The MSDN documentation for
cpblk is a bit sparse:
cpblkinstruction copies a number (type
unsigned int32) of bytes from a source address (of type
native int, or
&) to a destination address (of type
native int, or
&). The behavior of
cpblkis unspecified if the source and destination areas overlap.
cpblkassumes that both the source and destination addressed are aligned to the natural size of the machine. The
cpblkinstruction can be immediately preceded by the
unaligned.instruction to indicate that either the source or the destination is unaligned.
Ok, compared to other bulk copy operations such as
Buffer.BlockCopy, we know that:
- The size is measured in bytes
- The pointers should be aligned
This leaves me with some questions:
- Should the buffers be pinned first? Does it matter whether the operand type is
native int, "unmanaged pointer" or "managed pointer (
- Are there restrictions on the type? (for example,
Buffer.BlockCopyonly works on primitive types, not structures even if they contain only primitive types)
According to https://stackoverflow.com/a/26380105/103167 pinning is unnecessary, but the supporting explanation is just wrong. (I suspect it is an overgeneralization from the fact that the Large Object Heap isn't compacted)
ECMA-335 isn't very helpful either. The instruction description there contains the same verbiage and adds
cpblkis intended for copying structures (rather than arbitrary byte-runs). All such structures, allocated by the CLI, are naturally aligned for the current platform. Therefore, there is no need for the compiler that generates
cpblkinstructions to be aware of whether the code will eventually execute on a 32-bit or 64-bit platform. end rationale]
Ok, this sounds like it should accept more types than
Buffer.BlockCopy. But still not arbitrary types.
Perhaps the newly released .NET core source code will hold some answers.