I heard that Python has automated "garbage collection" , but C++ does not. What does that mean?

up vote 8 down vote accepted

That means that python user doesn't need to clean his dynamic created objects, like you're obligated to do it in C/C++.

Example in C++:

char *ch = new char[100];
// somewhere else in your program you need to release the alocated memory.
delete [] ch; 
// use *delete ch;* if you've initialized *ch with new char; 

in python:

def fun():
    a=[1, 2] #dynamic allocation
    return a[0]

python takes care about "a" object by itself.

  • 1
    duh. delete [] ch; – StampedeXV Oct 7 '09 at 8:40
  • rechecked, thx. – bua Oct 7 '09 at 9:06
  • Although, if you are using 'delete' (whatever the flavor) you are doing C, not C++... – Matthieu M. Oct 7 '09 at 12:34
  • 3
    Don't confuse people, You are totally wrong. Memory release in C is done by: "free(ch)" ... – bua Oct 7 '09 at 13:16
  • 1
    @Tom Leys: I've written that "Example in C++" in my answer, tree comments above Mr. Matthieu M. wrote that 'delete' is C not C++. 2 comments above I've respond to MR. Matthieu, that C mem release would be "free(ch)", Now You send spam writing that this is C++, not C. Lord I've wrote example in C++, where did you find that I've wrote that this is C ??? Please learn reading with understanding again. – bua Oct 8 '09 at 8:17

Try reading up on it.

From Wikipedia http://en.wikipedia.org/wiki/Garbage_collection_%28computer_science%29:


Garbage collection frees the programmer from manually dealing with memory allocation and deallocation. As a result, certain categories of bugs are eliminated or substantially reduced:

  • Dangling pointer bugs, which occur when a piece of memory is freed while there are still pointers to it, and one of those pointers is used.

  • Double free bugs, which occur when the program attempts to free a
    region of memory that is already

  • Certain kinds of memory leaks, in which a program fails to free
    memory that is no longer referenced
    by any variable, leading, over time,
    to memory exhaustion.


The basic principles of garbage collection are:

  1. Find data objects in a program that cannot be accessed in the future
  2. Reclaim the resources used by those objects

Others already answered the main question, but I'd like to add that garbage collection is possible in C++. It's not that automatic like Python's, but it's doable.

Smart pointers are probably the simplest form of C++ garbage collecting - std::auto_ptr, boost::scoped_ptr, boost::scoped_array that release memory after being destroyed. There's an example in one of the earlier answers, that could be rewritten as:

boost::scoped_array<char> ch(new char[100]);
ch[0] = 'a';
ch[1] = 'b';
// ...
// boost::scoped_array will be destroyed when out of scope, or during unwind
// (i.e. when exception is thrown), releasing the array's memory

There are also boost::shared_ptr, boost::shared_array that implement reference counting (like Python). And there are full-blown garbage collectors that are meant to replace standard memory allocators, e.g. Boehm gc.

It basically means the way they handle memory resources. When you need memory you usually ask for it to the OS and then return it back.

With python you don't need to worry about returning it, with C++ you need to track what you asked and return it back, one is easier, the other performant, you choose your tool.

As you have got your answer, now it's better to know the cons of automated garbage collection: it requires large amounts of extra memory and not suitable for hard real-time deadline applications.

  • Python is known for its backend processing though...? – TIMEX Oct 7 '09 at 20:47

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