data/maps/the_unyielding/rooms/Triplet Room.txtpb


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name: "Triplet Room"
panels {
  name: "ICE"
  path: "Panels/Triplet 1/triplet"
  clue: "ice"
  answer: "water"
  symbols: CROSS
}
panels {
  name: "FILM"
  path: "Panels/Triplet 1/triplet2"
  clue: "film"
  answer: "play"
  symbols: EXAMPLE
}
panels {
  name: "ICE FILM"
  path: "Panels/Triplet 1/triplet3"
  clue: ""
  answer: "firework"
  symbols: SUN
  symbols: LINGO
}
#include "game_data.h"

#include <hkutil/string.h>
#include <yaml-cpp/yaml.h>

#include <iostream>

LingoColor GetColorForString(const std::string &str) {
  if (str == "black") {
    return LingoColor::kBlack;
  } else if (str == "red") {
    return LingoColor::kRed;
  } else if (str == "blue") {
    return LingoColor::kBlue;
  } else if (str == "yellow") {
    return LingoColor::kYellow;
  } else if (str == "orange") {
    return LingoColor::kOrange;
  } else if (str == "green") {
    return LingoColor::kGreen;
  } else if (str == "gray") {
    return LingoColor::kGray;
  } else if (str == "brown") {
    return LingoColor::kBrown;
  } else if (str == "purple") {
    return LingoColor::kPurple;
  } else {
    std::cout << "Invalid color: " << str << std::endl;
    return LingoColor::kNone;
  }
}

GameData::GameData() {
  YAML::Node lingo_config = YAML::LoadFile("assets/LL1.yaml");
  YAML::Node areas_config = YAML::LoadFile("assets/areas.yaml");

  rooms_.reserve(lingo_config.size() * 2);

  for (const auto &room_it : lingo_config) {
    int room_id = AddOrGetRoom(room_it.first.as<std::string>());
    Room &room_obj = rooms_[room_id];

    for (const auto &entrance_it : room_it.second["entrances"]) {
      int from_room_id = AddOrGetRoom(entrance_it.first.as<std::string>());
      Room &from_room_obj = rooms_[from_room_id];

      switch (entrance_it.second.Type()) {
        case YAML::NodeType::Scalar: {
          // This is just "true".
          from_room_obj.exits.push_back({.destination_room = room_id});
          break;
        }
        case YAML::NodeType::Map: {
          Exit exit_obj;
          exit_obj.destination_room = room_id;

          if (entrance_it.second["door"]) {
            std::string door_room = room_obj.name;
            if (entrance_it.second["room"]) {
              door_room = entrance_it.second["room"].as<std::string>();
            }
            exit_obj.door = AddOrGetDoor(
                door_room, entrance_it.second["door"].as<std::string>());
          }

          from_room_obj.exits.push_back(exit_obj);
          break;
        }
        case YAML::NodeType::Sequence: {
          for (const auto &option : entrance_it.second) {
            Exit exit_obj;
            exit_obj.destination_room = room_id;

            std::string door_room = room_obj.name;
            if (option["room"]) {
              door_room = option["room"].as<std::string>();
            }
            exit_obj.door =
                AddOrGetDoor(door_room, option["door"].as<std::string>());

            from_room_obj.exits.push_back(exit_obj);
          }

          break;
        }
        default: {
          // This shouldn't happen.
          std::cout << "Error reading game data: " << entrance_it << std::endl;
          break;
        }
      }
    }

    if (room_it.second["panels"]) {
      for (const auto &panel_it : room_it.second["panels"]) {
        int panel_id =
            AddOrGetPanel(room_obj.name, panel_it.first.as<std::string>());
        Panel &panel_obj = panels_[panel_id];

        if (panel_it.second["colors"]) {
          if (panel_it.second["colors"].IsScalar()) {
            panel_obj.colors.push_back(
                GetColorForString(panel_it.second["colors"].as<std::string>()));
          } else {
            for (const auto &color_node : panel_it.second["colors"]) {
              panel_obj.colors.push_back(
                  GetColorForString(color_node.as<std::string>()));
            }
          }
        }

        if (panel_it.second["required_room"]) {
          if (panel_it.second["required_room"].IsScalar()) {
            panel_obj.required_rooms.push_back(AddOrGetRoom(
                panel_it.second["required_room"].as<std::string>()));
          } else {
            for (const auto &rr_node : panel_it.second["required_room"]) {
              panel_obj.required_rooms.push_back(
                  AddOrGetRoom(rr_node.as<std::string>()));
            }
          }
        }

        if (panel_it.second["required_door"]) {
          if (panel_it.second["required_door"].IsMap()) {
            std::string rd_room = room_obj.name;
            if (panel_it.second["required_door"]["room"]) {
              rd_room =
                  panel_it.second["required_door"]["room"].as<std::string>();
            }

            panel_obj.required_doors.push_back(AddOrGetDoor(
                rd_room,
                panel_it.second["required_door"]["door"].as<std::string>()));
          } else {
            for (const auto &rr_node : panel_it.second["required_door"]) {
              std::string rd_room = room_obj.name;
              if (rr_node["room"]) {
                rd_room = rr_node["room"].as<std::string>();
              }

              panel_obj.required_doors.push_back(
                  AddOrGetDoor(rd_room, rr_node["door"].as<std::string>()));
            }
          }
        }

        if (panel_it.second["check"]) {
          panel_obj.check = panel_it.second["check"].as<bool>();
        }

        if (panel_it.second["exclude_reduce"]) {
          panel_obj.exclude_reduce =
              panel_it.second["exclude_reduce"].as<bool>();
        }
      }
    }

    if (room_it.second["doors"]) {
      for (const auto &door_it : room_it.second["doors"]) {
        int door_id =
            AddOrGetDoor(room_obj.name, door_it.first.as<std::string>());
        Door &door_obj = doors_[door_id];

        bool has_external_panels = false;
        std::vector<std::string> panel_names;

        for (const auto &panel_node : door_it.second["panels"]) {
          if (panel_node.IsScalar()) {
            panel_names.push_back(panel_node.as<std::string>());
            door_obj.panels.push_back(
                AddOrGetPanel(room_obj.name, panel_node.as<std::string>()));
          } else {
            has_external_panels = true;
            panel_names.push_back(panel_node["panel"].as<std::string>());
            door_obj.panels.push_back(
                AddOrGetPanel(panel_node["room"].as<std::string>(),
                              panel_node["panel"].as<std::string>()));
          }
        }

        if (door_it.second["skip_location"]) {
          door_obj.skip_location = door_it.second["skip_location"].as<bool>();
        }

        if (door_it.second["event"]) {
          door_obj.skip_location = door_it.second["event"].as<bool>();
        }

        if (door_it.second["item_name"]) {
          door_obj.item_name = door_it.second["item_name"].as<std::string>();
        } else if (!door_it.second["skip_item"] && !door_it.second["event"]) {
          door_obj.item_name = room_obj.name + " - " + door_obj.name;
        }

        if (door_it.second["group"]) {
          door_obj.group_name = door_it.second["group"].as<std::string>();
        }

        if (door_it.second["location_name"]) {
          door_obj.location_name =
              door_it.second["location_name"].as<std::string>();
        } else if (!door_it.second["skip_location"] &&
                   !door_it.second["event"]) {
          if (has_external_panels) {
            std::cout
                << room_obj.name << " - " << door_obj.name
                << " has panels from other rooms but does not have an explicit "
                   "location name and is not marked skip_location or event"
                << std::endl;
          }

          door_obj.location_name =
              room_obj.name + " - " + hatkirby::implode(panel_names, ", ");
        }

        if (door_it.second["include_reduce"]) {
          door_obj.exclude_reduce =
              !door_it.second["include_reduce"].as<bool>();
        }
      }
    }
  }

  map_areas_.reserve(areas_config.size());

  std::map<std::string, int> fold_areas;
  for (const auto &area_it : areas_config) {
    if (area_it.second["map"]) {
      int area_id = AddOrGetArea(area_it.first.as<std::string>());
      MapArea &area_obj = map_areas_[area_id];
      area_obj.map_x = area_it.second["map"][0].as<int>();
      area_obj.map_y = area_it.second["map"][1].as<int>();
    } else if (area_it.second["fold_into"]) {
      fold_areas[area_it.first.as<std::string>()] =
          AddOrGetArea(area_it.second["fold_into"].as<std::string>());
    }
  }

  for (const Panel &panel : panels_) {
    if (panel.check) {
      int room_id = panel.room;
      std::string room_name = rooms_[room_id].name;

      std::string area_name = room_name;
      if (fold_areas.count(room_name)) {
        int fold_area_id = fold_areas[room_name];
        area_name = map_areas_[fold_area_id].name;
      }

      int area_id = AddOrGetArea(area_name);
      MapArea &map_area = map_areas_[area_id];
      // room field should be the original room ID
      map_area.locations.push_back(
          {.name = panel.name,
           .ap_location_name = room_name + " - " + panel.name,
           .room = panel.room,
           .panels = {panel.id}});
    }
  }

  for (const Door &door : doors_) {
    if (!door.skip_location) {
      int room_id = door.room;
      std::string area_name = rooms_[room_id].name;
      std::string section_name;

      size_t divider_pos = door.location_name.find(" - ");
      if (divider_pos == std::string::npos) {
        section_name = door.location_name;
      } else {
        area_name = door.location_name.substr(0, divider_pos);
        section_name = door.location_name.substr(divider_pos + 3);
      }

      if (fold_areas.count(area_name)) {
        int fold_area_id = fold_areas[area_name];
        area_name = map_areas_[fold_area_id].name;
      }

      int area_id = AddOrGetArea(area_name);
      MapArea &map_area = map_areas_[area_id];
      // room field should be the original room ID
      map_area.locations.push_back({.name = section_name,
                                    .ap_location_name = door.location_name,
                                    .room = door.room,
                                    .panels = door.panels});
    }
  }
}

int GameData::AddOrGetRoom(std::string room) {
  if (!room_by_id_.count(room)) {
    room_by_id_[room] = rooms_.size();
    rooms_.push_back({.name = room});
  }

  return room_by_id_[room];
}

int GameData::AddOrGetDoor(std::string room, std::string door) {
  std::string full_name = room + " - " + door;

  if (!door_by_id_.count(full_name)) {
    door_by_id_[full_name] = doors_.size();
    doors_.push_back({.name = door, .room = AddOrGetRoom(room)});
  }

  return door_by_id_[full_name];
}

int GameData::AddOrGetPanel(std::string room, std::string panel) {
  std::string full_name = room + " - " + panel;

  if (!panel_by_id_.count(full_name)) {
    int panel_id = panels_.size();
    panel_by_id_[full_name] = panel_id;
    panels_.push_back(
        {.id = panel_id, .name = panel, .room = AddOrGetRoom(room)});
  }

  return panel_by_id_[full_name];
}

int GameData::AddOrGetArea(std::string area) {
  if (!area_by_id_.count(area)) {
    int area_id = map_areas_.size();
    area_by_id_[area] = area_id;
    map_areas_.push_back({.id = area_id, .name = area});
  }

  return area_by_id_[area];
}

const GameData &GetGameData() {
  static GameData *instance = new GameData();
  return *instance;
}