defer is a
LIFO, or a stack - it is guaranteed to executed in reverse order. It gets the first
defer and puts it on some internal stack (probably, I don't know the gory details), and then puts the next
defer on top of that one, and then when it hits the end of the function, it unwinds, starting at the top. It seems contrived in a
for-loop (I know this is Go's example, not yours), but in other cases where one function depends upon the clean-up of some other function, it makes more sense why it SHOULD be, and hence IS, guaranteed to be reverse order of execution.
Here's a different example, all pseudo-code, but hopefully the point is clear.
defer close stream1
defer write stream1 "stream2 better be closed, or we are in trouble..."
defer close stream2
defer stream2 "this is the last you'll ever hear from stream2"
connect stream2 to stream1
write stream2 "hey, we are in stream2, this feeds into stream1"
Should print something like:
"hey, we are in stream2, this feeds into stream1"
"this is the last you'll ever hear from stream2"
"stream2 better be closed, or we are in trouble..."
If you didn't have guarantees about reverse ordering, you couldn't be sure
stream1 was still open during your
defer stream2 write.