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I am dynamically allocating memory as follows:

char* heap_start1 = (char*) malloc(1);
char* heap_start2 = (char*) malloc(1);

When I do printf as follows surprisingly the addresses are not consecutives.

printf("%p, %p \n",heap_start1,heap_start2);


   0x8246008, 0x8246018

As you can see there is a 15 bytes of extra memory that are left defragmented. It's definitely not because of word alignment. Any idea behind this peculiar alignment?

Thanks in advance!

I am using gcc in linux if that matters.

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In addition: Malloc needs some space for its own bookkeeping. This often "N-bytes" (for some small N) before the returned pointer. – user166390 Jan 31 '13 at 0:01
The spec requires malloc() to return a pointer suitably aligned for any object with a fundamental alignment requirement. That's almost certainly greater than 1. – Carl Norum Jan 31 '13 at 0:03
Another note - you don't need to cast the return value of malloc() in a C program. – Carl Norum Jan 31 '13 at 0:05
"surprisingly the addresses are not consecutive" -- On the contrary, it would be extremely surprising if they were. "It's definitely not because of word alignment" -- Depends on what you mean by a "word". Do read the malloc documentation. – Jim Balter Jan 31 '13 at 1:20

4 Answers 4

up vote 5 down vote accepted

glibc's malloc, for small memory allocations less than 16 bytes, simply allocates the memory as 16 bytes. This is to prevent external fragmentation upon the freeing of this memory, where blocks of free memory are too small to be used in the general case to fulfill new malloc operations.

A block allocated by malloc must also be large enough to store the data required to track it in the data structure which stores free blocks.

This behaviour, while increasing internal fragmentation, decreases overall fragmentation throughout the system.

Source: (Read line 108 in particular)

Minimum allocated size: 4-byte ptrs:  16 bytes    (including 4 overhead)

Furthermore, all addresses returned by the malloc call in glibc are aligned to: 2 * sizeof(size_t) bytes. Which is 64 bits for 32-bit systems (such as yours) and 128 bits for 64-bit systems.

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At least three possible reasons:

  • malloc needs to produce memory that is suitably-aligned for all primitive types. Data for SSE instructions needs to be 128-bit aligned. (There may also be other 128-bit primitive types that your platform supports that don't occur to me at the moment.)

  • A typical implementation of malloc involves "over-allocation" in order to store bookkeeping information for a speedy free. Not sure if GCC on Linux does this.

  • It may be allocating guard bytes in order to allow detection of buffer overflows and so on.

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But then how come you can still perform operations on members of an array which are not 128-bit aligned? I think there's more to this than just memory alignment. – Andrew Dunn Jan 31 '13 at 0:09
@AndrewDunn: You're talking about SSE operations? I think SSE4 added support for unaligned accesses (although this isn't my area of expertise!). – Oliver Charlesworth Jan 31 '13 at 0:13
As seen in the original question, 0x8246008 is not aligned to 128-bits anyway. – Andrew Dunn Jan 31 '13 at 0:21
I think it's just 64-bit aligned for long long types. The OP is using a 32-bit machine, based on the length of those %p prints. – Carl Norum Jan 31 '13 at 0:23
All SSE generations ALLOW unaligned access for most instructions, but at a speed penalty. – Mats Petersson Jan 31 '13 at 0:30

malloc guarantees that returned memory is properly aligned for any basic type. Moreover, memory block could be padded with some guard bytes to check for memory corruption, it depends on settings.

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If you want to allocate consecutive addresses you should allocate them on the same malloc

char *heap_start1, *heap_start2;
heap_start1 = (char*) malloc(2 * sizeof(char));
heap_start2 = heap_start1 + 1;
share|improve this answer
sizeof(char) is 1. – Carl Norum Jan 31 '13 at 0:06
It is just a better coding practice, you can`t suppose that the size of char is 1... in the heap_start2 assignment you may use +1 because it is a pointer arithmetic so it is going to add the size of char automatically. – Hugo Sadok Jan 31 '13 at 0:11
sizeof(char) is always 1. Always. It's in the definition of the language. If you want better coding practice, I could maybe get behind malloc(2 * sizeof *heap_start), in case you were to change the type later. – Carl Norum Jan 31 '13 at 0:12
What? No, that would allocate space for two pointers. You want two chars, right? I did miss a 1 there - sorry: malloc(2 * sizeof *heap_start1). – Carl Norum Jan 31 '13 at 0:26
Never assume the size of any datatype in C, especially if you are coding for reuse. You can never tell what architecture your code may be compiled for. – Andrew Dunn Jan 31 '13 at 0:38

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