To add to Steve's excellent answer.
It may not be widely known but grep is almost always faster when grepping for a longer pattern-string than a short one, because in a longer pattern, Boyer-Moore can skip forward in longer strides to achieve even better sublinear speeds:
# after running these twice to ensure apples-to-apples comparison
# (everything is in the buffer cache)
$ time grep -c 'tg=f_c' 20140910.log
0.168u 0.068s 0:00.26
$ time grep -c ' /cc/merchant.json tg=f_c' 20140910.log
0.100u 0.056s 0:00.17
The longer form is 35% faster!
How come? Boyer-Moore consructs a skip-forward table from the pattern-string, and whenever there's a mismatch, it picks the longest skip possible (from last char to first) before comparing a single char in the input to the char in the skip table.
Here's a good video explaining Boyer Moore
Another common misconception (for GNU grep) is that
fgrep is faster than
fgrep doesn't stand for 'fast', it stands for 'fixed' (see the man page), and since both are the same program, and both use Boyer-Moore, there's no difference in speed between them when searching for fixed-strings without regexp special chars. The only reason I use
fgrep is when there's a regexp special char (like
*) I don't want it to be interpreted as such. And even then the more portable/standard form of
grep -F is preferred over