Why does std::runtime_error
not provide a constructor accepting an std::string&&
? Looking at the constructors for std::string
, it has a move constructor, but the noexcept
specification is only there for C++14, not C++11. Was this a mistake, a deadline that was missed or am I missing something?
1 Answer
explicit runtime_error(string&&);
does not exist simply because it would not provide any optimization.
As it turns out, a C++11-conforming runtime_error
does not internally store a std::string
. The reason is that the copy members of runtime_error
must not throw exceptions. Otherwise the wrong exception could get thrown when the compiler copies the exception object in the process of throwing it.
This implies that runtime_error
needs to store a non-mutable reference counted string. However C++11 outlaws the COW-implementation for std::string
. Implementations of std::string
have moved to a "short-string-optimization" which must allocate on copy construction if the length of the string is beyond the "short limit". And there is no limit on the length of strings used to construct a runtime_error
.
So effectively C++11 (and forward) contains two implementations of strings:
std::string
: This is typically a short-string-optimized type with a copy constructor and copy assignment that is capable of throwing exceptions.std::runtime_error
: This is (or holds) an immutable reference-counted string. This will never throw on copy construction or copy assignment.
And
explicit runtime_error(string&&);
can never (efficiently) transfer resources from the "type 1" string to the "type 2" string.
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1What would the type 2 string look like, out of interest? (If it's a black-boxed, hidden, implementation-defined internal type then that's a sufficient answer.) Jan 18, 2015 at 19:36
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5It could look like the non-mutating parts of a C++03 COW-based
std::string
. Indeed, that is exactly what libc++ did. Its type 2 string has an ABI identical to the gcc-4.2std::string
so thatruntime_error
can be thrown from libc++ and caught using libstdc++ (and vice-versa), within the same application. Jan 18, 2015 at 19:39 -
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5When libc++ and libstdc++ are dylibs, and when an app is composed of many dylibs, it becomes quite likely that during a transition period on a platform such as OS X, an app will unwittingly, indirectly, link to both libc++ and libstdc++, unless said app can directly control the building of all of the dylibs it uses. Jan 18, 2015 at 19:42
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4Similarly, libstdc++ in GCC5 still uses the old COW
std::string
in its exception types (via an opaque type and some hideous hackery), even when the new SSOstd::string
is the one visible to users. This should support throwingstd::runtime_error
in code using anystd::string
from GCC4, GCC5 or libc++, and catching it in code using a differentstd::string
. Jan 19, 2015 at 14:28
std::runtime_error
had a constructor takingstd::string&&
, it certainly would not be a move constructor. A move constructor would takestd::runtime_error&&
.runtime_error
, but then you switch tostd::string
. What point are you trying to make?std::runtime_error
may presently be constructed from aconst std::string&
or from aconst char* what_arg
. He's asking why it cannot be constructed from astd::string&&
.noexcept
qualification ofstring
's move constructor, which I'm not entirely following.std::runtime_error(std::string&&)
is not present.