module Array3: sig .. end
Three-dimensional arrays. The Array3
structure provides operations
similar to those of Bigarray.Genarray
, but specialized to the case
of three-dimensional arrays.
type t('a, 'b, 'c);
The type of three-dimensional Bigarrays whose elements have
OCaml type 'a
, representation kind 'b
, and memory layout 'c
.
let create:
(Bigarray.kind('a, 'b), Bigarray.layout('c), int, int, int) =>
t('a, 'b, 'c);
Array3.create kind layout dim1 dim2 dim3
returns a new Bigarray of
three dimensions, whose size is dim1
in the first dimension,
dim2
in the second dimension, and dim3
in the third.
kind
and layout
determine the array element kind and
the array layout as described for Bigarray.Genarray.create
.
let init:
(
Bigarray.kind('a, 'b),
Bigarray.layout('c),
int,
int,
int,
(int, int, int) => 'a
) =>
t('a, 'b, 'c);
Array3.init kind layout dim1 dim2 dim3 f
returns a new Bigarray b
of three dimensions, whose size is dim1
in the first dimension,
dim2
in the second dimension, and dim3
in the third.
kind
and layout
determine the array element kind and the array
layout as described for Bigarray.Genarray.create
.
Each element Array3.get b i j k
of the array is initialized to
the result of f i j k
.
In other words, Array3.init kind layout dim1 dim2 dim3 f
tabulates
the results of f
applied to the indices of a new Bigarray whose
layout is described by kind
, layout
, dim1
, dim2
and dim3
.
let dim1: t('a, 'b, 'c) => int;
Return the first dimension of the given three-dimensional Bigarray.
let dim2: t('a, 'b, 'c) => int;
Return the second dimension of the given three-dimensional Bigarray.
let dim3: t('a, 'b, 'c) => int;
Return the third dimension of the given three-dimensional Bigarray.
let kind: t('a, 'b, 'c) => Bigarray.kind('a, 'b);
Return the kind of the given Bigarray.
let layout: t('a, 'b, 'c) => Bigarray.layout('c);
Return the layout of the given Bigarray.
let change_layout: (t('a, 'b, 'c), Bigarray.layout('d)) => t('a, 'b, 'd);
Array3.change_layout a layout
returns a Bigarray with the
specified layout
, sharing the data with a
(and hence having
the same dimensions as a
). No copying of elements is involved: the
new array and the original array share the same storage space.
The dimensions are reversed, such that get v [| a; b; c |]
in
C layout becomes get v [| c+1; b+1; a+1 |]
in Fortran layout.
let size_in_bytes: t('a, 'b, 'c) => int;
size_in_bytes a
is the number of elements in a
multiplied by a
's Bigarray.kind_size_in_bytes
.
let get: (t('a, 'b, 'c), int, int, int) => 'a;
Array3.get a x y z
, also written a.{x,y,z}
,
returns the element of a
at coordinates (x
, y
, z
).
x
, y
and z
must be within the bounds of a
,
as described for Bigarray.Genarray.get
;
otherwise, Invalid_argument
is raised.
let set: (t('a, 'b, 'c), int, int, int, 'a) => unit;
Array3.set a x y v
, or alternatively a.{x,y,z} <- v
,
stores the value v
at coordinates (x
, y
, z
) in a
.
x
, y
and z
must be within the bounds of a
,
as described for Bigarray.Genarray.set
;
otherwise, Invalid_argument
is raised.
let sub_left:
(t('a, 'b, Bigarray.c_layout), int, int) => t('a, 'b, Bigarray.c_layout);
Extract a three-dimensional sub-array of the given
three-dimensional Bigarray by restricting the first dimension.
See Bigarray.Genarray.sub_left
for more details. Array3.sub_left
applies only to arrays with C layout.
let sub_right:
(t('a, 'b, Bigarray.fortran_layout), int, int) =>
t('a, 'b, Bigarray.fortran_layout);
Extract a three-dimensional sub-array of the given
three-dimensional Bigarray by restricting the second dimension.
See Bigarray.Genarray.sub_right
for more details. Array3.sub_right
applies only to arrays with Fortran layout.
let slice_left_1:
(t('a, 'b, Bigarray.c_layout), int, int) =>
Bigarray.Array1.t('a, 'b, Bigarray.c_layout);
Extract a one-dimensional slice of the given three-dimensional
Bigarray by fixing the first two coordinates.
The integer parameters are the coordinates of the slice to
extract. See Bigarray.Genarray.slice_left
for more details.
Array3.slice_left_1
applies only to arrays with C layout.
let slice_right_1:
(t('a, 'b, Bigarray.fortran_layout), int, int) =>
Bigarray.Array1.t('a, 'b, Bigarray.fortran_layout);
Extract a one-dimensional slice of the given three-dimensional
Bigarray by fixing the last two coordinates.
The integer parameters are the coordinates of the slice to
extract. See Bigarray.Genarray.slice_right
for more details.
Array3.slice_right_1
applies only to arrays with Fortran
layout.
let slice_left_2:
(t('a, 'b, Bigarray.c_layout), int) =>
Bigarray.Array2.t('a, 'b, Bigarray.c_layout);
Extract a two-dimensional slice of the given three-dimensional
Bigarray by fixing the first coordinate.
The integer parameter is the first coordinate of the slice to
extract. See Bigarray.Genarray.slice_left
for more details.
Array3.slice_left_2
applies only to arrays with C layout.
let slice_right_2:
(t('a, 'b, Bigarray.fortran_layout), int) =>
Bigarray.Array2.t('a, 'b, Bigarray.fortran_layout);
Extract a two-dimensional slice of the given
three-dimensional Bigarray by fixing the last coordinate.
The integer parameter is the coordinate of the slice
to extract. See Bigarray.Genarray.slice_right
for more details.
Array3.slice_right_2
applies only to arrays with Fortran
layout.
let blit: (t('a, 'b, 'c), t('a, 'b, 'c)) => unit;
Copy the first Bigarray to the second Bigarray.
See Bigarray.Genarray.blit
for more details.
let fill: (t('a, 'b, 'c), 'a) => unit;
Fill the given Bigarray with the given value.
See Bigarray.Genarray.fill
for more details.
let of_array:
(Bigarray.kind('a, 'b), Bigarray.layout('c), array(array(array('a)))) =>
t('a, 'b, 'c);
Build a three-dimensional Bigarray initialized from the given array of arrays of arrays.
let unsafe_get: (t('a, 'b, 'c), int, int, int) => 'a;
Like Bigarray.Array3.get
, but bounds checking is not always
performed.
let unsafe_set: (t('a, 'b, 'c), int, int, int, 'a) => unit;
Like Bigarray.Array3.set
, but bounds checking is not always
performed.