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 Jul 31 comment What is the most efficient way to represent small values in a struct? I agree. Thank you! Jul 31 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? Nothing less than insightful. Thank you, and welcome to the community! Jul 30 comment What is the most efficient way to represent small values in a struct? @NirFriedman great resource, thank you. The information was actually there since the beginning, stark likely missed it, but it is OK. Jul 30 comment What is the most efficient way to represent small values in a struct? I'm not sure I follow the struct of arrays example. Do you mean storing the data for every Foo in a single struct? Wouldn't that lead to more cache misses since now "close" data (i.e., the `a` and `b` from the same Foo) is in distant places? Jul 30 comment What is the most efficient way to represent small values in a struct? (Answering your question, by time efficiency I mean "how long the computation takes after a user hits a Go button". The program is a blackbox, you click play and it keep shifting bits until it finds an answer.) Jul 30 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? @TomEllis and Chi, There is just a small remark, though. That all assumes that traditional recursive function is the "naive" fib implementation, but IMO there is an alternative way to express it that is much more natural. The normal form of that new representation has half of the size of the traditional one), and Optlam manages to compute that one linearly! So I'd argue that is the "naive" definition of fib as far as λ-calculus is concerned. I'd make a blog post but I'm not sure it is really worth it... Jul 30 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? @ReidBarton surely I tried it! Same results, though. Jul 30 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? @TomEllis ref above. Jul 30 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? @chi, fair enough - I've tested and fib stays exponential. I posted the tests as a gist. No wizardry this time. Jul 29 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? @chi, `exp.mod` is just `(a b c -> (nat.mod (nat.pow a b) c))`. `nat.pow` is just `(m n -> (n m))` and `nat.mod` is `(n m -> (tuple.rev_enum m (args.select_mod m n)))`. You can consult the dependencies of `nat.mod` on the Lambda Wiki, all is listed there. Jul 29 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? Hey, do you have suggestions of functions over natural numbers that are expensive to compute naively, but for which there is magical formula that does it quickly? Jul 29 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? Interesting. A follow-up question would be: does that mean that any church-number function that I throw at the evaluator will compute as fast as it possibly could, even if I don't specifically use those "shortcut formulas"? Jul 29 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? Okay, in case anyone is curious, I've set up a GitHub repository with the source code for my optimal evaluator. It has many comments and you can test it running `node test.js`. Let me know if you have any questions. Jul 29 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? I'm using Lamping's abstract algorithm, as explained on the The Optimal Implementation of Functional Programming Languages book. Notice I'm not using the "oracle" (no croissants/brackets) since that term is EAL-typeable. Also, instead of randomly reducing fans in parallel, I'm sequentially traversing the graph as to not reduce unreachable nodes, but I'm afraid this isn't on literature AFAIK... Jul 29 comment Why are λ-calculus optimal evaluators able to compute big modular exponentiations without formulas? Woops! Fair enough. Jul 28 comment `derivingUnbox` doesn't work for types with more than 6 Ints The problem (it seems) is that Haskell doesn't recognize the 7-tuple as Unbox (?), so it wouldn't really help how I organize the ints on the original type. Jul 25 comment Is it possible to collect all redundant fan-garbage nodes on Lamping's abstract algorithm? Okay. I've posted a question there, in case you're interested... although I find it unlikely I'll get an answer any soon. Jul 25 comment Is it possible to collect all redundant fan-garbage nodes on Lamping's abstract algorithm? But which of those? Jul 24 comment Is it usual for interaction nets to leave piles of redundant fans? (The obvious issue with this is that the readback procedure uses 99% of the runtime my application for long enough terms.) Jul 24 comment How do you implement “show” tail-recursively? Ah, okay! That fits it, thanks guys.