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evaluate-boolean-binary-tree.cpp
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evaluate-boolean-binary-tree.cpp
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// Time: O(n)
// Space: O(h)
// dfs with stack
class Solution {
public:
bool evaluateTree(TreeNode* root) {
static unordered_map<int, function<int(int, int)>> OP = {
{2, [](int x, int y) { return x | y; }},
{3, [](int x, int y) { return x & y; }},
};
const auto& iter_dfs = [&]() {
using RET = int;
RET ret;
vector<tuple<int, TreeNode *, shared_ptr<RET>, shared_ptr<RET>, RET *>> stk;
stk.emplace_back(1, root, nullptr, nullptr, &ret);
while (!empty(stk)) {
auto [step, node, ret1, ret2, ret] = stk.back(); stk.pop_back();
if (step == 1) {
if (node->left == node->right) {
(*ret) = node->val;
continue;
}
auto ret1 = make_shared<RET>(), ret2 = make_shared<RET>();
stk.emplace_back(2, node, ret1, ret2, ret);
stk.emplace_back(1, node->right, nullptr, nullptr, ret2.get());
stk.emplace_back(1, node->left, nullptr, nullptr, ret1.get());
} else if (step == 2) {
*ret = OP[node->val](*ret1, *ret2);
}
}
return ret;
};
return iter_dfs();
}
};
// Time: O(n)
// Space: O(h)
// dfs with recursion
class Solution2 {
public:
bool evaluateTree(TreeNode* root) {
static unordered_map<int, function<int(int, int)>> OP = {
{2, [](int x, int y) { return x | y; }},
{3, [](int x, int y) { return x & y; }},
};
function<int (TreeNode*)> dfs = [&](TreeNode *node) {
if (node->left == node->right) {
return node->val;
}
return OP[node->val](dfs(node->left), dfs(node->right));
};
return dfs(root);
}
};