9

I had a need to do a case insensitive find and found the following code which did the trick

bool ci_equal(char ch1, char ch2)
{
    return toupper((unsigned char)ch1) == toupper((unsigned char)ch2);
}

size_t ci_find(const string& str1, const string& str2)
{
    string::const_iterator pos = std::search(str1. begin ( ), str1. end ( ), str2.
    begin ( ), str2. end ( ), ci_equal);
    if (pos == str1. end ( ))
        return string::npos;
    else
        return pos - str1. begin ( );
}

That got me to wondering what it would take to make this a member function of 'string' so it could be called like this:

string S="abcdefghijklmnopqrstuv";
string F="GHI";

S.ci_find(F);

I realize that there are many problems with case conversions in non-English languages but that's not the question I'm interested in.

Being a neophyte, I quickly got lost among containers and templates.

Is there anyway to do this? Could someone point to me an example of something similar?

3
  • If you're specifically asking, "does C++ have extension methods like C#?", then the specific answer is "no". There's no way to add member functions to the actual std::string class, short of hacking your implementation. That may not be as difficult as it sounds, but it is as bad an idea as it sounds. Commented Aug 22, 2010 at 15:53
  • 3
    Oh, and "Could someone point to me an example of something similar?" - the code you've already written is the C++-ish way of doing it. Classes are "extended" or "enhanced" by providing non-member functions that act on them, and C++ programmers are not so desperately in love with the . member function call syntax that they consider this a problem ;-) Commented Aug 22, 2010 at 15:57
  • I'd like to thanks everyone who responded to this query. It seems the short answer is "No, it's impossible to add other member functions to string". As that was at the core of my query, I decided to accept Tom's reply.
    – Mike D
    Commented Aug 22, 2010 at 20:20

4 Answers 4

12

I think most more experienced C++ programmers would agree that this is poor idea. If anything, std::string already has way too many member functions, and adding still more will make a bad situation worse. Worse still, if you were going to do this, you'd probably do it by inheritance -- but std::string isn't designed to be used as a base class, and using it as one will lead to code that's fragile and error-prone.

For another idea of how to do this, you might want to read Guru of the Week #29. Do read the whole article though, to get an idea of both how to do it, and why you probably don't want to. Ultimately, what you have right now is probably the best option -- keep the case insensitive searching separate from std::string itself.

11
  • 1
    Agreed that std::basic_string is not designed to be inherited from because it does not have a virtual destructor and so a polymorphic deletion of an instance of your extended class (call it stringex) using a basic_string pointer would leak because stringex's destructor doesn't get called. But what if stringex didn't need, and doesn't even define a destructor, because all that this class contains are native types and additional member functions, no memory allocation. Is there still a problem in that case?
    – Praetorian
    Commented Aug 22, 2010 at 17:24
  • @Praetorian: it is still undefined behavior, and it is still unnecessary because the idiomatic way to achieve the same (while better preserving encapsulation) is to define non-member functions. Commented Aug 22, 2010 at 18:45
  • @jalf: What's undefined about it? (I'm not arguing with you, just trying to understand). In the scenario I described, the only destructor that needs to be called is basic_string's, which should be called when the stringex object gets deleted using a basic_string pointer regardless of whether the latter has a virtual destructor or not. Or is the undefined part the usual use case where it is not defined whether stringex's destructor will call basic_string's destructor?
    – Praetorian
    Commented Aug 22, 2010 at 19:29
  • @Praetorian: It's undefined because the pointer passed to operator delete isn't the same as the one returned by operator new unless you either have a virtual destructor or delete the most-derived object. Commented Aug 22, 2010 at 19:36
  • 1
    Note that replacing the char_traits parameter replaces case-sensitive behavior with case-insensitive. To perform a case-sensitive find on a ci_string, a free function would be needed… full circle. Commented Aug 22, 2010 at 19:50
11

std::string is not made to be extended.

You could encapsulate an std::string into a class of yours and set those member functions in that class.

6

Perhaps following the Standard Library Algorithms <algorithm> methodology could be beneficial. It wouldn't surprise users as much. :-)

Algorithm Functions as an example.

1
  • Yeah, although as his implementation of ci_find shows, if he provided this as an algorithm it would just be a slight variant of std::search using a particular predicate. Commented Aug 22, 2010 at 16:02
1

Most of the time, it will be sufficient to define a functor. More specifically, a less-than comparator. The benefit is that the functor, along with the unmodified string class, can be stored in STL containers, and STL will use your custom functors for operations.

It is a class with a default constructor and an overloaded function call operator
bool operator()(const string& x, const string& y)
which performs case-insensitive comparison.

You can also define a equality functor, depending on your need.

True, it is no longer possible to use the == and < operators literally on objects of your string class, instead you'd need to create an instance of the functor and use it like a function call. But I don't think there's any other alternative in C++.

Edited: I misunderstood the question. The non-relevant part of response is removed.

Edited 2: Please completely disregard my answer ...

6
  • So, I define a class qqq with a definition of the () operator, declare an instance ci_find and then call ci_find(s1,s2). Why is that any better than simply defining ci_find as I did? I guess I could encapsulate the compare function within the class. Or are you saying that it could be made part of string or basic_string?
    – Mike D
    Commented Aug 22, 2010 at 20:34
  • @Mike: I'm sorry for giving a wrong answer caused by me not reading the question carefully. Your question, in fact, is a extremely interesting one and warrants a more detailed response. I'm going to abandon my first answer and write up a second one. (Sorry it'll take a long time.) thanks.
    – rwong
    Commented Aug 22, 2010 at 22:46
  • @Mike: (1) if your platform or C++ library provides a case-insensitive substring search, use it. It might be named stristr, wcsistr etc. (2) if you're going to write your own, make sure you understand Knuth-Morris-Pratt and Boyer-Moore algorithms. (3) Also make sure you understand char_traits. As @Potatoswatter pointed out, your case-insensitive char_traits shall not be used to specialize basic_string, but rather is used to specialize your KMP or BM implementation. It's non-trivial, so try harder looking for an existing implementation, or use your current one.
    – rwong
    Commented Aug 22, 2010 at 22:51
  • @rwong: I'm not really concerned about the specific task of a case insensitive find. Rather I was curious to know if I could somehow add functions to string or basic_string. I can see lots of uses for this and to me it's much more elegant than adding bare functions or classes. I have seen examples of functors used with things like multimap. I'll look forward to anything more you have to say on this issue.
    – Mike D
    Commented Aug 23, 2010 at 1:32
  • @Mike: as @SteveJessop pointed out, C++ programmers try to be as pragmatic as possible and are not addicted to syntactic sugar. They are much more concerned about preventing possible bugs that might be introduced by breaking the encapsulation, a.k.a. extending the basic_string class.
    – rwong
    Commented Aug 23, 2010 at 2:51

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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