HDU 2460 Network(双连通+树链剖分+线段树)
HDU 2460 Network
题意:给定一个无向图,问每次增加一条边,问个图中还剩多少桥
思路:先双连通缩点,然后形成一棵树,每次增加一条边,相当于询问这两点路径上有多少条边,这个用树链剖分+线段树处理
代码:
#include <cstdio> #include <cstring> #include <algorithm> #include <vector> using namespace std; #pragma comment(linker, "/STACK:1024000000,1024000000"); const int N = 100005; const int M = 200005; int n, m; struct Edge { int u, v, id; bool iscut; Edge() {} Edge(int u, int v, int id) { this->u = u; this->v = v; this->id = id; this->iscut = false; } } edge[M * 2], cut[M]; int en, cn, first[N], next[M * 2]; void init() { en = 0; memset(first, -1, sizeof(first)); } void add_edge(int u, int v, int id) { edge[en] = Edge(u, v, id); next[en] = first[u]; first[u] = en++; } int pre[N], dfn[N], dfs_clock; void dfs_cut(int u, int fa) { pre[u] = dfn[u] = ++dfs_clock; for (int i = first[u]; i + 1; i = next[i]) { if (edge[i].id == fa) continue; int v = edge[i].v; if (!pre[v]) { dfs_cut(v, edge[i].id); dfn[u] = min(dfn[u], dfn[v]); if (dfn[v] > pre[u]) { cut[cn++] = edge[i]; edge[i].iscut = edge[i^1].iscut = true; } } else dfn[u] = min(dfn[u], pre[v]); } } void find_cut() { cn = dfs_clock = 0; memset(pre, 0, sizeof(pre)); for (int i = 1; i <= n; i++) if (!pre[i]) dfs_cut(i, -1); } vector<int> g[N]; int bccno[N], bccn; void dfs_bcc(int u) { bccno[u] = bccn; for (int i = first[u]; i + 1; i = next[i]) { if (edge[i].iscut) continue; int v = edge[i].v; if (bccno[v]) continue; dfs_bcc(v); } } void find_bcc() { bccn = 0; memset(bccno, 0, sizeof(bccno)); for (int i = 1; i <= n; i++) if (!bccno[i]) { bccn++; dfs_bcc(i); } for (int i = 1; i <= bccn; i++) g[i].clear(); for (int i = 0; i < cn; i++) { int u = bccno[cut[i].u], v = bccno[cut[i].v]; g[u].push_back(v); g[v].push_back(u); } } int dep[N], fa[N], son[N], sz[N], top[N], id[N], idx; void dfs1(int u, int f, int d) { dep[u] = d; sz[u] = 1; fa[u] = f; son[u] = 0; for (int i = 0; i < g[u].size(); i++) { int v = g[u][i]; if (v == f) continue; dfs1(v, u, d + 1); sz[u] += sz[v]; if (sz[son[u]] < sz[v]) son[u] = v; } } void dfs2(int u, int tp) { id[u] = ++idx; top[u] = tp; if (son[u]) dfs2(son[u], tp); for (int i = 0; i < g[u].size(); i++) { int v = g[u][i]; if (v == fa[u] || v == son[u]) continue; dfs2(v, v); } } #define lson(x) ((x<<1)+1) #define rson(x) ((x<<1)+2) struct Node { int l, r, sum, flag; void gao() { sum = 0; flag = 1; } } node[N * 4]; void build(int l, int r, int x = 0) { node[x].l = l; node[x].r = r; node[x].flag = 0; node[x].sum = r - l + 1; if (l == r) return; int mid = (l + r) / 2; build(l, mid, lson(x)); build(mid + 1, r, rson(x)); } void pushup(int x) { node[x].sum = node[lson(x)].sum + node[rson(x)].sum; } void pushdown(int x) { if (node[x].flag) { node[lson(x)].gao(); node[rson(x)].gao(); node[x].flag = 0; } } int query(int l, int r, int x = 0) { if (node[x].l >= l && node[x].r <= r) { int ans = node[x].sum; node[x].gao(); return ans; } pushdown(x); int mid = (node[x].l + node[x].r) / 2; int ans = 0; if (l <= mid) ans += query(l, r, lson(x)); if (r > mid) ans += query(l, r, rson(x)); pushup(x); return ans; } int gao(int u, int v) { int tp1 = top[u], tp2 = top[v]; int ans = 0; while (tp1 != tp2) { if (dep[tp1] < dep[tp2]) { swap(tp1, tp2); swap(u, v); } ans += query(id[tp1], id[u]); u = fa[tp1]; tp1 = top[u]; } if (u == v) return ans; if (dep[u] > dep[v]) swap(u, v); ans += query(id[son[u]], id[v]); return ans; } int main() { int cas = 0; while (~scanf("%d%d", &n, &m) && n || m) { init(); int u, v; for (int i = 0; i < m; i++) { scanf("%d%d", &u, &v); add_edge(u, v, i); add_edge(v, u, i); } find_cut(); find_bcc(); idx = 0; dfs1(1, 0, 1); dfs2(1, 1); int q; scanf("%d", &q); printf("Case %d:\n", ++cas); build(1, n); while (q--) { scanf("%d%d", &u, &v); u = bccno[u]; v = bccno[v]; cn -= gao(u, v); printf("%d\n", cn); } printf("\n"); } return 0; }
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