jexl-sync
v1.0.5
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(Synchronous API) Javascript Expression Language: Powerful context-based expression parser and evaluator
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Jexl
Javascript Expression Language: Powerful context-based expression parser and evaluator
If you need promised-based API, please go to Jexl
Quick start
Use it with promises or callbacks:
var context = {
name: {first: 'Sterling', last: 'Archer'},
assoc: [
{first: 'Lana', last: 'Kane'},
{first: 'Cyril', last: 'Figgis'},
{first: 'Pam', last: 'Poovey'}
],
age: 36
};
// Filter an array
jexl.eval('assoc[.first == "Lana"].last', context).then(function(res) {
console.log(res); // Output: Kane
});
// Do math
jexl.eval('age * (3 - 1)', context, function(err, res) {
console.log(res); // Output: 72
});
// Concatenate
jexl.eval('name.first + " " + name["la" + "st"]', context).then(function(res) {
console.log(res); // Output: Sterling Archer
});
// Compound
jexl.eval('assoc[.last == "Figgis"].first == "Cyril" && assoc[.last == "Poovey"].first == "Pam"', context)
.then(function(res) {
console.log(res); // Output: true
});
// Use array indexes
jexl.eval('assoc[1]', context, function(err, res) {
console.log(res.first + ' ' + res.last); // Output: Cyril Figgis
});
// Use conditional logic
jexl.eval('age > 62 ? "retired" : "working"', context).then(function(res) {
console.log(res); // Output: working
});
// Transform
jexl.addTransform('upper', function(val) {
return val.toUpperCase();
});
jexl.eval('"duchess"|upper + " " + name.last|upper', context).then(function(res) {
console.log(res); // Output: DUCHESS ARCHER
});
// Transform asynchronously, with arguments
jexl.addTransform('getStat', function(val, stat) {
return dbSelectByLastName(val, stat); // Returns a promise
});
jexl.eval('name.last|getStat("weight")', context, function(err, res) {
if (err) console.log('Database Error', err.stack);
else console.log(res); // Output: 184
});
// Add your own (a)synchronous operators
// Here's a case-insensitive string equality
jexl.addBinaryOp('_=', 20, function(left, right) {
return left.toLowerCase() === right.toLowerCase();
});
jexl.eval('"Guest" _= "gUeSt"').then(function(val) {
console.log(res); // Output: true
});
Installation
Jexl requires an environment that supports the Promise/A+ specification as standardized in ES6. Node.js version 0.12.0 and up is great right out of the box (no --harmony flag necessary), as well as the latest versions of many browsers. To support older browsers, just include a Promise library such as Bluebird.
For Node.js, type this in your project folder:
npm install jexl --save
For the frontend, drop dist/jexl.min.js
into your project and include it on
your page with:
<script src="path/to/jexl.min.js"></script>
Access Jexl the same way, backend or front:
var jexl = require('Jexl');
All the details
Unary Operators
| Operation | Symbol | |-----------|:------:| | Negate | ! |
Binary Operators
| Operation | Symbol | |------------------|:----------------:| | Add, Concat | + | | Subtract | - | | Multiply | * | | Divide | / | | Divide and floor | // | | Modulus | % | | Power of | ^ | | Logical AND | && | | Logical OR | || |
Comparisons
| Comparison | Symbol | |----------------------------|:------:| | Equal | == | | Not equal | != | | Greater than | > | | Greater than or equal | >= | | Less than | < | | Less than or equal | <= | | Element in array or string | in |
A note about in
:
The in
operator can be used to check for a substring:
"Cad" in "Ron Cadillac"
, and it can be used to check for an array element:
"coarse" in ['fine', 'medium', 'coarse']
. However, the ==
operator is used
behind-the-scenes to search arrays, so it should not be used with arrays of
objects. The following expression returns false: {a: 'b'} in [{a: 'b'}]
.
Ternary operator
Conditional expressions check to see if the first segment evaluates to a truthy value. If so, the consequent segment is evaluated. Otherwise, the alternate is. If the consequent section is missing, the test result itself will be used instead.
| Expression | Result | |-----------------------------------|--------| | "" ? "Full" : "Empty" | Empty | | "foo" in "foobar" ? "Yes" : "No" | Yes | | {agent: "Archer"}.agent ?: "Kane" | Archer |
Native Types
| Type | Examples |
|----------|:------------------------------:|
| Booleans | true
, false
|
| Strings | "Hello "user"", 'Hey there!' |
| Numerics | 6, -7.2, 5, -3.14159 |
| Objects | {hello: "world!"} |
| Arrays | ['hello', 'world!'] |
Groups
Parentheses work just how you'd expect them to:
| Expression | Result | |-------------------------------------|:-------| | (83 + 1) / 2 | 42 | | 1 < 3 && (4 > 2 || 2 > 4) | true |
Identifiers
Access variables in the context object by just typing their name. Objects can be traversed with dot notation, or by using brackets to traverse to a dynamic property name.
Example context:
{
name: {
first: "Malory",
last: "Archer"
},
exes: [
"Nikolai Jakov",
"Len Trexler",
"Burt Reynolds"
],
lastEx: 2
}
| Expression | Result | |-------------------|---------------| | name.first | Malory | | name['la' + 'st'] | Archer | | exes[2] | Burt Reynolds | | exes[lastEx - 1] | Len Trexler |
Collections
Collections, or arrays of objects, can be filtered by including a filter expression in brackets. Properties of each collection can be referenced by prefixing them with a leading dot. The result will be an array of the objects for which the filter expression resulted in a truthy value.
Example context:
{
employees: [
{first: 'Sterling', last: 'Archer', age: 36},
{first: 'Malory', last: 'Archer', age: 75},
{first: 'Lana', last: 'Kane', age: 33},
{first: 'Cyril', last: 'Figgis', age: 45},
{first: 'Cheryl', last: 'Tunt', age: 28}
],
retireAge: 62
}
| Expression | Result | |-----------------------------------------------|---------------------------------------------------------------------------------------| | employees[.first == 'Sterling'] | [{first: 'Sterling', last: 'Archer', age: 36}] | | employees[.last == 'Tu' + 'nt'].first | Cheryl | | employees[.age >= 30 && .age < 40] | [{first: 'Sterling', last: 'Archer', age: 36},{first: 'Lana', last: 'Kane', age: 33}] | | employees[.age >= 30 && .age < 40][.age < 35] | [{first: 'Lana', last: 'Kane', age: 33}] | | employees[.age >= retireAge].first | Malory |
Transforms
The power of Jexl is in transforming data, synchronously or asynchronously.
Transform functions take one or more arguments: The value to be transformed,
followed by anything else passed to it in the expression. They must return
either the transformed value, or a Promise that resolves with the transformed
value. Add them with jexl.addTransform(name, function)
.
jexl.addTransform('split', function(val, char) {
return val.split(char);
});
jexl.addTransform('lower', function(val) {
return val.toLowerCase();
});
| Expression | Result | |--------------------------------------------|-----------------------| | "Pam Poovey"|lower|split(' ')[1] | poovey | | "password==guest"|split('=' + '=') | ['password', 'guest'] |
Advanced Transforms
Using Transforms, Jexl can support additional string formats like embedded JSON, YAML, XML, and more. The following, with the help of the xml2json module, allows XML to be traversed just as easily as plain javascript objects:
var xml2json = require('xml2json');
jexl.addTransform('xml', function(val) {
return xml2json.toJson(val, {object: true});
});
var context = {
xmlDoc:
"<Employees>" +
"<Employee>" +
"<FirstName>Cheryl</FirstName>" +
"<LastName>Tunt</LastName>" +
"</Employee>" +
"<Employee>" +
"<FirstName>Cyril</FirstName>" +
"<LastName>Figgis</LastName>" +
"</Employee>" +
"</Employees>"
};
var expr = 'xmlDoc|xml.Employees.Employee[.LastName == "Figgis"].FirstName';
jexl.eval(expr, context).then(function(res) {
console.log(res); // Output: Cyril
});
Context
Variable contexts are straightforward Javascript objects that can be accessed in the expression, but they have a hidden feature: they can include a Promise object, and when that property is used, Jexl will wait for the Promise to resolve and use that value!
API
jexl.Jexl
A reference to the Jexl constructor. To maintain separate instances of Jexl
with each maintaining its own set of transforms, simply re-instantiate with
new jexl.Jexl()
.
jexl.addBinaryOp({string} operator, {number} precedence, {function} fn)
Adds a binary operator to the Jexl instance. A binary operator is one that
considers the values on both its left and right, such as "+" or "==", in order
to calculate a result. The precedence determines the operator's position in the
order of operations (please refer to lib/grammar.js
to see the precedence of
existing operators). The provided function will be called with two arguments:
a left value and a right value. It should return either the resulting value,
or a Promise that resolves to the resulting value.
jexl.addUnaryOp({string} operator, {function} fn)
Adds a unary operator to the Jexl instance. A unary operator is one that considers only the value on its right, such as "!", in order to calculate a result. The provided function will be called with one argument: the value to the operator's right. It should return either the resulting value, or a Promise that resolves to the resulting value.
jexl.addTransform({string} name, {function} transform)
Adds a transform function to this Jexl instance. See the Transforms section above for information on the structure of a transform function.
jexl.addTransforms({{}} map)
Adds multiple transforms from a supplied map of transform name to transform function.
jexl.getTransform({string} name)
Returns {function|undefined}
. Gets a previously set transform function,
or undefined
if no function of that name exists.
jexl.eval({string} expression, {{}} [context], {function} [callback])
Returns {Promise<*>}
. Evaluates an expression. The context map and
callback function are optional. If a callback is specified, it will be called
with the standard signature of {Error}
first argument, and the expression's
result in the second argument. Note that if a callback function is supplied,
the returned Promise will already have a .catch()
attached to it.
jexl.removeOp({string} operator)
Removes a binary or unary operator from the Jexl instance. For example, "^" can be passed to eliminate the "power of" operator.
License
Jexl is licensed under the MIT license. Please see LICENSE.txt
for full
details.
Credits
Jexl was originally created at TechnologyAdvice in Nashville, TN.