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bio website informatik.uni-marburg.de/…
location Germany
age 28
visits member for 5 years, 8 months
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Ex Linux kernel programmer, M.Sc., PhD student, Scala/Java/Haskell/C/C++/Java developer, with focus on design and implementation of programming languages, in particular optimized EDSLs in Scala (and Haskell).

You can read my irregularly-published reflections on CS at http://blaisorbladeprog.blogspot.com/.


Sep
11
comment Encoding Standard ML modules in OO
@AndreasRossberg: I see. Scala type equality is also a congruence (forgot to say it, sorry), but I guess I essentially showed that eta-expansion is not supported (without annotations). I guess ML module expressions can be normalized because modules are second-class so module expressions are part of a different phase? But I'll have to read up on PFPL I guess.
Sep
11
comment Encoding Standard ML modules in OO
@AndreasRossberg: On my gist reexporting the type: agreed, I don't see immediately how to really avoid that (unless the type is bound from outside).
Sep
11
comment Encoding Standard ML modules in OO
@AndreasRossberg: the insight you need to understand the above is that Γ ⊦ A = B is only ever deduced if Γ ⊦ A : B.type, or if A is a type alias to B (see the vObj paper at ECOOP 2003 from the Odersky group, especially rule SINGLE-=). That's because the typechecker doesn't even inline a = b to respect the phase distinction (and because type inference is too dumb in this context). I imagine that might be similar to singleton kinds one level down, but I've not studied singleton kinds fully yet.
Sep
11
comment Encoding Standard ML modules in OO
@AndreasRossberg: it's exactly the problem I mentioned — it's not your fault for losing against the typechecker. The fixed def. of f is: def f(x : T) = new U { val a: x.type = x; val b = x.v }. I changed val a = x (which is inferred to val a: T = x) to val a: x.type = x. With the former, the mismatch happens because x.v has type x.V which is not a.V. The error is shown better when writing def f(x : T) = new U { val a = x; val b: a.V = x.v }.
Sep
10
comment Encoding Standard ML modules in OO
I'm curious on point 4: what's stronger about translucent type information from ML? Do you have an example? Path-dependent types feel weaker than they are because of choices in inference — e.g., with enough type annotations you get sharing constraints, but you fight against type inference and bad error messages (twitter.com/Blaisorblade/status/473995303100502017, github.com/inc-lc/ilc-scala/commit/…), which is indeed very annoying.
Sep
10
comment Encoding Standard ML modules in OO
@AndreasRossberg: it works better if you avoid structural refinements — which indeed reinforces your first point. Here's the result (tested with Scala 2.11): gist.github.com/Blaisorblade/19ef1abb28e20995e187
Sep
5
awarded  Announcer
Sep
3
comment Is there a performance difference between i++ and ++i in C++?
@MattMcNabb: weren't 8 characters filename a MS-DOS exclusive? C was invented with Unix. Anyway, even if strncpy had a point, the lack of strlcpy wasn't fully justified: even original C had arrays which you shouldn't overflow, which needed strlcpy; at most, they were only missing attackers intent on exploiting the bugs. But one can't say that forecasting this problem was trivial, so if I rewrote my post I wouldn't use the same tone.
Sep
1
comment How to wrk with Scala and Jcurses?
@pommfritz: ah sorry, I had forgot that's a privilege!
Aug
30
comment How to wrk with Scala and Jcurses?
@pommfritz: if you like the answer, could you please also upvote it? Thanks.
Aug
25
comment Step by Step / Deep explain: The Power of (Co)Yoneda (preferably in scala) through Coroutines
@Mzk: Indeed, Codensity and Yoneda are (different) right Kan extensions. For instance, type Yoneda = Ran Identity (comonad.com/reader/2008/kan-extensions). And Codensity f = Ran f f (hackage.haskell.org/package/kan-extensions-4.0.3/docs/…). It's easy to see the equality of types, but it's comforting to see somebody competent (Edward Kmett) confirm it's not an accident. But I'm not competent enough to talk about Kan extensions either: You better study Kmett's posts and/or ask new questions.
Aug
24
reviewed Approve suggested edit on Very deep recursion fails in C
Aug
24
reviewed Approve suggested edit on How to call jquery function on button click?
Aug
24
reviewed Reject suggested edit on ListBox ItemContainerStyle and ItemTemplate interaction
Aug
24
reviewed Approve suggested edit on How to install ia32-libs in ubuntu 14.04 LTS
Aug
24
comment Is it a good design if making a lot of function aliases and combine them anywhere?
Moreover, the UserFetcher above is just a more verbose way to write a function type — except that since it's a case class, it also exposes httpClient as a public member. In either case, if all uses of a type are local to some context, you can move the definitions inside that context: both classes and type aliases can be defined everywhere (a bit like with Java inner classes).
Aug
24
comment Is it a good design if making a lot of function aliases and combine them anywhere?
@Freewind: but your UserFetcher is a public member of the package, just like type FetchUser. Maybe the syntax is suggesting you otherwise, but that would be a misunderstanding. def fetch is a public method, so it's still "exposed", that is, not encapsulated. Maybe you mean that fetch does not pollute the package namespace, while FetchUser does, but that compares to UserFetcher.
Aug
24
comment text/html return from REST Service
@user1445322, please feel free to say "thank you" by upvoting/accepting my answer :-)
Aug
24
reviewed Close cannot find symbol error BufferedOutputStream(file.newOutputStream(CREATE))
Aug
24
reviewed Close convert a simple maven project to a webapp