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I was just reading the Wikipedia article on C11, the new version of the C standard released in Dec 2011, and I saw that one of the added features was "type-generic expressions":

Type-generic expressions using the _Generic keyword. For example, the following macro cbrt(x) translates to cbrtl(x), cbrt(x) or cbrtf(x) depending on the type of x:

#define cbrt(X) _Generic((X), long double: cbrtl, \
                              default: cbrt, \
                              float: cbrtf)(X)

This looks pretty horrible to me - if they are going to change the language anyways, why not just add function overloading like in C++?

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Probably because that'd require name mangling, and _Generic can be resolved completely at compile-time. Anyway, if you're serious about generic programming you shouldn't be looking at C. –  Cat Plus Plus Jan 7 '12 at 23:33
function overloading would likely incur a huge backwards compatibility problem in virtually all implementations (think how C runtimes/linkers/loaders treat symbols) –  nos Jan 7 '12 at 23:36
@CatPlusPlus: Allowing overloading for functions declared "inline" would have provided 99% of the benefit of general function overloading, without any name-mangling issues. Even if one wants to be able to call an overloaded function from other modules, one could simply include within the header file overloaded "inline" functions which would then call differently-named functions for different parameter types. The names of the functions would be specified in the header file, so no compiler-specific mangling would be required. Would there have been any problem with that? –  supercat Jan 7 '12 at 23:51
@supercat: Except inline does not guarantee (nor should it) actual inlining (plus it's an optimisation that can be turned off, and you can't let code break when optimisation settings change). _Generic is a way to avoid mangling, by creating a closed set of already-mangled names. –  Cat Plus Plus Jan 7 '12 at 23:59
@CatPlusPlus: It's true that a compiler is free to generate an actual linked instance of a function rather than inlining it, but my understanding was that in such cases the compiler converts "inline" to "static", and thus a function declared "inline" is only callable from the module where it is declared. Because such functions do not have internal linkage, compilers would be free to do anything they want with the name provided only that it doesn't match anything in any other module. A compiler could simply assign GUIDs (with punctuation removed) if desired--it really wouldn't matter. –  supercat Jan 8 '12 at 0:09

1 Answer 1

up vote 17 down vote accepted

C has one namespace for external symbols, and applies the ODR such that two extern objects with the same name in two translation units must have the same definition.

Although it's possible to create a C ABI that supports overloading, the main strength of C is its ABI simplicity. On almost all platforms "the" ABI is the C ABI, and it plays some role in execution no matter the source language. This would be lost if symbols had to include type information.

TGE (as used by the library) is just a manually-operated version of name mangling. It does (or will do, sometime in the possibly very distant future) the job it needs to do, to allow typedef declarations to control generation of math-intensive inner loops. People who need the features of a language like C++ should port to C++.

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