time-to-botec/js/node_modules/@stdlib/ndarray/dispatch/README.md

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# Dispatch

> Create an [ndarray][@stdlib/ndarray/ctor] function interface which performs multiple dispatch.

<section class="intro">

</section>

<!-- /.intro -->

<section class="usage">

## Usage

```javascript
var dispatch = require( '@stdlib/ndarray/dispatch' );
```

#### dispatch( fcns, types, data, nargs, nin, nout )

Returns an [ndarray][@stdlib/ndarray/ctor] function interface which performs multiple dispatch.

<!-- eslint-disable array-element-newline -->

```javascript
var unary = require( '@stdlib/ndarray/base/unary' );
var Float64Array = require( '@stdlib/array/float64' );
var Float32Array = require( '@stdlib/array/float32' );
var ndarray = require( '@stdlib/ndarray/ctor' );

function foo( x ) {
    return x * 10.0;
}

function bar( x ) {
    return x * 5.0;
}

// Define a list of ndarray functions for applying a unary callback:
var fcns = [
    unary,
    unary
];

// Define a one-dimensional list of input and output array types:
var types = [
    'float64', 'float64', // input, output
    'float32', 'float32'  // input, output
];

// Define a list of callbacks which should be applied based on the provided array types:
var data = [
    foo,
    bar
];

// Define the total number of input arguments:
var nargs = 2; // input_array + output_array

// Define the number of input ndarrays:
var nin = 1;

// Define the number of output ndarrays:
var nout = 1;

// Create an ndarray function interface:
var fcn = dispatch( fcns, types, data, nargs, nin, nout );

// ...

var xbuf = new Float64Array( [ 1.0, 2.0, 3.0 ] );
var ybuf = new Float64Array( xbuf.length );

var x = ndarray( 'float64', xbuf, [ 3 ], [ 1 ], 0, 'row-major' );
var y = ndarray( 'float64', ybuf, [ 3 ], [ 1 ], 0, 'row-major' );

fcn( x, y );
// ybuf => <Float64Array>[ 10.0, 20.0, 30.0 ]

xbuf = new Float32Array( [ 1.0, 2.0, 3.0 ] );
ybuf = new Float32Array( xbuf.length );

x = ndarray( 'float32', xbuf, [ 3 ], [ 1 ], 0, 'row-major' );
y = ndarray( 'float32', ybuf, [ 3 ], [ 1 ], 0, 'row-major' );

fcn( x, y );
// ybuf => <Float32Array>[ 5.0, 10.0, 15.0 ]
```

The function accepts the following arguments:

-   **fcns**: list of [ndarray][@stdlib/ndarray/ctor] functions.
-   **types**: one-dimensional list of [ndarray][@stdlib/ndarray/ctor] argument data types. The length of `types` must be the number of [ndarray][@stdlib/ndarray/ctor] functions multiplied by `nin+nout`. If `fcns` is a function, rather than a list, the number of [ndarray][@stdlib/ndarray/ctor] functions is computed as `types.length / (nin+nout)`.
-   **data**: [ndarray][@stdlib/ndarray/ctor] function data (e.g., callbacks). If a list, the length of `data` must equal the number of [ndarray][@stdlib/ndarray/ctor] functions. If `null`, a returned [ndarray][@stdlib/ndarray/ctor] function interface does **not** provide a `data` argument to an invoked [ndarray][@stdlib/ndarray/ctor] function.
-   **nargs**: total number of [ndarray][@stdlib/ndarray/ctor] function interface arguments.
-   **nin**: number of input [ndarrays][@stdlib/ndarray/ctor].
-   **nout**: number of output [ndarrays][@stdlib/ndarray/ctor].

</section>

<!-- /.usage -->

<section class="notes">

## Notes

-   A returned [ndarray][@stdlib/ndarray/ctor] function interface has the following signature:

    ```text
    f( x, y, ... )
    ```

    where

    -   **x**: [ndarray][@stdlib/ndarray/ctor].
    -   **y**: [ndarray][@stdlib/ndarray/ctor].
    -   **...**: additional [ndarrays][@stdlib/ndarray/ctor].

-   The number of [ndarray][@stdlib/ndarray/ctor] function interface parameters is derived from `nargs`, the number of input [ndarrays][@stdlib/ndarray/ctor] is derived from `nin`, and the number of output [ndarrays][@stdlib/ndarray/ctor] is derived from `nout`.

-   An [ndarray][@stdlib/ndarray/ctor] function (i.e., a value provided for the `fcns` argument) should have the following signature:

    ```text
    f( arrays[, data] )
    ```

    where

    -   **arrays**: array containing input and output [ndarrays][@stdlib/ndarray/ctor].
    -   **data**: [ndarray][@stdlib/ndarray/ctor] function data (e.g., a callback).

-   For convenience, a single [ndarray][@stdlib/ndarray/ctor] function may be provided which will be invoked whenever the [ndarray][@stdlib/ndarray/ctor] argument data types match a sequence of types in `types`. Providing a single [ndarray][@stdlib/ndarray/ctor] function is particularly convenient for the case where, regardless of array data types, traversing arrays remains the same, but the [ndarray][@stdlib/ndarray/ctor] function `data` differs (e.g., callbacks which differ based on the array data types). For example, the following

    <!-- eslint-disable array-element-newline -->

    ```javascript
    var unary = require( '@stdlib/ndarray/base/unary' );

    function foo( x ) {
        return x * 10.0;
    }

    function bar( x ) {
        return x * 5.0;
    }

    var fcns = [
        unary,
        unary
    ];
    var types = [
        'float64', 'float64',
        'float32', 'float32'
    ];
    var data = [
        foo,
        bar
    ];

    var fcn = dispatch( fcns, types, data, 2, 1, 1 );
    ```

    is equivalent to

    <!-- eslint-disable array-element-newline -->

    ```javascript
    var unary = require( '@stdlib/ndarray/base/unary' );

    function foo( x ) {
        return x * 10.0;
    }

    function bar( x ) {
        return x * 5.0;
    }

    var types = [
        'float64', 'float64',
        'float32', 'float32'
    ];
    var data = [
        foo,
        bar
    ];

    var fcn = dispatch( unary, types, data, 2, 1, 1 );
    ```

</section>

<!-- /.notes -->

<section class="examples">

## Examples

<!-- eslint no-undef: "error" -->

```javascript
var unary = require( '@stdlib/ndarray/base/unary' );
var ndarray = require( '@stdlib/ndarray/ctor' );
var abs = require( '@stdlib/math/base/special/abs' );
var Float64Array = require( '@stdlib/array/float64' );
var dispatch = require( '@stdlib/ndarray/dispatch' );

var types = [ 'float64', 'float64' ];

var data = [
    abs
];

var absolute = dispatch( unary, types, data, 2, 1, 1 );

var xbuf = new Float64Array( [ -1.0, -2.0, -3.0, -4.0, -5.0 ] );
var ybuf = new Float64Array( [ 0.0, 0.0, 0.0, 0.0, 0.0 ] );

var x = ndarray( 'float64', xbuf, [ 5 ], [ 1 ], 0, 'row-major' );
var y = ndarray( 'float64', ybuf, [ 5 ], [ 1 ], 0, 'row-major' );

absolute( x, y );
console.log( ybuf );
// => <Float64Array>[ 1.0, 2.0, 3.0, 4.0, 5.0 ]
```

</section>

<!-- /.examples -->

<section class="links">

[@stdlib/ndarray/ctor]: https://www.npmjs.com/package/@stdlib/ndarray/tree/main/ctor

</section>

<!-- /.links -->