acwing算法基础课II
作者:互联网
acwing基础课 II 数据结构
链表
数组模拟单链表
单链表 格式就是这样吧 e[N] 代表当前点 ne[N] 代表下一代的点. 插入也很简洁.
int ne[N6], idx = 1, e[N6];
void insert(int x, int y) {
ne[idx] = ne[x];
ne[x] = idx;
e[idx++] = y;
}
void insert_head(int x) {
insert(0, x);
}
void delete_node(int x) {
ne[x] = ne[ne[x]];
}
int main() {
int m = read();
ne[0] = -1;
char s;
while (m--) {
cin >> s;
int x = read(), y;
if (s == 'H') insert_head(x);
else if (s == 'I') y = read(), insert(x, y);
else if (s == 'D') delete_node(x);
}
for (int i = ne[0]; i != -1; i = ne[i]) {
O(e[i]);
}
}数组模拟双链表 ★★★
int idx = 2, e[N5], l[N5], r[N5];
void init() {
l[1] = 0, r[0] = 1; //这个l0 和 r1真能用到么
}
void insert(int k, int x) {
e[idx] = x, l[idx] = k, r[idx] = r[k];
l[r[k]] = idx, r[k] = idx++;
}
void insertHead(int x) {
insert(0, x);
}
void insertTail(int x) {
insert(l[1], x);
}
void deleteNode(int x) {
l[r[x]] = l[x], r[l[x]] = r[x];
}
int main() {
int m = read();
char op[10];
init();
while (m--) {
cin >> op; // 这里以后开大一点吧...
int x = read(), y = 0;
if (op[0] == 'R') insertTail(x);
else if (op[0] == 'L') insertHead(x);
else if (op[0] == 'D') deleteNode(x + 1);
else if (op[1] == 'R') y = read(), insert(x + 1, y);
else y = read(), insert(l[x + 1], y);
}
for (int i = r[0]; i != 1; i = r[i]) O(e[i]);
return 0;
}栈 & 队列 & 单调..
模拟栈
雪菜有的是 从 tt=0 不知道有没有影响.
然后empty() 是 tt>0
注意 stk, 和 tt = -1; ???
int stk[N5], tt = -1; //记住下标是从 -1 开始的
void push(int x) {
stk[++tt] = x;
}
void pop() {
--tt;
}
int query() {
return stk[tt];
}
bool empty() {
return tt == -1;
}模拟队列
尾进 头出. tt=-1, hh = 0
int q[N5], tt = -1, hh;
void push(int x) {
q[++tt] = x;
}
void pop() {
++hh;
}
int query() {
return q[hh];
}
bool empty() {
return hh > tt;
}单调栈
输出每个数左边第一个比他小的数. => 单增的栈.
int stk[N6], tt = 0;
int main() {
int n = read();
rep(i, 0, n) {
int x = read();
while (tt && x <= stk[tt]) tt--;
O(tt ? stk[tt] : -1);
stk[++tt] = x;
}
return 0;
}单调队列(双端)
滑动窗口最大值和最小值.
int a[N6], q[N6], tt = -1, hh;
int main() {
int n = read(), k = read();
rep(i, 0, n) a[i] = read();
rep(i, 0, n) {
if (hh <= tt && i - k + 1 > q[hh]) hh++; // 如果左边不对, 出栈.
while (hh <= tt && a[q[tt]] >= a[i]) tt--; //最小值, 单增区间
q[++tt] = i;
if (i - k + 1 >= 0) O(a[q[hh]]);
}
puts("");
tt = -1, hh = 0;
rep(i, 0, n) {
if (hh <= tt && i - k + 1 > q[hh]) hh++;
while (hh <= tt && a[q[tt]] <= a[i]) tt--; //最大值, 单减区间
q[++tt] = i;
if (i - k + 1 >= 0) O(a[q[hh]]);
}
return 0;
}栈. 表达式求值 ★★★★
不会做... 不过这个顺序..
int stk[N6], tt = 0, top = 0;
char op[N6];
void eval() {
int y = stk[tt--], x = stk[tt--];
char c = op[top--];
if (c == '*') x = x * y;
else if (c == '/') x = x / y;
else if (c == '-') x = x - y;
else if (c == '+') x = x + y;
stk[++tt] = x;
}
int main() {
unordered_map<char, int> um = { {'+', 1}, {'-', 1},
{'*',2},{'/',2} }; // 定义 priority, 小的进栈前大的先完毕
string equ;
cin >> equ;
rep(i, 0, equ.size()) {
char c = equ[i];
if (isdigit(c)) {
int x = 0, j = i;
while (j < equ.size() && isdigit(equ[j])) {
x = x * 10 + equ[j++] - '0';
}
i = j - 1; // 因为后面要 i ++;
stk[++tt] = x;
}
else {
if (c == '(') op[++top] = c; // 左括号直接进栈.
else if (c == ')') {
while (op[top] != '(') eval();
//右括号碰到左前一直运算.
--top;
}
else {
while (top && op[top] != '(' &&
um[c] <= um[op[top]]) eval();
//相同情况就可以eval了
// 为什么换成 < 不行呢?
// 24 - 5 + 3; 这种 -号需要一定先运算
op[++top] = c;
}
}
}
while (top) eval();
O(stk[tt]);
return 0;
}KMP ★★★★
其实也不难 不过像个dp么? 或者正确性挺难证明出来的.
int n, m;
int ne[N5];
char s[N6], p[N5];
int main() {
cin >> n >> p + 1 >> m >> s + 1;
for (int i = 2, j = 0; i <= n; i++) {
while (j && p[i] != p[j + 1]) j = ne[j];
if (p[i] == p[j + 1]) j++; //求next 就是子串和自己匹配.
ne[i] = j;
}
da(ne, n + 2);
for (int i = 1, j = 0; i <= m; i++) {
while (j && s[i] != p[j + 1]) j = ne[j];
if (s[i] == p[j + 1]) j++;
if (j == n) {
O(i - n); j = ne[j];
}
}
return 0;
}数组元素的目标和
双指针
int a[N5], b[N5];
int main() {
int n = read(), m = read(), x = read();
rep(i, 0, n) a[i] = read();
rep(i, 0, m) b[i] = read();
int r = m - 1;
rep(l, 0, n) {
while (r >= 0 && a[l] + b[r] > x) r--;
if (a[l] + b[r] == x) {
O(l), O(r);
return 0;
}
}
return 0;
}判断子序列
双指针
int a[N5], b[N5];
int main() {
int m = read(), n = read();
int j = 0;
rep(i, 0, m) b[i] = read();
rep(i, 0, n) a[i] = read();
rep(i, 0, n) {
if (j < m && b[j] == a[i]) j++;
}
puts(j == m ? "Yes" : "No");
return 0;
}Tire树
Tire 字符串统计
快速 存储字符串集合的数据结构
int son[N5][26], cnt[N5], idx; //idx为0的那个是根 空串 "";
char str[N5];
void insert(char* str) {
int p = 0;
for (int i = 0; str[i]; i++) {
int u = str[i] - 'a';
if (!son[p][u]) son[p][u] = ++idx;
p = son[p][u];
}
cnt[p]++;
}
int query(char* str) {
int p = 0;
for (int i = 0; str[i]; i++) {
int u = str[i] - 'a';
if (!son[p][u]) return 0;
p = son[p][u];
}
return cnt[p];
}
int main() {
int n = read();
while (n--) {
char op[2];
scanf("%s%s", op, str);
if (*op == 'I') insert(str);
else printf("%d\n", query(str));
}
return 0;
}最大异或对.
int a[N5], idx;
int son[N6 * 3][2]; //这里为什么需要 N6*3 个?
void insert(int x) {
int p = 0;
per(i, 31, 0) {
int& s = son[p][x >> i & 1];
if (!s) s = ++idx;
p = s;
}
}
int search(int x) {
int p = 0, res = 0;
per(i, 31, 0) {
int s = x >> i & 1;
if (son[p][!s]) {
res += 1 << i; //这里为什么是这样子的...
p = son[p][!s];
}
else p = son[p][s];
}
return res;
}
int main() {
int n = read();
rep(i, 0, n)a[i] = read(), insert(a[i]);
int res = 0;
rep(i, 0, n) {
res = max(res, search(a[i]));
}
O(res);
return 0;
}并查集
合并集合
int p[N5];
int find(int k) {
if (p[k] != k) p[k] = find(p[k]);
return p[k];
}
int main() {
int n = read(), m = read();
rep(i, 1, n + 1) {
p[i] = i;
}
rep(i, 0, m) {
char op[2]; scanf("%s", op);
int l = read(), r = read();
if (op[0] == 'M') p[find(l)] = find(r);
else
puts(find(l) == find(r) ? "Yes" : "No");
}
return 0;
}837. 连通块中点的数量
int p[N5], cnt[N5];
int find(int x) {
if (p[x] != x) p[x] = find(p[x]);
return p[x];
}
int main() {
int n = read(), m = read();
rep(i, 1, n + 1) p[i] = i, cnt[i] = 1;
rep(i, 0, m) {
char op[4];
scanf("%s", op); int l = read();
if (op[0] == 'C') {
int r = read();
l = find(l), r = find(r);
if (l != r) {
cnt[l] += cnt[r];
p[r] = l;
}
}
else if (op[1] == '1') {
int r = read();
puts(find(r) == find(l) ? "Yes" : "No");
}
else {
printf("%d\n", cnt[find(l)]);
}
}
return 0;
}食物链
标签:int,tt,++,II,read,基础课,op,N5,acwing 来源: https://www.cnblogs.com/benenzhu/p/15869910.html