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summarize.py
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summarize.py
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#!/usr/bin/env python3
"""
Consume the results of filter.py and calculate the time between events
"""
__author__ = "Dustin Rasener"
__version__ = "0.1.0"
__license__ = "MIT"
import argparse
import datetime
import json
import csv
from logzero import logger
class REPStrackerData:
def __init__(self, property_address, team_member, description=None, activity_group=None) -> None:
self.fields = [
"Date",
"Description",
"Hours",
"Minutes",
"Property Address",
"Team Member",
"Activity Group",
]
self.property_address = property_address
self.team_member = team_member
self.description = description
self.activity_group = activity_group
if description is None:
self.fields.remove("Description")
if activity_group is None:
self.fields.remove("Activity Group")
def get_fields(self):
return self.fields
def get_dict(self, date, minutes):
# date in the format 01/01/1970
minutes = round(minutes)
data = {
"Date": datetime.datetime.strptime(date, "%Y-%m-%dT%H:%M:%SZ").strftime("%m/%d/%Y"),
"Hours": minutes // 60,
"Minutes": minutes % 60,
"Property Address": self.property_address,
"Team Member": self.team_member,
}
if self.description is not None:
data["Description"] = self.description
if self.activity_group is not None:
data["Activity Group"] = self.activity_group
return data
def find_next_event_index_for_user(events, start_index, username):
"""
Find the next event for a given user
"""
start_event = events[start_index]
start_time = start_event["time"]
start_username = start_event["username"]
start_event_type = start_event["event"]
# find the next event for the same user
for i in range(start_index + 1, len(events)):
event = events[i]
if event["username"] == username:
return i
def find_end_event(events, start_index):
"""
Find the end event for a given start event
"""
start_event = events[start_index]
start_time = start_event["time"]
start_username = start_event["username"]
start_event_type = start_event["event"]
# find the next unlock event for a user that isn't "Someone"
for i in range(start_index + 1, len(events)):
event = events[i]
if event["event"] == "unlocked_event" and event["username"] != "Someone":
return events[i-1]
def calculate_time_between_events(start_event, end_event):
"""
Calculate the time between two events
"""
start_time = start_event["time"]
end_time = end_event["time"]
return datetime.datetime.strptime(end_time, "%Y-%m-%dT%H:%M:%SZ") - datetime.datetime.strptime(start_time, "%Y-%m-%dT%H:%M:%SZ")
def get_summary(start_event, end_event):
"""
Get a summary of the events
"""
logger.debug(f"start_event: {start_event}")
logger.debug(f"end_event: {end_event}")
start_time = start_event["time"]
end_time = end_event["time"]
username = start_event["username"]
time_between_events = calculate_time_between_events(start_event, end_event)
return {
"username": username,
"start_time": start_time,
"end_time": end_time,
"time_between_events": time_between_events.total_seconds() / 60
}
def main(args):
logger.setLevel(10 * (4 - args.verbose))
if args.team_member is None:
args.team_member = args.username
with open(args.input, "r") as f:
events = json.load(f)
# Make sure events are sorted by time
events = sorted(events, key=lambda k: k["time"])
# Find the first event for the given user
start_index = find_next_event_index_for_user(events, 0, args.username)
if start_index is None:
logger.error("No events found for user: {}".format(args.username))
exit(1)
visits = []
while True:
start_event = events[start_index]
end_event = find_end_event(events, start_index)
if end_event is None:
logger.error("No end event found for user: {}".format(args.username))
visits.append(get_summary(start_event, end_event))
start_index = find_next_event_index_for_user(events, start_index, args.username)
if start_index is None:
break
with open(args.output, "w") as f:
json.dump(visits, f, indent=4)
with open(args.csv, "w") as f:
reps_data = REPStrackerData(args.property_address, args.team_member, args.description, args.activity_group)
writer = csv.DictWriter(f, fieldnames=reps_data.get_fields(), lineterminator='\n')
writer.writeheader()
for clean in visits:
writer.writerow(reps_data.get_dict(clean.get("start_time"), clean.get("time_between_events")))
if not args.quiet:
print(f"Found {len(visits)} visits, averaging {round(sum([clean['time_between_events'] for clean in visits]) / len(visits))} minutes.")
if __name__ == "__main__":
""" This is executed when run from the command line """
parser = argparse.ArgumentParser()
parser.add_argument("username", help="Username to summarize time for")
# "Property Address" argument for output file
parser.add_argument("property_address", help="Property Address to be used for entries in the CSV file. (You can also use the property nickname defined on REPStracker)")
# required description argument for output file
parser.add_argument("-d", "--description", help="Description to be used for entries in the CSV file")
# "Activity Group" argument for output file
parser.add_argument("-a", "--activity_group", help="Activity Group to be used for entries in the CSV file")
# optional "Team Member" argument for output file
parser.add_argument("-t", "--team_member", default=None, help="Team Member to be used for entries in the CSV file. Defaults to username")
# optional input file
parser.add_argument("-i", "--input", default="rundata/filtered.json", help="JSON file with event output from filter.py")
# optional argument for output file
parser.add_argument("-o", "--output", default="rundata/summary.json", help="Output file")
# optional argument for csv output
parser.add_argument("-c", "--csv", default="rundata/summary.csv", help="CSV output file")
# optional argument to suppress output
parser.add_argument("-q", "--quiet", action="store_true", help="Suppress output")
# Optional verbosity counter (eg. -v, -vv, -vvv, etc.)
parser.add_argument(
"-v",
"--verbose",
action="count",
default=0,
help="Verbosity (-v, -vv, etc)")
# Specify output of "--version"
parser.add_argument(
"--version",
action="version",
version="%(prog)s (version {version})".format(version=__version__))
args = parser.parse_args()
main(args)