I was reading a kernel code, and in one place I've seen an expression inside if statement like

if (value == (SPINLOCK_SHARED | 1) - 1) {

where SPINLOCK_SHARED = 0x80000000 is a predefined constant.

I wonder why do we need (SPINLOCK_SHARED | 1) - 1 - for type conversion purpose? the result of the expression would be 80000000-- same as 0x80000000, is it not? yet, why ORing 1 and Subtracting 1 matters?

Have a feeling like I am missing to get something..

  • 3
    #define SPINLOCK_SHARED 0x80000000
    – RaGa__M
    Dec 19, 2019 at 12:35
  • 1
    I suspect there's no reason. Possibly a copy-paste thing. Could you add where exactly you found this (which version of which kernel, which file, etc.). Dec 19, 2019 at 12:39
  • 2
  • 2
    The same source code file also contains if (atomic_cmpset_int(&spin->counta, SPINLOCK_SHARED|0, 1)). Dec 19, 2019 at 12:58
  • 2
    Then I think we need to ask the author why it was changed.
    – funnydman
    Dec 19, 2019 at 13:01

6 Answers 6


The code is found in _spin_lock_contested, which is called from _spin_lock_quick when someone else is attempting to obtain the lock :

count = atomic_fetchadd_int(&spin->counta, 1);
if (__predict_false(count != 0)) {
    _spin_lock_contested(spin, ident, count);

If there's no contest, then count (the previous value) should be 0, but it isn't. This count value is passed as parameter to _spin_lock_contested as the value parameter. This value is then checked with the if from the OP :

 * WARNING! Caller has already incremented the lock.  We must
 *      increment the count value (from the inline's fetch-add)
 *      to match.
 * Handle the degenerate case where the spinlock is flagged SHARED
 * with only our reference.  We can convert it to EXCLUSIVE.
if (value == (SPINLOCK_SHARED | 1) - 1) {
    if (atomic_cmpset_int(&spin->counta, SPINLOCK_SHARED | 1, 1))

Keeping in mind that value is the previous value of spin->counta, and the latter has already been incremented by 1, we expect spin->counta to equal value + 1 (unless something has changed in the meantime).

So, checking if spin->counta == SPINLOCK_SHARED | 1 (the precondition of the atomic_cmpset_int) corresponds to checking if value + 1 == SPINLOCK_SHARED | 1, which can be rewritten as value == (SPINLOCK_SHARED | 1) - 1 (again, if nothing has changed in the meantime).

While value == (SPINLOCK_SHARED | 1) - 1 could be rewritten as value == SPINLOCK_SHARED, it's left as is, to clarify the intent of the comparison (ie. to compare the incremented previous value with the test value).

Or iow. the answer appears to be : for clarity and code consistency.

  • Thanks for your response, everything except (SPINLOCK_SHARED | 1) - 1 part is understandable and value == SPINLOCK_SHARED is my thought too, because we are checking whether the previous value has shared-flag set.if yes, turn the lock into exclusive.........
    – RaGa__M
    Dec 19, 2019 at 13:19
  • 1
    @RaGa__M : the intent of the if check is to check whether value + 1 (which should be the same value as spin->counta if nothing has changed in the meantime) equals SPINLOCK_SHARED | 1. If you write the if check as value == SPINLOCK_SHARED, this intent is not clear, and it would be a lot harder to figure out what the check means. Keeping both SPINLOCK_SHARED | 1 and - 1 explicitly in the if check is intentional. Dec 19, 2019 at 13:26
  • But it is actually causing confusion.
    – RaGa__M
    Dec 20, 2019 at 5:30
  • Why not if (value + 1 == (SPINLOCK_SHARED | 1) )?
    – Pablo H
    Dec 20, 2019 at 20:09
  • Well....it simply could be value & SPINLOCK_SHARED which is more readable.
    – RaGa__M
    Dec 21, 2019 at 7:09

I think the goal is probably to ignore the lowest significant bit:

  • If SPINLOCK_SHARED expressed in binary is xxx0 -> result is xxx0
  • If SPINLOCK_SHARED = xxx1 -> result is also xxx0

would have been perhaps clearer to use a bit mask expression ?

  • 8
    That's what the code does, but the question is why would you do that for a defined constant that doesn't have the least significant bit set ? Dec 19, 2019 at 12:37
  • 4
    @SanderDeDycker Because Linux kernel?
    – Lundin
    Dec 19, 2019 at 12:39
  • 9
    @Lundin The linux kernel is not exempt from understandable coding practices. Quite the opposite. Dec 19, 2019 at 12:40
  • 1
    @Qix I strongly disagree. Read the Linux kernel coding style document. It's a "garage-hacking" quality document, completely exempt from rationales.
    – Lundin
    Dec 19, 2019 at 12:41
  • 2
    @Qix If you say so. I was a big fan of Linux until I peeked at the code and read the kernel coding style document. Nowdays I keep a 10 meter safety distance to Linux computers.
    – Lundin
    Dec 19, 2019 at 12:53

The effect of


is to ensure that the low-order bit of the result is cleared prior to the comparison with value. I agree that it seems rather pointless but apparently the low-order bit has a particular usage or meaning which is not apparent in this code, and I think we have to assume that the devs had a good reason for doing this. An interesting question would be - is this same pattern (| 1) -1) used throughout the codebase you're looking at?


It's an obfuscated way of writing a bit mask. Readable version: value == (SPINLOCK_SHARED & ~1u).

  • 5
    Yes, but why. The OP is asking why this would be the case if SPINLOCK_SHARED is a known constant. If they're simply testing for SPINLOCK_SHARED being present in a mask, why not if (value & SPINLOCK_SHARED)? Dec 19, 2019 at 12:39
  • 4
    value == (SPINLOCK_SHARED & ~1u) is not equivalent because value == (SPINLOCK_SHARED | 1) - 1 works even if the type of SPINLOCK_SHARED is wider than unsigned. Dec 19, 2019 at 12:42
  • 4
    Honestly, I'm not sure that & ~1u is any clearer. I thought of suggesting & 0xFFFFFFFE in my answer but realized that's also not really clear. Your suggestion does have the advantage of brevity, though. :-) Dec 19, 2019 at 12:46
  • 6
    @Lundin: We do not know that it will be 0x80000000. OP has stated it is defined with #define SPINLOCK_SHARED 0x80000000, but that could be inside #if…#endif and a different definition is used in other circumstances, or the author of this code could have intended it to work even if the definition is edited or the code is compiled with other headers that define it differently. Regardless, the two pieces of code are not equivalent by themselves. Dec 19, 2019 at 12:46
  • 2
    @BobJarvis-ReinstateMonica It's much clearer to people who work with bitwise operators every day. Mixing bitwise with regular arithmetic is confusing.
    – Lundin
    Dec 19, 2019 at 12:49

It was just done that way for clarity, that's all. It's because atomic_fetchadd_int() (in e.g. sys/spinlock2.h) returns the value PRIOR to the addition/subtraction, and that value is passed to _spin_lock_contested()

Note that the C compiler completely pre-calculates all constant expressions. In fact, the compiler can even optimize-out inlined code based on conditionals that use passed-in procedure arguments when the procedures are passed constants in those arguments. This is why the lockmgr() inline in sys/lock.h has a case statement.... because that entire case statement will be optimized out and devolve into a direct call to the appropriate function.

Also, in all of these locking functions the overhead of the atomic ops dwarf all other calculations by two or three orders of magnitude.


  • This answer is from the author.
    – RaGa__M
    Sep 2, 2020 at 11:01

Most like this is done to handle several additional cases. For example, in this case, we say that SPINLOCK_SHARED can not be 1:


int res = (SPINLOCK_SHARED | 1) - 1 // 0
  • 2
    It would make sense but, though it is not actually clear from the question, it sounds like SPINLOCK_SHARED is a defined constant and the tested variable is value. In this case the mistery remains. Dec 19, 2019 at 12:33
  • Thanks for your reply, But I think in original case SPINLOCK_SHARED is not 0x01, you kept the | 1) - 1 part tho, when SPINLOCK_SHARED holding 0x80000000 what would be the impact of | 1) - 1?
    – RaGa__M
    Dec 19, 2019 at 12:34
  • The only reason I could think of is that they wanted to guard against SPINLOCK_SHARED being changed in the future. But it's not at all clear. I would write in to the kernel devs and ask for a clarification comment to be made or for the expression to be rearranged so that it self-documents. Dec 19, 2019 at 12:38

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.