GHC Status April 2007

GHC continues to thrive. One indicator of how widely GHC is used is the number of bug reports we get. Here is a graph showing how the number of bug reports filed has varied with time:

You could interpret these figures as saying that GHC is getting steadily more unreliable! But we don't think so...we believe that it's mostly a result of more people using GHC, for more applications, on more platforms.

As well as more bug reports, we are getting more help from the community, too. Some poeple regularly commit patches, and we get a steady trickle of patches emailed in from folk who (mostly) do not have commit rights, but who have built GHC, debugged a problem, sent us the patch. Our thanks go out to Aaron Tomb, Alec Berryman, Alexey Rodriguez, Andrew Pimlott, Andy Gill, Bas van Dijk, Bernie Pope, Bjorn Bringert, Brian Alliet, Brian Smith, Chris Rodrigues, Claus Reinke, David Himmelstrup, David Waern, Judah Jacobson, Isaac Jones, Lennart Augustsson, Lennart Kolmodin, Manuel M T Chakravarty, Pepe Iborra, Ravi Nanavati, Samuel Bronson, Sigbjorn Finne, Spencer Janssen, Sven Panne, Tim Chevalier, Tim Harris, Tyson Whitehead, Wolfgang Thaller, and anyone else who has contributed but we have accidentally omitted.

As a result of this heavy usage, it has taken us nearly six months to stabilise GHC 6.6.1, fixing over 100 reported bugs or infelicities in the already-fairly-solid GHC 6.6.

The HEAD (which will become GHC 6.8) embodies nine months of development work since we forked the tree for GHC 6.6. We are now aiming to get a stable set of features implemented in the HEAD, with a view to forking off the GHC 6.8 branch in the early summer. As our last HCAR report indicated, there will be lots of new stuff in GHC 6.8. The rest of this entry describes the features that are likely to end up in 6.8.

You can find binary snapshots at the download page or build from sources available via the darcs repository (

Simon Peyton Jones, Simon Marlow, Ian Lynagh

Type system and front end

  • We have completely replaced GHC's intermediate language with System FC(X), an extension of System F with explicit equality witnesses. This enables GHC to support GADTs and associated types, with two new simple but powerful mechanisms. The paper is System F with Type Equality Coercions. Much of the conversion work was done by Kevin Donnelly, while he was on an internship at Microsoft.
  • Manuel Chakravarty has implemented data-type families (aka indexed data types), a modest generalisation of the associated data types of our POPL'05 paper Associated types with class.

    This part is done. Now we are working on type-synonym families (aka type functions or associated type synonyms (ICFP'05)), which are considerably trickier that data type families, at least so far as type inference is concerned. Tom Schrijvers is in Cambridge for three months to help us use ides from Constraint Handling Rules to solve the inference problem. Type synonym families will almost completely fill the spot occupied by the always-troublesome functional dependencies, so we are quite excited about this.

    Details are at
  • Simon PJ finally implemented implication constraints, which are the key to fixing the interaction between GADTs and type classes. GHC's users have been very polite about this collection of bugs, but they are now finally fixed. Implication constraints are described by Martin Sulzmann in A framework for Extended Algebraic Data Types.
  • Bjoern Bringert (a GHC Hackathon graduate) implemented standalone deriving, which allows you to write a deriving declaration anywhere, rather than only where the data type is declared. Details of the syntax have not yet quite settled. See also

A less successful feature of the last year has been the story on impredicative instantiation (see the paper Boxy types: type inference for higher-rank types and impredicativity). The feature is implemented, but the implementation is significantly more complicated than we expected; and it delivers fewer benefits than we hoped. For example, the system described in the paper does not type-check (runST $ foo) and everyone complains. So Simon PJ added an even more ad-hoc extension that does left-to-right instantiation.

The power-to-weight ratio is not good. We're still hoping that Dimitrios Vytiniotis and Stephanie Weirich will come out with a simpler system, even if it's a bit less powerful. So don't get too used to impredicative instantiation as it now stands; it might change!


  • Simon PJ rewrote the Simplifier (again). It isn't clear whether it was that alone, or whether something else happened too, but performance has improved quite significantly; on the order of 12%.
  • Alexey Rodriguez visited us for three months from Utrecht, and implemented a new back-end optimisation called dynamic pointer tagging. We have wanted to do this for ages, but it needed a skilled and insightful hacker to make it all happen, and Alexey is just that. This optimisation alone buys us another 15% performance for compiled programs: see the paper Dynamic pointer tagging.


  • Gabriele Keller, Manuel Chakravarty, and Roman Leshchinskiy, at the University of New South Wales, are collaborating with us on support for nested data-parallel computation in GHC. We presented a paper Data parallel Haskell: a status report at the Declarative Aspects of Multicore Programing workshop in January 2007, and made a first release of the library in March. It's a pretty ambitious project, and we have quite a way to go. You can peek at the current status on the project home page:

  • At the moment GHC's garbage collector is single-threaded, even when GHC is running on a multiprocessor. Roshan James spent the summer at Microsoft on an internship, implementing a multi-threaded GC ( It works! But alas, doing GC with two processors runs no faster than with one! (We do plan to investigate this further and find the source of the bottleneck.)

Peng Li, from the University of Pennsylvania, spent an exciting three months at Cambridge, working on a whole new architecture for concurrency in GHC. (If you don't know Peng you should read his wonderful paper Combining Events And Threads For Scalable Network Services on implementing a network protocol stack in Haskell.) At the moment GHC's has threads, scheduling, forkIO, MVars, transactional memory, and more besides, all "baked into" the run-time system and implemented in C. If you want to change this implementation you have to either be Simon Marlow, or else very brave indeed. With Peng (and help from Andrew Tolmach, Olin Shivers, Norman Ramsey) we designed a new, much lower-level set of primitives, that should allow us to implement all of the above in Haskell. If you want a different scheduler, just code it up in Haskell, and plug it in.

Peng has a prototype running, but it has to jump the "Marlow barrier" of being virtually as fast as the existing C runtime; so far we have not committed to including this in GHC, and it certainly won't be in GHC 6.8. No paper yet, but look out for a Haskell Workshop 2007 submission.

Programming environment

There have been some big developments in the programming environment:

  • Andy Gill implemented the Haskell Program Coverage ( option (-fhpc) for GHC, which is solid enough to be used to test coverage in GHC itself. (It turns out that the GHC testsuite gives remarkably good coverage over GHC already.)
  • Pepe Iborra, Bernie Pope, and Simon Marlow have leveraged the same "tick" points used in the Haskell Program Coverage work to implement a breakpoint debugger in GHCi. Unlike HAT, which transforms the whole program into a new program that generates its own (massive) trace, this is a cheap-and-cheerful debugger. It simply lets you set breakpoints and look around to see what is in the heap, more in the manner of a conventional debugger. No need to recompile your program: it "just works".
  • Aaron Tomb and Tim Chevalier are working on resurrecting External Core, whose implementation was not only bit-rotted, but also poorly designed (by Simon PJ). By GHC 6.8 we hope to be able to spit out External Core for any program, perhaps transform it in some external program, and read it in again, surviving the round trip unscathed.
  • It is now possible to compile to object code instead of bytecode inside GHCi, simply by setting a flag (-fobject-code).
  • The GHC API has seen some cleanup, and it should now be both more complete and slightly easier to use. There is still plenty of work to do here, though.
  • David Waern has been working on integrating Haddock and GHC during his Google Summer of Code project last year. The parts of this project that involved modifying GHC are done and integrated into the GHC tree. The new version of Haddock based on GHC is usable but still experimental; the darcs repository is here.


  • The set of "corelibs" has been further streamlined, with parsec, regex-base, regex-compat, regex-posix and stm moved to extralibs in the HEAD. This disentangles releases of these packages from the GHC release process, and also means that development builds of GHC are quicker as they don't need to build those libraries.
  • We plan to extract parts of the base package into separate smaller packages; see this thread on the libraries mailing list.
Last modified 12 years ago Last modified on May 4, 2007 7:41:59 AM

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