7.3 KiB
format
Source code
You can find the source code here: https://git.tordarus.net/Tordarus/format
Installation
If you have Go installed, you can simply go install the program: go install git.tordarus.net/Tordarus/format@latest
There are pre-compiled executables for various platforms on the repository.
License
Distributed under the MIT License. See LICENSE.md
Usage
Input pattern
The input pattern describes the format in which the lines are parsed from stdin. This pattern is a regular expression according to Go's regexp spec.
By default, the input pattern will only be applied to every single line.
When using multiline patterns, you can provide an amount of lines using the command line argument -n
followed by an integer amount of lines.
Use subgroups for extracting specific parts of the input line.
Provide your custom input pattern with the command line argument -i '<pattern>'
The default value is ^.*?$
which simply matches the whole line.
Output pattern
The output pattern describes the format in which lines are generated for stdout using data from the input pattern.
Provide an output pattern via -o '<pattern>'
.
The default value is {0}
which always matches the full input pattern
Capturing groups
Use the {<group_index>}
syntax to use a specific capturing group.
{0}
always matches the whole line.{1}
matches the first capturing group{2}
matches the second capturing group- and so on
Coloring
Coloring a reference to a capturing group can be done via {1:<color>}
.
<color>
can be one of the following values:
black
red
green
yellow
blue
magenta
cyan
white
Leaving the color argument empty results into the default color.
Formatting
When referencing capturing groups, you can add a specific format for some data types using a simplified printf syntax.
You can use them using this syntax: {1::%d}
. It will parse the first capturing group into an integer to get rid of leading zeros. Additionally, you can provide a given amount of leading zeros via: {1::%03d}
for a total length of 3 digits.
The same method can also be applied to %f
to further format floating point values.
See a full list of formatting options at Go's fmt spec.
Currently only %s
, %d
, %f
and %g
are supported though.
Mutators
Mutators are a simple way of manipulating number values like integers and floats using a simple math-like expression
You can provide a mutator using the syntax: {1::%d:+1}
. It will parse the first capturing group into an integer, adds 1 and then formats the result using the printf format %d
.
A mutator always consists of an operator and a value. In the example above +
is the operator and 1
is the value.
The following operators are supported for %d
, %f
and %g
formats:
+
-
*
/
It is possible to add multiple mutators by just concatenating them: {1::%d:*2+1}
.
Multiple mutators will not follow any order of operations. They are simply applied from left to right!
Furthermore you can reference caputring groups which will be parsed as the same type to apply its value. This is done via the following syntax: {1::%d:+(2)}
. It will parse the first and second capturing group into integers and adds them.
Handling unmatched lines
By default, lines which do not match the input pattern will be dropped.
Use -k
to keep them unchanged. They will be copied into stdout.
Examples
Copying
Copying is the default behavior of format
Input:
1
2
3
4
Command:
format
Output:
1
2
3
4
Filtering
Only keep lines which contains an i
Input:
one
two
three
four
five
six
seven
eight
nine
ten
Command:
format -i '.*i.*'
Output:
five
six
eight
nine
Removing leading zeros
Use printf syntax on a capturing group in the output pattern
Input:
001
002
003
04
Command:
format -i '\d+' -o '{0::%d}'
Output:
1
2
3
4
Extracting dates
Input:
2022-04-18
1970-01-01
2006-01-02
Command:
format -i '(\d{4})-(\d{2})-(\d{2})' -o 'day: {3::%d} | month: {2::%d} | year: {1}'
Output:
day: 18 | month: 4 | year: 2022
day: 1 | month: 1 | year: 1970
day: 2 | month: 1 | year: 2006
Applying multiple formats
Every format
process can only apply a single pattern. Use -k
to keep unmatched lines so the next format
instance can apply another input pattern to them
Input:
2022-04-18
1970-01-01
02.01.2006
02.02.1962
Command:
format -i '(\d{4})-(\d{2})-(\d{2})' -o 'day: {3::%d} | month: {2::%d} | year: {1}' -k |
format -i '(\d{2})\.(\d{2})\.(\d{4})' -o 'day: {1::%d} | month: {2::%d} | year: {3}' -k
Output:
day: 18 | month: 4 | year: 2022
day: 1 | month: 1 | year: 1970
day: 2 | month: 1 | year: 2006
day: 2 | month: 2 | year: 1962
Parsing multi-line patterns
Use -n
to change the amount of lines fed into the input pattern
Input:
year: 2022
month: 04
day: 18
year: 1970
month: 01
day: 01
year: 2006
month: 01
day: 02
year: 1962
month: 02
day: 02
Command:
format -n 3 -i '^year: (\d{4})\nmonth: (\d{2})\nday: (\d{2})$' -o 'day: {3::%d} | month: {2::%d} | year: {1}'
Output:
day: 18 | month: 4 | year: 2022
day: 1 | month: 1 | year: 1970
day: 2 | month: 1 | year: 2006
day: 2 | month: 2 | year: 1962
Adding 2 values together
Use mutators to apply simple arithmetic on
Input:
5 7
3 2
10 152
-15 3.7
Command:
format -i '(-?\d+) (-?\d+(?:.\d+)?)' -o '{1} + {2} = {1::%g:+(2)}'
Output:
5 + 7 = 12
3 + 2 = 5
10 + 152 = 162
-15 + 3.7 = -11.3
Bulk renaming files
Rename a bunch of files at once using format
Output of ls
:
000.jpg
001.jpg
002.jpg
Command:
ls | format -i '(\d+)\.jpg' -o 'mv "{0}" "{1::%d:+1}.jpg"' | xargs -0 sh -c
Output of ls
afterwards:
1.jpg
2.jpg
3.jpg
To further automate this, I made my own custom script called bulkrename
and put it in my $PATH
Content:
#!/usr/bin/env sh
if [ "$3" = "exec" ]; then
command ls | format -i "$1" -o "mv \"{0}\" \"$2\"" | xargs -0 -P 4 sh -c
else
command ls | format -i "$1" -o "mv \"{0}\" \"$2\""
echo
echo "execute commands with 'bulkrename $@ exec'"
fi
There are a few things to consider using this script:
- You can't use
-i
and-o
. The first argument is input, the second is output - To prevent unwanted file modifications, it will print the
mv
commands it generates to stdout by default. After you checked that all files will be renamed as desired, just addexec
as its third argument - It can only move items which are in your working directory. But it can move these files outside of the working directory using relative or absolute paths
Example usage of this script:
Output of ls
:
000.jpg
001.jpg
002.jpg
Command:
bulkrename '(\d+)\.jpg' '{1::%d:+1}.jpg'
Output:
mv "000.jpg" "1.jpg"
mv "001.jpg" "2.jpg"
mv "002.jpg" "3.jpg"
execute commands with 'bulkrename (\d+)\.jpg {1::%d:+1}.jpg exec'
Command:
bulkrename '(\d+)\.jpg' '{1::%d:+1}.jpg' exec
Output of ls
afterwards:
1.jpg
2.jpg
3.jpg