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Consider the following two alternatives of getting the higher number between currentPrice and 100...

int price = currentPrice > 100 ? currentPrice : 100

int price = Math.Max(currentPrice, 100)

I raised this question because I was thinking about a context where the currentPrice variable could be edited by other threads.

In the first case... could price obtain a value lower than 100?

I'm thinking about the following:

if (currentPrice > 100) {
    //currentPrice is edited here.
    price = currentPrice;
}
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4 Answers

up vote 7 down vote accepted

It is not threadsafe.

?: is just shortcut for normal if, so your if sample is equivalent to ? one - you can get price lower than 100 if there is no locking outside this code.

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Contrary answer in few minutes? :D –  dotNETbeginner Oct 13 '12 at 6:39
    
@dotNETbeginner :) Good observation. when I read my first answer I wanted to give me -10 too. –  Alexei Levenkov Oct 13 '12 at 17:31
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Not a specialist in C#, but even var++ is not thread save, since may translated to from reading into/writing from register in assembly.

Ternary operator is far more complicated. It has 3 parts, while each part can be endlessly big (e.g. call to some function). Therefore, it's pretty easy to conclude that ternary operator is not thread safe.

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+1; I'm afraid x86 won't let you INCrement a memory location, so it will be translated as a move to registry / increment / move to memory combo. –  Jan Dvorak Oct 13 '12 at 6:58
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In theory, currentPrice is read twice. Once for comparison, once for assignment.

In practice, the compiler may cache the access to the variable. I don't know about C# but in C++ on x86:

MOV AX, [currentPrice]
MOV BX, 100 ;cache the immediate
CMP AX, BX
JLE $1      ;if(currentPrice > 100){
MOV AX, BX
$1:         ;}
MOV [BP+price], AX ;price is on the stack.

The same load-once optimisation happens in Java bytecode unless currentPrice is declared volatile.

So, in theory, it can happen. In practice, on most platforms, it won't, but you cannot count on that.

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As stated by others, it might be cached but the language does not require it.

You can use Interlocked.CompareExchange if you need lock-free threadsafe assignments. But given the example, I'd go for a more coarse grained locking strategy.

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