There's several things wrong in that bit of code.
First, structs and unions are very different in this context. A struct contains each of its elements listed, lined up one after another in memory. A union, on the other hand, is only as large as its largest element, and all of its members share the same memory space (as if they were the sole members of a struct). This means you can't pack a union into an
MPI_Struct, since every member's offset is in fact 0.
There's two ways to tackle the problem of an array of unions:
- Send them as an array of
MPI_BYTE. This is simple, but risks data corruption if your processes don't share the same data representation (e.g. their integers differ in endianness).
MPI_Pack() to pack the values one by one. This is type safe, but more complicated, and it will result in an in-memory copy of your data.
Note that in either case, the receiving process will need to know what values it received (i.e. if it received 3 unions, are those 3 integers, or 2 integers and a float, etc). You'll have to send this information as well if you use unions.
You might want to consider a trickier approach: group the enums according to which of their value is valid, and send a message in which similar enums are placed next to each other (e.g. a message that contains an array of
MPI_INTs, then an array of
MPI_FLOATs and so on). With clever use of derived MPI datatypes, you can preserve type safety, avoid in-memory copying, and avoid sending several messages.
Second: NEVER, ever send pointers between MPI processes! It's easy to think of a
char* as an array of
chars, but it really isn't. It's just a memory address that won't make sense to the process you send it to, and even if it did, you didn't actually send the data that it was pointing to. If
valor2 is a string with a reasonably short maximum length, I'd recommend declaring it as
char valor2[maxLength] so that memory for it is allocated inside the actual struct/union. If that is not feasible, you'll have to do even more memory juggling to get your strings across to the other processes, as you would with any variable sized array.