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I'm working on one of the programming challenges in the book Starting Out With C++ Early Objects 7th Edition and one of the assignments asks to create a class which is derived from the STL string class. I'm posting the question for the purpose of understanding what I am allowed to do and how I am supposed to implement the solution so that no one offers more advanced suggestions.

-- Question as it is written in the text --

Palindrome Testing

A Palindrome is a string that reads the same backward as forward. For example, the words mom, dad, madam, and radar are palindromes. Write a class Pstring that is derived from the STL string class. The Pstring class adds a member function

bool isPalindrome()

that determines whether the string is a palindrome. Include a constructor that takes an STL string object as a parameter and passes it to the string base class constructor. Test your class by having a main program that asks the user to enter a string. The program uses the string to initialize a Pstring object and then calls isPalindrome() to determine whether the string entered is a palindrome.

You may find it useful to use the subscript operator [] of the string class: if str is a string object and k is an integer, then str[k] returns the caracter at the position k in the string.

-- End --

My main question is how do I access the member variable which holds my string object if the class I am deriving Pstring from is a class I did not write and I do not know how it implements its members?

For example,

#include <string>
using namespace std;

class Pstring : public string
{
public:
  Pstring(std::string text)
   : string(text) { }

  bool isPalindrome()
  {
    // How do I access the string if I am passing it to the base class?

    // What I think I should do is...
    bool is_palindrome = true;
    auto iBegin = begin();
    auto iEnd   = end() - 1;

    while (iBegin < iEnd && is_palindrome)
    {
      if (*iBegin++ != *iEnd--)
        is_palindrome = false;
    }

    return is_palindrome;

    // But I think this is wrong because...
    // #1 The book did not discuss the keyword auto yet
    // #2 The book discussed when a class is derived from another class,
    //    how the members from super class will be accessible to the sub class.
    //    However, with this assignment, I don't see how to access the members.
  }
}

The reason I feel like I am doing this incorrectly is because the assignment mentions using subscript notation, however, I don't understand how to use the subscript notation if I don't know the name of the variable where the string is stored.

Any help would be greatly appreciated because the author does not provide the solutions unless I am an instructor which is pretty lame in my opinion. It probably has to do with the fact that this is an academic text.

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6  
Never derive from stl classes. Always a bad idea. Why don't you try composition instead? –  Lalaland Dec 24 '11 at 4:41
5  
The author may not provide solutions because he is an idiot. –  Duck Dec 24 '11 at 4:41
3  
@Mehrdad: STL containers and the string class aren't meant to be derived. They offer no virtual destructor which would let your derived class clean up its resources, they offer no protected access to any members. Also note that private inheritance is worlds apart from public inheritance. private inheritance is more like "implemented in terms of", while public inheritance is "is a". –  Xeo Dec 24 '11 at 5:14
7  
"I'm working on one of the programming challenges in the book Starting Out With C++ Early Objects 7th Edition and one of the assignments asks to create a class which is derived from the STL string class." Note to self: never purchase this book, read it, or do anything with it except use it as a door stopper and/or burn it. –  Nicol Bolas Dec 24 '11 at 5:17
3  
@fhaddad: Wait, $130? That's pretty expensive fuel. –  Xeo Dec 24 '11 at 5:24

4 Answers 4

up vote 3 down vote accepted

You shouldn't inherit from std::string, as it wasn't designed for that, nor do you need to in order to find a palindrome.

See this: Inheriting and overriding functions of a std::string?

Palindrome solution (from this question: String in reverse Linked from this: C++ Palindrome finder optimization)

#include <algorithm>

bool isPal(const string& testing) {
    return std::equal(testing.begin(), testing.begin() + testing.size() / 2, testing.rbegin());
}

That book's quality seems questionable. Free functions (depending on who you ask) are almost always preferred over member functions, and especially preferred over inheritance.


If you must use inheritance:

class Pstring : public string
{
    //...

    bool isPalindrome()
    {
      return std::equal(begin(), begin() + size() / 2, rbegin());

      // as a side-note, 'iterator' will refer to the inherited return type of begin()
      // Also, 'operator[](x)' will call the subscript operator
    }
};
share|improve this answer
    
Thank you for the response. I am aware that this is not good practice. However, the assignment specifically asks me to implement my solution the way I am attempting to above. By creating a class which is derived from the STL string class and then to create a function for testing if a string is a palindrome. I am trying to complete the assignment. I can not use any more advanced methods or implement my own solution which deviates from how the assignment requests it. –  user1114264 Dec 24 '11 at 4:49
    
@fhaddad78 You can just wrap that code in a member function. std::string's member functions are still available. –  Pubby Dec 24 '11 at 4:58
    
Thanks for the response. I overlooked calling operator[](x) directly and was trying to figure out how to use the infix notation. –  user1114264 Dec 24 '11 at 5:15
1  
@fhaddad78: (*this)[x]. *this yields Pstring&, on which you can call operator[]. –  Xeo Dec 24 '11 at 6:20

Try this:

#include <string>

class Pstring : public std::string
{
public:
    Pstring(const std::string &text)
        : std::string(text) { }

    bool isPalindrome()
    {
        std::string::size_type len = length();
        std::string::size_type half = len / 2;
        for (std::string::size_type idx = 0; idx < half; ++idx)
        {
            if ((*this)[idx] != (*this)[len-idx-1])
                return false;
        }
        return true;
    }
};
share|improve this answer

The book didn't cover auto because that keyword was only recently added to the language. If your compiler is over a year old or not one of the big names it probably doesn't support it.

For this problem you don't need to access any member variables for a proper solution, so there's no need to worry about what they are or whether they're reachable. Good thing, because none of that is specified by the standard - it's all implementation details defined by your particular compiler, and if you find yourself digging that deeply you should ask yourself what you're doing wrong.

Of course member functions of the parent class are accessed exactly as member functions of the child class - you just call them.

Member operator overloads are a little trickier, but still not too bad. You need to supply the instance to invoke them against, which is *this. You can also call them with the operator keyword but in my opinion that's a little clumsier.

if ((*this)[i] == (*this)[j])

if (operator[](i) == operator[](j))
share|improve this answer
1  
auto the keyword has been around since B. auto doing something useful is what was recently added. –  Pubby Dec 24 '11 at 5:11
    
@Mark Ransom OK. I'm going chalk this up to just a bad assignment all together. I was just really confused by this problem because it mentions using subscript notation in my solution which I don't understand how to do unless I were to overload the subscript operator or unless my string was sitting in a member variable which I could locate, but it seems like I can't. –  user1114264 Dec 24 '11 at 5:12
1  
@fhaddad78, I've updated the answer to include member operators. –  Mark Ransom Dec 24 '11 at 5:45
    
@MarkRansom: Thank you for that. I was able to do it how I think the book is asking me to despite it being a little silly. I think the point of the whole thing was to get me to understand access specifiers, inheritance, etc. –  user1114264 Dec 24 '11 at 6:08

If you do not want to use auto, then you can simply use std::string::iterator instead, which is what auto is resolving to anyways in this case.

Thus problem #1 is satisfied.


When you are calling begin() and end() you are calling the members begin() and end() in the superclass std::string.

Thus problem #2 is satisfied.

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