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With my recent upgrade to Mac OS X 10.9 the default standard C++ library changed from libstdc++ to libc++. Since then I observe unexpected behaviour of the stringstream operator>>(double) documented in the code example below.

In summary the libc++ seems to have problems with extracting double values from stringstreams when the double value is followed by a letter.

I already checked the standard (2003) but I can't find any specific information if extraction should work in this case or not.

So I would be grateful for any input whether this is a bug in libc++ or libstdc++.

#include <sstream>
#include <iostream>

using namespace std;

void extract_double(const string & s)
  stringstream ss;
  double d;

  ss << s;
  ss >> d;
    cout << "'" << ss.str() << "' converted to " << d << endl;
    cout << "'" << ss.str() << "' failed to convert to double" << endl;

int main()
  extract_double("-4.9 X");

Compiling the code with c++ --stdlib=libc++ streamtest.cxx gives

'-4.9' converted to -4.9
'-4.9 X' converted to -4.9
'-4.9_' converted to -4.9
'-4.9d' failed to convert to double
'-4.9X' failed to convert to double

Compiling the code with c++ --stdlib=libstdc++ streamtest.cxx gives

'-4.9' converted to -4.9
'-4.9 X' converted to -4.9
'-4.9_' converted to -4.9
'-4.9d' converted to -4.9
'-4.9X' converted to -4.9

Compiler version is

$ c++ --version
Apple LLVM version 5.0 (clang-500.2.79) (based on LLVM 3.3svn)
Target: x86_64-apple-darwin13.0.0
Thread model: posix
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The local is C in both cases. –  Stephan Aiche Nov 1 '13 at 11:39
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1 Answer

It looks like that libstdc++ is right and libc++ is wrong, according to the of the (2011) standard.

At stage 2,

If it [the character - n.m.] is not discarded, then a check is made to determine if c is allowed as the next character of an input field of the conversion specifier returned by Stage 1 ["%g" in this case - n.m.] . If so, it is accumulated.

Since %g conversion specifier does not admit d or X characters, the character is not accumulated. It is not discarded either (only group separator characters can be discarded). Therefore Stage 2 must end at this point.

Then at stage 3 accumulated characters are converted.

It looks like libc++ erroneously accumulates d and X at stage 2, then attempts to convert them, and this fails.

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I reported the problem to the libc++ guys. See bug 17782 –  Stephan Aiche Nov 2 '13 at 8:40
Appears only to happen if the trailing character is 'A' .. 'F', 'I', 'N', 'P' and 'X' (and the same characters in lower case) –  Marshall Clow Nov 4 '13 at 15:16
@MarshallClow: OK, A to F and X can appear in hexadecimal numbers, and they actually appear in the relevant portion of the standard, so one could probably see where things went wrong if those were the only culprits. But how I, N and P came into play? –  n.m. Nov 4 '13 at 15:29
In hexadecimal floats, you can't use 'E' for the exponent - that's a digit. The standard says to use 'P' instead. Libc++ will also parse "inf" and "nan", so that's where the 'I' and 'N' come from. However, in your example, it's clearly doing it incorrectly. –  Marshall Clow Nov 4 '13 at 16:48
@MarshallClow: thanks, didn't lnow of hex floats! –  n.m. Nov 4 '13 at 16:54
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