These macros copy and encode data values from any CPU memory address to any other memory address.
Files
lib_mem.h
Prototypes
Arguments
addr_dest
Lowest CPU memory address to copy/encode source address’s data value.
addr_src
Lowest CPU memory address of the data value to copy/encode.
val_size
Number of data value octets to copy/encode.
Returned Value
None.
Required Configuration
None.
Notes / Warnings
CPU memory addresses/pointers not checked for NULL
nor overlapping memory addresses which may result in undefined copy behavior.
Copy/encode data values based on the values’ data-word order in CPU memory:
MEM_VAL_COPY_SET_xxx_BIG()
Encode big-endian data values — data words’ most significant octet at lowest memory address
MEM_VAL_COPY_SET_xxx_LITTLE()
Encode little-endian data values — data words’ least significant octet at lowest memory address
MEM_VAL_COPY_SET_xxx()
Encode data values using CPU’s native or configured data-word order
MEM_VAL_COPY_SET_xxx()
macros copy/encode data values without regard to CPU word-aligned addresses. Thus for processors that require data word alignment, data words can be copied/encoded to/from any CPU addresses, word-aligned or not, without generating data-word-alignment exceptions/faults.
MEM_VAL_COPY_SET_xxx()
macros are more efficient than MEM_VAL_SET_xxx()
macros and are also fully independent of CPU data-word-alignment and should be used whenever possible. Fixed-size copy MEM_VAL_COPY_SET_INTxxU_xxx()
macros are more efficient than dynamic-size copy MEM_VAL_COPY_SET_INTU_xxx()
macros and should be used whenever possible.
MEM_VAL_COPY_SET_xxx()
macros are not atomic operations and must not be used on any non-static (i.e., volatile) variables, registers, hardware, etc.; without the caller of the macros providing some form of additional protection (e.g. mutual exclusion).
Since octet-order copy/conversion are inverse operations, MEM_VAL_COPY_GET_xxx()
and MEM_VAL_COPY_SET_xxx()
memory data-copy get/set macros are inverse, but identical, operations and are provided in both forms for semantics and consistency.