I have seen this done both ways. Is there any advantages or disadvantages to doing it either way?

short x = 0x9D6C;
char cx[2];

First way:
cx[0] = x &0xff;
cx[1] = (x >> 8) & 0xff;

vs. Second way:

memcpy(cx, (char*)&x, 2);

Any thoughts?

  • little vs big endian – Iłya Bursov Mar 14 at 21:39
  • 1
    The first way is portable, the second way is not. – Barmar Mar 14 at 21:40
  • The second way makes a call to a function defined in an library, which comes along with some overhead, new stack frame, state store/restore, even if it is small. The first way shall be much faster, and it is recommended because logical operations do map directly on the CPU routines. – vasile_t Mar 14 at 22:04
  • Both ways store in the same endianess. Even though I am on a big endian machine, the data is store actually in little endian. Both methods store the data in little endian. – Adam Jones Mar 14 at 22:12

Is there any advantages or disadvantages to doing it either way?

Yes as the functionality can differ, code should do what is functionally needed.

cx[0] = x &0xff; cx[1] = (x >> 8) & 0xff; move the least significant value byte into cx[0] and the next most significant byte into cx[1].

memcpy(cx, (char*)&x, 2); move the lowest addressed byte of x into cx[0] and the next addressed byte of x into cx[1].

These two approaches are the same functionality when with a certain endian and common short size.

What is best depends on the larger code and not this narrow snippet.

In terms of performance, this falls under micro optimization. A good compiler can analyze memcpy() and emit efficient code without a function call. A programmer's time is better spent dealing with higher levels of code to improve performance.

There is not need for the cast in memcpy(cx, (char*)&x, 2);

Be aware that short is not always laid out in a certain endian. Uncommonly short is not 2 char.

E1 >> 8 leads to "If E1 has a signed type and a negative value, the resulting value is implementation-defined".

Better code would use unsigned types and avoid subtle issues.

Note there is no short to char casting here as in the title.

  • A better title would have been bitwise operations vs memcpy, but there is a cast in the memcpy ( memcpy(cx, (char*)&x, 2) ). But you are correct about this cast also. It is not necessary. I looked at the gcc code on this, and it is placed into a void * src, so the cast is not needed. – Adam Jones Mar 16 at 16:07
  • I also agree with the unsigned data type comment. This would eliminated any issue with the signed bit. – Adam Jones Mar 16 at 16:47

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