--- categories: - Programming Languages tags: - shell - awk --- # Awk > Awk is a programming language designed for text processing and data extraction. It was created in the 1970s and remains widely used today for tasks such as filtering and transforming text data, generating reports, and performing basic calculations. Awk is known for its simplicity and versatility, making it a popular tool for Unix system administrators and data analysts. ## Invocation We can use `awk` directly in `stdin` or we can reference `.awk` files for more elaborate scripts ```bash # CLI awk [program] file1, file2, file3 # Script file awk -f [ref_to_script_file] file1, file2, file3 ``` We can also pipe to it. This piped command receives output from the `echo` command and prints the value in the last field for each record: ```bash echo -e "1 2 3 5\n2 2 3 8" | awk '{print $(NF)}' ``` ## Syntactic structure `awk` is a line-oriented language. An `awk` program consists in a sequence of **pattern: action** statements and optional functional definitions. For most of the examples we will use this list as the input: ``` cloud existence ministerial falcon town sky top bookworm bookcase war Peter 89 Lucia 95 Thomas 76 Marta 67 Joe 92 Alex 78 Sophia 90 Alfred 65 Kate 46 ``` > `awk` particularly lends itself to inputs that are structured by whitespace or in columns, like what you get from commands like `ls` and `grep` ### Patterns and actions The basic structure of an `awk` script is as follows: ``` pattern {action} ``` A **pattern** is what you want to match against. It can be a literal string or a regex. The **action** is what process you want to execute against the lines in the input that match the pattern. The following script prints the line that matches `Joe`: ```bash awk '/Joe/ {print}' list.txt ``` `/Joe/` is the patttern and `{print}` is the action. ### Lines, records, fields ![](/_img/awk-outline.png) When `awk` receives a file it divides the lines into **records**. Each line `awk` receives is broken up into a sequence of **fields**. The fields are accessed by special variables: - `$1` reads the first field, `$2` reads the second field and so on. - The variable `$0` refers to the whole record So, in the picture `cloud existence ministerial` corresponse to `$1` `$2` `$3` ## Basic examples **_Match a pattern_** ```bash awk '/book/ { print }' list.txt # bookworm # bookcase ``` **_Print all words that are longer that five characters_** ```bash awk 'length($1) > 5 { print $0 }' list.txt ``` For the first field of every line (we only have one field per line), if it is greater than 5 characters print it. The "every line" part is provided for via the all fields variable - `$0`. We actually don't need to include the `{ print $0 }` action, as this is the default behaviour. We could have just put `length($1) > 5 list.txt` **_Print all words that do not have three characters_** ```bash awk '!(length($1) == 3)' list.txt ``` Here we negate by prepending the pattern with `!` and wrapping it in parentheses. **_Return words that are either three characters or four characters in length_** ``` awk '(length($1) == 3) || (length($1) == 4)' list.txt ``` Here we use the logical OR to match against more than one pattern. Notice that whenever we use a Boolean operator such as NOT or OR, we wrap our pattern in parentheses. **_Match and string-interpolate the output_** ```bash awk 'length($1) > 0 {print $1, "has", length($1), "chars"}' list.txt # storeroom has 9 chars # tree has 4 chars # cup has 3 chars ``` **_Match against a numerical property_** ```bash awk '$2 >= 90 { print $0 }' scores.txt # Lucia 95 # Joe 92 # Sophia 90 ``` This returns the records where there is a secondary numerical field that is greater than 90. **_Match a field against a regular expression_** ```bash awk '$1 ~ /^[b,c]/ {print $1}' words.txt ``` This matches all the fields in the `$1` place that begin with 'b' or 'c'. The tilde is the regex match operator. You must be passing a regex to use it, otherwise use `==`. ## Syntactic shorthands - For a statement like `awk 'length($1) > 5 { print $0 }' list.txt`. We actually don't need to include the `{ print $0 }` action, as this is the default behaviour and it is implied. We could have just put `length($1) > 5 list.txt`. https://zetcode.com/lang/awk/ ## Built-in variables ### `NF` The value of `NF` is the **number** of **fields** in the current record. `Awk` automatically updates the value of `NF` every time it reads a record. No matter how many fields there are, the last value in a record can always be represented by `$NF`. ### `NR` `NR` represents the **number** of **records**. It is set at the point at which the file is read. ### `FS` `FS` represents the **field separator**. The default field separator is a space. We can specify a different separator with the `-F` flag. E.g to separate by comma: ```bash awk -F, '{print $1 }' list.txt ```