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I've been given a task to dynamically manage memory to beat the speed of malloc. Some requirements:

1) Have a pointer to a struct

2) Use "Chunks" of memory

3) The memory will be allocated with a call like

init(memory * mem, int chunk_size, int num_chunks)

4) The memory pointer will be declared globally.

5) Not using system calls

So, I've thought about having my struct simply just:

typdef struct {
  char *byte;
} memory;

And then that would leave my init function to do something like:

mem = new memory[chunk_size * num_chunks];

I don't know if you can do that in C -- normally I would use malloc! And then to free would I be able to just be able to set the pointer to null?

Thanks for the help!

share|improve this question
The malloc family of functions is the standard interface to dynamic memory allocation. You will use them (or some OS-specific equivalent) once to obtain a pool of memory and then use your allocator on that pool later on. Unless you have been specifically told not too call malloc to get the pool you are making this harder than it has to be. – dmckee Nov 8 '13 at 19:49
Yes. The point is to make it harder than it needs to be. No systems calls--hopefully reducing overhead. – Sam Welch Nov 8 '13 at 20:03
Do expect your allocator to be thread-safe? – Martin James Nov 8 '13 at 20:11
For now, thread-safety is not an issue. – Sam Welch Nov 8 '13 at 20:17
Set up a honking big array of unsigned char with static storage extent (i.e., declared at file scope or with the keyword static) as your "heap", then build some kind of data structure that indexes into it. – John Bode Nov 8 '13 at 20:25

You can implement your own version of 'malloc' using system calls for process memory management... Try brk, sbrk and mmap system calls to get memory from kernel...

This has a easy to understand implementation which you can implement and improve on


share|improve this answer
These operations are expensive though and if you are implementing your own memory allocation scheme, you would need to take care of issues like fragmentation of allocated memory – Vii Nov 8 '13 at 19:58
This is a dead link. – maxywb Nov 12 '14 at 15:23
I just tried it...link still works – Vii Nov 19 '14 at 17:48
The link works and it is a great read. Thank you! – Socapex Apr 3 at 16:57

No, new is not supported in C, and setting a pointer to null does not free the associated memory. In fact that's a good way to leak memory.

It depends on the details of what you are trying to do, but typically you'd make some initial call to malloc() to get a largish block of memory, and then write your custom functions which you'd use to manage allocations from that large block within your program.

If you don't want to use malloc() at all, you'll have to use one of the memory allocation calls for your operating system. For example under Windows you might call HeapAlloc() or GlobalAlloc(). on UNIX systems you'd call brk() or sbrk().

share|improve this answer
The problem with malloc's speed is the system calls. They have too much overhead. – Sam Welch Nov 8 '13 at 20:02
You have to get the memory from the OS somehow, which requires a system call. I think what Charles is suggesting is that you make only a single system call ever, so the overhead is irrelevant. Then you have your functions work within the block allocated by that single system call. – dsolimano Nov 8 '13 at 20:08
There is no way to get around making at least one system call to get the initial block of memory. There is no performance impact of a single call to malloc(), you just want to avoid making repeated calls. If your memory requirements are limited you might be able to use alloca() which allocates memory on the stack, but that's non-standard, and doesn't give much room (typically a few megabytes or less). – Charles E. Grant Nov 8 '13 at 20:08

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