有一种将递归遍历转换为迭代器的通用方法，即使用连接多个迭代器提供者的惰性迭代器(返回迭代器的lambda表达式)。请参阅我的将递归遍历转换为迭代器。

努力使你的递归调用尾部递归(递归的最后一个语句是递归调用)。一旦你有了它，将它转换为迭代通常是相当容易的。

通常，通过将通常传递给递归函数的参数推入堆栈，我将递归算法替换为迭代算法。事实上，您正在用自己的程序堆栈替换程序堆栈。

var stack = [];
stack.push(firstObject);

// while not empty
while (stack.length) {

    // Pop off end of stack.
    obj = stack.pop();

    // Do stuff.
    // Push other objects on the stack as needed.
    ...

}

注意:如果你在里面有多个递归调用，并且你想要保留调用的顺序，你必须以相反的顺序将它们添加到堆栈:

foo(first);
foo(second);

必须由

stack.push(second);
stack.push(first);

编辑:文章堆栈和递归消除(或文章备份链接)详细介绍了这个主题。

另一个使用堆栈将递归函数转换为迭代函数的简单而完整的示例。

#include <iostream>
#include <stack>
using namespace std;

int GCD(int a, int b) { return b == 0 ? a : GCD(b, a % b); }

struct Par
{
    int a, b;
    Par() : Par(0, 0) {}
    Par(int _a, int _b) : a(_a), b(_b) {}
};

int GCDIter(int a, int b)
{
    stack<Par> rcstack;

    if (b == 0)
        return a;
    rcstack.push(Par(b, a % b));

    Par p;
    while (!rcstack.empty()) 
    {
        p = rcstack.top();
        rcstack.pop();
        if (p.b == 0)
            continue;
        rcstack.push(Par(p.b, p.a % p.b));
    }

    return p.a;
}

int main()
{
    //cout << GCD(24, 36) << endl;
    cout << GCDIter(81, 36) << endl;

    cin.get();
    return 0;
}

This is an old question but I want to add a different aspect as a solution. I'm currently working on a project in which I used the flood fill algorithm using C#. Normally, I implemented this algorithm with recursion at first, but obviously, it caused a stack overflow. After that, I changed the method from recursion to iteration. Yes, It worked and I was no longer getting the stack overflow error. But this time, since I applied the flood fill method to very large structures, the program was going into an infinite loop. For this reason, it occurred to me that the function may have re-entered the places it had already visited. As a definitive solution to this, I decided to use a dictionary for visited points. If that node(x,y) has already been added to the stack structure for the first time, that node(x,y) will be saved in the dictionary as the key. Even if the same node is tried to be added again later, it won't be added to the stack structure because the node is already in the dictionary. Let's see on pseudo-code:

startNode = pos(x,y)

Stack stack = new Stack();

Dictionary visited<pos, bool> = new Dictionary();

stack.Push(startNode);

while(stack.count != 0){
    currentNode = stack.Pop();
    if "check currentNode if not available"
        continue;
    if "check if already handled"
        continue;
    else if "run if it must be wanted thing should be handled"      
        // make something with pos currentNode.X and currentNode.X  
        
        // then add its neighbor nodes to the stack to iterate
        // but at first check if it has already been visited.
        
        if(!visited.Contains(pos(x-1,y)))
            visited[pos(x-1,y)] = true;
            stack.Push(pos(x-1,y));
        if(!visited.Contains(pos(x+1,y)))
            ...
        if(!visited.Contains(pos(x,y+1)))
            ...
        if(!visited.Contains(pos(x,y-1)))
            ...
}

这个链接提供了一些解释，并提出了保持“位置”的想法，以便能够在几个递归调用之间到达确切的位置:

但是，所有这些示例都描述了递归调用进行固定次数的场景。当你遇到以下情况时，事情就变得棘手了:

function rec(...) {
  for/while loop {
    var x = rec(...)
    // make a side effect involving return value x
  }
}