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I have some C++11 code using the auto inferred type that I have to convert to C++98. How would I go about converting the code, substituting in the actual type for all instances of auto?

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auto is compile time, not runtime. It's a convenience feature, so you could just deduce the type from the expression. If that's difficult, just replace auto with a type you know is wrong and look at the compiler's error message. "cannot convert from 'x' to 'y'" where 'x' is your type. – Adam Jun 26 '14 at 23:11
Why are you converting it back if you don't mind me asking? – Ben Jun 26 '14 at 23:14
That's one way to do it manually, but I'd like to automate the process, and I don't know how to deduce the type. I want to do this because I have to submit source code for solutions to a programming contest, and their system only compiles C++98. – user1825464 Jun 26 '14 at 23:22
@BryanChen: that is similar but their solutions require running the program. – Blaisorblade Jun 27 '14 at 11:32
up vote 5 down vote accepted

It is going to be a PITA, but you can declare an incomplete struct template accepting a single type parameter.

Given the variable x you want to know the type of, you can use the struct with decltype(x) and that will lead to a compiler error that will show you the inferred type.

For example:

template<class Type> struct S;

int main() {
    auto x = ...;

Live demo

which will produce an error message in the form:

error: implicit instantiation of undefined template 'S<X>' (clang++)
error: invalid use of incomplete type 'struct S<X>' (g++)

with X being the inferred type. In this particular case the type is int.

Trivia: This has been recommended by Scott Meyer in one of the recent NDC 2014's videos (I don't remember which one).

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This approach gets pretty hairy when containers from the standard library are used. Check out – R Sahu Jun 27 '14 at 15:25
@RSahu Yes, it does. – Shoe Jun 27 '14 at 15:27
This only works if the compiler implements decltype, which is likewise a C++11 extension. Pre-C++11 compilers do implement this feature variously as typeof (GCC, Clang) or decltype (MSVC) but not with exactly the same semantics as were standardized. – Potatoswatter Jan 20 '15 at 9:43

As auto is known at compile-time, you need to interoperate with the compiler.

One option would be the Clang compiler's LibTooling library that provides infrastructure that you can base static analysis tools on. For example, look at their refactoring example code that removes superfluous .c_str() calls from the code. I think you could write a similar tool that converts auto into the inferred type.

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Is there a good reasons why C++ IDEs don't do that already? – Blaisorblade Jun 27 '14 at 11:34

You can try to use the BOOST_AUTO macro in the Boost typeof library.

auto x = 5 + 7;


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Interesting, so if I just run the preprocessor it'll directly replace the expression with a literal type? Or does it come with some strings attached, like decltype? – user1825464 Jun 27 '14 at 1:47
@user1825464 As far as I know it should work. Though you might want to note how to declare const auto x. See this question… – zdan Jun 27 '14 at 1:55

You could use typeid and std::type_info::name();

#include <iostream>
#include <typeinfo>
#include <complex>

  using namespace std::literals::complex_literals;

  auto x = 3.1415F;
  std::cout << typeid(x).name() << '\n';
  auto z = 1.0 + 1.0i;
  std::cout << typeid(z).name() << '\n';

$ /home/ed/bin_concepts/bin/g++ -std=c++14 typeid.cpp 

$ ./a.out

The names aren't beautiful but you can at least translate them. These names are got from g++. The name is compiler dependent. There is some movement to standardize a pretty_name(). Here is a non-standard way to unmangle the names.

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An alternative approach would be to use function templates and type deduction. It may not work in all examples you have but it may help in some cases:

int foo ()
   auto x = bar();
   // do something with 'x'

Change this to:

template <typename T> int foo_(T x)
   // do something with 'x'

int foo ()

auto is specified in terms of type deduction, so the above should have very similar, if not identical semantics as the C++ '11 version.

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