In code like the following, if Proc1 and Proc2 execute simultaneously on different processors, is it possible for ThingVal2 to get a value other than 5 (e.g. zero)?
Class SimpleThing Public X As Integer Sub New(ByVal value As Integer) X = value End Sub End Class Class ConcurrencyTest Dim Thing1 As New SimpleThing(5) Dim Thing2 As New SimpleThing(0) Dim ThingRef As SimpleThing = Thing1 Dim ThingVal1, ThingVal2 As Integer Sub Proc1() Thing2.X = 5 Threading.Thread.MemoryBarrier() ThingRef = Thing2 End Sub Sub Proc2() ThingVal1 = Thing2.X ThingVal2 = ThingRef.X End Sub End Class
I know that in a weak model like IA64, there is a real possibility that Proc2 might see ThingRef as having changed but not see field X of Thing2 as having done so. Does that risk exist for a .Net application running on x86 or x64? If Proc1 created a new instance of SimpleThing, set its X field to 5, and then set ThingRef to point to it, would that be sufficient to avoid danger, or would it be possible that the new thing might be allocated on a cache line which was shared with something else that the Proc2 thread had accessed?
A common paradigm with multi-threaded code is to construct an immutable object and set a mutable reference to point to it (possibly using Interlocked.CompareExchange). Is it always safe under x86/x64 to read an immutable type without regard to threading, or can that cause problems? If the latter, what's the preferred way in vb.net to guarantee reliable behavior?
Also, is there any way of specifying that code must run in a way where such problems could not occur (e.g. limiting execution to a single core on something like an IA64 which could not otherwise guarantee correct operation)?