# thread in single processor system

these two thread run concurrently in a shared memory (all variables are shared between the two threads):

``````for (i=0; i<5; i++) {
x = x + 1;
}
``````

``````for (j=0; j<5; j++) {
x = x + 2;
}
``````

Assume a single-processor system
a- Give a concise proof why x≤15 when both threads have completed.
b- Suppose we replace x = x+2 in Thread B with x = x-1 what will be the value of X.

I do not understand this question and I google it and I found answer but I can not get it I wanna some explanation for it.

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Stackoverflow tends to be pretty open about helping people with homework, but please tag it as such. –  gbtimmon Nov 12 '12 at 17:20
@gbtimmon - Actually, the [homework] tag is now obsolete. –  ArjunShankar Nov 12 '12 at 17:20
@gbtimmon the homework tag is deprecated and is not to be used. –  Joe Nov 12 '12 at 17:20
@ArjunShankar gbtimmon I can read over and over again why they removed the homework tag, still doesn't make sense. Lots of questions loose their context without this tag and can be closed. –  UmNyobe Nov 12 '12 at 17:31
@Suzana : Added an answer –  Grijesh Chauhan Nov 13 '12 at 5:54

If the threading works perfectly, the highest value 'x' can have is 15. This all depends on the scheduler of the operating system.

Note that I am assuming the initial value of x is 0! Lets say that Thread A and Thread B are serialized. The value of x after Thread A is complete will be 5.

`````` i | x
-------
0 | 1
1 | 2
2 | 3
3 | 4
4 | 5
``````

The value of x going into Thread B will be 5, resulting x to be a final value of 15

`````` i | x
-------
0 | 7
1 | 9
2 | 11
3 | 13
4 | 15
``````

Now, things typically don't happen this way, and a thread will both read an initial value of x and do their addition, then write their modified value back into memory. The following can happen.

``````Thread A reads the value 'x' as 0
Thread B reads the value 'x' as 0
Thread A adds 1 to x making its local copy of x, 1
Thread B adds 2 to x making its local copy of x, 2
Thread A writes its modified value of x as 1
Thread B writes its modified value of x as 2 (overwriting Thread A's modification)
``````

Therefore, x will be no more than 15, but depending on the scheduler, will be less!

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The this is typically called a `race condition` see here for more en.wikipedia.org/wiki/Race_condition –  gbtimmon Nov 12 '12 at 17:28
thank you i got it thank you –  Suzana Nov 12 '12 at 22:40
+1 for Good Explanation. –  Ayse Apr 20 '13 at 5:43

a) Instruction `x=x+1` is not single instruction at low level and It consist of sequence of read x, then add 1 to x and then update x's memory . Hence it may be happen two threads read same value of x.

Suppose, if two threads read same value of x variable then update x and write back to x this cause x < 15.

b) For the same reason value of x may be between 0 to 5 if your instruction is `x=x-1`.

compile your c code with `-S option` it will create a compiled assemble code for your program. Then you can `understand x = x + 1 is not a single instruction`. And switching between threads can be possible before completion of `x = x + 1` instruction hence its not atomic.