結果
| 問題 |
No.160 最短経路のうち辞書順最小
|
| コンテスト | |
| ユーザー |
 te-sh
|
| 提出日時 | 2020-01-25 18:18:02 |
| 言語 | D (dmd 2.109.1) |
| 結果 |
AC
|
| 実行時間 | 16 ms / 5,000 ms |
| コード長 | 3,933 bytes |
| コンパイル時間 | 1,802 ms |
| コンパイル使用メモリ | 159,944 KB |
| 実行使用メモリ | 6,944 KB |
| 最終ジャッジ日時 | 2024-06-22 04:30:43 |
| 合計ジャッジ時間 | 2,737 ms |
|
ジャッジサーバーID (参考情報) |
judge2 / judge4 |
(要ログイン)
| ファイルパターン | 結果 |
|---|---|
| sample | AC * 4 |
| other | AC * 26 |
ソースコード
// URL: https://yukicoder.me/problems/no/160
import std.algorithm, std.array, std.container, std.math, std.range, std.typecons, std.string;
version(unittest) {} else
void main()
{
int N, M, S, G; io.getV(N, M, S, G);
auto g = GraphW!int(N);
foreach (_; 0..M) {
int a, b, c; io.getV(a, b, c);
g.addEdgeB(a, b, c);
}
auto d = g.dijkstra(G).dist;
auto r = [S], t = 0;
while (r.back != G) {
auto nt = t, nv = N;
foreach (e; g[r.back]) {
if (t+e.wt+d[e.dst] != d[S]) continue;
if (e.dst < nv) {
nt = e.wt;
nv = e.dst;
}
}
t += nt;
r ~= nv;
}
io.put(r);
}
struct Graph
{
alias Node = int;
Node n;
Node[][] g;
alias g this;
this(Node n) { this.n = n; g = new Node[][](n); }
void addEdge(Node u, Node v) { g[u] ~= v; }
void addEdgeB(Node u, Node v) { g[u] ~= v; g[v] ~= u; }
}
struct GraphW(W = int, W i = 10^^9)
{
alias Node = int, Wt = W, inf = i;
struct Edge { Node src, dst; Wt wt; alias cap = wt; }
Node n;
Edge[][] g;
alias g this;
this(Node n) { this.n = n; g = new Edge[][](n); }
void addEdge(Node u, Node v, Wt w) { g[u] ~= Edge(u, v, w); }
void addEdgeB(Node u, Node v, Wt w) { g[u] ~= Edge(u, v, w); g[v] ~= Edge(v, u, w); }
}
struct GraphM(W = int, W i = 10^^9)
{
alias Node = int, Wt = W, inf = i;
Node n;
Wt[][] g;
alias g this;
this(int n) { this.n = n; g = new Wt[][](n, n); }
static GraphM!(W, i) init(Node n)
{
auto g = GraphM!(W, i)(n);
foreach (i; 0..n) { g[i][] = inf; g[i][i] = 0; }
return g;
}
}
struct Dijkstra(Graph)
{
alias Node = Graph.Node, Wt = Graph.Wt, Edge = Graph.Edge;
Graph g;
alias g this;
Wt[] dist;
Node[] prev;
this(Graph g, Node s)
{
this.g = g;
auto sent = n;
dist = new Wt[](n);
dist[] = g.inf;
dist[s] = 0;
prev = new Node[](n);
prev[] = sent;
auto q = heapify!("a.wt>b.wt")(Array!Edge(Edge(sent, s, 0)));
while (!q.empty) {
auto e = q.front; q.removeFront();
if (prev[e.dst] != sent) continue;
prev[e.dst] = e.src;
foreach (f; g[e.dst]) {
auto w = e.wt+f.wt;
if (dist[f.dst] > w) {
dist[f.dst] = w;
q.insert(Edge(f.src, f.dst, w));
}
}
}
}
}
Dijkstra!Graph dijkstra(Graph, Node)(Graph g, Node s)
{ return Dijkstra!Graph(g, s); }
auto io = IO!()();
import std.stdio;
struct IO(string floatFormat = "%.10f", string delimiter = " ", alias IN = stdin, alias OUT = stdout)
{
import std.conv, std.format, std.meta, std.traits;
alias assignable = hasAssignableElements;
auto getV(T...)(ref T v) { foreach (ref w; v) get(w); }
auto getA(T)(size_t n, ref T v) if (assignable!T) { v = new T(n); foreach (ref w; v) get(w); }
auto getC(T...)(size_t n, ref T v) if (allSatisfy!(assignable, T))
{
foreach (ref w; v) w = new typeof(w)(n);
foreach (i; 0..n) foreach (ref w; v) get(w[i]);
}
auto getM(T)(size_t r, size_t c, ref T v) if (assignable!T && assignable!(ElementType!T))
{
v = new T(r); foreach (ref w; v) getA(c, w);
}
auto put(bool flush = false, T...)(T v)
{
foreach (i, w; v) { putA(w); if (i < v.length-1) OUT.write(delimiter); }
OUT.writeln;
static if (flush) OUT.flush();
}
auto putB(S, T)(bool c, S t, T f) { if (c) put(t); else put(f); }
auto putRaw(T...)(T v) { OUT.write(v); OUT.writeln; }
private
{
dchar[] buf;
auto sp = (new dchar[](0)).splitter;
void nextLine() { IN.readln(buf); sp = buf.splitter; }
auto get(T)(ref T v) { if (sp.empty) nextLine(); v = sp.front.to!T; sp.popFront(); }
auto putR(T)(T v)
{
auto w = v;
while (!w.empty) { putA(w.front); w.popFront(); if (!w.empty) OUT.write(delimiter); }
}
auto putA(T)(T v)
{
static if (isInputRange!T && !isSomeString!T) putR(v);
else if (isFloatingPoint!T) OUT.write(format(floatFormat, v));
else OUT.write(v);
}
}
}