# reduceAsync > Apply a function against an accumulator and each element in a collection and return the accumulated result.

## Usage ```javascript var reduceAsync = require( '@stdlib/utils/async/reduce' ); ``` #### reduceAsync( collection, initial, \[options,] reducer, done ) Applies a `function` against an accumulator and each element in a `collection` and returns the accumulated result. ```javascript function reducer( acc, value, index, next ) { setTimeout( onTimeout, value ); function onTimeout() { console.log( value ); acc.sum += value; next( null, acc ); } } function done( error, acc ) { if ( error ) { throw error; } console.log( acc.sum ); } var arr = [ 3000, 2500, 1000 ]; var acc = { 'sum': 0 }; reduceAsync( arr, acc, reducer, done ); /* 3000 2500 1000 6500 */ ``` The `next` callback accepts two arguments: `error` and `accumulator`. The second argument to the `next` callback is passed as the first argument to the provided `reducer`. ```javascript function reducer( acc, value, index, next ) { setTimeout( onTimeout, value ); function onTimeout() { next( null, acc ); } } function done( error, out ) { if ( error ) { throw error; } console.log( out === acc ); // => true } var arr = [ 3000, 2500, 1000 ]; var acc = {}; reduceAsync( arr, acc, reducer, done ); ``` The function accepts the following `options`: - `limit`: the maximum number of pending invocations at any one time. If provided, the function sets `options.series=false`. Default: `infinity`. - `series`: `boolean` indicating whether to sequentially invoke `reducer` for each `collection` element. If `true`, the function sets `options.limit=1`. Default: `true`. - `thisArg`: the execution context for `reducer`. By default, all elements are processed **sequentially**, which means that the function **does** guarantee completion order. To process each `collection` element concurrently, set the `series` option to `false`. ```javascript function reducer( acc, value, index, next ) { setTimeout( onTimeout, value ); function onTimeout() { console.log( value ); acc.sum += value; next( null, acc ); } } function done( error, acc ) { if ( error ) { throw error; } console.log( acc.sum ); } var arr = [ 3000, 2500, 1000 ]; var acc = { 'sum': 0 }; var opts = { 'series': false }; reduceAsync( arr, acc, opts, reducer, done ); /* => 1000 2500 3000 6500 */ ``` To limit the maximum number of pending function invocations, set the `limit` option. ```javascript function reducer( acc, value, index, next ) { setTimeout( onTimeout, value ); function onTimeout() { console.log( value ); acc.sum += value; next( null, acc ); } } function done( error, acc ) { if ( error ) { throw error; } console.log( acc.sum ); } var arr = [ 3000, 2500, 1000 ]; var acc = { 'sum': 0 }; var opts = { 'limit': 2 }; reduceAsync( arr, acc, opts, reducer, done ); /* => 2500 3000 1000 6500 */ ``` To set the execution context of `reducer`, set the `thisArg` option. ```javascript function reducer( acc, value, index, next ) { this.count += 1; setTimeout( onTimeout, value ); function onTimeout() { acc.sum += value; next( null, acc ); } } var arr = [ 3000, 2500, 1000 ]; var acc = { 'sum': 0 }; var context = { 'count': 0 }; var opts = { 'thisArg': context }; reduceAsync( arr, acc, opts, reducer, done ); function done( error, acc ) { if ( error ) { throw error; } console.log( acc.sum ); // => 6500 console.log( context.count ); // => 3 } ``` When invoked, `reducer` is provided a maximum of five arguments: - `accumulator`: accumulated value. - `value`: collection value. - `index`: collection index. - `collection`: the input `collection`. - `next`: a callback which should be called once `reducer` has finished processing a collection `value`. The actual number of provided arguments depends on function `length`. If `reducer` accepts three arguments, `reducer` is provided `accumulator`, `value` and `next`. If `reducer` accepts four arguments, `reducer` is provided `accumulator`, `value`, `index`, and `next`. For every other `reducer` signature, `reducer` is provided all five arguments. ```javascript function reducer( acc, value, i, collection, next ) { console.log( 'collection: %s. %d: %d', collection.join( ',' ), i, value ); setTimeout( onTimeout, value ); function onTimeout() { console.log( value ); acc.sum += value; next( null, acc ); } } function done( error, acc ) { if ( error ) { throw error; } console.log( acc.sum ); } var arr = [ 3000, 2500, 1000 ]; var acc = { 'sum': 0 }; reduceAsync( arr, acc, reducer, done ); /* => collection: 3000,2500,1000. 0: 3000 collection: 3000,2500,1000. 1: 2500 collection: 3000,2500,1000. 2: 1000 3000 2500 1000 6500 */ ``` #### reduceAsync.factory( \[options,] reducer ) Returns a `function` which invokes a function once for each element in a `collection`. ```javascript function reducer( acc, value, index, next ) { setTimeout( onTimeout, value ); function onTimeout() { console.log( value ); acc.sum += value; next( null, acc ); } } function done( error, acc ) { if ( error ) { throw error; } console.log( acc.sum ); } var f = reduceAsync.factory( reducer ); var arr1 = [ 3000, 2500, 1000 ]; var acc1 = { 'sum': 0 }; f( arr1, acc1, done ); /* => 3000 2500 1000 6500 */ var arr2 = [ 300, 250, 100 ]; var acc2 = { 'sum': 0 }; f( arr2, acc2, done ); /* => 300 250 100 650 */ ``` The function accepts the same `options` as `reduceAsync()`.

## Notes - A `collection` may be either an [`Array`][mdn-array], [`Typed Array`][mdn-typed-array], or an array-like [`Object`][mdn-object] (excluding `strings` and `functions`). - If a provided function calls the `next` callback with a truthy `error` argument, the function suspends execution and immediately calls the `done` callback for subsequent `error` handling. - The function invokes the `done` callback with the `accumulator` provided as the second argument. If provided an empty `collection`, the function invokes the `done` callback with the `initial` value as the second argument. - The function does **not** support dynamic `collection` resizing. - The function does **not** skip `undefined` elements. - When processing `collection` elements concurrently, **beware** of race conditions when updating an accumulator. This is especially true when an accumulator is a primitive (e.g., a `number`). In general, prefer `object` accumulators, as objects are passed by reference, not by value. - **Neither** `reduceAsync` nor the function returned by the `factory` method **guarantee** asynchronous execution. To guarantee asynchrony, wrap the `done` 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`).

## Examples ```javascript var resolve = require( 'path' ).resolve; var readFile = require( '@stdlib/fs/read-file' ); var reduceAsync = require( '@stdlib/utils/async/reduce' ); var files = [ resolve( __dirname, 'package.json' ), resolve( __dirname, 'README.md' ) ]; function done( error, acc ) { if ( error ) { throw error; } console.log( acc.count ); } function read( acc, file, next ) { var opts = { 'encoding': 'utf8' }; readFile( file, opts, onFile ); function onFile( error ) { if ( error ) { return next( null, acc ); } acc.count += 1; next( null, acc ); } } var acc = { 'count': 0 }; reduceAsync( files, acc, read, done ); ```

[mdn-array]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array [mdn-typed-array]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/TypedArray [mdn-object]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object