@metrichor/jmespath-plus extends @metrichor/jmespath with lodash
functions that map well to JSON objects as well as a few extra typed functions that are native to this library.
JMESPath is a query language for JSON. It will take a JSON document as input and transform it into another JSON document given a JMESPath expression.
Where this library departs is by adding a number of extra functions to the JMESPath expressions that are helpful if you require more powerful JSON transforms of simpler expressions.
npm i @metrichor/jmespath-plus
The current JMESPath spec already describes a number of built-in functions that my be sufficient. These are already included in this library
as_lambda
- Convert strings to anonymous functions to be used as lodash predicatesas_regexp
- Convert strings toRegexp
objects to be used as lodash argumentstoJSON
- Convert JS objects to JSON stringsfromJSON
- Convert JSON strings to JS objectsmean
- Calculate the mean/average of an array of numbersmode
- Calculate the most common number in an array of numbersmedian
- Calculate the middle value from an array of numberstoFixed
- Set the precision of a floatformatNumber
- Format a number with units at a set precisionuniq
- De-duplicate a list of valuesmod
- Calculate the modulus of two numbersdivide
- Divide two numberssplit
- Split a string on a given character or character sequenceentries
- Flatten a hash into key, value tuplesformat
- Format a string given a template and input values (array/object)flatMapValue
- Flatten all values in a object into key, value tuplestoUpperCase
- Uppercase (locale based) all characters in a stringtoLowerCase
- Lowercase (locale based) all characters in a stringtrim
- Remove flanking whitespace from a stringgroupBy
- Group an array of objects by a value or expressioncombine
- Create an object from a tuple of key, value pairs (inverse of entries)
Most Lodash functions that apply to JSON types are included as JMESPath function expressions and are prefixed with an _
character to ensure no name clashes and overwrites with the built-in functions.
For example the [lodash zip] function:
/* In Javascript this looks as follows... */
_.zip(['a', 'b'], [1, 2], [true, false]);
// => [['a', 1, true], ['b', 2, false]]
/* In JMESPath however, this looks as follows... */
search([['a', 'b'], [1, 2], [true, false]], '_zip([0], [1], [2])')
// => [['a', 1, true], ['b', 2, false]]
NOT ALL LODASH FUNCTIONS HAVE BEEN INCLUDED!!!!
Many lodash functions don't necessarily map to JSON objects. For a complete list of the 165 lodash
functions that are included in jmespath-plus go HERE
Many lodash functions accept function predicates as arguments. This is still possible in jmespath-plus by using a new built-in function that converts strings to functions (as_lambda
). For example:
// `_findKey` JMESPath function extension
const { search } = require('@metrichor/jmespath-plus');
const users = {
barney: { age: 36, active: true },
fred: { age: 40, active: false },
pebbles: { age: 1, active: true },
};
assert(search(users, "_findKey(@, as_lambda('o => o.age < 40'))") === 'barney');
/* using ES modules */
import { search } from '@metrichor/jmespath-plus';
/* using CommonJS modules */
const search = require('@metrichor/jmespath-plus').search;
search({foo: {bar: {baz: [0, 1, 2, 3, 4]}}}, "foo.bar.baz[2]")
// OUTPUTS: 2
In the example we gave the search
function input data of
{foo: {bar: {baz: [0, 1, 2, 3, 4]}}}
as well as the JMESPath
expression foo.bar.baz[2]
, and the search
function evaluated
the expression against the input data to produce the result 2
.
The JMESPath language can do a lot more than select an element from a list. Here are a few more examples:
import { search } from '@metrichor/jmespath-plus';
/* --- EXAMPLE 1 --- */
let JSON_DOCUMENT = {
foo: {
bar: {
baz: [0, 1, 2, 3, 4]
}
}
};
search(JSON_DOCUMENT, "foo.bar");
// OUTPUTS: { baz: [ 0, 1, 2, 3, 4 ] }
/* --- EXAMPLE 2 --- */
JSON_DOCUMENT = {
"foo": [
{"first": "a", "last": "b"},
{"first": "c", "last": "d"}
]
};
search(JSON_DOCUMENT, "foo[*].first")
// OUTPUTS: [ 'a', 'c' ]
/* --- EXAMPLE 3 --- */
JSON_DOCUMENT = {
"foo": [
{"age": 20},
{"age": 25},
{"age": 30},
{"age": 35},
{"age": 40}
]
}
search(JSON_DOCUMENT, "foo[?age > `30`]");
// OUTPUTS: [ { age: 35 }, { age: 40 } ]
registerFunction(functionName: string, customFunction: RuntimeFunction, signature: InputSignature[]): void
Extend the list of built in JMESpath expressions with your own functions.
import {search, registerFunction, TYPE_NUMBER} from '@metrichor/jmespath-plus'
search({ foo: 60, bar: 10 }, 'divide(foo, bar)')
// THROWS ERROR: Error: Unknown function: divide()
registerFunction(
'divide', // FUNCTION NAME
(resolvedArgs) => { // CUSTOM FUNCTION
const [dividend, divisor] = resolvedArgs;
return dividend / divisor;
},
[{ types: [TYPE_NUMBER] }, { types: [TYPE_NUMBER] }] //SIGNATURE
);
search({ foo: 60,bar: 10 }, 'divide(foo, bar)');
// OUTPUTS: 6
You can precompile all your expressions ready for use later on. the compile
function takes a JMESPath expression and returns an abstract syntax tree that
can be used by the TreeInterpreter function
import { compile, TreeInterpreter } from '@metrichor/jmespath';
const ast = compile('foo.bar');
TreeInterpreter.search(ast, {foo: {bar: 'BAZ'}})
// RETURNS: "BAZ"
The example above only show a small amount of what a JMESPath expression can do. If you want to take a tour of the language, the best place to go is the JMESPath Tutorial.
One of the best things about JMESPath is that it is implemented in many different programming languages including python, ruby, php, lua, etc. To see a complete list of libraries, check out the JMESPath libraries page.
And finally, the full JMESPath specification can be found on the JMESPath site.