I have a method that shifts all the items, in an array, to the left by one position. In my post condition I need to ensure that my items have shifted to the left by one. I have already compared the first element of the old array to the last element of the new array. How do i across loop through the old array from 2 until count, loop through the new array from 1 until count-1 and compare them? This is my implementation so far.

                    old array.deep_twin[1] ~ array[array.count]
                    across 2 |..| (old array.deep_twin.count) as i_twin all
                        across 1 |..| (array.count-1) as i_orig  all
                            i_twin.item ~ i_orig.item


I expected the result to be true but instead I get a contract violation pointing to this post condition. I have tested the method out manually by printing out the array before and after the method and I get the expected result.


In the postcondition that fails, the loop cursors i_twin and i_orig iterate over sequences 2 .. array.count and 1 .. array.count - 1 respectively, i.e. their items are indexes 2, 3, ... and 1, 2, .... So, the loop performs comparisons 2 ~ 1, 3 ~ 2, etc. (at run-time, it stops on the first inequality). However, you would like to compare elements, not indexes.

One possible solution is shown below:

        across array as c all
            c.item =
                if c.target_index < array.upper then
                    (old array.twin) [c.target_index + 1]
                    old array [array.lower]

The loop checks that all elements are shifted. If the cursor points to the last element, it compares it against the old first element. Otherwise, it tests whether the current element is equal to the old element at the next index.


  1. The postcondition does not assume that the array starts at 1, and uses array.lower and array.upper instead.

  2. The postcondition does not perform a deep twin of the original array. This allows for comparing elements using = rather than ~.

Edit: To avoid potential confusion caused by precedence rules, and to highlight that comparison is performed for all items between old and new array, a better variant suggested by Eric Bezault looks like:

        across array as c all
            c.item =(old array.twin)
                [if c.target_index < array.upper then
                    c.target_index + 1
  • I think that it should be: old (array.twin) [array.lower] – Eric Bezault Sep 29 at 5:32
  • To avoid this mistake, you could have factored out the code like that: c.item = (old array.twin) [if c.target_index < array.upper then c.target_index + 1 else array.lower end] – Eric Bezault Sep 29 at 5:36
  • If bracket expressions have lower precedence than old expressions, the code should be changed as suggested. Otherwise, (e.g., if bracket expressions have precedence of qualified feature calls) the code should be OK. Anyway, the variant with a single old expression looks better indeed. – Alexander Kogtenkov Sep 29 at 9:25
  • My concern was not so much on precedence, but rather on the fact that you forgot .twin in the else-branch. old array is the same object as array, so you should use old (array.twin). – Eric Bezault Sep 30 at 6:47
  • old array [array.lower] interpreted as old (array [array.lower]) obtains an element from the original array, not from the updated one. Adding a call to twin here does not change anything because old (array [array.lower]) = old (array.twin [array.lower]). – Alexander Kogtenkov Sep 30 at 8:34

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