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I've wrote simple example of NasdaqIndex calculation. For simplicity I declared it as int and this is just sum of prices of 10 stocks.

class NasdaqIndex {

private int[] stockValue = new int[10]; // for simplicity let's assume they are already initialized

// just sum from 1 to 10 of stockValue
private int nasdaqIndexValue; // for simplicity let's assume that already initialized

public void StockValueUpdated(int stockValueIndex, int newValue) {
    int diff = newValue - stockValue[stockValueIndex];
    stockValue[stockValueIndex] = newValue;
    nasdaqIndexValue += diff;               // THIS NEED TO BE SYNCHRONIZED!


But in real life StockValueUpdated may (and will) be called parallel from different threads for different stockValueIndex (it will not be called parallel for the same stockValueIndex).

So I just have to synchronize only one line of code nasdaqIndexValue += diff;

For example if one thread executes nasdaqIndexValue += 10; and another thread executed nasdaqIndexValue += 3; I need to be sure that tottally exactly 13 is added. Do I need synchronization in this case at all? If so how to do that using lock-free code?

UPD oooops I just realized that using such code I introduce small "delta" to nasdaqIndex every time if I'm using doubles. So I have either use decimal or I have to "recalculate completely" nasdaqIndex sometimes, otherwise it will not be equal to sum of stocks after a while.

share|improve this question
Integer operations are atomic, but I'm not sure how far that goes... – Ryan O'Hara Jul 5 '12 at 13:48
Why does it need to be lock free? – Charlie Kilian Jul 5 '12 at 13:49
@CharlieKilian because it would be faster – javapowered Jul 5 '12 at 13:49
@javapowered: That's what I'm finding out; I don't know if that would be optimized to an atomic operation. Or maybe I'm just confused this morning and it obviously won't work :) Anyway, your "synchronized" and "lock-free" requirements are incompatible. – Ryan O'Hara Jul 5 '12 at 13:53
@CharlieKilian yes I profilied, i was using BlockingCollection and that introduce 18 mcs delay, while with lockfree code I only have 2 mcs delay. – javapowered Jul 5 '12 at 13:55
up vote 1 down vote accepted

Use Interlocked type to make that operation as atomic:

Interlocked.Add(ref nasdaqIndexValue, diff);
share|improve this answer
That's ++, not += diff. – Ryan O'Hara Jul 5 '12 at 13:53
Yep, my fault, thx! – Sergei Bedulenko Jul 5 '12 at 13:54
Updated my answer – Sergei Bedulenko Jul 5 '12 at 13:55
but in real life I need to do that for decimals. If this is possible? – javapowered Jul 5 '12 at 14:06
@javapowered: Not with Interlocked.Add... – Ryan O'Hara Jul 5 '12 at 14:08

Use the volatile keyword.

The volatile modifier is usually used for a field that is accessed by multiple threads without using the lock statement to serialize access.

private volatile int nasdaqIndexValue; // for simplicity let's assume that already initialized
share|improve this answer
i'm not sure if this will help. Interlocked.Add sounds exactly as what I need – javapowered Jul 5 '12 at 14:06
Interlocked will work but so will volatile. I like volatile because it doesn't "interfere" with the readability of the code. – Jim Jul 5 '12 at 14:24
I didn't see you were using this with double/decimal in your real world scenario, so yeah volatile won't work with that. – Jim Jul 5 '12 at 14:35

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