This is an assignment and I have been asked to implement a Semaphore in Ada as the description below.
However I have implemented the
Semaphore.adb and called this Semaphore in the
producerconsumer_sem.adb which I created.
I get some output which is the following.
I'm not sure if my initialization of semaphore is correct
I don't know where I call the
S.Signalnow i randomly called the
S.waitbefore Producer put item in the buffer
X := I;and the
X := I;. Is this the correct way?
Producer-Consumer Problem The program
producerconsumer.adbimplements a non-reliable implemen- tation of the producer-consumer problem, where data is likely be lost. In the following, you will use three different communication mechanisms to achieve a reliable implementation of the producer-consumer problem.
The Ada language does not directly provide library functions for a semaphore. However, semaphores can be implemented by means of a protected object. Create a package specification Semaphore in the file Semaphores.ads and the corresponding package body in the file
Semaphores.adbthat implements a counting semaphore. Skeletons for the package are available on the course page.
Use the semaphore package for a reliable implementation of the producer- consumer problem. Modify the file
producerconsumer.adband save the final code as
producerconsumer_sem.adb. In order to use the semaphore package it shall be installed in the same directory as
producerconsumer_sem.adb. It can then be accessed by
OutPut: 1 1 1 2 2 3 4 4 5 6 6 7 7 8 9 9 9 10 11 11 11 12 12 13 13 13 14 15 15 16 16 17 18 18 18 19 20 20 21 21 22 22 23 24 24 24 24 25 25 26 27 27 28 29 29 30 30 31 31 32 32 33 33 33 34 35 35 35 36 36 37 37 37 38 38 38 39 40 40 40
package Semaphores is protected type CountingSemaphore(Max: Natural; Initial: Natural) is entry Wait; entry Signal; private Count : Natural := Initial; MaxCount : Natural := Max; end CountingSemaphore; end Semaphores;
The Semaphore I implemented
package body Semaphores is protected body CountingSemaphore is entry Wait when Count > 0 is begin Count := Count - 1; end Wait; entry Signal when Count < MaxCount is begin Count := Count + 1; end Signal; end CountingSemaphore; end Semaphores;
with Ada.Text_IO; use Ada.Text_IO; with Ada.Real_Time; use Ada.Real_Time; with Ada.Numerics.Discrete_Random; with Semaphores; use Semaphores; procedure ProducerConsumer_sem is X : Integer; -- Shared Variable N : constant Integer := 40; -- Number of produced and comsumed variables S: CountingSemaphore(1,1); --S1: CountingSemaphore(1,1); pragma Volatile(X); -- For a volatile object all reads and updates of -- the object as a whole are performed directly -- to memory (Ada Reference Manual, C.6) --Random Delays subtype Delay_Interval is Integer range 50..250; package Random_Delay is new Ada.Numerics.Discrete_Random (Delay_Interval); use Random_Delay; G : Generator; task Producer; task Consumer; task body Producer is Next : Time; begin Next := Clock; for I in 1..N loop -- Write to X S.Wait; X := I; S.Signal; --Next 'Release' in 50..250ms Next := Next + Milliseconds(Random(G)); Put_Line(Integer'Image(X)); delay until Next; end loop; end; task body Consumer is Next : Time; begin Next := Clock; for I in 1..N loop -- Read from X S.Wait; Put_Line(Integer'Image(X)); S.Signal; Next := Next + Milliseconds(Random(G)); delay until Next; end loop; end; begin -- main task null; end ProducerConsumer_sem;