npm package discovery and stats viewer.

Discover Tips

  • General search

    [free text search, go nuts!]

  • Package details

    pkg:[package-name]

  • User packages

    @[username]

Sponsor

Optimize Toolset

I’ve always been into building performant and accessible sites, but lately I’ve been taking it extremely seriously. So much so that I’ve been building a tool to help me optimize and monitor the sites that I build to make sure that I’m making an attempt to offer the best experience to those who visit them. If you’re into performant, accessible and SEO friendly sites, you might like it too! You can check it out at Optimize Toolset.

About

Hi, 👋, I’m Ryan Hefner  and I built this site for me, and you! The goal of this site was to provide an easy way for me to check the stats on my npm packages, both for prioritizing issues and updates, and to give me a little kick in the pants to keep up on stuff.

As I was building it, I realized that I was actually using the tool to build the tool, and figured I might as well put this out there and hopefully others will find it to be a fast and useful way to search and browse npm packages as I have.

If you’re interested in other things I’m working on, follow me on Twitter or check out the open source projects I’ve been publishing on GitHub.

I am also working on a Twitter bot for this site to tweet the most popular, newest, random packages from npm. Please follow that account now and it will start sending out packages soon–ish.

Open Software & Tools

This site wouldn’t be possible without the immense generosity and tireless efforts from the people who make contributions to the world and share their work via open source initiatives. Thank you 🙏

© 2024 – Pkg Stats / Ryan Hefner

argy

v1.3.1

Published

Swiss Army knife for variadic functions

Downloads

211

Readme

Argy

Zero-dependency Swiss Army knife for variadic functions.

What is it?

Tired of handling variadic function babysitting like this:

/**
* Query stuff
* @param {string} [id] Optional ID to fetch
* @param {Object} [query] Additional query parameters
* @param {function} callback Required callback
*/
this.query = function(id, query, callback) {
	if (_.isString(id) && _.isObject(query) && _.isFunction) { // Called as query(id, query, callback)
		// Argument are correct
	} else if (_.isObject(id) && _.isFunction(callback)) { // Called as query(id, callback)
		[id, query, callback] = [undefined, id, query]; // Destructuring for the win!
	} else if (_.isFunction(id)) { // Called as query(callback)
		[id, query, callback] = [undefined, undefined, id];
	} else {
		// ... and yet more conditions
	}

	// Now we can get on with stuff
};

... of course its even worse when you don't have destructuring available.

Argy removes the need to do function argument mangling and allows you to specify what a function can accept in a simple syntax.

Some examples

// Make a query function that can accept three parameters: a string, an object and a callback (required)
this.query = argy('[string] [object] function', function(id, query, callback) {
	// id, query, callback are now dependable functions even if the function is called without an id or query
});

// Alternate syntax of the above
this.query = argy.as('[string] [object] function').wrap(function(id, query, callback) { // ... // });

// More alternate syntax
this.query = argy.optional('string').optional('object').required('function').wrap(function(id, query, callback) { // ... // });

// Yet another alternate syntax - this time decode the parameters inside the function with destructuring
this.query = function(id, query, callback) {
	[id, query, callback] = argy(arguments).as('[string] [object] function').parse();
};

// Non-destructuring example of the above
this.query = function(id, query, callback) {
	var parsed = argy(arguments).as('[string] [object] function').parse();
	id = parsed[0];
	query = parsed[1];
	callback = parsed[2];
};

// Non-destructuring example of the above - this time using a closure
this.query = function(id, query, callback) {
	argy(arguments)
		.as('[string] [object] function')
		.wrap(function(rawId, rawQuery, rawCallback) {
			id = rawId;
			query = rawQuery;
			callback = rawCallback;
		});
};
// Create a function that acts differently depending on how it was called (overloading)
this.query = function(id, query, callback) {
	argy(arguments)
		.ifForm('string', function(id) { // Only given an ID })
		.ifForm('object', function(query) { // Only given an object })
		.ifForm('function', function(callback) { // Only given a function })
		.ifForm('string function', function(id, callback) { // Given both an ID and a function })
		.ifForm(['string object function', 'number object function'], funcion(id, query, callback) { // Given either a string + object + function or number + object + function })
		.ifForm('date|boolean function', function(time, callback) { // Given a date OR boolean and a function })
		.ifFormElse(function(form) { // Pattern didn't match any of the above })
};

Basic usage

Argy operates by selecting two paths - how you specify the function standard and what you do with it afterwards:

  1. The specification specifier - choose either the as or builder specification setups. If you want different specifications to do different things use ifForm.

    • as syntax - Use a string to specify what a function can accept (e.g. argy().as('string [number]'))
    • single function syntax - An alternative way to specify as syntax is to pass two parameters to argy (e.g. argy('[string] [number]', function(name, number) { ... }))
    • builder syntax - Use an object based declaration to specify the function standard (e.g. argy().required('string').optional('number'))
    • ifForm syntax - Specify different callbacks to run for different forms (e.g. argy().ifForm('string', funcFoo).ifForm('number', funcBar'))
  2. The output handler - choose either the wrap or parse APIs

    • wrap - Return a function that will be called by Argy when the specification is satisfied (e.g. argy().as('... your spec ...').wrap(function(a, b, c) { // Your function // }))
    • parse - Return an array of extracted parameters (e.g. argy().as('... your spec ...').parse()). This method is useful if you have destructuring available in your parser.

Casting

Argy also supports variable casting. This forces an incomming value to be of a certain type. Since some types are not translatable the functionality to convert between types is limited but this can be helpful when requiring an input to be of a certain style. Casting is specified in the as syntax using the greater-than operator after the type e.g. scalar>string will force any scalar input into the string type.

For more details see the Argy.cast() function.

argy('scalar>string', function(id) {
	// `id` will ALWAYS be a string type even if it was passed as a number
});

argy('scalar|array>array', function(id) {
	// `id` will ALWAYS be an array of values, even if it was passed as a single scalar
});

argy('*>boolean', function(enable) {
	// `enable` will always be evaluated as a boolean
});

Specification API

ifForm()

Run a callback if the form of the arguments matches a rule.

ifForm(String <match> | Array <matches>, callback)
ifFormElse(callback)

Rules can be single strings or arrays. If an array is passed any rule within that array is counted as satisfying the form (an 'OR' rule).

Strings can be composed of parameters seperated by spaces or commas with optional pipes (|) to specify multiple types: e.g. string string|number date indicates that the first argument should be a string, the second could be a string OR a number and the third should be a date.

// The following function tries to identify a person and their age based on optional arguments

function identify() {
	var id;

	argy(arguments)
		.ifForm('string', name => id = name)
		.ifForm('string number', (name, age) => id = name + ' (' + age + ')')
		.ifForm('number', age => id = 'Unknown (' + age + ')')
		.ifFormElse(() => id = 'Unknown')

	return id;
};

identify('Matt', 30) // "Matt (30)"
identify('Joe') // "Joe"
identify(23) // "Unknown (23)"
identify() // "Unknown"

See the test/ifForm.js for more complex examples.

as()

The as() method is a shorthand version of the add() / required() / optional() methods.

'As' syntax resembles a string (either space separated or CSV) of types with optional types in square brackets:

// Require a single number
argy(arguments).as('number').into(myNumber)

// Require any type
argy(arguments).as('*').into(myNumber)

// Require a string followed by an optional number
argy(arguments).as('string [number]').into(myNumber)

// Require a number preceeded by an optional string (reverse of above with args expanding from right)
argy(arguments).as('[string] number').into(myNumber)

See the test/as.js for more complex examples.

builder

The builder format uses object chains to lay out a specification.

// Wrap a function with an optional string, required number and optional date
argy()
	.optional('string')
	.required('number')
	.optional('date')
	.wrap(function(a, b, c) { // Your function // });


// Parse values of a function
function myFunc(a, b, c) {
	var args = argy(arguments)
		.required('scalar')
		.optional('function')
		.parse();

	// Args should now be an array of two items
}

See the test/wrap.js for more complex examples.

Output API

parse()

Compile a specification against incoming arguments and return an array of the correct response.

Parse is especially useful if your language has destructuring support.

// Parse values of a function
function myFunc() {
	var [name, callback] = argy(arguments).as('scalar [function]').parse();
}

See the test/parse.js for more complex examples.

wrap()

Factory function which returns a wrapped function where the function arguments will be rearranged into the correct order.

This function provides a convenient way to specify the different specifications of arguments (using the .as(), .add() / .required() / .optional methods), then rewriting the args so the arguments are dependable.

// Apply a wrapper to a new function
var myFunc = argy.as('[string] number function').wrap(function(a, b, c) {
	// 'a' will be either undefined or a string
	// 'b' will always be a number
	// 'c' will always be a function
});

It is also possible to pass two parameters to Argy to replicate the same functionality:

// Apply a wrapper to a new function
var myFunc = argy('[string] number function', function(a, b, c) {
	// 'a' will be either undefined or a string
	// 'b' will always be a number
	// 'c' will always be a function
});

See the test/wrap.js for more complex examples.

Utility APIs

argy().getSpecString()

Return the compiled version of a specification as a space seperated string. This is the opposite function to as().

// Get the specification syntax from an Argy instance compiled with 'as()'
argy()
	.as('string [date] callback')
	.getSpecString() // => 'string [date] callback'


// Get the specification syntax from an Argy instance compiled using the builder syntax
argy()
	.required('string')
	.optional('date')
	.required('callback')
	.getSpecString() // => 'string [date] callback');

Argy.as()

Shortcut function to create a new Argy instance without specifying any parameters. This is functionally identical to argy().as()

Argy.cast()

Attempt to convert an input type into an output type. Since some types are not translatable the functionality to convert between types is limited.

argy.cast(123, 'string') => '123'
argy.cast('foo', 'number') => 0
argy.cast('456', 'number') => 456
argy.cast('foo', 'array') => ['foo']
argy.cast(123, 'array') => [123]

See the test/cast.js for more complex examples.

Argy.getForm(arguments)

Returns a space separated string of the arguments object where each item is run via getType.

function myFunc() {
	argy.getForm(arguments) // => "string number date"
};
myFunc('hello', 123, new Date);

Argy.getType(variable)

Returns the lower-case type specification of a variable.

argy.getType('hello') // => 'string'
argy.getType([1,2,3]) // => 'array'
argy.getType({foo: 'fooValue'}) // => 'object'
argy.getType(new Date) // => 'date'
argy.getType(function() {}) // => 'function'

Argy.isType(variable, types)

Compares a single variable against a type or array of types. If types is an array this function will return true if any of the array items match.

In addition to the types returned by getType() this function also supports the following meta-comparators:

| Type | Description | |--------------------|------------------------------------------| | * / any | Always returns true | | scalar / basic | Match any number, string or boolean | | ok / truey | Match any non-null or non-undefined type | | notok / falsy | Match any null or undefined type | | callback / cb | Aliases of 'function' |