Supposing to have something like this:

#include <map>
int main(){
    std::map<int,int> m;
    m[1] = 2;
    m[2] = 4;
    return 0;

I would like to be able to inspect the contents of the map running the program from gdb.
If I try using the subscript operator I get:

(gdb) p m[1]
Attempt to take address of value not located in memory.

Using the find method does not yield better results:

(gdb) p m.find(1)
Cannot evaluate function -- may be inlined

Is there a way to accomplish this?


I think there isn't, at least not if your source is optimized etc. However, there are some macros for gdb that can inspect STL containers for you:


However, I don't use this, so YMMV

| improve this answer | |
  • 1
    Thanks for the link; the only thing is that macros are dependent from the stl libraries version, which I'd prefer to avoid. +1 – Paolo Tedesco Jan 9 '09 at 10:41
  • Its also a bit frustrating that commands like "plist foo std::string" give syntax errors. It appears that the value_type can't contain any punctuation. – Bklyn Jan 9 '09 at 21:49
  • 2
    I haven't tried, but if this works the same as the rest of GDB, enclosing the name with punctuated name in single quotes should do it. – jpalecek Jan 9 '09 at 23:35
  • 2
    Note: the std::map functionality in these scripts assumes 32-bit pointer types. For 64-bit machines, replace "+ 4" to "+ 8" everywhere in the file. – Kyle Simek May 20 '12 at 20:22
  • pvector isn't defined in my gdb (version – Jeff Jul 22 '13 at 16:21

The existing answers to this question are very out of date. With a recent GCC and GDB it Just WorksTM thanks to the built-in Python support in GDB 7.x and the libstdc++ pretty printers that come with GCC.

For the OP's example I get:

(gdb) print m
$1 = std::map with 2 elements = {[1] = 2, [2] = 4}

If it doesn't work automatically for you see the first bullet point on the STL Support page of the GDB wiki.

You can write Python pretty printers for your own types too, see Pretty Printing in the GDB manual.

| improve this answer | |
  • 2
    Yes, but other questions are getting closed as duplicates of it, so I wanted it to have recent information. – Jonathan Wakely Mar 11 '13 at 9:12
  • 1
    I am using GDB 7.2 and the above works ... if you have a small collection. I still haven't found any way to print say element 1543 from a 4K vector, other than resorting to using internal structures of the STL implementation. – pavon Oct 9 '13 at 18:35
  • 5
    Yes, in GDB 7.2 and the icpc compiler I get the error Could not find operator[]. – pavon Oct 9 '13 at 23:19
  • 11
    Unfortunately it doesn't "Just Work" in all the distros. It isn't installed by default in Ubuntu 13.10 and there are problems when you try to install it manually – nietaki Jan 9 '14 at 22:18
  • 1
    @razeh, Fedora, RHEL (and RHEL clones). There's a fix in progress to make the printers also work on distros where GDB is linked to Python 3 – Jonathan Wakely Jul 10 '14 at 16:33

There's always the obvious: Define your own test-function... Call it from gdb. E.g.:

#define SHOW(X) cout << # X " = " << (X) << endl

void testPrint( map<int,int> & m, int i )
  SHOW( m[i] );
  SHOW( m.find(i)->first );

    std::map<int,int> m;
    m[1] = 2;
    m[2] = 4;
    return 0;  // Line 15.


Breakpoint 1 at 0x400e08: file foo.C, line 15.
(gdb) run
Starting program: /tmp/z/qD 

Breakpoint 1, main () at qD.C:15
(gdb) call testPrint( m, 2)
m[i] = 4
(*m.find(i)).first = 2
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  • 16
    as long as the process is running. not so useful for core-dumps. – sean riley Aug 14 '09 at 0:15
  • 2
    This is useful advice debug GDB in general, not just with STL. I keep a whole library of gdb helper functions for lots of hard-to-retrieve data, e.g. write_cuda_array_as_image(). Note that some compilers will strip out any functions that aren't called, so I place a call to each helper function after my main's "return 0;". Also declaring them with extern "C" makes calling them from gdb easier. – Kyle Simek May 20 '12 at 20:30

The stl-views.gdb used to be the best answer there was, but not anymore.

This isn't integrated into the mainline GDB yet, but here is what you get using the 'archer-tromey-python' branch:

(gdb) list
1   #include <map>
2   int main(){
3       std::map<int,int> m;
4       m[1] = 2;
5       m[2] = 4;
6       return 0;
7   }
(gdb) break 6
Breakpoint 1 at 0x8048274: file map.cc, line 6.
(gdb) run

Breakpoint 1, main () at map.cc:6
6       return 0;
(gdb) print m
$1 = std::map with 2 elements = {
  [1] = 2,
  [2] = 4
(gdb) quit
| improve this answer | |

Try De-Referencing STL Containers: on this page: http://www.yolinux.com/TUTORIALS/GDB-Commands.html

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  • These look to be the business! – Richard Corden Jan 9 '09 at 14:42
  • They're actually the same macros as in the previous answer :) I'm afraid there's no simpler solution. – Paolo Tedesco Jan 9 '09 at 14:59
  • What is the command? You managed to run us off-site with copious amounts of irrelevant information. I'm not interested in "How to start GDB" and the others. – jww Apr 10 '16 at 1:30

The answers above are working and fine. In case you are using stl-views.gdb, here is the proper way of viewing the maps and elements inside it. Let your map is as follows : std::map<char, int> myMap;

(gdb) pmap myMap char int

i.e. pmap <variable_name> <left_element_type> <right_element_type> to see the elements in the map.

Hope that helps.

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You can get around the second problem (Cannot evaluate function -- may be inlined) by making sure that your compiler uses DWARF-2 (or 3 or 4) debugging information when you compile your program. DWARF-2 includes inlining information, so you should be able to use either of the methods you described to access elements of your std::map container.

To compile with DWARF-2 debug info, add the -gdwarf-2 flag to your compile command.

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  • 1
    Um, knowing where a function has been inlined does not make it possible for GDB to evaluate calls to that function; GDB really needs access to an out-of-line copy of the function! – SamB Feb 3 '15 at 3:09

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