While looking at some C++03 code, I found an instance of the most vexing parse that confused me:

#include <sstream>
#include <string>

int main(int, char** argv)
    std::stringstream ss(std::string(argv[0]));

live example on wandbox

In the snippet above, ss is a declaration to a function that takes a std::string* and returns std::stringstream.

How is std::string(argv[0]) being parsed as std::string*?

Intuitively I thought that argv[0] was unambiguously an access to argv.

  • This failed to compile for me with Visual Studio 2015 because argv[0] is apparently a 0 sized array of type argv. I can get the same result as you if I use argv[1]. Interesting question. Dec 12 '17 at 15:22
  • 4
    I think it's equivalent to std::stringstream ss(std::string argv[]); which is itself equivalent to std::stringstream ss(std::string * argv);. Dec 12 '17 at 15:24
  • I think there was this one guideline, if it looks like a declaration it is one. so like @FrançoisAndrieux wrote your instantiation from std::string isn't a instantiation but instead a declaration for array of std:strings
    – ExOfDe
    Dec 12 '17 at 18:24
  • CppCon 2017: Louis Brandy “Curiously Recurring C++ Bugs at Facebook” The links is set to the correct time code. took me while to remember in which video i learned about that but perfectly fits what you have just encountered
    – ExOfDe
    Dec 12 '17 at 21:55

The reason is because in the context of a function declaration, the compiler will interpret std::string(argv[0]) as std::string argv[0], i.e. a declaration of a zero-sized array as the function parameter named argv (overshadowing the argv from main, as this is a different scope), which then is equivalent to a pointer by array-to-pointer-decay.

Therefore, std::stringstream ss(std::string(argv[0])); means the same as std::stringstream ss(std::string* argv);

Edit: As it got correctly annotaded in the comments, zero-sized array declarations are invalid in C++, rendering the program ill-formed. When compiling this code with -pedantic flags (GCC and clang), warnings will be issued. Visual Studio even produces a compilation error. For any other array index than 0, the argumentation above however still holds.

  • 1
    so the most vexing parse is even more evil than I always thought... it is not just "if it looks like a function declaration it is a function declaration" but also "if it looks like an invalid function declaration it is a function declaration"....omfg Dec 12 '17 at 15:28
  • 2
    @tobi303: Have a peek at the grammar. It defines arrays roughly as type name_optional [ size_expression ], and there is no special grammar rule for expressions that evaluate to zero. Would be very hard, though, as expression evaluation in C++ is Turing-complete.
    – MSalters
    Dec 12 '17 at 15:30
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    @tobi303 it is not an invalid declaration, though. In C++, a variable declaration is allowed to wrap the variable name in parenthesis. Ie int(x) is the same as int x. This is why std::string(argv[0]) can be seen as std::string argv[0] in this context. Just remove std::string to avoid the MVP: std::stringstream ss(argv[0]); Dec 12 '17 at 15:58
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    @RemyLebeau arent 0 sized arrays invalid? Dec 12 '17 at 16:41
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    @RemyLebeau yes, got it. It just happens that void foo(double x[0]){} is fine, due to just another quirk of c++ Dec 12 '17 at 20:14

I believe this follows from the "declaration syntax is like expression syntax" principle, and the fact that "array" parameters are pointers.

The following array declarations are equivalent:

int x[1];
int (x)[1];
int (x[1]);

more or less because x[a], (x)[a], and (x[a]) are equivalent expressions.


std::stringstream ss(std::string(argv[0]))


std::stringstream ss(std::string argv[0])


std::stringstream ss(std::string* argv)

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