from __future__ import division import time import pickle import json import math import sys import os import random import getpass import threading import errno import uuid import fcntl from operator import itemgetter from menu_screen import * # development plan # build plant lifecycle just stepping through # - how long should each stage last ? thinking realistic lmao # seed -> seedling -> sprout -> young plant -> mature plant -> flower -> # pollination -> fruit -> seeds # - TODO: pollination and end of life # # events # - heatwave # - rain # - bugs # # build multiplayer # neighborhood system # - create plant id (sort of like userid) # - list sorted by plantid that wraps so everybody has 2 neighbors :) # - can water neighbors plant once (have to choose which) # - pollination - seed is combination of your plant and neighbor plant # - create rarer species by diff gens # - if neighbor plant dies, node will be removed from list # # build ascii trees # Make it fun to keep growing after seed level (what is reward for continuing # instead of starting over? # Reward for bringing plant to full life - second gen plant w/ more variety class Plant(object): # This is your plant! stage_dict = { 0: 'seed', 1: 'seedling', 2: 'young', 3: 'mature', 4: 'flowering', 5: 'seed-bearing', } color_dict = { 0: 'red', 1: 'orange', 2: 'yellow', 3: 'green', 4: 'blue', 5: 'indigo', 6: 'violet', 7: 'white', 8: 'black', 9: 'gold', 10: 'rainbow', } rarity_dict = { 0: 'common', 1: 'uncommon', 2: 'rare', 3: 'legendary', 4: 'godly', } species_dict = { 0: 'poppy', 1: 'cactus', 2: 'aloe', 3: 'venus flytrap', 4: 'jade plant', 5: 'fern', 6: 'daffodil', 7: 'sunflower', 8: 'baobab', 9: 'lithops', 10: 'cannabis', 11: 'pansy', 12: 'iris', } mutation_dict = { 0: '', 1: 'humming', 2: 'noxious', 3: 'vorpal', 4: 'glowing', 5: 'electric', 6: 'icy', 7: 'flaming', 8: 'psychic', 9: 'screaming', 10: 'chaotic', 11: 'hissing', 12: 'gelatinous', 13: 'deformed', 14: 'shaggy', 15: 'scaly', 16: 'depressed', 17: 'anxious', 18: 'metallic', 19: 'glossy', 20: 'psychedelic', 21: 'bonsai', 22: 'foamy', 23: 'singing', 24: 'fractal', 25: 'crunchy', 26: 'goth', 27: 'oozing', 28: 'stinky', 29: 'aromatic', 30: 'juicy', 31: 'smug', 32: 'vibrating', 33: 'lithe', 34: 'chalky', 35: 'naive', 36: 'ersatz', 37: 'disco', 38: 'levitating', 39: 'colossal', } def __init__(self, this_filename): # Constructor self.plant_id = str(uuid.uuid4()) # TODO: change from debug self.life_stages = (10, 20, 30, 40, 50) # self.life_stages = (3600, (3600*24)*3, (3600*24)*10, (3600*24)*20, (3600*24)*30) self.stage = 0 self.mutation = 0 self.species = random.randint(0,len(self.species_dict)-1) self.color = random.randint(0,len(self.color_dict)-1) self.rarity = self.rarity_check() self.ticks = 0 self.age_formatted = "0" self.dead = False self.write_lock = False self.owner = getpass.getuser() self.file_name = this_filename self.start_time = int(time.time()) self.last_time = int(time.time()) # must water plant first day self.watered_timestamp = int(time.time())-(24*3600)-1 # self.watered_timestamp = int(time.time()) # debug self.watered_24h = False def parse_plant(self): # reads plant info (maybe want to reorg this into a different class # with the reader dicts...) output = "" if self.stage >= 3: output += self.rarity_dict[self.rarity] + " " if self.mutation != 0: output += self.mutation_dict[self.mutation] + " " if self.stage >= 4: output += self.color_dict[self.color] + " " output += self.stage_dict[self.stage] + " " if self.stage >= 2: output += self.species_dict[self.species] + " " return output.strip() def rarity_check(self): # Generate plant rarity CONST_RARITY_MAX = 256.0 rare_seed = random.randint(1,CONST_RARITY_MAX) common_range = round((2/3)*CONST_RARITY_MAX) uncommon_range = round((2/3)*(CONST_RARITY_MAX-common_range)) rare_range = round((2/3)*(CONST_RARITY_MAX-common_range-uncommon_range)) legendary_range = round((2/3)*(CONST_RARITY_MAX-common_range-uncommon_range-rare_range)) # godly_range = round((2/3)*(CONST_RARITY_MAX-common_range-uncommon_range-rare_range-legendary_range)) common_max = common_range uncommon_max = common_max + uncommon_range rare_max = uncommon_max + rare_range legendary_max = rare_max + legendary_range godly_max = CONST_RARITY_MAX if 0 <= rare_seed <= common_max: rarity = 0 elif common_max < rare_seed <= uncommon_max: rarity = 1 elif uncommon_max < rare_seed <= rare_max: rarity = 2 elif rare_max < rare_seed <= legendary_max: rarity = 3 elif legendary_max < rare_seed <= godly_max: rarity = 4 return rarity def dead_check(self): time_delta_watered = int(time.time()) - self.watered_timestamp # if it has been >5 days since watering, sorry plant is dead :( if time_delta_watered > (5 * (24 * 3600)): self.dead = True return self.dead def water_check(self): # if plant has been watered in 24h then it keeps growing # time_delta_watered is difference from now to last watered self.time_delta_watered = int(time.time()) - self.watered_timestamp if self.time_delta_watered <= (24 * 3600): return True else: self.watered_24h = False return False def mutate_check(self): # Create plant mutation # TODO: when out of debug this needs to be set to high number (1000 # even maybe) CONST_MUTATION_RARITY = 1000 # Increase this # to make mutation rarer (chance 1 out of x) mutation_seed = random.randint(1,CONST_MUTATION_RARITY) if mutation_seed == CONST_MUTATION_RARITY: # mutation gained! mutation = random.randint(0,len(self.mutation_dict)-1) if self.mutation == 0: self.mutation = mutation return True else: return False def new_seed(self,this_filename): # Creates life after death self.__init__(this_filename) def growth(self): # Increase plant growth stage if self.stage < (len(self.stage_dict)-1): self.stage += 1 # do stage growth stuff else: # do stage 5 stuff (after fruiting) 1==1 def water(self): # Increase plant growth stage if not self.dead: self.watered_timestamp = int(time.time()) self.watered_24h = True def start_over(self): self.write_lock = True self.kill_plant() while self.write_lock: # Wait for garden writer to unlock 1==1 if not self.write_lock: self.new_seed(self.file_name) def kill_plant(self): self.dead = True def unlock_new_creation(self): self.write_lock = False def start_life(self): # runs life on a thread thread = threading.Thread(target=self.life, args=()) thread.daemon = True thread.start() def life(self): # I've created life :) # TODO: change out of debug # TODO: variable stages of life # day = 3600*24 # life_stages = (1*day, 2*day, 3*day, 4*day, 5*day) # leave this untouched bc it works for now while True: time.sleep(1) if not self.dead: if self.watered_24h: self.ticks += 1 if self.stage < len(self.stage_dict)-1: if self.ticks >= self.life_stages[self.stage]: self.growth() if self.mutate_check(): 1==1 if self.water_check(): 1==1 if self.dead_check(): 1==1 # TODO: event check class DataManager(object): # handles user data, puts a .botany dir in user's home dir (OSX/Linux) # TODO: windows... lol user_dir = os.path.expanduser("~") botany_dir = os.path.join(user_dir,'.botany') game_dir = os.path.dirname(os.path.realpath(__file__)) this_user = getpass.getuser() savefile_name = this_user + '_plant.dat' savefile_path = os.path.join(botany_dir, savefile_name) garden_file_path = os.path.join(game_dir, 'garden_file.dat') def __init__(self): self.this_user = getpass.getuser() # check if instance is already running # check for .botany dir in home try: os.makedirs(self.botany_dir) except OSError as exception: if exception.errno != errno.EEXIST: raise self.savefile_name = self.this_user + '_plant.dat' def check_plant(self): # check for existing save file if os.path.isfile(self.savefile_path): return True else: return False def start_threads(self,this_plant): # creates threads to save files every minute death_check_thread = threading.Thread(target=self.death_check_update, args=(this_plant,)) death_check_thread.daemon = True death_check_thread.start() autosave_thread = threading.Thread(target=self.autosave, args=(this_plant,)) autosave_thread.daemon = True autosave_thread.start() def death_check_update(self,this_plant): # .1 second updates to minimize race condition # TODO: improve how this is handled to eliminate race condition while True: is_dead = this_plant.dead_check() if is_dead: self.save_plant(this_plant) self.data_write_json(this_plant) self.garden_update(this_plant) this_plant.unlock_new_creation() time.sleep(.1) def autosave(self, this_plant): # running on thread while True: self.save_plant(this_plant) self.data_write_json(this_plant) self.garden_update(this_plant) # TODO: change after debug #time.sleep(60) time.sleep(5) def load_plant(self): # load savefile with open(self.savefile_path, 'rb') as f: this_plant = pickle.load(f) # get status since last login is_dead = this_plant.dead_check() is_watered = this_plant.water_check() if not is_dead: if is_watered: time_delta_last = int(time.time()) - this_plant.last_time ticks_to_add = min(time_delta_last, 24*3600) this_plant.time_delta_watered = 0 self.last_water_gain = time.time() else: ticks_to_add = 0 this_plant.ticks += ticks_to_add return this_plant def plant_age_convert(self,this_plant): # human-readable plant age age_seconds = int(time.time()) - this_plant.start_time days, age_seconds = divmod(age_seconds, 24 * 60 * 60) hours, age_seconds = divmod(age_seconds, 60 * 60) minutes, age_seconds = divmod(age_seconds, 60) age_formatted = ("%dd:%dh:%dm:%ds" % (days, hours, minutes, age_seconds)) return age_formatted def garden_update(self, this_plant): # garden is a dict of dicts # garden contains one entry for each plant id # TODO: this should calculate age based on time since start, not just # when they saved it # IE someone logged out, still gaining age, just not gaining ticks age_formatted = self.plant_age_convert(this_plant) this_plant_id = this_plant.plant_id plant_info = { "owner":this_plant.owner, "description":this_plant.parse_plant(), "age":age_formatted, "score":this_plant.ticks, "dead":this_plant.dead, } if os.path.isfile(self.garden_file_path): # garden file exists: load data with open(self.garden_file_path, 'rb') as f: this_garden = pickle.load(f) new_file_check = False # TODO: it would be smart to lock this file down somehow, write to # it only through the software (to prevent tampering) # TODO: this is not the right way to do this, other users who run # it can't chmod that file # TODO: json file also needs to be writeable by all # os.chmod(self.garden_file_path, 0666) else: # create empty garden list this_garden = {} new_file_check = True # if current plant ID isn't in garden list if this_plant.plant_id not in this_garden: this_garden[this_plant_id] = plant_info # if plant ticks for id is greater than current ticks of plant id else: current_plant_ticks = this_garden[this_plant_id]["score"] if this_plant.ticks >= current_plant_ticks: this_garden[this_plant_id] = plant_info with open(self.garden_file_path, 'wb') as f: pickle.dump(this_garden, f, protocol=2) # create json file from plant_info garden_json_path = os.path.join(self.game_dir,'garden_file.json') with open(garden_json_path, 'w') as outfile: json.dump(this_garden, outfile) return new_file_check def save_plant(self, this_plant): # create savefile this_plant.last_time = int(time.time()) with open(self.savefile_path, 'wb') as f: pickle.dump(this_plant, f, protocol=2) def data_write_json(self, this_plant): # create personal json file for user to use outside of the game (website?) json_file = os.path.join(self.botany_dir,self.this_user + '_plant_data.json') json_leaderboard = os.path.join(self.game_dir + '_garden.json') # also updates age age_formatted = self.plant_age_convert(this_plant) plant_info = { "owner":this_plant.owner, "description":this_plant.parse_plant(), "age":age_formatted, "score":this_plant.ticks, "is_dead":this_plant.dead, "last_watered":this_plant.watered_timestamp, "file_name":this_plant.file_name, } with open(json_file, 'w') as outfile: json.dump(plant_info, outfile) if __name__ == '__main__': my_data = DataManager() # if plant save file exists if my_data.check_plant(): my_plant = my_data.load_plant() # otherwise create new plant else: my_plant = Plant(my_data.savefile_path) my_data.data_write_json(my_plant) my_plant.start_life() my_data.start_threads(my_plant) botany_menu = CursedMenu(my_plant,my_data.garden_file_path) my_data.save_plant(my_plant) my_data.data_write_json(my_plant) my_data.garden_update(my_plant)