#ifndef _GRAPH_HPP #define _GRAPH_HPP #include #include #include #include #include using vertex_t = std::pair; struct graph { graph(const std::vector>& map) : map(map), _height(static_cast(map.size())), _width(map.empty() ? 0 : static_cast(map[0].size())) {} static auto unreachable() -> int { return UNREACHABLE; } static auto normal_cost() -> int { return NORMAL_COST; } static auto vortex_cost() -> int { return VORTEX_COST; } auto cost(const vertex_t& u, const vertex_t& v) const -> int { auto [ux, uy] = u; auto [vx, vy] = v; auto md = std::abs(ux - vx) + std::abs(uy - vy); switch (md) { // ‹u = v›; staying on the same cell case 0: return 0; // ‹u› and ‹v› are neighbours case 1: break; // ‹u› and ‹v› are not neighbouring cells default: return UNREACHABLE; } // boundary check if (vy < 0 || vy >= _height || vx < 0 || vx >= _width) { return UNREACHABLE; } switch (map[vy][vx]) { case '#': return UNREACHABLE; case '*': return VORTEX_COST; default: return NORMAL_COST; } } auto width() const -> int { return _width; } auto height() const -> int { return _height; } auto has(const vertex_t& v) const -> bool { auto [x, y] = v; return (0 <= y && y < _height) && (0 <= x && x < _width); } friend std::ostream& operator<<(std::ostream& os, const graph& g); private: std::vector> map; int _height, _width; const static int UNREACHABLE = std::numeric_limits::max(); // XXX: modify here to change the price of entering the vortex const static int VORTEX_COST = 5; const static int NORMAL_COST = 1; }; std::ostream& operator<<(std::ostream& os, const graph& g) { for (const auto& row : g.map) { for (const char cell : row) { os << cell; } os << "\n"; } return os; } #endif /* _GRAPH_HPP */