@CaptainGiraffe I don't know enough about other Pascal compilers for DOS/Windows to comment meaningfully on them. All the other Pascal implementations I used were on older computers. On a Z80, you didn't expect floating point to be fast or conform with any fancy-schmancy standards... :-)
@JerryCoffin I'm quite uncertain about the correctness of my memories from that time =) The compiler would have had to come from a Magazine, maybe BYTE.
@jaggedSpire I do eat my vegetables. Just, the only vegetables I own are avocados. Or do you mean vegetable matter in general? 'cause I'm definitely down with some spoiled grape juice now and then... :-)
My home country is to busy accepting refugee from hell know where than allowing family member of its citizens to come back home.
I heard they're going to welcome around 400 refugee/illegal immigrant per day during this summer. But honest citizen have to wait around 8 months for their application to be accepted.
Immigrant will get help and a basic income of around 500-600$ but I'll have to support all the possible fees to support my wife.
@sehe Sure, you can't escape that nearly ever lib is ooobsesed, but the code you write can be done in a functional way, if you want. But my main point was that you don't have to throw interfaces and impls and managers and facades and every other pattern at every problem
And I think that I might prefer the syntactic sugar of data.fn() over fn(data), especially when you want to chain a lot of such functions. data.fnA().fnB().fnC() is much easier to read and work with IMO than fnC(fnB(fn(A(data)))
@thecoshman that's like saying you can put a decent pair of pedals in your Fort sedan, and it'll be as healthy, or at least as much of exercise, as riding a mountain bike
Of course you can. But it doesn't remove the bias. Which is real. And significant.
It's like saying
@thecoshman You know. Boiling down the vices of Java into "it says data.fnA(), not fnA(data) is pretty redonkulous
@thecoshman Law of Demeter applies to any style of programming IMO. I find both versions of that bad
function are interface but you can add construct to call them. And it's consistent as using the dot operator could make it difficult to understand if you call a property or are actually composing anything
@thecoshman That it's not about intermediates. It's about coupling. Functions express functionality. If that functionality assumes/depends on the type of multiple layers of transformations before it can do what it needs (a(b(c(d(e(X))))) then it knows to much or tries to do too much.
@LoïcFaure-Lacroix precisely. If a function requires an "X", just pass it an "X", not something else that you have to "get and X from". That knowledge is unrelated.
@thecoshman That it's not about intermediates. It's about coupling. Functions express functionality. If that functionality assumes/depends on the type of multiple layers of transformations before it can do what it needs (a(b(c(d(e(X))))) then it knows to much or tries to do too much.
but either way, fnA() just takes an X it doesn't care how it get's there. Or are you more on about is fnA() a free function that can take many types, or just a member function of type X?
@sehe because I don't really get what you mean here
@thecoshman Precisely "takes an X it doesn't care how it get's there": so code like data.fnA().fnB().fnC() nor fnC(fnB(fn(A(data))) should really arise
I've written things like that where most methods are filtering an input to something else. There is no need to know intermediate results but you need the whole filter to be applied but at the same time you need to split your filter in multiple layers of transformation for debugging and writing modular code
Of course. I figure that there's always going to be 90% of the code expressing "pure" logic and 10% of the code cobbling it all together. It's the cobbling-together-parts that might use "deep" dependency traversal like this. That should not guide your choice programming paradigm, though.
I was saying that Java doesn't have to be used in a OOP obsessed way that people classically like to mock it for, and followed up by saying that I kinda like the syntactic sugar of 'oop style' function chaining, opposed to nesting function calls in each other.
I don't get why picking out one feature that I liked is considered boiling my entire argument down
And I think that this LoD doesn't apply to either of the examples I gave
in either case fnC() does not depend on how you write the code that invokes it
You would have to be making assumptions about how things are implemented to decide that it 'knows too much'
@thecoshman And all I said is that that requires disproportionate amounts of effort swimming against the stream and realistically only works in most recent Java anyways
@sehe perhaps. But I think you can fairly happily confine such issues to 'borders' of your code, where you are interacting with external libs, though yeah, there will be plenty of times you just can't do that easily enough.
@LoïcFaure-Lacroix maybe not return this. foo.fnA() returns something, on that something, you can call .fnB()
in a more function/immutable style, fnA() would not return 'this'
@thecoshman Truish. If all the functions have the codomain and domain, e.g.. That's a pretty weird special case to consider here (it would apply to samples like add(5, multiply(3, 4, subtract(1, 7)))` perhaps)
@LoïcFaure-Lacroix The latter. The former is "fluent style" (and is pretty ugly for me for other reasons, mainly being abused for cutesy-pantsy semi-DSL libraries that ... end up being hard to use :))
@thecoshman We were specifically discussing exactly (and only) the invocation
@sehe multiply doesn't care where that '3' comes from, it just wants a number. I could directly swap it with a say, something that asks for user input. multiply doesn't care, it jsut wants an int
Yeah it's fine to some extent. I'm more against those that try to compose using mutable objects. A bit like instead of calling func(a, b, c) you'd end up with compose(func).call(a).call(b).call(c)
@thecoshman Personally, my gripes with "fluent style" are that it glorifies mutability (in fact, it glorifies "n-step initialization", where I already hate 2-step initialization)
@thecoshman You can decide to find a spot where the wind takes you in the right direction :)
But they are clearly hiding the root problem, the thing you are trying to 'build' is badly designed. But sometimes you can't do much with that, like lib stuff
@thecoshman yup. Like I said, my gripe is with glorified n-step initialization. In fact node.addElement() can be fully transparent and return immutable nodes
Sure... but this isn't the place for such issues... there is a meta site where you could probably raise such concerns, maybe in one of the chat rooms over therer
@Mgetz I think I tried replicating the WPF button sample in a regular desktop app and was getting errors which when I looked them up pointed to needing to be in a UWP thing.
It was a few months ago I dont remember specifics.
@thecoshman It is a reactive solvent and this is a problem, inert substances are more than just electrically insulating, they are inert and non-reactive
@crasic The code names they used for a particularly poor series of designs were "piledriver", "steamroller" and "bulldozer". But yes, at least to me it seems probable that at some point, somebody also built some heavy construction equipment that included an AMD part.
@JerryCoffin naming technical designs after WWE moves is setting yourself up for failure .
In any case, the LHe is impressive just for managing the substance, most LHe setups use double Dewar with ln2 outside sleeve to limit evaporation, shits expensive yo
But I don't think it offers much of a benefit for cooling , since you don't want to cool much below zero...