The principle you need is called "backpatching": fill in a dummy value for the forward jump, generate the code for the body of the statement, and then go back and replace the dummy value with the real one at the end.
# start of codegen for 'while'
jne L2 # forward reference: use a dummy value for now
# start of codegen for 'if ... else'
jne L4 # another forward reference: use a dummy value for now
[code in 'if' branch]
j L5 # another forward reference: use a dummy value for now
[code in 'else' branch before 'break']
[code in 'else' branch after 'break']
L5: # end of 'if ... else'
# now go back and fill in references to L4, L5 inside the 'if ... else' block
# end of codegen for 'if ... else'
# codegen for 'while' continues...
j L1 # loop
L2: # end of 'while' loop
# now go back and fill in references to L2 inside the 'while' block
# end of codegen for 'while'
Regarding your edit:
If I'm recursively compiling the AST, when I reach a
break statement inside of some arbitrary number of loops and
if-else blocks, how should the compiler know which empty label to jump to? I'm guessing some type of label-name stack external to the recursive AST walking function.
The target of the jump which implements the
break statement is the end of the innermost enclosing loop; yes, you could track that with an explicit external stack.
But, if you have a recursive AST walking function, you already have an implicit stack - the call frames of the recursive function invocations - so you probably don't need an explicit one as well.
[break from inner 'while' ends up here]
[break from outer 'while' ends up here]
the entirety of the code generation for the inner
while loop happens within a recursive walk of the AST for the body of the outer
while loop. Inside this recursive call, you only need to care about the inner loop, not the outer one.
So, all you need to do is:
- save any current backpatching state at the start of processing a
- start a new empty list for tracking any
break that appears within the body of this
- handle the body (which may result in a recursive call)
- apply the backpatches
- then restore the previous state before exiting.
e.g. something a bit like this:
codegen for while:
save previous break backpatch list
initialise break backpatch list as empty
perform codegen for evaluating condition
perform codegen for body statements
restore previous break backpatch list
break backpatch list must be part of some state which is passed to all the codegen functions (the codegen for
break needs to append to it). But the saved list could just be tracked as a local variable of the
while codegen function.