5

I have a class which has a map. I need to find iterator in map by searching for a particualar value, instad of the key. Using a member function predicate IsValueFound, am trying this.

class A
{
public:
  void findVal();
private:
 int state;
 map<int, int> exmap;
 bool IsValueFound(pair<int key, int val> itr)
 {
   return state == itr.second;
 }
};

void A::findVal
{
  itr = find_if(exmap.begin, exmap.end, mem_fun1_ref(&A::IsValueFound));
}

Iam getting compilation errors. Iam not sure whats the syntax for these function adaptors. Please help.

EDIT: Sorry. Please neglect the compilation errors arising other than from finf_if stmt. I need to get find_if stmt corrected first. Also the code doesn't have boost :(

1
  • exmap.begin and exmap.end are member FUNCTIONS. You should write them exmap.begin() and exmap.end() to get the resulting iterators. Dec 23, 2010 at 16:43

7 Answers 7

4

Its slightly easier to convert the object A into a functor:
But there were other problems with your code (see below):

#include <map>
#include <memory>
#include <functional>
#include <algorithm>

using namespace std;

class A {
    public:
      void findVal();
    private:
      int state;
      map<int, int> exmap;

      // Changed the function IsValueFound() to operator()
      // This makes the whole object behave like a function.
      // Its a lot easier then getting member functions and binding
      // the this reference.
      bool operator()(map<int,int>::value_type const& itr) const
                    //         ^^^^^^^^^^^^^^^^^
                    //  std::pair<int,int> is not the type held in the map
                    //  so you are not going to bind against it using a pair.
      {
          return state == itr.second;
      }
};

void A::findVal()
{
    // You did not specify a type
    // for the iterator in your code.
    std::map<int,int>::iterator itr1 = find_if(exmap.begin(), exmap.end(), *this);
                                                   //   ^^^^^^       ^^^^^^
                                                   // begin() and end() are methods.

    // Just pass the `this` object as the the third parameter it will act as a function now.
}
3

Edit: there's obviously an error in my answer, mem_fun1_ref(&A::IsValueFound) doesn't work as a predicate for std::find_if. I'm working on correcting that.

you forgot parenthesis with exmap.begin and exmap.end. I think if you had read the compilation error report, it would have told seomthing about it.

I would write that this way:

typedef map<int, int>::const_iterator MyIterator
void A::findVal()
{
    const MyIterator itrBegin = exmap.begin();
    const MyIterator itrEnd = exmap.end();
    MyIterator itrFound = find_if( itrBegin ,
                                   itrEnd ,
                                   mem_fun1_ref(&A::IsValueFound));    
}

but I havent't tried mem_fun1_ref(&A::IsValueFound) to compile. and I'm not used to using mem_fun1_ref, I always redefine my own functor with their operator().

1
  • 1
    You need to bind this to the functor you just generated with mem_fun1_ref() Dec 23, 2010 at 17:34
2

If you do not want to use Boost Bimap you can create a so-called functor, an object that overload the function call operator (). In this piece of code:

class A {
public:
bool findVal(int s);

private:
map<int, int> exmap;

struct IsValueFound {
    int state;
    IsValueFound(int _state) : state(_state) {};
    bool operator()(const pair<int, int>& itr) {
        return state == itr.second;
    }
};  

};

bool A::findVal(int x) {
    return (find_if(exmap.begin(), exmap.end(), A::IsValueFound(x)) != exmap.end());
}
1

As for the compilation errors, you're declaring your iterator wrong in IsValueFound's argument list, for one. It should be:

map<int, int>::iterator itr

Then in A::findVal itr is not declared at all.

Having said that, scanning a map for values is not a good idea if you need to do this often. You should consider some other internal representation for your data.

1

mem_fun_ref takes your one argument function

bool IsValueFound(pair<int, int> itr)

and turns it into a two argument functor:

bool functor(A& this, pair<int, int> itr).

where the reference used as the first parameter is used to generate the this pointer to call the member function IsValueFound.

You probably don't want anything mem_fun_ref related here -- the binders will work just fine:

std::find_if(exmap.begin, exmap.end, std::bind2nd(std::equal_to<int>(), state));

Just realized that won't work for a map iterator... I would probably just write an explicit loop at this point.

There are a few syntax errors you've got here too but @martona already touched on them so I won't beat a dead horse :)

2
  • mem_fun_ref(&A::IsValueFound) gives me error. /error C2064: term does not evaluate to a function taking 1 arguments/
    – excray
    Dec 23, 2010 at 17:48
  • @user: Did you read my answer? You have a two argument functor, not a one argument one. Dec 23, 2010 at 17:59
0

you actually use your map as a bi-directional map, so you may find boost's Boost Multi-index Containers useful. They have a specific example of implementing a bi-directional map.

0

Just use Boost Bimap.

2
  • That's a horrible name. A first I though it said Bitmap. Dec 23, 2010 at 17:54
  • @Martin York: I didn't choose the name. 8v) Dec 23, 2010 at 17:55

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