Nullary

Apply a nullary callback and assign results to elements in an output ndarray.

Usage

var nullary = require( '@stdlib/ndarray/base/nullary' );

nullary( arrays, fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

var Float64Array = require( '@stdlib/array/float64' );

function fcn() {
    return 10.0;
}

// Create data buffers:
var xbuf = new Float64Array( 12 );

// Define the shape of the output array:
var shape = [ 3, 1, 2 ];

// Define the array strides:
var sx = [ 4, 4, 1 ];

// Define the index offset:
var ox = 1;

// Create the output ndarray-like object:
var x = {
    'dtype': 'float64',
    'data': xbuf,
    'shape': shape,
    'strides': sx,
    'offset': ox,
    'order': 'row-major'
};

// Apply the nullary function:
nullary( [ x ], fcn );

console.log( x.data );
// => <Float64Array>[ 0.0, 10.0, 10.0, 0.0, 0.0, 10.0, 10.0, 0.0, 0.0, 10.0, 10.0, 0.0 ]

The function accepts the following arguments:

arrays: array-like object containing an output ndarray.
fcn: nullary function to apply.

The provided ndarray should be an object with the following properties:

dtype: data type.
data: data buffer.
shape: dimensions.
strides: stride lengths.
offset: index offset.
order: specifies whether an ndarray is row-major (C-style) or column major (Fortran-style).

Notes

For very high-dimensional ndarrays which are non-contiguous, one should consider copying the underlying data to contiguous memory before applying a nullary function in order to achieve better performance.

Examples

var discreteUniform = require( '@stdlib/random/base/discrete-uniform' ).factory;
var filledarray = require( '@stdlib/array/filled' );
var ndarray2array = require( '@stdlib/ndarray/base/to-array' );
var nullary = require( '@stdlib/ndarray/base/nullary' );

var x = {
    'dtype': 'generic',
    'data': filledarray( 0, 10, 'generic' ),
    'shape': [ 5, 2 ],
    'strides': [ 2, 1 ],
    'offset': 0,
    'order': 'row-major'
};

nullary( [ x ], discreteUniform( -100, 100 ) );
console.log( ndarray2array( x.data, x.shape, x.strides, x.offset, x.order ) );

C APIs

Character codes for data types:

x: bool (boolean).
z: complex128 (double-precision floating-point complex number).
c: complex64 (single-precision floating-point complex number).
f: float32 (single-precision floating-point number).
d: float64 (double-precision floating-point number).
k: int16 (signed 16-bit integer).
i: int32 (signed 32-bit integer).
s: int8 (signed 8-bit integer).
t: uint16 (unsigned 16-bit integer).
u: uint32 (unsigned 32-bit integer).
b: uint8 (unsigned 8-bit integer).

Function name suffix naming convention:

stdlib_ndarray_<output_data_type>[_as_<callback_return_data_type>]

For example,

void stdlib_ndarray_d(...) {...}

is a function which accepts one double-precision floating-point output ndarray. In other words, the suffix encodes the function type signature.

To support callbacks whose return values are of a different data type than the output ndarray data types, the naming convention supports appending an as suffix. For example,

void stdlib_ndarray_f_as_d(...) {...}

is a function which accepts one single-precision floating-point output ndarray. However, the callback returns double-precision floating-point numbers. Accordingly, the output values need to be cast using the following conversion sequence

// Evaluate the callback:
double out = f();

// Convert the callback return value to single-precision:
x[ i ] = (float)out;

Usage

#include "stdlib/ndarray/base/nullary.h"

stdlib_ndarray_b( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_UINT8;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 2, 1 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_b( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_b( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_c( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include "stdlib/complex/float32/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static stdlib_complex64_t fcn( void ) {
    // ...
}

// Apply the callback:
int8_t status = stdlib_ndarray_c( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a stdlib_complex64_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_c( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_c_as_b( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_c_as_b( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_c_as_b( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_c_as_f( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static float fcn( void ) {
    return 10.0f;
}

// Apply the callback:
int8_t status = stdlib_ndarray_c_as_f( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a float (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_c_as_f( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_c_as_k( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_c_as_k( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_c_as_k( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_c_as_s( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_c_as_s( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_c_as_s( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_c_as_t( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_c_as_t( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_c_as_t( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_c_as_z( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include "stdlib/complex/float64/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static stdlib_complex128_t fcn( void ) {
    // ...
}

// Apply the callback:
int8_t status = stdlib_ndarray_c_as_z( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a stdlib_complex128_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_c_as_z( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_d( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static double fcn( void ) {
    return 10.0;
}

// Apply the callback:
int8_t status = stdlib_ndarray_d( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a double (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_d( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_d_as_b( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_d_as_b( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_d_as_b( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_d_as_f( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static float fcn( void ) {
    return 10.0f;
}

// Apply the callback:
int8_t status = stdlib_ndarray_d_as_f( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a float (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_d_as_f( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_d_as_i( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int32_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_d_as_i( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int32_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_d_as_i( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_d_as_k( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_d_as_k( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_d_as_k( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_d_as_s( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_d_as_s( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_d_as_s( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_d_as_t( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_d_as_t( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_d_as_t( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_d_as_u( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT64;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 16, 8 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint32_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_d_as_u( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint32_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_d_as_u( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_f( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static float fcn( void ) {
    return 10.0f;
}

// Apply the callback:
int8_t status = stdlib_ndarray_f( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a float (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_f( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_f_as_b( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_f_as_b( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_f_as_b( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_f_as_d( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static double fcn( void ) {
    return 10.0;
}

// Apply the callback:
int8_t status = stdlib_ndarray_f_as_d( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a double (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_f_as_d( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_f_as_k( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_f_as_k( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_f_as_k( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_f_as_s( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_f_as_s( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_f_as_s( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_f_as_t( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_FLOAT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_f_as_t( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_f_as_t( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_i( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_INT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int32_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_i( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int32_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_i( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_i_as_b( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_INT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_i_as_b( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_i_as_b( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_i_as_k( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_INT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_i_as_k( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_i_as_k( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_i_as_s( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_INT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_i_as_s( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_i_as_s( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_i_as_t( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_INT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_i_as_t( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_i_as_t( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_k( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_INT16;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 4, 2 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_k( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_k( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_k_as_b( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_INT16;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 4, 2 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_k_as_b( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_k_as_b( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_k_as_s( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_INT16;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 4, 2 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_k_as_s( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_k_as_s( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_s( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_INT8;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 2, 1 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_s( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_s( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_t( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_UINT16;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 4, 2 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_t( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_t( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_t_as_b( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_UINT16;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 4, 2 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_t_as_b( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_t_as_b( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_u( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_UINT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint32_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_u( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint32_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_u( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_u_as_b( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_UINT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_u_as_b( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_u_as_b( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_u_as_t( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_UINT32;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 8, 4 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_u_as_t( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_u_as_t( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_x( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_BOOL;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 2, 1 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static bool fcn( void ) {
    return true;
}

// Apply the callback:
int8_t status = stdlib_ndarray_x( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a bool (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_x( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_z( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include "stdlib/complex/float64/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX128;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 32, 16 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static stdlib_complex128_t fcn( void ) {
    // ...
}

// Apply the callback:
int8_t status = stdlib_ndarray_z( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a stdlib_complex128_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_z( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_z_as_b( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX128;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 32, 16 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_z_as_b( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_z_as_b( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_z_as_c( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include "stdlib/complex/float32/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX128;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 32, 16 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static stdlib_complex64_t fcn( void ) {
    // ...
}

// Apply the callback:
int8_t status = stdlib_ndarray_z_as_c( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a stdlib_complex64_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_z_as_c( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_z_as_d( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX128;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 32, 16 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static double fcn( void ) {
    return 10.0;
}

// Apply the callback:
int8_t status = stdlib_ndarray_z_as_d( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a double (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_z_as_d( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_z_as_f( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX128;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 32, 16 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static float fcn( void ) {
    return 10.0f;
}

// Apply the callback:
int8_t status = stdlib_ndarray_z_as_f( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a float (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_z_as_f( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_z_as_i( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX128;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 32, 16 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int32_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_z_as_i( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int32_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_z_as_i( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_z_as_k( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX128;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 32, 16 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_z_as_k( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_z_as_k( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_z_as_s( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX128;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 32, 16 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static int8_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_z_as_s( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a int8_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_z_as_s( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_z_as_t( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX128;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 32, 16 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint16_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_z_as_t( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint16_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_z_as_t( struct ndarray *arrays[], void *fcn );

stdlib_ndarray_z_as_u( arrays[], fcn )

Applies a nullary callback and assigns results to elements in an output ndarray.

#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>

// Define the ndarray data type:
enum STDLIB_NDARRAY_DTYPE xdtype = STDLIB_NDARRAY_COMPLEX128;

// Create an underlying byte array:
uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

// Define the number of dimensions:
int64_t ndims = 2;

// Define the array shape:
int64_t shape[] = { 2, 2 };

// Define the strides:
int64_t sx[] = { 32, 16 };

// Define the index offset:
int64_t ox = 0;

// Define the array order:
enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

// Specify the index mode:
enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

// Specify the subscript index modes:
int8_t submodes[] = { imode };
int64_t nsubmodes = 1;

// Create an output ndarray:
struct ndarray *x = stdlib_ndarray_allocate( xdtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
if ( x == NULL ) {
    fprintf( stderr, "Error allocating memory.\n" );
    exit( EXIT_FAILURE );
}

// Create an array containing a pointer to the ndarray:
struct ndarray *arrays[] = { x };

// Define a callback:
static uint32_t fcn( void ) {
    return 10;
}

// Apply the callback:
int8_t status = stdlib_ndarray_z_as_u( arrays, (void *)fcn );
if ( status != 0 ) {
    fprintf( stderr, "Error during computation.\n" );
    exit( EXIT_FAILURE );
}

// ...

// Free allocated memory:
stdlib_ndarray_free( x );

The function accepts the following arguments:

arrays: [inout] struct ndarray** array whose only element is a pointer to an output ndarray.
fcn: [in] void* a uint32_t (*f)() function to apply provided as a void pointer.

int8_t stdlib_ndarray_z_as_u( struct ndarray *arrays[], void *fcn );

Examples

#include "stdlib/ndarray/base/nullary.h"
#include "stdlib/ndarray/dtypes.h"
#include "stdlib/ndarray/index_modes.h"
#include "stdlib/ndarray/orders.h"
#include "stdlib/ndarray/ctor.h"
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>
#include <inttypes.h>

static void print_ndarray_contents( const struct ndarray *x ) {
    int64_t i;
    int8_t s;
    double v;

    for ( i = 0; i < stdlib_ndarray_length( x ); i++ ) {
        s = stdlib_ndarray_iget_float64( x, i, &v );
        if ( s != 0 ) {
            fprintf( stderr, "Unable to resolve data element.\n" );
            exit( EXIT_FAILURE );
        }
        fprintf( stdout, "data[%"PRId64"] = %lf\n", i, v );
    }
}

static double fcn( void ) {
    return 10.0;
}

int main( void ) {
    // Define the ndarray data type:
    enum STDLIB_NDARRAY_DTYPE dtype = STDLIB_NDARRAY_FLOAT64;

    // Create an underlying byte array:
    uint8_t xbuf[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };

    // Define the number of dimensions:
    int64_t ndims = 3;

    // Define the array shape:
    int64_t shape[] = { 2, 2, 2 };

    // Define the strides:
    int64_t sx[] = { 32, 16, 8 };

    // Define the offset:
    int64_t ox = 0;

    // Define the array order:
    enum STDLIB_NDARRAY_ORDER order = STDLIB_NDARRAY_ROW_MAJOR;

    // Specify the index mode:
    enum STDLIB_NDARRAY_INDEX_MODE imode = STDLIB_NDARRAY_INDEX_ERROR;

    // Specify the subscript index modes:
    int8_t submodes[] = { imode };
    int64_t nsubmodes = 1;

    // Create an output ndarray:
    struct ndarray *x = stdlib_ndarray_allocate( dtype, xbuf, ndims, shape, sx, ox, order, imode, nsubmodes, submodes );
    if ( x == NULL ) {
        fprintf( stderr, "Error allocating memory.\n" );
        exit( EXIT_FAILURE );
    }

    // Define an array containing a pointer to the ndarray:
    struct ndarray *arrays[] = { x };

    // Apply the callback:
    int8_t status = stdlib_ndarray_d( arrays, (void *)fcn );
    if ( status != 0 ) {
        fprintf( stderr, "Error during computation.\n" );
        exit( EXIT_FAILURE );
    }

    // Print the results:
    print_ndarray_contents( x );
    fprintf( stdout, "\n" );

    // Free allocated memory:
    stdlib_ndarray_free( x );
}

Nullary

Usage

nullary( arrays, fcn )

Notes

Examples

C APIs

Usage

stdlib_ndarray_b( *arrays[], *fcn )

stdlib_ndarray_c( *arrays[], *fcn )

stdlib_ndarray_c_as_b( *arrays[], *fcn )

stdlib_ndarray_c_as_f( *arrays[], *fcn )

stdlib_ndarray_c_as_k( *arrays[], *fcn )

stdlib_ndarray_c_as_s( *arrays[], *fcn )

stdlib_ndarray_c_as_t( *arrays[], *fcn )

stdlib_ndarray_c_as_z( *arrays[], *fcn )

stdlib_ndarray_d( *arrays[], *fcn )

stdlib_ndarray_d_as_b( *arrays[], *fcn )

stdlib_ndarray_d_as_f( *arrays[], *fcn )

stdlib_ndarray_d_as_i( *arrays[], *fcn )

stdlib_ndarray_d_as_k( *arrays[], *fcn )

stdlib_ndarray_d_as_s( *arrays[], *fcn )

stdlib_ndarray_d_as_t( *arrays[], *fcn )

stdlib_ndarray_d_as_u( *arrays[], *fcn )

stdlib_ndarray_f( *arrays[], *fcn )

stdlib_ndarray_f_as_b( *arrays[], *fcn )

stdlib_ndarray_f_as_d( *arrays[], *fcn )

stdlib_ndarray_f_as_k( *arrays[], *fcn )

stdlib_ndarray_f_as_s( *arrays[], *fcn )

stdlib_ndarray_f_as_t( *arrays[], *fcn )

stdlib_ndarray_i( *arrays[], *fcn )

stdlib_ndarray_i_as_b( *arrays[], *fcn )

stdlib_ndarray_i_as_k( *arrays[], *fcn )

stdlib_ndarray_i_as_s( *arrays[], *fcn )

stdlib_ndarray_i_as_t( *arrays[], *fcn )

stdlib_ndarray_k( *arrays[], *fcn )

stdlib_ndarray_k_as_b( *arrays[], *fcn )

stdlib_ndarray_k_as_s( *arrays[], *fcn )

stdlib_ndarray_s( *arrays[], *fcn )

stdlib_ndarray_t( *arrays[], *fcn )

stdlib_ndarray_t_as_b( *arrays[], *fcn )

stdlib_ndarray_u( *arrays[], *fcn )

stdlib_ndarray_u_as_b( *arrays[], *fcn )

stdlib_ndarray_u_as_t( *arrays[], *fcn )

stdlib_ndarray_x( *arrays[], *fcn )

stdlib_ndarray_z( *arrays[], *fcn )

stdlib_ndarray_z_as_b( *arrays[], *fcn )

stdlib_ndarray_z_as_c( *arrays[], *fcn )

stdlib_ndarray_z_as_d( *arrays[], *fcn )

stdlib_ndarray_z_as_f( *arrays[], *fcn )

stdlib_ndarray_z_as_i( *arrays[], *fcn )

stdlib_ndarray_z_as_k( *arrays[], *fcn )

stdlib_ndarray_z_as_s( *arrays[], *fcn )

stdlib_ndarray_z_as_t( *arrays[], *fcn )

stdlib_ndarray_z_as_u( *arrays[], *fcn )

Examples

stdlib_ndarray_b( arrays[], fcn )

stdlib_ndarray_c( arrays[], fcn )

stdlib_ndarray_c_as_b( arrays[], fcn )

stdlib_ndarray_c_as_f( arrays[], fcn )

stdlib_ndarray_c_as_k( arrays[], fcn )

stdlib_ndarray_c_as_s( arrays[], fcn )

stdlib_ndarray_c_as_t( arrays[], fcn )

stdlib_ndarray_c_as_z( arrays[], fcn )

stdlib_ndarray_d( arrays[], fcn )

stdlib_ndarray_d_as_b( arrays[], fcn )

stdlib_ndarray_d_as_f( arrays[], fcn )

stdlib_ndarray_d_as_i( arrays[], fcn )

stdlib_ndarray_d_as_k( arrays[], fcn )

stdlib_ndarray_d_as_s( arrays[], fcn )

stdlib_ndarray_d_as_t( arrays[], fcn )

stdlib_ndarray_d_as_u( arrays[], fcn )

stdlib_ndarray_f( arrays[], fcn )

stdlib_ndarray_f_as_b( arrays[], fcn )

stdlib_ndarray_f_as_d( arrays[], fcn )

stdlib_ndarray_f_as_k( arrays[], fcn )

stdlib_ndarray_f_as_s( arrays[], fcn )

stdlib_ndarray_f_as_t( arrays[], fcn )

stdlib_ndarray_i( arrays[], fcn )

stdlib_ndarray_i_as_b( arrays[], fcn )

stdlib_ndarray_i_as_k( arrays[], fcn )

stdlib_ndarray_i_as_s( arrays[], fcn )

stdlib_ndarray_i_as_t( arrays[], fcn )

stdlib_ndarray_k( arrays[], fcn )

stdlib_ndarray_k_as_b( arrays[], fcn )

stdlib_ndarray_k_as_s( arrays[], fcn )

stdlib_ndarray_s( arrays[], fcn )

stdlib_ndarray_t( arrays[], fcn )

stdlib_ndarray_t_as_b( arrays[], fcn )

stdlib_ndarray_u( arrays[], fcn )

stdlib_ndarray_u_as_b( arrays[], fcn )

stdlib_ndarray_u_as_t( arrays[], fcn )

stdlib_ndarray_x( arrays[], fcn )

stdlib_ndarray_z( arrays[], fcn )

stdlib_ndarray_z_as_b( arrays[], fcn )

stdlib_ndarray_z_as_c( arrays[], fcn )

stdlib_ndarray_z_as_d( arrays[], fcn )

stdlib_ndarray_z_as_f( arrays[], fcn )

stdlib_ndarray_z_as_i( arrays[], fcn )

stdlib_ndarray_z_as_k( arrays[], fcn )

stdlib_ndarray_z_as_s( arrays[], fcn )

stdlib_ndarray_z_as_t( arrays[], fcn )

stdlib_ndarray_z_as_u( arrays[], fcn )