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I was reading this tutorial:


and it was mentioned However, template type parameters are not the only type of template parameters available. Template classes **(not template functions)** can make use of another kind of template parameter known as an expression parameter.

So I wrote a program:

#include <iostream>

using namespace std;

    template<typename T,int n>
    bool Compare(T t,const char* c)
    if (n != 1)
     cout << "Exit Failure" << endl;

    bool result=false;
    cout << c << endl;
    cout << t << endl;
    cout << t.compare(c) << endl;
    if(t.compare(c) == 0)
    result = true;

    return result;

int main()
    string name="Michael";

    if (Compare<string,1>(name,"Sam"))
    cout << "It is Sam" << endl;
    cout << "This is not Sam" << endl;
    return 0;

And got the Output:

$ ./ExpressionParameter
This is not Sam

Clearly, here the template parameter is taking int n as expression parameter. So the point mentioned in the tutorial Template classes (not template functions) can make use of another kind of template parameter known as an expression parameter. seems to be incorrect.

Further reading at

Non-type template parameters

also suggest the same.

So what I have understood is that: no matter if it is function template or class template, the template parameter could be template type parameter i.e. typename or expression parameter. The only constraint is that , for expression parameter - it must be constant integral expression. The compiler does not differentiate if it is for function or class.

Is my understanding correct?

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I've never heard of a function template not being able to have non-type parameters. – chris Feb 6 '14 at 2:16

Yes, you seem to understand this correctly.

One use case of this is to write generic code but still get the benefits of a compile-time constant (such as better compiler optimizations).

One example is std::array, which takes such a template size_t parameter for its length. Another example is std::enable_if, which uses a bool.

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