I am writing a piece of software in SPARK Ada which requires the postcondition to verify that the function return value is equal to the summed values of an array. Upon proving the file where the function resides, I keep getting an error which doesn't quite add up, no pun intended (I will post screenshots of the code so as to allow a better look). The only acceptable values allowed in the array of size 10 are 0s or 1s.

@DeeDee can you help? – Glenn McAvoy Jul 3 at 10:16

Screenshots donâ€™t allow a better look. Pasting actual code as text does. – Simon Wright Jul 3 at 12:37

Hi @SimonWright, new around here. I'll bear that in mind next time. Best wishes :) – Glenn McAvoy Jul 3 at 14:02
In the example below (and opposed to the other answer), I separated the ghost function that computes the partial sum into a generic ghost package SPARK_Fold
. From this package I use the ghost function Sum_Acc
to proof the summation loop in Calc_ST
. The package Example
can be proven using GNAT CE 2020 with prove level set to 1.
Credits for the underlying method: AdaCore blog post.
example.ads
with SPARK_Fold;
package Example with SPARK_Mode is
subtype EEG_Reading_Index is Integer range 0 .. Integer'Last  1;
subtype EEG_Reading is Integer range 0 .. 1;
type EEG_Readings is array (EEG_Reading_Index range <>) of EEG_Reading;
package Sum_EEG_Readings is
new SPARK_Fold.Sum
(Index_Type => EEG_Reading_Index,
Element_In => EEG_Reading,
List_Type => EEG_Readings,
Element_Out => Natural);
function Calc_ST (EEG : EEG_Readings) return Natural with
Pre => EEG'Length > 0,
Post => Calc_ST'Result = Sum_EEG_Readings.Sum_Acc (EEG) (EEG'Last);
end Example;
example.adb (just computing the sum as usual here).
package body Example with SPARK_Mode is

 Calc_ST 

function Calc_ST (EEG : EEG_Readings) return Natural is
Result : Natural := EEG (EEG'First);
begin
for I in EEG'First + 1 .. EEG'Last loop
pragma Loop_Invariant
(Result = Sum_EEG_Readings.Sum_Acc (EEG) (I  1));
Result := Result + EEG (I);
end loop;
return Result;
end Calc_ST;
end Example;
spark_fold.ads (a generic helper package)
package SPARK_Fold with Ghost is
 Based on the blog post:
 https://blog.adacore.com/takingonachallengeinspark

 Sum 

generic
type Index_Type is range <>;
type Element_In is range <>;
type List_Type is array (Index_Type range <>) of Element_In;
type Element_Out is range <>;
package Sum with Ghost is
type Partial_Sums is array (Index_Type range <>) of Element_Out;
function Sum_Acc (L : List_Type) return Partial_Sums with
Ghost,
Pre => (L'Length > 0),
Post => (Sum_Acc'Result'Length = L'Length)
and then (Sum_Acc'Result'First = L'First)
and then (for all I in L'First .. L'Last =>
abs (Sum_Acc'Result (I)) <= Element_Out (I  L'First + 1) * Element_Out (Element_In'Last))
and then (Sum_Acc'Result (L'First) = Element_Out (L (L'First)))
and then (for all I in L'First + 1 .. L'Last =>
Sum_Acc'Result (I) = Sum_Acc'Result (I  1) + Element_Out (L (I)));
end Sum;

 Count 

generic
type Index_Type is range <>;
type Element is range <>;
type List_Type is array (Index_Type range <>) of Element;
with function Choose (X : Element) return Boolean;
 Count the number of elements for which Choose returns True.
package Count with Ghost is
type Partial_Counts is array (Index_Type range <>) of Natural;
function Count_Acc (L : List_Type) return Partial_Counts with
Ghost,
Pre => (L'Length > 0),
Post => (Count_Acc'Result'Length = L'Length)
and then (Count_Acc'Result'First = L'First)
and then (for all I in L'First .. L'Last =>
Count_Acc'Result (I) <= Natural (I)  Natural (L'First) + 1)
and then (Count_Acc'Result (L'First) = (if Choose (L (L'First)) then 1 else 0))
and then (for all I in L'First + 1 .. L'Last =>
Count_Acc'Result (I) = Count_Acc'Result (I  1) + (if Choose (L (I)) then 1 else 0));
end Count;
end SPARK_Fold;
spark_fold.adb
package body SPARK_Fold is

 Sum 

package body Sum is
function Sum_Acc (L : List_Type) return Partial_Sums is
Result : Partial_Sums (L'Range) := (others => 0);
begin
Result (L'First) := Element_Out (L (L'First));
for Index in L'First + 1 .. L'Last loop
 Head equal.
pragma Loop_Invariant
(Result (L'First) = Element_Out (L (L'First)));
 Tail equal.
pragma Loop_Invariant
(for all I in L'First + 1 .. Index  1 =>
Result (I) = Result (I  1) + Element_Out (L (I)));
 Result within bounds.
pragma Loop_Invariant
(for all I in L'First .. Index  1 =>
abs (Result (I)) <= Element_Out (I  L'First + 1) * Element_Out (Element_In'Last));
Result (Index) := Result (Index  1) + Element_Out (L (Index));
end loop;
return Result;
end Sum_Acc;
end Sum;

 Count 

package body Count is
function Count_Acc (L : List_Type) return Partial_Counts is
Result : Partial_Counts (L'Range) := (others => 0);
begin
if Choose (L (L'First)) then
Result (L'First) := 1;
else
Result (L'First) := 0;
end if;
for Index in L'First + 1 .. L'Last loop
 Head equal.
pragma Loop_Invariant
(Result (L'First) = (if Choose (L (L'First)) then 1 else 0));
 Tail equal.
pragma Loop_Invariant
(for all I in L'First + 1 .. Index  1 =>
Result (I) = Result (I  1) + (if Choose (L (I)) then 1 else 0));
 Bounds.
pragma Loop_Invariant
(for all I in L'First .. Index  1 =>
Result (I) <= Natural (I)  Natural (L'First) + 1);
if Choose (L (Index)) then
Result (Index) := Result (Index  1) + 1;
else
Result (Index) := Result (Index  1) + 0;
end if;
end loop;
return Result;
end Count_Acc;
end Count;
end SPARK_Fold;

Hi @DeeDee :) My Bad! When looking at your solution I missed this "pragma Loop_Invariant (Result = Sum_Acc (L) (I  1));"  this has fixed the issue I had. Thank you for your response anyhow! God bless :) – Glenn McAvoy Jul 3 at 12:24
This is the fix:
function CalcST(eegR: in eegReadings) return Natural is
supT: Integer := eegR(eegR'First);
begin
 Sums the number of ones in the array
for Index in eegR'First + 1 .. eegR'Last loop
pragma Loop_Invariant 
(supT = sumEEGR (eegR) (Index  1));
pragma Loop_Invariant  additional loop invariant
(supT <= Index  1);
if eegR(Index) = 1
then supT := supT + eegR(Index);
end if;
end loop;
return supT;
end CalcST;