The output of the program below is

1: foo strlen: 3
2:  strlen: 0
3: foo strlen: 3
4: foo strlen: 3
5:  strlen: 0
6:  strlen: 0

I don't understand

  • why 1 prints the string, but 2 does not and
  • what the difference between the three loops is

The source:

#include "stdafx.h"
#include <map>
#include <string>

using namespace std;

int _tmain(int argc, _TCHAR* argv[])
    map<string, string> m;
    m["foo"] = "bar";

    const char * s;

    for(map<string, string>::iterator it = m.begin(); it != m.end(); it++)
        pair<string, string> kvPair = *it;
        s = kvPair.first.c_str();
        printf("1: %s strlen: %d\n", s, strlen(s));
    printf("2: %s strlen: %d\n", s, strlen(s));

    for(map<string, string>::iterator it = m.begin(); it != m.end(); it++)
        s = (*it).first.c_str();
        printf("3: %s strlen: %d\n", s, strlen(s));
    printf("4: %s strlen: %d\n", s, strlen(s));

    for(map<string, string>::iterator it = m.begin(); it != m.end(); it++)
        s = ((pair<string, string>) (*it)).first.c_str();
        printf("5: %s strlen: %d\n", s, strlen(s));
    printf("6: %s strlen: %d\n", s, strlen(s));

    return 0;

Update An explanation for programmers with little C++ background would be appreciated.

  • Nitpick>: "stdafx.h", missing <cstdio>, missing std::. ;-)
    – DevSolar
    Jul 12, 2012 at 6:25
  • 1
    Isn't kvPair.first.c_str() temporary?
    – DevSolar
    Jul 12, 2012 at 6:26
  • Just like kvPair from where it came. Jul 12, 2012 at 6:27
  • 2
    @DevSolar Would you care to explain your first comment for those of us (i.e. me) who do not understand what you are picking at? Jul 12, 2012 at 6:27
  • 1
    @DevSolar kvPair.first.c_str() is a temporary. Of type char const*. (The return value of a function is always a temporary, unless it is a reference.) Where it points to is to data in the named value kvPair. Which is not a temporary, but which does have block scope. Jul 12, 2012 at 7:41

3 Answers 3


In your first example, you call c_str() on kvPair which is declared in the scope of the for-loop. The result becomes invalid when the for loop is exited, because kvPair is destroyed.

In the second example, you call c_str() on the value in the map. The result only becomes invalid when the map is destroyed, which happens when _tmain(...) returns.

In you third example, you call c_str() on a temporary (created by the cast to pair), and that temporary is destroyed before printf("5... is called.


The pointer returned by c_str() points to some memory owned by the string it is called on, so when that string is destroyed, accessing the pointer is undefined behaviour.

  • Would you care to break down what is happening (for C++ learners)? Because even if kvPair is temporary (because it is declared inside the for loop?) why would the result of kvPair.first.c_str() be temporary, when stored in s, which is declared outside of the for loop? Jul 12, 2012 at 7:07
  • 1
    While it's clear what you mean, in C++ parlance, kvPair is not a temporary; the term "temporary" is reserved for unnamed objects destructed at the end of the full expression (like the one he uses in the third loop). Jul 12, 2012 at 7:39

Partially by chance.

In 1/2 you create a local variable within the loop, copying the value out of the map into kvPair. You set s to point to data in this copy. The copy is destroyed (destructor called) when you exit the block. By any means: break, goto, an exception, or simply finishing the loop body and going through it again—each time through the loop, you get a new kvPair, which is destructed at the end of the loop body. s points to data inside kvPair.first, and any use of s (even simply copying it) after kvPair has been destructed is undefined behavior. Anything can happen, and what happens is likely to be different depending on the level of debug checking and optimization, or even depending on totally unrelated aspects of the program. (If you consistently get an empty string, there is probably some poorly designed debug checking going on. Well designed debug checking would cause an immediate crash, so you would see the error.)

In 2/3, you initialize s with the actual contents of the map, so it is valid until the map is destructed, or the element is removed from the map.

In 4/5, you create a temporary: T( initialization ) constructs a temporary of type T, using the initialization given, for any type T, including type std::pair<std::string, std::string>. (This isn't quite true; if T is a reference, for example, the behavior is different.) And you initialize s to point to data within this temporary. The lifetime of a temporary is only to the end of the full expression which contains it, so the contents of s become invalid at the semicolon ending the statement (which in this case is the end of the full expression). As in 1/2, undefined behavior ensues when you use s after this.

  • So if I understand correctly, storing *it in a local variable, rather than using it directly a la (*it), will create 1) an instance of pair, and 2) full copies (rather than just pointers) of the 2 member strings, first and second. Finally, the c_str() method does not create anything new, but just returns the pointer to something in the string it was called on, which will be an invalid pointer, as soon as the string gets invalid. Is that about right? Jul 12, 2012 at 8:18
  • @EugeneBeresovksy Almost. In general, C++ uses value semantics; new variables, temporaries, etc. are copies of the original, and two objects are totally distinct. (The exception is when using references.) But c_str() does create a new object. An object of type char const*, however; in C++, pointers are objects. Jul 12, 2012 at 9:17
  • So c_str() creates a new pointer, but it's a pointer to some place in the string value, which gets reclaimed once it runs out of scope. I guess I need to get used to the fact that variant 1 copies the pair, whereas variant 2 does not and accesses the map's pair directly (if I'm assuming correctly here). Then it would all make sense to me. Jul 12, 2012 at 15:31
  • 1
    @EugeneBeresovksy That's basically it. Jul 12, 2012 at 18:01

The first loop s is pointing to data in the pair - the pair goes out of scope after the loop, so your data is bogus

The second and third loops have s is pointing to data in the actual collection - so it stays in scope

  • 1
    The third loop has s pointing to a temporary, which is destructed at the end of the full expression. Jul 12, 2012 at 7:43

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