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struct rowDisplayPolicy
  static std::string seperator() { return ", "; }

struct columnDisplayPolicy
  static std::string seperator() { return "\n  "; }

template <typename T, int Size, typename DisplayPolicy>
class Array {
  Array() : pArray(new T[Size]) {}
  Array(T* pT) : pArray(new T[Size])
    for(int i=0; i<Size; ++i)
    *(pArray + i) = *(pT + i);
  ~Array() { delete [] pArray; }
  T& operator[](int n)
    if(n<0 || Size<=n) throw std::Exception("index out of range");
    return *(pArray+n);
  T operator[](int n) const
    if(n<0 || Size<=n) throw std::Exception("index out of range");
    return *(pArray+n);
  void display() const
    std::cout << "\n  ";
    for(int i=0; i<Size-1; ++i)
      std::cout << *(pArray+i) << DisplayPolicy::seperator();
    std::cout << *(pArray+Size-1) << "\n";
  Array(const Array<T,Size,DisplayPolicy>&);  // make public impl. Later
  Array<T,Size,DisplayPolicy>& operator=(const Array<T,Size,DisplayPolicy>&); // ditto
  T* pArray;

I have a question that, Why operator[] overloading two different ways. and What's difference between them. I don't know clear the meaning of 'function() const'. can you show me some examples.

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Why does the second one return a copy rather than a const reference? And as for const, that is easily google-able. – Corbin Mar 7 '12 at 21:52

Member functions have an implicit parameter this, the trailing const is used for function overload resolution. You can think of it like this:

void Array::function() -> void function( Array* this )

void Array::function() const -> void function( Array const* this )
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const on a method means that the method cannot allow modification of the object.
The first operator[] returns a reference to the element at n (and hence allows modification of the array) - it could not be called on objects that are const.
The second operator[] returns a copy of the element at n. It does not modify the array - and can be called on objects that are const. Eg:

Array<int, 10> my_array1();
int test1 = my_array1[0]; // Calls first operator[]

const Array<int, 10> my_array2();
int test2 = my_array2[0]; // Calls second operator equals

This would more often apply to the context where the array is passed to a function as a parameter where it maybe qualified as const because it wants the function to be able to read the array but not change it.

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