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A string library for Zsh. Its founding function was parsing of JSON.

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Zsh String Lib

Introduction

A string library for Zsh. Its founding function was parsing of JSON.

List Of The Functions

@str-parse-json

Parses the buffer ($1) with JSON and returns:

  1. Fields for the given key ($2) in the given hash ($3).

  2. The hash looks like follows:

    1/1 → strings at the level 1 of the 1st object
    1/2 → strings at the level 1 of the 2nd object
    …
    2/1 → strings at 2nd level of the 1st object
    …

    The strings are parseable with "${(@Q)${(@z)value}", i.e.: they're concatenated and quoted strings found in the JSON.

Example:

{
  "zi-ices": {
    "default": {
      "wait": "1",
      "lucid": "",
      "as": "program",
      "pick": "fzy",
      "make": ""
    },
    "bgn": {
      "wait": "1",
      "lucid": "",
      "as": "null",
      "make": "",
      "sbin": "fzy;contrib/fzy-*"
    }
  }
}

Will result in:

local -A Strings
Strings[1/1]="zi-ices"
Strings[2/1]="default $'\0'--object--$'\0' bgn $'\0'--object--$'\0'"
Strings[3/1]='wait 1 lucid \  as program pick fzy make \ '
Strings[3/2]='wait 1 lucid \  as null make \  sbin fzy\;contrib/fzy-\*'

So that when you e.g.: expect a key bgn but don't know at which position, you can do:

local -A Strings
@str-parse-json "$json" "zi-ices" Strings

integer pos
# (I) flag returns index at which the `bgn' string
# has been found in the array – the result of the
# (z)-split of the Strings[2/1] string
pos=${${(@Q)${(@z)Strings[2/1]}}[(I)bgn]}
if (( pos )) {
  local -A ices
  ices=( "${(@Q)${(@z)Strings[3/$(( (pos+1) / 2 ))]}}" )
  # Use the `ices' hash holding the values of the `bgn' object
  …
}

Note that the $'\0' is correctly dequoted by Q flag into the null byte.

Arguments:

  1. The buffer with JSON.
  2. The key in the JSON that should be mapped to the result (i.e.: it's possible to map only a subset of the input). It must be the first key in the object to map.
  3. The name of the output hash parameter.

@str-read-all

Consumes whole data from given file descriptor and stores the string under the given ($2) parameter, which is REPLY by default.

The reason to create this function is speed – it's much faster than read -d ''.

It can try hard to read the whole data by retrying multiple times (10 by default) and sleeping before each retry (not done by default).

Arguments:

  1. File descriptor (a number; use 1 for stdin) to be read from.
  2. Name of output variable (default: REPLY).
  3. Numer of retries (default: 10).
  4. Sleep time after each retry (a float; default: 0).

Example:

exec {FD}< =( cat /etc/motd )
@str-read-all $FD
print -r -- $REPLY

@str-ng-match

Returns a non-greedy match of the given pattern ($2) in the given string ($1).

  1. The string to match in.
  2. The pattern to match in the string.

Return value:

  • $REPLY – the matched string, if found,
  • return code: 0 if there was a match found, otherwise 1.

Example:

if @str-ng-match "abb" "a*b"; then
  print -r -- $REPLY
fi
Output: ab

@str-ng-matches

Returns all non-greedy matches of the given pattern in the given list of strings.

Input:

  • $1$n-1 - the strings to match in,
  • $n - the pattern to match in the strings.

Return value:

  • $reply – contains all the matches,
  • $REPLY - holds the first match,
  • return code: 0 if there was any match found, otherwise 1.

Example:

arr=( a1xx ayy a2xx )
if @str-ng-matches ${arr[@]} "a*x"; then
   print -rl -- $reply
fi

Outout:
a1x
a2x

@str-read-ini

Reads an INI file.

Arguments:

  1. Path to the ini file to parse.
  2. Name of output hash (INI by default).
  3. Prefix for keys in the hash (can be empty).

Writes to given hash under keys built in following way: ${3}<section>_field. Values are the values from the ini file.

@str-read-toml

Reads a TOML file with support for single-level array.

  1. Path to the TOML file to parse.
  2. Name of output hash (TOML by default).
  3. Prefix for keys in the hash (can be empty).

Writes to given hash under keys built in following way: ${3}<section>_field. Values are the values from the TOML file.

The values can be quoted and concatenated strings if they're an array. For example:

[sec]
array = [ val1, "value 2", value&3 ]

Then the fields of the hash will be:

TOML[<sec>_array]="val1 value\ 2 value\&3"

To retrieve the array stored in such way, use the substitution "${(@Q)${(@z)TOML[<sec>_array]}}":

local -a array
array=( "${(@Q)${(@z)TOML[<sec>_array]}}" )

(The substitution first splits the input string as if Zsh would split it on the command line – with the (z) flag, and then removes one level of quoting with the (Q) flag).

@str-dump

Dumps the contents of the variable, whether it's being a scalar, an array or a hash. The contents of the hash are sorted on the keys numerically, i.e.: by using (on) flags.

An option -q can be provided: it'll enable quoting of the printed data with the q-flag (i.e.: backslash quoting).

Basically, the function Is an alternative to declare -p, with a different output format, more dump-like.

Arguments:

  1. The name of the variable of which contents should be dumped.

Example:

array=( "" "a value" "test" )
@str-dump -q array

Output:

''
a\ value
test
typeset -A hash=( "a key" "a value" key value )
@str-dump -q hash

Output:

a\ key: a\ value
key: value