# minimize byte wasted to align data between 2 headers (custom allocator)

Here is a memory layout within a custom allocator :-

``````^ toward less address
....
some waste space A             [size=A   (unknown)           ]
content                        [size="SIZE" alignment="ALIGN"] ....(2)
some waste space B             [size=B   (unknown)           ]
....
``````

The exact address of `Header` is not known beforehand.
However, I know that :-

``````every Header address % 4 == 0      from (1,3)
"content"%ALIGN          == 0      from (2)
``````

## Question

How to determine minimum amount of byte for `A+content+B` that make everything (1&2&3) always align appropriately?

I need the result of the function (`A+content+B`) as a parameter to query a memory block from the custom heap allocator.

``````//return maximum size of A+content+B that make the allocation always safe
int wasteA_content_wasteB(int SIZE,int ALIGN){
//???
}
``````

## My progress

If I approach the problem in a more Mathematic-way :-

``````Header                  start at K1*4
some waste space A
content                 start at K2*ALIGN
some waste space B
//K1 and K2 and K3 are unknown positive integer
``````

I will get an inequality system :-

``````K1*4 + 16     <= K2*ALIGN
K2*ALIGN+SIZE <= K3*4
``````

However, with my limited Math background, I don't know how to solve it.

The main difficulty is that I don't know `K1` in advance.

I will know `K1` only after I get that block of memory. `:(`

Therefore, the result of function may be a little sub-optimal (for safety at the worst-case), but I think it is acceptable.

## My current workarounds

If I am very desperate, I can :-

1. query a lot more than need e.g. return `ceil((SIZE+max(4,ALIGN)-1)/ALIGN)*ALIGN`
2. brute force every possible combination (e.g. loop by `SIZE` and `ALIGN`) or calculate every case beforehand then cache it inside a text file.

But it is disgraceful ... I believe there is an explicit formula for this problem. (no?)

I would like an answer that shows concept & idea (show how to think).
Code is not required, but I don't mind.

3 years later, Passer By's answer is still useful for me. So, I will paste my interpretation here :-

• Alignment can be achieved actually by a quite simple formula. E.g. align number of bits to 8 (a full byte): `nBitsA = (nBits + 7) / 8 * 8` or even simpler with bit masking: `nBitsA = (nBits + 7) & ~0x7`. Note that the `+ 7` is the trick to round up. The rest is provided for free using integer math. – Scheff's Cat Jul 9 '17 at 9:29
• I'm (really) not sure whether this is appropriate here but 1st I would try to let the compiler do the work: define a `struct` with the required data layout and then use `sizeof` and, may be, `offsetof`. If the defined `struct` is never instanced this is evaluated by the compiler completely i.e. there will be only "ready computed" constants in the binary code. – Scheff's Cat Jul 9 '17 at 9:37
• @Scheff Yes, thank! I use that ceiling trick for ::operator new/delete. – cppBeginner Jul 9 '17 at 9:42

Let us first assume `ALIGN` is a power of 2.

There are two cases, one is `ALIGN <= 4` and other is `ALIGN > 4`.

If `ALIGN <= 4`, then `content` is always aligned with `A == 0` if `Header` is. All that is left is to pad `B` until the next header is at `alignment == 4`. So, `A + content + B == ceil(content/4)*4`.

If `ALIGN > 4`, we would need to find consecutive bytes where `content` can fit in there with alignment of `ALIGN`.

In the worst case, `Header` can be located at position `k*ALIGN - 12`, and hence `A` would start at `k*ALIGN + 4`. To find an alignment of `ALIGN`, you would need `A == ALIGN - 4`, so `A + content == ALIGN + content - 4`.

What is left is to pad for the next `Header`. `B` starts at `k'*ALIGN + content` and hence we would require `B == 4 - (content%4)` since we assumed `ALIGN` is a power of 2 greater than 4. Thus `A + content + B == ALIGN + content + (content%4)` or `ALIGN + ceil(content/4)*4`.

Note that in this solution, the position of `content` is not static relative to `Header`.

• `There are two cases` <-- That is the word of wisdom, so clever. The whole solution is both accurate and complete. Thank! – cppBeginner Jul 9 '17 at 9:44