# Why can't I access value in a vector using “print” in gdb debugger?

I'm learning to use the gdb debugger but having trouble accessing the values of a vector when that vector contains values copied from another vector. Ultimately the program below does what I want it to do (copies the values of "nums" into a new vector "copyOfNums"), but when I try to examine the value at copyOfNums[0] after executing the first for loop in "copyNums", the value in memory can't be accessed (see gdb session below).

Below copy nums has executed 1 loop of the for statement, so should copyNums[0] contain the address of the value pointed to by nums[0] or should it contain a reference to a new int (that is the same as the l-value pointed to by nums[0])? Regardless I would expect to be able to access the value, but as you can see from the following gdb output, it is inaccessible.

Breakpoint 1, copyNums (nums=@0x7fff5fbffad0) at main.cpp:10

(gdb) print nums[0]
$1 = (int &) @0x100103910: 2 (gdb) print copyOfNums[0]$2 = (int &) @0x0: Cannot access memory at address 0x0
(gdb)

#include <iostream>
#include <fstream>
#include <sstream>
#include <string>
#include <vector>

using namespace std;

vector<int> copyNums(vector<int> nums){
int sizeNums = nums.size();
vector<int> copyOfNums;

=>for (int i = 0; i < sizeNums; i++){
copyOfNums.push_back(nums[i]);
}

return copyOfNums;
}

vector<int> getSmallNums(){

vector<int> nums;
nums.push_back(2);
nums.push_back(1);
nums.push_back(8);

return nums;
}

int main (int argc, char *argv[]){
vector<int> nums = getSmallNums();
vector<int> copyOfNums = copyNums(nums);

return 0;
}


Here is the gbd output after sort has returned. Looks like the copy contains a reference to a new location in memory, the l-value of which is 2 (as expected). Why was I unable to access copyOfNums[0] within the function copyNums?

(gdb) print nums[0]
$3 = (int &) @0x1001000e0: 2 (gdb) print copyOfNums[0]$4 = (int &) @0x100103920: 2


EDIT: here is a more complete picture of the debugging session

(gdb) info locals
i = 1
sizeNums = 3
copyOfNums = {
<std::_Vector_base<int,std::allocator<int> >> = {
_M_impl = {
<std::allocator<int>> = {
<__gnu_cxx::new_allocator<int>> = {<No data fields>}, <No data fields>},
members of std::_Vector_base<int,std::allocator<int> >::_Vector_impl:
_M_start = 0x0,
_M_finish = 0x0,
_M_end_of_storage = 0x0
}
}, <No data fields>}
(gdb) print copyOfNums[0]
$1 = (const int &) @0x0: Cannot access memory at address 0x0  - I suggest you change the declaration of copyNums to this: vector<int> copyNums(vector<int> const &nums) Your code is copying the entire vector of integers onto the stack, to pass by value, when all you need to pass is a const reference. – steveha Feb 11 '13 at 19:29 Counting the line numbers beginning with #include <iostream>, then the breakpoint at line 10 stops execution at int sizeNums = nums.size();. copyOfNums has no elements at this point, have you stepped into the loop with gdb next or step? – Christian Ammer Feb 11 '13 at 21:04 oops I deleted part of by debugging session in which i hit "next" a number of times after the initial break--so at this point it had gone through one iteration of the loop. – cdeist Feb 11 '13 at 21:31 also, thanks for the suggestion regarding changing it to const &nums! – cdeist Feb 11 '13 at 21:45 Can you try to compile it with the -gstab+ compiler option and try to debug it again (I had similar problems with DWARF 2)? – Christian Ammer Feb 12 '13 at 13:12 ## 2 Answers I'm not sure how much a compiler will be able to optimize this away, but in reality, this code: vector<int> copyNums(vector<int> nums){ int sizeNums = nums.size(); vector<int> copyOfNums; for (int i = 0; i < sizeNums; i++){ copyOfNums.push_back(nums[i]); } return copyOfNums; }  Has the same result as this code: vector<int> copyNums(vector<int> nums){ return nums; }  If a compiler is doing an optimization like that, or a number of other possible optimizations, copyofNums could be completely optimized away. - user2016050 should try compiling with all optimizations disabled and debugging enabled. If the problem doesn't reproduce, then this was it. – steveha Feb 11 '13 at 19:25 Hmm, I tried this on Linux with g++ -O3 -g and gdb showed that there really was a copyOfNums for me. – steveha Feb 11 '13 at 19:33 I was using a makefile to compile this (which is also something I'm new to), so I modified it to look like: OBJS = main.o CC = g++ DEBUG = -g -O0 CFLAGS = -Wall -c$(DEBUG) LFLAGS = -Wall $(DEBUG) p1 :$(OBJS) $(CC)$(LFLAGS) $(OBJS) -o p1 main.o : main.cpp$(CC) \$(CFLAGS) main.cpp clean: \rm *.o *~ p1 tar: tar cfv p1.tar main.cpp –  cdeist Feb 11 '13 at 21:38
sorry, I pasted that in sloppily--it's correctly formatted in the real file, basically I just added -O0 after -g in DEBUG. Was this what you were recommending? –  cdeist Feb 11 '13 at 21:41
Well, in my testing, I think gcc might be optimizing it away at -O0. clang, for example, does not and behaves as you expect under a debugger. –  Bill Lynch Feb 11 '13 at 22:06

copyNums[0] contain the address of the value pointed to by nums[0] or should it contain a reference to a new int (that is the same as the l-value pointed to by nums[0])?

Terminology you used ( new, reference ) seems confusing to me.

copyNums[0] contains a copy of the value at num[0]. &nums[0] is different from &copyNums[0]. And nums[0] contains a value of int type. So, copyNums[0] neither contains the address of the location nums[0] nor it contains a reference to a new int.

-
Sorry about that--that was confusing terminology I used. When I run whatis numCopy[0] I see that it is a int&, and that means it contains an address, right? An address that points to an int? I keep thinking I understand pointers and then I realize I'm not yet 100% there... –  cdeist Feb 11 '13 at 21:44