2 Structure of a simple project
- 2.1 Create a directory
- 2.2 Write some Haskell source
- 2.3 Stick it in darcs
- 2.4 Add a build system
- 2.5 Build your project
- 2.6 Run it
- 2.7 Build some haddock documentation
- 2.8 (Optional) Improve your code: HLint
- 2.9 Add some automated testing: QuickCheck
- 2.10 Running the test suite from darcs
- 2.11 Tag the stable version, create a tarball, and sell it!
- 2.12 Summary
- 3 Libraries
- 4 Automation
- 5 Licenses
- 6 Releases
- 7 Hosting
- 8 Web page
- 9 The user experience
- 10 Program structure
- 11 Publicity
- 12 Example
Almost all new Haskell projects use the following tools. Each is intrinsically useful, but using a set of common tools also helps everyone by increasing productivity, and you're more likely to get patches.
Use git or darcs unless you have a specific reason not to. Both are lightweight distributed revision control systems (and darcs is written in Haskell). Both have massive market share in the Haskell world, if you want to encourage contributions from other Haskell hackers git or darcs are the best. Darcs hosting is available on code.haskell.org and patch-tag. github for git is very popular.
You probably also want to use cabal-install as a front-end for the Cabal library. Cabal-install provides commands not only for building libraries but also for installing them from and uploading them to Hackage. As a bonus, for almost all programs, it's faster than using Setup.hs scripts directly, since no time is wasted compiling the scripts. (This does not apply for programs that use custom Setup.hs scripts, since those need to be compiled even when using cabal-install.)
For libraries, use Haddock. We recommend using the latest version of Haddock.
To get started, try Introduction to QuickCheck. For a slightly more advanced introduction, Simple Unit Testing in Haskell is a blog article about creating a testing framework for QuickCheck using some Template Haskell. For HUnit, see HUnit 1.0 User's Guide
The standard mechanism for distributing Haskell libraries and applications is Hackage. Hackage can host your cabalised tarball releases, and link to any library dependencies your code has.
Structure of a simple project
The basic structure of a new Haskell project can be adopted from HNop, the minimal Haskell project. It consists of the following files, for the mythical project "haq".
- Haq.hs -- the main haskell source file
- haq.cabal -- the cabal build description
- Setup.hs -- build script itself
- _darcs -- revision control
- README -- info
- LICENSE -- license
Of course, you can elaborate on this, with subdirectories and multiple modules. See Structure of a Haskell project for an example of a larger project's directory structure.
Here is a transcript that shows how you'd create a minimal darcs and cabalised Haskell project for the cool new Haskell program "haq", build it, install it and release.
The new tool "cabal init" automates all this for you, but you should understand all the parts even so.
We will now walk through the creation of the infrastructure for a simple Haskell executable. Advice for libraries follows after.
Create a directory
Create somewhere for the source:
$ mkdir haq $ cd haq
Write some Haskell source
Write your program:
$ cat > Haq.hs -- -- Copyright (c) 2006 Don Stewart - http://www.cse.unsw.edu.au/~dons/ -- GPL version 2 or later (see http://www.gnu.org/copyleft/gpl.html) -- import System.Environment -- | 'main' runs the main program main :: IO () main = getArgs >>= print . haqify . head haqify s = "Haq! " ++ s
Stick it in darcs
Place the source under revision control (you may need to enter your e-mail address first, to identify you as maintainer of this source):
$ darcs init $ darcs add Haq.hs $ darcs record addfile ./Haq.hs Shall I record this change? (1/?) [ynWsfqadjkc], or ? for help: y hunk ./Haq.hs 1 +-- +-- Copyright (c) 2006 Don Stewart - http://www.cse.unsw.edu.au/~dons/ +-- GPL version 2 or later (see http://www.gnu.org/copyleft/gpl.html) +-- +import System.Environment + +-- | 'main' runs the main program +main :: IO () +main = getArgs >>= print . haqify . head + +haqify s = "Haq! " ++ s Shall I record this change? (2/?) [ynWsfqadjkc], or ? for help: y What is the patch name? Import haq source Do you want to add a long comment? [yn]n Finished recording patch 'Import haq source'
And we can see that darcs is now running the show:
$ ls Haq.hs _darcs
Add a build system
Create a .cabal file describing how to build your project:
$ cat > haq.cabal Name: haq Version: 0.0 Description: Super cool mega lambdas License: GPL License-file: LICENSE Author: Don Stewart Maintainer: firstname.lastname@example.org Build-Type: Simple Cabal-Version: >=1.2
Executable haq Main-is: Haq.hs Build-Depends: base >= 3 && < 5
(If your package uses other packages, e.g. haskell98, you'll need to add them to the Build-Depends: field as a comma separated list.) Add a Setup.hs that will actually do the building:
$ cat > Setup.hs import Distribution.Simple main = defaultMain
Cabal allows either Setup.hs or Setup.lhs.
Now would also be a good time to add a LICENSE file and a README file. Examples are in the tarball for HNop.
Record your changes:
$ darcs add haq.cabal Setup.hs LICENSE README $ darcs record --all What is the patch name? Add a build system Do you want to add a long comment? [yn]n Finished recording patch 'Add a build system'
Build your project
Now build it! There are two methods of accessing Cabal functionality: through your Setup.hs script or through cabal-install. In most cases, cabal-install is now the preferred method.
Building using cabal-install:
$ cabal install --prefix=$HOME --user
Building using the traditional Setup.hs method:
$ runhaskell Setup configure --prefix=$HOME --user $ runhaskell Setup build $ runhaskell Setup install
This will install your newly minted haq program in $HOME/bin.
And now you can run your cool project:
$ haq me "Haq! me"
You can also run it in-place, even if you skip the install phase:
$ dist/build/haq/haq you "Haq! you"
Build some haddock documentation
Generate some API documentation into dist/doc/*
Using cabal install:
$ cabal haddock
$ runhaskell Setup haddock
which generates files in dist/doc/ including:
$ w3m -dump dist/doc/html/haq/Main.html
haq Contents Index Main
Synopsis main :: IO ()
main :: IO () main runs the main program
Produced by Haddock version 0.7
No output? Make sure you have actually installed haddock. It is a separate program, not something that comes with Cabal. Note that the stylized comment in the source gets picked up by Haddock.
(Optional) Improve your code: HLint
HLint can be a valuable tool for improving your coding style, particularly if you're new to Haskell. Let's run it now.
$ hlint . ./Haq.hs:11:1: Warning: Eta reduce Found: haqify s = "Haq! " ++ s Why not: haqify = ("Haq! " ++)
The existing code will work, but let's follow that suggestion. Open Haq.hs in your favourite editor and change the line:
where haqify s = "Haq! " ++ s
where haqify = ("Haq! " ++)
Add some automated testing: QuickCheck
We'll use QuickCheck to specify a simple property of our Haq.hs code. Create a tests module, Tests.hs, with some QuickCheck boilerplate:
$ cat > Tests.hs import Char import List import Test.QuickCheck import Text.Printf main = mapM_ (\(s,a) -> printf "%-25s: " s >> a) tests instance Arbitrary Char where arbitrary = choose ('\0', '\128') coarbitrary c = variant (ord c `rem` 4)
Now let's write a simple property:
$ cat >> Tests.hs -- reversing twice a finite list, is the same as identity prop_reversereverse s = (reverse . reverse) s == id s where _ = s :: [Int] -- and add this to the tests list tests = [("reverse.reverse/id", test prop_reversereverse)]
We can now run this test, and have QuickCheck generate the test data:
$ runhaskell Tests.hs reverse.reverse/id : OK, passed 100 tests.
Let's add a test for the 'haqify' function:
-- Dropping the "Haq! " string is the same as identity prop_haq s = drop (length "Haq! ") (haqify s) == id s where haqify s = "Haq! " ++ s tests = [("reverse.reverse/id", test prop_reversereverse) ,("drop.haq/id", test prop_haq)]
and let's test that:
$ runhaskell Tests.hs reverse.reverse/id : OK, passed 100 tests. drop.haq/id : OK, passed 100 tests.
If you're using version 2 of QuickCheck, the code in the previous section needs some minor modifications:
$ cat > Tests.hs import Char import List import Test.QuickCheck import Text.Printf main = mapM_ (\(s,a) -> printf "%-25s: " s >> a) tests -- reversing twice a finite list, is the same as identity prop_reversereverse s = (reverse . reverse) s == id s where _ = s :: [Int] -- Dropping the "Haq! " string is the same as identity prop_haq s = drop (length "Haq! ") (haqify s) == id s where haqify s = "Haq! " ++ s tests = [("reverse.reverse/id", quickCheck prop_reversereverse) ,("drop.haq/id", quickCheck prop_haq)]
To run the test:
$ runhaskell Tests.hs reverse.reverse/id : +++ OK, passed 100 tests. drop.haq/id : +++ OK, passed 100 tests.
Running the test suite from darcs
We can arrange for darcs to run the test suite on every commit:
$ darcs setpref test "runhaskell Tests.hs" Changing value of test from to 'runhaskell Tests.hs'
will run the full set of QuickChecks.
If your test requires it, you may need to ensure other things are built too -- for example:
darcs setpref test "alex Tokens.x;happy Grammar.y;runhaskell Tests.hs".
You will encounter that this way a darcs patch is also accepted if a QuickCheck test fails.
You have two choices to work around this:
quickCheck'from the package QuickCheck-2 and call
exitWithFailureif it return
- Keep the test program as it is, and implement the failure on the shell level:
runhaskell Tests.hs | tee test.log && if grep Falsifiable test.log >/dev/null; then exit 1; fi
Let's commit a new patch:
$ darcs add Tests.hs $ darcs record --all What is the patch name? Add testsuite Do you want to add a long comment? [yn]n Running test... reverse.reverse/id : OK, passed 100 tests. drop.haq/id : OK, passed 100 tests. Test ran successfully. Looks like a good patch. Finished recording patch 'Add testsuite'
Excellent: now, patches must pass the test suite before they can be committed.
Tag the stable version, create a tarball, and sell it!
Tag the stable version:
$ darcs tag What is the version name? 0.0 Finished tagging patch 'TAG 0.0'
Create a tarball
You can do this using either Cabal or darcs, or even an explicit tar command.
Since the code is cabalised, we can create a tarball with cabal-install directly (you can also use runhaskell Setup.hs sdist, but you need tar on your system ):
$ cabal sdist Building source dist for haq-0.0... Source tarball created: dist/haq-0.0.tar.gz
This has the advantage that Cabal will do a bit more checking, and ensure that the tarball has the structure that HackageDB expects. Note that it does require the LICENSE file to exist. It packages up the files needed to build the project; to include other files (such as Test.hs in the above example, and our README), we need to add:
extra-source-files: Tests.hs README
to the .cabal file to have everything included.
Alternatively, you can use darcs:
$ darcs dist -d haq-0.0 Created dist as haq-0.0.tar.gz
And you're all set up!
Check that your source package is complete
Just to make sure everything works, try building the source package in some temporary directory:
$ tar xzf haq-0.0.tar.gz $ cd haq-0.0 $ cabal configure $ cabal build
and for packages containing libraries,
$ cabal haddock
Upload your package to Hackage
Whichever of the above methods you've used to create your package, you can upload it to the Hackage package collection via a web interface. You may wish to use the package checking interface there first, and fix things it warns about, before uploading your package.
The following files were created:
$ ls Haq.hs Tests.hs dist haq.cabal Setup.hs _darcs haq-0.0.tar.gz
The process for creating a Haskell library is almost identical. The differences are as follows, for the hypothetical "ltree" library:
The source should live under a directory path that fits into the existing module layout guide. So we would create the following directory structure, for the module Data.LTree:
$ mkdir Data $ cat > Data/LTree.hs module Data.LTree where
So our Data.LTree module lives in Data/LTree.hs
The Cabal file
Cabal files for libraries list the publically visible modules, and have no executable section:
$ cat > ltree.cabal Name: ltree Version: 0.1 Description: Lambda tree implementation License: BSD3 License-file: LICENSE Author: Don Stewart Maintainer: email@example.com Build-Type: Simple Cabal-Version: >=1.2 Library Build-Depends: base >= 3 && < 5 Exposed-modules: Data.LTree ghc-options: -Wall
We can thus build our library:
$ cabal configure --prefix=$HOME --user $ cabal build Preprocessing library ltree-0.1... Building ltree-0.1... [1 of 1] Compiling Data.LTree ( Data/LTree.hs, dist/build/Data/LTree.o ) /usr/bin/ar: creating dist/build/libHSltree-0.1.a
and our library has been created as a object archive. Now install it:
$ cabal install Installing: /home/dons/lib/ltree-0.1/ghc-6.6 & /home/dons/bin ltree-0.1... Registering ltree-0.1... Reading package info from ".installed-pkg-config" ... done. Saving old package config file... done. Writing new package config file... done.
And we're done! To try it out, first make sure that your working directory is anything but the source directory of your library:
$ cd ..
And then use your new library from, for example, ghci:
$ ghci -package ltree Prelude> :m + Data.LTree Prelude Data.LTree>
The new library is in scope, and ready to go.
More complex build systems
For larger projects, you may want to store source trees in subdirectories. This can be done simply by creating a directory -- for example, "src" -- into which you will put your src tree.
To have Cabal find this code, you add the following line to your Cabal file:
You can also set up Cabal to run configure scripts, among other features. For more information consult the Cabal documentation.
A tool to automatically populate a new cabal project is available:
$ cabal init Package name [default "haq"]? Package version [default "0.1"]? Please choose a license: 1) GPL 2) GPL-2 3) GPL-3 4) LGPL 5) LGPL-2.1 6) LGPL-3 * 7) BSD3 8) BSD4 9) MIT 10) PublicDomain 11) AllRightsReserved 12) OtherLicense 13) Other (specify) Your choice [default "BSD3"]? Author name? Henry Laxen Maintainer email? firstname.lastname@example.org Project homepage/repo URL? http://somewhere.com/haq/ Project synopsis? A wonderful little module Project category: 1) Codec 2) Concurrency 3) Control 4) Data 5) Database 6) Development 7) Distribution 8) Game 9) Graphics 10) Language 11) Math 12) Network 13) Sound 14) System 15) Testing 16) Text 17) Web 18) Other (specify) Your choice? 3 What does the package build: 1) Library 2) Executable Your choice? 1 Generating LICENSE... Generating Setup.hs... Generating haq.cabal...
You may want to edit the .cabal file and add a Description field.
Code for the common base library package must be BSD licensed. Otherwise, it is entirely up to you as the author. Choose a licence (inspired by this). Check the licences of things you use (both other Haskell packages and C libraries), since these may impose conditions you must follow. Use the same licence as related projects, where possible. The Haskell community is split into 2 camps, roughly: those who release everything under BSD, and (L)GPLers. Some Haskellers recommend avoiding LGPL, due to cross-module optimisation issues. Like many licensing questions, this advice is controversial. Several Haskell projects (wxHaskell, HaXml, etc) use the LGPL with an extra permissive clause which gets round the cross-module optimisation problem.
It's important to release your code as stable, tagged tarballs. Don't just rely on darcs for distribution.
- darcs dist generates tarballs directly from a darcs repository
$ cd fps $ ls Data LICENSE README Setup.hs TODO _darcs cbits dist fps.cabal tests $ darcs dist -d fps-0.8 Created dist as fps-0.8.tar.gz
You can now just post your fps-0.8.tar.gz
You can also have darcs do the equivalent of 'daily snapshots' for you by using a post-hook.
put the following in _darcs/prefs/defaults:
apply posthook darcs dist apply run-posthook
- Tag each release using darcs tag. For example:
$ darcs tag 0.8 Finished tagging patch 'TAG 0.8'
Then people can darcs pull --partial -t 0.8, to get just the tagged version (and not the entire history).
Hosting for repos is available from the Haskell community server:
A Darcs repository can be published simply by making it available from a web page.
Create a web page documenting your project! An easy way to do this is to add a project specific page to the Haskell wiki
The user experience
When developing a new Haskell library, it is important to remember how the user expects to be able to build and use a library.
Introductory information and build guide
A typical library user expects to:
- Visit Haskell.org
- Find the library/program they are looking for:
- if not found, try mailing list;
- if it is hidden, try improving the documentation on haskell.org;
- if it does not exist, try contributing code and documentation)
- Build and install
Each of these steps can pose potential road blocks, and code authors can do a lot to help code users avoid such blocks. Steps 1..2 may be easy enough, and many coders and users are mainly concerned with step 5. Steps 3..4 are the ones that often get in the way. In particular, the following questions should have clear answers:
- Which is the latest version?
- What state is it in?
- What are its aims?
- Where is the documentation?
- Which is the right version for given OS and Haskell implementation?
- How is it packaged, and what tools are needed to get and unpack it?
- How is it installed, and what tools are needed to install it?
- How do we handle dependencies?
- How do we provide/acquire the knowledge and tool-chains needed?
The best place to answer these questions is a README file, distributed with the library or application, and often accompanied with similar text on a more extensive web page.
Generated haddock documentation is usually not enough to help new programmers learn how to use a library. You must also provide accompanying examples, and even tutorials about the library.
Please consider providing example code for your library or application. The code should be type-correct and well-commented.
Monad transformers are very useful for programming in the large, encapsulating state, and controlling side effects. To learn more about this approach, try Monad Transformers Step by Step.
The best code in the world is meaningless if nobody knows about it. The process to follow once you've tagged and released your code is:
Join the community
Announce your project on haskell@
Most important: announce your project releases to the email@example.com mailing list. Tag your email subject line with "ANNOUNCE: ...". This ensure it will then make it into the Haskell Weekly News. To be doubly sure, you can email the release text to the HWN editor.
Add your code to the public collections
- Add your library or application to the Libraries and tools page, under the relevant category, so people can find it.
- If your release is a Cabal package, add it to the Hackage database (Haskell's CPAN wanna-be).
Blog about it
A complete example of writing, packaging and releasing a new Haskell library under this process has been documented.