You have a recursive function that can be summarised as this:
if stopping condition:
if test current value involving recursive call passes:
set value based on recursive call
return value # this appears to be missing from your example
(I am going to be pretty loose with the pseudo code here, to emphasize the structure of the code rather than the specific implementation)
And you want to flatten it to a purely iterative approach. First it would be good to describe exactly what this involves in the general case, as you seem to be interested in that. Then we can move on to flattening the pseudo code above.
Now flattening a primitive recursive function is quite straightforward. When you are given code that is like:
if i has reached the limit: # stopping condition
# body of method here
return simple(i + 1) # recursive call
You can quickly see that the recursive calls will continue until
i reaches the predefined limit. When this happens the
value will be returned. The iterative form of this is:
for (i = start; i < limit; i++):
# body here
This works because the recursive calls form the following call tree:
I would describe that call tree as a piece of string. It has a beginning, a middle, and an end. The different calls occur at different points on the string.
A string of calls like that is very like a for loop - all of the work done by the function is passed to the next invocation and the final result of the recursion is just passed back. The for loop version just takes the values that would be passed into the different calls and runs the body code on them.
Simple so far!
Now your method is more complex in two ways:
- There are multiple separate statements that make recursive calls
- Those statements themselves are within a for loop
So your call tree is something like:
for (v in 1, 2, ... N):
-> first_recursive_call(i + v, j):
-> ... inner calls ...
-> potential second recursive call(i + v, j):
-> ... inner calls ...
As you can see this is not at all like a string. Instead it really is like a tree (or a bush) in that each call results in two more calls. At this point it is actually very hard to turn this back into an entirely iterative function.
This is because of the fundamental relationship between loops and recursion. Any loop can be restated as a recursive call. However not all recursive calls can be transformed into loops.
The class of recursive calls that can be transformed into loops are called primitive recursion. Your function initially appears to have transcended that. If this is the case then you will not be able to transform it into a purely iterative function (short of actually implementing a call stack and similar within your function).
This video explains the difference between primitive recursion and fundamentally recursive types that follow:
I would add that your condition and the value that you assign to
max appear to be the same. If this is the case then you can remove one of the recursive calls, allowing your function to become an instance of primitive recursion wrapped in a loop. If you did so then you might be able to flatten it.