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This is how i allocate dynamic memory for a 2D array

char **twod;

twod=new char*[count];
for (int i = 0; i < count; i++)
{
    twod [i] = new char [MAX];
}

This is how i release the memory for a 2D array

for (int i=0; i<count;i++)
  {
      delete [] twod [i];

  }
   delete [] twod;

How do i know i have successfully released everything and there is no memory leak???

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What operation system ? –  Ofiris Jan 27 '13 at 7:00
7  
You could always just use RAII and have a much lower probability of a memory leak occurring to start with. –  chris Jan 27 '13 at 7:00
    
"How do i know i have successfully released everything and there is no memory leak???" - Because you have called delete [] for everything you used new [] to allocate. And what @chris said. –  Ed S. Jan 27 '13 at 7:02
1  
This is how i allocate dynamic memory for a 2D array I am sorry to hear that. Be sure to take your pills... –  Lightness Races in Orbit Jan 27 '13 at 8:29
    
What chris said. Prevention is better than cure: stackoverflow.com/a/959708/24283 –  timday Jan 27 '13 at 8:53
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2 Answers

up vote 4 down vote accepted

Ways to tell if you have successfully released dynamic allocated memory

Run the code in valgrind or any such memory leak detection tool.
If you want you could also overload the new and delete operators for your class and do the bookeeping yourself but that it too much effort so you are much better off setting with a memory leak detection tool.

Ofcourse I consider the example only an sample example and not the code one will usually go for because:

  1. You are better off avoiding dynamic allocations, use automatic variables instead.
  2. If you must then use smart pointers with RAII and not raw pointers.
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new and delete both are memory management keywords, if you want to allocate memory on heap you might use as this line:

char *ch = new char();

in this case ch is a pointer that points to the memory address of allocated space on the heap.

for release allocated space from memory use delete keyword:

delete ch;

in this case all of the allocated memory space released and operating system can use that space for further allocations from another applications, when memory released, ch pointer address sets to be 0x0.

for release allocated space from memory for multi-dimensional variables:

delete [] ch;
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