up vote 6 down vote favorite
1
share [g+] share [fb]

I am trying to specialize template the following way:

template<size_t _1,size_t _2> // workaround: bool consecutive = (_1 == _2 - 1)>
struct integral_index_ {};
...
template<size_t _1>
struct integral_index_<_1, _1 + 1> { // cannot do arithmetic?
//struct integral_index_<_1, _2, true> { workaround
};

however I get compiler message error

the template argument list of the partial specialization includes a non
-type argument whose type depends on a template parameter.

what do my doing wrong? thanks

I put workaround in comments. Apparently I cannot do arithmetic in template specialization? seems counterintuitive.

here is my final solution in the problem to be solved. Basically, consecutive index requires one multiplication only.

130 template<size_t _1,size_t _2, bool consecutive = (_1 == _2 - 1)>
131 struct integral_index_ {
132     template<typename T, typename U>
133     __device__
134     static T eval(const T (&N)[4], const U &index) {
135         T j = index/N[_1];
136         return ((index - j*N[_1])*range<0,_1>::multiply(N) +
137                 j*range<0,_2>::multiply(N));
138     }
139 };
140
141 template<size_t _1,size_t _2>
142 struct integral_index_<_1, _2, true> {
143     template<typename T, typename U>
144     __device__
145     static T eval(const T (&N)[4], const U &index) {
146         return index*range<0,_1>::multiply(N);
147     }
148 };
149
150 template<size_t _1,size_t _2, typename T, typename U>
151 __device__
152 T integral_index(const T (&N)[4], const U &index) {
153     return integral_index_<_1,_2>::eval(N, index);
154 }
link|improve this question
77% accept rate
1  
A bit bigger picture would help here. You have to do a bit of design change to get the same effect. Also, the line numbers tend to get in the way. :) – GManNickG Apr 11 '10 at 3:10
@GMan I suppose I can use extra default argument, bool consecutive = _1 == _2 - 1? – Anycorn Apr 11 '10 at 3:13
I'm looking forward to seeing this one answered. It will advance my understanding of the language. – Omnifarious Apr 11 '10 at 3:16
1  
@aaa: What are you hoping to do, though? – GManNickG Apr 11 '10 at 3:18
2  
@aaa: Ah, I see. What you have seems to work pretty well, pretty clean too. :) You should post it as an answer and accept it. – GManNickG Apr 11 '10 at 4:16
show 4 more comments
feedback

5 Answers

up vote 4 down vote accepted

I am posting my solution is suggested by GMan

130 template<size_t _1,size_t _2, bool consecutive = (_1 == _2 - 1)>
131 struct integral_index_ {
132     template<typename T, typename U>
133     __device__
134     static T eval(const T (&N)[4], const U &index) {
135         T j = index/N[_1];
136         return ((index - j*N[_1])*range<0,_1>::multiply(N) +
137                 j*range<0,_2>::multiply(N));
138     }
139 };
140
141 template<size_t _1,size_t _2>
142 struct integral_index_<_1, _2, true> {
143     template<typename T, typename U>
144     __device__
145     static T eval(const T (&N)[4], const U &index) {
146         return index*range<0,_1>::multiply(N);
147     }
148 };
149
150 template<size_t _1,size_t _2, typename T, typename U>
151 __device__
152 T integral_index(const T (&N)[4], const U &index) {
153     return integral_index_<_1,_2>::eval(N, index);
154 }
link|improve this answer
1  
You can get rid of the static eval and just make the value an actual static variable. That way you can access the value as a nested ::value rather than calling a function (that still happens at runtime). – Dean Michael Apr 11 '10 at 10:03
Depending what multiply does, maybe that expression can even be moved into an enum. (After eliminating the call, of course.) – Potatoswatter Apr 11 '10 at 13:25
feedback
up vote 1 down vote

Try something like this:

template<size_t _1,size_t _2>
struct integral_index_ {};

template<size_t _1>
struct integral_index_2 : public integral_index_<_1, _1+1> {
};
link|improve this answer
I am trying to specialize cases where second argument is one greater than first – Anycorn Apr 11 '10 at 3:08
Then he loses the effect he wanted. – GManNickG Apr 11 '10 at 3:09
@aaa: That won't work. – Dietrich Epp Apr 11 '10 at 3:10
@aaa: See edit. – Brian R. Bondy Apr 11 '10 at 3:22
hello I just put something similar using third template parameter in the original post – Anycorn Apr 11 '10 at 3:25
feedback
up vote 1 down vote

You can also move the condition from the primary template into the specialization. The trick is that while non-type parameters in sub-expressions aren't allowed in non-type specialization arguments, they are allowed in type arguments

template<bool C> struct bool_ { };

template<int _1, int _2, typename = bool_<true> >
struct mapping {
  // general impl
};

template<int _1, int _2>
struct mapping<_1, _2, bool_<(_1 + 1) == _2> > {
  // if consecutive
};

template<int _1, int _2>
struct mapping<_1, _2, bool_<(_1 * 3) == _2> > {
  // triple as large
};

Occassionally, people also use SFINAE for this. The following accesses ::type which is only there if the condition is true. If it is false, the type is not there and SFINAE sorts out the specialization. 

template<int _1, int _2, typename = void>
struct mapping {
  // general impl
};

template<int _1, int _2>
struct mapping<_1, _2, 
               typename enable_if<(_1 + 1) == _2>::type> {
  // if consecutive
};

template<int _1, int _2>
struct mapping<_1, _2, 
               typename enable_if<(_1 * 3) == _2>::type> {
  // triple as large
};

With enable_if being the following well-known template

template<bool C, typename R = void>
struct enable_if { };

template<typename R = void>
struct enable_if<true, R> { typedef R type; };
link|improve this answer
feedback
up vote 0 down vote

I think the problem is that your attempting to specialize by value instead of type...

link|improve this answer
2  
You can specialize by value. The problem is the arithmetic within the specialization. – GManNickG Apr 11 '10 at 3:12
feedback
up vote 0 down vote

Here's something that works for me: use a default argument for _2 instead of trying to specialize.

template <size_t _1, size_t _2 = _1 + 1>
struct integral_index_ {};

Does that look like what you want?

link|improve this answer
aaa really wants to write a specialized version of the template, not just a default argument. Anyway, he already found a nice workaround with the "bool consecutive = (_1 == _2 - 1)" trick :) – bohan Apr 11 '10 at 3:59
feedback

Your Answer

 
or
required, but never shown
discard

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