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-- C940005.A
--
-- Grant of Unlimited Rights
--
-- Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
-- F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
-- unlimited rights in the software and documentation contained herein.
-- Unlimited rights are defined in DFAR 252.227-7013(a)(19). By making
-- this public release, the Government intends to confer upon all
-- recipients unlimited rights equal to those held by the Government.
-- These rights include rights to use, duplicate, release or disclose the
-- released technical data and computer software in whole or in part, in
-- any manner and for any purpose whatsoever, and to have or permit others
-- to do so.
--
-- DISCLAIMER
--
-- ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
-- DISCLOSED ARE AS IS. THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
-- WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
-- SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
-- OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
-- PARTICULAR PURPOSE OF SAID MATERIAL.
--*
--
-- OBJECTIVE:
-- Check that the body of a protected function can have internal calls
-- to other protected functions and that the body of a protected
-- procedure can have internal calls to protected procedures and to
-- protected functions.
--
-- TEST DESCRIPTION:
-- Simulate a meter at a freeway on-ramp which, when real-time sensors
-- determine that the freeway is becoming saturated, triggers stop lights
-- which control the access of vehicles to prevent further saturation.
-- Each on-ramp is represented by a protected object - in this case only
-- one is shown (Test_Ramp). The routines to sample and alter the states
-- of the various sensors, to queue the vehicles on the meter and to
-- release them are all part of the protected object and can be shared
-- by various tasks. Apart from the function/procedure tests this example
-- has a mix of other tasking features.
--
--
-- CHANGE HISTORY:
-- 06 Dec 94 SAIC ACVC 2.0
-- 13 Nov 95 SAIC Updated and fixed bugs ACVC 2.0.1
--
--!
with Report;
with ImpDef;
with Ada.Calendar;
procedure C940005 is
begin
Report.Test ("C940005", "Check internal calls of protected functions" &
" and procedures");
declare -- encapsulate the test
function "+" (Left : Ada.Calendar.Time; Right: Duration)
return Ada.Calendar.Time renames Ada.Calendar."+";
-- Weighted load given to each potential problem area and accumulated
type Load_Factor is range 0..8;
Clear_Level : constant Load_Factor := 0;
Minimum_Level : constant Load_Factor := 1;
Moderate_Level : constant Load_Factor := 2;
Serious_Level : constant Load_Factor := 4;
Critical_Level : constant Load_Factor := 6;
-- Weighted loads given to each Sample Point (pure weights, not levels)
Local_Overload_wt : constant Load_Factor := 1;
Next_Ramp_in_Overload_wt : constant Load_Factor := 1;
Ramp_Junction_in_Overload_wt : constant Load_Factor :=2; --higher wght
-- :::: other weighted loads
TC_Multiplier : integer := 1; -- changed half way through
TC_Expected_Passage_Total : constant integer := 486;
-- This is the time between synchronizing pulses to the ramps.
-- In reality one would expect a time of 5 to 10 seconds. In
-- the interests of speeding up the test suite a shorter time
-- is used
Pulse_Time_Delta : constant duration := ImpDef.Switch_To_New_Task;
-- control over stopping tasks
protected Control is
procedure Stop_Now;
function Stop return Boolean;
private
Halt : Boolean := False;
end Control;
protected body Control is
procedure Stop_Now is
begin
Halt := True;
end Stop_Now;
function Stop return Boolean is
begin
return Halt;
end Stop;
end Control;
task Pulse_Task; -- task to generate a pulse for each ramp
-- Carrier task. One is created for each vehicle arriving at the ramp
task type Vehicle;
type acc_Vehicle is access Vehicle;
--================================================================
protected Test_Ramp is
function Next_Ramp_in_Overload return Load_Factor;
function Local_Overload return Load_Factor;
function Freeway_Overload return Load_Factor;
function Freeway_Breakdown return Boolean;
function Meter_in_use_State return Boolean;
procedure Set_Local_Overload;
procedure Add_Meter_Queue;
procedure Subtract_Meter_Queue;
procedure Time_Pulse_Received;
entry Wait_at_Meter;
procedure TC_Passage (Pass_Point : Integer);
function TC_Get_Passage_Total return integer;
-- ::::::::: many routines are not shown (for example none of the
-- clears, none of the real-time-sensor handlers)
private
Release_One_Vehicle : Boolean := false;
Meter_in_Use : Boolean := false;
Fwy_Break_State : Boolean := false;
Ramp_Count : integer range 0..20 := 0;
Ramp_Count_Threshold : integer := 15;
-- Current state of the various Sample Points
Local_State : Load_Factor := Clear_Level;
Next_Ramp_State : Load_Factor := Clear_Level;
-- :::: other Sample Point states not shown
TC_Passage_Total : integer := 0;
end Test_Ramp;
--================================================================
protected body Test_Ramp is
procedure Start_Meter is
begin
Meter_in_Use := True;
null; -- stub :::: trigger the metering hardware
end Start_Meter;
-- External call for Meter_in_Use
function Meter_in_Use_State return Boolean is
begin
return Meter_in_Use;
end Meter_in_Use_State;
-- Trace the paths through the various routines by totaling the
-- weighted call parameters
procedure TC_Passage (Pass_Point : Integer) is
begin
TC_Passage_Total := TC_Passage_Total+(Pass_Point*TC_Multiplier);
end TC_Passage;
-- For the final check of the whole test
function TC_Get_Passage_Total return integer is
begin
return TC_Passage_Total;
end TC_Get_Passage_Total;
-- These Set/Clear routines are triggered by real-time sensors that
-- reflect traffic state
procedure Set_Local_Overload is
begin
Local_State := Local_Overload_wt;
if not Meter_in_Use then
Start_Meter; -- LOCAL INTERNAL PROCEDURE FROM PROCEDURE
end if;
end Set_Local_Overload;
--::::: Set/Clear routines for all the other sensors not shown
function Local_Overload return Load_Factor is
begin
return Local_State;
end Local_Overload;
function Next_Ramp_in_Overload return Load_Factor is
begin
return Next_Ramp_State;
end Next_Ramp_in_Overload;
-- :::::::: other overload factor states not shown
-- return the summation of all the load factors
function Freeway_Overload return Load_Factor is
begin
return Local_Overload -- EACH IS A CALL OF A
-- + :::: others -- FUNCTION FROM WITHIN
+ Next_Ramp_in_Overload; -- A FUNCTION
end Freeway_Overload;
-- Freeway Breakdown is defined as traffic moving < 5mph
function Freeway_Breakdown return Boolean is
begin
return Fwy_Break_State;
end Freeway_Breakdown;
-- Keep count of vehicles currently on meter queue - we can't use
-- the 'count because we need the outcall trigger
procedure Add_Meter_Queue is
TC_Pass_Point : constant integer := 22;
begin
Ramp_Count := Ramp_Count + 1;
TC_Passage ( TC_Pass_Point ); -- note passage through here
if Ramp_Count > Ramp_Count_Threshold then
null; -- :::: stub, trigger surface street notification
end if;
end Add_Meter_Queue;
--
procedure Subtract_Meter_Queue is
TC_Pass_Point : constant integer := 24;
begin
Ramp_Count := Ramp_Count - 1;
TC_Passage ( TC_Pass_Point ); -- note passage through here
end Subtract_Meter_Queue;
-- Here each Vehicle task queues itself awaiting release
entry Wait_at_Meter when Release_One_Vehicle is
-- EXAMPLE OF ENTRY WITH BARRIERS AND PERSISTENT SIGNAL
TC_Pass_Point : constant integer := 23;
begin
TC_Passage ( TC_Pass_Point ); -- note passage through here
Release_One_Vehicle := false; -- Consume the signal
-- Decrement number of vehicles on ramp
Subtract_Meter_Queue; -- CALL PROCEDURE FROM WITHIN ENTRY BODY
end Wait_at_Meter;
procedure Time_Pulse_Received is
Load : Load_factor := Freeway_Overload; -- CALL MULTILEVEL
-- FUNCTION
-- FROM WITHIN PROCEDURE
begin
-- if broken down, no vehicles are released
if not Freeway_Breakdown then -- CALL FUNCTION FROM A PROCEDURE
if Load < Moderate_Level then
Release_One_Vehicle := true;
end if;
null; -- stub ::: If other levels, release every other
-- pulse, every third pulse etc.
end if;
end Time_Pulse_Received;
end Test_Ramp;
--================================================================
-- Simulate the arrival of a vehicle at the Ramp_Receiver and the
-- generation of an accompanying carrier task
procedure New_Arrival is
Next_Vehicle_Task: acc_Vehicle := new Vehicle;
TC_Pass_Point : constant integer := 3;
begin
Test_Ramp.TC_Passage ( TC_Pass_Point ); -- Note passage through here
null;
end New_arrival;
-- Carrier task. One is created for each vehicle arriving at the ramp
task body Vehicle is
TC_Pass_point : constant integer := 1;
TC_Pass_Point_2 : constant integer := 21;
TC_Pass_Point_3 : constant integer := 2;
begin
Test_Ramp.TC_Passage ( TC_Pass_Point ); -- note passage through here
if Test_Ramp.Meter_in_Use_State then
Test_Ramp.TC_Passage ( TC_Pass_Point_2 ); -- note passage
-- Increment count of number of vehicles on ramp
Test_Ramp.Add_Meter_Queue; -- CALL a protected PROCEDURE
-- which is also called from within
-- enter the meter queue
Test_Ramp.Wait_at_Meter; -- CALL a protected ENTRY
end if;
Test_Ramp.TC_Passage ( TC_Pass_Point_3 ); -- note passage thru here
null; --:::: call to the first in the series of the Ramp_Sensors
-- this "passes" the vehicle from one sensor to the next
exception
when others =>
Report.Failed ("Unexpected exception in Vehicle Task");
end Vehicle;
-- Task transmits a synchronizing "pulse" to all ramps
--
task body Pulse_Task is
Pulse_Time : Ada.Calendar.Time := Ada.Calendar.Clock;
begin
While not Control.Stop loop
delay until Pulse_Time;
Test_Ramp.Time_Pulse_Received; -- causes INTERNAL CALLS
-- :::::::::: and to all the others
Pulse_Time := Pulse_Time + Pulse_Time_Delta; -- calculate next
end loop;
exception
when others =>
Report.Failed ("Unexpected exception in Pulse_Task");
end Pulse_Task;
begin -- declare
-- Test driver. This is ALL test control code
-- First simulate calls to the protected functions and procedures
-- from without the protected object
--
-- CALL FUNCTIONS
if Test_Ramp.Local_Overload /= Clear_Level then
Report.Failed ("External Call to Local_Overload incorrect");
end if;
if Test_Ramp.Next_Ramp_in_Overload /= Clear_Level then
Report.Failed ("External Call to Next_Ramp_in_Overload incorrect");
end if;
if Test_Ramp.Freeway_Overload /= Clear_Level then
Report.Failed ("External Call to Freeway_Overload incorrect");
end if;
-- Now Simulate the arrival of a vehicle to verify path through test
New_Arrival;
delay Pulse_Time_Delta*2; -- allow it to pass through the complex
TC_Multiplier := 5; -- change the weights for the paths for the next
-- part of the test
-- Simulate a real-time sensor reporting overload
Test_Ramp.Set_Local_Overload; -- CALL A PROCEDURE (and change levels)
-- CALL FUNCTIONS again
if Test_Ramp.Local_Overload /= Minimum_Level then
Report.Failed ("External Call to Local_Overload incorrect - 2");
end if;
if Test_Ramp.Freeway_Overload /= Minimum_Level then
Report.Failed ("External Call to Freeway_Overload incorrect -2");
end if;
-- Now Simulate the arrival of another vehicle again causing
-- INTERNAL CALLS but following different paths (queuing on the
-- meter etc.)
New_Arrival;
delay Pulse_Time_Delta*2; -- allow it to pass through the complex
Control.Stop_Now; -- finish test
if TC_Expected_Passage_Total /= Test_Ramp.TC_Get_Passage_Total then
Report.Failed ("Unexpected paths taken");
end if;
end; -- declare
Report.Result;
end C940005;