Consider how the
"hello" string is stored in memory: let's say the address of its
'h' character happens to be
0xC000. Then the rest of the string would be stored as follows:
Now consider a series of invocations of
reverse: the initial invocation passes
0xC000; the call of
reverse from inside the reverse passes
s+1, so the next level gets
0xC001; the next one gets
0xC002, and so on.
Note that each level calls the next level, until the level that sees
'\0'. Before we get to zero, the stack is "loaded" like this:
reverse(0xC004) // the last invocation before we hit '\0'
reverse(0xC000) // the earliest invocation
Now when the top invocation calls
reverse(0xC005), the check for
*s fails, and the function returns right away without printing anything. At this point the stack starts "unwinding", printing whatever is pointed to by its
0xC004 -> prints 'o', then returns to the previous level
0xC003 -> prints 'l', then returns to the previous level
0xC002 -> prints 'l', then returns to the previous level
0xC001 -> prints 'e', then returns to the previous level
0xC000 -> prints 'h', then returns for good.
That's how the reverse of the original
"hello" string gets printed.