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The Documentation for the clojure "atom" states that -

"Changes to atoms are always free of race conditions."

However- a race condition is defined not just in terms of a change , but rather, in context of parallel logical operations in different threads.

I am wondering - what is the significance of the guarantee that "Changes to atoms are always free of race conditions"? In java, we have atomic primitives, which support certain thread-safe operations which are specific (for example, the AtomicInteger supports a "getAndIncrement" operation). But Clojure atoms are type-agnostic, for example, we can invoke :

  (atom "Hi im a string")  Or
  (atom (.getClass Object))

The flexibility of the atom method means that Clojure, under the hood, is not "smartly" providing type-specific atomic / thread-safe operations for atoms.

Thus, I would ask -- what exactly is the atom method "doing" to our objects (i.e. is it simply synchronizing the whole object?)

1 Answer 1

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An atom is effectively an atomic storage location that is guaranteed to be thread safe.

Atoms are similar to Java's atomic data types (like AtomicReference), but are actually somewhat more powerful since an atom allows you to use an arbitrary function to update the atom. Example:

(def a (atom "foo"))

(defn appender [x]
  "Higher order function that returns a function which appends a specific string"
  (fn [s] 
    (str s x)))

(swap! a (appender "bar"))
=> "foobar"

In the above example, the swap! operation behaves atomically, even though the appender operation we are passing to it could potentially be a quite complex function. In effect, atoms allow you to use an arbitrary update operation in an atomic way (you should normally stick to pure functions since it is possible for the function to be called multiple times in the event of contention).

Atoms obviously don't guarantee thread safety of objects you put inside them (e.g. if you put an unsynchronised Java ArrayList inside, then it's still unsafe for concurrent usage). However if you stick to Clojure's immutable data types which are all completely thread safe then you will be good.

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    "These functions are guaranteed to be executed sequentially" - this is not exactly what the atom guarantees. The actual guarantee is that swap a f remembers the value of a, passes it to f and if the value of a after f is finished is still equal to the old value, it is then replaced by the result of f. Many other functions could have been applied to a in the meantime, as long as their effects cancel each other out. Mar 12, 2012 at 15:04
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    @Rafal - thanks good spot, I have updated the answer to be a bit more precise.
    – mikera
    Mar 12, 2012 at 15:53
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    @myself: The underlying comparison is actually Java's == (object identity), so instead of "equal" I should have written 'identical' and instead of "cancel each other out" -> "leave the atom referencing the same object". Mar 12, 2012 at 16:58
  • oh okay.... now i see why it is called swap -> its assuming that the modifier has an accurate pre-representation of the value .
    – jayunit100
    Mar 12, 2012 at 18:44

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