Chapter 29 The bigarray library

The bigarray library implements large, multi-dimensional, numerical arrays. These arrays are called “big arrays” to distinguish them from the standard OCaml arrays described in Module Array. The main differences between “big arrays” and standard OCaml arrays are as follows:

Big arrays are not limited in size, unlike OCaml arrays (float array are limited to 2097151 elements on a 32-bit platform, other array types to 4194303 elements).
Big arrays are multi-dimensional. Any number of dimensions between 1 and 16 is supported. In contrast, OCaml arrays are mono-dimensional and require encoding multi-dimensional arrays as arrays of arrays.
Big arrays can only contain integers and floating-point numbers, while OCaml arrays can contain arbitrary OCaml data types. However, big arrays provide more space-efficient storage of integer and floating-point elements, in particular because they support “small” types such as single-precision floats and 8 and 16-bit integers, in addition to the standard OCaml types of double-precision floats and 32 and 64-bit integers.
The memory layout of big arrays is entirely compatible with that of arrays in C and Fortran, allowing large arrays to be passed back and forth between OCaml code and C / Fortran code with no data copying at all.
Big arrays support interesting high-level operations that normal arrays do not provide efficiently, such as extracting sub-arrays and “slicing” a multi-dimensional array along certain dimensions, all without any copying.

Programs that use the bigarray library must be linked as follows:

        ocamlc other options bigarray.cma other files
        ocamlopt other options bigarray.cmxa other files

For interactive use of the bigarray library, do:

        ocamlmktop -o mytop bigarray.cma
        ./mytop

or (if dynamic linking of C libraries is supported on your platform), start ocaml and type #load "bigarray.cma";;.

29.1 Module Bigarray: large, multi-dimensional, numerical arrays

Module Bigarray

29.2 Big arrays in the OCaml-C interface

C stub code that interface C or Fortran code with OCaml code, as described in chapter 19, can exploit big arrays as follows.

29.2.1 Include file

The include file <caml/bigarray.h> must be included in the C stub file. It declares the functions, constants and macros discussed below.

29.2.2 Accessing an OCaml bigarray from C or Fortran

If v is a OCaml value representing a big array, the expression Caml_ba_data_val(v) returns a pointer to the data part of the array. This pointer is of type void * and can be cast to the appropriate C type for the array (e.g. double [], char [][10], etc).

Various characteristics of the OCaml big array can be consulted from C as follows:

C expression	Returns
Caml_ba_array_val(v)->num_dims	number of dimensions
Caml_ba_array_val(v)->dim[i]	i-th dimension
Caml_ba_array_val(v)->flags & BIGARRAY_KIND_MASK	kind of array elements

The kind of array elements is one of the following constants:

Constant	Element kind
CAML_BA_FLOAT32	32-bit single-precision floats
CAML_BA_FLOAT64	64-bit double-precision floats
CAML_BA_SINT8	8-bit signed integers
CAML_BA_UINT8	8-bit unsigned integers
CAML_BA_SINT16	16-bit signed integers
CAML_BA_UINT16	16-bit unsigned integers
CAML_BA_INT32	32-bit signed integers
CAML_BA_INT64	64-bit signed integers
CAML_BA_CAML_INT	31- or 63-bit signed integers
CAML_BA_NATIVE_INT	32- or 64-bit (platform-native) integers

The following example shows the passing of a two-dimensional big array to a C function and a Fortran function.

    extern void my_c_function(double * data, int dimx, int dimy);
    extern void my_fortran_function_(double * data, int * dimx, int * dimy);

    value caml_stub(value bigarray)
    {
      int dimx = Caml_ba_array_val(bigarray)->dim[0];
      int dimy = Caml_ba_array_val(bigarray)->dim[1];
      /* C passes scalar parameters by value */
      my_c_function(Caml_ba_data_val(bigarray), dimx, dimy);
      /* Fortran passes all parameters by reference */
      my_fortran_function_(Caml_ba_data_val(bigarray), &dimx, &dimy);
      return Val_unit;
    }

29.2.3 Wrapping a C or Fortran array as an OCaml big array

A pointer p to an already-allocated C or Fortran array can be wrapped and returned to OCaml as a big array using the caml_ba_alloc or caml_ba_alloc_dims functions.

caml_ba_alloc(kind | layout, numdims, p, dims)
Return an OCaml big array wrapping the data pointed to by p. kind is the kind of array elements (one of the CAML_BA_ kind constants above). layout is CAML_BA_C_LAYOUT for an array with C layout and CAML_BA_FORTRAN_LAYOUT for an array with Fortran layout. numdims is the number of dimensions in the array. dims is an array of numdims long integers, giving the sizes of the array in each dimension.
caml_ba_alloc_dims(kind | layout, numdims, p, (long) dim₁, (long) dim₂, …, (long) dim_numdims)
Same as caml_ba_alloc, but the sizes of the array in each dimension are listed as extra arguments in the function call, rather than being passed as an array.

The following example illustrates how statically-allocated C and Fortran arrays can be made available to OCaml.

    extern long my_c_array[100][200];
    extern float my_fortran_array_[300][400];

    value caml_get_c_array(value unit)
    {
      long dims[2];
      dims[0] = 100; dims[1] = 200;
      return caml_ba_alloc(CAML_BA_NATIVE_INT | CAML_BA_C_LAYOUT,
                           2, my_c_array, dims);
    }

    value caml_get_fortran_array(value unit)
    {
      return caml_ba_alloc_dims(CAML_BA_FLOAT32 | CAML_BA_FORTRAN_LAYOUT,
                                2, my_fortran_array_, 300L, 400L);
    }