First of all, sorry for my English.

I know architectures are very complex and there's a broad sprectrum of situations, but a common generalization is if a computer architecture has 32-bits words, means registers, memory accesses and buses work with words of 32-bits long (but I think there's a lot of variants in current architectures).

Ok, let's suppose this is the rule and our architecture is a little-endian one, as x86. In such a case, if we want to read a short int (2-bytes long), the memory reads then the 4-bytes word which contains our short. Let's suppose the containing word W is 0xf1342ea0, in memory:

{a0, 2e, 34, f1} // a0 is the byte in the lowest address.

and our half-word H is in the highest part of W, then, H is 0xf134. I understand the processor receives, from the memory, a word with the short shifted:

{34, f1, 00, 00}

since 0x0000f134 equals 0xf134.

With this picture in mind, since the processor is 4-bytes long and it is thus neccesary by all means a shifting, why must 2-bytes data to be aligned in 2-bytes word boundaries?

In other words:

Why is encouragingly recommended not to read the short 0xf134 in the word:

{ff, 34, f1, 0a}


EDIT: Other way of expressing the same doubt is: why the definition of alignment is

A object of size N and address d is aligned if d is divisible by N.

and not:

A object of size N and direction d is aligned respect to an architecture
of B bytes if d is divisible by B, or ⌊d/B⌋ == ⌊(d+N)/B⌋ if N < B.


NOTE: The property ⌊d/B⌋ == ⌊(d+N)/B⌋ implies the object belongs to an aligned word.


If the memory is { ff, 34, f1, 0a }, then it's not a problem for an x86 processor. However, if the memory is { ff, ff, ff, 34 } {f1, aa, aa, aa }, the processor must perform two bus cycles to retrieve the value of the short. (Also note there are some RISC-based processors that do not support misaligned accesses at all.)

  • and why thousands of documents and blogs show examples of alignment and padding betweens shorts if with them there's no problems? It is always the same history: a perfectly explained Internet resource is speaking about the problem of misaligned «words», and the conclusion example contains unaligned short's without further clarification. – Peregring-lk Apr 2 '14 at 22:04
  • A char in C has no alignment restrictions, since it's only one byte and can be placed anywhere in memory. A short is two bytes, so a short is the smallest «word» that has alignment restrictions, and therefore it is commonly used as the example for how alignment works. – user3386109 Apr 2 '14 at 22:10
  • But, as you said, alignment of shorts is not necessary. So, I don't understand why does these alignment restrictions exist. – Peregring-lk Apr 3 '14 at 14:21
  • I make two statements. 1) alignment of shorts is required on some processors. 2) alignment of shorts improves performance on all processors. If a variable is aligned properly, it can always be read in 1 bus cycle. A misaligned access may take 2 bus cycles. (note: this statement assumes that the processor bus width is greater than or equal to the variable size.) – user3386109 Apr 3 '14 at 18:24
  • But why does a short (in the second of your cases) get worse the performance when it is inside of an aligned 4-bytes word? In this case, the memory or CPU needs just 1 bus cycle as well, since the processor does never read half-words (it reads complete words in 1 bus cycle + an extra shifting to put zeros at the 2 most significant bytes, if I'm not wrong) – Peregring-lk Apr 3 '14 at 18:37

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