Lounge<C++>

Xeo

9:00 PM

Ugh. I'm so into templates, I just wanted to templatize my main function... I'm not yet sure on what, though.

3

DeadMG

I templated mine on renderer, once

later I decided it was smarter to just use run-time inheritance

is prefix operator++() or operator++(int)?

FredOverflow

@DeadMG Prefix is without the int.

StackedCrooked

@Xeo You don't know what agrc and argv will be at compile time :)

Xeo

@StackedCrooked I do: strings.

FredOverflow

@Xeo I'm pretty sure argc is not a string.

sbi

9:04 PM

@DeadMG Postfix is the odd case, since most unary operators are prefix. You need the odd syntax for the odd case.

Xeo

Though C++ should just introduce a new signature for main:

int main(std::vector<std::string>> const& args);

StackedCrooked

@Xeo yeah, but yeah

Xeo

optional of course, so it doesn't break code from 20 years ago...

StackedCrooked

should probably a const ref then

Xeo

@FredOverflow Nitpicking

sbi

9:06 PM

@Xeo Why wouldn't that be a const parameter?

FredOverflow

@Xeo Why a reference? And why two closing angle brackets?

DeadMG

especially with move semantics

Xeo

Nevermind this.

Martinho Fernandes

@Xeo Not unbalanced ones.

sbi

@Xeo Only to pair two opening ones, though.

Xeo

9:07 PM

And nevermind the second closing >. Like I said, I'm way into templates. Nesting < 2? Sure, keep dreaming.

StackedCrooked

@Xeo main with vector signature requires implicit include of the vector header then?

Martinho Fernandes

And <string> as well.

Xeo

No, they'd become built-in types, obviously. What a question!

FredOverflow

void awesome_main(std::vector<std::string> args)
{
}

int main(int argc, char** argv)
{
    awesome_main(std::vector<std::string>(argv, argv + argc));
}

StackedCrooked

@Xeo silly me!

@FredOverflow you don't need to rename main for overloading :)

FredOverflow

9:12 PM

Is it legal to overload main?

Xeo

no

StackedCrooked

Ah

Martinho Fernandes

And awesome_main is so much more awesome.

StackedCrooked

awesomain

Xeo

Just GCC bitching or is something wrong here?

DeadMG

9:13 PM

and, more importantly, you can use awesome_main on any platform

including Windows, which wants a WinMain entry point

Xeo

Just name it the_main

FredOverflow

> sorry, unimplemented

LOL

DeadMG

ok

I figure that, if N > W/2, then it's impossible for there not to be a 2-cardinality set that sums to W

Luc Danton

GCC is quite polite regarding missing features. I think it's trying to make up for the Internal Compiler Errors.

Xeo

@DeadMG Math.SE

DeadMG

9:16 PM

been there

Luc Danton

10

Q: GCC error with variadic templates: "Sorry, unimplemented: cannot expand 'Identifier...' into a fixed-length arugment list"

While doing variadic template programming in C++0x on GCC, once in a while I get an error that says "Sorry, unimplemented: cannot expand 'Identifier...' into a fixed-length arugment list." If I remove the "..." in the code then I get a different error: "error: parameter packs not expanded with...

FredOverflow

Apart from the most basic examples, variadic templates still baffle me.

All those dot dot dots...

Luc Danton

Well, the way I see it, template argument deduction + overloading works a lot like pattern matching. So I tend to use variadic templates the way I do recursion on e.g. lists.

Xeo

@FredOverflow Better yet, doubly dot-dot-dotted!

FredOverflow

@LucDanton Yes, variadic templates are like pattern matching -- with an ugly syntax :)

Luc Danton

9:25 PM

There's no denying it

Xeo

Partial specialization is pattern matching.

FredOverflow

(Is there any C++ syntax that isn't ugly?)

Xeo

int i = 0; // ?

FredOverflow

I'd prefer int i := 0 :)

Xeo

HERESY!

Martinho Fernandes

9:27 PM

@FredOverflow +1 for assignment != equals sign.

Xeo

@MartinhoFernandes :=!==

Also, I write math like that. Actually, people wrote math like that for hundreds if not thousands of years. I want it to be like that, no some weird colon

Martinho Fernandes

@Xeo What you write math like this? x == y?

FredOverflow

Okay, but if math is your role model, then you should ban assignment.

@MartinhoFernandes No he meant x = 0.

Xeo

@FredOverflow True enough

Martinho Fernandes

@FredOverflow But in math that's not assignment. That's equality. It can be true or false.

Xeo

9:30 PM

Though, in math, equality and assignment happen at the same time sometimes

cHao

and of course, x = x + 1 could never be true in math.

Martinho Fernandes

In math variables are constants.

DeadMG

I'd prefer to think of it as snapshots

like the result of querying a database

FredOverflow

@MartinhoFernandes You can bind variables to values in math, but you cannot re-bind them. = means both "initialization" and "comparison" in maths: "Let x = 0 ... bla bla bla ... if x = 0 then ... bla bla bla".

Martinho Fernandes

You can claim that's just short for "let x=0 be true" :)

FredOverflow

9:32 PM

If C++ did not treat assignment as an expression, and if comparisons could not be expression statements, then we would not need the distinction between = and == in C++.

DeadMG

except I really like both those features

and how would you overload comparison and assignment separately?

Martinho Fernandes

@DeadMG Add an extra dummy parameter!

Like pre-/postfix.

FredOverflow

The only useful case of assignment as an expression I can come up with is while (!(line = readLine()).isEmpty()) ... :-)

DeadMG

in my opinion, that should totally have been operator++() and ++operator()

@FredO: I often find something like if(Derived* ptr = dynamic_cast<Derived*>(baseptr))

FredOverflow

@DeadMG By return type. Comparison returns bool, assigment returns void.

DeadMG

9:35 PM

but now we can't chain assignments

Xeo

@FredOverflow or const this_type

FredOverflow

@DeadMG T x = yis not an assignment :-) It's initialization.

DeadMG

and what if we're using expression templates?

FredOverflow

@DeadMG I don't want to chain assignments! If you really want to keep that feature, you can return T&, of course.

Xeo

And what if the type is convertible to bool with assignment operator returning a form of this_type?

DeadMG

9:36 PM

yeah

FredOverflow

@Xeo We're redesigning C++ here, right? So I would ban all but the most basic implicit conversions.

DeadMG

= and == is just fine as it is

FredOverflow

needless complexity that we all got used to

DeadMG

but I absolutely definitely like things like return x == y, where comparison is an expression

FredOverflow

Comparison as an expression is absolutely fine, what I don't like is assignment as an expression.

Like function(a = b) and stuff.

DeadMG

9:38 PM

yeah, but you stated earlier that you would only not need = and == to be different if you cannot have assignment and comparison expressions

FredOverflow

And if (a = b) of course :) Did we really mean assignment? Or did we mean comparison, but made an error?

@DeadMG Right. Ban assignment expressions and keep comparison expressions.

Now we don't have both, only one.

Martinho Fernandes

VB works like @Fred is suggesting. Always =, no ambiguities, because there are no assignment expressions.

FredOverflow

a = b;           // this is assignment
if (a = b) ...   // this is comparison

^ That's how I would imagine it.

@MartinhoFernandes Visual Basic beats C++? Who would have thought :)

James McNellis

While we are at it, let's remove subtraction. It is unnecessary and just confuses people. Also, >, <=, >=, and !=.

FredOverflow

So I take it you disagree with me? :)

I would also get rid of the ++ operator and provide the following template in the standard library:

template <typename T>
void increment(T& x)
{
    x = x + 1;
}

User-defined types can then specialize the template in case incrementing could be done more efficiently.

Luc Danton

9:50 PM

for(int i = 0; i != N; increment(i)); ?

FredOverflow

Oh, I would get rid of the ancient for loop syntax as well, of course:

foreach i in 0 until N

DeadMG

I'd much rather keep the current syntax

FredOverflow

(or something to that extent.)

DeadMG

what are you gonna do with iterators?

Luc Danton

for(std::string line; std::getline(stream, line);); ?

DeadMG

9:52 PM

that kind of simplification only works for basic numerical loops, once you go over that, then it doesn't really reduce

FredOverflow

My language won't have iterators in user-code, they are ugly.

I mean std::sort(foo.begin(), foo.end()); really? I want to be able to say sort(foo) or foo.sort().

DeadMG

tis true that iterators are not the most suited to their uses

Johannes Schaub - litb

in my language, there would not be such syntax as a.b

only one function call syntax: b a

FredOverflow

Your language already exists, it is called Haskell ;-)

Luc Danton

@FredOverflow What would transform (or map?) look like?

FredOverflow

9:55 PM

Dunno... map(function, list) I guess?

But I'm not really designing a language, this was just some rambling on some ugly 70s syntax in C++.

Johannes Schaub - litb

one wouldn't be able to overload a++ and ++a separately

++ { code ... } would define the ++ operator

FredOverflow

@JohannesSchaublitb a++ would implicitly be defined for all types in terms of ++a?

Johannes Schaub - litb

a++ would copy initialize a temporary from a and be the result of the expression a++, before calling the operator function

@FredOverflow righty!

Luc Danton

@FredOverflow But does that mean I get the results in the same kind of container as what went in? Or is it in place?

FredOverflow

@LucDanton Good question! My gut tends to leaving the original data intact.

DeadMG

9:59 PM

alright

Luc Danton

What if I want the results in a different kind of container then?

DeadMG

what if I just recursed on the original problem? cause I could throw away a lot of N in that case, each time

FredOverflow

@LucDanton A different kind of container than the input? Why would you want that, do you have a good use case for that?

DeadMG

@FredO: In C++, you can write lazily-evaluated functions that will return whatever container you try to take from them

FredOverflow

Okay but what would a typical use-case for that be?

DeadMG

10:01 PM

well, for a start, you could unroll a pair<K, V> into a map

Johannes Schaub - litb

expression templates would be first class

DeadMG

or a vector<int> into a set

well, you can already do that, but you can also do a function at the same time

Johannes Schaub - litb

so you could have a type specially designed for expression templates

DeadMG

@Johannes: I've been thinking about that too

Luc Danton

@FredOverflow There are the usual (and contrived) examples of the style std::copy(begin, end, std::ostream_iterator<T>(stream)), that you can adapt to std::transform(begin, end, std::ostream_iterator<T>(stream), functor)

Johannes Schaub - litb

10:02 PM

any expression could be transformed into a tree, and passed to functions

like D's by-name parameters

FredOverflow

I guess I would have to think about that some more, don't have a perfect answer now :)

DeadMG

named parameters, absolutely

FredOverflow

Scala also has call-by-name.

DeadMG

in both templates and regular functions

Johannes Schaub - litb

by-name parameters i mean

FredOverflow

10:03 PM

@DeadMG Call-by-name and named-parameters are completely different things.

DeadMG

what's call-by-name then?

FredOverflow

Call-by-name essentially means passing the argument expression (instead of evaluating it and pass the result).

DeadMG

what's that got to do with names, in any way at all ever?

nothing

ah

10:04 PM

In computer science, an evaluation strategy is a set of (usually deterministic) rules for evaluating expressions in a programming language. Emphasis is typically placed on functions or operators: an evaluation strategy defines when and in what order the arguments to a function are evaluated, when they are substituted into the function, and what form that substitution takes. The lambda calculus, a formal system for the study of functions, has often been used to model evaluation strategies, where they are usually called reduction strategies. Evaluation strategies divide into two basic group...

Johannes Schaub - litb

it means that you pass the name, not the result of the name's evaluation

FredOverflow

> In call-by-name evaluation, the arguments to a function are not evaluated before the function is called — rather, they are substituted directly into the function body (using capture-avoiding substitution) and then left to be evaluated whenever they appear in the function. If an argument is not used in the function body, the argument is never evaluated; if it is used several times, it is re-evaluated each time it appears.

@JohannesSchaublitb But expressions are not names, in general.

Johannes Schaub - litb

well, i suspect expression-templates passing would be some mix of by-reference and by-name parameters

FredOverflow

Or would you say that x+y is a name?

Johannes Schaub - litb

you would need to evaluate the leaf nodes of by-name parameters. but not any further

by-expression sounds ugly :)

well, by-two-names

FredOverflow

10:06 PM

@JohannesSchaublitb Would you really need to? Can't you just pass the expression along with a closure?

DeadMG

I was just about to say

you could do that in C++ already

function([&]() {
    return ...;
});

Johannes Schaub - litb

@FredOverflow i mean, if you do process(a+b) and a and b are locals of the caller, a complete call-by-name would not capture the "a" and "b" of the caller.

so we need to at least evaluate the a and b. but not any further

passing the whole local scope of the caller seems overkill to me

but afaics it would work too

FredOverflow

@JohannesSchaublitb But my gut tells me that this is exactly what happens in most call-by-name languages :) I might be wrong, of course.

Johannes Schaub - litb

i thought call-by-name means not binding names in the caller

void g(name n) { int a = 1; cout << n; } void f() { int a = 0; g(a); } Does this not yield 1 ?

FredOverflow

Hm, so you mean f(x+y) could mean something strange if f has a local variable called x? :)

Johannes Schaub - litb

10:09 PM

i mean, otherwise would it not be call-by-reference?

FredOverflow

The difference to call by reference is that with call-by-name, n will be re-evaluated each time in the callee. That's what enables "user-defined control structures".

Johannes Schaub - litb

yeah. if it is reevaluated it would indeed yield 1

i mean, n is evaluated, which would necessitate "re" evaluating a (because that's what n denotes), which would then make it an lvalue for the a in g

FredOverflow

Hm... I would really like to implement this in a toy language to see how it works.

Johannes Schaub - litb

hm, but perhaps call-by-name impls do evaluate the leaf nodes?

FredOverflow

Completely possible

Johannes Schaub - litb

10:13 PM

so that a is actually passed as an evaluated reference.

but if you pass a + b + c, the addition is not done. but all three variables are "set in stone" in that expression

FredOverflow

Of course I would also remove references, they just add too much complexity ;-)

just kidding

Johannes Schaub - litb

this would still be different to both call by value and call by reference of course

so it would be a nice way of first-classing expression templates

FredOverflow

How does the caller know what passing strategy is used? Does he explicitly say he wants call by name?

Like how in C# you have to say ref for call by reference (at call site)?

Johannes Schaub - litb

i like languages that require a '$' when reading a variable's value, and forbid '$' when requiring an lvalue.

FredOverflow

Oh wait, the answer to our question was always before our eyes:

> In call-by-name evaluation, the arguments to a function are not evaluated before the function is called — rather, they are substituted directly into the function body (using capture-avoiding substitution)

Lambda calculus

In mathematical logic and computer science, lambda calculus, also written as λ-calculus, is a formal system for function definition, function application and recursion. The portion of lambda calculus relevant to computation is now called the untyped lambda calculus. In both typed and untyped versions, ideas from lambda calculus have found application in the fields of logic, recursion theory (computability), and linguistics, and have played an important role in the development of the theory of programming languages (with untyped lambda calculus being the original inspiration for functional ...

Johannes Schaub - litb

10:17 PM

so a '$' would pass by value, without '$' would pass by reference. i could imagine that 'a + b' would be pass-by-name, and '$a + $b' in my language would be pass by value

'$a + b' could be mixed-pass :)

FredOverflow

Would a be passed by reference or by name?

Or would it make no difference?

Johannes Schaub - litb

that is, when the callee evaluates its parameter, 'b' is read from, and is added to a constant, which was computed from '$a' when passing the argument

FredOverflow

But then you would implicitly read from b without explicitly saying so with a $...

Johannes Schaub - litb

sub-expressions where all nodes have a '$' would be computed completely and when passed as the sole constitute of an argument, would use pass-by-value

@FredOverflow the '$' would be needed in the callee :)

in the caller, the '$' is absent to denote "delay the reading, until the callee needs it"

FredOverflow

I see.

My gut tells me that all these dollar signs could get in the way of readability. Do you have a non-trivial example program written in your language?

Johannes Schaub - litb

10:25 PM

it was just a silly thought. I haven't specified this language yet xD

but it seems like it could be fun to try and do it

Xeo

@FredOverflow Ever seen PHP?

FredOverflow

@Xeo only from a distance

Xeo

Then you should have atleast seen the ocean of '$'

FredOverflow

Oh wait, Haskell also has the dollar. a $ b c means a (b c), IIRC.

@Xeo So what does the $ sign signify in PHP?

Xeo

@FredOverflow Needs to be before a variable name. I think there are other symbols for arrays and functions, but I wouldn't know. :)

Johannes Schaub - litb

10:33 PM

i think i would allow it before a function, but it would be equivalent to omitting it

FredOverflow

By the way, why does C++ have references to functions? :-)

Xeo

@FredOverflow Because it has references to types in general, it would be mean to exclude functions

Johannes Schaub - litb

9

Q: Function References

So I was just working with function pointers and I remembered that you could do this: void Foo() { } int main() { void(& func)() = Foo; func(); //::Foo(); } The obvious advantage being that references reference valid objects (unless they're misused), or functions in this case. T...

c++

FredOverflow

@Xeo Except for references to references, so why not make another exception? ;-)

Xeo

Oh, and no references to member functions

I'd like to see the calling syntax of that...

void (Foo::&mfptr)() = Foo::bar;
Foo f;
(f.*&mfptr)(); // ?!?

Johannes Schaub - litb

10:38 PM

Foo::bar is an rvalue of function type

Xeo

What's with foo in void (*f)() = foo;?

DeadMG

it's a function

Luc Danton

@FredOverflow What do you expect pass(f) to do where pass is template<typename T> void pass(T&); and f a function?

DeadMG

or lambda

Xeo

Oh, and can we bind Foo::bar to an rvalue to functions then?

DeadMG

10:39 PM

no, you can't, I'm pretty sure

Xeo

@LucDanton Convert to function pointer first

Johannes Schaub - litb

it's always a little bit difficult to answer questions like "what is foo in ..." because the question is very ambiguous

Luc Danton

@Xeo Then you get an non-const lvalue reference to a rvalue

Xeo

the funny thing, you can dereference a function as often as you want: (********foo)()

Johannes Schaub - litb

one cannot see from the spelling of the question whether "foo" includes or excludes any lvalue to rvalue conversion, array/function to pointer conversion and such

DeadMG

10:40 PM

you can't take an rvalue reference to functions- because they're all lvalues

Johannes Schaub - litb

those are invisible but still change the type and value category :)

Xeo

2 mins ago, by Johannes Schaub - litb

Foo::bar is an rvalue of function type

@JohannesSchaublitb Then, take those conversion in if you want. :P

DeadMG

@Johannes: Not true. void (*f)() = foo; foo must be either a function or capture-less lambda, of the correct signature, nothing else will convert to a function pointer

Johannes Schaub - litb

so when people claim "array names are rvalues in C most of the time", they may well be fine. but others may fight that and say they are wrong, and they are fine too. both in their own way

DeadMG

@Xeo: Well, he was wrong

FredOverflow

10:41 PM

Foo::bar is neither an lvalue nor an rvalue, it is a designator, right?

Johannes Schaub - litb

because the name once was an lvalue before being transformed :)

DeadMG

you could argue, I guess, that the literal pointer itself is an rvalue

Xeo

@DeadMG What's with user-defined classes with conversion operator? :P

Johannes Schaub - litb

@DeadMG to what does your "Not true" refer?

DeadMG

but that's not an rvalue reference to a function, it's an rvalue reference to a pointer, which happens to point to a function

@Xeo: What valid semantics could it possibly have?

Johannes Schaub - litb

10:42 PM

it's correct that foo cannot be true. it can be false on most implementations, though

Xeo

@DeadMG Huh?

DeadMG

@Johannes: Your statement that you can't know what foo is because of array/pointer conversion and such

Johannes Schaub - litb

@DeadMG it is true

FredOverflow

@FredOverflow Wait, I meant "qualified-id" instead of "designator" :)

Johannes Schaub - litb

and it is trivial to prove

DeadMG

10:44 PM

@Xeo: The Standard does not provide any way to make functions at run-time. As far as your operator goes, guess what? It has to return a function pointer or capture-less lambda

Johannes Schaub - litb

because... please tell me is foo an lvalue in the following? int foo = 0; int a = foo;

(the second foo, that is)

DeadMG

why, yes, I would say that foo is an lvalue

but you can't assign an int to a function pointer

nor can you have an array of function values, so no array can decay into a function pointer

Johannes Schaub - litb

but the spec says that it is an rvalue

FredOverflow

@JohannesSchaublitb where?

DeadMG

no, it doesn't

if I said int* a = &foo; that's valid, but you can't take the address of an rvalue

you can't increment an rvalue or assign to it (for primitive types)

Johannes Schaub - litb

10:46 PM

"Whenever an lvalue appears in a context where an rvalue is expected, the lvalue is converted to an rvalue; see 4.1, 4.2, and 4.3."

DeadMG

int foo = 0;, after this, foo is an lvalue, of type int

except that int a = foo; does not expect an rvalue

Johannes Schaub - litb

how is an lvalue that is converted to an rvalue not an rvalue?

FredOverflow

@JohannesSchaublitb The result of that conversion is an rvalue :)

DeadMG

there is no Standard definition saying that you can only assign rvalues to ints

FredOverflow

By the way, again the spec confuses expressions with values :-(

DeadMG

10:47 PM

integers can be assigned lvalues or rvalues

Johannes Schaub - litb

@FredOverflow exactly. so when you say foo, do you refer to the result or to the original?

how do you denote the result?

FredOverflow

@JohannesSchaublitb very good question

Luc Danton

@FredOverflow in int a = foo;, foo counts as a (sub)expression

DeadMG

@Johannes: If it requires a conversion, then the result- else it refers to the original

Luc Danton

So foo the lvalue expression appears in a context expecting an rvalue

FredOverflow

10:49 PM

Again, I blame implicit conversions ;-) In your language, it would be int a = $foo or something.

DeadMG

@LucDanton: Why the hell would assignment expect an rvalue on the right side?

Johannes Schaub - litb

@FredOverflow :)

FredOverflow

@DeadMG Are you being sarcastic?

Luc Danton

@DeadMG Because it's an int and that's what the Standard says, isn't it?

DeadMG

well, if you have a type which is both copyable and movable, then it doesn't matter whether you get an rvalue or an lvalue

so why would you expect one over the other?

FredOverflow

10:51 PM

@DeadMG Because the spec says that an rvalue is expected for scalar types.

DeadMG

damn

every time I think that I've seen all of the stupidity in the Standard, someone points out another place

Luc Danton

It's not so much as stupid as backward compatible

Johannes Schaub - litb

i think you can derive this from 4p3

DeadMG

backward compatible with what, exactly? C didn't even have the concept of NOT copyable

Luc Danton

With previous Standards

Johannes Schaub - litb

10:53 PM

An expression e can be implicitly converted to a type T if and only if the declaration “T t=e;” is well- formed, for some invented temporary variable t (8.5). The effect of the implicit conversion is the same as performing the declaration and initialization and then using the temporary variable as the result of the conversion. The result is an lvalue if T is a reference type (8.3.2), and an rvalue otherwise.

FredOverflow

It all comes down to the fact that x can stand either for the variable x itself or for its current value. I think I'll be going back to assembly language where no such ambiguity exists :-)

DeadMG

compatibility is about not breaking existing code. If there is no existing code which depends on that part of the Standard, then you don't break anything by changing it

Johannes Schaub - litb

since int is not a reference type, the result of the conversion is an rvalue. and since foo originally is an lvalue, you need to apply the lvalue to rvalue conversion to convert it to an rvalue (result of the conversion)

but I think it's intuitive that in the above, the initializer is expected to be an rvalue. after all, you need the value, not some object identity

DeadMG

except it completely doesn't matter which

integer assignment can take an lvalue just fine- why would you prefer an rvalue?

Luc Danton

@DeadMG You break what the observers learned before. Keeping old specifications means something else not to learn. Not to mention you don't have to make sure you didn't let a loophole in (or, don't fix it if it ain't broke).

Johannes Schaub - litb

10:56 PM

@DeadMG because with an lvalue you doesn't know the value

DeadMG

unnecessary WTF conversions sounds broke to me

FredOverflow

Are you saying the C++ language is needlessly complex? :)

DeadMG

heh

Luc Danton

I don't see the WTF with lvalue -> rvalue tbh

Johannes Schaub - litb