221

One of the corners of C++20 constraints is that there are certain situations in which you have to write requires requires. For instance, this example from [expr.prim.req]/3:

A requires-expression can also be used in a requires-clause ([temp]) as a way of writing ad hoc constraints on template arguments such as the one below:

template<typename T>
  requires requires (T x) { x + x; }
    T add(T a, T b) { return a + b; }

The first requires introduces the requires-clause, and the second introduces the requires-expression.

What is the technical reason behind needing that second requires keyword? Why can't we just allow writing:

template<typename T>
  requires (T x) { x + x; }
    T add(T a, T b) { return a + b; }

(Note: please don't answer that the grammar requires it)

9
  • Seems requires might be used for method of template class, and it would be "ambiguous" template <typename T> struct S {void f(T t) requires requires (T x) {x + x;} { t + t;} };
    – Jarod42
    Jan 15, 2019 at 14:40
  • 33
    Suggestion: "Is there anything that requires requires requires?". More seriously, I have a hunch that it's the same reason behind noexcept(noexcept(...)).
    – Quentin
    Jan 15, 2019 at 14:41
  • They say "The first requires introduces the requires-clause, and the second introduces the requires-expression.", but this is not compatible with the grammar they give just above
    – bruno
    Jan 15, 2019 at 14:42
  • 3
    @Quentin With noexcept there is ambiguity. noexcept(f()) might mean to be noexcept if f() evaluates to true or if f() is noexcept.
    – Passer By
    Jan 15, 2019 at 14:52
  • 19
    The two requires are homonyms in my opinion: they look the same, spell the same, smell the same, but are intrinsically different. If I were to suggest a fix, I'd suggest to rename one of them.
    – YSC
    Jan 15, 2019 at 14:59

5 Answers 5

119

It is because the grammar requires it. It does.

A requires constraint does not have to use a requires expression. It can use any more-or-less arbitrary boolean constant expression. Therefore, requires (foo) must be a legitimate requires constraint.

A requires expression (that thing that tests whether certain things follow certain constraints) is a distinct construct; it's just introduced by the same keyword. requires (foo f) would be the beginning of a valid requires expression.

What you want is that if you use requires in a place that accepts constraints, you should be able to make a "constraint+expression" out of the requires clause.

So here's the question: if you put requires (foo) into a place that is appropriate for a requires constraint... how far does the parser have to go before it can realize that this is a requires constraint rather than a constraint+expression the way you want it to be?

Consider this:

void bar() requires (foo)
{
  //stuff
}

If foo is a type, then (foo) is a parameter list of a requires expression, and everything in the {} is not the body of the function but the body of that requires expression. Otherwise, foo is an expression in a requires clause.

Well, you could say that the compiler should just figure out what foo is first. But C++ really doesn't like it when the basic act of parsing a sequence of tokens requires that the compiler figure out what those identifiers mean before it can make sense of the tokens. Yes, C++ is context-sensitive, so this does happen. But the committee prefers to avoid it where possible.

So yes, it's grammar.

17
  • 2
    Does it make sense to have a parameter list with a type but without a name? Jan 15, 2019 at 15:13
  • 3
    @Quentin: There are certainly cases of context-dependency in the C++ grammar. But the committee really does try to minimize that, and they definitely don't like adding more. Jan 15, 2019 at 15:25
  • 3
    @RobertAndrzejuk: If requires appears after a <> set of template arguments or after a function parameter list, then it's a requires-clause. If requires appears where an expression is valid, then it is a requires-expression. This can be determined by the structure of the parse tree, not the contents of the parse tree (the specifics of how an identifier gets defined would be the contents of the tree). Jan 15, 2019 at 17:42
  • 9
    @RobertAndrzejuk: Sure, the requires-expression could have used a different keyword. But keywords have huge costs in C++, as they have the potential to break any program that used the identifier that has become a keyword. The concepts proposal already introduced two keywords: concept and requires. Introducing a third, when the second would be able to cover both cases with no grammatical issues and few user-facing problems, is just wasteful. After all, the only visual problem is that the keyword happens to be repeated twice. Jan 15, 2019 at 19:36
  • 5
    @RobertAndrzejuk it's bad practice anyway to inline constraints like that since you don't get subsumption as if you had written a concept. So taking an identifier for such a low use not recommended feature isn't a good idea.
    – Rakete1111
    Jan 15, 2019 at 20:08
87

The situation is exactly analogous to noexcept(noexcept(...)). Sure, this sounds more like a bad thing than a good thing, but let me explain. :) We'll start with what you already know:

C++11 has "noexcept-clauses" and "noexcept-expressions." They do different things.

  • A noexcept-clause says, "This function should be noexcept when... (some condition)." It goes on a function declaration, takes a boolean parameter, and causes a behavioral change in the declared function.

  • A noexcept-expression says, "Compiler, please tell me whether (some expression) is noexcept." It is itself a boolean expression. It has no "side effects" on the behavior of the program — it's just asking the compiler for the answer to a yes/no question. "Is this expression noexcept?"

We can nest a noexcept-expression inside a noexcept-clause, but we typically consider it bad style to do so.

template<class T>
void incr(T t) noexcept(noexcept(++t));  // NOT SO HOT

It's considered better style to encapsulate the noexcept-expression in a type-trait.

template<class T> inline constexpr bool is_nothrow_incrable_v =
    noexcept(++std::declval<T&>());  // BETTER, PART 1

template<class T>
void incr(T t) noexcept(is_nothrow_incrable_v<T>);  // BETTER, PART 2

C++20 has "requires-clauses" and "requires-expressions." They do different things.

  • A requires-clause says, "This function should participate in overload resolution when... (some condition)." It goes on a function declaration, takes a boolean parameter, and causes a behavioral change in the declared function.

  • A requires-expression says, "Compiler, please tell me whether (some set of expressions) is well-formed." It is itself a boolean expression. It has no "side effects" on the behavior of the program — it's just asking the compiler for the answer to a yes/no question. "Is this expression well-formed?"

We can nest a requires-expression inside a requires-clause, but we typically consider it bad style to do so.

template<class T>
void incr(T t) requires (requires (T t) { ++t; });  // NOT SO HOT

It's considered better style to encapsulate the requires-expression in a type-trait...

template<class T> inline constexpr bool is_incrable_v =
    requires (T t) { ++t; };  // BETTER, PART 1

template<class T>
void incr(T t) requires is_incrable_v<T>;  // BETTER, PART 2

...or in a C++20 concept.

template<class T> concept Incrable =
    requires (T t) { ++t; };  // BETTER, PART 1

template<class T>
void incr(T t) requires Incrable<T>;  // BETTER, PART 2
6
  • 1
    I don't really buy this argument. noexcept has the problem that noexcept(f()) could mean either interpret f() as a boolean that we're using to set the specification or check whether or not f() is noexcept. requires doesn't have this ambiguity because the expressions its checking for validity already have to be introduced with {}s. After that, the argument is basically "the grammar says so."
    – Barry
    Jan 16, 2019 at 3:29
  • @Barry: See this comment. It appears the {} are optional.
    – Eric
    Jan 16, 2019 at 6:48
  • 1
    @Eric The {} are not optional, that's not what that comment shows. However, that is a great comment demonstrating parsing ambiguity. Would probably accept that comment (with some explanation) as a standalone answer
    – Barry
    Jan 16, 2019 at 13:06
  • 1
    requires is_nothrow_incrable_v<T>; should be requires is_incrable_v<T>;
    – Ruslan
    Jan 16, 2019 at 14:32
  • is_incrementible??? Apparently, there is not a well-established English word for "can be incremented" but I'm guessing here that this is more correct??? Aug 14, 2021 at 2:11
32

I think cppreference's concepts page explains this. I can explain with "math" so to say, why this must be like this:

If you want to define a concept, you do this:

template<typename T>
concept Addable = requires (T x) { x + x; }; // requires-expression

If you want to declare a function that uses that concept, you do this:

template<typename T> requires Addable<T> // requires-clause, not requires-expression
T add(T a, T b) { return a + b; }

Now if you don't want to define the concept separately, I guess all you have to do is some substitution. Take this part requires (T x) { x + x; }; and replace the Addable<T> part, and you'll get:

template<typename T> requires requires (T x) { x + x; }
T add(T a, T b) { return a + b; }

which explains the mechanics. The why is best illustrated with an example of the ambiguity that would result if we changed the language to accept a single requires as a shorthand for requires requires.

constexpr int x = 42;

template<class T>
void f(T) requires(T (x)) { (void)x; };

template<class T>
void g(T) requires requires(T (x)) { (void)x; };

int main(){
    g<bool>(0);
}

View in Godbolt to see the compiler warnings, but note that Godbolt doesn't try the link step, which would fail in this case.

The only difference between f and g is the doubling up of 'requires'. Yet the semantic difference between f and g is enormous:

  • g is just a function declaration, f is a full definition
  • f accepts only bool, g accepts every type castable to void
  • g shadows x with its own (superfluously parenthesized) x, but
  • f casts the global x to the given type T

Obviously we wouldn't want the compiler to change one into the other automatically. This could have been solved by using a separate keyword for the two meanings of requires, but when possible C++ tries to evolve without introducing too many new keywords, as that breaks old programs.

12
  • 4
    I don't think is what the question is asking for. This is explaining the grammar, more or less.
    – Passer By
    Jan 15, 2019 at 14:50
  • 2
    @NathanOliver: Because you're forcing the compiler to interpret one construct as another. A requires-as-constraint clause does not have to be a requires-expression. That's merely one possible use of it. Jan 15, 2019 at 14:51
  • 2
    @TheQuantumPhysicist What I was getting at with my comment is this answer just explains the syntax. Not what actual technical reason we have to requires requires. They could have added something to the grammar to allow template<typename T> requires (T x) { x + x; } but they didn't. Barry wants to know why they didn't Jan 15, 2019 at 14:58
  • 7
    If we're really playing find-the-grammar-ambiguity here, OK, I'll bite. godbolt.org/z/i6n8kM template<class T> void f(T) requires requires(T (x)) { (void)x; }; means something different if you remove one of the requireses. Jan 15, 2019 at 22:43
  • 1
    @TamaMcGlinn: I think you've got it. In the godbolt I posted above, the f with one requires is a definition: it is constrained on (T(x)), i.e. (bool(42)) (since T is bool), i.e. true. Its body is { (void)x; }, with a superfluous trailing ;. The g with requires requires is a declaration constrained on requires (T (x)) { (void)x; }, which is OK for all T (except cv-qualified void, and arguably abominable types); and it has no body. Jul 16, 2021 at 19:51
21

I found a comment from Andrew Sutton (one of the Concepts authors, who implemented it in gcc) to be quite helpful in this regard, so I thought I'd just quote it here in its near-entirety:

Not so long ago requires-expressions (the phrase introduced by the second requires) was not allowed in constraint-expressions (the phrase introduced by the first requires). It could only appear in concept definitions. In fact, this is exactly what is proposed in the section of that paper where that claim appears.

However, in 2016, there was a proposal to relax that restriction [Editor's note: P0266]. Note the strikethrough of paragraph 4 in section 4 of the paper. And thus was born requires requires.

To tell the truth, I had never actually implemented that restriction in GCC, so it had always been possible. I think that Walter may have discovered that and found it useful, leading to that paper.

Lest anybody think that I wasn't sensitive to writing requires twice, I did spend some time trying to determine if that could be simplified. Short answer: no.

The problem is that there are two grammatical constructs that need to introduced after a template parameter list: very commonly a constraint expression (like P && Q) and occasionally syntactic requirements (like requires (T a) { ... }). That's called a requires-expression.

The first requires introduces the constraint. The second requires introduces the requires-expression. That's just the way the grammar composes. I don't find it confusing at all.

I tried, at one point, to collapse these to a single requires. Unfortunately, that leads to some seriously difficult parsing problems. You can't easily tell, for example if a ( after the requires denotes a nested subexpression or a parameter-list. I don't believe that there is a perfect disambiguation of those syntaxes (see the rationale for uniform initialization syntax; this problem is there too).

So you make a choice: make requires introduce an expression (as it does now) or make it introduce a parameterized list of requirements.

I chose the current approach because most of the time (as in nearly 100% of the time), I want something other than a requires-expression. And in the exceedingly rare case I did want a requires-expression for ad hoc constraints, I really don't mind writing the word twice. It's a an obvious indicator that I haven't developed a sufficiently sound abstraction for the template. (Because if I had, it would have a name.)

I could have chosen to make the requires introduce a requires-expression. That's actually worse, because practically all of your constraints would start to look like this:

template<typename T>
  requires { requires Eq<T>; }
void f(T a, T b);

Here, the 2nd requires is called a nested-requirement; it evaluates its expression (other code in the block of the requires-expression is not evaluated). I think this is way worse than the status quo. Now, you get to write requires twice everywhere.

I could also have used more keywords. This is a problem in its own right---and it's not just bike shedding. There might be a way to "redistribute" keywords to avoid the duplication, but I haven't given that serious thought. But that doesn't really change the essence of the problem.

-15

Because you are saying that a thing A has a requirement B, and the requirement B has a requirement C.

The thing A requires B which in turn requires C.

The "requires" clause itself requires something.

You have thing A (requiring B (requiring C)).

Meh. :)

2
  • 5
    But according to the other answers, the first and second requires are not conceptually the same thing (one is a clause, one an expression). In fact, if I understand correctly, the two sets of () in requires (requires (T x) { x + x; }) have very different meanings (the outer being optional and always containing a boolean constexpr; the inner being a mandatory part of introducing a requires expression and not allowing actual expressions). Jan 15, 2019 at 15:28
  • 3
    @MaxLanghof Are you saying that the requirements differ? :D Jan 15, 2019 at 15:42

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