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Is it safe for a thread to READ a variable set by a Delphi VCL event?

When a user clicks on a VCL TCheckbox, the main thread sets a boolean to the checkbox's Checked state.

CheckboxState := CheckBox1.Checked;

At any time, a thread reads that variable

if CheckBoxState then ...

It doesn't matter if the thread "misses" a change to the boolean, because the thread checks the variable in a loop as it does other things. So it will see the state change eventually...

Is this safe? Or do I need special code? Is surrounding the read and write of the variable (in the thread and main thread respectively) with critical code calls necessary and sufficient?

As I said, it doesn't matter if the thread gets the "wrong" value, but I keep thinking that there might be a low-level problem if one thread tries to read a variable while the main thread is in the middle of writing it, or vice versa.

My question is similar to this one: http://stackoverflow.com/questions/1353096/cross-thread-reading-of-a-variable.

(Also related to my previous question: http://stackoverflow.com/questions/2449183/using-entercriticalsection-in-thread-to-update-vcl-label)

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Note that VCL events aren't really anything special. Your question applies equally well to accessing the variable from any kind of function in any two threads. –  Rob Kennedy Apr 8 '10 at 15:06
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3 Answers

up vote 6 down vote accepted

This is safe, for three reasons:

  • Only one thread writes to the variable.

  • The variable is only one byte, so there is no way to read an inconsistent value. It will be read either as True or as False. There can't be alignment issues with Delphi boolean values.

  • The Delphi compiler does no extensive checks whether a variable is actually written to, and does not "optimize" away any code if not. Non-local variables will always be read, there is no need for the volatile specifier.

Having said that, if you are really unsure about this you could use an integer value instead of the boolean, and use the InterlockedExchange() function to write to the variable. This is overkill here, but it's a good technique to know about, because for single machine word sized values it may eliminate the need for locks.

You can also replace the boolean by a proper synchronization primitive, like an event, and have the thread block on that - this would help you eliminate busy loops in the thread.

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In your case (Checked property) a read operation is atomic, so it is safe. That is the same as with TThread.Terminated property; the simple read and write operations for the properly aligned bytes, words and doublewords are atomic. You can check intel documentation for more information:

CHAPTER 8 - MULTIPLE-PROCESSOR MANAGEMENT

8.1.1 Guaranteed Atomic Operations

The Intel486 processor (and newer processors since) guarantees that the following basic memory operations will always be carried out atomically:

  • Reading or writing a byte
  • Reading or writing a word aligned on a 16-bit boundary
  • Reading or writing a doubleword aligned on a 32-bit boundary

The Pentium processor (and newer processors since) guarantees that the following additional memory operations will always be carried out atomically:

  • Reading or writing a quadword aligned on a 64-bit boundary
  • 16-bit accesses to uncached memory locations that fit within a 32-bit data bus
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For the example you give, it will be safe. Technically the main issue is in cases where your variable goes over a machine word in size, and thus you might get the high word and long word not synchronized. For small values though, this is not an issue.

If you think it is a potential problem, for example using a pointer, then the thing to use is a TCriticalSection to control read and writes to the item. This is fast enough for all practical situations, and ensures you are 100% safe.

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