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medialab/xan

xan, the CSV magician

xan is a command line tool that can be used to process CSV files directly from the shell.

It has been written in Rust to be as performant as possible and can easily handle very large CSV files (Gigabytes). It is also able to leverage parallelism (through multithreading) to make some tasks complete as fast as your computer can allow.

It can easily preview, filter, slice, aggregate, sort, join CSV files, and exposes a large collection of composable commands that can be chained together to perform a wide variety of typical tasks.

xan also leverages its own expression language so you can perform complex tasks that cannot be done by relying on the simplest commands. This minimalistic language has been tailored for CSV data and is faster than evaluating typical dynamically-typed languages such as Python, Lua, JavaScript etc.

Note that this tool is originally a fork of BurntSushi's xsv, but has been nearly entirely rewritten at that point, to fit SciencesPo's médialab use-cases, rooted in web data collection and analysis geared towards social sciences (you might think CSV is outdated by now, but read our love letter to the format before judging too quickly).

Finally, xan can be used to display CSV files in the terminal, for easy exploration, and can even be used to draw basic data visualisations.

Displaying a CSV file in the terminal using xan view

view.png

Showing a flattened view of CSV records using xan flatten

flatten.png

Drawing a histogram of values using xan hist

hist.png

Drawing a scatterplot using xan plot

scatter.png

Drawing a time series using xan plot

line.png

Displaying a progress bar using xan progress

progress.gif

Summary

How to install

xan can be installed using cargo (it usually comes with Rust):

cargo install xan

You can also install the latest dev version thusly:

cargo install --git https://github.com/medialab/xan

Note that xan also exposes handy automatic completions for command and header names that you can install through the xan completions command.

Run the following command to understand how to install those completions:

xan completions -h

Quick tour

Let's learn about the most commonly used xan commands by exploring a corpus of French medias:

Downloading the corpus

curl -LO https://github.com/medialab/corpora/raw/master/polarisation/medias.csv

Displaying the file's headers

xan headers medias.csv
0   webentity_id
1   name
2   prefixes
3   home_page
4   start_pages
5   indegree
6   hyphe_creation_timestamp
7   hyphe_last_modification_timestamp
8   outreach
9   foundation_year
10  batch
11  edito
12  parody
13  origin
14  digital_native
15  mediacloud_ids
16  wheel_category
17  wheel_subcategory
18  has_paywall
19  inactive

Counting the number of rows

xan count medias.csv
478

Previewing the file in the terminal

xan view medias.csv
Displaying 5/20 cols from 10 first rows of medias.csv
┌───┬───────────────┬───────────────┬────────────┬───┬─────────────┬──────────┐
│ - │ name          │ prefixes      │ home_page  │ … │ has_paywall │ inactive │
├───┼───────────────┼───────────────┼────────────┼───┼─────────────┼──────────┤
│ 0 │ Acrimed.org   │ http://acrim… │ http://ww… │ … │ false       │ <empty>  │
│ 1 │ 24matins.fr   │ http://24mat… │ https://w… │ … │ false       │ <empty>  │
│ 2 │ Actumag.info  │ http://actum… │ https://a… │ … │ false       │ <empty>  │
│ 3 │ 2012un-Nouve… │ http://2012u… │ http://ww… │ … │ false       │ <empty>  │
│ 4 │ 24heuresactu… │ http://24heu… │ http://24… │ … │ false       │ <empty>  │
│ 5 │ AgoraVox      │ http://agora… │ http://ww… │ … │ false       │ <empty>  │
│ 6 │ Al-Kanz.org   │ http://al-ka… │ https://w… │ … │ false       │ <empty>  │
│ 7 │ Alalumieredu… │ http://alalu… │ http://al… │ … │ false       │ <empty>  │
│ 8 │ Allodocteurs… │ http://allod… │ https://w… │ … │ false       │ <empty>  │
│ 9 │ Alterinfo.net │ http://alter… │ http://ww… │ … │ <empty>     │ true     │
│ … │ …             │ …             │ …          │ … │ …           │ …        │
└───┴───────────────┴───────────────┴────────────┴───┴─────────────┴──────────┘

On unix, don't hesitate to use the -p flag to automagically forward the full output to an appropriate pager and skim through all the columns.

Reading a flattened representation of the first row

# NOTE: drop -c to avoid truncating the values
xan flatten -c
Row n°0
───────────────────────────────────────────────────────────────────────────────
webentity_id                      1
name                              Acrimed.org
prefixes                          http://acrimed.org|http://acrimed69.blogspot…
home_page                         http://www.acrimed.org
start_pages                       http://acrimed.org|http://acrimed69.blogspot…
indegree                          61
hyphe_creation_timestamp          1560347020330
hyphe_last_modification_timestamp 1560526005389
outreach                          nationale
foundation_year                   2002
batch                             1
edito                             media
parody                            false
origin                            france
digital_native                    true
mediacloud_ids                    258269
wheel_category                    Opinion Journalism
wheel_subcategory                 Left Wing
has_paywall                       false
inactive                          <empty>

Row n°1
───────────────────────────────────────────────────────────────────────────────
webentity_id                      2
...

Searching for rows

xan search -s outreach internationale medias.csv | xan view
Displaying 4/20 cols from 10 first rows of <stdin>
┌───┬──────────────┬────────────────────┬───┬─────────────┬──────────┐
│ - │ webentity_id │ name               │ … │ has_paywall │ inactive │
├───┼──────────────┼────────────────────┼───┼─────────────┼──────────┤
│ 0 │ 25           │ Businessinsider.fr │ … │ false       │ <empty>  │
│ 1 │ 59           │ Europe-Israel.org  │ … │ false       │ <empty>  │
│ 2 │ 66           │ France 24          │ … │ false       │ <empty>  │
│ 3 │ 220          │ RFI                │ … │ false       │ <empty>  │
│ 4 │ 231          │ fr.Sott.net        │ … │ false       │ <empty>  │
│ 5 │ 246          │ Voltairenet.org    │ … │ true        │ <empty>  │
│ 6 │ 254          │ Afp.com /fr        │ … │ false       │ <empty>  │
│ 7 │ 265          │ Euronews FR        │ … │ false       │ <empty>  │
│ 8 │ 333          │ Arte.tv            │ … │ false       │ <empty>  │
│ 9 │ 341          │ I24News.tv         │ … │ false       │ <empty>  │
│ … │ …            │ …                  │ … │ …           │ …        │
└───┴──────────────┴────────────────────┴───┴─────────────┴──────────┘

Selecting some columns

xan select foundation_year,name medias.csv | xan view
Displaying 2 cols from 10 first rows of <stdin>
┌───┬─────────────────┬───────────────────────────────────────┐
│ - │ foundation_year │ name                                  │
├───┼─────────────────┼───────────────────────────────────────┤
│ 0 │ 2002            │ Acrimed.org                           │
│ 1 │ 2006            │ 24matins.fr                           │
│ 2 │ 2013            │ Actumag.info                          │
│ 3 │ 2012            │ 2012un-Nouveau-Paradigme.com          │
│ 4 │ 2010            │ 24heuresactu.com                      │
│ 5 │ 2005            │ AgoraVox                              │
│ 6 │ 2008            │ Al-Kanz.org                           │
│ 7 │ 2012            │ Alalumieredunouveaumonde.blogspot.com │
│ 8 │ 2005            │ Allodocteurs.fr                       │
│ 9 │ 2005            │ Alterinfo.net                         │
│ … │ …               │ …                                     │
└───┴─────────────────┴───────────────────────────────────────┘

Sorting the file

xan sort -s foundation_year medias.csv | xan select name,foundation_year | xan view -l 10
Displaying 2 cols from 10 first rows of <stdin>
┌───┬────────────────────────────────────┬─────────────────┐
│ - │ name                               │ foundation_year │
├───┼────────────────────────────────────┼─────────────────┤
│ 0 │ Le Monde Numérique (Ouest France)  │ <empty>         │
│ 1 │ Le Figaro                          │ 1826            │
│ 2 │ Le journal de Saône-et-Loire       │ 1826            │
│ 3 │ L'Indépendant                      │ 1846            │
│ 4 │ Le Progrès                         │ 1859            │
│ 5 │ La Dépêche du Midi                 │ 1870            │
│ 6 │ Le Pélerin                         │ 1873            │
│ 7 │ Dernières Nouvelles d'Alsace (DNA) │ 1877            │
│ 8 │ La Croix                           │ 1883            │
│ 9 │ Le Chasseur Francais               │ 1885            │
│ … │ …                                  │ …               │
└───┴────────────────────────────────────┴─────────────────┘

Deduplicating the file on some column

# Some medias of our corpus have the same ids on mediacloud.org
xan dedup -s mediacloud_ids medias.csv | xan count && xan count medias.csv
457
478

Deduplicating can also be done while sorting:

xan sort -s mediacloud_ids -u medias.csv

Computing frequency tables

xan frequency -s edito medias.csv | xan view
Displaying 3 cols from 5 rows of <stdin>
┌───┬───────┬────────────┬───────┐
│ - │ field │ value      │ count │
├───┼───────┼────────────┼───────┤
│ 0 │ edito │ media      │ 423   │
│ 1 │ edito │ individu   │ 30    │
│ 2 │ edito │ plateforme │ 14    │
│ 3 │ edito │ agrégateur │ 10    │
│ 4 │ edito │ agence     │ 1     │
└───┴───────┴────────────┴───────┘

Printing a histogram

xan frequency -s edito medias.csv | xan hist
Histogram for edito (bars: 5, sum: 478, max: 423):

media      |423  88.49%|━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━|
individu   | 30   6.28%|━━━╸                                                  |
plateforme | 14   2.93%|━╸                                                    |
agrégateur | 10   2.09%|━╸                                                    |
agence     |  1   0.21%|╸                                                     |

Computing descriptive statistics

xan stats -s indegree,edito medias.csv | xan transpose | xan view -I
Displaying 2 cols from 14 rows of <stdin>
┌─────────────┬───────────────────┬────────────┐
│ field       │ indegree          │ edito      │
├─────────────┼───────────────────┼────────────┤
│ count       │ 463               │ 478        │
│ count_empty │ 15                │ 0          │
│ type        │ int               │ string     │
│ types       │ int|empty         │ string     │
│ sum         │ 25987             │ <empty>    │
│ mean        │ 56.12742980561554 │ <empty>    │
│ variance    │ 4234.530197929737 │ <empty>    │
│ stddev      │ 65.07326792108829 │ <empty>    │
│ min         │ 0                 │ <empty>    │
│ max         │ 424               │ <empty>    │
│ lex_first   │ 0                 │ agence     │
│ lex_last    │ 99                │ plateforme │
│ min_length  │ 0                 │ 5          │
│ max_length  │ 3                 │ 11         │
└─────────────┴───────────────────┴────────────┘

Evaluating an expression to filter a file

xan filter 'batch > 1' medias.csv | xan count
130

To access the expression language's cheatsheet, run xan filter --cheatsheet. To display the full list of available functions, run xan filter --functions.

Evaluating an expression to create a new column based on other ones

xan map 'fmt("{} ({})", name, foundation_year)' key medias.csv | xan select key | xan slice -l 10
key
Acrimed.org (2002)
24matins.fr (2006)
Actumag.info (2013)
2012un-Nouveau-Paradigme.com (2012)
24heuresactu.com (2010)
AgoraVox (2005)
Al-Kanz.org (2008)
Alalumieredunouveaumonde.blogspot.com (2012)
Allodocteurs.fr (2005)
Alterinfo.net (2005)

To access the expression language's cheatsheet, run xan map --cheatsheet. To display the full list of available functions, run xan map --functions.

Transform a column by evaluating an expression

xan transform name 'split(name, ".") | first | upper' medias.csv | xan select name | xan slice -l 10
name
ACRIMED
24MATINS
ACTUMAG
2012UN-NOUVEAU-PARADIGME
24HEURESACTU
AGORAVOX
AL-KANZ
ALALUMIEREDUNOUVEAUMONDE
ALLODOCTEURS
ALTERINFO

To access the expression language's cheatsheet, run xan transform --cheatsheet. To display the full list of available functions, run xan transform --functions.

Performing custom aggregation

xan agg 'sum(indegree) as total_indegree, mean(indegree) as mean_indegree' medias.csv | xan view -I
Displaying 1 col from 1 rows of <stdin>
┌────────────────┬───────────────────┐
│ total_indegree │ mean_indegree     │
├────────────────┼───────────────────┤
│ 25987          │ 56.12742980561554 │
└────────────────┴───────────────────┘

To access the expression language's cheatsheet, run xan agg --cheatsheet. To display the full list of available functions, run xan agg --functions. Finally, to display the list of available aggregation functions, run xan agg --aggs.

Grouping rows and performing per-group aggregation

xan groupby edito 'sum(indegree) as indegree' medias.csv | xan view -I
Displaying 1 col from 5 rows of <stdin>
┌────────────┬──────────┐
│ edito      │ indegree │
├────────────┼──────────┤
│ agence     │ 50       │
│ agrégateur │ 459      │
│ plateforme │ 658      │
│ media      │ 24161    │
│ individu   │ 659      │
└────────────┴──────────┘

To access the expression language's cheatsheet, run xan groupby --cheatsheet. To display the full list of available functions, run xan groupby --functions. Finally, to display the list of available aggregation functions, run xan groupby --aggs.

Available commands

All commands are not fully documented on this README yet, but all the necessary information can be found directly from the command line. Just run xan command -h for help

Explore & visualize

  • count (c): Count rows in file
  • headers (h): Show header names
  • view (v): Preview a CSV file in a human-friendly way
  • flatten: Display a flattened version of each row of a file
  • hist: Print a histogram with rows of CSV file as bars
  • plot: Draw a scatter plot or line chart
  • progress: Display a progress bar while reading CSV data

Search & filter

  • search: Search CSV data with regexes
  • filter: Only keep some CSV rows based on an evaluated expression
  • slice: Slice rows of CSV file
  • top: Find top rows of a CSV file according to some column
  • sample: Randomly sample CSV data

Sort & deduplicate

Aggregate

  • frequency (freq): Show frequency tables
  • groupby: Aggregate data by groups of a CSV file
  • stats: Compute basic statistics
  • agg: Aggregate data from CSV file
  • bins: Dispatch numeric columns into bins

Combine multiple CSV files

  • cat: Concatenate by row or column
  • join: Join CSV files
  • merge: Merge multiple similar already sorted CSV files

Add, transform, drop and move columns

  • select: Select columns from CSV
  • map: Create a new column by evaluating an expression on each CSV row
  • transform: Transform a column by evaluating an expression on each CSV row
  • enum: Enumerate CSV file by preprending an index column
  • flatmap: Emit one row per value yielded by an expression evaluated for each CSV row

Format, convert & recombobulate

  • behead: Drop header from CSV file
  • rename: Rename columns of a CSV file
  • input: Read CSV data with special quoting rules
  • fixlengths: Makes all rows have same length
  • fmt: Format CSV output (change field delimiter)
  • explode: Explode rows based on some column separator
  • implode: Collapse consecutive identical rows based on a diverging column
  • from: Convert a variety of formats to CSV
  • to: Convert a CSV file to a variety of data formats
  • reverse: Reverse rows of CSV data
  • transpose: Transpose CSV file

Split a CSV file into multiple

  • split: Split CSV data into chunks
  • partition: Partition CSV data based on a column value

Parallel operation over multiple CSV files

Generate CSV files

  • glob: Create a CSV file with paths matching a glob pattern
  • range: Create a CSV file from a numerical range

Perform side-effects

  • foreach: Loop over a CSV file to perform side effects

Lexicometry & fuzzy matching

  • tokenize: Tokenize a text column
  • vocab: Build a vocabulary over tokenized documents
  • cluster: Cluster CSV data to find near-duplicates

Graph algorithms

  • union-find: Apply the union-find algorithm on a CSV edge list

General flags and IO model

Getting help

If you ever feel lost, each command has a -h/--help flag that will print the related documentation.

Regarding input & output formats

All xan commands expect a "standard" CSV file, e.g. comma-delimited, with proper double-quote escaping. This said, xan is also perfectly able to infer the delimiter from typical file extensions such as .tsv or .tab.

If you need to process a file with a custom delimiter, you can either use the xan input command or use the -d/--delimiter flag available with all commands.

If you need to output a custom CSV dialect (e.g. using ; delimiters), feel free to use the xan fmt command.

Finally, even if most xan commands won't even need to decode the file's bytes, some might still need to. In this case, xan will expect correctly formatted UTF-8 text. Please use iconv or other utils if you need to process other encodings such as latin1 ahead of xan.

Working with headless CSV file

Even if this is good practice to name your columns, some CSV file simply don't have headers. Most commands are able to deal with those file if you give the -n/--no-headers flag.

Note that this flag always relates to the input, not the output. If for some reason you want to drop a CSV output's header row, use the xan behead command.

Regarding stdin

By default, all commands will try to read from stdin when the file path is not specified. This makes piping easy and comfortable as it respects typical unix standards. Some commands may have multiple inputs (xan join, for instance), in which case stdin is usually specifiable using the - character:

# First file given to join will be read from stdin
cat file1.csv | xan join col1 - col2 file2.csv

Note that the command will also warn you when stdin cannot be read, in case you forgot to indicate the file's path.

Regarding stdout

By default, all commands will print their output to stdout (note that this output is usually buffered for performance reasons).

In addition, all commands expose a -o/--output flag that can be use to specify where to write the output. This can be useful if you do not want to or cannot use > (typically in some Windows shells). In which case, - as a output path will mean forwarding to stdout also. This can be useful when scripting sometimes.

Gzipped files

xan is able to read gzipped files (having a .gz extension) out of the box.

Expression language reference

Syntax

This help can be found in the terminal by executing xan map --cheatsheet.

xan script language cheatsheet (use --functions for comprehensive list of
available functions & operators):

  . Indexing a column by name:
        'name'

  . Indexing column with forbidden characters (e.g. spaces, commas etc.):
        'col("Name of film")'

  . Indexing column by index (0-based):
        'col(2)'

  . Indexing a column by name and 0-based nth (for duplicate headers):
        'col("col", 1)'

  . Indexing a column that may not exist:
        'name?'

  . Applying functions:
        'trim(name)'
        'trim(concat(name, " ", surname))'

  . Named function arguments:
        'read(path, encoding="utf-8")'

  . Using operators (unary & binary):
        '-nb1'
        'nb1 + nb2'
        '(nb1 > 1) || nb2'

  . Integer literals:
        '1'

  . Float literals:
        '0.5'

  . Boolean literals:
        'true'
        'false'

  . Null literals:
        'null'

  . String literals (can use single or double quotes):
        '"hello"'
        "'hello'"

  . Regex literals:
        '/john/'
        '/john/i' (case-insensitive)

  . List literals:
        '[1, 2, 3]'
        '["one", "two"]

  . Map literals:
        '{one: 1, two: 2}'
        '{leaf: "hello", "nested": [1, 2, 3]}'

Note that constant expressions will never be evaluated more than once
when parsing the program.

This means that when evaluating the following:
    'get(read_json("config.json"), name)'

The "config.json" file will never be read/parsed more than once and will not
be read/parsed once per row.

Functions & Operators

This help can be found in the terminal by executing xan map --functions.

# Available functions & operators

(use --cheatsheet for a reminder of the expression language's basics)

## Operators

### Unary operators

    !x - boolean negation
    -x - numerical negation,

### Numerical comparison

Warning: those operators will always consider operands as numbers and will
try to cast them around as such. For string/sequence comparison, use the
operators in the next section.

    x == y - numerical equality
    x != y - numerical inequality
    x <  y - numerical less than
    x <= y - numerical less than or equal
    x >  y - numerical greater than
    x >= y - numerical greater than or equal

### String/sequence comparison

Warning: those operators will always consider operands as strings or
sequences and will try to cast them around as such. For numerical comparison,
use the operators in the previous section.

    x eq y - string equality
    x ne y - string inequality
    x lt y - string less than
    x le y - string less than or equal
    x gt y - string greater than
    x ge y - string greater than or equal

### Arithmetic operators

    x + y  - numerical addition
    x - y  - numerical subtraction
    x * y  - numerical multiplication
    x / y  - numerical division
    x % y  - numerical remainder

    x // y - numerical integer division
    x ** y - numerical exponentiation

## String operators

    x . y - string concatenation

## Logical operators

    x &&  y - logical and
    x and y
    x ||  y - logical or
    x or  y

    x in y
    x not in y

## Indexing & slicing operators

    x[y] - get y from x (string or list index, map key)
    x[start:end] - slice x from start index to end index
    x[:end] - slice x from start to end index
    x[start:] - slice x from start index to end

    Negative indices are accepted and mean the same thing as with
    the Python language.

## Pipeline operator (using "_" for left-hand side substitution)

    trim(name) | len(_)         - Same as len(trim(name))
    trim(name) | len            - Supports elision for unary functions
    trim(name) | add(1, len(_)) - Can be nested
    add(trim(name) | len, 2)    - Can be used anywhere

## Arithmetics

    - abs(x) -> number
        Return absolute value of number.

    - add(x,  y,  *n) -> number
        Add two or more numbers.

    - argmax(numbers,  labels?) -> any
        Return the index or label of the largest number in the list.

    - argmin(numbers,  labels?) -> any
        Return the index or label of the smallest number in the list.

    - ceil(x) -> number
        Return the smallest integer greater than or equal to x.

    - div(x,  y,  *n) -> number
        Divide two or more numbers.

    - floor(x) -> number
        Return the smallest integer lower than or equal to x.

    - idiv(x,  y) -> number
        Integer division of two numbers.

    - log(x) -> number
        Return the natural logarithm of x.

    - max(x,  y,  *n) -> number
    - max(list_of_numbers) -> number
        Return the maximum number.

    - min(x,  y,  *n) -> number
    - min(list_of_numbers) -> number
        Return the minimum number.

    - mod(x,  y) -> number
        Return the remainder of x divided by y.

    - mul(x,  y,  *n) -> number
        Multiply two or more numbers.

    - neg(x) -> number
        Return -x.

    - pow(x,  y) -> number
        Raise x to the power of y.

    - round(x) -> number
        Return x rounded to the nearest integer.

    - sqrt(x) -> number
        Return the square root of x.

    - sub(x,  y,  *n) -> number
        Subtract two or more numbers.

    - trunc(x) -> number
        Truncate the number by removing its decimal part.

## Boolean operations & branching

    - and(a,  b,  *x) -> T
        Perform boolean AND operation on two or more values.

    - if(cond,  then,  else?) -> T
        Evaluate condition and switch to correct branch.
        Will actually short-circuit. Contrary to "or" and "and".

    - unless(cond,  then,  else?) -> T
        Shorthand for `if(not(cond), then, else?)`.

    - not(a) -> bool
        Perform boolean NOT operation.

    - or(a,  b,  *x) -> T
        Perform boolean OR operation on two or more values.

## Comparison

    - eq(s1,  s2) -> bool
        Test string or sequence equality.

    - ne(s1,  s2) -> bool
        Test string or sequence inequality.

    - gt(s1,  s2) -> bool
        Test that string or sequence s1 > s2.

    - ge(s1,  s2) -> bool
        Test that string or sequence s1 >= s2.

    - lt(s1,  s2) -> bool
        Test that string or sequence s1 < s2.

    - ge(s1,  s2) -> bool
        Test that string or sequence s1 <= s2.

## String & sequence helpers

    - compact(list) -> list
        Drop all falsey values from given list.

    - concat(string,  *strings) -> string
        Concatenate given strings into a single one.

    - contains(seq,  subseq) -> bool
        Find if subseq can be found in seq. Subseq can
        be a regular expression.

    - count(seq,  pattern) -> int
        Count number of times pattern appear in seq. Pattern
        can be a regular expression.

    - endswith(string,  pattern) -> bool
        Test if string ends with pattern.

    - escape_regex(string) -> string
        Escape a string so it can be used safely in a regular expression.

    - first(seq) -> T
        Get first element of sequence.

    - fmt(string,  *replacements) -> string:
        Format a string by replacing "{}" occurrences by subsequent
        arguments.

        Example: `fmt("Hello {} {}", name, surname)` will replace
        the first "{}" by the value of the name column, then the
        second one by the value of the surname column.

    - get(target,  index_or_key,  default?) -> T
        Get nth element of sequence (can use negative indexing), or key of mapping.
        Returns nothing if index or key is not found or alternatively the provided
        default value.

    - join(seq,  sep) -> string
        Join sequence by separator.

    - last(seq) -> T
        Get last element of sequence.

    - len(seq) -> int
        Get length of sequence.

    - ltrim(string,  pattern?) -> string
        Trim string of leading whitespace or
        provided characters.

    - lower(string) -> string
        Lowercase string.

    - match(string,  pattern,  group?) -> string
        Return a regex pattern match on the string.

    - numfmt(number) -> string:
        Format a number with thousands separator and proper significance.

    - replace(string,  pattern,  replacement) -> string
        Replace pattern in string. Can use a regex.

    - rtrim(string,  pattern?) -> string
        Trim string of trailing whitespace or
        provided characters.

    - slice(seq,  start,  end?) -> seq
        Return slice of sequence.

    - split(string,  sep,  max?) -> list
        Split a string by separator.

    - startswith(string,  pattern) -> bool
        Test if string starts with pattern.

    - trim(string,  pattern?) -> string
        Trim string of leading & trailing whitespace or
        provided characters.

    - unidecode(string) -> string
        Convert string to ascii as well as possible.

    - upper(string) -> string
        Uppercase string.

## Dates

    - datetime(string,  format=?,  timezone=?) -> datetime
        Parse a string as a datetime according to format and timezone
        (https://docs.rs/jiff/latest/jiff/fmt/strtime/index.html#conversion-specifications).
        If no format is provided, string is parsed as ISO 8601 date format.
        Default timezone is the system timezone.

    - strftime(target,  format,  timezone=?) -> string
        Format target (a time in ISO 8601 format,
        or the result of datetime() function) according to format.

    - timestamp(number) -> datetime
        Parse a number as a POSIX timestamp in seconds
        (nb of seconds since 1970-01-01 00:00:00 UTC),
        and convert it to a datetime in local time.

    - timestamp_ms(number) -> datetime
        Parse a number as a POSIX timestamp in milliseconds
        (nb of milliseconds since 1970-01-01 00:00:00 UTC),
        and convert it to a datetime in local time.

    - year_month_day(target,  timezone=?) -> string
    - ymd(target,  timezone=?) -> string
        Extract the year, month and day of a datetime.
        If the input is a string, first parse it into datetime, and then extract the year, month and day.
        Equivalent to strftime(string, format = "%Y-%m-%d")

    - month_day(target,  timezone=?) -> string
        Extract the month and day of a datetime.
        If the input is a string, first parse it into datetime, and then extract the month and day.
        Equivalent to strftime(string, format = "%m-%d")

    - month(target,  timezone=?) -> string
        Extract the month of a datetime.
        If the input is a string, first parse it into datetime, and then extract the month.
        Equivalent to strftime(string, format = "%m")

    - year(target,  timezone=?) -> string
        Extract the year of a datetime.
        If the input is a string, first parse it into datetime, and then extract the year.
        Equivalent to strftime(string, format = "%Y")

    - year_month(target,  timezone=?) -> string
    - ym(target,  timezone=?) -> string
        Extract the year and month of a datetime.
        If the input is a string, first parse it into datetime, and then extract the year and month.
        Equivalent to strftime(string, format = "%Y-%m")

## Collections (list of maps) functions

    - index_by(collection,  key) -> map
        Create a map from item key to collection item.

## Map functions

    - keys(map) -> [string]
        Return a list of the map's keys.

    - values(map) -> [T]
        Return a list of the map's values.

## List aggregation functions

    - mean(numbers) -> number?
        Return the means of the given numbers.

## Fuzzy matching & information retrieval

    - fingerprint(string) -> string
        Fingerprint a string by normalizing characters, re-ordering
        and deduplicating its word tokens before re-joining them by
        spaces.

    - carry_stemmer(string) -> string
        Apply the "Carry" stemmer targeting the French language.

    - s_stemmer(string) -> string
        Apply a very simple stemmer removing common plural inflexions in
        some languages.

## Utils

    - coalesce(*args) -> T
        Return first truthy value.

    - col(name_or_pos,  nth?) -> string
        Return value of cell for given column, by name, by position or by
        name & nth, in case of duplicate header names.

    - cols(from_name_or_pos?,  to_name_or_pos?) -> list
        Return list of cell values from the given colum by name or position
        to another given column by name or position, inclusive.
        Can also be called with a single argument to take a slice from the
        given column to the end, or no argument at all to take all columns.

    - err(msg) -> error
        Make the expression return a custom error.

    - headers(from_name_or_pos?,  to_name_or_pos?) -> list
        Return list of header names from the given colum by name or position
        to another given column by name or position, inclusive.
        Can also be called with a single argument to take a slice from the
        given column to the end, or no argument at all to return all headers.

    - index() -> integer?
        Return the row's index, if applicable.

    - json_parse(string) -> any
        Parse the given string as JSON.

    - typeof(value) -> string
        Return type of value.

## IO & path wrangling

    - abspath(string) -> string
        Return absolute & canonicalized path.

    - bytesize(integer) -> string
        Return a number of bytes in human-readable format (KB, MB, GB, etc.).

    - copy(source_path,  target_path) -> string
        Copy a source to target path. Will create necessary directories
        on the way. Returns target path as a convenience.

    - ext(path) -> string?
        Return the path's extension, if any.

    - filesize(string) -> int
        Return the size of given file in bytes.

    - isfile(string) -> bool
        Return whether the given path is an existing file on disk.

    - move(source_path,  target_path) -> string
        Move a source to target path. Will create necessary directories
        on the way. Returns target path as a convenience.

    - pathjoin(string,  *strings) -> string
        Join multiple paths correctly.

    - read(path,  encoding=?,  errors=?) -> string
        Read file at path. Default encoding is "utf-8".
        Default error handling policy is "replace", and can be
        one of "replace", "ignore" or "strict".

    - read_csv(path) -> list[map]
        Read and parse CSV file at path, returning its rows as
        a list of maps with headers as keys.

    - read_json(path) -> any
        Read and parse JSON file at path.

    - write(string,  path) -> string
        Write string to path as utf-8 text. Will create necessary
        directories recursively before actually writing the file.
        Return the path that was written.

## Random

    - md5(string) -> string
        Return the md5 hash of string in hexadecimal representation.

    - random() -> float
        Return a random float between 0 and 1.

    - uuid() -> string
        Return a uuid v4.

Aggregation functions

This help can be found in the terminal by executing xan agg --aggs.

# Available aggregation functions

(use --cheatsheet for a reminder of how the scripting language works)

Note that most functions ignore null values (empty strings), but that functions
operating on numbers will yield an error if encountering a string that cannot
be safely parsed as a number.

You can always use `coalesce` to nudge values around and force aggregation functions to
consider null values or make them avoid non-numerical values altogether.

Example: considering null values when computing a mean => 'mean(coalesce(number, 0))'

    - all(<expr>) -> bool
        Returns true if all elements returned by given expression are truthy.

    - any(<expr>) -> bool
        Returns true if one of the elements returned by given expression is truthy.

    - approx_cardinality(<expr>) -> int
        Returns the approximate cardinality of the set of values returned by given
        expression using the HyperLogLog+ algorithm.

    - argmin(<expr>,  <expr>?) -> any
        Return the index of the row where the first expression is minimized, or
        the result of the second expression where the first expression is minimized.
        Ties will be broken by original row index.

    - argmax(<expr>,  <expr>?) -> any
        Return the index of the row where the first expression is maximized, or
        the result of the second expression where the first expression is maximized.
        Ties will be broken by original row index.

    - argtop(k,  <expr>,  <expr>?,  separator?) -> string
        Find the top k values returned by the first expression and either
        return the indices of matching rows or the result of the second
        expression, joined by a pipe character ('|') or by the provided separator.
        Ties will be broken by original row index.

    - avg(<expr>) -> number
        Average of numerical values. Same as `mean`.

    - cardinality(<expr>) -> number
        Number of distinct values returned by given expression.

    - count(<expr>?) -> number
        Count the number of truthy values returned by given expression.
        Expression can also be omitted to count all rows.

    - count_seconds(<expr>) -> number
        Count the number of seconds between earliest and latest datetime
        returned by given expression.

    - count_hours(<expr>) -> number
        Count the number of hours between earliest and latest datetime
        returned by given expression.

    - count_days(<expr>) -> number
        Count the number of days between earliest and latest datetime
        returned by given expression.

    - count_years(<expr>) -> number
        Count the number of years between earliest and latest datetime
        returned by given expression.

    - distinct_values(<expr>,  separator?) -> string
        List of sorted distinct values joined by a pipe character ('|') by default or by
        the provided separator.

    - earliest(<expr>) -> datetime
        Earliest datetime returned by given expression.

    - first(<expr>) -> string
        Return first seen non empty element of the values returned by the given expression.

    - latest(<expr>) -> datetime
        Latest datetime returned by given expression.

    - last(<expr>) -> string
        Return last seen non empty element of the values returned by the given expression.

    - lex_first(<expr>) -> string
        Return first string in lexicographical order.

    - lex_last(<expr>) -> string
        Return last string in lexicographical order.

    - min(<expr>) -> number | string
        Minimum numerical value.

    - max(<expr>) -> number | string
        Maximum numerical value.

    - mean(<expr>) -> number
        Mean of numerical values. Same as `avg`.

    - median(<expr>) -> number
        Median of numerical values, interpolating on even counts.

    - median_high(<expr>) -> number
        Median of numerical values, returning higher value on even counts.

    - median_low(<expr>) -> number
        Median of numerical values, returning lower value on even counts.

    - mode(<expr>) -> string
        Value appearing the most, breaking ties arbitrarily in favor of the
        first value in lexicographical order.

    - most_common(k,  <expr>,  separator?) -> string
        List of top k most common values returned by expression
        joined by a pipe character ('|') or by the provided separator.
        Ties will be broken by lexicographical order.

    - most_common_counts(k,  <expr>,  separator?) -> numbers
        List of top k most common counts returned by expression
        joined by a pipe character ('|') or by the provided separator.

    - percentage(<expr>) -> number
        Return the percentage of truthy values returned by expression.

    - quantile(<expr>,  p) -> number
        Return the desired quantile of numerical values.

    - q1(<expr>) -> number
        Return the first quartile of numerical values.

    - q2(<expr>) -> number
        Return the second quartile of numerical values. Alias for median.

    - q3(<expr>) -> number
        Return the third quartile of numerical values.

    - ratio(<expr>) -> number
        Return the ratio of truthy values returned by expression.

    - stddev(<expr>) -> number
        Population standard deviation. Same as `stddev_pop`.

    - stddev_pop(<expr>) -> number
        Population standard deviation. Same as `stddev`.

    - stddev_sample(<expr>) -> number
        Sample standard deviation (i.e. using Bessel's correction).

    - sum(<expr>) -> number
        Sum of numerical values. Will return nothing if the sum overflows.
        Uses the Kahan-Babuska routine for precise float summation.

    - top(k,  <expr>,  separator?) -> any
        Find the top k values returned by the expression and join
        them by a pipe character ('|') or by the provided separator.
        Ties will be broken by original row index.

    - type(<expr>) -> string
        Best type description for seen values.

    - types(<expr>) -> string
        Sorted list, pipe-separated, of all the types seen in the values.

    - values(<expr>,  separator?) -> string
        List of values joined by a pipe character ('|') by default or by
        the provided separator.

    - var(<expr>) -> number
        Population variance. Same as `var_pop`.

    - var_pop(<expr>) -> number
        Population variance. Same as `var`.

    - var_sample(<expr>) -> number
        Sample variance (i.e. using Bessel's correction).

Advanced use-cases

Reading files in parallel

Let's say one column of your CSV file is containing paths to files, relative to some downloaded folder, and you want to make sure all of them contain some string (maybe you crawled some website and want to make sure you were correctly logged in by searching for some occurrence of your username):

xan progress files.csv | \
xan filter -p 'pathjoin("downloaded", path) | read | !contains(_, /yomguithereal/i)' > not-logged.csv

Generating a CSV of paginated urls to download

Let's say you want to download the latest 50 pages from Hacker News using another of our tools named minet.

You can pipe xan range into xan select -e into minet fetch:

xan range -s 1 50 -i | \
xan select -e '"https://news.ycombinator.com/?p=".n as url' | \
minet fetch url -i -

Piping to xargs

Let's say you want to delete all files whose path can be found in a column of CSV file. You can select said column and format it with xan before piping to xargs:

xan select path files.csv | \
xan behead | \
xan fmt --quote-never | \
xargs -I {} rm {};

Frequently Asked Questions

How to display a vertical bar chart?

Rotate your screen ;)