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I was testing a c++11 compiler on my source code and it caught an error in one of my functions that I would have expected my non c++11 compiler to catch as well. I was returning false from a function that has a return type of std::string... Here's the code that demonstrates the problem

#include <iostream>

int main ( )
{
    std::string str = false;

    std::cerr << "'" << str << "'" << std::endl;

    return 0;
}


$ g++ test.cpp -W -Wall -Wextra
$ ./a.out

terminate called after throwing an instance of 'std::logic_error'
  what():  basic_string::_S_construct NULL not valid
Aborted

I'm very surprised that this code compiles with no problems. I suspect from the exception description is that the compiler is converting a false to 0 and then to NULL and uses that as a char * to try and construct the string..

However, when I switch false to true, here's what I get:

$ g++ test.cpp -W -Wall -Wextra
test.cpp: In function ‘int main()’:
test.cpp:5: error: conversion from ‘bool’ to non-scalar type ‘std::string’ requested

That's a more reasonable result, in my opinion.

Can someone please clarify why this seemingly inconsistent behaviour happens? That is, std::string a = false compiles, but throws an exception, and std::string a = true doesn't compile.

EDIT:

For reference, here's an error generated with g++ 4.7 with -std=c++11 for the false case:

test.cpp: In function ‘int main()’:
test.cpp:5:23: warning: converting ‘false’ to pointer type for argument 1 of ‘std::basic_string<_CharT, _Traits, _Alloc>::basic_string(const _CharT*, const _Alloc&) [with _CharT = char; _Traits = std::char_traits<char>; _Alloc = std::allocator<char>]’ [-Wconversion-null]

It does accept NULL though as CashCow suggests

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Funny conversion sequence, false is a valid null pointer constant since its integral and converts to null opinter –  PlasmaHH Mar 12 '12 at 16:27
    
What you posted is not an error, it's a warning. C++11 didn't fix anything wrt false -> null pointer constant. –  Xeo Mar 12 '12 at 16:41
    
@Xeo As I commented on your post, good catch :) –  vmpstr Mar 12 '12 at 17:24
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4 Answers

up vote 5 down vote accepted

It's rather a horrible implicit conversion and lack of type-safety.

std::string takes a constructor from a pointer false degrades to 0 which becomes a null pointer.

and you cannot pass a null pointer to the constructor of std::string.

Incidentally whilst you use = it is a constructor not an assignment you are performing here.

Your "strict" g++ C++11 compiler however nicely caught the error for you at compile time.

And it won't work with true because that is never able to represent a NULL pointer. C++11 has nullptr. If you tried:

std::string str = nullptr;

your C++11 compiler would probably compile it and then you'd get a runtime error.

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1  
Why is true generating an error? I mean following this logic, it could convert it to 1 and treat that as an address. Or is 0 treated specially because of NULL? –  vmpstr Mar 12 '12 at 16:29
    
Yes, 0 is a special case because of NULL. Not sure what happens with the strict C++11 compiler if you pass in NULL instead of nullptr, because that would break existing code all-over, but false certainly could be caught. –  CashCow Mar 12 '12 at 16:32
    
0 is special to C/C++/etc. –  wallyk Mar 12 '12 at 16:33
    
@CashCow: NULL and 0 "work" fine (at compile time) –  PlasmaHH Mar 12 '12 at 16:36
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It's exactly as you say, false can be converted to a valid null pointer constant (sadly so).

true, however, is not a null pointer constant and can't be converted to one and as such can't be converted to a pointer and fails to compile.

§4.5 Integral promotions [conv.prom] p4

A prvalue of type bool can be converted to a prvalue of type int, with false becoming zero and true becoming one.

§4.10 Pointer conversions [conv.ptr] p1:

A null pointer constant is an integral constant expression (5.19) prvalue of integer type that evaluates to zero or a prvalue of type std::nullptr_t.

Since the false is a literal, it's also an integral constant expression, and after promotion indeed evaluates to zero.

Note that this has not changed in C++11. In fact, the above quotes are from the C++11 standard. What you get with GCC 4.7 is just a warning. It's an optional diagnostic that your compiler decided to hint at, since it's always wrong and a bug.

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Good catch on the warning, my original code also had -Werror, which converted it to an error and broke the build. –  vmpstr Mar 12 '12 at 17:00
1  
@vmpstr For some errors, "saved the build" might be more appropriate. –  Yakk Apr 24 '13 at 13:46
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It is a subtle issue that I may not fully understand.

The basic rule is that anything that has a value of 0 may be considered a valid null pointer. Therefore, false can be used in contexts requiring a pointer, like char const*.

However, the std::string constructor from a char const* explicitly requires a non-null pointer (and here you are fortunate to get an exception).

On the other hand, true is non-0, and so cannot be treated as a pointer. Thus you get a proper diagnostic.


This issue is compounded by the introduction of constexpr in C++11, which was raised by Richard Smith:

struct S { constexpr S(): n() {} int n; };

here, S().n is evaluated to 0 statically (constexpr requirement) and thus may degenerate into a pointer, while in C++03 it was of type int. This is rather unfortunate and if you have:

std::true_type buggy(void*);
std::false_type buggy(int);

Then decltype(buggy(S().n)) returns true_type for C++11 but false_type with C++03, a rather unfortunate change in semantics.

Richard's proposal is to change this from an implicit conversion to a standard conversion to help in this case, however I don't think that it would help much in yours.

Clang has warnings available for those weird conversions: -Wbool-conversions.

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My jaw literally dropped at that point in the presentation. :( –  Xeo Mar 12 '12 at 16:51
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AHHHH!!!! what a nasty thing!, In VS2008 I couldn't get even any kind of warning for this. I had the same problem using something like this this:

std::string func(void)
{
    return false;
}
std::string str = func();

Nice post and explanations! Regards

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