Re: alternative to loadWithLogge
Judah, ghc-mod, IDE-like back-end for Emacs, uses warning related APIs including loadWithLogger and getWarnings in GHC 7.0.3 API. I found that they disappeared in GHC 7.2.1 API. What should I use to handle warnings in GHC 7.2.1 API? You can set the log_action field of the session's DynFlags to a custom handler. Its value is type LogAction = Severity - SrcSpan - PprStyle - Message - IO () The Severity parameter will let you tell whether a message is a warning or an error. Thank you very much for this information. Now ghc-mod can be complied with GHC 7.2.1! --Kazu ___ Glasgow-haskell-users mailing list Glasgow-haskell-users@haskell.org http://www.haskell.org/mailman/listinfo/glasgow-haskell-users
Re: [Pkg-haskell-maintainers] libffi soname change upcoming
Hi, Am Mittwoch, den 24.08.2011, 12:44 +0200 schrieb Matthias Klose: The question that has to be answered first is: Assume the libraries do not depend on libffi themselves, and only ghc does. Now you update libffi and ghc gets rebuilds, what will happen: A) The haskell ABIs stay the same, the existing library packages can still be used. Great. B) The haskell ABIs change. We’ll have to binNMU all Haskell libraries, but oh well, not bad thanks to BD-Uninstallable-support in wanna-build and autosigning. C) The haskell ABIs do not change, but the old library builds are broken nevertheless. Big mess. Hard to recover from, because builds are not ordered automatically any more. Needs lots of NMUes and Dep-Waits. sorry, I don't get the `C' case. why should these be broken by a libffi or libgmp change? Maybe it’s an unrealistic example, but I could imagine that ghc some data type (size) defined by libffi is used when generating code for a haskell library under the assumption that it has the same structure/size in the run time system and/or other used haskell libraries. But instead of making blind guesses, maybe GHC upstream can enlighten us: Is it safe to build ghc and a Haskell library, then upgrade libffi to a new version (with soname bump), rebuild ghc, but use the previous library build? Removing the libffi dependencies from the haskell libraries makes C possible and only helps with A. So until someone investigates this, I’d rather err on the safe side, leave the dependencies in, and fix the issue by rebuilding all haskell libraries when you upload the new ffi soname to unstable. well, with binNMU orgies like this you'll pull in any new or tightened dependencies for shared libraries. Not depending on these unused libraries does avoid this. True. I agree that it would be nice and worthwhile to remove the libffi dependency from the libraries, but only if it is actually safe and scenario C is guaranteed not to happen. Greetings, Joachim -- Joachim nomeata Breitner Debian Developer nome...@debian.org | ICQ# 74513189 | GPG-Keyid: 4743206C JID: nome...@joachim-breitner.de | http://people.debian.org/~nomeata signature.asc Description: This is a digitally signed message part ___ Glasgow-haskell-users mailing list Glasgow-haskell-users@haskell.org http://www.haskell.org/mailman/listinfo/glasgow-haskell-users
Re: Cheap and cheerful partial evaluation
Ah, and there's no core-haskell facility presently? Thanks. On Wed, Aug 24, 2011 at 12:14 AM, Edward Z. Yang ezy...@mit.edu wrote: Since most of GHC's optimizations occur on core, not the user-friendly frontend language, doing so would be probably be nontrivial (e.g. we'd want some sort of core to Haskell decompiler.) Edward Excerpts from Ryan Newton's message of Tue Aug 23 13:46:45 -0400 2011: Edward, On first glance at your email I misunderstood you as asking about using GHC's optimizer as a source-to-source operation (using GHC as an optimizer, retrieving partially evaluated Haskell code). That's not what you were asking for -- but is it possible? -Ryan P.S. One compiler that comes to mind that exposes this kind of thing nicely is Chez Scheme ( http://scheme.com/ ). In Chez you can get your hands on cp0 which does a source to source transform (aka compiler pass zero, after macro expansion), and could use cp0 to preprocess the source and then print it back out. On Mon, Aug 22, 2011 at 8:48 AM, Edward Z. Yang ezy...@mit.edu wrote: I think this ticket sums it up very nicely! Cheers, Edward Excerpts from Max Bolingbroke's message of Mon Aug 22 04:07:59 -0400 2011: On 21 August 2011 19:20, Edward Z. Yang ezy...@mit.edu wrote: And no sooner do I send this email do I realize we have 'inline' built-in, so I can probably experiment with this right now... You may be interested in my related ticket #5029: http://hackage.haskell.org/trac/ghc/ticket/5059 I don't think this is totally implausible but you have to be very careful with recursive functions. Max ___ Glasgow-haskell-users mailing list Glasgow-haskell-users@haskell.org http://www.haskell.org/mailman/listinfo/glasgow-haskell-users ___ Glasgow-haskell-users mailing list Glasgow-haskell-users@haskell.org http://www.haskell.org/mailman/listinfo/glasgow-haskell-users
Re: Cheap and cheerful partial evaluation
I think it would be a pretty interesting project. :^) Edward Excerpts from Ryan Newton's message of Wed Aug 24 15:18:48 -0400 2011: Ah, and there's no core-haskell facility presently? Thanks. On Wed, Aug 24, 2011 at 12:14 AM, Edward Z. Yang ezy...@mit.edu wrote: Since most of GHC's optimizations occur on core, not the user-friendly frontend language, doing so would be probably be nontrivial (e.g. we'd want some sort of core to Haskell decompiler.) Edward Excerpts from Ryan Newton's message of Tue Aug 23 13:46:45 -0400 2011: Edward, On first glance at your email I misunderstood you as asking about using GHC's optimizer as a source-to-source operation (using GHC as an optimizer, retrieving partially evaluated Haskell code). That's not what you were asking for -- but is it possible? -Ryan P.S. One compiler that comes to mind that exposes this kind of thing nicely is Chez Scheme ( http://scheme.com/ ). In Chez you can get your hands on cp0 which does a source to source transform (aka compiler pass zero, after macro expansion), and could use cp0 to preprocess the source and then print it back out. On Mon, Aug 22, 2011 at 8:48 AM, Edward Z. Yang ezy...@mit.edu wrote: I think this ticket sums it up very nicely! Cheers, Edward Excerpts from Max Bolingbroke's message of Mon Aug 22 04:07:59 -0400 2011: On 21 August 2011 19:20, Edward Z. Yang ezy...@mit.edu wrote: And no sooner do I send this email do I realize we have 'inline' built-in, so I can probably experiment with this right now... You may be interested in my related ticket #5029: http://hackage.haskell.org/trac/ghc/ticket/5059 I don't think this is totally implausible but you have to be very careful with recursive functions. Max ___ Glasgow-haskell-users mailing list Glasgow-haskell-users@haskell.org http://www.haskell.org/mailman/listinfo/glasgow-haskell-users ___ Glasgow-haskell-users mailing list Glasgow-haskell-users@haskell.org http://www.haskell.org/mailman/listinfo/glasgow-haskell-users
Panic when using syb with GHC API
Hello, I'm trying to query a type-checked module with syb, this works for a plain binding. But as soon as I add a type signature for that binding, I get an panic! I experienced similar problems with a renamed module. Are those data structures meant to be used with syb? And if yes, what did I miss? Bellow is some code to reproduce my issue. Any help is very much appreciated. -- A.hs module Main where import GHC import Outputable import Data.Generics import GHC.Paths (libdir) import Bag main :: IO () main = do m - parse putStrLn $ showSDoc $ ppr $ m putStrLn \n---\n putStrLn $ showSDoc $ ppr $ selectAbsBinds m parse = runGhc (Just libdir) $ do _ - getSessionDynFlags = setSessionDynFlags target - guessTarget B.hs Nothing setTargets [target] Succeeded - load LoadAllTargets modSum - getModSummary $ mkModuleName B m - parseModule modSum = typecheckModule return $ typecheckedSource m selectAbsBinds :: GenericQ [HsBindLR Id Id] selectAbsBinds = everything (++) ([] `mkQ` f) where f x@(AbsBinds _ _ _ _ _) = [x] f _ = [] -- B.hs module B where foo :: Char foo = 'f' Cheers, Simon ___ Glasgow-haskell-users mailing list Glasgow-haskell-users@haskell.org http://www.haskell.org/mailman/listinfo/glasgow-haskell-users