#This file is distributed under the terms of the GNU General Public license. #Copyright (C) 1999 Aloril (See the file COPYING for details). from atlas import * from physics import * from Quaternion import Quaternion from common import const from types import * from Vector3D import Vector3D from cyphesis.Thing import Thing from mind.Memory import Memory from mind.Knowledge import Knowledge from mind.panlingua import interlinguish,ontology from mind.compass import vector_to_compass from common import log,const import dictlist import mind.goals import mind.goals.common reverse_cmp={'>':'<'} def get_dict_func(self, func_str, func_undefined): """get method by name from instance or return default handler""" try: func=getattr(self,func_str) except AttributeError: func=func_undefined return func class NPCMind(Thing): """Mind class for most mobile entities in the game. An NPCMind object is associated with all NPC and similar entities on a game server. It handles perception data from the world, tracks what the NPC knows about, and handles its goals. The data is organised into three key data structures: self.map is handled by the underlying C++ code, and contains a copy of all the entities in the world that this NPC is currently able to perceive. self.knowledge contains data triples which define relations between entities. self.goals and self.trigger_goals contain trees of goals which represent current and potential activities that NPC might engage in. self.goals are goals which are checked each tick, self.trigger_goals are goals which are activated by an event.""" ########## Initialization def __init__(self, cppthing): self.cinit(cppthing) self.knowledge=Knowledge() self.mem=Memory(map=self.map) self.things={} self._reverse_knowledge() self.goals=[] self.money_transfers=[] self.transfers=[] self.trigger_goals={} #???self.debug=debug(self.name+".mind.log") self.tick_count=0 self.message_queue=None #This is going to be really tricky self.map.add_hooks_append("add_map") self.map.update_hooks_append("update_map") self.map.delete_hooks_append("delete_map") def find_op_method(self, op_id, prefix="",undefined_op_method=None): """find right operation to invoke""" if not undefined_op_method: undefined_op_method=self.undefined_op_method return get_dict_func(self, prefix+op_id+"_operation",undefined_op_method) def undefined_op_method(self, op): """this operation is used when no other matching operation is found""" pass def get_op_name_and_sub(self, op): event_name = op.id sub_op = op while len(sub_op) and sub_op[0].get_name()=="op": sub_op = sub_op[0] event_name = event_name + "_" + sub_op.id return event_name, sub_op ########## Map updates def add_map(self, obj): """Hook called by underlying map code when an entity is added.""" #print "Map add",obj pass def update_map(self, obj): """Hook called by underlying map code when an entity is added. Fix ownership category for objects owned temporary under 'Foo' type.""" #print "Map update",obj foo_lst = self.things.get('Foo',[]) for foo in foo_lst[:]: #us copy in loop, because it might get modified print "Oh MY GOD! We have a Foo thing!" if foo.id==obj.id: self.remove_thing(foo) self.add_thing(obj) def delete_map(self, obj): """Hook called by underlying map code when an entity is added.""" #print "Map delete",obj self.remove_thing(obj) ########## Operations def setup_operation(self, op): """called once by world after object has been made send first tick operation to object""" #CHEAT!: add memory, etc... initialization (or some of it to __init__) return Operation("look")+Operation("tick") def tick_operation(self, op): """periodically reasses situation""" self.tick_count=self.tick_count+1 opTick=Operation("tick") opTick.setFutureSeconds(const.basic_tick) result=self.think() if self.message_queue: result = self.message_queue + result self.message_queue = None return opTick+result def unseen_operation(self, op): obsolete_id = op[0].id self.map.delete(obsolete_id) ########## Persistance operations def save_operation(self, op): mind = Entity(self.id) mind.place = self.knowledge.place mind.location = self.knowledge.location mind.goal = self.knowledge.goal mind.importance = self.knowledge.importance mind.price = self.knowledge.price print "SAVE" return Operation("info", mind) def load_operation(self, op): print "LOAD" ########## Sight operations def sight_create_operation(self, op): """Note our ownership of entities we created.""" #BaseMind version overridden! obj=self.map.add(op[0], op.getSeconds()) if op.to==self.id: self.add_thing(obj) def sight_move_operation(self, op): """change position in out local map""" obj=self.map.update(op[0], op.getSeconds()) if obj.location.parent.id==self.id: self.add_thing(obj) if op.to != self.id: self.transfers.append((op.from_, obj.id)) if obj.type[0]=="coin" and op.from_ != self.id: self.money_transfers.append([op.from_, 1]) return Operation("imaginary", Entity(description="accepts")) #replaced with dynamically added add_extinguish_fire -goal #ie: NPC is first teached that when it sees "sight_burn" it needs to #execute above goal, which then adds extinguish_fire goal and executes it ## def sight_burn_operation(self, op): ## #CHEAT!: ## fire=self.map.get(op[0].id) ## if fire: ## log.debug(2,"sight_burn_operation: found fire obj") ## if not self.goals or self.goals[0].__class__.__name__!="extinguish_fire": ## log.debug(2,"sight_burn_operation: added extinguish_fire goal") ## goal=mind.goals.humanoid.fire.extinguish_fire(fire) ## self.goals.insert(0,goal) ## log.debug(2,"sight_burn_operation: add goal updating") ########## Talk operations def admin_sound(self, op): assert(op.from_ == op.to) return op.from_ == self.id def interlinguish_warning(self, op, say, msg): log.debug(1,str(self.id)+" interlinguish_warning: "+str(msg)+\ ": "+str(say[0].lexlink.id[1:]),op) def interlinguish_desire_verb3_buy_verb1_operation(self, op, say): """Handle a sentence of the form 'I would iike to buy a ....' Check if we have any of the type of thing the other character is interested in, and whether we know what price to sell at. If so set up the transaction goal, which offers to sell it.""" object=say[1].word thing=self.things.get(object) if thing: price=self.get_knowledge("price", object) if not price: return goal=mind.goals.common.misc_goal.transaction(object, op.to, price) who=self.map.get(op.to) self.goals.insert(0,goal) return Operation("talk", Entity(say=self.thing_name(who)+" one "+object+" will be "+str(price)+" coins")) + self.face(who) def interlinguish_desire_verb3_operation(self, op, say): """Handle a sentence of the form 'I would like to ...'""" object=say[2:] verb=interlinguish.get_verb(object) operation_method=self.find_op_method(verb,"interlinguish_desire_verb3_", self.interlinguish_undefined_operation) res = Message() res = res + self.call_interlinguish_triggers(verb, "interlinguish_desire_verb3_", op, object) res = res + operation_method(op, object) return res def interlinguish_be_verb1_operation(self, op, say): if not self.admin_sound(op): return self.interlinguish_warning(op,say,"You are not admin") res=interlinguish.match_importance(say) if res: return self.add_importance(res['sub'].id,'>',res['obj'].id) else: return self.interlinguish_warning(op,say,"Unkown assertion") def interlinguish_know_verb1_operation(self, op, say): """Handle a sentence of the form 'know subject predicate object' Accept admin instruction about knowledge, and store the triple in our knowledge base.""" if not self.admin_sound(op): return self.interlinguish_warning(op,say,"You are not admin") subject=say[1].word predicate=say[2].word object=say[3].word ## print "know:",subject,predicate,object if object[0]=='(': #CHEAT!: remove eval xyz=list(eval(object)) loc=self.location.copy() loc.coordinates=Vector3D(xyz) self.add_knowledge(predicate,subject,loc) else: self.add_knowledge(predicate,subject,object) def interlinguish_tell_verb1_operation(self, op, say): """Handle a sentence of the form 'Tell (me) ....' Accept queries about what we know. Mostly this is for debugging and for the time being it is useful to answer these queries no matter who hasks.""" # Currently no checking for trus here. # We are being liberal with interpretation of "subject" and "object" subject=say[1].word predicate=say[2].word object=say[3].word k=self.get_knowledge(predicate, object) if k==None: pass # return Operation('talk',Entity(say="I know nothing about the "+predicate+" of "+object)) else: k_type = type(k) if k_type==type(Location()): dist = distance_to(self.location, k) dist.z = 0 distmag = dist.mag() if distmag < 8: k = 'right here' else: # Currently this assumes dist is relative to TLVE k='%f metres %s' % (distmag, vector_to_compass(dist)) elif k_type!=StringType: k='difficult to explain' elif predicate=='about': return Operation('talk', Entity(say=k)) + \ self.face(self.map.get(op.to)) return Operation('talk', Entity(say="The " + predicate + " of " + object + " is " + k)) + \ self.face(self.map.get(op.to)) def interlinguish_list_verb1_operation(self, op, say): """Handle a sentence of the form 'List (me) ....' Accept queries about what we know. Mostly this is for debugging and for the time being it is useful to answer these queries no matter who hasks.""" # Currently no checking for trus here. # We are being liberal with interpretation of "subject" and "object" subject=say[1].word predicate=say[2].word if not hasattr(self.knowledge, predicate): return None d=getattr(self.knowledge, predicate) res = Message() res = res + self.face(self.map.get(op.to)) for key in d: res = res + Operation('talk', Entity(say="The " + predicate + " of " + key + " is " + str(d[key]))) return res def interlinguish_learn_verb1_operation(self, op, say): """Handle a sentence of the form 'learn ....' The learn sentence contains two components, and can hardly be concidered a real sentence at all. The first is the verb to be associated with a goal activity, and the second is the python fragment executed in order to create the goal instance. Obviously accepting a code fragment from the client is very dangerous, and we need to be carefull that the admin_sound() check works.""" if not self.admin_sound(op): return self.interlinguish_warning(op,say,"You are not admin") subject=say[1].word object=say[2].word self.add_goal(subject,object) def interlinguish_own_verb1_operation(self, op, say): """Handle a sentence of the form ' own ...' Sentences of this form from the admin inform us that we own an entity. This is essential when an entity needs to be used as a tool, or raw material.""" if not self.admin_sound(op): return self.interlinguish_warning(op,say,"You are not admin") ## print self,"own:",say[1].word,say[2].word subject=self.map.get_add(say[1].word) ## print "subject found:",subject object=self.map.get_add(say[2].word) ## print "object found:",object ## if subject.id==self.id: ## foo if subject.id==self.id: self.add_thing(object) def interlinguish_undefined_operation(self, op, say): #CHEAT!: any way to handle these? log.debug(2,str(self.id)+" interlinguish_undefined_operation:",op) log.debug(2,str(say)) def talk_undefined_operation(self, op, say): #CHEAT!: any way to handle these? pass ########## Sound operations def sound_talk_operation(self, op): """Handle the sound of a talk operation from another character. The spoken sentence comes in as a sentence string, which is converted into a structure representation by the interlinguish code. Embedded in the structure is the interlinguish string which is then used to call methods and activate triggers, such as dynamic goals.""" talk_entity=op[0] res = Message() if interlinguish.convert_english_to_interlinguish(self,talk_entity): say=talk_entity.interlinguish verb=interlinguish.get_verb(say) operation_method=self.find_op_method(verb,"interlinguish_", self.interlinguish_undefined_operation) res = res + self.call_interlinguish_triggers(verb, "interlinguish_", op, say) else: operation_method=self.talk_undefined_operation say=talk_entity if hasattr(say,"say"): say=say.say log.debug(3,"talk: "+str(operation_method)) res = res + operation_method(op,say) return res ########## Other operations def call_interlinguish_triggers(self, verb, prefix, op, say): """Call trigger goals that have registered a trigger string that matches the current interlinguish string. Given an interlinguish verb string, and a prefix, find any trigger goals that should be activated by the combined trigger string, and activate them.""" # FIXME Don't need this call to get_op_name_and_sub, as we don't use # the result. null_name, sub_op = self.get_op_name_and_sub(op) event_name = prefix+verb reply = Message() for goal in self.trigger_goals.get(event_name,[]): reply = reply + goal.event(self, op, say) return reply def call_triggers_operation(self, op): event_name, sub_op = self.get_op_name_and_sub(op) reply = Message() for goal in self.trigger_goals.get(event_name,[]): reply = reply + goal.event(self, op, sub_op) return reply ########## Generic knowledge def _reverse_knowledge(self): """normally location: tell where items reside reverse location tells what resides in this spot""" self.reverse_knowledge=Knowledge() for (k,v) in self.knowledge.location.items(): if not self.reverse_knowledge.location.get(v): self.reverse_knowledge.add("location",v,k) def get_reverse_knowledge(self, what, key): """get certain reverse knowledge value what: what kind of knowledge (location only so far)""" d=getattr(self.reverse_knowledge,what) return d.get(key) def get_knowledge(self, what, key): """get certain knowledge value what: what kind of knowledge (see Knowledge.py for list)""" if not hasattr(self.knowledge, what): return None d=getattr(self.knowledge,what) return d.get(key) def add_knowledge(self,what,key,value): """add certain type of knowledge""" self.knowledge.add(what,key,value) #forward thought if type(value)==InstanceType: if what=="goal": thought_value = value.info() else: thought_value = `value` else: thought_value = value desc="%s knowledge about %s is %s" % (what,key,thought_value) ent = Entity(description=desc, what=what, key=key, value=thought_value) self.send(Operation("thought",ent)) if what=="location": #and reverse too self.reverse_knowledge.add("location",value,key) def remove_knowledge(self,what,key): """remove certain type of knowledge""" self.knowledge.remove(what,key) ########## Importance: Knowledge about how things compare in urgency, etc.. def add_importance(self, sub, cmp, obj): """add importance: both a>b and b' return 1 ########## things we own def thing_name(self,thing): if hasattr(thing, 'name'): return thing.name return thing.type[0] ########## things we own def add_thing(self,thing): """I own this thing""" #CHEAT!: this feature not yet supported ## if not thing.location: ## thing.location=self.get_knowledge("location",thing.place) log.debug(3,str(self)+" "+str(thing)+" before add_thing: "+str(self.things)) #thought about owing thing name = self.thing_name(thing) desc="I own %s." % name what=thing.as_entity() ent = Entity(description=desc, what=what) self.send(Operation("thought",ent)) dictlist.add_value(self.things,name,thing) log.debug(3,"\tafter: "+str(self.things)) def find_thing(self, thing): if StringType==type(thing): #return found list or empty list return self.things.get(thing,[]) found=[] for t in self.things.get(self.thing_name(thing),[]): if t==thing: found.append(t) return found def remove_thing(self, thing): """I don't own this anymore (it may not exist)""" dictlist.remove_value(self.things, thing) ########## goals def add_goal(self, name, str_goal): """add goal...""" #CHEAT!: remove eval (this and later) goal=eval("mind.goals."+str_goal) if const.debug_thinking: goal.debug=1 goal.str=str_goal if type(name)==StringType: goal.key=eval(name) else: goal.key=name self.add_knowledge("goal",name,goal) if hasattr(goal,"trigger"): dictlist.add_value(self.trigger_goals, goal.trigger(), goal) return for i in range(len(self.goals)-1,-1,-1): if self.cmp_goal_importance(self.goals[i],goal): self.goals.insert(i+1,goal) return self.goals.insert(0,goal) def fulfill_goals(self,time): "see if all goals are fulfilled: if not try to fulfill them" for g in self.goals[:]: if g.irrelevant: self.goals.remove(g) continue res=g.check_goal(self,time) if res: return res # if res!=None: return res def teach_children(self, child): res=Message() for k in self.knowledge.location.keys(): es=Entity(verb='know',subject=k,object=self.knowledge.location[k]) res.append(Operation('say',es,to=child)) for k in self.knowledge.place.keys(): es=Entity(verb='know',subject=k,object=self.knowledge.place[k]) res.append(Operation('say',es,to=child)) for g in self.goals: es=Entity(verb='learn',subject=g.key,object=g.str) res.append(Operation('say',es,to=child)) for im in self.knowledge.importance.keys(): cmp=self.knowledge.importance[im] if cmp=='>': s,i=il.importance(im[0],cmp,im[1]) es=Entity(say=s,interlinguish=i) res.append(Operation('say',es,to=child)) return res ########## thinking (needs rewrite) def think(self): if const.debug_thinking: log.thinking("think: "+str(self)) output=self.fulfill_goals(self.time) if output and const.debug_thinking: log.thinking(str(self)+" result at "+str(self.time)+": "+output[-1][0].description) return output ########## communication: here send it locally def send(self, op): if not self.message_queue: self.message_queue=Message(op) else: self.message_queue.append(op) ########## turn to face other entity def face(self, other): vector = distance_to(self.location, other.location) vector.z = 0 if vector.square_mag() < 0.1: return vector = vector.unit_vector() newloc = Location(self.location.parent) newloc.orientation = Quaternion(Vector3D(1,0,0), vector) return Operation("move", Entity(self.id, location=newloc))