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Someone here wrote the following, at file scope:

std::auto_ptr<ClassWithDestructor> an_auto_ptr;

They meant to add static but neglected it.

Then, two different linux shared libraries, each containing the .o containing this declaration, ended up linked to an executable.

The auto_ptr::~auto_ptr for this item ran twice, with unfortunate consequences.

Is this defined behavior, undefined behavior, or a gcc+ld bug?

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What does that have to do with Fortran? –  tpg2114 Jan 22 '13 at 18:12
Declarations with neither extern nor static are 'Fortran common'. At least to us old farts. If it proves too distracting, I'll remove the word 'fortraN'. –  bmargulies Jan 22 '13 at 18:13
It is distracting and misleading. Such declaration do not work like Fortran common blocks at all. –  n.m. Jan 22 '13 at 19:30
How do you see them as different from fortran? –  bmargulies Jan 22 '13 at 20:50
In Fortran common blocks are merged into one memory area. C++ has One Definition Rule which prohibits such things. –  n.m. Jan 22 '13 at 21:44

1 Answer 1

up vote 1 down vote accepted

This declaration is also a definition. You have two definitions for the same object in a program. This is a violation of One Definition Rule and thus Undefined Behavior.

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Even in separate shared libraries? Wouldn't you just get two totally distinct objects? I agree with you that if both of these files were linked into the same library, it would definitely violate the rule. –  StilesCrisis Jan 22 '13 at 20:57
If they were in the same library, you would just get a "duplicate symbol" linker error. With shared libs, all symbolic references in both libs are resolved to the first one that loads. So the second lib only sees the definition from the first one -- but the ctor/dtor code still runs twice. Now there's a way to make each lib to try to resolve within itself first -- use -Bsymbolic flag to the linker at library creation time (but it's not recommended and I suppose it's simpler to recompile). –  n.m. Jan 22 '13 at 21:41
Please elaborate. If in an ordinary executable you used this (no extern, no static), is C++ calling upon the linker to give an error, even though it's perfectly valid C? Can you link to the rule? –  bmargulies Jan 22 '13 at 22:19
This is not required by the C standard, and is outright forbidden by C++. Some C compilers (particularly on Unix) accept such multiply-defined uninitialized globals as a language extension, others do not. See gcc's -fno-common option documentation. –  n.m. Jan 22 '13 at 22:35

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