#ifndef _DIJKSTRA_HPP #define _DIJKSTRA_HPP #include #include #include #include #include #include #include "graph.hpp" auto dijkstra(const graph& g, const vertex_t& source) -> std::vector> { // make sure that ‹source› exists assert(g.has(source)); // initialize the distances std::vector> distances( g.height(), std::vector(g.width(), graph::unreachable())); // initialize the visited std::vector> visited(g.height(), std::vector(g.width(), false)); // ‹source› destination denotes the beginning where the cost is 0 auto [sx, sy] = source; distances[sy][sx] = 0; pqueue_t priority_queue{std::make_pair(0, source)}; std::optional item{}; while ((item = popq(priority_queue))) { auto [cost, u] = *item; auto [x, y] = u; // we have already found the shortest path if (visited[y][x]) { continue; } visited[y][x] = true; for (const auto& [dx, dy] : DIRECTIONS) { auto v = std::make_pair(x + dx, y + dy); auto cost = g.cost(u, v); // if we can move to the cell and it's better, relax¹ it and update queue if (cost != graph::unreachable() && distances[y][x] + cost < distances[y + dy][x + dx]) { distances[y + dy][x + dx] = distances[y][x] + cost; pushq(priority_queue, std::make_pair(distances[y + dy][x + dx], v)); } } } return distances; } #endif /* _DIJKSTRA_HPP */