One simple rewrite of the command in the question is:
grep "word1" logs | grep "word2"
grep finds lines with 'word1' from the file 'logs' and then feeds those into the second
grep which looks for lines containing 'word2'.
However, it isn't necessary to use two commands like that. You could use extended
grep -E or
grep -E 'word1.*word2|word2.*word1' logs
If you know that 'word1' will precede 'word2' on the line, you don't even need the alternatives and regular
grep would do:
grep 'word1.*word2' logs
The 'one command' variants have the advantage that there is only one process running, and so the lines containing 'word1' do not have to be passed via a pipe to the second process. How much this matters depends on how big the data file is and how many lines match 'word1'. If the file is small, performance isn't likely to be an issue and running two commands is fine. If the file is big but only a few lines contain 'word1', there isn't going to be much data passed on the pipe and using two command is fine. However, if the file is huge and 'word1' occurs frequently, then you may be passing significant data down the pipe where a single command avoids that overhead. Against that, the regex is more complex; you might need to benchmark it to find out what's best — but only if performance really matters. If you run two commands, you should aim to select the less frequently occurring word in the first
grep to minimize the amount of data processed by the second.
The initial script is:
grep -c "word1" | grep -r "word2" logs
This is an odd command sequence. The first
grep is going to count the number of occurrences of 'word1' on its standard input, and print that number on its standard output. Until you indicate EOF (e.g. by typing Control-D), it will sit there, waiting for you to type something. The second
grep does a recursive search for 'word2' in the files underneath directory
logs (or, if it is a file, in the file
logs). Or, in my case, it will fail since there's neither a file nor a directory called
logs where I'm running the pipeline. Note that the second
grep doesn't read its standard input at all, so the pipe is superfluous.
With Bash, the parent shell waits until all the processes in the pipeline have exited, so it sits around waiting for the
grep -c to finish, which it won't do until you indicate EOF. Hence, your code seems to get stuck. With Heirloom Shell, the second
grep completes and exits, and the shell prompts again. Now you have two processes running, the first
grep and the shell, and they are both trying to read from the keyboard, and it is not determinate which one gets any given line of input (or any given EOF indication).
Note that even if you typed data as input to the first
grep, you would only get any lines that contain 'word2' shown on the output.
At one time, the answer used:
grep -E 'word1.*word2|word2.*word1' "$@"
grep 'word1.*word2' "$@"
This triggered the comments below.