They are different operators.

Where `x`

and `y`

are numbers^{2}, `x | y`

is a bit-wise or and `x + y`

is addition. For *some* values of `x`

and `y`

they will have the same results - for everything else, the result will be different^{3}.

Anyway, use the form that means what is desired^{1}. Don't worry about performance unless there is a performance case - jsperf is a handy tool for this. Then realize that micro-benchmarks and inherently biased and it *usually doesn't matter*.

^{1} For this *particular* problem, note the regular expression matches each A-Z character and replaces it with the result of the function.

Thus we know that `charCodeAt(0)`

is the character code for A..Z. Looking at a character table we can see these values are in the range [0x41, 0x5a] and note that [0x61, 0x7a] are the corresponding lower-case letters. Thus we can go { A, B .. Z } -> { a, b .. z } by adding 0x20 (or 32) to the upper-case letter's character code.

It can also be observed that adding 32 (or 1 << 5) to a number *without* the 5th bit set (such as number in the range [0x41, 0x5a]) can be achieved with a bit-wise or with 1 << 5 (i.e x
| 32). This is why `|`

and `+`

are interchangeable *here*. Adding 32 (i.e. x + 0x20) is arguably more clear even though both operators will behave equivalently under the rules above.

In any case, if curious about performance implications of either approach, benchmark the code *in it's entirety* (and *in context*) on the relevant/target environments.

^{2} The operator `x | y`

is *always* a bit-wise or (via `[ToInt]`

conversions), but `x + y`

*could* be a string concatenation.

^{3} The results will be the same *only when* `x`

and `y`

are both numbers (or rather, neither is a string), are convertible via `[ToInt]`

, have *no* set bits in common, and are in the range of about [0, 2^32) or so.

`+`

and`|`

are both blindingly fast. – Justin Morgan Mar 9 '13 at 5:54