blog/static/files/algorithms/paths/bf-to-astar/main.cpp

#include <iostream>
#include <string>
#include <utility>
#include <vector>

#include "astar.hpp"
#include "bf.hpp"
#include "dijkstra.hpp"
#include "graph.hpp"

auto line_to_vector(const std::string& l) -> std::vector<char> {
  return std::vector(l.begin(), l.end());
}

auto main() -> int {
  graph g{std::vector{
      line_to_vector(std::string("#############")),
      line_to_vector(std::string("#..#..*.*.**#")),
      line_to_vector(std::string("##***.....**#")),
      line_to_vector(std::string("#..########.#")),
      line_to_vector(std::string("#...###...#.#")),
      line_to_vector(std::string("#..#...##.#.#")),
      line_to_vector(std::string("#..#.*.#..#.#")),
      line_to_vector(std::string("#....#....#.#")),
      line_to_vector(std::string("########*.*.#")),
      line_to_vector(std::string("#...........#")),
      line_to_vector(std::string("#############")),
  }};
  std::cout << "Normal cost: " << g.normal_cost() << "\n";
  std::cout << "Vortex cost: " << g.vortex_cost() << "\n";
  std::cout << "Graph:\n" << g;

  // finding the distances from the bottom left corner to the 2 rows above
  auto cost = bf_finite(g, std::make_pair(1, 9), std::make_pair(1, 7));
  std::cout << "[Finite BF] Cost: " << cost << "\n";

  auto distances = bellman_ford(g, std::make_pair(1, 9));
  std::cout << "[Bellman-Ford] Cost: " << distances[7][1] << "\n";

  distances = dijkstra(g, std::make_pair(1, 9));
  std::cout << "[Dijkstra] Cost: " << distances[7][1] << "\n";

  return 0;
}
algorithms(bf-to-astar): add intro Signed-off-by: Matej Focko <me@mfocko.xyz> 2024-01-01 18:13:30 +01:00			`#include <iostream>`
			`#include <string>`
			`#include <utility>`
			`#include <vector>`

			`#include "astar.hpp"`
			`#include "bf.hpp"`
			`#include "dijkstra.hpp"`
			`#include "graph.hpp"`

			`auto line_to_vector(const std::string& l) -> std::vector<char> {`
			`return std::vector(l.begin(), l.end());`
			`}`

			`auto main() -> int {`
			`graph g{std::vector{`
			`line_to_vector(std::string("#############")),`
			`line_to_vector(std::string("#..#....**#")),`
			`line_to_vector(std::string("##*.....#")),`
			`line_to_vector(std::string("#..########.#")),`
			`line_to_vector(std::string("#...###...#.#")),`
			`line_to_vector(std::string("#..#...##.#.#")),`
			`line_to_vector(std::string("#..#.*.#..#.#")),`
			`line_to_vector(std::string("#....#....#.#")),`
			`line_to_vector(std::string("########..#")),`
			`line_to_vector(std::string("#...........#")),`
			`line_to_vector(std::string("#############")),`
			`}};`
			`std::cout << "Normal cost: " << g.normal_cost() << "\n";`
			`std::cout << "Vortex cost: " << g.vortex_cost() << "\n";`
			`std::cout << "Graph:\n" << g;`

algorithms(bf-to-astar): add BF Signed-off-by: Matej Focko <me@mfocko.xyz> 2024-01-01 18:21:24 +01:00			`// finding the distances from the bottom left corner to the 2 rows above`
			`auto cost = bf_finite(g, std::make_pair(1, 9), std::make_pair(1, 7));`
			`std::cout << "[Finite BF] Cost: " << cost << "\n";`

			`auto distances = bellman_ford(g, std::make_pair(1, 9));`
			`std::cout << "[Bellman-Ford] Cost: " << distances[7][1] << "\n";`

algorithms(bf-to-astar): add Dijkstra Signed-off-by: Matej Focko <me@mfocko.xyz> 2024-01-03 12:50:29 +01:00			`distances = dijkstra(g, std::make_pair(1, 9));`
			`std::cout << "[Dijkstra] Cost: " << distances[7][1] << "\n";`

algorithms(bf-to-astar): add intro Signed-off-by: Matej Focko <me@mfocko.xyz> 2024-01-01 18:13:30 +01:00			`return 0;`
			`}`