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What is the "correct" construct in Common Lisp to apply elementwise operations to multidimensional arrays?

The following examples should help illustrate what I'm trying to do:

A) Suppose I want to increase every element of an array by one:

0 1 2    1 2 3
3 4 5 -> 4 5 6
6 7 8    7 8 9

B) Suppose I want to add 2 arrays:

1 2   -1 -1    0 1
3 4 + -2 -2 -> 1 2
5 6   -3 -3    2 3

C) Suppose I want to find the largest elements of several arrays, elementwise:

max( 0 1 , 4 -1 , 0 0 ) -> 4 1
     2 3   0  0   8 1      8 3

Basically I think I'm looking for some sort of "arraymap" function which would be used in like so: (arraymap f A1 A2 ... An), where f takes n arguments as input, and the Ai are arrays of the same size.

In the above examples it would be used like so:

A)

(setq M #2A((0 1 2) (3 4 5) (6 7 8)))
(arraymap #'incf M)

B)

(setq M #2A((1 2) (3 4) (5 6)))
(setq N #2A((-1 -1) (-2 -2) (-3 -3)))
(arraymap #'+ M N)

C)

(setq M #2A((0 1) (2 3)))
(setq N #2A((4 -1) (0 0)))
(setq O #2A((0 0) (8 1)))
(arraymap #'max M N O)

I have tried some constructs with map and loop, but it seems to not work since multidimensional arrays are not a sequence type.

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1 Answer 1

up vote 5 down vote accepted

There are four ways to do that:

  • Write an ARRAY-MAP function based on the array dimensions and iterate over those.

  • Use ROW-MAJOR-AREF, which views the array like a vector.

  • Use displaced one-dimensional arrays for the operations.

Example for a use of displaced arrays:

(defun array-map (function &rest arrays)
  "maps the function over the arrays.
   Assumes that all arrays are of the same dimensions.
   Returns a new result array of the same dimension."
  (flet ((make-displaced-array (array)
           (make-array (reduce #'* (array-dimensions array))
                       :displaced-to array)))
    (let* ((displaced-arrays (mapcar #'make-displaced-array arrays))
           (result-array (make-array (array-dimensions (first arrays))))
           (displaced-result-array (make-displaced-array result-array)))
      (declare (dynamic-extent displaced-arrays displaced-result-array))
      (apply #'map-into displaced-result-array function displaced-arrays)
      result-array)))

Using it:

CL-USER 3 > (array-map #'1+ #2A((0 1 2) (3 4 5) (6 7 8)))

#2A((1 2 3) (4 5 6) (7 8 9))

CL-USER 4 > (array-map #'+ #2A((1 2) (3 4) (5 6)) #2A((-1 -1) (-2 -2) (-3 -3)) )

#2A((0 1) (1 2) (2 3))
  • Use internal, implementation specific, operations for efficient array operations.
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Ahh excellent. You might say this is like implicity using matlab-style "ind2sub" and "sub2ind" functions. –  Nick Alger Nov 7 '10 at 7:49

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