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Invoke a function for each element in a collection and update the collection in-place.
npm install @stdlib/utils-async-inmap
Alternatively,
- To load the package in a website via a
script
tag without installation and bundlers, use the ES Module available on theesm
branch (see README). - If you are using Deno, visit the
deno
branch (see README for usage intructions). - For use in Observable, or in browser/node environments, use the Universal Module Definition (UMD) build available on the
umd
branch (see README).
The branches.md file summarizes the available branches and displays a diagram illustrating their relationships.
To view installation and usage instructions specific to each branch build, be sure to explicitly navigate to the respective README files on each branch, as linked to above.
var inmapAsync = require( '@stdlib/utils-async-inmap' );
Invokes a function for each element in a collection
and updates the collection
in-place.
function fcn( value, index, next ) {
setTimeout( onTimeout, value );
function onTimeout() {
console.log( value );
next( null, value*index );
}
}
function done( error, collection ) {
if ( error ) {
throw error;
}
console.log( collection === arr );
console.log( collection );
}
var arr = [ 3000, 2500, 1000 ];
inmapAsync( arr, fcn, done );
/*
1000
2500
3000
true
[ 0, 2500, 2000 ]
*/
The next
callback accepts two arguments: error
and result
. The second argument to the next
callback is used to update the collection
element for the corresponding collection index
, thus mutating the input collection
.
function fcn( value, index, next ) {
setTimeout( onTimeout, value );
function onTimeout() {
next( null, 'beep: '+index );
}
}
function done( error, collection ) {
if ( error ) {
throw error;
}
console.log( collection );
// => [ 'beep: 0', 'beep: 1', 'beep: 2' ]
}
var arr = [ 3000, 2500, 1000 ];
inmapAsync( arr, fcn, done );
If the next
callback is called with an error
argument, the input collection
may be partially mutated.
function fcn( value, index, next ) {
setTimeout( onTimeout, value );
function onTimeout() {
if ( index === 1 ) {
return next( new Error( 'boop' ) );
}
next( null, 'beep: '+index );
}
}
function done( error, collection ) {
if ( error ) {
// Ignore error...
}
console.log( collection );
// => [ 'beep: 0', 2000, 3000 ]
}
var arr = [ 1000, 2000, 3000 ];
inmapAsync( arr, fcn, done );
The function accepts the following options
:
- limit: the maximum number of pending invocations at any one time. Default:
infinity
. - series: boolean indicating whether to sequentially invoke
fcn
for eachcollection
element. Iftrue
, the function setsoptions.limit=1
. Default:false
. - thisArg: the execution context for
fcn
.
By default, all elements are processed concurrently, which means that the function does not guarantee completion order. To process each collection
element sequentially, set the series
option to true
.
function fcn( value, index, next ) {
setTimeout( onTimeout, value );
function onTimeout() {
console.log( value );
next( null, value*index );
}
}
function done( error, collection ) {
if ( error ) {
throw error;
}
console.log( collection === arr );
console.log( collection );
}
var arr = [ 3000, 2500, 1000 ];
var opts = {
'series': true
};
inmapAsync( arr, opts, fcn, done );
/* =>
3000
2500
1000
true
[ 0, 2500, 2000 ]
*/
To limit the maximum number of pending function invocations, set the limit
option.
function fcn( value, index, next ) {
setTimeout( onTimeout, value );
function onTimeout() {
console.log( value );
next( null, value*index );
}
}
function done( error, collection ) {
if ( error ) {
throw error;
}
console.log( collection === arr );
console.log( collection );
}
var arr = [ 3000, 2500, 1000 ];
var opts = {
'limit': 2
};
inmapAsync( arr, opts, fcn, done );
/* =>
2500
3000
1000
true,
[ 0, 2500, 2000 ]
*/
To set the execution context of fcn
, set the thisArg
option.
function fcn( value, index, next ) {
this.count += 1;
setTimeout( onTimeout, value );
function onTimeout() {
next( null, value*index );
}
}
var arr = [ 3000, 2500, 1000 ];
var context = {
'count': 0
};
var opts = {
'thisArg': context
};
inmapAsync( arr, opts, fcn, done );
function done( error, collection ) {
if ( error ) {
throw error;
}
console.log( collection === arr );
// => true
console.log( collection );
// => [ 0, 2500, 2000 ]
console.log( context.count );
// => 3
}
When invoked, fcn
is provided a maximum of four arguments:
- value: collection value.
- index: collection index.
- collection: the input
collection
. - next: a callback which should be called once
fcn
has finished processing a collectionvalue
.
The actual number of provided arguments depends on function length
. If fcn
accepts two arguments, fcn
is provided value
and next
. If fcn
accepts three arguments, fcn
is provided value
, index
, and next
. For every other fcn
signature, fcn
is provided all four arguments.
function fcn( value, i, collection, next ) {
console.log( 'collection: %s. %d: %d', collection.join( ',' ), i, value );
setTimeout( onTimeout, value );
function onTimeout() {
console.log( value );
next( null, value*i );
}
}
function done( error, collection ) {
if ( error ) {
throw error;
}
console.log( collection === arr );
// => true
console.log( collection );
// => [ 0, 2500, 2000 ]
}
var arr = [ 3000, 2500, 1000 ];
inmapAsync( arr, fcn, done );
/* =>
collection: 3000,2500,1000. 0: 3000
collection: 3000,2500,1000. 1: 2500
collection: 3000,2500,1000. 2: 1000
1000
2500
3000
*/
Returns a function which invokes a function once for each element in a collection
.
function fcn( value, index, next ) {
setTimeout( onTimeout, value );
function onTimeout() {
console.log( value );
next( null, value*index );
}
}
function done( error, collection ) {
if ( error ) {
throw error;
}
console.log( collection );
}
var f = inmapAsync.factory( fcn );
var arr1 = [ 3000, 2500, 1000 ];
f( arr1, done );
/* =>
1000
2500
3000
[ 0, 2500, 2000 ]
*/
var arr2 = [ 300, 250, 100 ];
f( arr2, done );
/* =>
100
250
300
[ 0, 250, 200 ]
*/
The function accepts the same options
as inmapAsync()
.
- A
collection
may be either anArray
,Typed Array
, or an array-likeObject
(excludingstrings
andfunctions
). - If a provided function calls the
next
callback with a truthyerror
argument, the function suspends execution and immediately calls thedone
callback for subsequenterror
handling. - The function invokes the
done
callback with the inputcollection
provided as the second argument. - The function modifies
collection
elements in-place. - The function does not support dynamic
collection
resizing. - The function does not skip
undefined
elements. - Neither
inmapAsync
nor the function returned by thefactory
method guarantee asynchronous execution. To guarantee asynchrony, wrap thedone
callback in a function which either executes at the end of the current stack (e.g.,nextTick
) or during a subsequent turn of the event loop (e.g.,setImmediate
,setTimeout
).
var resolve = require( 'path' ).resolve;
var readFile = require( '@stdlib/fs-read-file' );
var inmapAsync = require( '@stdlib/utils-async-inmap' );
var files = [
resolve( __dirname, 'package.json' ),
resolve( __dirname, 'README.md' )
];
function done( error, results ) {
if ( error ) {
throw error;
}
console.log( results );
}
function read( file, next ) {
var opts = {
'encoding': 'utf8'
};
readFile( file, opts, onFile );
function onFile( error, data ) {
if ( error ) {
error = new Error( 'unable to read file: '+file );
return next( error );
}
next( null, data );
}
}
inmapAsync( files, read, done );
@stdlib/utils-async/for-each
: invoke a function once for each element in a collection.@stdlib/utils-async/inmap-right
: invoke a function for each element in a collection and update the collection in-place, iterating from right to left.@stdlib/utils-inmap
: invoke a function for each element in a collection and update the collection in-place.
This package is part of stdlib, a standard library for JavaScript and Node.js, with an emphasis on numerical and scientific computing. The library provides a collection of robust, high performance libraries for mathematics, statistics, streams, utilities, and more.
For more information on the project, filing bug reports and feature requests, and guidance on how to develop stdlib, see the main project repository.
See LICENSE.
Copyright © 2016-2024. The Stdlib Authors.