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I have a template I want to specialize with two int types, one of them plain old int and another one is intptr_t. On 64 bit platform they have different sizes and I can do that with ease but on 32 bit both types are the same and compiler throws an error about redefinition. What can I do to fix it except for disabling one of definitions off with preprocessor?

Some code as an example:

template<typename T>
type * convert();

type * convert<int>() { return getProperIntType(sizeof(int)); }

type * convert<intptr_t>() { return getProperIntType(sizeof(intptr_t)); }

//this template can be specialized with non-integral types as well, 
// so I can't just use sizeof() as template parameter.
type * convert<void>() { return getProperVoidType(); }
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What's wrong with something like #if COMPILING_FOR_64_BIT_PLATFORM? (Also, you need to fix the return types of the specializations.) –  sbi May 25 '10 at 10:25
If you really want to do this using template magic, I suppose you could come up with something using some form of enable_if which only enables if int and intptr_t are not the same type. –  sbi May 25 '10 at 10:45
Why do you need to explicitly specialise the template for each type? Why not just have one template for all types T which calls getProperIntType(sizeof (T))? If it's important to only handle integer types this way, you can hand off to a helper function using SFINAE (google that) but be warned: it's messy. –  j_random_hacker May 25 '10 at 10:49
@sbi, nothing wrong with it except that is equally hard to get that to work reliably across different compilers and environments. And no, I don't have to fix return types, they are identical to all specializations :) –  vava May 25 '10 at 11:49
@j_random_hacker: I suppose not all types can be treated alike (getProperIntType() vs. getProperVoidType()). Also note that the base template isn't even implemented. It might not be wanted to compile for types other than what it is specialized for. –  sbi May 25 '10 at 14:24

1 Answer 1

What you're trying to achieve is fundamentally impossible: intptr_t is a typedef for int on 32 bit systems, so the compiler can't distinguish them. However, your example could be solved by just specializing the void case:

template<typename T>
type * convert() { return getProperIntType(sizeof(T)); }

type * convert<void>() { return getProperVoidType(); }
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Bad news then. As for your solution, I don't like that it is silently treating all new types as int. Although it can be solved with some kind of static assertion I guess. –  vava May 25 '10 at 11:37

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