Although coppro mentioned two solutions already and Anonymous explained the second one, it took me quite some time to understand the first one. Maybe the following code is helpful for someone stumbling across this site, which still ranks high in google, like me. The example (passing a vector/array/single element of numericalT as dataT and then accessing it via [] or directly) is of course somewhat contrived, but should illustrate how you actually can come very close to partially specializing a member function by wrapping it in a partially specialized class.

```
/* The following circumvents the impossible partial specialization of
a member function
actualClass<dataT,numericalT,1>::access
as well as the non-nonsensical full specialisation of the possibly
very big actualClass. */
//helper:
template <typename dataT, typename numericalT, unsigned int dataDim>
class specialised{
public:
numericalT& access(dataT& x, const unsigned int index){return x[index];}
};
//partial specialisation:
template <typename dataT, typename numericalT>
class specialised<dataT,numericalT,1>{
public:
numericalT& access(dataT& x, const unsigned int index){return x;}
};
//your actual class:
template <typename dataT, typename numericalT, unsigned int dataDim>
class actualClass{
private:
dataT x;
specialised<dataT,numericalT,dataDim> accessor;
public:
//... for(int i=0;i<dataDim;++i) ...accessor.access(x,i) ...
};
```