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-- Programmed by Jedidiah Barber
-- Licensed under the Sunset License v1.0
-- See license.txt for further details
with
Ada.Text_IO,
Kompsos.Math,
Kompsos.Pretty_Print;
procedure Logo is
package TIO renames Ada.Text_IO;
package InKomp is new Kompsos (Integer);
use InKomp;
package Math is new InKomp.Math (0, 1);
package Printer is new InKomp.Pretty_Print (Integer'Image);
function B
(Item : in Natural)
return Term
renames Math.Build;
function P
(Item : in Integer)
return String
renames Printer.Image;
function PV
(Item : in Term)
return String is
begin
return P (Math.Value (Item));
exception
when others =>
return Printer.Image (Item);
end PV;
procedure Test
(Power, Base : in Natural)
is
Relation : Goal := Empty_Goal;
Exponent : constant Term := Relation.Fresh;
Remainder : constant Term := Relation.Fresh;
Result : State;
begin
Math.Logarithm (Relation, B (Power) & B (Base) & Exponent & Remainder);
Result := Relation.Run;
TIO.Put_Line ("log_" & P (Base) & " (" & P (Power) & ") = " &
PV (Exponent.Resolve (Result)) & " r " & PV (Remainder.Resolve (Result)));
end Test;
begin
TIO.Put_Line ("Logarithm");
Test (1, 1);
Test (68, 2);
Test (68, 3);
Test (68, 4);
Test (68, 5);
Test (68, 6);
Test (68, 7);
Test (68, 8);
TIO.New_Line;
TIO.Put_Line ("Expected Failure");
-- Here there is no reasonable way to assign a value to the exponent variable term
Test (68, 1); -- 1^x is always 1 so will never be 68
-- In this case the log function is undefined for x=0
Test (68, 0); -- 0^x is always 0 or undefined so could never be 68
Test (0, 0);
end Logo;
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