I'm trying to solve the exercice 5.10 of the book "Foundations of Multithreaded, Parallel, and Distributed Programming".

The exercice is

"Assume one producer process and N consumer processes share a bounded buffer having B slots. The producer deposits messages in the buffer; consumers fetch them. Every message deposited by the producer is to be received by all N consumers. Futthermore, each consumer is to receive the messages in the order theu were deposited. However, consumers can receive messages at different times. For example, one consumer could receive up to B more messages than another if the second consumer is slow. Develop a monitor that implements this kind of communication. Use Signal and Continue discipline."

Thank you very much!

-- EDIT:

I'm commenting now what I already made (cause I thought that the question was very big if I wrote everything that).

``````/* creating a buffer of B positions. */
global buffer[B];
Monitor {

cond ok_write;
int stamp_buffer[B] = [0, 0, .., 0]

request_write (int pos){
if (stamp_buffer[pos] > 0)
wait(ok_write);
write_message (buufer[pos]);
stamp_buffer[pos] = N;
}

if (stamp_buffer[pos] == 0)
stamp_buffer[pos] --;
}

if (stamp_buffer[pos]==0)
signal(ok_write);
}

}
``````

So, I think that I still have that problem: "A reader can read the same message two times."

The basic idea of my algorithm is: The writer write in a position "pos" and set the value of stamp[pos] to N. Then, when each reader read the position pos, it do stamp[pos] - 1. So, if stamp[pos] is zero, the message buffer[pos] was already readed N times and the writer can write in this position again.

But, if some reader read a message two times (or more), the writer can wirte a new message in the position pos and some reader will not read the old message.

-
Thank you. I'm commenting now what I already did (cause I thought that the question was very big if I wrote everything that). /* creating a buffer of B positions. */ global buffer[B]; Monitor { cond ok_write; cond ok_read; int stamp_buffer[B] = [0, 0, .., 0] request_write (int pos){ ..if (stamp_buffer[pos] > 0) ....wait(ok_write); ..write_message (buufer[pos]); ..stamp_buffer[pos] = N; ..signalAll (ok_read); } request_read (int pos){ ..if (stamp_buffer[pos] == 0) ....wait (ok_read); ..stamp_buffer[pos] --; } release_read (int pos){ ..if (stamp_buffer[pos]==0){ ....signal(ok_write); } } –  Vitor Jun 27 '13 at 14:34
I'm sorry. I'm new here and I did nor know that we could not to post code in the comments. –  Vitor Jun 27 '13 at 14:44
Ok, Yve. I'm reading the links now. Cannot you to cancel the negavite votes? Thank you. –  Vitor Jun 27 '13 at 14:51