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Today a colleague of mine came and asked me the question as mentioned in the title.
He's currently trying to reduce the binaries footprint of a codebase, that is also used on small targets (like Cortex M3 and alike). Apparently they have decided to compile with RTTI switched on (GCC actually), to support proper exception handling.

Well, his major complaint was why std::type_info::name() is actually needed at all for support of RTTI, and asked, if I know a way to just suppress generation of the string literals needed to support this, or at least to shorten them.

std::type_info::name

const char* name() const; Returns an implementation defined null-terminated character string containing the name of the type. No guarantees are given, in particular, the returned string can be identical for several types and change between invocations of the same program.

A ,- however compiler specific -, implementation of e.g. the dynamic_cast<> operator would not use this information, but rather something like a hash-tag for type determination (similar for catch() blocks with exception handling).
I think the latter is clearly expressed by the current standard definitions for

  1. std::type_info::hash_code
  2. std::type_index

I had to agree, that I also don't really see a point of using std::type_info::name(), other than for debugging (logging) purposes. I wasn't a 100% sure that exception handling will work just without RTTI with current versions of GCC (I think they're using 4.9.1), so I hesitated to recommend simply switching off RTTI.
Also it's the case that dynamic_casts<> are used in their code base, but for these, I just recommended not to use it, in favor of static_cast (they don't really have something like plugins, or need for runtime type detection other than assertions).


Question:

  • Are there real life, production code level use cases for std::type_info::name() other than logging?

Sub-Questions (more concrete):

  • Does anyone have an idea, how to overcome (work around) the generation of these useless string literals (under assumption they'll never be used)?

  • Is RTTI really (still) needed to support exception handling with GCC?
    (This part is well solved now by @Sehe's answer, and I have accepted it. The other sub-question still remains for the left over generated std::type_info instances for any exceptions used in the code. We're pretty sure, that these literals are never used anywhere)


Bit of related: Strip unused runtime functions which bloat executable (GCC)

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    Not really useful for logging either, since the name can be a mangled name which doesn't really say much directly. – Some programmer dude Mar 4 '15 at 18:13
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    I doubt that anything explicitly marked as "implementation defined" without the most basic guarantee of equality should be used in production, even if it is 100% safe. – dasblinkenlight Mar 4 '15 at 18:16
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    @JoachimPileborg Even the reference documentation mentions c++filt: "With compilers such as gcc and clang, the returned string can be piped through c++filt -t to be converted to human-readable form." – πάντα ῥεῖ Mar 4 '15 at 18:16
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    @JoachimPileborg Because it may be useless on some implementations, you wouldn't use it on any implementation? – immibis Mar 4 '15 at 18:30
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    Regarding sub-question #1: for small embedded targets, this is often the problem domain where a linker script can help you. Essentially, if the literals get placed in a particular section in the binary (I'm not sure where gcc puts them), you could exclude that section. Failing that, you could explicitly exclude symbol names that match a pattern; you may be able to devise a scheme to suppress the literals in the resulting binary (which would obviously fail at runtime if they were ever used). – Jason R Mar 4 '15 at 19:02
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Isolating this bit:

The answer is yes:

-fno-rtti

Disable generation of information about every class with virtual functions for use by the C++ runtime type identification features (dynamic_cast and typeid). If you don't use those parts of the language, you can save some space by using this flag. Note that exception handling uses the same information, but it will generate it as needed. The dynamic_cast operator can still be used for casts that do not require runtime type information, i.e. casts to void * or to unambiguous base classes.

  • 1
    Yeah, that's pretty definite about the doubts I had. I'll accept this answer (let's see what my co-worker will come up with tomorrow..) Also is there a chance that the overriden __verbose_terminate_handler doesn't use any exception related stuff anymore, will even bail out std::type_info::name() support for types used in exceptions? I'm sure my co-worker would jump in triangles for pleasure, and show some somersaults in between :-). – πάντα ῥεῖ Mar 4 '15 at 22:55
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    If you're targeting small devices then build GCC with --disable-libstdcxx-verbose to automatically get rid of the verbose terminate handler (and all its I/O dependencies) – Jonathan Wakely Mar 5 '15 at 20:51
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Are there real life, production code level use cases for std::type_info::name() other than logging?

The Itanium ABI describes how operator== for std::type_info objects can be easily implemented in terms of testing strings returned from std::type_info::name() for pointer equality.

In a non-flat address space, where it might be possible to have multiple type_info objects for the same type (e.g. because a dynamic library has been loaded with RTLD_LOCAL) the implementation of operator== might need to use strcmp to determine if two types are the same.

So the name() function is used to determine if two type_info objects refer to the same type. For examples of real use cases, that's typically used in at least two places in the standard library, in std::function<F>::target<T>() and std::get_deleter<D>(const std::shared_ptr<T>&).

If you're not using RTTI then all that's irrelevant, as you won't have any type_info objects anyway (and consequently in libstdc++ the function::target and get_deleter functions can't be used).

I think GCC's exception-handling code uses the addresses of type_info objects themselves, not the addresses of the strings returned by name(), so if you use exceptions but no RTTI the name() strings aren't needed.

  • If the type_info are not the same, how can you say that the types are the same? – curiousguy Sep 14 '15 at 17:51
  • Because the two type_info objects compare equal. – Jonathan Wakely Sep 14 '15 at 18:17
  • Then why don't the name() compare equal? – curiousguy Sep 14 '15 at 21:44
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    I'm not sure what you're asking, could you clarify? As I said above ("So the name() function is used to determine if two type_info objects refer to the same type."), if they compare equal then the names do compare equal (either by pointer equality or by strcmp), so asking why the names don't compare equal makes no sense. What do you mean by "not the same"? – Jonathan Wakely Sep 14 '15 at 21:55

protected by πάντα ῥεῖ Mar 5 '15 at 20:04

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