I can't clear the map memory (I checked by Valgrind).

#include <map>

class testMap {

        void insert_map(int, int);

          std::map<int,int> _map;

void testMap::insert_map(int i, int j){
    _map.insert( pair<int, int>(i,j));

I tried _map.clear(), erase(), deleted _map->second manually but not still no luck.

Thanks for all replies. Actually map alone is not a problem but map with a singleton is causing a leak. What's wrong with the code below?

#include <iostream>
#include <string>
#include <map>
#include <algorithm>
#include "Object.h"


using namespace std;

class Singleton {

        // A wrapper around Object class
        class object
                object() : _object(new Object())
                Object get(void)
                    { return _object.get(); }
                boost::shared_ptr<Object> _object;

        object insert_new(const std::string key)
            _object_maps.insert( pair<string,object>( key, object() ));
            return _object_maps.find( key )->second;
            //_test_object = object();
            //return _test_object;  // Leak goes away if I don't use map.

        static Singleton* Instance();
        void Print();


        static Singleton* _instance;

        std::map<std::string, object > _object_maps;
        object _test_object;

Singleton* Singleton::_instance = 0;

Singleton* Singleton::Instance() {
    if( _instance ==0 )
        _instance = new Singleton();
    return _instance;

void Singleton::Print() {
    std::cout << " Hi I am a singleton object" << std::endl;


From another code I was calling by

    Singleton::object _test_object(Singleton::Instance()->insert_new("TEST"));

Is there a problem? I am getting a Valgrind error, like

      ==19584== 17 bytes in 1 blocks are possibly lost in loss record 31,429 of 52,291
      ==19584==    at 0x69A1642: operator new(unsigned int) (vg_replace_malloc.c:255)
      ==19584==    by 0x772CB0A: std::string::_Rep::_S_create(unsigned int, unsigned int, std::allocator<char> const&) (in /usr/lib/libstdc++.so.6.0.8)
      ==19584==    by 0x772D904: ??? (in /usr/lib/libstdc++.so.6.0.8)
       ==19584==    by 0x772DB16: std::basic_string<char, std::char_traits<char>, std::allocator<char> >::basic_string(char const*, std::allocator<char> const&) (in /usr/lib/libstdc++.so.6.0.8)
       ==19584==    by 0xBF1BC17: test::test() (test.C:34)
       ==19584==    by 0xBF1DB66: G__testDict_143_0_1(G__value*, char const*, G__param*, int) (testDict.C:190)
       ==19584==    by 0x70EA4E5: Cint::G__ExceptionWrapper(int (*)(G__value*, char const*, G__param*, int), G__value*, char*, G__param*, int) (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x71EF2E4: G__call_cppfunc (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x71C0095: G__interpret_func (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x71AF883: G__getfunction (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x71D8CC1: G__new_operator (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x718D07F: G__getexpr (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x717724E: G__define_var (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x71FDEC6: G__defined_type (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x7201A6D: G__exec_statement (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x71BF6C8: G__interpret_func (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x71AF62F: G__getfunction (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x718437D: G__getitem (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x7189F12: G__getexpr (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
       ==19584==    by 0x719713F: G__calc_internal (in /afs/rhic.bnl.gov/@sys/opt/phenix/root-5.17.01/lib/libCint.so)
  • 2
    What output do you get from valgrind? – bdonlan Jul 21 '11 at 1:15
  • 2
    Can you also show the call that you're making to create/destroy the testMap object? – Suroot Jul 21 '11 at 1:20
  • 1
    Also, leading underscore in your map name? bad!!! – George Jul 21 '11 at 1:30
  • 2
    @George, I thought so too until somebody informed me of the actual rules - it's OK in the scope of a class. I think this is a pretty common convention for member variables. – Mark Ransom Jul 21 '11 at 1:43
  • @Sen: what compiler did you use? – Vanni Totaro Jul 21 '11 at 1:56

Short answer:
you explicitly declared but not defined the destructor (forgot {}).

Long answer:

  1. Your code does not even compile. Missing {} in class destructor and std:: in front of pair.
  2. Corrected and completed with main:

    #include <map>
    class testMap {
        testMap() {}
        ~testMap() {};
        void insert_map(int, int);
        std::map<int,int> _map;
    void testMap::insert_map(int i, int j) {
        _map.insert(std::pair<int, int>(i,j));
    int main() {
        testMap t;
        t.insert_map(12, 34);
        return 0;
  3. Compiled on 32-bit Ubuntu 11.04:

    g++ leak.cpp -o leak
  4. Run under valgrind supervision:

    valgrind ./leak
    ==20773== Memcheck, a memory error detector
    ==20773== Copyright (C) 2002-2010, and GNU GPL'd, by Julian Seward et al.
    ==20773== Using Valgrind-3.6.1 and LibVEX; rerun with -h for copyright info
    ==20773== Command: ./leak
    ==20773== HEAP SUMMARY:
    ==20773==     in use at exit: 0 bytes in 0 blocks
    ==20773==   total heap usage: 1 allocs, 1 frees, 24 bytes allocated
    ==20773== All heap blocks were freed -- no leaks are possible
    ==20773== For counts of detected and suppressed errors, rerun with: -v
    ==20773== ERROR SUMMARY: 0 errors from 0 contexts (suppressed: 17 from 6)
  5. No memory leakage.

Probably your compiler auto-defines a completely empty class destructor (because of missing {}), not auto-calling anymore on exit the private member map destructor.

Hope it helps :)

  • I'm curious to see the long answer, because I don't know how it could hurt other than to generate a linker error. – Mark Ransom Jul 21 '11 at 1:45
  • @Mark: I think the point here is a strange compiler behaviour in presence of a syntax error. Just asked the OP what compiler he uses. – Vanni Totaro Jul 21 '11 at 1:55
  • @Vanni: I'd be shocked if a compiler autogenerated the destructor when it's been user declared... should be a linker error. But, +1 for illustrating that the general usage of map is sound given a sane compiler. – Tony Delroy Jul 21 '11 at 2:37


    std::map<int,int> empty_map;

(At least, this is the usual way to convince a standard library container actually to release its memory.)

  • 4
    Or more succinctly, std::map<int, int>().swap(_map);. – ildjarn Jul 21 '11 at 1:30
  • 1
    @ildjarn: Yours has the advantage of deallocating the memory immediately, rather than when empty_map goes out of scope. Mine has the advantage of being easier to read for someone new to the idiom. "Succinct" is not always "better". – Nemo Jul 21 '11 at 2:06
  • 2
    I never said "better", for a reason. – ildjarn Jul 21 '11 at 2:37

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