# Show how counting semaphorescan be implemented using only binary semaphores and ordinary machine instructions?

I am studying for a midterm and this was one of the practice questions: Show how counting semaphores (i.e, semaphores that can hold an arbitrary value) can be implemented using only binary semaphores and ordinary machine instructions?

I'm not even sure where so start.

I found this online,

P(s) { Pb(mutex_s); s = s-1; if(s < 0) {Vb(mutex_s); Pb(delay_s);} Vb(mutex_s); } V(s) { Pb(mutex_s); s = s+1; if(s <= 0) Vb(delay_s); else Vb(mutex_s); }

Unfortunately, I don't really understand what the answer is telling me. Can anyone explain this answer to me, or show me in pseudo code how to answer?

Thank you!

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Let x, y be binary semaphore. We are going to implement counting semaphore S by it.P stand for wait operation and V for signal. Since we are taking S=4 so only 4 process can enter critical section.

``````S=4,x=1,y=0;
``````

/---P(S)---/ {P(x);S--;if(s<=0){V(x);P(y);}else V(x); }

/--CRITICAL SECTION--/

/--V(S) ---/ { P(x); S++;IF(S>0){ V(y);V(x); }else V(x);}

NOTE: P(x) decrease value of x by 1 while V(x) increases by 1,same for y. y is called hanging semaphore as P(y) put all those process in queue if S< 0.

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Figured it out:

``````int s = N;
semaphore mutex_s = 1;
semaphore delay_s = 0;

p(s) = down
down(mutex_x);
s--;

if (s< n)
up(mutex_s)
down(delay_s)
up(mutex_s)

V(s) = up
down(mutex_s)
s++
if (s<=0)
up(delay_s)
up(mutex_s)
``````
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Great solution, but i think that line 7 is wrong. It should be: "if (s < 0)..." not "if (s < n)..." –  Sharlie M Mar 13 at 21:07