I think either
weakNum is deallocated immediately (as expected) and your code then invokes undefined behavior, or
NSNumber is making tricky optimizations and you get back a singleton which always holds the value 10 and is alive throughout the lifetime of the program.
Edit: aham, huh, nope. I just logged the pointer itself using
NSLog(@"weakNum pointer: %016llx", (uint64_t)weakNum);
weakNum pointer: 000000000003e883
Now that's weird. A pointer-to-struct which is not 16 byte-aligned? So this is a tagged pointer.
Let's analyze the pointer value! The 0th (LSB) bit is set, that's clear - that indicates the tagged pointer.
The 1st bit is set too: according to the reference behind the link, that's the tagged object class for integers. That matches our expectations. That's the 0th nibble.
Then in the next (1st) nibble, i. e. bits 4...7, we have the value 8, which is binary
100, for which the quoted reference says
0100 for 16-bit integers. That's exact, 1000 doesn't fit into 8 bits, but it does fit into 16 bits.
And then what do we have next?
3e8, which is the hexadecimal for decimal 1000.
So, we've proved that this is a tagged pointer - at least on the system I tested this on (OS X 10.7.5 64-bit).