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Aug
4
comment Lock-free programming in Haskell
Right! I agree, MVars are just simply locks; the question was worded non-optimally. I agree that I want to use IORefs and atomic modification. But atomicModifyIORef isn't the only lock-free primitive you might want---critically, one might want a compare-and-set! primitive which modifies an IORef only if its current value is still what you expected it to be...
Aug
4
comment Lock-free programming in Haskell
OK, fair enough! Although I'm still interested if anyone has more detailed information (or can point to such...)
Aug
4
comment Lock-free programming in Haskell
Thanks---I knew of STM (see edit above) but didn't know so much about how it's implemented internally. Is it lock free? Mostly lock free? Also, are any lower-level lock-free primitives exposed?
Aug
4
revised Lock-free programming in Haskell
added 315 characters in body
Aug
4
asked Lock-free programming in Haskell
Aug
1
comment Comparison of atom libraries for Haskell, e.g. simple-atom and stringtable-atom
@nominolo: Regarding your point (b), do you happen to know of a good guide that tells you exactly what you need to make sure to ensure that unsafePerformIO is safe? Why/when are NOINLINEs needed to ensure referential transparency/safety?
Aug
1
comment Comparison of atom libraries for Haskell, e.g. simple-atom and stringtable-atom
@nominolo: I believe the purpose of the weak references is to ensure that strings are de-interned if they are no longer visible. For at least some applications, this is an important feature; and it cannot be implemented without the weakRefs. In other applications, it may be wasteful overhead---another reason that the variety of libraries and options is helpful.
Jul
31
comment Is there an object-identity-based, thread-safe memoization library somewhere?
Nonetheless, a great feat of hacking! I actually have another question on SO somewhere asking about interning strings and so on, in which the lack of a proper thread-safe interning library came up: so perhaps you would like to post this as an answer there so I can vote it up :).
Jul
31
comment Is there an object-identity-based, thread-safe memoization library somewhere?
Excellent! Very interesting :). I'm just looking at it now. I'm probably being a bit dense, but it's not clear to me how to use this as a memoization library. (It does seem to immediately answer my other question about string interning!) If I want to write memoize:: (a->b)->(a->b), how do I go about it? (I'm also confused because it doesn't seem to use StableNames, which I thought were essential...) Anyway, sorry for being stupid!
Jul
31
accepted Is mkWeak strict in its value argument?
Jul
31
comment Is mkWeak strict in its value argument?
D'oh! I was forgetting to include the Nothing and misinterpreting the resulting error message. Thanks for setting me straight! I agree that it really ought to be lazy :)
Jul
31
asked Is mkWeak strict in its value argument?
Jul
30
awarded  Nice Question
Jul
30
comment Reentrant caching of “referentially transparent” IO calls
Great--that's very clear, thanks :)
Jul
30
comment Is there an object-identity-based, thread-safe memoization library somewhere?
@hammar---Thanks, very interesting. I'll be sure to look through the paper. I guess I think it's impossible to do what I need without StableNames, so I'm not so worried about them being used, but the lack of thread safety is not so good for me.
Jul
30
comment Reentrant caching of “referentially transparent” IO calls
Ah, but I guess you probably don't mind because in your application you're willing to deem any pure computation (i.e. non-IO monad operation) as 'cheap' :-)
Jul
30
comment Reentrant caching of “referentially transparent” IO calls
Wait: what happens if I pass call the memoized function using a thunk as input? AFAICS the global MVar (the one that protects the whole table, rather than the little ones protecting the individual values) will be held for the whole time it takes to resolve the thunk to something unthunk-y enough to find its place in the table. Will this not block all other threads from using the memo table, undermining the 'free of unnecessary locks' philosophy you seem to be going for?
Jul
30
comment Reentrant caching of “referentially transparent” IO calls
excellent, thank you :)
Jul
30
revised Is there an object-identity-based, thread-safe memoization library somewhere?
added 2722 characters in body
Jul
30
comment Is there an object-identity-based, thread-safe memoization library somewhere?
@hvr: Thanks, very interesting! Your question and the answers are very helpful: I missed them in my search of old questions because I looked only for 'memo', not for 'caching'. If I end up having to code this myself, I'll be sure to try to follow your example in making this fully reentrant.