RCRPG/C++11
C++11 version of RCRPG. The code can also be checked out and contributed to on github .
Code
<lang cpp> // // main.cpp // RCRPGCpp // // Created by pistacchio on 19/03/14. // //
- include <algorithm>
- include <iostream>
- include <map>
- include <set>
- include <string>
- include <random>
- include <regex>
- include <vector>
// Initialize the randomization engine std::default_random_engine rnd_eng(std::random_device{}());
////////////////// // String utils // //////////////////
// Concats string in a nice readable format adding "," and "and" std::string descriptive_join(const std::vector<std::string>& items) {
std::string desc; std::vector<std::string> itms {items.begin(), items.end()}; int items_size {(int)items.size()}; if (items_size > 1) { for (int i {0}; i < items_size - 1; i++) { itms.insert(itms.begin() + i * 2 + 1, i == items_size -2 ? " and " : ", "); } } std::for_each(itms.begin(), itms.end(), [&](std::string s) { desc += s; }); return desc;
}
////////// // Item // //////////
enum Item {LADDER, SLEDGE, GOLD}; static const std::map<Item, std::string> Item_strings {
{LADDER, "a ladder"}, {SLEDGE, "a sledge"}, {GOLD, "some gold"}
}; static const std::map<std::string, Item> String_items {
{"ladder", LADDER}, {"sledge", SLEDGE}, {"gold", GOLD}
};
///////////// // Aliases // /////////////
std::map<std::string, std::string> Aliases {
{"i", "inventory"}, {"n", "north"}, {"e", "east"}, {"w", "west"}, {"s", "south"}, {"get", "take"}, {"u", "up"}, {"l", "look"}, {"d", "down"}
}; std::string unalias(std::string term) {
if (Aliases.find(term) == Aliases.end()) { return term; } else { return Aliases.find(term)->second; }
} void list_aliases() {
std::cout << "Current aliases are:" << std::endl; for_each(Aliases.begin(), Aliases.end(), [](std::pair<std::string, std::string> alias){ std::cout << alias.first << " -> " << alias.second << std::endl; });
} void add_alias(std::string alias, std::string command) {
if (Aliases.find(alias) == Aliases.end()) { Aliases[alias] = command; }
}
////////////// // Location // //////////////
struct Location {
int x; int y; int z; Location (int xval, int yval, int zval): x(xval), y(yval), z(zval) {}
Location& operator+= (Location const& other) { *this = *this + other; return *this; } Location operator+ (const Location& other) { return Location(this->x + other.x, this->y + other.y, this->z + other.z); }
}; bool operator< (const Location& left, const Location& right) {
return std::to_string(left.x) + '-' + std::to_string(left.y) + '-' + std::to_string(left.z) < std::to_string(right.x) + '-' + std::to_string(right.y) + '-' + std::to_string(right.z);
}
/////////////// // Direction // ///////////////
static const std::map<std::string, Location> Direction {
{"north", Location( 0, -1, 0)}, {"south", Location( 0, 1, 0)}, {"east", Location(-1, 0, 0)}, {"west", Location( 1, 0, 0)}, {"up", Location( 0, 0, -1)}, {"down", Location( 0, 0, 1)}
};
////////////////////////////// // Interface Item Container // //////////////////////////////
// Inherited by Player and Room, both need a way to contain items class IItemContainer { public:
bool has_item(const Item item) const { return items.find(item) != items.end(); } bool add_item(Item item) { if (items.find(item) == items.end()) { items.insert(item); return true; } else { return false; } } std::set<Item> add_all_items(std::set<Item> new_items) { items.insert(new_items.begin(), new_items.end()); return items; } bool remove_item(Item item) { if (items.find(item) == items.end()) { return false; } else { items.erase(item); return true; } } std::set<Item> remove_all_items() { std::set<Item> removed_items {items.begin(), items.end()}; items = std::set<Item> {}; return removed_items; }
protected:
std::set<Item> items;
};
//////////
// Room //
//////////
class Room : public IItemContainer { public:
Room () = default; Room (std::string description): description(description) { std::uniform_int_distribution<int> gen(0, 2);
if (gen(rnd_eng) == 0) { items.insert(LADDER); } if (gen(rnd_eng) == 0) { items.insert(SLEDGE); } if (gen(rnd_eng) == 0) { items.insert(GOLD); } } const std::string describe (std::vector<std::string> adjacent_directions) const { std::string items_on_floor; std::string exits; if (items.size() > 0) { items_on_floor = "\nOn the floor you can see " + describe_items(); } if (adjacent_directions.size() == 1) { exits = "There is one exit: " + adjacent_directions.front(); } else if (adjacent_directions.size() > 1) { exits = "\nYou can see the following directions: ";
exits += descriptive_join(adjacent_directions) + "."; } return description + items_on_floor + exits + "\n"; }
private:
std::string description; std::string describe_items () const { std::vector<std::string> itms; std::for_each(items.begin(), items.end(), [&](Item i) { itms.push_back(Item_strings.find(i)->second); }); return descriptive_join(itms) + "."; }
};
///////////
// World //
///////////
class World { public:
World () { rooms[Location(0, 0, 0)] = Room{"The room where it all started..."}; rooms[Location(1, 1, 5)] = Room{"You found it! Lots of gold!"}; } bool room_exists (const Location room) const { return rooms.find(room) != rooms.end(); } Room& room_at (const Location location) { return rooms[location]; } const void dig (Location location) { rooms[location] = Room{}; } const std::vector<std::string> adjacent_directions (Location location) { std::vector<std::string> result {};
std::for_each(Direction.begin(), Direction.end(), [&](std::pair<std::string, Location> direction) { if (room_exists(location + direction.second)) { result.push_back(direction.first); } }); return result; }
private:
std::map<Location, Room> rooms;
};
//////////// // Player // ////////////
class Player : public IItemContainer { public:
Player () : current_location(0, 0, 0) { items.insert(SLEDGE); }; const Location goto_direction (const Location direction) { current_location += direction; return current_location; } Location get_current_location () const { return current_location; } std::string inventory () { if (items.size() == 0) { return "You are not carrying anything"; } else { std::vector<std::string> itemsv; std::for_each(items.begin(), items.end(), [&](Item i) { itemsv.push_back(Item_strings.find(i)->second); }); return "You are carrying: " + descriptive_join(itemsv); } } bool equip(Item item) { if (has_item(item)) { equipping = true; equipped = item; return true; } else { return false; } } bool unequip(Item item) { if (equipped == item) { equipping = false; return true; } else { return false; } } bool is_equipping(Item item) { return equipping == true && equipped == item; }
private:
Location current_location; bool equipping {false}; Item equipped;
};
//////////
// Game //
//////////
class Game { public:
void execute(const std::string command) { std::vector<std::string> cmd;
std::for_each(std::sregex_token_iterator {command.begin(), command.end(), std::regex {"\\s+"}, -1}, std::sregex_token_iterator {}, [&](std::ssub_match sm) { cmd.push_back(sm.str()); }); std::string action {unalias(cmd.front())}; // HELP if (action == "help") { print_help(); // MOVE (Up, Down, North etc) } else if (Direction.find(action) != Direction.end()) { Location direction {Direction.find(action)->second}; Location location {direction + player.get_current_location()}; if (world.room_exists(location)) { Room& room {world.room_at(location)}; if (action == "up" && !room.has_item(LADDER)) { std::cout << "You can't go upwards without a ladder!" << std::endl; } else { Location current_location = player.goto_direction(direction); std::cout << world.room_at(current_location).describe(world.adjacent_directions(current_location)); } } else { std::cout << "There's no exit in that direction!" << std::endl; } // LOOK and describe the room } else if (action == "look") { std::cout << world.room_at(player.get_current_location()).describe(world.adjacent_directions(player.get_current_location())); // DIG towards a direction } else if (action == "dig") { if (cmd.size() != 2) { std::cout << "Where do you want to dig?" << std::endl; } else if (!player.is_equipping(SLEDGE)) { std::cout << "With your bare hands?!" << std::endl; } else { if (Direction.find(cmd[1]) == Direction.end()) { std::cout << "That is not a direction I recognize" << std::endl; } else { Location new_loc = player.get_current_location() + Direction.find(cmd[1])->second; if (world.room_exists(new_loc)) { std::cout << "There is already an exit, there!" << std::endl; } else { world.dig(player.get_current_location() + Direction.find(cmd[1])->second); std::cout << "There is now a new exit " << cmd[1] << "ward" << std::endl; } } } // DROP an item or all in the inventory } else if (action == "drop") { if (cmd.size() == 1) { std::cout << "Drop what?" << std::endl; } else { if (cmd[1] == "all" ) { Room& room {world.room_at(player.get_current_location())}; room.add_all_items(player.remove_all_items()); std::cout << "All items dropped;" << std::endl; } else if (String_items.find(cmd[1]) == String_items.end()) { std::cout << "\"" << cmd[1] <<"\" is not something I recognize" << std::endl; } else { Item item {String_items.find(cmd[1])->second}; if (player.remove_item(item)) { Room& room {world.room_at(player.get_current_location())}; room.add_item(item); std::cout << "Item dropped" << std::endl; } else { std::cout << "You don't have any" << cmd[1] << std::endl; } } } // TAKE an item from the room or all of them } else if (action == "take" ) { if (cmd.size() == 1) { std::cout << "Take what?" << std::endl; } else { if (cmd[1] == "all") { Room& room {world.room_at(player.get_current_location())}; player.add_all_items(room.remove_all_items()); std::cout << "All items taken;" << std::endl; } else if (String_items.find(cmd[1]) == String_items.end()) { std::cout << "\"" << cmd[1] <<"\" is not something I recognize" << std::endl; } else { Item item {String_items.find(cmd[1])->second}; Room& room {world.room_at(player.get_current_location())}; if (room.remove_item(item)) { player.add_item(item); std::cout << "Item taken" << std::endl; } else { std::cout << "There is no such item in the room" << std::endl; } } } // INVENTORY listing } else if (action == "inventory") { std::cout << player.inventory() << std::endl; // EQUIP an item currently in the inventory } else if (action == "equip") { if (cmd.size() == 1) { std::cout << "What do you want to equip?" << std::endl; } else { if (String_items.find(cmd[1]) == String_items.end()) { std::cout << "That is not an item I recognize" << std::endl; } else { if (player.equip(String_items.find(cmd[1])->second)) { std::cout << "Item equipped!" << std::endl; } else { std::cout << "You don't have it" << std::endl; } } } // UNEQUIP an item currently equipped } else if (action == "unequip") { if (cmd.size() == 1) { std::cout << "What do you want to unequip?" << std::endl; } else { if (String_items.find(cmd[1]) == String_items.end()) { std::cout << "That is not an item I recognize" << std::endl; } else { if (player.equip(String_items.find(cmd[1])->second)) { std::cout << "Item unequipped!" << std::endl; } else { std::cout << "You don't have it" << std::endl; } } } // ALIAS a command, or list the aliases } else if (action == "alias") { if (cmd.size() == 1) { list_aliases(); } else if (cmd.size() == 3) { add_alias(cmd[1], cmd[2]); std::cout << "Alias added" << std::endl; } else { std::cout << "The correct use is: alias <ALIAS> <COMMAND>" << std::endl; } // WHAT?! A command that is not undertood by this simplistic parser } else { std::cout << "Hm?! What do you mean?" << std::endl; } } void print_help() { std::cout << "You need a sledge to dig rooms and ladders to go upwards." << std::endl << "Valid commands are: directions (north, south...), dig, take, drop, equip, inventory and look." << std::endl << "Additionally you can tag rooms with the 'name' command and alias commands with 'alias'." << std::endl << "Have fun!" << std::endl; }
private:
World world; Player player;
};
////////////////
// Main cycle //
////////////////
int main() {
Game game; std::string input_line; std::cout << "Welcome to the dungeon!" << std::endl << "Grab the sledge and make your way to room 1,1,5 for a non-existant prize!" << std::endl << std::endl; game.print_help(); while (input_line != "exit") { std::getline(std::cin, input_line); game.execute(input_line); } std::cout << "See you next time!" << std::endl; return 0;
} </lang>