;;; ;;; Atlantis is a framework for creating multi-user dungeon worlds. ;;; This is the Common Lisp implementation. ;;; ;;; This module is responsible for the interactive user interface. All ;;; in-game UI should be done here. (Pre-game UI goes into atlantis.lisp.) ;;; ;;; Licensed under the terms of the MIT license. ;;; author: Daniel Vedder ;;; date: 21/05/2015 ;;; ;; TODO Out-source all game logic to other modules ;; (This module should be purely UI) ;; Yeah, probably not going to happen ;-) (defun play-game () "The main game loop" (let ((player (get-game-object 'player (world-main-player *world*)))) ;; The actual game loop (clear-screen) (let ((place (get-game-object 'place (player-place player)))) (describe-place place) (input-string command) ;; TODO Ask for confirmation before quitting (while (not (or (equalp command "quit") (equalp command "exit"))) (game-command command player) (input-string command)) (format t "~&Goodbye!")))) (defun describe-place (p) "Print out a complete description of place p" (when (stringp p) (setf p (get-game-object 'place p))) (objectify-place-monsters p) (format t "~&~A" (string-upcase (place-name p))) (format t "~&~%~A" (place-description p)) (format t "~&~%Neighbouring places: ~A" (string-from-list (place-neighbour p))) (format t "~&Items: ~A" (string-from-list (place-item p))) (format t "~&NPCs: ~A" (string-from-list (place-npc p))) (format t "~&Monsters: ~A" (string-from-list (list-place-objects 'monster p))) (when (place-command p) (format t "~&Commands: ~A" (string-from-list (place-command p))))) (defun game-command (cmd player) "Execute a typed-in game command" (let* ((command (read-from-string cmd)) (space (position #\Space cmd)) (arg (if space (second (cut-string cmd (1+ space))) NIL)) ;; Check default commands (cmd-fn (when (member command *commands* :test #'eq) command))) ;; Search for place commands (when (member (to-string command) (place-command (get-game-object 'place (player-place player))) :test #'equalp) (setf cmd-fn command)) ;; Search for item commands (highest priority) (dolist (i (objectify-name-list 'item (player-item player))) (when (member (to-string command) (item-command i) :test #'equalp) (setf cmd-fn command) (return))) ;; If found, execute the command (if cmd-fn (if space (funcall cmd-fn player arg) (funcall cmd-fn player)) (progn (format t "~&Sorry, this command is not available!") (format t "~&Type 'help' for a list of commands."))))) ;;; ;;; Here follow the functions that define the in-game commands. ;;; ;; A list of all in-game commands. Each new command must be registered here. (defvar *commands* '(help player goto take drop talk trade equip attack spell look search save clear)) ;;; The following commands don't take any arguments except for a player (defun help (player) "Print out a list of in-game commands" (setf help-text " Commands: help - Show this list of game commands quit/exit - Exit the game clear - Clear the screen look [here] - Describe the current location search - Search for hidden items player - Describe your player goto <place> - Go to a neighbouring location look <object> - Show a description of this entity talk [to] <npc> - Talk to an NPC take <item> - Pick up an item lying around drop <item> - Drop the item equip <weapon> - Equip this item as your weapon attack <monster> - Fight a monster save <game-file> - Save the game to file Some places and items may provide additional commands.") (format t "~A" help-text)) (defun clear (player) "Clear the screen (wrapper function)" (clear-screen) (place player)) ;; XXX Will the following two functions give problems? (Their name is ;; identical with the struct name) Probably not, but best to be aware. (defun place (player) "Describe the player's current location (wrapper function)" (describe-place (player-place player))) (defun player (p) "Print a description of this player" ;; TODO update (let ((tab (string #\tab))) (when (stringp p) (setf p (get-game-object 'player p))) (format t "~&~A~%~%~A" (string-upcase (player-name p)) (player-description p)) (format t "~&~%Current place: ~A" (player-place p)) (format t "~&=====~&Attributes:") (format t "~&Intelligence: ~A~AStrength: ~A" (player-intelligence p) tab (player-strength p)) (format t "~&Constitution: ~A~ADexterity: ~A" (player-constitution p) tab (player-dexterity p)) (format t "~&=====~&Abilities:~&~A" (let ((abilities (player-ability p))) (dolist (i (player-item p) (string-from-list abilities)) (let ((ia (item-ability (get-game-object 'item i)))) (when ia (setf abilities (append abilities ia))))))) (format t "~&=====") (format t "~&Weapon: ~A" (player-weapon p)) ;; XXX This will need adjusting for large item numbers (format t "~&Items: ~A" (string-from-list (player-item p))) (format t "~&=====") (format t "~&Max health: ~A~ACurrent health: ~A" (player-max-health p) tab (player-health p)) (format t "~&Experience: ~A~AMoney: ~A" (player-experience p) tab (player-money p)))) ;;; These next functions have to take two arguments (the argument ;;; to the function and a player instance). (let ((last-save NIL)) (defun save (player &optional game-file) "Save a game to file (wrapper method around save-world)" (if (and last-save (not game-file)) (setf game-file last-save) (progn (when (not (or last-save game-file)) (format t "~&What do you want to call the save file?") (input-string game-file)) (setf game-file (concatenate 'string "../saves/" game-file ".world")) (setf last-save game-file))) (if (y-or-n-p "Save game to ~A?" game-file) (progn (save-world game-file) (format t "~&Game saved.")) (setf last-save NIL)))) (defun goto (player &optional location) "Go to the specified location" ;; Look before you leap ;-) (unless location (format t "~&Please specify a location!") (return-from goto)) (unless (member location (place-neighbour (get-game-object 'place (player-place player))) :test #'equalp) (format t "~&This place does not border your current location!") (return-from goto)) (let ((req (place-requires (get-game-object 'place location)))) (unless (equalp req "") (unless (or (player-has-ability req player) (member req (player-item player) :test #'equalp)) (format t "~&You cannot enter this place unless you have: ~A" req) (return-from goto)))) ;; Change places (setf location (string-capitalize location)) (let ((hook (place-exit-hook (get-game-object 'place (player-place player))))) ;exit hook (unless (zerop (length hook)) (funcall (read-from-string hook) player))) (clear-screen) (debugging "~&~A is going to ~A." (player-name player) location) (change-player-location player location) (spawn-monsters location) (let ((hook (place-entry-hook (get-game-object 'place location)))) ;entry hook (unless (zerop (length hook)) (funcall (read-from-string hook) player))) (add-player-experience player 1) (describe-place (player-place player)) ;; Aggressive monsters attack (dolist (m (place-monster (get-game-object 'place (player-place player)))) (when (> (monster-aggression m) (random 100)) (format t "~&~%You are attacked by ~A!" (monster-name m)) (attack player (monster-name m))))) (defun look (player &optional object-name) "Print a description of this object" (unless object-name (place player) (return-from look)) ;; A bit of syntactic sugar... (cond ((equalp object-name "me") (player player) (return-from look)) ((equalp object-name "here") (place player) (return-from look))) (let ((description (get-object-description object-name (player-place player)))) ;; Don't forget items the player is carrying (when (member object-name (player-item player) :test #'equalp) (setf description (item-description (get-game-object 'item object-name)))) (if description (format t "~&(~A) ~A" (string-capitalize object-name) description) (format t "~&Could not find ~A!" object-name)))) (defun search (player &optional arg) "Search for hidden items in the current room" (let* ((place (get-game-object 'place (player-place player))) (items (place-item place)) (hidden (place-hidden place))) (dolist (h hidden) (when (> 50 (random 100)) (format t "~&You find: ~A" (item-name (get-game-object 'item h))) (set-object-attribute place 'item h) (remove-object-attribute place 'hidden h)))) (format t "~&You finish searching.")) (defun talk (player &optional npc-name) "Talk to the desired NPC" (unless npc-name (format t "~&Please specify an NPC to talk to!") (return-from talk)) ;; Allow for a bit of syntactic sugar (note: interface inconsistency?) (let ((split-name (cut-string npc-name 3))) (when (equalp (first split-name) "to ") (setf npc-name (second split-name)))) (let* ((npc-name (string-capitalize npc-name)) (place (get-game-object 'place (player-place player))) (npc (when (member npc-name (place-npc place) :test #'equalp) (get-game-object 'npc npc-name)))) ;; Check if the NPC is here (unless npc (format t "~&~A is not here!" npc-name) (return-from talk)) ;; The NPC says one of its lines (format t "~&~A: ~A" (string-upcase npc-name) (random-elt (npc-says npc))) ;; Interaction hook (let ((hook (npc-interaction-hook npc))) (unless (zerop (length hook)) (funcall (read-from-string hook) player))) ;; Trade with the NPC (when (and (npc-sells npc) (y-or-n-p "Trade with ~A?" npc-name)) (trade player npc)) ;; Handle quests (let ((quest (get-game-object 'quest (npc-quest npc)))) (when quest (if (dolist (i (quest-proof-item quest)) (unless (member i (player-item player) :test #'equalp) (return T))) (when (y-or-n-p "~%~A has a quest. Accept it?" npc-name) (format t "~&~A: ~A" (string-upcase npc-name) (quest-say-before quest))) (when (y-or-n-p "~%Give to ~A: ~A?" npc-name (string-from-list (quest-proof-item quest) ", ")) (dolist (j (quest-proof-item quest)) (remove-object-attribute player 'item j)) (dolist (k (quest-reward-item quest)) (set-object-attribute player 'item k)) (add-player-experience player (quest-experience quest)) (add-player-money player (quest-money quest)) (format t "~&~A: ~A" (string-upcase npc-name) (quest-say-after quest)) (format t "~&~%Quest complete. You gain:") (format t "~&Money: ~A Experience: ~A~&Items: ~A" (quest-money quest) (quest-experience quest) (string-from-list (quest-reward-item quest))) (unless (quest-infinite quest) (remove-object-attribute npc 'quest npc)))))))) (defun trade (player npc) "The player trades with this NPC" (when (and (stringp npc) (member npc (place-npc (get-game-object 'place (player-place player))) :test #'equalp)) (setf npc (get-game-object 'npc npc)) (unless (or (npc-sells npc) (npc-buys npc)) (format t "~&This NPC doesn't buy or sell anything!") (return-from trade))) (if (and (npc-sells npc) (npc-buys npc)) (setf trade (choose-option '("Buy" "Sell" "None"))) (if (npc-sells npc) (setf trade "Buy") (setf trade "Sell"))) (cond ((equalp trade "None") (return-from trade)) ((equalp trade "Buy") (format t "~&What do you want to buy? Your money: ~S" (player-money player)) (let* ((choice (choose-option (append (npc-sells npc) (list "None")))) (item (get-game-object 'item choice)) (cost (if item (item-cost item) NIL))) ;; TODO If possible, the cost should be displayed alongside every item. (cond ((equalp choice "None") NIL) ((not item) (format t "~&This object does not exist!") (format t "~&(This is a bug in the game world.)") NIL) ((< (player-money player) cost) (format t "~&This costs ~S. You do not have enough money!" cost)) ((y-or-n-p "Buy ~A for ~S?" choice cost) (decf (player-money player) cost) (set-object-attribute player 'item choice) (format t "~&Bought ~A for ~A." choice cost))))) ((equalp trade "Sell") (format t "~&~A will buy:" (npc-name npc)) (let* ((choice (choose-option (append (npc-buys npc) (list "None")))) (item (get-game-object 'item choice)) (cost (if item (item-cost item) NIL))) (cond ((equalp choice "None") NIL) ((not (member choice (player-item player) :test #'equalp)) (format t "~&You cannot sell an item you don't have!") NIL) ((not item) (format t "~&This object does not exist!") (format t "~&(This is a bug in the game world.)") NIL) ((y-or-n-p "Sell ~A for ~S?" choice cost) (incf (player-money player) cost) (remove-object-attribute player 'item choice) (format t "~&Sold ~A for ~S." choice cost)))))) (if (y-or-n-p "Continue trading?") (trade player npc) (clear player))) (defun take (player &optional item-name) "The player picks up an item" (unless item-name (format t "~&Please specify an item to pick up!") (return-from take)) (let ((place (get-game-object 'place (player-place player))) (item-name (string-capitalize item-name)) (item (get-game-object 'item item-name))) (if (member item-name (place-item place) :test #'equalp) (if (item-fixed item) (format t "~&You cannot pick this up!") (progn (set-object-attribute player 'item item-name) (unless (item-infinite item) (remove-object-attribute place 'item item-name)) (format t "~&You have picked up: ~A" item-name) (when (item-command item) (format t "~&This item provides commands: ~A" (string-from-list (item-command item)))) (unless (zerop (length (item-pickup-hook item))) (funcall (read-from-string (item-pickup-hook item)) player)))) (format t "~&Sorry, this item is not here!")))) (defun drop (player &optional item) "The player drops the specified item" (unless item (format t "~&Please specify an item to drop!") (return-from drop)) (setf item (string-capitalize item)) (if (member item (player-item player) :test #'equalp) (progn (remove-object-attribute player 'item item) (when (and (item-weapon (get-game-object 'item item)) (equalp (player-weapon player) item)) (set-object-attribute player 'weapon "")) (set-object-attribute (get-game-object 'place (player-place player)) 'item item) (format t "~&You have dropped: ~A" item) (unless (zerop (length (item-drop-hook (get-game-object 'item item)))) (funcall (read-from-string (item-drop-hook (get-game-object 'item item))) player))) (format t "~&You do not possess this item!"))) (defun equip (player &optional new-weapon) "The player sets another item to be his weapon" (unless new-weapon (format t "~&Please specify a weapon to be equipped!") (return-from equip)) (when (equalp new-weapon "none") (setf (player-weapon player) "") (format t "~&You no longer have any weapon equipped.") (return-from equip)) (setf new-weapon (string-capitalze new-weapon)) (if (and (member new-weapon (player-item player) :test #'equalp) (item-weapon (get-game-object 'item new-weapon))) (progn (setf (player-weapon player) new-weapon) (format t "~&You have equipped: ~A" new-weapon)) (format t "~&Sorry, this item is not available as a weapon!"))) (defun attack (player &optional opponent) "The player launches an attack at a monster" ;; Check input for validity (unless opponent (format t "~&Please specify an opponent!") (return-from attack)) (unless (member opponent (list-place-objects 'monster (get-game-object 'place (player-place player))) :test #'equalp) (format t "~&This monster is not here!") (return-from attack)) ;; Bind all relevant values to variables (saves typing later) (let* ((place (get-game-object 'place (player-place player))) (monster (dolist (m (place-monster place)) (when (equalp (monster-name m) opponent) (return m)))) (m-str (monster-strength monster)) (m-dex (monster-dexterity monster)) (m-ac (monster-armour-class monster)) (m-weapon (if (not (equalp (monster-weapon monster) "")) ;lbyl (get-game-object 'weapon (monster-weapon monster)) (make-weapon :name "Fists" :damage 0))) (p-str (player-strength player)) (p-dex (player-dexterity player)) (p-ac (player-armour-class player)) (p-weapon (if (not (equalp (player-weapon player) "")) ;lbyl (get-game-object 'weapon (player-weapon player)) (make-weapon :name "Fists" :damage 0))) (monster-hook (monster-attack-hook monster)) (damage 0)) ;; Call the monster's attack hook (unless (zerop (length monster-hook)) (funcall (read-from-string monster-hook) player)) ;; Print information about the combattants (format t "~&Health ~A: ~A Health ~A: ~A" (player-name player) (player-health player) opponent (monster-health monster)) ;; Determine whether the player or the monster strikes (if (> (+ (random 10) p-dex) (+ (random 10) m-dex)) ;XXX magic numbers! (setf damage (calculate-damage p-str p-weapon m-dex m-ac)) (setf damage (- 0 (calculate-damage m-str m-weapon p-dex p-ac)))) ;; Negative damage denotes that the player has been hit (cond ((plusp damage) (decf (monster-health monster) damage) (format t "~&You hit! ~A points damage." damage) (when (> 1 (monster-health monster)) (let ((experience (round (average m-str m-dex)))) (dolist (i (monster-item monster)) (set-object-attribute place 'item i)) (remove-object-attribute place 'monster monster) (add-player-experience player experience) (if (monster-death-msg monster) (format t "~&~A" (monster-death-msg monster)) (format t "~&You killed the monster!")) (format t "~&~A points experience." experience)))) ((minusp damage) (change-player-health player damage) (format t "~&You missed. Your opponent hit! ") (format t "~A points damage." damage)) (t (format t "~&You missed. Your opponent missed."))))) (defun calculate-damage (att-str att-weapon def-dex def-ac) "A private function to calculate the damage caused by an attack" (let ((damage 0)) (incf damage (if (zerop att-str) 0 (random att-str))) (incf damage (weapon-damage att-weapon)) (decf damage (if (zerop def-dex) 0 (random def-dex))) (decf damage def-ac) (if (minusp damage) 0 damage)))