First pass: before it was clear that there was a loop using
select() and that children sent multiple messages.
If the parent process maintains an array of file descriptors, it needs to also associate each file descriptor with a child process. If the children send a single small statistics message before they die, then when the main program waits for dead children, it knows which child died, so it can then close the file descriptor for the child that it just spotted dieing (after making sure the pipe is empty by doing one or more final reads).
An alternative mechanism uses
poll() or a related function that reports when a read operation on a file descriptor would not hang. When it detects EOF (zero bytes read) from a pipe, it knows the child died. However, this is probably fiddlier to deal with.
It isn't entirely clear from your question whether there's a single message from the child process as it exits, or whether there is a 'stream of consciousness' statistics reports as the child is working. If there's a single message (that's smaller than the pipe buffer size), then life is easy. If there's a stream of messages or the message is longer than the pipe buffer size, you have to think more carefully about coordination — you can't detect messages only when the child dies.
Second pass: after the extra information became available.
If you're already using
select() in a loop, then when a child dies, you will get a 'pipe ready for reading' indication from
select() and you will get 0 bytes from
read() which indicates EOF on that pipe. You should then close that pipe (and wait for one or more children with
waitpid(), probably using
W_NOHANG — there should be at least one corpse to be collected — so you don't have zombies kicking around for protracted times).
A strict answer to your last question is: when the only child with the write end of a pipe dies, the parent should close the read end of that pipe to release resources for later reuse.