Lounge<C++>

DeadMG

12:01 AM

damn, I'm a genius

Error: Encountered unexpected token after [identifier], expected '{'. Found "{"

R. Martinho Fernandes

Hmmm.

Xaade

0

Q: Underlying meaning of bizzare tag

What is the meaning of always-waffle-in-iceland. Is there some joke meaning. Like this is the lame joke tag? Otherwise, should I report the tags as nonconstructive???

DeadMG

lolwot

R. Martinho Fernandes

It's one of the meta memes.

> Trivial answer converted to comment

WTF?

Alf P. Steinbach

@DeadMG ouch

DeadMG

12:15 AM

agreed

Alf P. Steinbach

i just +1'd your comment

Kian Mayne

Well my brain isn't working good enough to do start debugging and following some silly flow

So it's time for sleep

Night night guys

DeadMG

nn

argh, dumbass parser can't parse more than one namespace :(

R. Martinho Fernandes

NAMESPACES := NAMESPACE*?

DeadMG

I didn't generate it, I've written it by hand

R. Martinho Fernandes

12:18 AM

Well, do the equivalent?

DeadMG

I am

for some reason, it seems to be just not noticing the other namespace

it's probably annoyed with me because I called the second namespace "your_mother"

R. Martinho Fernandes

lol

please namespace your_mother {}

DeadMG

ok

it seems to have parsed them as nested namespaces when they aren't

probably because I forgot to tell it to stop at the appropriate time

ok

now it figured out that they're not nested, so it seems to be ignoring the second namespace

this is really kind of tedious

R. Martinho Fernandes

Why do you think there are generators?

DeadMG

find me one that doesn't suck and I'll use it

R. Martinho Fernandes

12:29 AM

YACC sucks, and the ANTLR C++ runtime sucks. I don't know another for C++ :(

DeadMG

yeah- bison sucks too

R. Martinho Fernandes

bison is like advanced yacc or something.

DeadMG

yeah, it's based on yacc

I nearly had a finished parser based on bison

but I had to stop because my function definition grammar, which was totally LALR(1), would be way too much to implement that way

just because bison is too stupid to know the difference between type_expression identifier(stuff) and type_expression identifier(some_kinda_similar_stuff)

unless I hold it's hand, anyway

R. Martinho Fernandes

I never really understood how you could possibly use yacc's error handling for decent errors.

DeadMG

me neither

but my parser most definitely propagates the necessary information, so it's all good

awoodland

12:36 AM

@DeadMG - how easy is it to write a frontend for clang?

that might be quite a nice way of doing it

DeadMG

there's a reason EDG sell their C++ frontend for tens or hundreds of thousands of dollars

R. Martinho Fernandes

I thought you were trying to stay away from the pitfalls of the C++ grammar.

DeadMG

that was the other thing I was about to bring up

that I am absolutely not going to do anything as dumb as C++

my grammar was LALR(1)

R. Martinho Fernandes

"was"?

Are you saying it isn't anymore?

DeadMG

still is

it's just not fun to use a parser generator to parse it because they're not exactly set up for complex LALR(1) grammars

DRY violations up the wazoo

I nearly wrote a program to generate the grammar, lol

R. Martinho Fernandes

12:40 AM

That's why I like Haskell for this kind of thing. I can write stuff that looks like EBNF and reuse things.

DeadMG

eh

my custom parser will be significantly faster, most likely

R. Martinho Fernandes

When it works.

:P

DeadMG

lol

yeah

right now, it can parse namespaces and nested namespaces at an Incredible Pace!™

R. Martinho Fernandes

You mean this? namespaceDef = namespace *> identifier *> (between lcurly rcurly (many namespaceDef)) :P

DeadMG

lol

something like that

I could have something like that if I wanted to use Spirit, you know

R. Martinho Fernandes

12:45 AM

Why didn't you use Spirit?

DeadMG

I had a shitbunch of problems with LL grammars in ANTLR

R. Martinho Fernandes

Never saw it, but I expect it's chock full of weird uses of operator overloads.

DeadMG

I found LALR much easier to write in

my experience of LL grammars was that my natural inclinations of how to write it simply didn't match up with how the generator wanted it expressed

R. Martinho Fernandes

Parsing of expressions is weird, I guess?

DeadMG

yeah

my idea of what expressions should look like is like

expr := expr * expr | expr - expr | identifier | literal;

but that's not what the parser wants to see for expressions

R. Martinho Fernandes

12:50 AM

I assume you're ignoring precedence on purpose.

DeadMG

yeah

also, I expect that LL would suffer on my function definition grammar just like LALR did

R. Martinho Fernandes

With Parsec they look like expr = lowerPrecExpr `chainl` op. Reuse is awesome.

There's chainr for right-associativity too.

DeadMG

that's pretty convenient

but again, that stuff was all solved, it was function definitions I had trouble with

plus, somehow I feel more secure with actual, readable code

R. Martinho Fernandes

I don't understand the problem in function definitions (but then I don't know how far from C you strayed on that.)

DeadMG

instead of that absolute mess of LALR code

ah

I didn't go very far- that was the problem

type_expression identifier( [type_expression] identifier [ (:= default)]* )

the problem is, guess what variable definitions look like?

with explicit arguments to their constructor

R. Martinho Fernandes

12:56 AM

Oh, MVP?

DeadMG

type_expression identifier( identifier [:= default] )

not exactly

I don't have declarations, unless they're virtual, which is fine

the problem is that you can only disambiguate at the end, when you find either ; or {

or, if you find type_expression in the argument list

R. Martinho Fernandes

Yeah, that doesn't fly well with an LL grammar.

DeadMG

yeah

it's LALR(1) because you can do stuff like

ambiguous_argument := common_stuff;
function_def_argument = ambiguous_argument | uncommon_stuff;
function_def_or_variable_def := ... ambiguous_argument* function_def_argument*

that is, you can get it to tell them apart, the problem is that you basically have to duplicate huge parts of the grammar

or my solution will probably be to just look ahead infinitely at that point

it would be much simpler

Alf P. Steinbach

looked weird to me

	/* Figure out how many bytes the result will require */
	if (ch < (UTF32)0x80) {	     bytesToWrite = 1;
	} else if (ch < (UTF32)0x800) {     bytesToWrite = 2;
	} else if (ch < (UTF32)0x10000) {   bytesToWrite = 3;
	} else if (ch < (UTF32)0x110000) {  bytesToWrite = 4;
	} else {			    bytesToWrite = 3;
					    ch = UNI_REPLACEMENT_CHAR;
	}

R. Martinho Fernandes

What's that? UTF8 decoding or something?

DeadMG

1:03 AM

yeah

and it's not right, because those literals are wrong

I'm pretty sure, anyway

no wait, I think I might be confused with UTF8 -> UTF32

R. Martinho Fernandes

I think they're right.

DeadMG

man

a language which offers as much power as mine needs a seriously flexible grammar

R. Martinho Fernandes

lol

What does that mean, btw?

DeadMG

it means

where the C grammar requires hardcoded things, like

type identifier ... for a function

and mine permits expressions, like expression identifier ...

then it introduces a lot more potential for ambiguity

R. Martinho Fernandes

Introduce disambiguators!

typename and template!

DeadMG

1:07 AM

put simply

no

R. Martinho Fernandes

Yeah, I was joking.

DeadMG

^^

I could have had function and var keywords, and at one point, I did

but I ditched them because, well, I think that they should be unnecessary

R. Martinho Fernandes

What do you use to declare variables with inferred types?

auto?

DeadMG

identifier := expression

auto is implied

R. Martinho Fernandes

And assignment is not :=?

DeadMG

1:09 AM

nope

it's = just like in C++

:= is used only for initializing, and other special stuff like default arguments, etc

R. Martinho Fernandes

That's what Go does.

DeadMG

really?

how strange

R. Martinho Fernandes

Yes. x := 4 declares a variable.

DeadMG

win

R. Martinho Fernandes

But you can also do x int = 4.

Alf P. Steinbach

1:10 AM

could somebody check whether recent version of g++ has C++11 header <codecvt>? e.g. just compile #include <codecvt>

4.4.1 does not :-(

R. Martinho Fernandes

Gimme a sec, I have 4.7.

DeadMG

in WideC you can also choose to do int x := 4;

after all, as far as I know, you might want to do GetDatabase("mah_database").GetTable("mah_table").GetTypeOfColumn("mah_column") x = 4;

R. Martinho Fernandes

a.cpp:1:19: fatal error: codecvt: No such file or directory
compilation terminated.

:(

Alf P. Steinbach

ouch. then i must implement the conversion, just to support g++

i found implementations from Unicode consortium at gears.googlecode.com/svn/trunk/third_party/convert_utf

R. Martinho Fernandes

Neat.

@DeadMG That seems really cool. Usual solutions involve lots of generated code, or manual placement of attributes on languages that let you inspect those at runtime (like C#, and I think Java too).

DeadMG

1:17 AM

it is really cool

unfortunately, it also makes the language, eh, difficult to parse :P

R. Martinho Fernandes

type the_type_of_the_thing = GetDatabase("mah_database").GetTable("mah_table").GetTypeOfColumn("mah_column");
the_type_of_the_thing x = 4;

Though I'd write it like this.

DeadMG

if you want the type back, you can always just decltype it

R. Martinho Fernandes

Or whatever type aliasing syntax you have.

DeadMG

it's pretty much that

except I changed type to TypeReference

but hey

R. Martinho Fernandes

TypeReference type = decltype(type);

:P

DeadMG

1:19 AM

heh

R. Martinho Fernandes

(Is that valid?)

DeadMG

yes

R. Martinho Fernandes

type is in scope in its initialization?

DeadMG

yes

R. Martinho Fernandes

So you can write a recursive lambda like fact := λn. n * fact(n-1);? (adjust your lambda syntax) Neat.

Btw, that lambda syntax would be cool :)

DeadMG

1:21 AM

C++ only doesn't allow that because the type has to be deduced

R. Martinho Fernandes

But that's not C++!

DeadMG

C++ only doesn't allow recursive lambdas

it's forever been known that you can do shit like int x = x; if you want to

it's the same rule as being allowed to use this in the initializer list

R. Martinho Fernandes

Ouch, I didn't know that. (Not that I gain much by knowing it)

DeadMG

but in WideC, if you equate it to a literal lambda, then the type of fact can be FunctionReference

regardless of the signature of the lambda

so you don't have to know what the lambda body is to know the type of fact

R. Martinho Fernandes

Are lambdas monomorphic (i.e. lousy) like C++?

DeadMG

1:24 AM

nope

I'm still working on the details, exactly, of how variadic templates are going to work

but regular inference is just fine

in fact, I can use my language rules to do some much sexier type inference than you can find in C++

or indeed, any kind of inference

R. Martinho Fernandes

Type inference on pretty much every language I used besides Haskell has always been nil, or desperately asking for more.

DeadMG

if you had massive balls, you could do something like

float f; 4 = sqrt(f);

R. Martinho Fernandes

What does that do?

DeadMG

deduces f

very Prolog, in a way

R. Martinho Fernandes

Ow.

Could write something weird like the Haskell fixed-point finder? fix f = let x = f x in x? (Given f, it finds x such that x = f(x))

DeadMG

1:28 AM

for any f? that's impossible

what if f is std::vector? There is no type T such that T = std::vector<T>

R. Martinho Fernandes

It's possible for all functions that take a function as argument.

f is supposed to be a function.

DeadMG

std::vector is a function.

R. Martinho Fernandes

Ah ok.

DeadMG

even in C++, it's effectively a function

just written in a funny way

in WideC it's written more naturally

R. Martinho Fernandes

Anyway, it only works reliably with functions that take function arguments.

DeadMG

1:30 AM

type vector(type t) { return type { ... }; }

I still don't even see why you'd want to know

but I don't think I'd have anything like that

R. Martinho Fernandes

Because it's cool!

(In Haskell, it's defined exactly like I posted)

It's used to encapsulate recursion.

You can build pretty much every recursive construct on top of it.

DeadMG

as if I have a problem building recursive functions in C++?

R. Martinho Fernandes

The point is to encapsulate the recursion pattern, so that it can be reused.

DeadMG

well, it can't be reused

something like factorial is direct tail recursion, something like BST is binary recursion, and something like iteration would be infinite, potentially, recursion

I also don't see how it would help

recursion isn't really something that I ever labelled as "re-usable", that's like trying to make having integers re-usable

it's a basic language feature and doesn't require special help to be useful or usable

R. Martinho Fernandes

For example, you can write a memoize function that does memoization given a recursive function.

DeadMG

1:36 AM

anyway, I doubt that I'd have anything like that

no, you can't

what if the recursive function takes an argument that is not hashable or comparable?

how are you going to associate the argument with the result?

unless you want to do linear search, I guess

and do I need concurrency-safe memoization or not?

R. Martinho Fernandes

You can write a concurrent_memoize function for that.

DeadMG

and how does fix even tie in to that?

plus, I don't need fix to write a function that can memoize other recursive functions

if they're known at compile-time

R. Martinho Fernandes

I'm not saying you need it. fix encapsulates the most basic form of recursion.

DeadMG

but how?

how does fix allow you to do ... well, anything, at all?

R. Martinho Fernandes

1:53 AM

Here's a silly example: ideone.com/jbH7H.

DeadMG

I can't read Haskell, remember?

R. Martinho Fernandes

I know you can do the same in JavaScript, but I don't know enough JavaScript :(

DeadMG

nor do I

what does it do, and how?

R. Martinho Fernandes

The fib function is the normal Fibonacci thing, because it uses "basic recursion" (the fix thing, which is better called rec). The fib2 if Fibonacci with the result of every recursive invocation doubled (I think, it's getting late), because it uses the "weird recursion".

If you replace the doubling part with something that actually memoizes, you get something actually useful.

DeadMG

right

I'm not really seeing how fix is used in all of this

R. Martinho Fernandes

2:03 AM

Sorry, fix is rec in the example.

DeadMG

yeah, same principle

seems to me like the example could be exactly re-written like

int fact(int target, std::function<void(int)> f = fact) { if (target == 1) return 1; else return target * f(target - 1); }
fact(5); // normal case
fact(5, [](int target) { return fact(target) * 2; }); // weird case

R. Martinho Fernandes

Of course. I'm not saying it's the only way to do that (or the best).

34 mins ago, by R. Martinho Fernandes

Because it's cool!

DeadMG

yeah

but how on earth does a fixed-point come into this?

seems to me like I just re-wrote the exact same thing without requiring one at all

R. Martinho Fernandes

I could ask you to write it in a way that memoizes, but that would not be fair because I didn't want to do it either.

But [](int target) {if(cache.has(target) return target; else return cache.put(target, fact(target)); } does not work very well, because it doesn't use memoized intermediate results.

For that you need to pass the lambda to itself.

(Can you use this in a C++ lambda to refer to itself?)

Luc Danton

@RMartinhoFernandes No. Either it refers to the enclosing this if in a member, or it's an error. So no recursive lambdas.

DeadMG

2:15 AM

@RMartinhoFernandes What do you mean, doesn't use memoized intermediate results?

I don't see how that lambda is not exactly memoizing, except for the error you made if target was already in cache

R. Martinho Fernandes

@DeadMG If it doesn't find a result it calls fact(target), not fact(target, memoizing_lambda).

DeadMG

ok

you can still do that without much hassle

std::function<void(int)> memoizing_lambda;
memoizing_lambda = ...;

in which case, you most certainly can call memoizing_lambda inside the body of the lambda assigned to memoizing_lambda

R. Martinho Fernandes

Another difference is that you can't store [](int target) { return fact(target) * 2; } and reuse it for a weird Fibonacci generator. It only works for that one fact. weirdRec is not tied to any particular function, it's just the recursion pattern.

DeadMG

that can be solved too, if you really want to, simply by creating another lambda (...) and passing in the function to be called

R. Martinho Fernandes

That gets you close to fix.

DeadMG

2:20 AM

no, it doesn't get you anywhere near

there is absolutely no need for fixed-points

R. Martinho Fernandes

@DeadMG The fixed-point of that lambda is the original function without memoization.

DeadMG

uh, no

you said a fixed point was a value x such that f(x) = x

R. Martinho Fernandes

Can you write the lambda?

DeadMG

none of these functions have any such points

which lambda?

R. Martinho Fernandes

3 mins ago, by DeadMG

that can be solved too, if you really want to, simply by creating another lambda (...) and passing in the function to be called

This one.

DeadMG

2:23 AM

probably

give me a minute

just a quick note

I don't actually know if int fact(int target, std::function<void(int)> f = fact) is even remotely legal C++

but I'm pretty sure that can be arranged anyway

R. Martinho Fernandes

Probably not. I don't think the function name is in scope in the parameter list. But we can overlook that :)

DeadMG

well, you can produce the same effect, if you're desperate

but I'll skip the boiler-plate

hmm, I keep getting my shiz mixed up

you'd have to use a template, not a std::function

and function objects

else the signatures are infinitely recursive, I believe

R. Martinho Fernandes

Oh, cool, someone wrote fix in C++.

11

A: Fixed point combinators in C++

Here is the same code converted into boost::bind notice the y-combinator and it's application site in the main function. I hope this helps. #include <boost/function.hpp> #include <boost/bind.hpp> #include <iostream> // Y-combinator compatible factorial int fact(boost::function...

DeadMG

told you it could be done

Luc Danton

The type system of C/C++ does not allow you to write a prototype for a function that accepts a pointer/reference to that same function type, indeed.

So additional layer of indirection and all that.

R. Martinho Fernandes

2:35 AM

@DeadMG That fact in the answer is what you were trying to write?

DeadMG

no, I merely implied that it could be done

I'm trying to write something a tad more, uh, flexible

R. Martinho Fernandes

Right, but that y function is fix.

DeadMG

right, ok

R. Martinho Fernandes

Obviously it looks different in C++, because x = f x in C++ isn't magical.

DeadMG

well, I probably can't see it because he didn't use it to apply any effect

so the fact that I can't actually see how anyone would use it to write a doubler or a memoizer is, well, not surprising

R. Martinho Fernandes

2:38 AM

Anyway, it's not terribly useful (not even in Haskell, I don't remember having ever used fìx other than when toying with it).

Using λ for lambdas would be awesome, btw :)

DeadMG

my keyboard, and pretty much nobody's keyboard, has that character

R. Martinho Fernandes

You program with charmap open!

I think :abbr lambda λ would work in vim.

goes off to try it out

Yay!

DeadMG

lol

not going to happen

R. Martinho Fernandes

:(

DeadMG

damn

I'm close, but for some reason, I got a way too high answer

R. Martinho Fernandes

2:44 AM

What now?

DeadMG

the answer I should get is 240, but I get 3840

R. Martinho Fernandes

On what?

DeadMG

ideone.com/aUEtB

the second output is the right answer

no, wait, the first output is the right answer, I just did it on my calculator

5! * 2^5 = 3840

for some reason, doubled_fact is returning just 5! * 2

oh, whoops, my mistake

R. Martinho Fernandes

Yeah.

DeadMG

ideone.com/Ez6DG

R. Martinho Fernandes

2:48 AM

    return 2 * target * doubled_fact(target - 1);

DeadMG

the problem is, you really can't do this at all, because of the signatures and templates problem

R. Martinho Fernandes

That guy on the question I posted did with boost::bind.

DeadMG

well, actually, I guess you could, but it would be a tad of a mess

yeah, bind qualifies as a "tad of a mess"

besides, I'll believe that he did it when I see it doubling my fact

R. Martinho Fernandes

Lemme see if GCC 4.5 has std::bind.

DeadMG

I think it should have it in TR1

R. Martinho Fernandes

2:51 AM

ideone should install boost.

Ugh, I have no idea where to place the doubling part in that code.

DeadMG

I've nearly got it

slight mess, atm, but nearly got it

R. Martinho Fernandes

> prog.cpp:29:71: error: return-statement with a value, in function returning 'void'

I don't get this one.

There's no void anywhere in sight.

DeadMG

implied void in lambda?

R. Martinho Fernandes

Yes, making the return type explicit worked, but shouldn't it deduce it when there's only a return statement in the body?

(It could just be GCC going nuts because of other errors.)

Woo, compiles. Wrong result though: ideone.com/dVYZ6

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