There are lots of method to allocate memory in Windows environment, such as
Thus, what's the difference among them?
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
Allocates whatever size of memory you ask for, not in big chunks than
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
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
There are also a couple of other similar functions like
Some other common allocation methods like
Most of the time, you should allocate memory in a way which is consistent with the use of that memory ;).
* Note, large memory allocations done by
I briefly remarked about IPC and
I am going to make it very simple for you:
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).
Hope this helps