768 lines
34 KiB
OCaml
768 lines
34 KiB
OCaml
(***********************************************************************)
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(* *)
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(* Objective Caml *)
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(* *)
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(* Manuel Serrano and Xavier Leroy, INRIA Rocquencourt *)
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(* *)
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(* Copyright 2000 Institut National de Recherche en Informatique et *)
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(* en Automatique. All rights reserved. This file is distributed *)
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(* under the terms of the GNU Library General Public License, with *)
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(* the special exception on linking described in file ../../LICENSE. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(** Large, multi-dimensional, numerical arrays.
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This module implements multi-dimensional arrays of integers and
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floating-point numbers, thereafter referred to as ``big arrays''.
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The implementation allows efficient sharing of large numerical
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arrays between Caml code and C or Fortran numerical libraries.
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Concerning the naming conventions, users of this module are encouraged
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to do [open Bigarray] in their source, then refer to array types and
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operations via short dot notation, e.g. [Array1.t] or [Array2.sub].
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Big arrays support all the Caml ad-hoc polymorphic operations:
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- comparisons ([=], [<>], [<=], etc, as well as {!Pervasives.compare});
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- hashing (module [Hash]);
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- and structured input-output ({!Pervasives.output_value}
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and {!Pervasives.input_value}, as well as the functions from the
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{!Marshal} module).
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*)
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(** {6 Element kinds} *)
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(** Big arrays can contain elements of the following kinds:
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- IEEE single precision (32 bits) floating-point numbers
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({!Bigarray.float32_elt}),
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- IEEE double precision (64 bits) floating-point numbers
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({!Bigarray.float64_elt}),
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- IEEE single precision (2 * 32 bits) floating-point complex numbers
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({!Bigarray.complex32_elt}),
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- IEEE double precision (2 * 64 bits) floating-point complex numbers
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({!Bigarray.complex64_elt}),
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- 8-bit integers (signed or unsigned)
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({!Bigarray.int8_signed_elt} or {!Bigarray.int8_unsigned_elt}),
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- 16-bit integers (signed or unsigned)
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({!Bigarray.int16_signed_elt} or {!Bigarray.int16_unsigned_elt}),
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- Caml integers (signed, 31 bits on 32-bit architectures,
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63 bits on 64-bit architectures) ({!Bigarray.int_elt}),
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- 32-bit signed integer ({!Bigarray.int32_elt}),
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- 64-bit signed integers ({!Bigarray.int64_elt}),
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- platform-native signed integers (32 bits on 32-bit architectures,
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64 bits on 64-bit architectures) ({!Bigarray.nativeint_elt}).
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Each element kind is represented at the type level by one
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of the abstract types defined below.
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*)
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type float32_elt
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type float64_elt
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type complex32_elt
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type complex64_elt
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type int8_signed_elt
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type int8_unsigned_elt
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type int16_signed_elt
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type int16_unsigned_elt
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type int_elt
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type int32_elt
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type int64_elt
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type nativeint_elt
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type ('a, 'b) kind
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(** To each element kind is associated a Caml type, which is
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the type of Caml values that can be stored in the big array
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or read back from it. This type is not necessarily the same
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as the type of the array elements proper: for instance,
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a big array whose elements are of kind [float32_elt] contains
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32-bit single precision floats, but reading or writing one of
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its elements from Caml uses the Caml type [float], which is
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64-bit double precision floats.
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The abstract type [('a, 'b) kind] captures this association
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of a Caml type ['a] for values read or written in the big array,
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and of an element kind ['b] which represents the actual contents
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of the big array. The following predefined values of type
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[kind] list all possible associations of Caml types with
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element kinds: *)
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val float32 : (float, float32_elt) kind
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(** See {!Bigarray.char}. *)
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val float64 : (float, float64_elt) kind
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(** See {!Bigarray.char}. *)
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val complex32 : (Complex.t, complex32_elt) kind
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(** See {!Bigarray.char}. *)
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val complex64 : (Complex.t, complex64_elt) kind
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(** See {!Bigarray.char}. *)
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val int8_signed : (int, int8_signed_elt) kind
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(** See {!Bigarray.char}. *)
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val int8_unsigned : (int, int8_unsigned_elt) kind
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(** See {!Bigarray.char}. *)
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val int16_signed : (int, int16_signed_elt) kind
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(** See {!Bigarray.char}. *)
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val int16_unsigned : (int, int16_unsigned_elt) kind
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(** See {!Bigarray.char}. *)
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val int : (int, int_elt) kind
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(** See {!Bigarray.char}. *)
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val int32 : (int32, int32_elt) kind
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(** See {!Bigarray.char}. *)
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val int64 : (int64, int64_elt) kind
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(** See {!Bigarray.char}. *)
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val nativeint : (nativeint, nativeint_elt) kind
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(** See {!Bigarray.char}. *)
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val char : (char, int8_unsigned_elt) kind
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(** As shown by the types of the values above,
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big arrays of kind [float32_elt] and [float64_elt] are
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accessed using the Caml type [float]. Big arrays of complex kinds
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[complex32_elt], [complex64_elt] are accessed with the Caml type
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{!Complex.t}. Big arrays of
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integer kinds are accessed using the smallest Caml integer
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type large enough to represent the array elements:
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[int] for 8- and 16-bit integer bigarrays, as well as Caml-integer
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bigarrays; [int32] for 32-bit integer bigarrays; [int64]
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for 64-bit integer bigarrays; and [nativeint] for
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platform-native integer bigarrays. Finally, big arrays of
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kind [int8_unsigned_elt] can also be accessed as arrays of
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characters instead of arrays of small integers, by using
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the kind value [char] instead of [int8_unsigned]. *)
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(** {6 Array layouts} *)
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type c_layout
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(** See {!Bigarray.fortran_layout}.*)
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type fortran_layout
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(** To facilitate interoperability with existing C and Fortran code,
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this library supports two different memory layouts for big arrays,
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one compatible with the C conventions,
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the other compatible with the Fortran conventions.
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In the C-style layout, array indices start at 0, and
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multi-dimensional arrays are laid out in row-major format.
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That is, for a two-dimensional array, all elements of
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row 0 are contiguous in memory, followed by all elements of
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row 1, etc. In other terms, the array elements at [(x,y)]
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and [(x, y+1)] are adjacent in memory.
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In the Fortran-style layout, array indices start at 1, and
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multi-dimensional arrays are laid out in column-major format.
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That is, for a two-dimensional array, all elements of
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column 0 are contiguous in memory, followed by all elements of
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column 1, etc. In other terms, the array elements at [(x,y)]
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and [(x+1, y)] are adjacent in memory.
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Each layout style is identified at the type level by the
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abstract types {!Bigarray.c_layout} and [fortran_layout] respectively. *)
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type 'a layout
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(** The type ['a layout] represents one of the two supported
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memory layouts: C-style if ['a] is {!Bigarray.c_layout}, Fortran-style
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if ['a] is {!Bigarray.fortran_layout}. *)
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(** {7 Supported layouts}
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The abstract values [c_layout] and [fortran_layout] represent
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the two supported layouts at the level of values.
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*)
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val c_layout : c_layout layout
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val fortran_layout : fortran_layout layout
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(** {6 Generic arrays (of arbitrarily many dimensions)} *)
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module Genarray :
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sig
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type ('a, 'b, 'c) t
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(** The type [Genarray.t] is the type of big arrays with variable
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numbers of dimensions. Any number of dimensions between 1 and 16
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is supported.
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The three type parameters to [Genarray.t] identify the array element
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kind and layout, as follows:
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- the first parameter, ['a], is the Caml type for accessing array
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elements ([float], [int], [int32], [int64], [nativeint]);
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- the second parameter, ['b], is the actual kind of array elements
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([float32_elt], [float64_elt], [int8_signed_elt], [int8_unsigned_elt],
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etc);
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- the third parameter, ['c], identifies the array layout
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([c_layout] or [fortran_layout]).
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For instance, [(float, float32_elt, fortran_layout) Genarray.t]
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is the type of generic big arrays containing 32-bit floats
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in Fortran layout; reads and writes in this array use the
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Caml type [float]. *)
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external create: ('a, 'b) kind -> 'c layout -> int array -> ('a, 'b, 'c) t
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= "caml_ba_create"
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(** [Genarray.create kind layout dimensions] returns a new big array
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whose element kind is determined by the parameter [kind] (one of
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[float32], [float64], [int8_signed], etc) and whose layout is
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determined by the parameter [layout] (one of [c_layout] or
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[fortran_layout]). The [dimensions] parameter is an array of
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integers that indicate the size of the big array in each dimension.
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The length of [dimensions] determines the number of dimensions
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of the bigarray.
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For instance, [Genarray.create int32 c_layout [|4;6;8|]]
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returns a fresh big array of 32-bit integers, in C layout,
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having three dimensions, the three dimensions being 4, 6 and 8
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respectively.
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Big arrays returned by [Genarray.create] are not initialized:
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the initial values of array elements is unspecified.
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[Genarray.create] raises [Invalid_arg] if the number of dimensions
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is not in the range 1 to 16 inclusive, or if one of the dimensions
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is negative. *)
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external num_dims: ('a, 'b, 'c) t -> int = "caml_ba_num_dims"
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(** Return the number of dimensions of the given big array. *)
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val dims : ('a, 'b, 'c) t -> int array
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(** [Genarray.dims a] returns all dimensions of the big array [a],
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as an array of integers of length [Genarray.num_dims a]. *)
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external nth_dim: ('a, 'b, 'c) t -> int -> int = "caml_ba_dim"
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(** [Genarray.nth_dim a n] returns the [n]-th dimension of the
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big array [a]. The first dimension corresponds to [n = 0];
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the second dimension corresponds to [n = 1]; the last dimension,
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to [n = Genarray.num_dims a - 1].
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Raise [Invalid_arg] if [n] is less than 0 or greater or equal than
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[Genarray.num_dims a]. *)
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external kind: ('a, 'b, 'c) t -> ('a, 'b) kind = "caml_ba_kind"
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(** Return the kind of the given big array. *)
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external layout: ('a, 'b, 'c) t -> 'c layout = "caml_ba_layout"
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(** Return the layout of the given big array. *)
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external get: ('a, 'b, 'c) t -> int array -> 'a = "caml_ba_get_generic"
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(** Read an element of a generic big array.
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[Genarray.get a [|i1; ...; iN|]] returns the element of [a]
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whose coordinates are [i1] in the first dimension, [i2] in
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the second dimension, ..., [iN] in the [N]-th dimension.
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If [a] has C layout, the coordinates must be greater or equal than 0
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and strictly less than the corresponding dimensions of [a].
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If [a] has Fortran layout, the coordinates must be greater or equal
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than 1 and less or equal than the corresponding dimensions of [a].
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Raise [Invalid_arg] if the array [a] does not have exactly [N]
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dimensions, or if the coordinates are outside the array bounds.
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If [N > 3], alternate syntax is provided: you can write
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[a.{i1, i2, ..., iN}] instead of [Genarray.get a [|i1; ...; iN|]].
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(The syntax [a.{...}] with one, two or three coordinates is
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reserved for accessing one-, two- and three-dimensional arrays
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as described below.) *)
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external set: ('a, 'b, 'c) t -> int array -> 'a -> unit
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= "caml_ba_set_generic"
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(** Assign an element of a generic big array.
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[Genarray.set a [|i1; ...; iN|] v] stores the value [v] in the
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element of [a] whose coordinates are [i1] in the first dimension,
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[i2] in the second dimension, ..., [iN] in the [N]-th dimension.
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The array [a] must have exactly [N] dimensions, and all coordinates
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must lie inside the array bounds, as described for [Genarray.get];
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otherwise, [Invalid_arg] is raised.
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If [N > 3], alternate syntax is provided: you can write
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[a.{i1, i2, ..., iN} <- v] instead of
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[Genarray.set a [|i1; ...; iN|] v].
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(The syntax [a.{...} <- v] with one, two or three coordinates is
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reserved for updating one-, two- and three-dimensional arrays
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as described below.) *)
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external sub_left: ('a, 'b, c_layout) t -> int -> int -> ('a, 'b, c_layout) t
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= "caml_ba_sub"
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(** Extract a sub-array of the given big array by restricting the
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first (left-most) dimension. [Genarray.sub_left a ofs len]
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returns a big array with the same number of dimensions as [a],
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and the same dimensions as [a], except the first dimension,
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which corresponds to the interval [[ofs ... ofs + len - 1]]
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of the first dimension of [a]. No copying of elements is
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involved: the sub-array and the original array share the same
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storage space. In other terms, the element at coordinates
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[[|i1; ...; iN|]] of the sub-array is identical to the
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element at coordinates [[|i1+ofs; ...; iN|]] of the original
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array [a].
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[Genarray.sub_left] applies only to big arrays in C layout.
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Raise [Invalid_arg] if [ofs] and [len] do not designate
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a valid sub-array of [a], that is, if [ofs < 0], or [len < 0],
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or [ofs + len > Genarray.nth_dim a 0]. *)
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external sub_right:
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('a, 'b, fortran_layout) t -> int -> int -> ('a, 'b, fortran_layout) t
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= "caml_ba_sub"
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(** Extract a sub-array of the given big array by restricting the
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last (right-most) dimension. [Genarray.sub_right a ofs len]
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returns a big array with the same number of dimensions as [a],
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and the same dimensions as [a], except the last dimension,
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which corresponds to the interval [[ofs ... ofs + len - 1]]
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of the last dimension of [a]. No copying of elements is
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involved: the sub-array and the original array share the same
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storage space. In other terms, the element at coordinates
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[[|i1; ...; iN|]] of the sub-array is identical to the
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element at coordinates [[|i1; ...; iN+ofs|]] of the original
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array [a].
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[Genarray.sub_right] applies only to big arrays in Fortran layout.
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Raise [Invalid_arg] if [ofs] and [len] do not designate
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a valid sub-array of [a], that is, if [ofs < 1], or [len < 0],
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or [ofs + len > Genarray.nth_dim a (Genarray.num_dims a - 1)]. *)
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external slice_left:
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('a, 'b, c_layout) t -> int array -> ('a, 'b, c_layout) t
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= "caml_ba_slice"
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(** Extract a sub-array of lower dimension from the given big array
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by fixing one or several of the first (left-most) coordinates.
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[Genarray.slice_left a [|i1; ... ; iM|]] returns the ``slice''
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of [a] obtained by setting the first [M] coordinates to
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[i1], ..., [iM]. If [a] has [N] dimensions, the slice has
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dimension [N - M], and the element at coordinates
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[[|j1; ...; j(N-M)|]] in the slice is identical to the element
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at coordinates [[|i1; ...; iM; j1; ...; j(N-M)|]] in the original
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array [a]. No copying of elements is involved: the slice and
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the original array share the same storage space.
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[Genarray.slice_left] applies only to big arrays in C layout.
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Raise [Invalid_arg] if [M >= N], or if [[|i1; ... ; iM|]]
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is outside the bounds of [a]. *)
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external slice_right:
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('a, 'b, fortran_layout) t -> int array -> ('a, 'b, fortran_layout) t
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= "caml_ba_slice"
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(** Extract a sub-array of lower dimension from the given big array
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by fixing one or several of the last (right-most) coordinates.
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[Genarray.slice_right a [|i1; ... ; iM|]] returns the ``slice''
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of [a] obtained by setting the last [M] coordinates to
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[i1], ..., [iM]. If [a] has [N] dimensions, the slice has
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dimension [N - M], and the element at coordinates
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[[|j1; ...; j(N-M)|]] in the slice is identical to the element
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at coordinates [[|j1; ...; j(N-M); i1; ...; iM|]] in the original
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array [a]. No copying of elements is involved: the slice and
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the original array share the same storage space.
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[Genarray.slice_right] applies only to big arrays in Fortran layout.
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Raise [Invalid_arg] if [M >= N], or if [[|i1; ... ; iM|]]
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is outside the bounds of [a]. *)
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external blit: ('a, 'b, 'c) t -> ('a, 'b, 'c) t -> unit
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= "caml_ba_blit"
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(** Copy all elements of a big array in another big array.
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[Genarray.blit src dst] copies all elements of [src] into
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[dst]. Both arrays [src] and [dst] must have the same number of
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dimensions and equal dimensions. Copying a sub-array of [src]
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to a sub-array of [dst] can be achieved by applying [Genarray.blit]
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to sub-array or slices of [src] and [dst]. *)
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external fill: ('a, 'b, 'c) t -> 'a -> unit = "caml_ba_fill"
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(** Set all elements of a big array to a given value.
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[Genarray.fill a v] stores the value [v] in all elements of
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the big array [a]. Setting only some elements of [a] to [v]
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can be achieved by applying [Genarray.fill] to a sub-array
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or a slice of [a]. *)
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val map_file:
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Unix.file_descr -> ?pos:int64 -> ('a, 'b) kind -> 'c layout ->
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bool -> int array -> ('a, 'b, 'c) t
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(** Memory mapping of a file as a big array.
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[Genarray.map_file fd kind layout shared dims]
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returns a big array of kind [kind], layout [layout],
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and dimensions as specified in [dims]. The data contained in
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this big array are the contents of the file referred to by
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the file descriptor [fd] (as opened previously with
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[Unix.openfile], for example). The optional [pos] parameter
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is the byte offset in the file of the data being mapped;
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it defaults to 0 (map from the beginning of the file).
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If [shared] is [true], all modifications performed on the array
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are reflected in the file. This requires that [fd] be opened
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with write permissions. If [shared] is [false], modifications
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performed on the array are done in memory only, using
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copy-on-write of the modified pages; the underlying file is not
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affected.
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[Genarray.map_file] is much more efficient than reading
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the whole file in a big array, modifying that big array,
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and writing it afterwards.
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To adjust automatically the dimensions of the big array to
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the actual size of the file, the major dimension (that is,
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the first dimension for an array with C layout, and the last
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dimension for an array with Fortran layout) can be given as
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[-1]. [Genarray.map_file] then determines the major dimension
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from the size of the file. The file must contain an integral
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number of sub-arrays as determined by the non-major dimensions,
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otherwise [Failure] is raised.
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If all dimensions of the big array are given, the file size is
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matched against the size of the big array. If the file is larger
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than the big array, only the initial portion of the file is
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mapped to the big array. If the file is smaller than the big
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array, the file is automatically grown to the size of the big array.
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This requires write permissions on [fd]. *)
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end
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(** {6 One-dimensional arrays} *)
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(** One-dimensional arrays. The [Array1] structure provides operations
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similar to those of
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{!Bigarray.Genarray}, but specialized to the case of one-dimensional arrays.
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(The [Array2] and [Array3] structures below provide operations
|
|
specialized for two- and three-dimensional arrays.)
|
|
Statically knowing the number of dimensions of the array allows
|
|
faster operations, and more precise static type-checking. *)
|
|
module Array1 : sig
|
|
type ('a, 'b, 'c) t
|
|
(** The type of one-dimensional big arrays whose elements have
|
|
Caml type ['a], representation kind ['b], and memory layout ['c]. *)
|
|
|
|
val create: ('a, 'b) kind -> 'c layout -> int -> ('a, 'b, 'c) t
|
|
(** [Array1.create kind layout dim] returns a new bigarray of
|
|
one dimension, whose size is [dim]. [kind] and [layout]
|
|
determine the array element kind and the array layout
|
|
as described for [Genarray.create]. *)
|
|
|
|
val dim: ('a, 'b, 'c) t -> int
|
|
(** Return the size (dimension) of the given one-dimensional
|
|
big array. *)
|
|
|
|
external kind: ('a, 'b, 'c) t -> ('a, 'b) kind = "caml_ba_kind"
|
|
(** Return the kind of the given big array. *)
|
|
|
|
external layout: ('a, 'b, 'c) t -> 'c layout = "caml_ba_layout"
|
|
(** Return the layout of the given big array. *)
|
|
|
|
external get: ('a, 'b, 'c) t -> int -> 'a = "%caml_ba_ref_1"
|
|
(** [Array1.get a x], or alternatively [a.{x}],
|
|
returns the element of [a] at index [x].
|
|
[x] must be greater or equal than [0] and strictly less than
|
|
[Array1.dim a] if [a] has C layout. If [a] has Fortran layout,
|
|
[x] must be greater or equal than [1] and less or equal than
|
|
[Array1.dim a]. Otherwise, [Invalid_arg] is raised. *)
|
|
|
|
external set: ('a, 'b, 'c) t -> int -> 'a -> unit = "%caml_ba_set_1"
|
|
(** [Array1.set a x v], also written [a.{x} <- v],
|
|
stores the value [v] at index [x] in [a].
|
|
[x] must be inside the bounds of [a] as described in
|
|
{!Bigarray.Array1.get};
|
|
otherwise, [Invalid_arg] is raised. *)
|
|
|
|
external sub: ('a, 'b, 'c) t -> int -> int -> ('a, 'b, 'c) t
|
|
= "caml_ba_sub"
|
|
(** Extract a sub-array of the given one-dimensional big array.
|
|
See [Genarray.sub_left] for more details. *)
|
|
|
|
external blit: ('a, 'b, 'c) t -> ('a, 'b, 'c) t -> unit
|
|
= "caml_ba_blit"
|
|
(** Copy the first big array to the second big array.
|
|
See [Genarray.blit] for more details. *)
|
|
|
|
external fill: ('a, 'b, 'c) t -> 'a -> unit = "caml_ba_fill"
|
|
(** Fill the given big array with the given value.
|
|
See [Genarray.fill] for more details. *)
|
|
|
|
val of_array: ('a, 'b) kind -> 'c layout -> 'a array -> ('a, 'b, 'c) t
|
|
(** Build a one-dimensional big array initialized from the
|
|
given array. *)
|
|
|
|
val map_file: Unix.file_descr -> ?pos:int64 -> ('a, 'b) kind -> 'c layout ->
|
|
bool -> int -> ('a, 'b, 'c) t
|
|
(** Memory mapping of a file as a one-dimensional big array.
|
|
See {!Bigarray.Genarray.map_file} for more details. *)
|
|
end
|
|
|
|
|
|
(** {6 Two-dimensional arrays} *)
|
|
|
|
(** Two-dimensional arrays. The [Array2] structure provides operations
|
|
similar to those of {!Bigarray.Genarray}, but specialized to the
|
|
case of two-dimensional arrays. *)
|
|
module Array2 :
|
|
sig
|
|
type ('a, 'b, 'c) t
|
|
(** The type of two-dimensional big arrays whose elements have
|
|
Caml type ['a], representation kind ['b], and memory layout ['c]. *)
|
|
|
|
val create: ('a, 'b) kind -> 'c layout -> int -> int -> ('a, 'b, 'c) t
|
|
(** [Array2.create kind layout dim1 dim2] returns a new bigarray of
|
|
two dimension, whose size is [dim1] in the first dimension
|
|
and [dim2] in the second dimension. [kind] and [layout]
|
|
determine the array element kind and the array layout
|
|
as described for {!Bigarray.Genarray.create}. *)
|
|
|
|
val dim1: ('a, 'b, 'c) t -> int
|
|
(** Return the first dimension of the given two-dimensional big array. *)
|
|
|
|
val dim2: ('a, 'b, 'c) t -> int
|
|
(** Return the second dimension of the given two-dimensional big array. *)
|
|
|
|
external kind: ('a, 'b, 'c) t -> ('a, 'b) kind = "caml_ba_kind"
|
|
(** Return the kind of the given big array. *)
|
|
|
|
external layout: ('a, 'b, 'c) t -> 'c layout = "caml_ba_layout"
|
|
(** Return the layout of the given big array. *)
|
|
|
|
external get: ('a, 'b, 'c) t -> int -> int -> 'a = "%caml_ba_ref_2"
|
|
(** [Array2.get a x y], also written [a.{x,y}],
|
|
returns the element of [a] at coordinates ([x], [y]).
|
|
[x] and [y] must be within the bounds
|
|
of [a], as described for {!Bigarray.Genarray.get};
|
|
otherwise, [Invalid_arg] is raised. *)
|
|
|
|
external set: ('a, 'b, 'c) t -> int -> int -> 'a -> unit = "%caml_ba_set_2"
|
|
(** [Array2.set a x y v], or alternatively [a.{x,y} <- v],
|
|
stores the value [v] at coordinates ([x], [y]) in [a].
|
|
[x] and [y] must be within the bounds of [a],
|
|
as described for {!Bigarray.Genarray.set};
|
|
otherwise, [Invalid_arg] is raised. *)
|
|
|
|
external sub_left: ('a, 'b, c_layout) t -> int -> int -> ('a, 'b, c_layout) t
|
|
= "caml_ba_sub"
|
|
(** Extract a two-dimensional sub-array of the given two-dimensional
|
|
big array by restricting the first dimension.
|
|
See {!Bigarray.Genarray.sub_left} for more details.
|
|
[Array2.sub_left] applies only to arrays with C layout. *)
|
|
|
|
external sub_right:
|
|
('a, 'b, fortran_layout) t -> int -> int -> ('a, 'b, fortran_layout) t
|
|
= "caml_ba_sub"
|
|
(** Extract a two-dimensional sub-array of the given two-dimensional
|
|
big array by restricting the second dimension.
|
|
See {!Bigarray.Genarray.sub_right} for more details.
|
|
[Array2.sub_right] applies only to arrays with Fortran layout. *)
|
|
|
|
val slice_left: ('a, 'b, c_layout) t -> int -> ('a, 'b, c_layout) Array1.t
|
|
(** Extract a row (one-dimensional slice) of the given two-dimensional
|
|
big array. The integer parameter is the index of the row to
|
|
extract. See {!Bigarray.Genarray.slice_left} for more details.
|
|
[Array2.slice_left] applies only to arrays with C layout. *)
|
|
|
|
val slice_right:
|
|
('a, 'b, fortran_layout) t -> int -> ('a, 'b, fortran_layout) Array1.t
|
|
(** Extract a column (one-dimensional slice) of the given
|
|
two-dimensional big array. The integer parameter is the
|
|
index of the column to extract. See {!Bigarray.Genarray.slice_right}
|
|
for more details. [Array2.slice_right] applies only to arrays
|
|
with Fortran layout. *)
|
|
|
|
external blit: ('a, 'b, 'c) t -> ('a, 'b, 'c) t -> unit
|
|
= "caml_ba_blit"
|
|
(** Copy the first big array to the second big array.
|
|
See {!Bigarray.Genarray.blit} for more details. *)
|
|
|
|
external fill: ('a, 'b, 'c) t -> 'a -> unit = "caml_ba_fill"
|
|
(** Fill the given big array with the given value.
|
|
See {!Bigarray.Genarray.fill} for more details. *)
|
|
|
|
val of_array: ('a, 'b) kind -> 'c layout -> 'a array array -> ('a, 'b, 'c) t
|
|
(** Build a two-dimensional big array initialized from the
|
|
given array of arrays. *)
|
|
|
|
val map_file: Unix.file_descr -> ?pos:int64 -> ('a, 'b) kind -> 'c layout ->
|
|
bool -> int -> int -> ('a, 'b, 'c) t
|
|
(** Memory mapping of a file as a two-dimensional big array.
|
|
See {!Bigarray.Genarray.map_file} for more details. *)
|
|
|
|
end
|
|
|
|
(** {6 Three-dimensional arrays} *)
|
|
|
|
(** Three-dimensional arrays. The [Array3] structure provides operations
|
|
similar to those of {!Bigarray.Genarray}, but specialized to the case
|
|
of three-dimensional arrays. *)
|
|
module Array3 :
|
|
sig
|
|
type ('a, 'b, 'c) t
|
|
(** The type of three-dimensional big arrays whose elements have
|
|
Caml type ['a], representation kind ['b], and memory layout ['c]. *)
|
|
|
|
val create: ('a, 'b) kind -> 'c layout -> int -> int -> int -> ('a, 'b, 'c) t
|
|
(** [Array3.create kind layout dim1 dim2 dim3] returns a new bigarray of
|
|
three dimension, 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}. *)
|
|
|
|
val dim1: ('a, 'b, 'c) t -> int
|
|
(** Return the first dimension of the given three-dimensional big array. *)
|
|
|
|
val dim2: ('a, 'b, 'c) t -> int
|
|
(** Return the second dimension of the given three-dimensional big array. *)
|
|
|
|
val dim3: ('a, 'b, 'c) t -> int
|
|
(** Return the third dimension of the given three-dimensional big array. *)
|
|
|
|
external kind: ('a, 'b, 'c) t -> ('a, 'b) kind = "caml_ba_kind"
|
|
(** Return the kind of the given big array. *)
|
|
|
|
external layout: ('a, 'b, 'c) t -> 'c layout = "caml_ba_layout"
|
|
(** Return the layout of the given big array. *)
|
|
|
|
external get: ('a, 'b, 'c) t -> int -> int -> int -> 'a = "%caml_ba_ref_3"
|
|
(** [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_arg] is raised. *)
|
|
|
|
external set: ('a, 'b, 'c) t -> int -> int -> int -> 'a -> unit
|
|
= "%caml_ba_set_3"
|
|
(** [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_arg] is raised. *)
|
|
|
|
external sub_left: ('a, 'b, c_layout) t -> int -> int -> ('a, 'b, c_layout) t
|
|
= "caml_ba_sub"
|
|
(** Extract a three-dimensional sub-array of the given
|
|
three-dimensional big array by restricting the first dimension.
|
|
See {!Bigarray.Genarray.sub_left} for more details. [Array3.sub_left]
|
|
applies only to arrays with C layout. *)
|
|
|
|
external sub_right:
|
|
('a, 'b, fortran_layout) t -> int -> int -> ('a, 'b, fortran_layout) t
|
|
= "caml_ba_sub"
|
|
(** Extract a three-dimensional sub-array of the given
|
|
three-dimensional big array by restricting the second dimension.
|
|
See {!Bigarray.Genarray.sub_right} for more details. [Array3.sub_right]
|
|
applies only to arrays with Fortran layout. *)
|
|
|
|
val slice_left_1:
|
|
('a, 'b, c_layout) t -> int -> int -> ('a, 'b, c_layout) Array1.t
|
|
(** Extract a one-dimensional slice of the given three-dimensional
|
|
big array 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. *)
|
|
|
|
val slice_right_1:
|
|
('a, 'b, fortran_layout) t ->
|
|
int -> int -> ('a, 'b, fortran_layout) Array1.t
|
|
(** Extract a one-dimensional slice of the given three-dimensional
|
|
big array 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. *)
|
|
|
|
val slice_left_2: ('a, 'b, c_layout) t -> int -> ('a, 'b, c_layout) Array2.t
|
|
(** Extract a two-dimensional slice of the given three-dimensional
|
|
big array 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. *)
|
|
|
|
val slice_right_2:
|
|
('a, 'b, fortran_layout) t -> int -> ('a, 'b, fortran_layout) Array2.t
|
|
(** Extract a two-dimensional slice of the given
|
|
three-dimensional big array 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. *)
|
|
|
|
external blit: ('a, 'b, 'c) t -> ('a, 'b, 'c) t -> unit
|
|
= "caml_ba_blit"
|
|
(** Copy the first big array to the second big array.
|
|
See {!Bigarray.Genarray.blit} for more details. *)
|
|
|
|
external fill: ('a, 'b, 'c) t -> 'a -> unit = "caml_ba_fill"
|
|
(** Fill the given big array with the given value.
|
|
See {!Bigarray.Genarray.fill} for more details. *)
|
|
|
|
val of_array:
|
|
('a, 'b) kind -> 'c layout -> 'a array array array -> ('a, 'b, 'c) t
|
|
(** Build a three-dimensional big array initialized from the
|
|
given array of arrays of arrays. *)
|
|
|
|
val map_file: Unix.file_descr -> ?pos:int64 -> ('a, 'b) kind -> 'c layout ->
|
|
bool -> int -> int -> int -> ('a, 'b, 'c) t
|
|
(** Memory mapping of a file as a three-dimensional big array.
|
|
See {!Bigarray.Genarray.map_file} for more details. *)
|
|
end
|
|
|
|
(** {6 Coercions between generic big arrays and fixed-dimension big arrays} *)
|
|
|
|
external genarray_of_array1 :
|
|
('a, 'b, 'c) Array1.t -> ('a, 'b, 'c) Genarray.t = "%identity"
|
|
(** Return the generic big array corresponding to the given one-dimensional
|
|
big array. *)
|
|
|
|
external genarray_of_array2 :
|
|
('a, 'b, 'c) Array2.t -> ('a, 'b, 'c) Genarray.t = "%identity"
|
|
(** Return the generic big array corresponding to the given two-dimensional
|
|
big array. *)
|
|
|
|
external genarray_of_array3 :
|
|
('a, 'b, 'c) Array3.t -> ('a, 'b, 'c) Genarray.t = "%identity"
|
|
(** Return the generic big array corresponding to the given three-dimensional
|
|
big array. *)
|
|
|
|
val array1_of_genarray : ('a, 'b, 'c) Genarray.t -> ('a, 'b, 'c) Array1.t
|
|
(** Return the one-dimensional big array corresponding to the given
|
|
generic big array. Raise [Invalid_arg] if the generic big array
|
|
does not have exactly one dimension. *)
|
|
|
|
val array2_of_genarray : ('a, 'b, 'c) Genarray.t -> ('a, 'b, 'c) Array2.t
|
|
(** Return the two-dimensional big array corresponding to the given
|
|
generic big array. Raise [Invalid_arg] if the generic big array
|
|
does not have exactly two dimensions. *)
|
|
|
|
val array3_of_genarray : ('a, 'b, 'c) Genarray.t -> ('a, 'b, 'c) Array3.t
|
|
(** Return the three-dimensional big array corresponding to the given
|
|
generic big array. Raise [Invalid_arg] if the generic big array
|
|
does not have exactly three dimensions. *)
|
|
|
|
|
|
(** {6 Re-shaping big arrays} *)
|
|
|
|
val reshape : ('a, 'b, 'c) Genarray.t -> int array -> ('a, 'b, 'c) Genarray.t
|
|
(** [reshape b [|d1;...;dN|]] converts the big array [b] to a
|
|
[N]-dimensional array of dimensions [d1]...[dN]. The returned
|
|
array and the original array [b] share their data
|
|
and have the same layout. For instance, assuming that [b]
|
|
is a one-dimensional array of dimension 12, [reshape b [|3;4|]]
|
|
returns a two-dimensional array [b'] of dimensions 3 and 4.
|
|
If [b] has C layout, the element [(x,y)] of [b'] corresponds
|
|
to the element [x * 3 + y] of [b]. If [b] has Fortran layout,
|
|
the element [(x,y)] of [b'] corresponds to the element
|
|
[x + (y - 1) * 4] of [b].
|
|
The returned big array must have exactly the same number of
|
|
elements as the original big array [b]. That is, the product
|
|
of the dimensions of [b] must be equal to [i1 * ... * iN].
|
|
Otherwise, [Invalid_arg] is raised. *)
|
|
|
|
val reshape_1 : ('a, 'b, 'c) Genarray.t -> int -> ('a, 'b, 'c) Array1.t
|
|
(** Specialized version of {!Bigarray.reshape} for reshaping to
|
|
one-dimensional arrays. *)
|
|
|
|
val reshape_2 : ('a, 'b, 'c) Genarray.t -> int -> int -> ('a, 'b, 'c) Array2.t
|
|
(** Specialized version of {!Bigarray.reshape} for reshaping to
|
|
two-dimensional arrays. *)
|
|
|
|
val reshape_3 :
|
|
('a, 'b, 'c) Genarray.t -> int -> int -> int -> ('a, 'b, 'c) Array3.t
|
|
(** Specialized version of {!Bigarray.reshape} for reshaping to
|
|
three-dimensional arrays. *)
|