4.24华为笔试分享C++
腾个时间把代码贴一下
1.第一题: 无需实际建树,sort之后,进行二分查找即可,主要是到达叶节点后需要判断是否退出,否则会多一个L或者R
int main() {
vector<int>nums;
int temp;
while (cin >> temp){
nums.emplace_back(temp);
}
int target = nums.back();
nums.pop_back();
// nums = {1,2,3,4,5,6,7};
// int target = 8;
std::sort(nums.begin(), nums.end());
int n = nums.size();
int depth = 0;
auto p = n + 1;
while (p){
depth++;
p >>= 1;
}
if(target > nums.back()){
cout << "S" + string(depth-2,'R') + "N";
return 0;
} else if(target < nums.front()){
cout << "S" + string(depth-2,'L') + "N";
return 0;
}
int l = 0;
int r = n;
int mid = 0;
int d = 0;
string ans = "S";
while (l < r){
mid = l + ((r-l)/2);
if(nums[mid] == target){
ans.push_back('Y');
cout << ans << endl;
return 0;
}
// 到达叶节点深度,进行判断
if(d == depth - 2){
break;
}
if(nums[mid] < target){
ans.push_back('R');
l = mid + 1;
} else{
ans.push_back('L');
r = mid;
}
d++;
}
ans.push_back('N');
cout << ans << endl;
return 0;
}
2.第二题: 构造一个struct,其包含(int)总得分,(int)连续得分,(string)失分情况和(int)id.之后写一个cmp进行排序即可]
class player{
public:
int total;
int lianxu;
string loss;
int id;
player() = default;
player(int t,int l,string&& lo,int i):
total(t),lianxu(l),loss(lo),id(i){};
};
int main()
{
int n,m;
cin >> n >> m;
vector<string>arr;
vector<player>players;
for(int j = 0; j < n; j++){
string temp;
cin >> temp;
int total = std::count(temp.begin(), temp.end(),'1');
int cnt = 0;
int lianxu = 0;
string loss;
for(int i = 0; i < temp.size(); i++){
if(temp[i] == '1'){
cnt++;
lianxu = max(lianxu,cnt);
} else{
loss.push_back(i + '0');
cnt = 0;
}
}
players.emplace_back(total,lianxu,std::move(loss),j);
}
auto cmp = [&](const player& a,const player& b){
if(a.total == b.total){
if(a.lianxu == b.lianxu){
if(a.loss == b.loss){
return a.id < b.id;
}
return a.loss > b.loss;
}
return a.lianxu > b.lianxu;
}
return a.total > b.total;
};
std::sort(players.begin(), players.end(),cmp);
for(int i = 0; i < players.size(); i++){
cout << players[i].id + 1;
if(i != players.size() -1 ){
cout << " ";
}
}
return 0;
}
3.第三题.
读题可知: 这个有向图中的每个节点的出度都是1,并且edges[i] != i [关键条件]
那么,对于并查集的每个连通域来说,这个连通域内最多有一个环,最少有一个环
那么对于一个连通域,我们可以先任选一个点作为出发点,使用快慢指针,快慢指针相遇的位置肯定在环内.
之后从相遇处再绕着走一圈回到相遇处,并将遍历到的节点记录下来,这就是环.
H的计算方式就是 H = 环的长度 - (并查集的大小-环的长度)
int main()
{
int n;
cin >> n;
vector<int>edges(n);
for(int & edge : edges){
int temp;
cin >> temp;
edge = temp;
}
vector<int>root(n,-1);
vector<int>weight(n,1);
vector<int>start;
function<int(int )> find = [&](int x){
if(root[x] == -1){
return x;
}
return root[x] = find(root[x]);
};
auto to_union = [&](int x,int y){
auto px = find(x);
auto py = find(y);
if(px == py){
start.emplace_back(px);
} else if(weight[px] > weight[py]){
root[py] = px;
weight[px] += weight[py];
} else{
root[px] = py;
weight[py] += weight[px];
}
};
for(int i = 0; i < n; i++){
to_union(i,edges[i]);
}
int ans = INT_MIN;
vector<int>vec;
// y快指针,x慢指针
for(auto x:start){
auto y = edges[x];
while (x != y){
x = edges[x];
y = edges[edges[y]];
}
vector<int>temp = {x};
y = edges[y];
while (x != y){
temp.emplace_back(y);
y = edges[y];
}
int H = (int)temp.size() - (weight[find(x)] - (int)temp.size());
if(H > ans){
ans = H;
vec = temp;
} else if(H == ans){
auto k1 = *std::max_element(vec.begin(), vec.end());
auto k2 = *std::max_element(temp.begin(), temp.end());
if(k2 > k1){
vec = temp;
}
}
}
rotate(vec.begin(), min_element(vec.begin(),vec.end()),vec.end());
for(int i = 0; i < vec.size(); i++){
cout << vec[i];
if(i != vec.size() - 1){
cout << " ";
}
}
return 0;
}
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