// 面试题68:树中两个结点的最低公共祖先
// 题目:输入两个树结点,求它们的最低公共祖先。
#include <iostream>
#include "Tree.h"
#include <list>
using namespace std;
bool GetNodePath(const TreeNode* pRoot, const TreeNode* pNode, list<const TreeNode*>& path)//找到根节点到指定节点的路径
{
if (pRoot == pNode)
return true;
path.push_back(pRoot);
bool found = false;
vector<TreeNode*>::const_iterator i = pRoot->m_vChildren.begin();//m_vChildren是个数组,详见Tree.h
while (!found && i < pRoot->m_vChildren.end())
{
found = GetNodePath(*i, pNode, path);
++i;
}
if (!found)
path.pop_back();
return found;
}
const TreeNode* GetLastCommonNode//找最后一个公共节点
(
const list<const TreeNode*>& path1,
const list<const TreeNode*>& path2
)
{
list<const TreeNode*>::const_iterator iterator1 = path1.begin();
list<const TreeNode*>::const_iterator iterator2 = path2.begin();//迭代器
const TreeNode* pLast = nullptr;
while (iterator1 != path1.end() && iterator2 != path2.end())
{
if (*iterator1 == *iterator2)
pLast = *iterator1;
iterator1++;
iterator2++;
}
return pLast;
}
const TreeNode* GetLastCommonParent(const TreeNode* pRoot, const TreeNode* pNode1, const TreeNode* pNode2)
{
if (pRoot == nullptr || pNode1 == nullptr || pNode2 == nullptr)//判断边界
return nullptr;
list<const TreeNode*> path1;
GetNodePath(pRoot, pNode1, path1);
list<const TreeNode*> path2;
GetNodePath(pRoot, pNode2, path2);
return GetLastCommonNode(path1, path2);
}
// ====================测试代码====================
void Test(const char* testName, const TreeNode* pRoot, const TreeNode* pNode1, const TreeNode* pNode2, TreeNode* pExpected)
{
if (testName != nullptr)
printf("%s begins: ", testName);
const TreeNode* pResult = GetLastCommonParent(pRoot, pNode1, pNode2);
if ((pExpected == nullptr && pResult == nullptr) ||
(pExpected != nullptr && pResult != nullptr && pResult->m_nValue == pExpected->m_nValue))
printf("Passed.\n");
else
printf("Failed.\n");
}
// 形状普通的树
// 1
// / \
// 2 3
// / \
// 4 5
// / \ / | \
// 6 7 8 9 10
void Test1()
{
TreeNode* pNode1 = CreateTreeNode(1);
TreeNode* pNode2 = CreateTreeNode(2);
TreeNode* pNode3 = CreateTreeNode(3);
TreeNode* pNode4 = CreateTreeNode(4);
TreeNode* pNode5 = CreateTreeNode(5);
TreeNode* pNode6 = CreateTreeNode(6);
TreeNode* pNode7 = CreateTreeNode(7);
TreeNode* pNode8 = CreateTreeNode(8);
TreeNode* pNode9 = CreateTreeNode(9);
TreeNode* pNode10 = CreateTreeNode(10);
ConnectTreeNodes(pNode1, pNode2);
ConnectTreeNodes(pNode1, pNode3);
ConnectTreeNodes(pNode2, pNode4);
ConnectTreeNodes(pNode2, pNode5);
ConnectTreeNodes(pNode4, pNode6);
ConnectTreeNodes(pNode4, pNode7);
ConnectTreeNodes(pNode5, pNode8);
ConnectTreeNodes(pNode5, pNode9);
ConnectTreeNodes(pNode5, pNode10);
Test("Test1", pNode1, pNode6, pNode8, pNode2);
}
// 树退化成一个链表
// 1
// /
// 2
// /
// 3
// /
// 4
// /
// 5
void Test2()
{
TreeNode* pNode1 = CreateTreeNode(1);
TreeNode* pNode2 = CreateTreeNode(2);
TreeNode* pNode3 = CreateTreeNode(3);
TreeNode* pNode4 = CreateTreeNode(4);
TreeNode* pNode5 = CreateTreeNode(5);
ConnectTreeNodes(pNode1, pNode2);
ConnectTreeNodes(pNode2, pNode3);
ConnectTreeNodes(pNode3, pNode4);
ConnectTreeNodes(pNode4, pNode5);
Test("Test2", pNode1, pNode5, pNode4, pNode3);
}
// 树退化成一个链表,一个结点不在树中
// 1
// /
// 2
// /
// 3
// /
// 4
// /
// 5
void Test3()
{
TreeNode* pNode1 = CreateTreeNode(1);
TreeNode* pNode2 = CreateTreeNode(2);
TreeNode* pNode3 = CreateTreeNode(3);
TreeNode* pNode4 = CreateTreeNode(4);
TreeNode* pNode5 = CreateTreeNode(5);
ConnectTreeNodes(pNode1, pNode2);
ConnectTreeNodes(pNode2, pNode3);
ConnectTreeNodes(pNode3, pNode4);
ConnectTreeNodes(pNode4, pNode5);
TreeNode* pNode6 = CreateTreeNode(6);
Test("Test3", pNode1, pNode5, pNode6, nullptr);
}
// 输入nullptr
void Test4()
{
Test("Test4", nullptr, nullptr, nullptr, nullptr);
}
int main(int argc, char* argv[])
{
Test1();
Test2();
Test3();
Test4();
system("pause");
return 0;
}
