Each process has its own stdout. So you need to capture the standard output of some running process. The usual way is to make a pipeline, but you may also redirect the stdout to some file.
Learn more about tee(1). Read some bash scripting tutorial
A typical use might be thru batch(1) and a here document; I often do
batch << EOJ
make >& _make.out
>& is a bash-ism or a zsh-ism redirecting both stdout and stderr.
Then in a separate terminal -or even in the same terminal, after the
batch sequence above- (in the same current directory)
tail -f _make.out
This enables me to see the progression of e.g. a long-lasting compilation (of course I can interrupt with Ctrl C the
tail -f command without harming the compilation). YMMV.
Read also advanced bash scripting guide
/dev/stdout (notice that
stdout alone means nothing particular to the shell) is a symlink to
/proc/self/fd/1 . Read proc(5)
BTW, in your C code, take the habit of calling fflush(3) before any important syscall like
fork (your code don't need it because stdout on terminal is line buffered but might be differently buffered when stdout is not a tty). Read stdout(3). Terminals are weird beasts, read tty demystified
To test in your C or C++ code if
stdout is a terminal, use isatty(3), i.e.
Notice that stdout could be a pipe or a file (then of course the above test would fail).
To write to the terminal, use
/dev/tty (see tty(4)). To write on the console use
/dev/console (see console(4)...). For system logging, learn about syslog(3) and e.g. rsyslogd(8).