# Refactor recursive algorithm into an iterative one?

I have following recursive algorithm needed to redactor into iterative process. CvSeq is a tree structure.Where contour->h_next gives the next node in the same level. contour->v_next gives the next contour in level below.(child node)

``````void helperParseCurves(CvSeq* contour, int level) {

if(contour->h_next != NULL) {
helperParseCurves(contour->h_next, level);
}
if(contour->v_next != NULL) {
helperParseCurves(contour->v_next, level+1);
}

//Process the nodes in contour
for(int i=0; i<contour->total; i++){
CvPoint* p = CV_GET_SEQ_ELEM(CvPoint, contour, i);
//Paint the point p
}

}
``````

I want to refactor this logic into iterative algorithm. Any tips on this?

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Where would you start? What have you tried, and why are you having problems? –  Mahmoud Al-Qudsi Sep 30 '11 at 10:08
Do you have a member h_previous and v_previous? –  Mahmoud Al-Qudsi Sep 30 '11 at 10:24
General question: "how do I replace recursion with iteration?" answer "use a stack data structure". Sometimes there are simpler answers than this (e.g. using a loop instead of recursion), but it depends on the complexity of the problem. –  Merlyn Morgan-Graham Sep 30 '11 at 10:57
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## 2 Answers

To traverse nodes w/o recursion you will need stack for saving previous states. [Recursion is actually using of stack as well...] :

``````struct StackData
{
CvSeq* contour;
int level;
int traversed;
};

const int traversed_l = (1 << 0);
const int traversed_r = (1 << 1);

const int stack_size = 50; // should be at leas max depth
StackData stack[stack_size];
int stack_p = 0;

void helperParseCurves(CvSeq* contour, int level) {

int traversed = 0;

while(contour)
{
if(contour->h_next != NULL && !(traversed & traversed_l)) { // down to left
assert(stack_p < stack_size);                             // and save current state
traversed |= traversed_l;
stack[stack_p].contour = contour;
stack[stack_p].level = level;
stack[stack_p].traversed = traversed;
++stack_p;
contour = contour->h_next;
traversed = 0;
continue;
}

if(contour->h_next != NULL  && !(traversed & traversed_r)) { // down to right
assert(stack_p < stack_p);                             // and save current state
traversed |= traversed_r;
stack[stack_p].contour = contour;
stack[stack_p].level = level;
stack[stack_p].traversed = traversed;
++stack_p;
contour = contour->v_next;
level = level+1;
traversed = 0;
continue;
}

//Process the nodes in contour
for(int i=0; i<contour->total; i++){
CvPoint* p = CV_GET_SEQ_ELEM(CvPoint, contour, i);
//Paint the point p
}

// move up because either left and right nodes are NULL or already traversed
if(!stack_p) break; // we are at the top
contour = stack[stack_p].contour;
level = stack[stack_p].level;
traversed = stack[stack_p].traversed;
--stack_p;
}
}
``````
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looks like you forgot 'continue' at the end of the 1st 'if' statement. –  Konstantin Oznobihin Sep 30 '11 at 10:50
for sure :). Thank you, fixed now. –  GreenScape Sep 30 '11 at 10:54
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Have an empty vector/array/queue of CvSeq*'s. Have an index/pointer into it, at first pointing to its beginning (where the very first element will be).

Start with the tree's root and add its h_next and v_next to the vector.

Then while the index is less than the number of pointers in the vector - 1, take vector[index]'s h_next and v_next, add them at the end of the vector and do ++index.

You end up with pointers to all tree nodes in that vector/array/whatever.

Then you just iterate over it, painting things and whatnot.

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Why all that complexity? No need to store anything in a vector... –  Mahmoud Al-Qudsi Sep 30 '11 at 10:17
@MahmoudAl-Qudsi: Conceptually it's easy, but yes, there's a better way to do this. –  Alexey Frunze Sep 30 '11 at 10:29
If I had more info about cvesq it would be easier to go on... but regardless, the most compact way would be to either use pre-existing or else add h_prevous and v_previous, then iterate to the end and walk backwards without having to store a single thing. –  Mahmoud Al-Qudsi Sep 30 '11 at 10:37
@Mahmoud Al-Qudsi: it's a tree, what sense would make h_previous and v_previous members to it? Are supposing to store necessary information in nodes themselves instead of a separate stack? –  Konstantin Oznobihin Sep 30 '11 at 10:46
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