proconlib
This documentation is automatically generated by online-judge-tools/verification-helper
graph/basic_graph.cpp
- View this file on GitHub
- Last update: 2021-12-28 21:38:32+09:00
Depends on
Verified with
Code
#pragma once
#include <cassert>
#include <utility>
#include <vector>
#include "../utility/index_offset.cpp"
template <class E = int> class BasicGraph {
std::vector<std::vector<E>> graph;
public:
BasicGraph() : graph() {}
explicit BasicGraph(const int n) : graph(n) {}
class EdgePtr {
friend class BasicGraph;
int u, e;
BasicGraph* self;
explicit EdgePtr(const int u, const int e, BasicGraph* p) : u(u), e(e), self(p) {}
public:
EdgePtr() : u(0), e(0), self(nullptr) {}
int src() const { return u; }
E& operator*() const { return self->graph[u][e]; }
E* operator->() const { return &self->graph[u][e]; }
};
int size() const { return graph.size(); }
std::vector<E>& operator[](const int u) {
assert(0 <= u and u < size());
return graph[u];
}
const std::vector<E>& operator[](const int u) const {
assert(0 <= u and u < size());
return graph[u];
}
int add_vertex() {
graph.emplace_back();
return size() - 1;
}
IndexOffset add_vertices(int n) {
IndexOffset ret(size(), n);
while (n--) graph.emplace_back();
return ret;
}
template <class... Args> EdgePtr add_edge(const int u, Args&&... args) {
assert(0 <= u and u < size());
const int e = graph[u].size();
graph[u].emplace_back(std::forward<Args>(args)...);
return EdgePtr(u, e, this);
}
};#line 2 "graph/basic_graph.cpp"
#include <cassert>
#include <utility>
#include <vector>
#line 3 "utility/index_offset.cpp"
class IndexOffset {
int offset, len;
public:
constexpr IndexOffset() noexcept : offset(), len() {}
explicit constexpr IndexOffset(const int o, const int l) noexcept : offset(o), len(l) {}
constexpr int size() const { return len; }
constexpr int operator[](const int i) const noexcept {
assert(i < len);
return offset + i;
}
constexpr int to_idx(const int i) const noexcept {
assert(offset <= i and i < offset + len);
return i - offset;
}
};
#line 6 "graph/basic_graph.cpp"
template <class E = int> class BasicGraph {
std::vector<std::vector<E>> graph;
public:
BasicGraph() : graph() {}
explicit BasicGraph(const int n) : graph(n) {}
class EdgePtr {
friend class BasicGraph;
int u, e;
BasicGraph* self;
explicit EdgePtr(const int u, const int e, BasicGraph* p) : u(u), e(e), self(p) {}
public:
EdgePtr() : u(0), e(0), self(nullptr) {}
int src() const { return u; }
E& operator*() const { return self->graph[u][e]; }
E* operator->() const { return &self->graph[u][e]; }
};
int size() const { return graph.size(); }
std::vector<E>& operator[](const int u) {
assert(0 <= u and u < size());
return graph[u];
}
const std::vector<E>& operator[](const int u) const {
assert(0 <= u and u < size());
return graph[u];
}
int add_vertex() {
graph.emplace_back();
return size() - 1;
}
IndexOffset add_vertices(int n) {
IndexOffset ret(size(), n);
while (n--) graph.emplace_back();
return ret;
}
template <class... Args> EdgePtr add_edge(const int u, Args&&... args) {
assert(0 <= u and u < size());
const int e = graph[u].size();
graph[u].emplace_back(std::forward<Args>(args)...);
return EdgePtr(u, e, this);
}
};