Boiling a problem I'm having down to its essence, I can initialize a variable as an int by first executing a do-nothing lambda in a comma expression like this:

int main(){
  auto x = ( []{}(), 10 );          // same effect as auto x = 10;

But if I don't parenthesize the initializing expression,

int main(){
  auto y = []{}(), 10;              // won't compile

all of gcc, clang, and MSVC complain about trying to initialize y with a void expression.

Why do I have to parenthesize the comma expression to use it as an initializer?

  • "Boiling a problem I'm having down ..." Sounds like you have a XY-problem. Do you need the side effect of the lambda expression before x is initialized actually? Feb 4 '16 at 17:33
  • 1
    Yes. I want to execute a static_assert before computing the expression to be used in a member initialization list to initialize a class data member. Feb 4 '16 at 17:36
  • Well, static_assert is executed at compile time anyways. I don't think it's actually necessary to put it inside a lambda expression. Feb 4 '16 at 17:39
  • I need the static_assert to be evaluated before the initializing expression, because if the static_assert fails, the initializing expression will lead to a really horrible template instantiation error message. The purpose of the static_assert is to generate a good error message instead. Feb 4 '16 at 17:43
  • What's wrong with auto x = []{ return 10; }(); ? Much clearer.
    – MSalters
    Feb 4 '16 at 23:02

In a declaration, the , symbol separates declarators. A simpler example:

int i = 2, j = 3;     // OK: declares `i` and `j`
int i = 2, 3;         // Error: `3` is not a declarator

In the second case, it looks ambiguous. Is the , separating declarators, or is the , part of an expression 2, 3?

To resolve this ambiguity we can consult the language grammar (C++14 [dcl.decl]):

    decl-specifier-seqopt init-declarator-listopt ;
    attribute-specifier-seq decl-specifier-seqopt init-declarator-list ;

    init-declarator-list , init-declarator

    declarator initializeropt

The way grammars work, this means that when parsing a declaration the longest possible sequence that matches init-declarator , is considered. (This is sometimes called "maximum munch principle"). So int i = 2, matches init-declarator , . Then 3 fails to match init-declarator, so parsing fails.

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