I wish to provide a structured configuration file which is as easy as possible for a non-technical user to edit (unfortunately it has to be a file) and so I wanted to use YAML. I can't find any way of parsing this from a Unix shell script however.

  • not directly your question, but you might want to look at ansible if your shell scriting is especially about dealing with remote management of different nodes (and a yaml inventory) – eckes Apr 30 '15 at 22:37
  • 1
    Try: Jshon - JSON parser designed for maximum convenience within the shell. – kenorb Sep 29 '15 at 10:21
  • 8
    Try using yq to read/write yaml files in shell. The project page is here: mikefarah.github.io/yq You can install the tool with brew, apt or download the binary. Reading a value is as simple as yq r some.yaml key.value – vdimitrov Jul 11 '18 at 6:16

15 Answers 15


My use case may or may not be quite the same as what this original post was asking, but it's definitely similar.

I need to pull in some YAML as bash variables. The YAML will never be more than one level deep.

YAML looks like so:

KEY:                value
ANOTHER_KEY:        another_value
OH_MY_SO_MANY_KEYS: yet_another_value
LAST_KEY:           last_value

Output like-a dis:


I achieved the output with this line:

sed -e 's/:[^:\/\/]/="/g;s/$/"/g;s/ *=/=/g' file.yaml > file.sh
  • s/:[^:\/\/]/="/g finds : and replaces it with =", while ignoring :// (for URLs)
  • s/$/"/g appends " to the end of each line
  • s/ *=/=/g removes all spaces before =
  • 6
    Well yaml has sections too… – LtWorf Nov 27 '13 at 10:50
  • 7
    Not sure what you're getting at, but if you mean this doesn't work for all YAML, you're right. That's why I opened with a few qualifications. I just shared what worked for my use case, since it answered the question better than any other at the time. This can definitely be expanded. – Curtis Blackwell Nov 27 '13 at 13:37
  • 3
    a bit open to code injection too, but as you said is a step forward – Oriettaxx Apr 26 '14 at 6:23
  • 1
    I've only ever written shell scripts to use locally, so that hasn't been a concern for me. However, if you know how to secure it and/or would like to elaborate, I'd definitely be grateful. – Curtis Blackwell Apr 27 '14 at 4:09
  • 1
    One-level-deep yaml has many forms — values can be split to following indented line; values can be quoted in multiple ways the shell will not parse; everything can be written on one line with braces: {KEY: 'value', ...}; and possibly others. Most importantly, if you intend to evaluate the result as shell code, that'd be very insecure. – Beni Cherniavsky-Paskin Oct 27 '16 at 10:06

Here is a bash-only parser that leverages sed and awk to parse simple yaml files:

function parse_yaml {
   local prefix=$2
   local s='[[:space:]]*' w='[a-zA-Z0-9_]*' fs=$(echo @|tr @ '\034')
   sed -ne "s|^\($s\):|\1|" \
        -e "s|^\($s\)\($w\)$s:$s[\"']\(.*\)[\"']$s\$|\1$fs\2$fs\3|p" \
        -e "s|^\($s\)\($w\)$s:$s\(.*\)$s\$|\1$fs\2$fs\3|p"  $1 |
   awk -F$fs '{
      indent = length($1)/2;
      vname[indent] = $2;
      for (i in vname) {if (i > indent) {delete vname[i]}}
      if (length($3) > 0) {
         vn=""; for (i=0; i<indent; i++) {vn=(vn)(vname[i])("_")}
         printf("%s%s%s=\"%s\"\n", "'$prefix'",vn, $2, $3);

It understands files such as:

## global definitions
  debug: yes
  verbose: no
    detailed: no
    header: "debugging started"

## output
   file: "yes"

Which, when parsed using:

parse_yaml sample.yml

will output:

global_debugging_header="debugging started"

it also understands yaml files, generated by ruby which may include ruby symbols, like:

  :debug: 'yes'
  :verbose: 'no'
    :detailed: 'no'
    :header: debugging started
  :output: 'yes'

and will output the same as in the previous example.

typical use within a script is:

eval $(parse_yaml sample.yml)

parse_yaml accepts a prefix argument so that imported settings all have a common prefix (which will reduce the risk of namespace collisions).

parse_yaml sample.yml "CONF_"


CONF_global_debugging_header="debugging started"

Note that previous settings in a file can be referred to by later settings:

## global definitions
  debug: yes
  verbose: no
    detailed: no
    header: "debugging started"

## output
   debug: $global_debug

Another nice usage is to first parse a defaults file and then the user settings, which works since the latter settings overrides the first ones:

eval $(parse_yaml defaults.yml)
eval $(parse_yaml project.yml)
  • 2
    Cool Stefan! It would be amazing if it could turn the yaml - notation into native bash arrays too! – quickshiftin Apr 3 '14 at 2:26
  • 2
    That should be quite easy to do if you change the printf line in the awk script. Note though that bash does not have support for multidimensional associative arrays so you end up with an array + a single key per value. Hmm, should probably move this to github... – Stefan Farestam Apr 4 '14 at 11:53
  • 4
    This expects the standard yml indentation of 2 spaces. If you are using 4 spaces, then the variables will get two underscores as delimiter, e.g. global__debug instead of global_debug. – k0pernikus Aug 11 '14 at 14:05
  • 3
    Hi vaab - While I'm sure you're correct that many readers would like to parse real YAML files from shell, it's not quite clear (at least to me) what the result would be. With this script I've taken a stab at the problem and defined a subset that has a reasonable mapping into standard variables. There is certainly no pretense of having addressed the larger issue of parsing real YAML files. – Stefan Farestam Oct 22 '14 at 14:12
  • 2
    It only prints the output on screen. How would you access the values later on? – sattu Dec 4 '16 at 21:52

I've written shyaml in python for YAML query needs from the shell command line.


$ pip install shyaml      ## installation

Example's YAML file (with complex features):

$ cat <<EOF > test.yaml
name: "MyName !!"
    how-much: 1.1
        - first
        - second
        - third
    other-things: [a, b, c]
    maintainer: "Valentin Lab"
    description: |
        Multiline description:
        Line 1
        Line 2

Basic query:

$ cat test.yaml | shyaml get-value subvalue.maintainer
Valentin Lab

More complex looping query on complex values:

$ cat test.yaml | shyaml values-0 | \
  while read -r -d $'\0' value; do
      echo "RECEIVED: '$value'"
RECEIVED: '- first
- second
- third'
RECEIVED: 'Valentin Lab'
RECEIVED: 'Multiline description:
Line 1
Line 2'

A few key points:

  • all YAML types and syntax oddities are correctly handled, as multiline, quoted strings, inline sequences...
  • \0 padded output is available for solid multiline entry manipulation.
  • simple dotted notation to select sub-values (ie: subvalue.maintainer is a valid key).
  • access by index is provided to sequences (ie: subvalue.things.-1 is the last element of the subvalue.things sequence.)
  • access to all sequence/structs elements in one go for use in bash loops.
  • you can output whole subpart of a YAML file as ... YAML, which blend well for further manipulations with shyaml.

More sample and documentation are available on the shyaml github page or the shyaml PyPI page.

  • 1
    This is awesome! Would be great if there was a flag to ignore yaml values that are blank in the output. Right now it outputs "null". I'm using it along with envdir to output a docker-compose file to envdir cat docker-compose.yml | shyaml get-value api.environment | grep -v null | awk -F': ' '{print $2 > ("envdir/" $1)}' – JiminyCricket May 12 '15 at 13:59
  • @JiminyCricket Please use the github issue page ! I would be glad at least to keep track of this. ;) – vaab May 12 '15 at 14:50
  • 1
    Unfortunately, shyaml is ridiculously slow – nowox Nov 19 '15 at 10:42

It's possible to pass a small script to some interpreters, like Python. An easy way to do so using Ruby and its YAML library is the following:

$ RUBY_SCRIPT="data = YAML::load(STDIN.read); puts data['a']; puts data['b']"
$ echo -e '---\na: 1234\nb: 4321' | ruby -ryaml -e "$RUBY_SCRIPT"

, wheredata is a hash (or array) with the values from yaml.

As a bonus, it'll parse Jekyll's front matter just fine.

ruby -ryaml -e "puts YAML::load(open(ARGV.first).read)['tags']" example.md
  • is it usable? you have put yaml by echo to ruby interpreter. but how should be use this variable under rest of bash script? – Znik Sep 30 '14 at 13:59
  • Yes, it's usable. The RUBY_SCRIPT variable is a ruby script which may be written to a file instead (run with ruby -ryaml <rubyscript_filename>). It contains the logic to transform the input text into some output text, internally storing the content into the data variable. The echo outputs a yaml text, but you may use cat <yaml_filename> to pipe the content of a file instead. – Rafael Oct 14 '14 at 4:34
  • I'm sorry but I don't see this in example above. At first variable RUBY_SCRIPT keeps code for ruby interpreter. Next echo -e simulates any yaml data, this is by pile redirected into ruby interpreter. This calls ruby code as inline script and finally print to output examples 'a' and 'b' variables. Then where is variable loading into bash for his rest executable code? I see only one workaround. putting ruby outout into temporary_file, that should conain lines: variable='value' , and after that load it into bash by '. temporary_file'. but this is workaround, not resolution. – Znik Oct 17 '14 at 12:49
  • 1
    @Znik once you've got something on the stdout, produced by something feeded with stdin, the rest relies in bash coder's hands (and as a reminder, if you need the stdout to be fed into variable, you don't have to rely on temporary files! use x=$(...) or even read a b c < <(...)). So, this is a valid solution when you know exactly what you want to fetch in the YAML file and know how to write the ruby lines to access this data. Even if it is rough, it's a full proof of concept of the idea IMHO. It's true nonetheless that it doesn't provide you a full bash abstraction. – vaab Oct 21 '14 at 1:05
  • Yes it is. You're rigt. Thak you for that trick. Using one variable is simple. but many wariables aren't. trick with read variable list < <(execution to stdout) is very usefull :) – Znik Oct 22 '14 at 8:58

Given that Python3 and PyYAML are quite easy dependencies to meet nowadays, the following may help:

yaml() {
    python3 -c "import yaml;print(yaml.load(open('$1'))$2)"

VALUE=$(yaml ~/my_yaml_file.yaml "['a_key']")
  • I love shyaml, but on disconnected systems this is a life-saver. Should work with vast majority of python2 as well, e.g., RHEL. – rsaw Jan 30 at 21:29

Hard to say because it depends on what you want the parser to extract from your YAML document. For simple cases, you might be able to use grep, cut, awk etc. For more complex parsing you would need to use a full-blown parsing library such as Python's PyYAML or YAML::Perl.


I just wrote a parser that I called Yay! (Yaml ain't Yamlesque!) which parses Yamlesque, a small subset of YAML. So, if you're looking for a 100% compliant YAML parser for Bash then this isn't it. However, to quote the OP, if you want a structured configuration file which is as easy as possible for a non-technical user to edit that is YAML-like, this may be of interest.

It's inspred by the earlier answer but writes associative arrays (yes, it requires Bash 4.x) instead of basic variables. It does so in a way that allows the data to be parsed without prior knowledge of the keys so that data-driven code can be written.

As well as the key/value array elements, each array has a keys array containing a list of key names, a children array containing names of child arrays and a parent key that refers to its parent.

This is an example of Yamlesque:

root_key1: this is value one
root_key2: "this is value two"

  state: liquid
    best_served: hot
    colour: brown
    best_served: cold
    colour: orange

  state: solid
    best_served: warm

root_key_3: this is value three

Here is an example showing how to use it:

# An example showing how to use Yay

. /usr/lib/yay

# helper to get array value at key
value() { eval echo \${$1[$2]}; }

# print a data collection
print_collection() {
  for k in $(value $1 keys)
    echo "$2$k = $(value $1 $k)"

  for c in $(value $1 children)
    echo -e "$2$c\n$2{"
    print_collection $c "  $2"
    echo "$2}"

yay example
print_collection example

which outputs:

root_key1 = this is value one
root_key2 = this is value two
root_key_3 = this is value three
  state = liquid
    best_served = hot
    colour = brown
    best_served = cold
    colour = orange
  state = solid
    best_served = warm

And here is the parser:

yay_parse() {

   # find input file
   for f in "$1" "$1.yay" "$1.yml"
     [[ -f "$f" ]] && input="$f" && break
   [[ -z "$input" ]] && exit 1

   # use given dataset prefix or imply from file name
   [[ -n "$2" ]] && local prefix="$2" || {
     local prefix=$(basename "$input"); prefix=${prefix%.*}

   echo "declare -g -A $prefix;"

   local s='[[:space:]]*' w='[a-zA-Z0-9_]*' fs=$(echo @|tr @ '\034')
   sed -n -e "s|^\($s\)\($w\)$s:$s\"\(.*\)\"$s\$|\1$fs\2$fs\3|p" \
          -e "s|^\($s\)\($w\)$s:$s\(.*\)$s\$|\1$fs\2$fs\3|p" "$input" |
   awk -F$fs '{
      indent       = length($1)/2;
      key          = $2;
      value        = $3;

      # No prefix or parent for the top level (indent zero)
      root_prefix  = "'$prefix'_";
      if (indent ==0 ) {
        prefix = "";          parent_key = "'$prefix'";
      } else {
        prefix = root_prefix; parent_key = keys[indent-1];

      keys[indent] = key;

      # remove keys left behind if prior row was indented more than this row
      for (i in keys) {if (i > indent) {delete keys[i]}}

      if (length(value) > 0) {
         # value
         printf("%s%s[%s]=\"%s\";\n", prefix, parent_key , key, value);
         printf("%s%s[keys]+=\" %s\";\n", prefix, parent_key , key);
      } else {
         # collection
         printf("%s%s[children]+=\" %s%s\";\n", prefix, parent_key , root_prefix, key);
         printf("declare -g -A %s%s;\n", root_prefix, key);
         printf("%s%s[parent]=\"%s%s\";\n", root_prefix, key, prefix, parent_key);

# helper to load yay data file
yay() { eval $(yay_parse "$@"); }

There is some documentation in the linked source file and below is a short explanation of what the code does.

The yay_parse function first locates the input file or exits with an exit status of 1. Next, it determines the dataset prefix, either explicitly specified or derived from the file name.

It writes valid bash commands to its standard output that, if executed, define arrays representing the contents of the input data file. The first of these defines the top-level array:

echo "declare -g -A $prefix;"

Note that array declarations are associative (-A) which is a feature of Bash version 4. Declarations are also global (-g) so they can be executed in a function but be available to the global scope like the yay helper:

yay() { eval $(yay_parse "$@"); }

The input data is initially processed with sed. It drops lines that don't match the Yamlesque format specification before delimiting the valid Yamlesque fields with an ASCII File Separator character and removing any double-quotes surrounding the value field.

 local s='[[:space:]]*' w='[a-zA-Z0-9_]*' fs=$(echo @|tr @ '\034')
 sed -n -e "s|^\($s\)\($w\)$s:$s\"\(.*\)\"$s\$|\1$fs\2$fs\3|p" \
        -e "s|^\($s\)\($w\)$s:$s\(.*\)$s\$|\1$fs\2$fs\3|p" "$input" |

The two expressions are similar; they differ only because the first one picks out quoted values where as the second one picks out unquoted ones.

The File Separator (28/hex 12/octal 034) is used because, as a non-printable character, it is unlikely to be in the input data.

The result is piped into awk which processes its input one line at a time. It uses the FS character to assign each field to a variable:

indent       = length($1)/2;
key          = $2;
value        = $3;

All lines have an indent (possibly zero) and a key but they don't all have a value. It computes an indent level for the line dividing the length of the first field, which contains the leading whitespace, by two. The top level items without any indent are at indent level zero.

Next, it works out what prefix to use for the current item. This is what gets added to a key name to make an array name. There's a root_prefix for the top-level array which is defined as the data set name and an underscore:

root_prefix  = "'$prefix'_";
if (indent ==0 ) {
  prefix = "";          parent_key = "'$prefix'";
} else {
  prefix = root_prefix; parent_key = keys[indent-1];

The parent_key is the key at the indent level above the current line's indent level and represents the collection that the current line is part of. The collection's key/value pairs will be stored in an array with its name defined as the concatenation of the prefix and parent_key.

For the top level (indent level zero) the data set prefix is used as the parent key so it has no prefix (it's set to ""). All other arrays are prefixed with the root prefix.

Next, the current key is inserted into an (awk-internal) array containing the keys. This array persists throughout the whole awk session and therefore contains keys inserted by prior lines. The key is inserted into the array using its indent as the array index.

keys[indent] = key;

Because this array contains keys from previous lines, any keys with an indent level grater than the current line's indent level are removed:

 for (i in keys) {if (i > indent) {delete keys[i]}}

This leaves the keys array containing the key-chain from the root at indent level 0 to the current line. It removes stale keys that remain when the prior line was indented deeper than the current line.

The final section outputs the bash commands: an input line without a value starts a new indent level (a collection in YAML parlance) and an input line with a value adds a key to the current collection.

The collection's name is the concatenation of the current line's prefix and parent_key.

When a key has a value, a key with that value is assigned to the current collection like this:

printf("%s%s[%s]=\"%s\";\n", prefix, parent_key , key, value);
printf("%s%s[keys]+=\" %s\";\n", prefix, parent_key , key);

The first statement outputs the command to assign the value to an associative array element named after the key and the second one outputs the command to add the key to the collection's space-delimited keys list:

<current_collection>[keys]+=" <key>";

When a key doesn't have a value, a new collection is started like this:

printf("%s%s[children]+=\" %s%s\";\n", prefix, parent_key , root_prefix, key);
printf("declare -g -A %s%s;\n", root_prefix, key);

The first statement outputs the command to add the new collection to the current's collection's space-delimited children list and the second one outputs the command to declare a new associative array for the new collection:

<current_collection>[children]+=" <new_collection>"
declare -g -A <new_collection>;

All of the output from yay_parse can be parsed as bash commands by the bash eval or source built-in commands.

  • Have you considered making this a project on GitHub? Or is it already? – daniel Feb 23 '16 at 11:43
  • @daniel, it is in GitHub but not in its own repo - you can find it in here. See the examples and usr/lib directories, These are linked in my answer to the question. If there's interest I could break it out into its own repo. – starfry Feb 23 '16 at 15:28
  • 2
    Kudos on YAY. At first, I rewrote it to be pure bash, but then I couldn't stop myself and reimplemented it as a basic parser with support for arrays and nested structures that can't step on each others' names. It's at github.com/binaryphile/y2s. – Binary Phile Feb 20 '17 at 18:49

here an extended version of the Stefan Farestam's answer:

function parse_yaml {
   local prefix=$2
   local s='[[:space:]]*' w='[a-zA-Z0-9_]*' fs=$(echo @|tr @ '\034')
   sed -ne "s|,$s\]$s\$|]|" \
        -e ":1;s|^\($s\)\($w\)$s:$s\[$s\(.*\)$s,$s\(.*\)$s\]|\1\2: [\3]\n\1  - \4|;t1" \
        -e "s|^\($s\)\($w\)$s:$s\[$s\(.*\)$s\]|\1\2:\n\1  - \3|;p" $1 | \
   sed -ne "s|,$s}$s\$|}|" \
        -e ":1;s|^\($s\)-$s{$s\(.*\)$s,$s\($w\)$s:$s\(.*\)$s}|\1- {\2}\n\1  \3: \4|;t1" \
        -e    "s|^\($s\)-$s{$s\(.*\)$s}|\1-\n\1  \2|;p" | \
   sed -ne "s|^\($s\):|\1|" \
        -e "s|^\($s\)-$s[\"']\(.*\)[\"']$s\$|\1$fs$fs\2|p" \
        -e "s|^\($s\)-$s\(.*\)$s\$|\1$fs$fs\2|p" \
        -e "s|^\($s\)\($w\)$s:$s[\"']\(.*\)[\"']$s\$|\1$fs\2$fs\3|p" \
        -e "s|^\($s\)\($w\)$s:$s\(.*\)$s\$|\1$fs\2$fs\3|p" | \
   awk -F$fs '{
      indent = length($1)/2;
      vname[indent] = $2;
      for (i in vname) {if (i > indent) {delete vname[i]; idx[i]=0}}
      if(length($2)== 0){  vname[indent]= ++idx[indent] };
      if (length($3) > 0) {
         vn=""; for (i=0; i<indent; i++) { vn=(vn)(vname[i])("_")}
         printf("%s%s%s=\"%s\"\n", "'$prefix'",vn, vname[indent], $3);

This version supports the - notation and the short notation for dictionaries and lists. The following input:

    - "main.c"
    - "main.h"
  flags: [ "-O3", "-fpic" ]
    -  { property1: value, property2: "value2" }
    -  { property1: "value3", property2: 'value 4' }

produces this output:

global_sample_input_2_property2="value 4"

as you can see the - items automatically get numbered in order to obtain different variable names for each item. In bash there are no multidimensional arrays, so this is one way to work around. Multiple levels are supported. To work around the problem with trailing white spaces mentioned by @briceburg one should enclose the values in single or double quotes. However, there are still some limitations: Expansion of the dictionaries and lists can produce wrong results when values contain commas. Also, more complex structures like values spanning multiple lines (like ssh-keys) are not (yet) supported.

A few words about the code: The first sed command expands the short form of dictionaries { key: value, ...} to regular and converts them to more simple yaml style. The second sed call does the same for the short notation of lists and converts [ entry, ... ] to an itemized list with the - notation. The third sed call is the original one that handled normal dictionaries, now with the addition to handle lists with - and indentations. The awk part introduces an index for each indentation level and increases it when the variable name is empty (i.e. when processing a list). The current value of the counters are used instead of the empty vname. When going up one level, the counters are zeroed.

Edit: I have created a github repository for this.


yq is a lightweight and portable command-line YAML processor

The aim of the project is to be the jq or sed of yaml files.


As an example (stolen straight from the documentation), given a sample.yaml file of:

    cats: bananas
    cats: apples


yq r sample.yaml bob.*.cats

will output

- bananas
- apples

Another option is to convert the YAML to JSON, then use jq to interact with the JSON representation either to extract information from it or edit it.

I wrote a simple bash script that contains this glue - see Y2J project on GitHub

perl -ne 'chomp; printf qq/%s="%s"\n/, split(/\s*:\s*/,$_,2)' file.yml > file.sh
  • usefull only for flat configurations. it is not applicable for structured yaml. another, how to prevent using temporary file.sh ? – Znik Sep 30 '14 at 14:01

I know this is very specific, but I think my answer could be helpful for certain users.
If you have node and npm installed on your machine, you can use js-yaml.
First install :

npm i -g js-yaml
# or locally
npm i js-yaml

then in your bash script

js-yaml your-yaml-file.yml

Also if you are using jq you can do something like that

json="$(js-yaml your-yaml-file.yml)"
aproperty="$(jq '.apropery' <<< "$json")"
echo "$aproperty"

Because js-yaml converts a yaml file to a json string literal. You can then use the string with any json parser in your unix system.


If you have python 2 and PyYAML, you can use this parser I wrote called parse_yaml.py. Some of the neater things it does is let you choose a prefix (in case you have more than one file with similar variables) and to pick a single value from a yaml file.

For example if you have these yaml files:


    type: sqllite
    user: dev
    password: password123


    type: postgres
    user: postgres
    password: password123

You can load both without conflict.

$ eval $(python parse_yaml.py prod.yaml --prefix prod --cap)
$ eval $(python parse_yaml.py staging.yaml --prefix stg --cap)
$ echo $PROD_DB_HOST
$ echo $STG_DB_HOST

And even cherry pick the values you want.

$ prod_user=$(python parse_yaml.py prod.yaml --get db_user)
$ prod_port=$(python parse_yaml.py prod.yaml --get db_port --default 5432)
$ echo prod_user
$ echo prod_port

You could use an equivalent of yq that is written in golang:

./go-yg -yamlFile /home/user/dev/ansible-firefox/defaults/main.yml -key



You can also consider using Grunt (The JavaScript Task Runner). Can be easily integrated with shell. It supports reading YAML (grunt.file.readYAML) and JSON (grunt.file.readJSON) files.

This can be achieved by creating a task in Gruntfile.js (or Gruntfile.coffee), e.g.:

module.exports = function (grunt) {

    grunt.registerTask('foo', ['load_yml']);

    grunt.registerTask('load_yml', function () {
        var data = grunt.file.readYAML('foo.yml');
        Object.keys(data).forEach(function (g) {
          // ... switch (g) { case 'my_key':


then from shell just simply run grunt foo (check grunt --help for available tasks).

Further more you can implement exec:foo tasks (grunt-exec) with input variables passed from your task (foo: { cmd: 'echo bar <%= foo %>' }) in order to print the output in whatever format you want, then pipe it into another command.

There is also similar tool to Grunt, it's called gulp with additional plugin gulp-yaml.

Install via: npm install --save-dev gulp-yaml

Sample usage:

var yaml = require('gulp-yaml');


  .pipe(yaml({ space: 2 }))

  .pipe(yaml({ safe: true }))

To more options to deal with YAML format, check YAML site for available projects, libraries and other resources which can help you to parse that format.

Other tools:

  • Jshon

    parses, reads and creates JSON

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