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Let's consider that I have defined a memory area like (Note: uint8 means unsigned char):

uint8 myMemoryArea[1024];

And I have a struct like:

typedef struct
{
   uint8 * ptrToMyVar; 
   uint8 otherVar;
} myStruct_type;

I want to consider myMemoryArea as being an array of myStruct_type, so I would want to perform a random access to the memory area like, for example:

myStruct_type * myPtrToStruct = (* myStruct_type)(&(myMemoryArea[ELEMENT_TO_ACCESS * sizeof(myStruct_type)]));
myPtrToStruct->otherVar =  2;

Is this machine independent code? Should I expect troubles with alignment or padding? I guess padding is OK here as long as I use sizeof.

Should I ensure that myMemoryArea starts from an address divisible by sizeof(* char) - perhaps defining it as an array of pointers ?

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1 Answer 1

up vote 2 down vote accepted

There's no guarantee that myMemoryArea will be appropriately aligned. Depending on your CPU and O/S and compiler, you may get crashes or very slow access to misaligned data. (See also: Solve the memory alignment in C interview question that stumped me).

Consider what happens if your variable is declared in this context:

double d1;
uint8  c1;
uint8  myMemoryArea[1024];
uint8  c2;
douebl d2;

There's every reason to expect d1 to be properly aligned; the compiler will be failing you horribly if it is not. There's no reason to expect any unusual treatment for c1; a single byte can be stored on any alignment. The myMemoryArea data also does not have to be aligned specially; there might be no space around it, and it may well be at an odd address. The c2 variable doesn't need special treatment; d2 will be properly aligned (and there's likely to be 6 bytes unused space in the data.

If myMemoryArea is on an odd-byte alignment, and you use a RISC machine to access the memory structure, you will most likely get a SIGBUS error. On an Intel machine, you may get very slow access instead.

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I agree about the first part, but the example I think isn't valid; there's nothing preventing a compiler from re-ordering local variables to optimize alignment and minimize losses. –  unwind Mar 27 '13 at 10:22
    
It depends on context; it depends on CPU, OS, compiler. I've said that. (I should have mentioned oddball stuff like '#pragma pack' and compiler optimization options too.) There's nothing to stop every one of those 5 variables being individually aligned on a 16-byte boundary. Consider other contexts, such as 'there is a struct botched { line immediately before and a }; line immediately after the 5 variables. Now the compiler has no latitude to reorder the variables (but it could still align them conveniently). No; nothing is guaranteed. I didn't claim it was. –  Jonathan Leffler Mar 27 '13 at 10:26
    
What if I'll define myMemoryArea as double myMemoryArea[1024/ SIZE_OF_DOUBLE]; ? Would that ensure alignment? Considering that I know SIZE_OF_DOUBLE... –  Mircea Ionica Mar 27 '13 at 10:49
1  
If you use double instead of uint8, and if long double, uintmax_t, void * and void (*)(void) do not have more stringent alignment requirements than double, then you'd be OK on alignment, though you'd need to cast the address to (char *) before computing offsets (as otherwise, your offsets will be off by a factor of sizeof(double)). You could create yourself a union Strictest { long double ld; double d; void *vp; void (*fp)(void); long long ll; uintmax_t mi; }; and use that in union Memory { union Strictest a; uint8 m[1024]; }; to get the memory properly aligned. –  Jonathan Leffler Mar 27 '13 at 14:08

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