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79a4d3411b
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93a0301b6e
191
wilty.py
191
wilty.py
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@ -11,28 +11,50 @@ class Wilty():
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self.save_dir = ".botany"
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self.plant_file = "_plant_data.json"
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self.visit_file = "visitors.json"
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self.harvest_file = "harvest_file.json"
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self.plants = {}
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self.loadData()
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self.stats_model = {
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"total": 0,
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"live": 0,
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"seed": 0,
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"young": 0,
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"mature": 0,
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"succ": 0,
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"tree": 0,
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"nonflower": 0,
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"flower": 0,
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"gen": 0,
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"avg_gen": 0,
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"harv": 0,
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"avg_harv": 0,
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}
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self.border = "-" * 47
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def convertTS(self, ts):
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"""Convert a timestamp in seconds to a legible format, e.g. 12d 12h
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12m."""
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def formatTime(self, ts):
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"""Format an integer timestamp (seconds) to a timestamp string (days,
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hours and minutes), e.g. 12d 12h 12m.
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"""
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days = int(ts / 86400)
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hours = int((ts % 86400) / 3600)
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mins = round(((ts % 86400) % 3600) / 60)
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return str(days) + "d " + str(hours) + "h " + str(mins) + "m"
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def getUsers(self):
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"""Load usernames into the plants dictionary as keys."""
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"""Load usernames into the plants dictionary as keys. Only users whose
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plant data is peer-readable will be added.
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"""
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sys_users = pwd.getpwall()
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for u in sys_users:
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if os.path.exists("/home/" + u.pw_name + "/" + self.save_dir):
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sv_dir = "/home/" + u.pw_name + "/" + self.save_dir + "/"
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if os.path.exists(sv_dir) and \
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os.access(sv_dir + u.pw_name + self.plant_file, os.R_OK):
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self.plants[u.pw_name] = {}
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def checkPlant(self, user):
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"""Given the username, calculates the last time since the user's
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plant was watered, estimates whether it is dead and updates the plants
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dictionary."""
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dictionary.
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"""
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# Get last visitor timestamp and check if later than user's
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visitor_ts = 0
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if self.plants[user]["visitors"] != []:
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@ -40,24 +62,20 @@ class Wilty():
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watered = max(self.plants[user]["last_watered"], visitor_ts)
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time_since = int(time.time()) - watered
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self.plants[user]["time_since"] = time_since
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# >432000 (5 days) = dead plant
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# >5 days = dead plant
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if time_since > 432000:
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self.plants[user]["is_dead"] = True
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self.plants[user]["time_since_fmt"] = self.convertTS(time_since)
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self.plants[user]["time_since_fmt"] = self.formatTime(time_since)
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def loadData(self):
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"""Load plant and visitor data into plants dictionary."""
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def getRawData(self):
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"""Load plant data into the plants dictionary."""
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self.getUsers()
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for u in self.plants:
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sv_dir = "/home/" + u + "/" + self.save_dir + "/"
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# Get plant data
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if os.access(sv_dir + u + self.plant_file, os.R_OK):
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with open(sv_dir + u + self.plant_file) as plant_fh:
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plant_json = plant_fh.read()
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self.plants[u] = json.loads(plant_json)
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self.plants[u]["allow_query"] = True
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else:
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self.plants[u]["allow_query"] = False
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with open(sv_dir + u + self.plant_file) as plant_fh:
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plant_json = plant_fh.read()
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self.plants[u] = json.loads(plant_json)
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# Get visitor data
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if os.access(sv_dir + self.visit_file, os.R_OK) and \
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os.access(sv_dir + self.visit_file, os.W_OK):
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@ -68,37 +86,146 @@ class Wilty():
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else:
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self.plants[u]["allow_visit"] = False
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self.plants[u]["visitors"] = []
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# Update plant watered state if plant data is readable
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if self.plants[u]["allow_query"]:
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self.checkPlant(u)
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# Get harvest data
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if os.access(sv_dir + self.harvest_file, os.R_OK):
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with open(sv_dir + self.harvest_file) as harvest_fh:
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harvest_json = harvest_fh.read()
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self.plants[u]["harvests"] = json.loads(harvest_json)
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else:
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self.plants[u]["harvests"] = {}
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# Update plant watered state
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self.checkPlant(u)
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def listLivePlants(self, *args, **kwargs):
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"""List living plants open to visitors."""
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"""Prints a list of living plants open to visitors. Optionally specify
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a sort flag to sort the list alphabetically by username or plant type,
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e.g. sort=\"plant\". By default, the list is sorted by the longest
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interval since the last watered time descending.
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"""
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sort_l = []
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for p in self.plants:
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if self.plants[p]["allow_query"] and \
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self.plants[p]["allow_visit"] and \
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not self.plants[p]["is_dead"]:
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if self.plants[p]["allow_visit"] and not self.plants[p]["is_dead"]:
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sort_l.append((p, self.plants[p]["description"].split()[-1], \
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self.plants[p]["time_since_fmt"], \
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self.plants[p]["time_since"]))
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# Sort by column
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column = kwargs.get("sort", "")
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if column == "user":
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if kwargs.get("sort", "") == "user":
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sort_l.sort(key=lambda c: c[0])
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elif column == "plant":
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elif kwargs.get("sort", "") == "plant":
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sort_l.sort(key=lambda c: c[1])
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else:
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sort_l.sort(key=lambda c: c[3], reverse=True)
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# Format output
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border = "-" * 47
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print(border)
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print(self.border)
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print("{:<20s}{:<15s}{:<15s}".format("User", "Plant", "Last Watered"))
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print(border)
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print(self.border)
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for i in sort_l:
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print("{:<20s}{:<15s}{:<15s}".format(i[0], i[1], i[2]))
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print(border)
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print(self.border)
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def countPlantStages(self, key, count):
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"""Count the plants in different stages (seedling, young, mature). Take
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as arguments a key for plants dictionary lookup and a dictionary to
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append the results."""
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if "stage" in self.plants[key]:
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if self.plants[key]["stage"] == ("mature" or "flowering" or \
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"seed-bearing"):
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count["mature"] += 1
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elif self.plants[key]["stage"] == "young":
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count["young"] += 1
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else:
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count["seed"] += 1
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else:
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count["seed"] += 1
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def countPlantGroups(self, key, count):
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"""Count plants in type groups."""
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succulents = ["agave", "aloe", "cactus", "lithops", "pachypodium"]
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trees = ["baobab", "ficus", "palm"]
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noflowers = ["fern", "moss"]
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plant_type = self.plants[key]["description"].split()[-1]
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if plant_type in succulents:
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count["succ"] += 1
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elif plant_type in trees:
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count["tree"] += 1
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elif plant_type in noflowers:
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count["nonflower"] += 1
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elif plant_type != ("seed" or "seedling"):
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count["flower"] += 1
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def countGenRate(self, key, count):
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"""Count total generation rates."""
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if "generation" in self.plants[key]:
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count["gen"] += self.plants[key]["generation"]
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else:
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count["gen"] += 1
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def avgGenRate(self, count):
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"""Calculate the average plant generation."""
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count["avg_gen"] = round(count["gen"] / count["total"], \
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3)
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def countHarvests(self, key, count):
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"""Count the total number of harvests."""
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if self.plants[key]["harvests"] != {}:
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count["harv"] += len(self.plants[key]["harvests"])
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else:
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count["harv"] += 0
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def avgHarvests(self, count):
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"""Calculate the average number of harvests per user."""
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count["avg_harv"] = round(count["harv"] / count["total"], 3)
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def genStats(self, subset):
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"""Generate garden stats of all plants or only live plants."""
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stats = dict(self.stats_model)
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if subset == "live":
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for p in self.plants:
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if not self.plants[p]["is_dead"]:
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stats["live"] += 1
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self.countPlantStages(p, stats)
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self.countPlantGroups(p, stats)
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self.countGenRate(p, stats)
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self.countHarvests(p, stats)
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stats["total"] = stats["live"]
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else:
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for p in self.plants:
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self.countPlantStages(p, stats)
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self.countPlantGroups(p, stats)
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self.countGenRate(p, stats)
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self.countHarvests(p, stats)
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stats["total"] = len(self.plants)
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self.avgGenRate(stats)
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self.avgHarvests(stats)
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return stats
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def listStats(self, *args, **kwargs):
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"""Print plant stats. Optionally use a subset flag to get stats on live
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plants only, e.g. subset=\"live\". By default, show stats based on the
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total number of plants.
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"""
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if kwargs.get("subset", "all") == "live":
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stats = self.genStats("live")
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else:
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stats = self.genStats("all")
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print("Garden Stats (" + kwargs.get("subset", "all") + " plants)")
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print(self.border)
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print(
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"Avg. generation: " + str(stats["avg_gen"]) +
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"\nAvg. harvests per user: " + str(stats["avg_harv"]) +
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"\nSeedlings: " + str(stats["seed"]) +
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"\nYoung plants: " + str(stats["young"]) +
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"\nMature plants: " + str(stats["mature"]) +
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"\nFlowering shrubs: " + str(stats["flower"]) +
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"\nNon-flowering plants: " + str(stats["nonflower"]) +
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"\nSucculents: " + str(stats["succ"]) +
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"\nTrees: " + str(stats["tree"]) +
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"\nTotal plants: " + str(stats["total"])
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)
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print(self.border)
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instance = Wilty()
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instance.getRawData()
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instance.listLivePlants()
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instance.listStats()
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