I've got a procedure in a SPARK package that calls some functions from a none SPARK package.
procedure do_monitoring is U_C1 : constant Float := Sim.Get_U_C1; I_L1 : constant Float := Sim.Get_I_L1; U_C2 : constant Float := Sim.Get_U_C2; I_L2 : constant Float := Sim.Get_I_L2; begin pragma Assert (U_C1 in Float_Signed1000); pragma Assert (I_L1 in Float_Signed1000); pragma Assert (U_C2 in Float_Signed1000); pragma Assert (I_L2 in Float_Signed1000); -- Monitor PFC intermediate voltage monitor_signal (monitor_pfc_voltage, U_C1); -- Monitor PFC inductor current monitor_signal (monitor_pfc_current, I_L1); -- Monitor output voltage monitor_signal (monitor_output_voltage, U_C2); -- Monitor output inductor current monitor_signal (monitor_output_current, I_L2); end do_monitoring;
GNAT provides me with
info: implicit function contract not available for proof (<function_name> may not return) for all four declaration lines where I call functions from global protected types.
The protected types functions are defined in a non SPARK package as follows and use the record
Sim_Out which is declared within the protected types private section. All of the records values are initialised with
function Get_I_L1 return Float is begin return Sim_Out.I_L1; end Get_I_L1; function Get_U_C1 return Float is begin return Sim_Out.U_C1; end Get_U_C1; function Get_I_L2 return Float is begin return Sim_Out.I_L2; end Get_I_L2; function Get_U_C2 return Float is begin return Sim_Out.U_C2; end Get_U_C2;
What are the alternatives to solve this? I did already add some pragmas to provide the prover with additional information
subtype Float_Signed1000 is Float range -1_000.0 .. 1_000.0 but that didn't work out as I expected.
I'd like to here your advice on this topic.