Both methods are equivalent, and perform a shallow copy. This means that the structure itself is copied, but anything the structure references is not copied.
As for why
memcpy is more popular, I'm not sure. Older versions of C did not support structure assignment (although it was a common extension as early as 1978), so perhaps the memcpy style stuck as a way of making more portable code? In any case, structure assignment is widely supported in PC compilers, and using
memcpy is more error-prone (if you get the size wrong, Bad Things are likely to happen), and so it's best to use structure assignment where possible.
There are, however, cases where only
memcpy works. For example:
- If you're copying a structure to or from an unaligned buffer - eg, to save/load to/from disk or send/receive on a network - you need to use
memcpy, as structure assignment requires both source and destination to be aligned properly.
- If you're packing additional information after a structure, perhaps using a zero-element array, you need to use
memcpy, and factor this additional information into the size field.
- If you're copying an array of structures, it may be more efficient to do a single
memcpy rather than looping and copying the structures individually. Then again, it may not. It's hard to say,
memcpy implementations differ in their performance characteristics.
- Some embedded compilers might not support structure assignment. There's probably other more important things the compiler in question doesn't support as well, of course.
Note also that although in C
memcpy and structure assignment are usually equivalent, in C++
memcpy and structure assignment are not equivalent. In general C++ it's best to avoid
memcpying structures, as structure assignment can, and often is, overloaded to do additional things such as deep copies or reference count management.