Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm working on some code I would like to integrated in a library. I would like it to have no outside dependencies and be standards compliant. I want to use a template to create a unique type to allow compile time type checking.

The code below is from msdn, it is not what I try to do. What I try to do is use a template to have a unique type everytime the user instantiates it using a macro. This way one can do compile time checking that the types don't mix. Im working on the code from this article: http://www.artima.com/cppsource/safelabels.html and yes, I'm aware of the existence of std::bitset thank you.

As Tony pointed out, __LINE__ isn't a strong guarantee for uniqueness anyway.

I run into the following error:


C2975 will also occur when you use `__LINE__` as a compile-time constant with /ZI:

// C2975b.cpp
// compile with: /ZI
// processor: x86
template<long line> 
void test(void) {}

int main() {
    test<__LINE__>();   // C2975
    test<__LINE__>();   // OK

Compiling without /ZI is all good, but it is default in msvc and I don't envision having all users of my library first running into compiler errors until I tell them to turn of that switch.

How would you tackle this problem?

The only realistic idea I have so far is checking for the presence of msvc and then use __COUNTER__ for msvc...

Actually __COUNTER__ does not work, because I need types to be unique at each declaration, but for different translation units they have to be the same, otherwise I get linker trouble of unresolved external references.

share|improve this question
erm... that's not a template like I have ever seen it done template<class T> void test(void) {} would be the standard way I know off –  thecoshman Nov 8 '10 at 23:39
If you just want a unique value, how about using __COUNTER__ on MSVC, and __LINE__ on everything else? Does __COUNTER__ trigger the same warning? –  Steve Jessop Nov 8 '10 at 23:45
I think Boost might have some functionality tucked away somewhere for generating unique types like this. Might be worth taking a look. –  jalf Nov 8 '10 at 23:52
@ufotds: sorry, didn't realise that you'd tried it, and got a bit confused whether you did just want the unique value. Sounds as though __LINE__ (non-conformingly) isn't a compile-time constant with /ZI. I'd certainly tackle it by using the workaround, rather than by telling my clients to use a conforming compiler^W^W^W /Zi. –  Steve Jessop Nov 9 '10 at 0:06
How would this handle people using the template from the same line in different files? Doesn't seem much point finding out how to work around this strange VC++ quirk if you still get a broken solution.... –  Tony D Nov 9 '10 at 1:43

1 Answer 1

The first challenge to get unique instantiations is to differentiate between translation units. Luckily, this bit is easy:

namespace { struct unique_type {}; }
template<typename T> int foo() { return 42; }
static int bar = foo<unique_type>();

This can be put in a header, and will instantiate a different foo<unique_type>() in every Translation Unit. Adding the __LINE__ takes a bit of work due to the MSVC bug:

namespace {
    struct unique_type{};
    const int LINE = __LINE__;
template<typename T, int N> int foo() { return 42; }
static int bar = foo<unique_type, LINE>();
share|improve this answer
Hi, thanks. The anonymous namespace trick is quite cool. I'm glad to learn about this. However I don't entirely understand what goes on. You seem to create a unique function? The type of bar will always just be int right? What I try to do is compile time checking, so in fact as far as I understand it a type to be unique in one translation unit. I want to prevent users to use operators and assignment of something that is basically an int, but has a different semantic meaning and should not be mixed. So I want to pass something unique as parameter of a template so I get a unique type. –  nus Nov 9 '10 at 15:59
It turns out __LINE__ is probably not the best thing anyway, because if people declare something in different headers on the same line or in the same file on the same line, that is not unique. I currently have a macro which hides all this from the end user. They just specify the name of their type and can then rest easy that it won't get mixed with others declared elsewhere. –  nus Nov 9 '10 at 16:02
just using __COUNTER__ works but is not standard compliant and not supported by all compilers –  nus Nov 9 '10 at 16:04
@ufotds: Yes, the bar is just a dummy definition so I can show the instantiations of foo<unique_type>. Each translation unit (.cpp plus its headers) has its own anonymous namespace, therefore its own unique_type, and therefore also its own foo<unique_type>. –  MSalters Nov 10 '10 at 8:19

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.