Shoi2017试题泛做

一口气做完六个省的省选（误）

Day1

[Shoi2017]期末考试

枚举最大的天数，然后代价贪心地O(1)计算。

#include <cstdio>
#include <algorithm>

#define R register
typedef long long ll;
#define maxn 100010
#define cmax(_a, _b) (_a < (_b) ? _a = (_b) : 0)
#define cmin(_a, _b) (_a > (_b) ? _a = (_b) : 0)
#define dmin(_a, _b) ((_a) < (_b) ? (_a) : (_b))
int a[maxn], b[maxn];
int main()
{
    R ll A, B, C, sum = 0, suma = 0; scanf("%lld%lld%lld", &A, &B, &C);
    R int n, m, maxx = 0; scanf("%d%d", &n, &m);
    for (R int i = 1; i <= n; ++i) scanf("%d", &a[i]), suma += a[i];
    for (R int i = 1; i <= m; ++i) scanf("%d", &b[i]), sum += b[i];
    std::sort(a + 1, a + n + 1);
    std::sort(b + 1, b + m + 1);
    maxx = b[m];
    R int p = m + 1, pp = n + 1;
    R ll pre = sum, suf = 0, ans = 1e18;
    for (R int i = maxx; i; --i)
    {
        while (p && b[p - 1] >= i) --p, suf += b[p], pre -= b[p];
        while (pp && a[pp - 1] >= i) suma -= a[--pp];
        R ll need = suf - 1ll * i * (m - p + 1);
        if (A >= B)
        {
            R ll cost = (1ll * i * (pp - 1) - suma) * C + need * B;
            cost > 0 ? cmin(ans, cost) : 0;
        }
        else
        {
            R ll v = 1ll * i * (p - 1) - pre;
//            printf("v = %lld %lld %d
", v, need, i);
//            printf("pp %d suma %lld
", pp, suma);
            cmin(v, need);
            R ll cost = (1ll * i * (pp - 1) - suma) * C + v * A;
            need -= v;
            cost += need * B;
            cost > 0 ? cmin(ans, cost) : 0;
//            printf("%lld
", ans);
        }
    }
    printf("%lld
", ans);
    return 0;
}

[Shoi2017]相逢是问候

恶心题。广义欧拉定理+线段树。

不懂什么是广义欧拉定理的同学（比如我）自行Baidu吧。大意和普通的欧拉定理是差不多的。

我们想象一下，指数第一次是模phi(p)，第二次就是模phi(phi(p))，如此迭代下去直到模数变成1，那么就和原先的数无关了，并且因为后面都是模1，到最后的时候每次操作相当于最上面的那个c拿去模1，结果还是c^c^c...的多少次方，所以它的值没有变。

一直迭代phi的这个操作我们联想到了 2749: [HAOI2012]外星人 ，可以证明这个操作次数是log级别的（详见那题题解）。

根据以上预备知识我们可以得到以下算法：

用线段树维护区间没有变成自环的点的位置，然后每次找到这个点暴力重新计算数值。

复杂度是每个点最多算log次*每次要算log次*快速幂的log，所以是3个log的。（很爆炸的复杂度）

#include <cstdio>
 
#define R register
#define maxn 50010
#define maxh 25
#define maxx 500000
typedef long long ll;
bool flag, fl[maxh][maxx + 10], vis[maxh][maxx + 10];
int dp[maxh][maxx + 10];
int ph[2333], phcnt, fc, p, c;
int counter;
inline int qpow(R int base, R int power, R int mh)
{
    flag = 0;
    R bool memo = power <= maxx && phcnt - mh < maxh;
    if (memo && vis[phcnt - mh][power]) {flag = fl[phcnt - mh][power]; ++counter; return dp[phcnt - mh][power];}
    R int mod = ph[mh], tp = power;
//    fprintf(stderr, "base %d %d
", mh, power);
    R int ret = 1; ret >= mod ? flag = 1, ret %= mod : 0;
    for (R ll t; power; power >>= 1, base = 1ll * base * base % mod)
        power & 1 ? (t = 1ll * ret * base) >= mod ? flag = 1, ret = t % mod : ret = t : 0;
//    printf("flag %d
", flag);
    memo ? vis[phcnt - mh][tp] = 1, fl[phcnt - mh][tp] = flag, dp[phcnt - mh][tp] = ret : 0;
    return ret;
}
inline int phi(R int x)
{
    R int t = x, ret = 1;
//    printf("%d
", x);
    for (R int i = 2; 1ll * i * i <= x; ++i)
        if (t % i == 0)
        {
            t /= i; ret *= i - 1;
            while (t > 1 && t % i == 0)
                t /= i, ret *= i;
        }
    t != 1 ? ret *= t - 1 : 0;
    return ret;
}
ll sum[maxn << 2];
bool tr[maxn << 2];
int cov[maxn], a[maxn], ql, qr, qv;
inline void update(R int o)
{
    sum[o] = (sum[o << 1] + sum[o << 1 | 1]) % p;
    tr[o] = tr[o << 1] && tr[o << 1 | 1];
}
void build(R int o, R int l, R int r)
{
    if (l == r)
    {
        sum[o] = a[l];
        tr[o] = phcnt == 0;
        return ;
    }
    R int mid = l + r >> 1;
    build(o << 1, l, mid); build(o << 1 | 1, mid + 1, r);
    update(o);
}
int query(R int o, R int l, R int r)
{
    if (ql <= l && r <= qr) return sum[o];
    R int mid = l + r >> 1, ret = 0;
    if (ql <= mid) (ret += query(o << 1, l, mid)) %= p;
    if (mid < qr) (ret += query(o << 1 | 1, mid + 1, r)) %= p;
    return ret;
}
void modify(R int o, R int l, R int r)
{
    if (l == r)
    {
        if (tr[o]) return ;
        ++cov[l];
        a[l] >= ph[cov[l]] ? flag = 1 : flag = 0;
        R int ff = a[l] % ph[cov[l]];
//        printf("apos %d flag %d
", a[l], flag);
        for (R int i = cov[l]; i; --i) ff = qpow(c, ff + (flag ? ph[i] : 0), i - 1);
 
//        printf("l %d ff %d
", l, ff);
        tr[o] = cov[l] == phcnt;
        sum[o] = ff;
        return ;
    }
    R int mid = l + r >> 1;
    if (ql <= l && r <= qr)
    {
        if (!tr[o << 1]) modify(o << 1, l, mid);
        if (!tr[o << 1 | 1]) modify(o << 1 | 1, mid + 1, r);
    }
    else
    {
        if (ql <= mid) modify(o << 1, l, mid);
        if (mid < qr) modify(o << 1 | 1, mid + 1, r);
    }
    update(o);
}
int main()
{
    R int n, m; scanf("%d%d%d%d", &n, &m, &p, &c);
    ph[0] = p; for (; ph[phcnt] != 1;) ph[++phcnt] = phi(ph[phcnt - 1]);
    ph[++phcnt] = 1;
//    fprintf(stderr, "phcnt %d
", phcnt);
//    for (R int i = phcnt - 1; i; --i) fc = qpow(c, fc + ph[i], ph[i - 1]);
//    printf("%d
", fc);
    for (R int i = 1; i <= n; ++i) scanf("%d", &a[i]);
    build(1, 1, n);
    for (; m; --m)
    {
        R int opt, l, r; scanf("%d%d%d", &opt, &l, &r);
        if (opt == 0)
        {
            ql = l; qr = r;
            modify(1, 1, n);
        }
        else
        {
            ql = l; qr = r;
            printf("%d
", query(1, 1, n));
        }
    }
//    fprintf(stderr, "%d
", counter);
    return 0;
}

[Shoi2017]组合数问题

循环矩阵快速幂，做法和 4818: [Sdoi2017]序列计数 有点像。

#include <cstdio>
#include <algorithm>
#include <cstring>

#define R register
typedef long long ll;
int k, p;
typedef int Vector[60];
Vector base, ans;
void mul(R Vector A, R Vector B)
{
    R Vector C; memset(C, 0, k << 2);
    for (R int i = 0; i < k; ++i)
        for (R int j = 0; j < k; ++j)
            C[(i + j) % k] = (C[(i + j) % k] + 1ll * A[i] * B[j]) % p;
    memcpy(A, C, k << 2);
}
int main()
{
    R int n, r; scanf("%d%d%d%d", &n, &p, &k, &r);
    base[0] = 1; ++base[k - 1];
    ans[0] = 1;
    for (R ll power = 1ll * n * k; power; power >>= 1, mul(base, base))
        power & 1 ? mul(ans, base), 1 : 0;
//    for (R int i = 0; i < k; ++i) printf("%d ", ans[i]);
    printf("%d
", ans[r]);
    return 0;
}

Day2

 [Shoi2017]摧毁“树状图”

恶心题*2。树形DP

这题本来写了一个换根的做法结果因为太乱太复杂就推掉重新写了。（论想清楚再写的重要性）

最后参考了 SD_le 做法的题解。这位神犇的状态设计有理有据令人信服，所以我就参考了他的DP状态设计，然后自己推了一遍转移。然而推完以后还是不能1A，对拍以后才发现自己漏掉了好几种情况。。。（我好菜啊.jpg）

#include <cstdio>
#include <cstring>

#define R register
#define maxn 500010
struct Edge {
    Edge *next;
    int to;
} *last[maxn], e[maxn << 1], *ecnt = e;
inline void link(R int a, R int b)
{
    *++ecnt = (Edge) {last[a], b}; last[a] = ecnt;
    *++ecnt = (Edge) {last[b], a}; last[b] = ecnt;
}
int f1[maxn], f2[maxn], f3[maxn], f4[maxn], g1[maxn], g2[maxn], ans;
#define cmax(_a, _b) (_a < (_b) ? _a = (_b) : 0)
void dfs(R int x, R int fa)
{
    R int tf1, tf2, tf3, tf4, tg1, tg2, deg = 0, mx = 0;
    R bool debug = x == 1;
    for (R Edge *iter = last[x]; iter; iter = iter -> next)
        if (iter -> to != fa)
        {
            dfs(iter -> to, x); ++deg;
            tf1 = f1[x]; tf2 = f2[x]; tf3 = f3[x]; tf4 = f4[x]; tg1 = g1[x]; tg2 = g2[x];
            
            cmax(tg1, f2[iter -> to]);
            cmax(tg1, g1[iter -> to] - 1);
            
            cmax(tg2, g1[x] + g1[iter -> to] - 1);
            cmax(tg2, g1[x] + f2[iter -> to]);
            cmax(tg2, f4[iter -> to]);
            cmax(tg2, g2[iter -> to] - 1);

            
            cmax(tf1, f1[iter -> to] - 1);
            
            cmax(tf2, f1[x] + f1[iter -> to] - 1);
            
            cmax(tf3, f1[x] + f2[iter -> to] - 1);// && debug ? printf("t1 %d %d
", iter -> to, tf3) : 0;
            cmax(tf3, f1[x] + g1[iter -> to] - 1);// && debug ? printf("t2 %d %d
", iter -> to, tf3) : 0;
            cmax(tf3, f2[x] + f1[iter -> to] - 1);// && debug ? printf("t3 %d %d
", iter -> to, tf3) : 0;
            cmax(tf3, mx + f1[iter -> to] - 2);// && debug ? printf("t4 %d %d %d
", iter -> to, tf3) : 0;
            cmax(tf3, f3[iter -> to] - 1);// && debug ? printf("t5 %d %d
", iter -> to, tf3) : 0;
            
            cmax(tf4, f1[x] + f3[iter -> to] - 1);
            cmax(tf4, f3[x] + f1[iter -> to] - 1);
            cmax(tf4, f2[x] + g1[iter -> to] - 1);
            cmax(tf4, f2[x] + f2[iter -> to] - 1);
            
            cmax(mx, f2[iter -> to]);
            cmax(mx, g1[iter -> to]);
            f1[x] = tf1; f2[x] = tf2; f3[x] = tf3; f4[x] = tf4; g1[x] = tg1; g2[x] = tg2;
//            printf("f %d %d %d %d iter -> to %d %d
", tf1, tf2, tf3, tf4, iter -> to, x);
        }
    ++g1[x]; ++g2[x];
    f1[x] += deg; f2[x] += deg; f3[x] += deg; f4[x] += deg;
    /*cmax(g1[x], 1);*/ cmax(g2[x], g1[x]);
    cmax(f2[x], f1[x]); cmax(f3[x], f2[x]); cmax(f4[x], f3[x]);
    cmax(ans, g2[x]); cmax(ans, f4[x]);
//    printf("ans %d x %d
", ans, x);
//    x == 2 ? printf("f %d %d %d %d
g %d %d
", f1[x], f2[x], f3[x], f4[x], g1[x], g2[x]) : 0;
}
int main()
{
    R int T, type; scanf("%d%d", &T, &type);
    for (; T; --T)
    {
        R int n; scanf("%d", &n); ans = 0;
        for (R int i = 1; i <= type; ++i) scanf("%*d%*d");
        for (R int i = 1; i < n; ++i)
        {
            R int a, b; scanf("%d%d", &a, &b); link(a, b);
        }
        if (n == 1) {puts("0"); continue;}
        dfs(1, 0);
        printf("%d
", ans);
        
        memset(last, 0, (n + 1) << 2); ecnt = e;
        memset(f1, 0, (n + 1) << 2);
        memset(f2, 0, (n + 1) << 2);
        memset(f3, 0, (n + 1) << 2);
        memset(f4, 0, (n + 1) << 2);
        memset(g1, 0, (n + 1) << 2);
        memset(g2, 0, (n + 1) << 2);
    }
    return 0;
}
/*
1 0
15
1 2
2 3
1 4
2 5
1 6
3 7
4 8
3 9
4 10
6 11
5 12
4 13
6 14
5 15
9

1 0
10
1 2
2 3
1 4
3 5
3 6
2 7
1 8
7 9
9 10
6

1 0
10
1 2
1 3
2 4
1 5
3 6
3 7
5 8
5 9
4 10
*/

 [Shoi2017]分手是祝愿

高斯消元有95分。

先把倍数关系通过一次高斯消元转化为单个灯是否要改变。

计c[i]表示还剩下i个1时的期望步数。根据题意，对于i<=k,有c[i] = i。然后这个转移有环，所以得高斯消元。

推出来每一行只有3个变量，所以消元是线性的。因为n和模数很接近，而消元的时候又有+1，然后系数很容易就+到0了，然后就boom（爆炸熊.jpg）。

既然出题人卡了高斯消元那么我们就来考虑推推式子。（因为没有用markdown所以式子略丑请原谅。。。）

考虑我们之前推出来的递推式：c[i] = (i/n) * c[i-1] + ((n - i) / n) * c[i + 1] + 1

然后对于i=n的时候，有c[n] = c[n - 1] + 1 (1)

对于i=n-1时，有c[n-1] = 1 + ((n - 1) / n) * c[n - 2] + (1 / n) * c[n] (2)

把(1)式代入(2)式：c[n - 1] = 1 + ((n - 1) / n) * c[n - 2] + 1 / n + 1 / n * c[n - 1]

移项：((n - 1) / n) * c[n - 1] = ((n - 1) / n) * c[n - 2] + (n + 1) / n

除过去：c[n - 1] = c[n - 2] + (n + 1) / (n - 1)

只剩两项啦~于是我们猜想c[i]这个序列是一个一阶递推式，并且上一项的系数是1（这个可以用数学归纳法证）。

于是我们就只要知道递推的常数项即可。我们来强行分析一波：

设第i项的系数为x[i]，而且我们已知了x[n] = 1。递推式可以写成c[i] = c[i - 1] + x[i]

我们从一开始的式子入手：c[i] = (i / n) * c[i - 1] + ((n - i) / n) * c[i + 1] + 1

代入：c[i] = (i / n) * c[i - 1] + ((n - i) / n) * (c[i] + x[i + 1]) + 1

两边乘个n然后再移项：i * c[i] = i * c[i - 1] + (n - i) * x[i + 1] + n

除个i：c[i] = c[i - 1] + ((n - i) * x[i + 1] + n) / i

这样的话连上面系数等于1的顺便也给证了。。。

所以求得x[i] = ((n - i) * x[i + 1] + n) / i。

然后递推一下就能求出c每一项的值来啦。

附代码：（95分的高斯消元在注释里面）

#include <cstdio>
#define R register
#define maxn 100010
const int mod = 1e5 + 3;
int a[maxn], b[maxn], c[maxn][3], f[maxn], x[maxn], inv[maxn];
inline int qpow(R int base, R int power)
{
    R int ret = 1;
    for (; power; power >>= 1, base = 1ll * base * base % mod)
        power & 1 ? ret = 1ll * ret * base % mod : 0;
    return ret;
}
int main()
{
    R int n, k, fact = 1; scanf("%d%d", &n, &k);
    for (R int i = 1; i <= n; ++i) scanf("%d", &a[i]);
    inv[1] = 1;
    for (R int i = 2; i <= n; ++i)
    {
        fact = 1ll * fact * i % mod, inv[i] = 1ll * (mod - mod / i) * inv[mod % i] % mod;
//        printf("%d %d
", inv[i], qpow(i, mod - 2));
    }
    R int tmp = k, kk = 0;
    for (R int i = n; i; --i)
    {
        b[i] = a[i];
        for (R int j = i << 1; j <= n; j += i) b[i] ^= b[j];
        kk += b[i];
    }
    if (kk <= k) return !printf("%d
", 1ll * kk * fact % mod);
/*    c[k][0] = 1; c[k][1] = 0; c[k][2] = k;
    for (R int i = k + 1; i <= n; ++i)
    {
        R int tmp = 1ll * qpow(c[i - 1][0], mod - 2) * i % mod * qpow(n, mod - 2) % mod;
        c[i][0] = (1 + 1ll * c[i - 1][1] * tmp) % mod;
        c[i][1] = 1ll * (mod + i - n) * qpow(n, mod - 2) % mod;
        c[i][2] = (1 + 1ll * c[i - 1][2] * tmp) % mod;
    }
    for (R int i = n; i > k; --i)
    {
        f[i] = 1ll * (c[i][2] - 1ll * f[i + 1] * c[i][1] % mod + mod) * qpow(c[i][0], mod - 2) % mod;
    }
    printf("%d
", 1ll * f[kk] * fact % mod);*/
    x[n] = 1;
    R int ans = k;
    for (R int i = n - 1; i > k; --i)
    {
        x[i] = (1ll * x[i + 1] * (n - i) % mod * inv[n] % mod + 1) * n % mod * inv[i] % mod;
    }
    for (R int i = k + 1; i <= kk; ++i) (ans += x[i]) %= mod;
    printf("%d
", 1ll * ans * fact % mod);
    return 0;
}

[Shoi2017]寿司餐厅

最大权闭合子图。最小割。

#include <cstdio>
#include <cstring>
#include <algorithm>

#define R register
#define maxn 100010
#define inf 0x7fffffff
#define dmin(_a, _b) ((_a) < (_b) ? (_a) : (_b))
struct Edge {
    Edge *next, *rev;
    int to, cap;
} *last[maxn], *cur[maxn], e[maxn << 2], *ecnt = e;
inline void link(R int a, R int b, R int w)
{
//    printf("%d %d %d
", a, b, w);
    *++ecnt = (Edge) {last[a], ecnt + 1, b, w}; last[a] = ecnt;
    *++ecnt = (Edge) {last[b], ecnt - 1, a, 0}; last[b] = ecnt;
}
int a[110], d[110][110], id1[1010], id2[1010], id[110][110];
int ans, s, t, q[maxn], dep[maxn];
inline bool bfs()
{
    memset(dep, -1, (t + 1) << 2);
    dep[q[1] = t] = 0; R int head = 0, tail = 1;
    while (head < tail)
    {
        R int now = q[++head];
        for (R Edge *iter = last[now]; iter; iter = iter -> next)
            if (dep[iter -> to] == -1 && iter -> rev -> cap)
                dep[q[++tail] = iter -> to] = dep[now] + 1;
    }
    return dep[s] != -1;
}
int dfs(R int x, R int f)
{
    if (x == t) return f;
    R int used = 0;
    for (R Edge* &iter = cur[x]; iter; iter = iter -> next)
        if (iter -> cap && dep[iter -> to] + 1 == dep[x])
        {
            R int v = dfs(iter -> to, dmin(f - used, iter -> cap));
            iter -> cap -= v;
            iter -> rev -> cap += v;
            used += v;
            if (used == f) return f;
        }
    return used;
}
inline void dinic()
{
    while (bfs())
    {
        memcpy(cur, last, sizeof cur);
        ans += dfs(s, inf);
    }
}
int main()
{
    R int n, m, sum = 0; scanf("%d%d", &n, &m);
    for (R int i = 1; i <= n; ++i) scanf("%d", &a[i]);
    for (R int i = 1; i <= n; ++i) for (R int j = i; j <= n; ++j) scanf("%d", &d[i][j]);
    R int tot = 0;
    for (R int i = 1; i <= n; ++i)
    {
        for (R int j = i; j <= n; ++j)
            id[i][j] = ++tot;
        link(id[i][i], id1[a[i]] ? id1[a[i]] : id1[a[i]] = ++tot, a[i]);
        m ? link(id[i][i], id2[a[i]] ? id2[a[i]] : id2[a[i]] = ++tot, inf), 1 : 0;
    }
    t = ++tot;
    for (R int i = 1; i <= n; ++i)
    {
        for (R int j = i; j <= n; ++j)
        {
            d[i][j] > 0 ? link(s, id[i][j], d[i][j]), sum += d[i][j] : (link(id[i][j], t, -d[i][j]), 0);
            i != j ? link(id[i][j], id[i + 1][j], inf), link(id[i][j], id[i][j - 1], inf), 1 : 0;
        }
    }
    for (R int i = 0; i <= 1000; ++i)
    {
        id1[i] ? link(id1[i], t, inf), 1 : 0;
        id2[i] ? link(id2[i], t, i * i), 1 : 0;
    }
    dinic();
//    printf("ans = %d %d
", ans, t);
    printf("%d
", sum - ans);
    return 0;
}