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I have an array with dimensions '(3 3 2) as follows with name test-array:

#3A(((0 0) (0 0.1) (0 0.3)) 
    ((1 0) (1 0.1) (1 0.3))
    ((2 0) (2 0.1) (2 0.3)))

Note that the most inner lists inside the array (rank 2) are point coordinates, So in general the array would be

#3A(((x0 y0) (x0 y1) (x0 y2)) 
    ((x1 y0) (x1 y1) (x1 y2))
    ((x2 y0) (x2 y1) (x2 y2)))

Now I want to use the elements inside this array to make a new array.

On every row (array-rank: 0) of this array, I want to subtract the second xy coordinates from the first and the third xy coordinates from the second. So basically the result that I am looking for in parametric form is:

#3A(((x0-x0 y1-y0) (x0-x0 y2-y1)) 
    ((x1-x1 y1-y0) (x1-x1 y2-y1))
    ((x2-x2 y1-y0) (x2-x2 y2-y1))

Is there any simple direct function or operation which does this by only manipulating the initial array?

Since I don't know any direct operation for this, I thought of just making a list out of the initial array to be the :initial-contents of the new array. So the initial aim in this approach would be to get the initial-contents list which is:

   (((x0-x0 y1-y0) (x0-x0 y2-y1)) 
    ((x1-x1 y1-y0) (x1-x1 y2-y1))
    ((x2-x2 y1-y0) (x2-x2 y2-y1))

To do this I thought of a code which uses dotimes twice (number of outer loops would be the number of rows and number of inner loops would be the number of columns so to say):

(let ((result-1))
  (dotimes (n (array-dimension test-array 0) result-1)
    (setq result-1
      (append result-1
              (let ((result-2))
                (dotimes (m (1- (array-dimension test-array 1)) result-2)
                  (setq result-2
                    (append result-2 
                            (list (- (aref test-array n (1+ m) 0)
                                     (aref test-array n m 0))
                                  (- (aref test-array n (1+ m) 1)
                                     (aref test-array n m 1)))))))))))

But there is one problem with this which is also the title of the question. Apparently this "parametric" way (using n & m) of giving inputs for aref is not appreciated by CL: (aref test-array n m 0)

Why is there such a problem? Can you think of any other way to use aref inside the loops or maybe make the :initial-contents list with another approach?

Note that this is a relatively simple form of my actual question because the actual initial array that I have has dimensions of (21 16 2) and all the x y coordinates are different from each other.

Answers would be really appreciated...

share|improve this question
It would be appreciated by CL if you used 1+ (which is a function name) instead of +1 (which is another way of writing 1). – Anton Kovalenko Feb 17 '13 at 16:43
@AntonKovalenko Yes, Just noticed and changed it. It was a typing error! – Ali A Feb 17 '13 at 16:49
This change invalidates the "main question in your question", so you might want to edit it accordingly. I've tried to answer the rest of the question nevertheless. – Anton Kovalenko Feb 17 '13 at 17:04
up vote 3 down vote accepted

As I noticed in a comment, the function returning its argument incremented by 1 is 1+, not +1 (which is not a function name but a constant 1).

I see no need to construct :initial-contents here, as it does not make things easier than constructing the target array and filling it in a loop as a separate step. That's how I would do it:

(defparameter *test-array*
  #3A(((0 0) (0 0.1) (0 0.3)) 
      ((1 0) (1 0.1) (1 0.3))
      ((2 0) (2 0.1) (2 0.3))))

(destructuring-bind (rows cols axes) (array-dimensions *test-array*)
  (let ((result (make-array
                 (list rows (1- cols) axes)
                 :element-type (array-element-type *test-array*))))
    (dotimes (row rows result)
      (dotimes (col (1- cols))
        (dotimes (axis axes)
          (setf (aref result row col axis)
                (- (aref *test-array* row (1+ col) axis)
                   (aref *test-array* row col axis))))))))

I decided to make this example as simple as possible. Alternative solutions are possible, e.g. making use of a vector displaced to the array (that's how you work with pieces of multidimensional arrays using sequence functions). I would prefer the simple approach for this task if not for more complicated cases.

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