# Verifying loop termination

I want to prove that the loop in this procedure will terminate using the variant ( bound function)

the variant will be `I` and the lower bound is `0` (I: = 0)
on each repetition, the size of `I` will decrease till reached to lower bound `0` How can I prove that `I` will decrease in this loop?

``````procedure Find
(Key: Integer;
Data : in MyArray;
Index: out Integer;
Found: out Boolean)
--# post (Found -> Data(Index) = Key);
is
I: Integer;
begin
I := 0;
Found := False;
loop
--# assert (I >= 0) and
--# (I <= Data'Last + 1) and
--# (Found -> Data(I) = Key);
exit when (I > Data 'Last) or Found;
if(Data(I)) = Key
then
Found := True;
else
I:= I + 1;
end if;
end loop;
Index := I;
end Find;
``````
• It would be good to include the definition of MyArray in the code snippet. – Joakim Strandberg Jan 24 at 14:35
• You mean "increase" – Simon Wright Jan 24 at 18:07
• I want to prove that the loop in this procedure will terminate using the variant but i am not sure how to do it – Memo Jan 24 at 18:49

I’m not sure what you mean by 'variant' and 'bound function', and I don’t have access to your version of SPARK.

In SPARK 2014, with GNAT CE 2018, this proves (after much pain, maybe I should work through some of the SPARK tutorials) without any loop invariants.

I think I could get away without `Supported_Range` if I ran the loop in reverse.

I’d’ve liked to replace the `True` in the postcondition with `(for all D of Data => D /= Key)`, but I’ll leave it at that.

I realise this doesn’t answer your question, sorry.

``````package Memo with SPARK_Mode is
subtype Supported_Range is Natural range 0 .. Natural'Last - 1;
type My_Array is array (Supported_Range range <>) of Integer;
procedure Find
(Key   :     Integer;
Data  :     My_Array;
Index : out Integer;
Found : out Boolean)
with
Pre => Data'Length >= 1,
Post => ((Found and then Index in Data'Range and then Data (Index) = Key)
or else True);
end Memo;

package body Memo with SPARK_Mode is
procedure Find
(Key   :     Integer;
Data  :     My_Array;
Index : out Integer;
Found : out Boolean)
is
subtype Possible_J is Integer range Data’Range;
J : Possible_J;
begin
J := Possible_J'First;
Index := -1;  -- have to initialize with something
Found := False;
loop
if Data (J) = Key
then
Found := True;
Index := J;
exit;
else
exit when J = Data'Last;
J := J + 1;
end if;
end loop;
end Find;
end Memo;
``````
• Look how complicated this is! Take heed of the other two answers! – Simon Wright Jan 27 at 20:46

If I write this in typical Ada idiom I get

``````package SPARK_Proof is
type Integer_List is array (Positive range <>) of Integer;

type Find_Result (Found : Boolean := False) is record
case Found is
when False =>
null;
when True =>
Index : Positive;
end case;
end record;

function Match_Index (Value : Integer; List : Integer_List) return Find_Result;
end SPARK_Proof;

package body SPARK_Proof is
function Match_Index (Value : Integer; List : Integer_List) return Find_Result is
-- Empty
begin -- Match_Index
Search : for I in List'Range loop
if Value = List (I) then
return (Found => True, Index => I);
end if;
end loop Search;

return (Found => False);
end Match_Index;
end SPARK_Proof;
``````

This is shorter and clearer. I don't know if it's any easier to prove with SPARK.

• Proved out of the box; with a postcondition stating that if the result’s `Found` is true, the `Index`’th element matches `Value`, and if not, no element matches, also proved, no addition need to the body. – Simon Wright Jan 27 at 20:45
• Cool. Would you mind posting your actual postcondition? – Jeffrey R. Carter Jan 28 at 17:26
• This won’t format properly, but here goes: Post => (if Match_Index'Result.Found then List (Match_Index'Result.Index) = Value or else (for all El of List => El /= Value)) -- the 'or else' is necessary, or it tries to prove both parts! (there’s probably a better way to deal with this) – Simon Wright Jan 28 at 18:04

I would use a bounded loop construct (for loop) to iterate over the array. A for loop handles array bounds and empty arrays more easily. This works for me in GNAT CE 2018 (using SPARK 2014 here):

``````package Foo with SPARK_Mode => On is

type MyArray is array (Integer range <>) of Integer;

procedure Find
(Key   : in  Integer;
Data  : in  MyArray;
Index : out Integer;
Found : out Boolean)
with
Post => (if Found then Data (Index) = Key);

end Foo;
``````

and

``````package body Foo with SPARK_Mode => On is

----------
-- Find --
----------

procedure Find
(Key   : in  Integer;
Data  : in  MyArray;
Index : out Integer;
Found : out Boolean)
is
begin

Found := False;
Index := Data'First;

for I in Data'Range loop

if Data (I) = Key then
Found := True;
Index := I;
end if;

pragma Loop_Invariant
(Index in Data'Range);

pragma Loop_Invariant
(if Found then Data (Index) = Key else Data (Index) /= Key);

exit when Found;
end loop;

end Find;

end Foo;
``````