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I know that a map destructor calls each of the contained element's destructors. What happens for a

map<char*,char*> ?

I cannot see where this code is in /usr/include/c++/4.4

EDIT: I should have said

map<const char*, const char*, ltstr>

like in

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On GCC 4.6 you have to look inside /usr/include/c++/4.6/bits/stl_map.h and on 4.6 look inside /usr/include/c++/4.4/bits/stl_map.h – Basile Starynkevitch Dec 6 '11 at 17:48
Note that a map indexed by char* probably won't do what you want. It will match on the string address, not the string content. – Fred Larson Dec 6 '11 at 17:50
up vote 5 down vote accepted

What happens

Nothing. If you dynamically allocated memory, it'll leak - there's no automatic destructor for char*.

Use std::string or similar class instead.

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Well, "nothing" is probably a bit misleading. All the memory the map allocated internally for its tree gets deleted, after all. – sbi Dec 6 '11 at 17:48
I think technically it has a destructor that doesn't do anything. (You can call A->~char*()) But the effect is the same. – Mooing Duck Dec 6 '11 at 17:49

When a map<char*,char*> is destroyed, so are all of the elements it contains. Each element's destructor is called, if it is of class type.

However, keep in mind exactly what is contained in your map above. It isn't strings, as you might expect -- it's just pointers to strings. The strings themselves aren't destroyed. Only the pointers are. delete is never called on the pointers.

Case in point:

map<char*, char*> strings;

char* key = new char[10];
char* value = new char[256];
/* ... */

In the above, since delete is never called on the pointers created by the calls to new, this memory will leak when strings goes out of scope.

This is a good illustration of why you should avoid using raw pointers, new and delete. In your case, map<string,string> would probably be a better choice.


As @sbi mentioned in the comments, another reason why you would want map<string,string> over map<char*,char*> is because with map<string,string> keys are compared by-value, rather than by-pointer-value.


#include <map>
#include <iostream>
#include <string>
using namespace std;

int main()
    static const char MyKey[] = "foo";
    const char bar[] = "bar";
    typedef map<const char*,const char*> Strings;
    Strings strings;

    string ss = "foo";
    Strings::const_iterator it = strings.find(ss.c_str());
    if( it == strings.end() )
        cout << "Not Found!";
        cout << "Found";


Fundamentally, you're inserting an element with the key "foo" and then searching for that element. Test the above code, and you'll find that it isn't found. If, however, you try this:

#include <map>
#include <iostream>
#include <string>
using namespace std;

int main()
    typedef map<string,string> Strings;
    Strings strings;

    string ss = "foo";
    Strings::iterator it = strings.find(ss);
    if( it == strings.end() )
        cout << "Not Found~!";
        cout << "Found";
} get the behavior you really wanted.

share|improve this answer
Excellent answer, +1 from me. Another reason to prefer std::string is that in a std::map<char*,T>, the key will be compared by address, rather than by content. You rarely ever want that. – sbi Dec 6 '11 at 17:51
@sbi: Good point, edited. – John Dibling Dec 6 '11 at 17:59
+1 very good answer – Bob Yoplait Dec 6 '11 at 18:25

I do agree that std::map<string, string> will have advantages over std::map<char*, char*>. Specially having the key as value rather than pointer would provide the expected search/find results.

But, sometimes we do need pointer in map definition specially in the value part when map’s value part is heavy object of a user defined class. By heavy object , I mean copy constructor of the class does a significant amount of work. In such scenarios, value part of the map should be a pointer. Using a raw pointer would leak the memory as mentioned above. Smart pointer would be a better choice ensuring no memory is leaked.

Sample example: Consider the below class

class ABCD
    ABCD(const int ab) : a(ab)
    {cout << "Constructing ABC object with value : " << a << endl;}

    {cout << "Destructing ABC object with value : "<< a << endl;}

    void Print()
    { cout << "Value is : "  << a << endl;}

    int a;

Consider the code where-in smart pointer of the above class is used:

    std::map<_tstring, std::shared_ptr<ABCD>> myMap;
    _tstring key(_T("Key1"));
    myMap.insert(std::make_pair(key, std::make_shared<ABCD>(10)));
    auto itr = myMap.find(key);

    myMap[key] = std::make_shared<ABCD>(20);
    itr = myMap.find(key);
} // myMap object is destroyed, which also calls the destructor of ABCD class

Output from above code is:

Constructing ABC object with value : 10

Value is : 10

Constructing ABC object with value : 20

Destructing ABC object with value : 10

Value is : 20

Destructing ABC object with value : 20 
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