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I would like to use something like typedef in my C++ programs to enhance type safety.

As an example, suppose I have two functions

void function1(unsigned idOfType1);
void function2(unsigned idOfType2);

then I can mistakenly pass idOfType2 to function1 and vice versa. I want the compiler to give me an error in this case. I am aware that I could wrap these unsigned in a struct, but then I'd have to give provide a field name and use . to access them, which is slightly inconvenient. Is there a good way around this?

Edit: As far as I know typedef will not work for this purpose as it is just a shorthand for a type and will not be used for type checking.

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Enums work well in your case... – Alexander Pavlov Mar 6 '12 at 16:44
@AlexanderPavlov care to elaborate, it is not obvious to me ... – Paul Mar 6 '12 at 16:47
@Paul: you can write something like enum Type1 { dummy0 = 1, dummy1 = 1<<1, dummy2 = 1<<2, ..., dummy31 = 1<<31};, and assuming unsigned is a 32 bit type on your implementation then the result is an enum that can hold any value of unsigned. Then void function1(Type1 id) won't accept a Type2, because enums aren't implicitly convertible to each other. – Steve Jessop Mar 6 '12 at 16:49
@SteveJessop: right, I meant a similar approach but not with the powers-of-two values - Paul is not going to bitwise-or them, does he? – Alexander Pavlov Mar 6 '12 at 16:52
@SteveJessop I see, thanks for the explanation. It feels a little hackish, though. How would conversion from and two integers work? – Paul Mar 6 '12 at 16:54

5 Answers 5

up vote 5 down vote accepted

As you say, a typedef won't help you here. I can't think of a better way immediately, however if you go with your wrapping in a struct/class option you could use a conversion operator to eliminate the member method or function call.

For example:

struct WrappedType
    operator type()
         return _value;

    type _value;  

I'm not saying this is the way to do it mind you ;-)

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can you show me how I could use the type operator? Boost strong typedef looks like a good option in general, but might not work in my case, so I am interested in this solution! – Paul Mar 6 '12 at 16:49
As far as I understand, it's exactly what boost's strong typedef do... – Griwes Mar 6 '12 at 16:52
@Konrad great! Thanks for elaborating. If I can't use boost strong typedef then I will use this solution. – Paul Mar 6 '12 at 16:58
@Konrad I like this answer as it gave me insight into the type operator I was previously unaware of, so I am going to accept you. – Paul Mar 6 '12 at 17:07
It's one of those funny things in C++ you don't normally encounter :-) – Konrad Mar 6 '12 at 17:08

Use Boost strong typedef:

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I should have checked boost before asking ... thanks for the fast answer! – Paul Mar 6 '12 at 16:46
Note that Boost strong typedef allow implicit conversion in assignments. – larsch Sep 23 at 8:51

I want this into the language. Not a reply per se, but... :)

Opaque typedefs

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There is a c++11 feature called enum class, which is basically a type safe enum. Maybe they can help here.

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enums are always typesafe, e.g. enum x { a }; enum y { b }; y = a; would not compile.- – phresnel Mar 6 '12 at 16:48
@phresnel I think this is only half-true as enums will be implicitly converted to ints, no? – Paul Mar 6 '12 at 16:55
@Paul: let's agree on 0.75*true, as the opposite is not true. So, would seem like enums are 75% typesafe, ... – phresnel Mar 6 '12 at 17:13
@phresnel Ok, I was always uncomfortable with boolean being binary anyway! – Paul Mar 6 '12 at 17:18
@Paul: qubool, maybe :D – phresnel Mar 6 '12 at 21:41

You can check the type in your function, so that if it didn't match, you can print an error or something.

You can use typeid to detect variable type, as follows:


As suggested in one of the answers here, this is compiler-dependent and you have to use try-and-error method to find out which value works for you.

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But then I would have to do that in every function call + it's compiler dependent? sorry, I don't think that this is a good choice... – Paul Mar 6 '12 at 17:59
Doesn't work anyway - the type of the parameter idOfType1 in function1 is always unsigned. What was passed by the caller has already been converted. – Steve Jessop Mar 6 '12 at 18:15

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