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What would be the equivalent of this Python code:

class Player:
    def __init__(self): 
        self.hp = 10
        self.pos = [0,0,0]
        self.items = []
    def damage(self,dmg):
        self.hp -= dmg

player = Player()
player.pos[0] += 5

print player.hp, player.pos, player.items
>> 3 [5,0,0] ["banana"]

In Clojure (or other Lisps)?

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closed as not a real question by Devin Jeanpierre, Óscar López, Rainer Joswig, casperOne Jun 29 '12 at 16:33

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

no, I just want to see how Lisp deal with this. I've tried: readed some chapters of Practical CL; it seemed overly complicated or I was getting if it was the same. On Clojure I didn't understand what he was doing with the struct-map, and later on with the dispatch function thing. I'm not sure which of those (or other feature) would be used in this case, thus, why I'm asking. – Viclib Jun 26 '12 at 22:10
3 has small examples for pretty much any language while you wont find a 1 to 1 for your question it will probably show you the way – Joran Beasley Jun 26 '12 at 22:14
Thank you for pointing the mistakes; I haven't tested the code as it is just a conceptual example and the numbers are not the point. I think you are missing the motivation of down-voting, though. There are many reasons for down-voting, such as it not being a real question. But lack of effort from the author (if this was the case) is not a good reason simply because the question can still help many people that have the same doubt. There are much more people consulting past answers than people asking new questions. – Viclib Jun 26 '12 at 23:01
@Dokkat if you'd like to return the favor, it's easy - just accept one of the answers – Benjamin Cox Jun 27 '12 at 18:23
"I always accept an answer"... for some definition of "always", specifically 61% of the time. – Benjamin Cox Jun 27 '12 at 19:51

4 Answers 4

In Common Lisp:

(defclass player ()
  ((hp :accessor hp :initform 10)
   (pos :accessor pos :initform (list 0 0 0))
   (items :accessor items :initform nil)))

(defmethod damage ((a-player player) damage)
  (decf (hp a-player) damage))

In the REPL

; compiling (DEFCLASS PLAYER ...)
; compiling (DEFMETHOD DAMAGE ...)
CL-USER> (defparameter *player* (make-instance 'player))

CL-USER> (damage *player* 3)
CL-USER> (incf (car (pos *player*)) 5)
CL-USER> (push :banana (items *player*))
CL-USER> (list (hp *player*) (pos *player*) (items *player*))
(7 (5 0 0) (:BANANA))

Personally, I'd break pos up into separate x, y and z, and probably define some methods to put things into and out of the inventory, just in case I decide to change the representation later.

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Great answer, thank you! – Viclib Jun 26 '12 at 23:21
I'd possibly express the position as (vector 0 0 0) and closely investigate if I have a single list that is shared or get new lists for each invocation. I'd possibly go as far as leaving the initial value as nil and create a player-creating function. – Vatine Jun 27 '12 at 9:24

In Racket:

#lang racket

(define player%
  (class object%
    (init-field [hp 10] [pos '(0 0 0)] [items '()])

    (define/public (damage dmg)
      (set! hp (- hp dmg)))

    (define/public (move dx dy dz)
      (set! pos (list (+ (first pos) dx)
                      (+ (second pos) dy)
                      (+ (third pos) dz))))

    (define/public (add-item item)
      (set! items (cons item items)))


(send* (new player%)
       (damage 3)
       (move 5 0 0)
       (add-item "banana"))

You might want to program in a more functional style if you're using Racket, in which case you can write the methods like this to avoid mutation:

(define/public (damage dmg)
  (new this% [hp (- hp dmg)] [pos pos] [items items]))
share|improve this answer
Thank you, but I accidentally downvoted your answer. Stack Overflow is not allowing me to change it: – Viclib Jun 26 '12 at 23:10
@Dokkat, I edited the answer just to let you fix your accidental down-vote. (All I did was add an extra blank line at the end.) – steveha Jun 26 '12 at 23:24
@stevaha fixed, thank you. – Viclib Jun 26 '12 at 23:26

In Clojure:

(def player {
    :hp 10
    :pos [0 0 0]
    :items [] })

(defn damage [player amount]
    (update-in player [:hp] - amount))

(defn move [player direction]
    (update-in player [:pos] #(map + % direction)))

(defn give [player item]
    (update-in player [:items] conj item))

(-> player
    (damage 3)
    (move [5 0 0])
    (give "banana"))

; Output: {:hp 7, :pos (5 0 0), :items ["banana"]}
share|improve this answer
Very simple, thank you! Could I write a macro for the (assoc player :attr (conj (player :attr) item)) – Viclib Jun 26 '12 at 23:22
I've edited my answer to use update-in which I think is more idiomatic in this case and also alleviates the need for macros. But of course one could write a macro to shorten things up even more. (But in this case I don't think it's necessary and could even hurt readability) – Matt Jun 27 '12 at 7:00

In Clojure, you wouldn't normally use a mutable data structure, you'd instead create an immutable piece of data that describes the player's current state. Updates to the player would create a new piece of data that describes the updated state. Matt's answer gives a good example of doing this.

If you wanted to maintain a single "player" identity over time with multiple changes of state, you could do so with an atom, something like this:

(def initial-player-state 
 {:hp 10
  :pos [0 0 0]
  :items []})

(def player (atom initial-player-state))

;; Define some update functions

(defn damage [player dmg]
  (update-in player [:hp] + dmg))

(defn move [player dir]
  (update-in player [:pos] #(vec (map + % dir))))

(defn add-item [player item]
  (update-in player [:items] conj item))

;;  Make some changes

(swap! player move [5 0 0])
(swap! player damage -3)
(swap! player add-item "Apple")

;; view the current player state by dereferencing the atom

=> {:hp 10, :pos [0 0 0], :items ["Apple"]}

Note that in a real game, you might have the entire immutable game state in a single atom, not just the player.

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What is the @ in @player? – Viclib Jun 26 '12 at 23:11
And thank you, great answer. I'm getting the atom concept now. – Viclib Jun 26 '12 at 23:22
@ just gets the current value (state) of the atom, i.e. the player hashmap. if you just do playeryou will get the atom itself, rather than the atom's contents.... – mikera Jun 27 '12 at 9:45

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