324 lines
6.3 KiB
Markdown
324 lines
6.3 KiB
Markdown
# format
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format greps lines from stdin, parses them via regex and reformats them according to a given format string
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## Input pattern
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The input pattern describes the format in which the lines are parsed from stdin.
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This pattern is a regular expression according to [Go's regexp spec](https://pkg.go.dev/regexp).
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Be default, the input pattern will only be applied to every single line.
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When using multiline patterns, you can provide an amount of lines using the command line argument `-n` followed by an integer amount of lines.
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Use subgroups for extracting specific parts of the input line.
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Provide your custom input pattern with the command line argument `-i '<pattern>'`
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The default value is `^.*?$` which simply matches the whole line.
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## Output pattern
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The output pattern describes the format in which lines are generated for stdout using data from the input pattern.
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The default value is `{0}` which always matches the full input pattern
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### Capturing groups
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Use the `{<group_index>}` syntax to use a specific capturing group.
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- `{0}` always matches the whole line.
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- `{1}` matches the first capturing group
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- `{2}` matches the second capturing group
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- and so on
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### Formatting
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When referencing capturing groups, you can add a specific format for some data types as well using a simplified printf syntax.
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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.
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The same method can also be applied to `%f` to further format floating point values.
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See a full list of formatting options at [Go's fmt spec](https://pkg.go.dev/fmt).
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Currently only `%s`, `%d`, `%f` and `%g` are supported though.
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### Mutators
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Mutators are a simple way of manipulating number values like integers and floats using a simple math-like expression
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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`.
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A mutator always consists of an operator and a value. In the example above `+` is the operator and `1` is the value.
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The following operators are supported for `%d`, `%f` and `%g` formats:
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- `+`
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- `-`
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- `*`
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- `/`
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It is possible to add multiple mutators by just concatenating them: `{1:%d:*2+1}`.
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Multiple mutators will not follow any order of operations. They are simply applied from left to right!
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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.
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## Handling unmatched lines
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By default, lines which do not match the input pattern will be dropped.
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Use `-k` to keep them unchanged. They will be copied into stdout.
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## Examples
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### Copying
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Input:
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```
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1
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2
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3
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4
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```
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Command:
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```sh
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format
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```
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Output:
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```
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1
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2
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3
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4
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```
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### Filtering
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Only keep lines which contains an `i`
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Input:
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```
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one
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two
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three
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four
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five
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six
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seven
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eight
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nine
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ten
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```
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Command:
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```sh
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format -i '.*i.*'
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```
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Output:
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```
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five
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six
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eight
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nine
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```
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### Removing leading zeros
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Input:
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```
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001
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002
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003
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04
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```
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Command:
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```sh
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format -i '\d+' -o '{0:%d}'
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```
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Output:
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```
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1
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2
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3
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4
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```
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### Extracting dates
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Input:
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```
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2022-04-18
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1970-01-01
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2006-01-02
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```
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Command:
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```sh
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format -i '(\d{4})-(\d{2})-(\d{2})' -o 'day: {3:%d} | month: {2:%d} | year: {1}'
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```
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Output:
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```
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day: 18 | month: 4 | year: 2022
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day: 1 | month: 1 | year: 1970
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day: 2 | month: 1 | year: 2006
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```
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### Applying multiple formats
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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
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Input:
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```
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2022-04-18
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1970-01-01
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02.01.2006
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02.02.1962
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```
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Command:
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```sh
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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
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```
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Output:
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```
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day: 18 | month: 4 | year: 2022
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day: 1 | month: 1 | year: 1970
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day: 2 | month: 1 | year: 2006
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day: 2 | month: 2 | year: 1962
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```
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### Parsing multi-line patterns
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Input:
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```
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year: 2022
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month: 04
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day: 18
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year: 1970
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month: 01
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day: 01
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year: 2006
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month: 01
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day: 02
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year: 1962
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month: 02
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day: 02
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```
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Command:
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```sh
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format -n 3 -i '^year: (\d{4})\nmonth: (\d{2})\nday: (\d{2})$' -o 'day: {3:%d} | month: {2:%d} | year: {1}'
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```
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Output:
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```
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day: 18 | month: 4 | year: 2022
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day: 1 | month: 1 | year: 1970
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day: 2 | month: 1 | year: 2006
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day: 2 | month: 2 | year: 1962
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```
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### Adding 2 values together
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Input:
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```
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5 7
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3 2
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10 152
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-15 3.7
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```
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Command:
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```sh
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format -i '(-?\d+) (-?\d+(?:.\d+)?)' -o '{1} + {2} = {1:%g:+(2)}'
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```
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Output:
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```
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5 + 7 = 12
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3 + 2 = 5
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10 + 152 = 162
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-15 + 3.7 = -11.3
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```
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### Bulk renaming files
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Rename a bunch of files using format at once
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Output of `ls`:
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```
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000.jpg
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001.jpg
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002.jpg
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```
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Command:
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```sh
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ls | format -i '(\d+)\.jpg' -o 'mv "{0}" "{1:%d:+1}.jpg"' | xargs -0 sh -c
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```
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Output of `ls` afterwards:
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```
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1.jpg
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2.jpg
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3.jpg
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```
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To further automate this, I made my own custom script called `bulkrename` and put it in my `$PATH`
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Content:
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```sh
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#!/usr/bin/env sh
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if [ "$3" = "exec" ]; then
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command ls | format -i "$1" -o "mv \"{0}\" \"$2\"" | xargs -0 -P 4 sh -c
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else
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command ls | format -i "$1" -o "mv \"{0}\" \"$2\""
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echo
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echo "execute commands with 'bulkrename $@ exec'"
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fi
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```
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There are a few things to consider using this script:
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- You can't use `-i` and `-o`. The first argument is input, the second is output
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- 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 add `exec` as its third argument
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- 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
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Example usage of this script:
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Output of `ls`:
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```
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000.jpg
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001.jpg
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002.jpg
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```
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Command:
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```sh
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bulkrename '(\d+)\.jpg' '{1:%d:+1}.jpg'
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```
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Output:
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```
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mv "000.jpg" "1.jpg"
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mv "001.jpg" "2.jpg"
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mv "002.jpg" "3.jpg"
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execute commands with 'bulkrename (\d+)\.jpg {1:%d:+1}.jpg exec'
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```
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Command:
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```sh
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bulkrename '(\d+)\.jpg' '{1:%d:+1}.jpg' exec
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```
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Output of `ls` afterwards:
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```
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1.jpg
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2.jpg
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3.jpg
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``` |