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The following command runs a simple awk program that searches the
input file mail-list for the character string ‘li’ (a
grouping of characters is usually called a string;
the term string is based on similar usage in English, such
as “a string of pearls” or “a string of cars in a train”):
awk '/li/ { print $0 }' mail-list
When lines containing ‘li’ are found, they are printed because ‘print $0’ means print the current line. (Just ‘print’ by itself means the same thing, so we could have written that instead.)
You will notice that slashes (‘/’) surround the string ‘li’
in the awk program. The slashes indicate that ‘li’
is the pattern to search for. This type of pattern is called a
regular expression, which is covered in more detail later
(see section Regular Expressions).
The pattern is allowed to match parts of words.
There are
single quotes around the awk program so that the shell won’t
interpret any of it as special shell characters.
Here is what this program prints:
$ awk '/li/ { print $0 }' mail-list
-| Amelia 555-5553 amelia.zodiacusque@gmail.com F
-| Broderick 555-0542 broderick.aliquotiens@yahoo.com R
-| Julie 555-6699 julie.perscrutabor@skeeve.com F
-| Samuel 555-3430 samuel.lanceolis@shu.edu A
In an awk rule, either the pattern or the action can be omitted,
but not both. If the pattern is omitted, then the action is performed
for every input line. If the action is omitted, the default
action is to print all lines that match the pattern.
Thus, we could leave out the action (the print statement and the
braces) in the previous example and the result would be the same:
awk prints all lines matching the pattern ‘li’. By comparison,
omitting the print statement but retaining the braces makes an
empty action that does nothing (i.e., no lines are printed).
Many practical awk programs are just a line or two long. Following is a
collection of useful, short programs to get you started. Some of these
programs contain constructs that haven’t been covered yet. (The description
of the program will give you a good idea of what is going on, but you’ll
need to read the rest of the Web page to become an awk expert!)
Most of the examples use a data file named data. This is just a
placeholder; if you use these programs yourself, substitute
your own file names for data.
For future reference, note that there is often more than
one way to do things in awk. At some point, you may want
to look back at these examples and see if
you can come up with different ways to do the same things shown here:
awk 'length($0) > 80' data
The sole rule has a relational expression as its pattern and has no action—so it uses the default action, printing the record.
awk '{ if (length($0) > max) max = length($0) }
END { print max }' data
The code associated with END executes after all
input has been read; it’s the other side of the coin to BEGIN.
expand data | awk '{ if (x < length($0)) x = length($0) }
END { print "maximum line length is " x }'
This example differs slightly from the previous one:
the input is processed by the expand utility to change TABs
into spaces, so the widths compared are actually the right-margin columns,
as opposed to the number of input characters on each line.
awk 'NF > 0' data
This is an easy way to delete blank lines from a file (or rather, to create a new file similar to the old file but from which the blank lines have been removed).
awk 'BEGIN { for (i = 1; i <= 7; i++)
print int(101 * rand()) }'
ls -l files | awk '{ x += $5 }
END { print "total bytes: " x }'
ls -l files | awk '{ x += $5 }
END { print "total K-bytes:", x / 1024 }'
awk -F: '{ print $1 }' /etc/passwd | sort
awk 'END { print NR }' data
awk 'NR % 2 == 0' data
If you used the expression ‘NR % 2 == 1’ instead, the program would print the odd-numbered lines.
Next: Two Rules, Previous: Sample Data Files, Up: Getting Started [Contents][Index]