I am working my way through Barnes' excellent Ada book. This is a code sample for deep comparison of linked lists from section 11.7:

type Cell is
    Next: access Cell;
    Value: Integer;
  end record;

function "=" (L, R: access Cell) return Boolean is
  if L = null or R = null then    -- universal =
    return L = R;                 -- universal = (Line A)
  elsif L.Value = R.Value then
    return L.Next = R.Next;       -- recurses OK (Line B)
    return False;
  end if;
end "=";

I can't seem to wrap my head around why in Line A operator "=" of the universal_access type is called (because of the preference rule), on Line B, however, the user-defined operator "=" is called (which makes recursion possible in the first place), this time with no preference for operator "=" of universal_access.

Both L and R, as well as L.Next and R.Next are of the same anonymous type "access Cell". Why the difference in "dispatching"? Does it have to do with L and R being access parameters? If so, what is the rule there?

I did my best to find anything in the AARM, especially section 4.5.2, but could not make any sense of it.


  • 2
    it has to do with one or both being null in that case – egilhh Jan 11 at 22:25
  • Thx for the comment. That is what went through my head for a second. However, that would be dynamic dispatch at runtime. To my knowledge, this is only possible with tagged record types, right? – dacker Jan 11 at 23:27
  • 2
    Either there’s a bug in GNAT (CE 2018) or Barnes is wrong. I see stack overflow from unbounded recursion. – Simon Wright Jan 11 at 23:40
  • 1
    The place you’re looking for is ARM 8.6(29.1). Did you know that that version of the LRM is searchable? - which is how I found that para! Looks as tho GNAT has a bug – Simon Wright Jan 11 at 23:48
  • Thx, I found that one in my PDF version as well, but did not give it any weight, since I read it as: "regardless of whether you defined an overloaded equality operator, we will use the one for universal_access anyway". I must be misinterpreting? – dacker Jan 12 at 0:08

I will summarize my findings (with the help of Simon Wright and G_Zeus) as of now. Please correct me if I'm wrong:

According to the standard, L = null, R = null, L = R as well as L.Next = R.Next should each unambiguously call the user-defined operator =. universal_access operator = must not kick in at all here.


The operands L, R, L.Next and R.Next violate the precondition in ARM 4.5.2(9.1-9.4) for interpreting = in these expressions as to mean operator = of the unviversal_access type:

All of these operands are of an access-to-object type (access Cell, check) whose designated type is Cell (check), Cell has a user-defined primitive equality operator (check) such that

  • its result type is Boolean (check);
  • it is declared immediately within the same declaration list as Cell (check); and
  • at least one of its operands is an access parameter with designated type Cell (both operands are, check).

The preference rule for operator = of the universal_access type in ARM 8.6(29.1) does not apply here, since it requires "two acceptable interpretations". But because of 4.5.2, operator = of the universal_access type is not an acceptable interpretation.

So there is no choice: in all cases (even L = null) it has to be the user-defined operator =.

@Simon Wright: So "unbounded recursion" is actually the correct compiler behavior.

@G_Zeus: Issuing an ambiguity error for l = r is incorrect compiler behavior, the compiler should have picked Access_Equal."=".

The example should correctly read:


  if Standard."="(L, null) or Standard."="(R, null) then    -- universal =
    return Standard."="(L, R);                              -- universal =
  elsif L.Value = R.Value then
    return L.Next = R.Next;                                 -- recurses OK




I do not have enough reputation to comment on OP, so I will write an answer instead.

Interestingly enough, I cannot compile such an example (I used Integer access instead, but I doubt it has any relevance) in Gnat 6.1.1. Gnat keeps telling me the use of inline "=" is ambiguous between the overloading "=" and the universal "=" in Standard. So I tried:

package body Access_Equal is
   function "=" (L,R : access Integer) return Boolean is
      return Standard."="(L, R) or L.all = R.all;
   end "=";
end Access_Equal;

And it seems to do the trick. I cannot use inline "=" in my code however, I have to use fully qualified names:

with Ada.Text_IO; use Ada.Text_IO;
with Access_Equal; use Access_Equal;
procedure Access_Equal_Test is
   l : access Integer := new Integer'(1);
   r : access Integer := new Integer'(1);
   Put_Line(Boolean'Image(Standard."="(l, r))); -- FALSE
   Put_Line(Boolean'Image(Access_Equal."="(l, r))); -- TRUE
   Put_Line(Boolean'Image(l = r)); -- does not work
end Access_Equal_Test;

Note: using the Standard package might be a portability hazard, as it does not seem to be required to define universal "=". More information here.

  • FSF GCC 6.1.0, x86_64-apple-darwin15, behaves (for @dacker’s example) like 8.1.0. – Simon Wright Jan 15 at 10:26

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