In two recent questions (1, 2), the previous posters were attempting to control the output order of Plus, which is an Orderless function. Michael Pilat indicated that, internally, Orderless functions Sort their parameters which was causing the difficulty. However, he cautioned against making Plus non-Orderless. The solutions to the two previous questions amount to creating a function that displays like Plus but is not Orderless itself. This is certainly effective, but my question is how can we change the default Sort order?

  • 1
    Tricky... The functions Order, OrderedQ, Sort and the attribute Orderless all seem to be making separate calls to Mma's canonical ordering function. I tried redefining each one of these for the integers and none affected the other. Which is strange considering the documentation says "Ordering[list] gives the positions in list at which each successive element of Sort[list] appears." but changing Sort had no effect on Ordering. I'm sure if it's possible to change the ordering used by Orderless functions.
    – Simon
    Nov 6 '10 at 5:30
  • 1
    Also, the Sort docs say "Sort[list,p] applies the function p to pairs of elements in list to determine whether they are in order. The default function p is OrderedQ[{#1,#2}]&" but changing OrderedQ for the integers has no effect on Sort.
    – Simon
    Nov 6 '10 at 5:37

I need to do a little more research, but here's two ways; The catch is, you don't actually use the Orderless attribute. Simon should get half-credit for the technique of using pattern-matching with a condition from his answer to question 1 you referenced.

Messing with Order, OrderedQ and Sort won't get you anywhere, because Orderless functions sort with equivalence to those methods, but does not actually sort with them.

The first method, from Simon's answer, is to use a Condition:

In[1]:= ClearAll[f, g]

In[2]:= f[stuff__] /; ! OrderedQ[{stuff}, Greater] := 
           f[Sequence@@Sort[{stuff}, Greater]]

In[3]:= f[1, 2, 3]
Out[3]= f[3, 2, 1]

In[4]:= f[3, 2, 1]
Out[4]= f[3, 2, 1]

That definition of f[stuff__] is evaluated if the order of the arguments is not the order desired, and then transformed into that order.

Another technique is to get a little more low-level and use $Pre or $PreRead:

In[5]:= $Pre = 
  expr /. g[stuff__] :> g[Sequence @@ Sort[{stuff}, Greater]]];

In[6]:= g[1, 2, 3]
Out[6]= g[3, 2, 1]

In[7]:= g[3, 2, 1]
Out[7]= g[3, 2, 1]

There are some issues with both of these approaches as they stand, for example, that particular $Pre function doesn't play well with e.g. HoldForm[g[1,2,3]].

So, that's something to play with for now. I hope to update after I do a little more research into this.

  • Nice. I never thought of doing the sorting with $Pre/$PreRead. But as you said, this doesn't solve the original question of changing the sort order for an Orderless function. Note that Orderless is highly optimised and is a heap faster than the Conditional sorting definition used here.
    – Simon
    Nov 6 '10 at 7:31
  • Right, but keep in mind that Orderless implies that order of the elements doesn't matter, but the fact that you want to sort them in a non-standard way implies that it does, so why use Orderless? I think we're left finding the best possible way to transparently sort arguments in an ordered expression. Besides sorting, Orderless has other semantic meaning in expressions under various circumstances, like pattern-matching. Nov 6 '10 at 7:43
  • your question of why choose Orderless when we wish to have a specific sorting order I think misses the point. You are correct in that order is somewhat important, but it is more for aesthetics rather than having any bearing on how Mathematica comprehends the functions themselves. As I understand it, the arguments are sorted to create an Orderless system from an ordered one. To me, this implies that any sort order is valid, as long as it is consistent. Since, the choice of sort order is arbitrary by virtue of the function being orderless, why can't we use one that we specify?
    – rcollyer
    Nov 8 '10 at 17:31
  • any additional thoughts on this?
    – rcollyer
    Dec 8 '10 at 23:12

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.