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There are lots of method to allocate memory in Windows environment, such as VirtualAlloc, HeapAlloc, malloc, new.

Thus, what's the difference among them?

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up vote 52 down vote accepted

Each API is for different uses. Each one also requires that you use the correct deallocation/freeing function when you're done with the memory.


A low-level, Windows API that provides lots of options, but is mainly useful for people in fairly specific situations. Can only allocate memory in (edit: not 4KB) larger chunks. There are situations where you need it, but you'll know when you're in one of these situations. One of the most common is if you have to share memory directly with another process. Don't use it for general-purpose memory allocation. Use VirtualFree to deallocate.


Allocates whatever size of memory you ask for, not in big chunks than VirtualAlloc. HeapAlloc knows when it needs to call VirtualAlloc and does so for you automatically. Like malloc, but is Windows-only, and provides a couple more options. Suitable for allocating general chunks of memory. Some Windows APIs may require that you use this to allocate memory that you pass to them, or use its companion HeapFree to free memory that they return to you.


The C way of allocating memory. Prefer this if you are writing in C rather than C++, and you want your code to work on e.g. Unix computers too, or someone specifically says that you need to use it. Doesn't initialise the memory. Suitable for allocating general chunks of memory, like HeapAlloc. A simple API. Use free to deallocate. Visual C++'s malloc calls HeapAlloc.


The C++ way of allocating memory. Prefer this if you are writing in C++. It puts an object or objects into the allocated memory, too. Use delete to deallocate. Visual studio's new calls HeapAlloc, and then maybe initialises the objects, depending on how you call it.

There are also a couple of other similar functions like SysAllocString that you may be told you have to use in specific circumstances.

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Doug: VirtualAlloc is not strictly limited to 4kb allocations, it's the size returned by GetSystemInfo(), SYSTEM_INFO::dwAllocationGranularity. It's actually RARELY 4kb. On my host, it's 64k, I suspect the same for you. 4KB is the minimum page size entry for the various discriptor tables in the x86 ABI. 4KB is the smallest size which can be indapendently permissioned, R/W/X, however it is not of any significance to VirtualAlloc. If you refer to the VirtualAlloc documentation, there is also the LARGE_PAGES option ( see ). – RandomNickName42 May 16 '09 at 19:58
do you know why DirectShow uses VirtualAlloc to allocate memory buffers for media instead of using malloc? – Aviad Rozenhek May 12 '11 at 15:20
Aviad: DirectShow uses virtual alloc to reserve memory so it can pass flags required for performance optimizations, things like not pageable or so that it can reserve physical pages which can improve performacne if your hardware can support it. – RandomNickName42 May 14 '11 at 8:53
@RandomNickName42: this isn't right. The allocation start address is always aligned with the granularity (64KB), but the allocation length is rounded to the page size (4KB). In effect, address space is reserved in 64KB chunks, but committed in 4KB chunks. The alignment of the start address isn't usually that interesting so from most points of view VirtualAlloc works in 4KB chunks. These details only become important if you're trying to do lots of small VirtualAllocs (you'll run out of address space) or something fancy (like adjacent but separate allocations). – arx Mar 14 '13 at 14:52
I thought malloc/new/CRT called HeapAlloc once then used its own algorithms to return blocks of memory from the HeapAlloc memory block? – paulm Jul 5 '13 at 15:27

VirtualAlloc is a specialized allocation of the OS VM system. Allocations in the VM system must be made at an allocation granularity which (the allocation granularity) is architecture dependent. Allocation in the VM system is one of the most basic forms of memory allocation. VM allocations can take several forms, memory is not necessarily dedicated or physically backed in RAM (though it can be). VM allocation is typically a special purpose type of allocation, either because of the allocation has to

  • be very large,
  • needs to be shared,
  • must be aligned on a particular value (performance reasons) or
  • the caller need not use all of this memory at once...
  • etc...

HeapAlloc is essentially what malloc and new both eventually call. It is designed to be very fast and usable under many different types of scenarios of a general purpose allocation. It is the "Heap" in a classic sense. Heaps are actually setup by a VirtualAlloc, which is what is used to initially reserve allocation space from the OS. After the space is initialized by VirtualAlloc, various tables, lists and other data structures are configured to maintain and control the operation of the HEAP. Some of that operation is in the form of dynamically sizing (growing and shrinking) the heap, adapting the heap to particular usages (frequent allocations of some size), etc..

new and malloc are somewhat the same, malloc is essentially an exact call into HeapAlloc( heap-id-default ); new however, can [additionally] configure the allocated memory for C++ objects. For a given object, C++ will store vtables on the heap for each caller. These vtables are redirects for execution and form part of what gives C++ it's OO characteristics like inheritance, function overloading, etc...

Some other common allocation methods like _alloca() and _malloca() are stack based; FileMappings are really allocated with VirtualAlloc and set with particular bit flags which designate those mappings to be of type FILE.

Most of the time, you should allocate memory in a way which is consistent with the use of that memory ;). new in C++, malloc for C, VirtualAlloc for massive or IPC cases.

* Note, large memory allocations done by HeapAlloc are actually shipped off to VirtualAlloc after some size (couple hundred k or 16 MB or something I forget, but fairly big :) ).

* EDIT I briefly remarked about IPC and VirtualAlloc, there is also something very neat about a related VirtualAlloc which none of the responders to this question have discussed.

VirtualAllocEx is what one process can use to allocate memory in an address space of a different process. Most typically, this is used in combination to get remote execution in the context of another process via CreateRemoteThread (similar to CreateThread, the thread is just run in the other process).

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In outline:

  • VirtualAlloc, HeapAlloc etc. are Windows APIs that allocate memory of various types from the OS directly. VirtualAlloc manages pages in the Windows virtual memory system, while HeapAlloc allocates from a specific OS heap. Frankly, you are unlikely to ever need to use eiither of them.

  • malloc is a Standard C (and C++) library function that allocates memory to your process. Implementations of malloc will typically use one of the OS APIs to create a pool of memory when your app starts and then allocate from it as you make malloc requests

  • new is a Standard C++ operator which allocates memory and then calls constructors appropriately on that memory. It may be implemented in terms of malloc or in terms of the OS APIs, in which case it too will typically create a memory pool on application startup.

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VirtualAlloc ===> sbrk() under UNIX

HeapAlloc ====> malloc() under UNIX

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VirtualAlloc => Allocates straight into virtual memory, you reserve/commit in blocks. This is great for large allocations, for example large arrays.

HeapAlloc / new => allocates the memory on the default heap (or any other heap that you may create). This allocates per object and is great for smaller objects. The default heap is serializable therefore it has guarantee thread allocation (this can cause some issues on high performance scenarios and that's why you can create your own heaps).

malloc => uses the C runtime heap, similar to HeapAlloc but it is common for compatibility scenarios.

In a nutshell, the heap is just a chunk of virtual memory that is governed by a heap manager (rather than raw virtual memory)

The last model on the memory world is memory mapped files, this scenario is great for large chunk of data (like large files). This is used internally when you open an EXE (it does not load the EXE in memory, just creates a memory mapped file).

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