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Scenario

I’ve run into a speedbump while using the STL with what seems like a normal scenario, simplified here:

class Person {
  string Name;
  int    Age;
};

vector<Person> people;
AddPeople(people);

string s("Bob");
find(people.begin(), people.end(), s);


Problem

Unfortunately find wants to compare the entire class.


Question

Is there a better or more appropriate way to do this the “STL way”? The suggested questions weren’t helpful, but I managed to find a couple of related questions but no direct solution.



Work-arounds/Tests

There’s some potential work-arounds:

  1. Forgo find altogether (cluttered, but could be refactored):

    bool bBob = false;
    for (UINT i = 0; i < people.size(); i++) {
      if (people[i].Name == s)
      bBob = true;
      break;
    }
    
  2. Provide conversion operator (implicit conversion doesn’t work; explicit can’t be used in find):

    class Person {
      string Name;
      int    Age;
      operator string() {return Name;}
    };
    
    Person b ("Bob", 99);
    string s ("Bob");
           b  == s;     //doesn’t work
    string(b) == s;     //works, but no good for find()
    
  3. Define a standalone equality operator (simple, effective, but globally exposed):

    BOOL operator==(Person l, string r) {
      return l.Name == r;
    }
    
  4. Define a member equality operator (makes comparison order dependent; object must be first):

    class Person {
      string Name;
      int    Age;
      bool operator==(string s) {return Name == s;}
    };
    
    Person b ("Bob", 99);
    string s ("Bob");
    b==s;               //works
    s==b;               //doesn’t work, but not a problem for find()
    

It looks like #4 is the best candidate, but none seem ideal or feel “STL”, and some have problems.

share|improve this question

Is there a better or more appropriate way to do this the “STL way”?

You can use std::find_if (powered by C++11 lambdas):

std::string name = "Bob";
// ...
std::find_if(std::begin(people), std::end(people), 
    [&] (Person const& p) { return p.Name == name; }

Notice, that calling it "STL way" is inappropriate. This is the C++ Standard Library, not the STL ("Standard Template Library"). The STL served as a strong inspiration for the Containers and Algorithms Library of the C++ Standard Library, but the two things are not the same. See this Q&A on StackOverflow for further information.

EDIT:

Since you are using a compiler that does not support lambdas, you can define your own functor predicate:

struct person_has_name
{
    person_has_name(std::string const& n) : name(n) { }  
    bool operator () (Person const& p) { return p.Name == name; }
private:
    std::string name;
};

And use it with std::find_if this way:

std::string name = "Bob";
// ...
std::find_if(people.begin(), people.end(), person_has_name(name));
share|improve this answer
    
You can use std::find_if (powered by C++11 lambdas). Hmm, I just dug out my copy of a C++ book and sure enough it does (briefly) mention find_if. I’ll look into that (hopefully VS2003 supports it). Thanks for the information about STL≠C++SL, I resisted STL for a long time and stuck to MFC, so I’m not familiar with the distinctions. – Synetech May 8 '13 at 16:30
    
@Synetech: Unfortunately, VS2003 does not support it. You would need VS2010 at least. Otherwise, you can define your own functor – Andy Prowl May 8 '13 at 16:32
    
Ah, okay. I have a book from 2005 that mentions find_if, so I figured it was from C99; I’m fine with using it with a functor. – Synetech May 8 '13 at 16:36
    
@Synetech: I updated the answer, this should work with VS2003 – Andy Prowl May 8 '13 at 16:36

There are a couple of ways to do it, all involving some kind of callable objects and std::find_if.

The first is to use the new C++11 lambda:

std::find_if(people.begin(), people.end(), [](const Person& person)
    { return person.Name == "Bob"; });

If you have an older compiler that doesn't support lambdas, you could use a functor object:

class FindPersonByName
{
    std::string name;

public:
    FindPersonByName(const std::string& name) : name(name) {}

    bool operator()(const Person& person) const
        { return person.Name == name; }
};

std::find_if(people.begin(), people.end(), FindPersonByName("Bob"));

Of course both of these requires your class to have the Name member public. But you can change it to use a public GetName function instead and add that to the class.

share|improve this answer
    
That looks promising. Using arrays (even simulated arrays) feels “old fashioned” and doesn’t fit the “container way”. I’ll give both a shot. – Synetech May 8 '13 at 16:34
    
Isn’t there a way to use a callback instead of a lambda? Something like: bool CompName(Person p, string s) {return p.Name==s;} … find_if(people.begin(), people.end(), "Bob", CompName); Hmm, it looks like a adapter might work. – Synetech May 8 '13 at 17:04
    
@Synetech The C++11 way is to use std::bind, but since you seem to have an old compiler then one of the (now) deprecated function adaptors would have to do. – Joachim Pileborg May 9 '13 at 0:34

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