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I'm kind of new when it comes to memory management in C++. I read that if you create a class with the new keyword you must delete the object to free its memory. I also read that primitive types, such as int, char and bool, are created on the stack, which means they get deleted when they go out of scopes.

But what about primitive types created with the new keyword? Do I need to explicitly call delete? Are these created on the heap like classes? Or since they are primitive do they still get created on the stack?

I am asking because I am allocating a LPTSTR using the new keyword, but I am worried that if I do not call delete that the memory will never be freed. Here is my code with the bare question in the comments:

#include <Windows.h>
#include <tchar.h>
#include <string>

#ifdef _UNICODE
    typedef std::wstring Str;
#else // ANSI
    typedef std::string Str;

Str GetWndStr(HWND hwnd) {
    const int length = GetWindowTextLength(hwnd);

    if (length != 0) {
        LPTSTR buffer = new TCHAR[length + 1]; // Allocation of string
        GetWindowText(hwnd, buffer, length + 1);
        Str text(buffer);

        delete buffer; // <--- Is this line necessary?
        return text;
    } else {
        return _T("");

Do I need to call delete? Awhile back, I tried using GlobalAlloc() and GlobalFree(), but during runtime I got an error saying something about illegally modifying the stack, I do not have an exact error message as this was awhile ago. Also, in addition to your answer, if you would like to give me resources you found helpful to learn more about C++ memory management, that would be nice.

share|improve this question
If you are using Java/C# then no need of delete for any type. :) – iammilind Oct 26 '12 at 10:31
Classes are also created on the stack. In this regard primitive types and classes are no different. If you new it, it's on the heap, if you don't it's on the stack (usually). However classes may have internals, so the class itself could be on the stack, but some internal memory it's using could be on the heap. – john Oct 26 '12 at 10:31
" also read that primitive types, such as int, char and bool, are created on the stack" - either you were lied to, or you misunderstood what you read. Automatic variables are created on the stack (this isn't guaranteed, it's an implementation detail), and destroyed when out of scope (this is guaranteed). Typically, there is no need for dynamically-allocated objects of primitive type, you use automatic variables for those types. But anyway, the thing you're allocating doesn't have primitive type, it's an array. Of TCHAR, which is a primitive type. – Steve Jessop Oct 26 '12 at 10:34
Besides, std::string isnt a primitive type – TeaOverflow Oct 26 '12 at 10:35
@Evgeni Yes, but LPTSTR and TCHAR are. Which is what is being allocated. – Brandon Miller Oct 26 '12 at 10:36
up vote 6 down vote accepted

Your array is allocated with new[] and therefore must be deleted with delete[] (not delete).

Your explicit dynamic allocation is also unnecessary:

Str text(length+1, 0);
GetWindowText(hwnd, &text[0], length + 1);
text.resize(length); // remove NUL terminator
return text;

In C++03 there's some justification needed, whether string and wstring actually allocate contiguous memory, suitable for passing as a buffer. It's not guaranteed by the C++03 standard, but it is in fact true in MSVC++. If you don't want to rely on that fact, then it is guaranteed for vector, so you can use that for the buffer:

std::vector<TCHAR> buffer(length+1);
GetWindowText(hwnd, &buffer[0], length + 1);
return Str(buffer.begin(), buffer.end() - 1);

It is pretty rare to directly use new[] in C++. In both cases, my vector or string buffer is an automatic variable, so I don't have to do anything special to make sure that it is destroyed correctly when its scope ends.

share|improve this answer
+1 for std::vector use. Offers same features as the scoped_array without the additional dependency. – hmjd Oct 26 '12 at 10:54
+1 For vector and string usage example. And explanation of vectors contiguous memory. – Brandon Miller Oct 26 '12 at 11:08

For every new there must be a delete and for every new[] there must be a delete[]. Notice that the memory allocated with new[] must be deleted with delete[], which is not the case in the posted code.

A smart pointer can be used, boost::scoped_array for example, which will perform the delete[] in its destructor (or reset() function). This is particularly useful if exceptions can be thrown after the call to new[]:

boost::scoped_array<TCHAR> buffer(new TCHAR[length + 1]);
GetWindowText(hwnd, buffer.get(), length + 1);
Str text(buffer.get()); // buffer will be deleted at end of scope.
share|improve this answer
+1 for in-depth explanation and example of smart pointer usage. So are you saying since I use new TCHAR[length + 1], that I need to use delete[]? – Brandon Miller Oct 26 '12 at 10:42
@BrandonMiller, yes. If new[] then delete[]. – hmjd Oct 26 '12 at 10:53

YES (unless you use smart pointers or similar to delete it for you)

share|improve this answer

Yes, the rule is very simple. Everything you allocate with new needs to be deallocated with delete; and everything allocated with new[] needs to be deallocated with delete[].

To reduce the chances of error, it's best to use containers, smart pointers or other RAII-style objects to manage dynamic resources, rather than remembering to use delete yourself.

share|improve this answer
To add to the rules, anything that is constructed with placement-new must have its destructor explicitally called in code, if it has a destructor. Placement-new allows you to construct something inside of an existing piece of memory instead of allocating a new memory block, like new and new[] do. – Remy Lebeau Oct 27 '12 at 5:04

Sure, no matter what type was allocated. It still have memory space.

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