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Update: I just stumbled upon this in Eric Lippert's answer to another question (he is quoting the spec):

Reads and writes of other types, including long, ulong, double, and decimal, as well as user-defined types, are not guaranteed to be atomic.

OK, so reading a double is not atomic. This means the value could get modified mid-read, right? So how does one read a double value atomically?

I notice there's an Interlocked.Read method for long values. This makes sense to me, as reading a 64-bit value must require two steps and therefore be subject to race conditions just like every other non-atomic action.

But there's no Interlocked.Read for double values, even though System.Double is a 64-bit value.

I am seeing some strange behavior in my program where my GUI, which displays a double in a text box while that double is also being frequently updated by other threads, is showing the correct value (in the vicinity of 200.0) most of the time, and then randomly showing an erroneous value (like -0.08) occasionally.

Maybe this is a threading issue, or maybe it's something else. But first off I wanted to narrow down the possiblities. So: is reading a double thread-safe?

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Keep in mind that even if reading is atomic, it won't help you if writing isn't. – nos Sep 9 '10 at 13:16
@nos: Right. But it's strange because the Interlocked class does provide atomic write operations: Exchange and CompareExchange both accept double arguments. – Dan Tao Sep 9 '10 at 13:20
@Dan, in response to the follow-up question in your edit, see Jon Skeet's answer to another question here‌​, in which he suggests using BitConverter to move between long and double (in conjunction with Interlocked.Read). – Jeff Sternal Sep 9 '10 at 13:20
@Jeff: Nice, I will check that out. – Dan Tao Sep 9 '10 at 13:20
@Jeff: Locks are pretty fast if they are not contended. And if they are contended then clearly you have larger problems to deal with; best to fix whatever architectural issue is causing the contention than to live dangerously with low-lock techniques that are easy to get wrong. – Eric Lippert Sep 9 '10 at 14:13
up vote 9 down vote accepted

The usual way: control access with a lock.

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Basically, this seems to be the most sensible answer (and came first, though Eric's is also quite informative). I am intrigued by the possibility of other, more adventurous, approaches; but I will pursue those on my own time and accept this is the reasonable thing to do in nearly all cases. – Dan Tao Oct 11 '10 at 12:47

is reading a double thread-safe?

No. As the spec says

Reads and writes of other types, including long, ulong, double, and decimal, as well as user-defined types, are not guaranteed to be atomic.

Moving on.

This means the value could get modified mid-read, right?


So how does one read a double value atomically?

You take a lock out around every access to the mutable variable.

And a question you didn't ask, but often gets asked as a follow-up to your questions:

Does making a field "volatile" make reads/writes of it atomic?

No. It is not legal to make a volatile field of type double.

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The CLR only promises a variable alignment of 4. Which means that it is quite possible for a long or double to straddle the boundaries of a CPU cache-line. That makes the read guaranteed to be non-atomic.

It is also a fairly serious perf problem, reading such a poorly aligned variable is over 3 times as slow. Nothing you can really do about it beyond hacking pointers.

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If there is a cache miss on the x86 fld instruction, I'm not sure if the CPU will allow a partial load to the FPU register. My guess is that the CPU itself will do some interlocking to preserve atomicity of FPU operations. I haven't found Intel docs to either prove or disprove this. Still, even if Intel CPUs do this, others may not. – Dan Bryant Sep 10 '10 at 0:27

Use Interlocked.Exchange OR Interlocked.CompareExchange for atomic read like this.

Interlocked.Exchange(ref somevariable, somevariable)

It returns original value.

If you want to avoid writing use compareExchange.

Interlocked.CompareExchange(ref somevariable, somevalue, somevalue);

This will replace the variable with the second argument if it is equal to the third argument, and return the original value. By using the same value (e.g., zero) in both spots it guarantees that the value of the variable is not changed.

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