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Post-standard draft n3376 has as an example (12.3.2:2) of the use of an explicit conversion function to a user-defined type:

class Y { };
struct Z {
  explicit operator Y() const;
void h(Z z) {
  Y y1(z); // OK: direct-initialization

Per 12.3.2:2, an explicit conversion function is "only considered as a user-defined conversion for direct-initialization"; however, that would appear to permit:

struct Y { Y(int); };
struct Z {
  explicit operator int() const;
void h(Z z) {
  Y y1(z); // direct-initialization

which appears to conflict with the intent of the standard, and indeed is rejected by gcc-4.7.1:

source.cpp: In function 'void h(Z)':
source.cpp:4:9: error: no matching function for call to 'Y::Y(Z&)'
source.cpp:4:9: note: candidates are:
source.cpp:1:12: note: Y::Y(int)
source.cpp:1:12: note:   no known conversion for argument 1 from 'Z' to 'int'
source.cpp:1:8: note: constexpr Y::Y(const Y&)
source.cpp:1:8: note:   no known conversion for argument 1 from 'Z' to 'const Y&'
source.cpp:1:8: note: constexpr Y::Y(Y&&)
source.cpp:1:8: note:   no known conversion for argument 1 from 'Z' to 'Y&&'

Is gcc correct to reject the conversion from Z to Y via int, or does the standard indeed permit this usage?

I considered the context of the mentioned direct-initialization; per the definition of direct-initialization to class type in 8.5:16, a constructor is called with the initializer expression as its arguments, which therefore are converted to the parameter type by an implicit conversion sequence ( Since an implicit conversion sequence is an implicit conversion (4:3), and thus models copy-initialization (8.5:14) and not direct-initialization, the language in 12.3.2:2 must be referring to the expression as a whole.

Note also that this isn't a violation of 12.3:4 (multiple user-defined conversions); the same compiler is happy with the same code with explicit removed (as are Clang and Comeau):

struct Y { Y(int); };
struct Z { operator int(); };
void h(Z z) {
  Y y1(z); // direct-initialization

I think Jesse Good has identified the distinction between the operator Y and operator int cases in, but there's a third case that I'm still concerned by:

struct X {};
struct Y { Y(const X &); };
struct Z {
  explicit operator X() const;
void h(Z z) {
  Y y1(z); // direct-initialization via class-type X

The initialization of the temporary X to be bound to the single const X & parameter of the constructor of Y proceeds in a direct-initialization context per, with T as X and S as Z. I think this clause is incorrect and should read: Copy-initialization of class by user-defined conversion [over.match.copy]

1 - [...] When initializing a temporary to be bound to the first parameter of a constructor that takes a reference to possibly cv-qualified T as its first argument, called with a single argument in the context of direct-initialization of an object of type "cv2 T", explicit conversion functions are also considered. [...]

For the avoidance of confusion, I think 12.3.2:2 should also be amended:

12.3.2 Conversion functions [class.conv.fct]

2 - A conversion function may be explicit (7.1.2), in which case it is only considered as a user-defined conversion for direct-initialization (8.5) in certain contexts (,, [...]

Any comments on the above?

share|improve this question
I'd actually recommend one of the C++ discussion group if you think the wording can be improved. –  Luc Danton Sep 14 '12 at 5:39
@LucDanton I'd like to say that I don't have the time to participate in a discussion group, but that's clearly not the case. –  ecatmur Sep 14 '12 at 19:22

3 Answers 3

up vote 3 down vote accepted

As noted in Luc Danton's answer, implicit conversion is defined in terms of copy initialization. Then, if we look at[Copy-initialization of class by user-defined conversion]:

When the type of the initializer expression is a class type “cv S”, the non-explicit conversion functions of S and its base classes are considered. When initializing a temporary to be bound to the first parameter of a constructor that takes a reference to possibly cv-qualified T as its first argument, called with a single argument in the context of direct-initialization, explicit conversion functions are also considered. Those that are not hidden within S and yield a type whose cv-unqualified version is the same type as T or is a derived class thereof are candidate functions. Conversion functions that return “reference to X” return lvalues or xvalues, depending on the type of reference, of type X and are therefore considered to yield X for this process of selecting candidate functions.

If I understand this correctly, the first one works because the conversion function yields a Y and is therefore a candidate function as noted by the second emphasized part in the quote, however, in your second case, the set of candidate functions is empty because there is no conversion function to Y and no non-explicit conversion functions as noted by the first emphasized part.

Concerning the third case:

After finding defect report 1087, it seems clear that the intention was to allow, copy, move and template constructors when direct-initializing an object of cv2 T as you mention. If you read the first passage of, it says Assuming that “cv1 T” is the type of the object being initialized, with T a class type, so I think that implies of an object of type "cv2 T" that you mention. However, (after reading it over), it seems that the change due to the defect report has caused the wording to become vague and not cover the third case you propose.

share|improve this answer
The copy-initialization here is for the first parameter of the constructor of Y; the language that says "[...] explicit conversion functions are also considered" is key in allowing the first case (where S is Z and T is const Y &). In the second case, this clause is inapplicable because the object being initialized is the int parameter to the constructor of Y, so applies. There's a problem here, though; what if T is another class X? –  ecatmur Sep 13 '12 at 17:00
@ecatmur: See defect report 1087. They changed the wording to allow for move constructors and template constructors, but at the same time they made it more ambiguous and it doesn't cover the case you proposed. –  Jesse Good Sep 13 '12 at 23:42
@ecatmur: Although, reading over it again, the passage Assuming that “cv1 T” is the type of the object being initialized seems to rule out your third case. –  Jesse Good Sep 14 '12 at 0:14
Unfortunately, the "object being initialized" is the "temporary to be bound to the first parameter" of the constructor of Y, which in the third case is still X. You're absolutely correct that defect report 1087 is where this ambiguity crept in. –  ecatmur Sep 14 '12 at 19:16
@ecatmur: Ah, after reading the passage a few more times, I agree it doesn't cover the case you proposed. Mind filing a defect report? –  Jesse Good Sep 14 '12 at 20:35

According to 8.5 and the constructors of Y are considered and the best one is picked via overload resolution. In this case the relevant constructors are Y(int); and the copy and move constructors. In the process of overload resolution 13.3.2 Viable functions [over.match.viable] specifies this:

3 Second, for F to be a viable function, there shall exist for each argument an implicit conversion sequence ( that converts that argument to the corresponding parameter of F. [...]

For all those constructors there is no such conversion from Z to either int or one of the flavours of Y. To convince ourselves, let's investigate what the Standard says about implicit conversion sequences in Implicit conversion sequences [over.best.ics]:

1 An implicit conversion sequence is a sequence of conversions used to convert an argument in a function call to the type of the corresponding parameter of the function being called. The sequence of conversions is an implicit conversion as defined in Clause 4, which means it is governed by the rules for initialization of an object or reference by a single expression (8.5, 8.5.3).

If we cross-reference Clause 4, then we learn that an implicit conversion is defined in terms of copy-initialization (i.e. T t=e;, where T is int and e is z):

(§4.3) 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). [...]

So I take 12.3.2:2 not to apply for this initialization, which happens in the larger context of a direct initialization. Doing otherwise would contradict with this latest paragraph.

share|improve this answer is about the initialization of an object of nonclass type, but here y1 is of type Y, a class type, so I don't think this applies. Similarly, the bullet under 8.5:16 you reference is "otherwise" to the case where the destination is a class type. –  ecatmur Sep 11 '12 at 17:01
@ecatmur When you fail, try again. How about now? –  Luc Danton Sep 11 '12 at 17:40
All in all I think it's a bit dizzying to figure out what the Standard actually mandates because paragraphs in clause 8 reference paragraphs in clause 13 that reference paragraphs in clause 12 that reference back to clause 8. However I'm under the impression that 12.3.2:2 is completely superfluous and could be changed to be non-normative with the same effect. It's useful to keep track and cross-reference, but 8.5 and 13.3.* are the meat when it comes to the effects of explicit. –  Luc Danton Sep 11 '12 at 18:16
Definitely 12.3.2:2 is a red herring or only applies to non-class conversion operators (i.e., clause Jesse Good has found an important clause regarding the copy-initialization of constructor first arguments, which I think is most of the answer. –  ecatmur Sep 13 '12 at 17:04
@ecatmur No class type is being copy initialized in the snippet. But I don't think I understand, I can't quite parse "the copy-initialization of constructor first arguments". –  Luc Danton Sep 13 '12 at 17:16

I am no language lawyer, however the wording of the standard implies to me that marking a conversion operator as explicit requires that you explicity specify the conversion type (i.e. int) as part of the initialisation of object y1. With the code Y y1(z), it would appear that you're relying on an implicit conversion, since the type you specify for variable y1 is Y.

Therefore, I would expect correct usage of the explicit conversion operator in this situation to be:

Y y1( int(z) ); 

Or, since you are effectively specifying a cast, preferably

Y y1( static_cast<int> (z) ); 
share|improve this answer
You've convinced me as to the intent of the standard; as we're language lawyering here we just need to work out how the standard can be read in accordance with its intent. –  ecatmur Sep 13 '12 at 17:01

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