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Nov
5
comment Handling mutually recursive GUI widgets with reactive-banana
Ah ok. Event and moment are sort of synonyms in my head, so it explains why I mixed them up and couldn't find the monadfix instance :)
Nov
4
comment Handling mutually recursive GUI widgets with reactive-banana
As for my second question: filterE et al. work in the wrong direction for scalability, I think. They pull from an event, and that seems cumbersome. Say, for example, we have a tree structure of gui widgets with a cursor for keyboard focus. We want to turn eDeviceInput events into events based on that cursor. With filterE, every recipient event stream would have to perform its own filter on the widget tree and also know where it is in the tree, making layout transformations and dynamic event switching cumbersome.
Nov
4
comment Handling mutually recursive GUI widgets with reactive-banana
What if you are in the Event monad? I was concerned because it does not have MonadFix for value recursion, so that this same recursion could not be expressed in the presence of dynamic event switching. Granted I am still not entirely comfortable with all the public examples.
Oct
13
comment How to get GHCi to load the opengl package under GHC 7.6.1 x86-64 Windows 7?
This is most likely not the issue because A) GHC can build executables against the package and B) the error for not finding a package is entirely different from finding the package and not being able to resolve a symbol.
Aug
8
comment How does ArrowLoop work? Also, mfix?
@C. A. McCann : So my intuition of fix breaks down for infinite codata. D'oh. >_< I guess I should be thinking of fix in terms of applying the function to 'undefined' repeatedly. In that case (0:(map (+1) undefined)) and then (0:1:(map (+2) undefined)), and so forth.
Aug
8
comment How does ArrowLoop work? Also, mfix?
Thanks for the in-depth explanation! Perhaps you could comment on my 'boxes being demanded' idea that I've added to the question?
Aug
8
comment How does ArrowLoop work? Also, mfix?
@C. A. McCann : Yeah, I understand fix, but when I look at a fix statement, I think of just expanding the statement until I hit the base case. It feels weird thinking about monadic values or arrow values that way.
Aug
8
comment How does ArrowLoop work? Also, mfix?
@augustss : You're right, however, I think I've formulated a generic picture that serves as a good heuristic to apply to whatever Arrow or Monad I'm working in is, and just filling in the details based on what definition of loop/mfix is. Can you give some feedback?
Jul
26
comment glTexImage2d doesn't do anything
I wasn't setting a filter mode for the texture! That was causing problems, apparently.
Jul
4
comment Bentley-Ottmann Algorithm in Haskell?
@MatrixFrog: I have posted some code if you're still interested.
Jun
28
comment Bentley-Ottmann Algorithm in Haskell?
@n.m.: I could use rational, I guess. But it would be slightly inconveniencing. I am using Float because that is how I represent vertices to be rendered by OpenGL. It would be convenient to use the same representation for rendering as for computation. I looked for papers, and I found this one. It looks promising. I'll continue to explore this avenue. I want to conclude this question when I have a working robust implementation, hopefully soon.
Jun
27
comment Bentley-Ottmann Algorithm in Haskell?
@n.m.: Ah I see. I am reading the paper now. Is there a way I can side-step the issue by using extra precision in the calculation? Like storing data as Floats and computing with Doubles? Oi, this stuff takes a lot of thought!
Jun
27
comment Bentley-Ottmann Algorithm in Haskell?
@n.m. : Tell me about it! I think it's the degenerate cases that are tripping me up here. As for precision issues: My intent is not to be precise, but to provide some comp. geometry for interactive real-time graphical programs like video games, so it's important to be fast and 'good enough' instead of exact. Are there any other segment intersection algorithms I should look at? I looked at space partitioning algorithms, but as far as I could tell, they weren't output sensitive like line sweeps.
Jun
27
comment Bentley-Ottmann Algorithm in Haskell?
I understand the ordering a bit more now. How do I deal with the special case of segments that are collinear with the sweep line?
Jun
22
comment How do you write data structures that are as efficient as possible in GHC?
So is the specialize pragma analogous to your optimizations for data structures, but done automatically and for functions?
Jun
21
comment How do you write data structures that are as efficient as possible in GHC?
hahaha. Maybe I should eat Dons, thus gaining his uncanny power to create Haskell code that competes with C.
Jun
21
comment Why doesn't Data.Sequence have `insert' or `insertBy', and how do I efficiently implement them?
@luqui, I have, but my ordering changes during the course of the algorithm I am implenting, Bentley-Ottmann for reference. Since the order relation changes, I can't use Data.Set. The ordering changes in a behaved way, though, so a binary search is the way to go.
Jun
20
comment Why doesn't Data.Sequence have `insert' or `insertBy', and how do I efficiently implement them?
I suppose that would be essentially as fast as the fastest method. I am going to mark this answer as correct, because I just realized I need more than Sequence, I need to enforce the invariant that the sequence is always ordered, so that I can do insertion in O(log n) time instead of O(n) time.
May
14
comment How hard is this in terms of computational complexity?
@ThomasMcLeod , thanks for the tip about @. I'm new here. I made a drawing because drawing trees in text is cumbersome: link As for the counter example: Consider the strings AB, AC, AD, BE, CF, DG, representing the edges of a graph on 7 vertices. The greedy algorithm does not work here.
May
14
comment How hard is this in terms of computational complexity?
I believe you. Your reduction makes sense, and I was able to construct a counter-example to the algorithm suggested in the question comments. I guess I was thinking of a compressed version of a Trie where nodes can have multiple incoming edges?