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In iOS, atomic just guarantee write/read safe. Not thread safe. Someone said thread safe is a higher level. I confuse about their difference. Does w/r safe sometimes could be used to implement thread safe? And when atomic cannot guarantee
Thread safe. Why we use it in multiple threads?

marked as duplicate by matt ios Oct 7 '18 at 15:43

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As an example, consider a 64-bit long integer type running on a 32-bit processor. Since the processor only operates with 32 bits at a time, updating the long looks something like this pseudo-assembly:

mov %r1, [addr]
mov %r2, [addr+4]

If the variable starts with the value of 0 and you try to write 0xffffffff to it, then it is possible that execution gets interrupted between these two instructions and other code reading the memory reads the value 0x0000ffff.

An atomic update guarantees that the entire value is written as a single operation, some way or another, so that while (since it's not thread-safe) you aren't guaranteed exactly when another thread will see an updated value, you are guaranteed that whenever it does see a value, it won't be partly updated but will be a completely correct (even if perhaps outdated) value. This concept can be extended to more complex data types where it is relevant.

  • So, it can't ensure thread safe. And atomic could be used as a step to implement thread safe. And thread safe is a higher level, we use locks – showlog Oct 8 '18 at 0:22
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atomic guarantees exclusive execution only on a single property, that is, you can't read/write a single property on an object at the same time.

However, atomic doesn't guarantee that two different properties of the same object are exclusively accessed/written to at the same time.

The most common example given to illustrate this is a Person class with firstName and lastName properties.

let person = Person()

// Thread 1
person.firstName = "Name1"
person.lastName = "LastName1"

// Thread 2
person.firstName = "Name2"
person.lastName = "LastName2"

In the worst case, person could end up being Name1 LastName 2 or Name2 LastName1.

This is where the higher level thread safety comes into place, I'm using lock/unlock as a placeholder of the platform/language specific locking mechanism.

let person = Person()

// Thread 1
lock(person)
person.firstName = "Name1"
person.lastName = "LastName1"
unlock(person)

// Thread 2
lock(person)
person.firstName = "Name2"
person.lastName = "LastName2"
unlock(person)

With this locking/unlocking, we guarantee that setting firstName and lastName on person are executed together.

  • Yes, from this aspect, thread safe is a higher level about transactions in the program. W/R safe is a common and lower level and doesn't have a relationship with the logical in our program. Is it right? – showlog Oct 8 '18 at 0:31

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