コード例 #1
0
ファイル: aspect_attacks.cpp プロジェクト: AG-Dev/wesnoth_ios
int aspect_attacks::rate_terrain(const unit& u, const map_location& loc)
{
	gamemap &map_ = *resources::game_map;
	const t_translation::t_terrain terrain = map_.get_terrain(loc);
	const int defense = u.defense_modifier(terrain);
	int rating = 100 - defense;

	const int healing_value = 10;
	const int friendly_village_value = 5;
	const int neutral_village_value = 10;
	const int enemy_village_value = 15;

	if(map_.gives_healing(terrain) && u.get_ability_bool("regenerate",loc) == false) {
		rating += healing_value;
	}

	if(map_.is_village(terrain)) {
		int owner = village_owner(loc, *resources::teams) + 1;

		if(owner == u.side()) {
			rating += friendly_village_value;
		} else if(owner == 0) {
			rating += neutral_village_value;
		} else {
			rating += enemy_village_value;
		}
	}

	return rating;
}
コード例 #2
0
ファイル: contexts.cpp プロジェクト: Wedge009/wesnoth
int default_ai_context_impl::rate_terrain(const unit& u, const map_location& loc) const
{
	const gamemap &map_ = resources::gameboard->map();
	const t_translation::terrain_code terrain = map_.get_terrain(loc);
	const int defense = u.defense_modifier(terrain);
	int rating = 100 - defense;

	const int healing_value = 10;
	const int friendly_village_value = 5;
	const int neutral_village_value = 10;
	const int enemy_village_value = 15;

	if(map_.gives_healing(terrain) && u.get_ability_bool("regenerate", loc, *resources::gameboard) == false) {
		rating += healing_value;
	}

	if(map_.is_village(terrain)) {
		int owner = resources::gameboard->village_owner(loc) + 1;

		if(owner == get_side()) {
			rating += friendly_village_value;
		} else if(owner == 0) {
			rating += neutral_village_value;
		} else {
			rating += enemy_village_value;
		}
	}

	return rating;
}
コード例 #3
0
ファイル: pathfind.cpp プロジェクト: oys0317/opensanguo
std::set<map_location> get_teleport_locations(const unit &u,
	const unit_map &units, const team &viewing_team,
	bool see_all, bool ignore_units)
{
	std::set<map_location> res;
	if (!u.get_ability_bool("teleport")) return res;

	const team &current_team = (*resources::teams)[u.side() - 1];
	const map_location &loc = u.get_location();
	foreach (const map_location &l, current_team.villages())
	{
		// This must be a vacant village (or occupied by the unit)
		// to be able to teleport.
		if (!see_all && viewing_team.is_enemy(u.side()) && viewing_team.fogged(l))
			continue;
		if (!ignore_units && l != loc &&
		    get_visible_unit(units, l, viewing_team, see_all))
			continue;
		res.insert(l);
	}
	return res;
}
コード例 #4
0
ファイル: pathfind.cpp プロジェクト: oys0317/opensanguo
marked_route mark_route(const plain_route &rt,
	const std::vector<map_location>& waypoints, const unit &u,
	const team &viewing_team, const unit_map &units,
	const std::vector<team> &teams, const gamemap &map)
{
	marked_route res;

	if (rt.steps.empty()) return res;
	res.steps = rt.steps;

	int turns = 0;
	int movement = u.movement_left();
	const team& unit_team = teams[u.side()-1];
	bool zoc = false;

	std::vector<map_location>::const_iterator i = rt.steps.begin(),
			w = waypoints.begin();

	// TODO fix the name confusion with waypoints and route.waypoints
	for (; i !=rt.steps.end(); i++) {
		bool last_step = (i+1 == rt.steps.end());

		// move_cost of the next step is irrelevant for the last step
		assert(last_step || map.on_board(*(i+1)));
		const int move_cost = last_step ? 0 : u.movement_cost(map[*(i+1)]);
		bool capture = false;
		bool pass_here = false;
		if (w != waypoints.end() && *i == *w) {
			w++;
			pass_here = true;
		}

		if (last_step || zoc || move_cost > movement) {
			// check if we stop an a village and so maybe capture it
			// if it's an enemy unit and a fogged village, we assume a capture
			// (if he already owns it, we can't know that)
			// if it's not an enemy, we can always know if he owns the village
			bool capture = map.is_village(*i) && ( !unit_team.owns_village(*i)
				 || (viewing_team.is_enemy(u.side()) && viewing_team.fogged(*i)) );

			++turns;

			bool invisible = u.invisible(*i,units,teams,false);

			res.waypoints[*i] = marked_route::waypoint(turns, pass_here, zoc, capture, invisible);

			if (last_step) break; // finished and we used dummy move_cost

			movement = u.total_movement();
			if(move_cost > movement) {
				return res; //we can't reach destination
			}
		} else if (pass_here) {
			bool invisible = u.invisible(*i,units,teams,false);
			res.waypoints[*i] = marked_route::waypoint(0, pass_here, zoc, false, invisible);
		}

		zoc = enemy_zoc(units, teams, *(i + 1), viewing_team,u.side())
					&& !u.get_ability_bool("skirmisher", *(i+1));

		if (zoc || capture) {
			movement = 0;
		} else {
			movement -= move_cost;
		}
	}

	return res;
}
コード例 #5
0
ファイル: pathfind.cpp プロジェクト: oys0317/opensanguo
static void find_routes(const gamemap& map, const unit_map& units,
		const unit& u, const map_location& loc,
		int move_left, paths::dest_vect &destinations,
		std::vector<team> const &teams,
		bool force_ignore_zocs, bool allow_teleport, int turns_left,
		const team &viewing_team,
		bool see_all, bool ignore_units)
{
	const team& current_team = teams[u.side() - 1];
	std::set<map_location> teleports;
	if (allow_teleport) {
		teleports = get_teleport_locations(u, units, viewing_team, see_all, ignore_units);
	}

	const int total_movement = u.total_movement();

	std::vector<map_location> locs(6 + teleports.size());
	std::copy(teleports.begin(), teleports.end(), locs.begin() + 6);

	search_counter += 2;
	if (search_counter == 0) search_counter = 2;

	static std::vector<node> nodes;
	nodes.resize(map.w() * map.h());

	indexer index(map.w(), map.h());
	comp node_comp(nodes);

	int xmin = loc.x, xmax = loc.x, ymin = loc.y, ymax = loc.y, nb_dest = 1;

	nodes[index(loc)] = node(move_left, turns_left, map_location::null_location, loc);
	std::vector<int> pq;
	pq.push_back(index(loc));

	while (!pq.empty()) {
		node& n = nodes[pq.front()];
		std::pop_heap(pq.begin(), pq.end(), node_comp);
		pq.pop_back();
		n.in = search_counter;

		get_adjacent_tiles(n.curr, &locs[0]);
		for (int i = teleports.count(n.curr) ? locs.size() : 6; i-- > 0; ) {
			if (!locs[i].valid(map.w(), map.h())) continue;

			node& next = nodes[index(locs[i])];

			bool next_visited = next.in - search_counter <= 1u;

			// Classic Dijkstra allow to skip chosen nodes (with next.in==search_counter)
			// But the cost function and hex grid allow to also skip visited nodes:
			// if next was visited, then we already have a path 'src-..-n2-next'
			// - n2 was chosen before n, meaning that it is nearer to src.
			// - the cost of 'n-next' can't be smaller than 'n2-next' because
			//   cost is independent of direction and we don't have more MP at n
			//   (important because more MP may allow to avoid waiting next turn)
			// Thus, 'src-..-n-next' can't be shorter.
			if (next_visited) continue;

			const int move_cost = u.movement_cost(map[locs[i]]);

			node t = node(n.movement_left, n.turns_left, n.curr, locs[i]);
			if (t.movement_left < move_cost) {
				t.movement_left = total_movement;
				t.turns_left--;
			}

			if (t.movement_left < move_cost || t.turns_left < 0) continue;

			t.movement_left -= move_cost;

			if (!ignore_units) {
				const unit *v =
					get_visible_unit(units, locs[i], viewing_team, see_all);
				if (v && current_team.is_enemy(v->side()))
					continue;

				if (!force_ignore_zocs && t.movement_left > 0
						&& enemy_zoc(units, teams, locs[i], viewing_team, u.side(), see_all)
						&& !u.get_ability_bool("skirmisher", locs[i])) {
					t.movement_left = 0;
				}
			}

			++nb_dest;
			int x = locs[i].x;
			if (x < xmin) xmin = x;
			if (xmax < x) xmax = x;
			int y = locs[i].y;
			if (y < ymin) ymin = y;
			if (ymax < y) ymax = y;

			bool in_list = next.in == search_counter + 1;
			t.in = search_counter + 1;
			next = t;

			// if already in the priority queue then we just update it, else push it.
			if (in_list) { // never happen see next_visited above
				std::push_heap(pq.begin(), std::find(pq.begin(), pq.end(), index(locs[i])) + 1, node_comp);
			} else {
				pq.push_back(index(locs[i]));
				std::push_heap(pq.begin(), pq.end(), node_comp);
			}
		}
	}

	// Build the routes for every map_location that we reached.
	// The ordering must be compatible with map_location::operator<.
	destinations.reserve(nb_dest);
	for (int x = xmin; x <= xmax; ++x) {
		for (int y = ymin; y <= ymax; ++y)
		{
			const node &n = nodes[index(map_location(x, y))];
			if (n.in - search_counter > 1u) continue;
			paths::step s =
				{ n.curr, n.prev, n.movement_left + n.turns_left * total_movement };
			destinations.push_back(s);
		}
	}
}