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autodoist.py
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#!/usr/bin/python3
from todoist.api import TodoistAPI
import sys
import time
import requests
import argparse
import logging
from datetime import datetime, timedelta
import time
# Makes --help text wider
def make_wide(formatter, w=120, h=36):
"""Return a wider HelpFormatter, if possible."""
try:
# https://stackoverflow.com/a/5464440
# beware: "Only the name of this class is considered a public API."
kwargs = {'width': w, 'max_help_position': h}
formatter(None, **kwargs)
return lambda prog: formatter(prog, **kwargs)
except TypeError:
logging.error("Argparse help formatter failed, falling back.")
return formatter
# Sync with Todoist API
def sync(api):
try:
logging.debug('Syncing the current state from the API')
api.sync()
except Exception as e:
logging.exception(
'Error trying to sync with Todoist API: %s' % str(e))
quit()
# Simple query for yes/no answer
def query_yes_no(question, default="yes"):
# """Ask a yes/no question via raw_input() and return their answer.
# "question" is a string that is presented to the user.
# "default" is the presumed answer if the user just hits <Enter>.
# It must be "yes" (the default), "no" or None (meaning
# an answer is required of the user).
# The "answer" return value is True for "yes" or False for "no".
# """
valid = {"yes": True, "y": True, "ye": True,
"no": False, "n": False}
if default is None:
prompt = " [y/n] "
elif default == "yes":
prompt = " [Y/n] "
elif default == "no":
prompt = " [y/N] "
else:
raise ValueError("invalid default answer: '%s'" % default)
while True:
sys.stdout.write(question + prompt)
choice = input().lower()
if default is not None and choice == '':
return valid[default]
elif choice in valid:
return valid[choice]
else:
sys.stdout.write("Please respond with 'yes' or 'no' "
"(or 'y' or 'n').\n")
# Check if label exists, if not, create it
def verify_label_existance(args, api, label_name, prompt_mode):
# Check the regeneration label exists
label = api.labels.all(lambda x: x['name'] == label_name)
if len(label) > 0:
label_id = label[0]['id']
logging.debug('Label \'%s\' found as label id %d',
args.label, label_id)
else:
# Create a new label in Todoist
logging.info(
"\n\nLabel '{}' doesn't exist in your Todoist\n".format(label_name))
# sys.exit(1)
if prompt_mode == 1:
response = query_yes_no(
'Do you want to automatically create this label?')
else:
response = True
if response:
api.labels.add(label_name)
api.commit()
api.sync()
label = api.labels.all(lambda x: x['name'] == label_name)
label_id = label[0]['id']
logging.info("Label '{}' has been created!".format(label_name))
else:
logging.info('Exiting Autodoist.')
exit(1)
return label_id
# Initialisation of Autodoist
def initialise(args):
# Check we have a API key
if not args.api_key:
logging.error(
"\n\nNo API key set. Run Autodoist with '-a <YOUR_API_KEY>'\n")
sys.exit(1)
# Check if alternative end of day is used
if args.end is not None:
if args.end < 1 or args.end > 24:
logging.error(
"\n\nPlease choose a number from 1 to 24 to indicate which hour is used as alternative end-of-day time.\n")
sys.exit(1)
else:
pass
# Check if proper regeneration mode has been selected
if args.regeneration is not None:
if not set([0,1,2]) & set([args.regeneration]):
logging.error('Wrong regeneration mode. Please choose a number from 0 to 2. Check --help for more information on the available modes.')
exit(1)
# Show which modes are enabled:
modes = []
m_num = 0
for x in [args.label, args.regeneration, args.end]:
if x:
modes.append('Enabled')
m_num += 1
else:
modes.append('Disabled')
logging.info("You are running with the following functionalities:\n\n Next action labelling mode: {}\n Regenerate sub-tasks mode: {}\n Shifted end-of-day mode: {}\n".format(*modes))
if m_num == 0:
logging.info(
"\n No functionality has been enabled. Please see --help for the available options.\n")
exit(0)
# Run the initial sync
logging.debug('Connecting to the Todoist API')
api_arguments = {'token': args.api_key}
if args.nocache:
logging.debug('Disabling local caching')
api_arguments['cache'] = None
api = TodoistAPI(**api_arguments)
sync(api)
# If labeling argument is used
if args.label is not None:
# Verify that the next action label exists; ask user if it needs to be created
label_id = verify_label_existance(args, api, args.label, 1)
else:
# Label functionality not needed
label_id = None
logging.info("Autodoist has connected and is running fine!\n")
# If regeneration mode is used, verify labels
if args.regeneration is not None:
# Verify the existance of the regeneraton labels; force creation of label
regen_labels_id = [verify_label_existance(
args, api, regen_label, 2) for regen_label in args.regen_label_names]
else:
# Label functionality not needed
regen_labels_id = [None, None, None]
return api, label_id, regen_labels_id
# Check for Autodoist update
def check_for_update(current_version):
updateurl = 'https://api.github.com/repos/Hoffelhas/autodoist/releases'
try:
r = requests.get(updateurl)
r.raise_for_status()
release_info_json = r.json()
if not current_version == release_info_json[0]['tag_name']:
logging.warning("\n\nYour version is not up-to-date! \nYour version: {}. Latest version: {}\nFind the latest version at: {}\n".format(
current_version, release_info_json[0]['tag_name'], release_info_json[0]['html_url']))
return 1
else:
return 0
except requests.exceptions.ConnectionError as e:
logging.error(
"Error while checking for updates (Connection error): {}".format(e))
return 1
except requests.exceptions.HTTPError as e:
logging.error(
"Error while checking for updates (HTTP error): {}".format(e))
return 1
except requests.exceptions.RequestException as e:
logging.error("Error while checking for updates: {}".format(e))
return 1
# Assign current type based on settings
def check_name(args, name):
len_suffix = [len(args.pp_suffix), len(args.ss_suffix),
len(args.ps_suffix), len(args.sp_suffix)]
if name == 'Inbox':
current_type = args.inbox
elif name[-len_suffix[0]:] == args.pp_suffix:
current_type = 'parallel'
elif name[-len_suffix[1]:] == args.ss_suffix:
current_type = 'sequential'
elif name[-len_suffix[1]:] == args.ps_suffix:
current_type = 'p-s'
elif name[-len_suffix[1]:] == args.sp_suffix:
current_type = 's-p'
# Workaround for section names, which don't allow / symbol.
elif args.ps_suffix == '/-' and name[-2:] == '_-':
current_type = 'p-s'
# Workaround for section names, which don't allow / symbol.
elif args.sp_suffix == '-/' and name[-2:] == '-_':
current_type = 's-p'
# Workaround for section names, which don't allow / symbol.
elif args.pp_suffix == '//' and name[-1:] == '_':
current_type = 'parallel'
else:
current_type = None
return current_type
# Scan the end of a name to find what type it is
def get_type(args, object, key):
object_name = ''
try:
old_type = object[key]
except:
# logging.debug('No defined project_type: %s' % str(e))
old_type = None
try:
object_name = object['name'].strip()
except:
try:
object_name = object['content'].strip()
except:
pass
current_type = check_name(args, object_name)
# Check if project type changed with respect to previous run
if old_type == current_type:
type_changed = 0
else:
type_changed = 1
object[key] = current_type
return current_type, type_changed
# Determine a project type
def get_project_type(args, project_object):
"""Identifies how a project should be handled."""
project_type, project_type_changed = get_type(
args, project_object, 'project_type')
return project_type, project_type_changed
# Determine a section type
def get_section_type(args, section_object):
"""Identifies how a section should be handled."""
if section_object is not None:
section_type, section_type_changed = get_type(
args, section_object, 'section_type')
else:
section_type = None
section_type_changed = 0
return section_type, section_type_changed
# Determine an item type
def get_item_type(args, item, project_type):
"""Identifies how an item with sub items should be handled."""
if project_type is None and item['parent_id'] != 0:
try:
item_type = item['parent_type']
item_type_changed = 1
item['item_type'] = item_type
except:
item_type, item_type_changed = get_type(args, item, 'item_type')
else:
item_type, item_type_changed = get_type(args, item, 'item_type')
return item_type, item_type_changed
# Logic to add a label to an item
def add_label(item, label, overview_item_ids, overview_item_labels):
if label not in item['labels']:
labels = item['labels']
logging.debug('Updating \'%s\' with label', item['content'])
labels.append(label)
try:
overview_item_ids[str(item['id'])] += 1
except:
overview_item_ids[str(item['id'])] = 1
overview_item_labels[str(item['id'])] = labels
# Logic to remove a label from an item
def remove_label(item, label, overview_item_ids, overview_item_labels):
if label in item['labels']:
labels = item['labels']
logging.debug('Removing \'%s\' of its label', item['content'])
labels.remove(label)
try:
overview_item_ids[str(item['id'])] -= 1
except:
overview_item_ids[str(item['id'])] = -1
overview_item_labels[str(item['id'])] = labels
# Ensure labels are only issued once per item
def update_labels(api, label_id, overview_item_ids, overview_item_labels):
filtered_overview_ids = [
k for k, v in overview_item_ids.items() if v != 0]
for item_id in filtered_overview_ids:
labels = overview_item_labels[item_id]
api.items.update(item_id, labels=labels)
# To handle items which have no sections
def create_none_section():
none_sec = {
'id': None,
'name': 'None',
'section_order': 0
}
return none_sec
# Check if header logic needs to be applied
def check_header(level):
header_all_in_level = False
unheader_all_in_level = False
method = 0
try:
name = level['name']
method = 1
except:
try:
content = level['content']
method = 2
except:
pass
if method == 1:
if name[:3] == '** ':
header_all_in_level = True
level.update(name=name[3:])
if name[:3] == '!* ':
unheader_all_in_level = True
level.update(name=name[3:])
elif method == 2:
if content[:3] == '** ':
header_all_in_level = True
level.update(content=content[3:])
if content[:3] == '!* ':
unheader_all_in_level = True
level.update(content=content[3:])
else:
pass
return header_all_in_level, unheader_all_in_level
# Check regen mode based on label name
def check_regen_mode(api, item, regen_labels_id):
labels = item['labels']
overlap = set(labels) & set(regen_labels_id)
overlap = [val for val in overlap]
if len(overlap) > 1:
logging.warning(
'Multiple regeneration labels used! Please pick only one for item: "{}".'.format(item['content']))
return None
try:
regen_label_id = overlap[0]
except:
logging.debug(
'No regeneration label for item: %s' % item['content'])
regen_label_id = [0]
if regen_label_id == regen_labels_id[0]:
return 0
elif regen_label_id == regen_labels_id[1]:
return 1
elif regen_label_id == regen_labels_id[2]:
return 2
else:
# label_name = api.labels.get_by_id(regen_label_id)['name']
# logging.debug(
# 'No regeneration label for item: %s' % item['content'])
return None
# Recurring lists logic
def run_recurring_lists_logic(args, api, item, child_items, child_items_all, regen_labels_id):
if item['parent_id'] == 0:
try:
if item['due']['is_recurring']:
try:
# Check if the T0 task date has changed
if item['due']['date'] != item['date_old']:
# Save the new date for reference us
item.update(
date_old=item['due']['date'])
# Mark children for action based on mode
if args.regeneration is not None:
# Check if task has a regen label
regen_mode = check_regen_mode(
api, item, regen_labels_id)
# If no label, use general mode instead
if regen_mode is None:
regen_mode = args.regeneration
logging.debug('Using general recurring mode \'%s\' for item: %s',
regen_mode, item['content'])
else:
logging.debug('Using recurring label \'%s\' for item: %s',
regen_mode, item['content'])
# Apply tags based on mode
give_regen_tag = 0
if regen_mode == 1: # Regen all
give_regen_tag = 1
elif regen_mode == 2: # Regen if all sub-tasks completed
if not child_items:
give_regen_tag = 1
if give_regen_tag == 1:
for child_item in child_items_all:
child_item['r_tag'] = 1
# If alternative end of day, fix due date if needed
if args.end is not None:
# Determine current hour
t = datetime.today()
current_hour = t.hour
# Check if current time is before our end-of-day
if (args.end - current_hour) > 0:
# Determine the difference in days set by todoist
nd = [
int(x) for x in item['due']['date'].split('-')]
od = [
int(x) for x in item['date_old'].split('-')]
new_date = datetime(
nd[0], nd[1], nd[2])
old_date = datetime(
od[0], od[1], od[2])
today = datetime(
t.year, t.month, t.day)
days_difference = (
new_date-today).days
days_overdue = (
today - old_date).days
# Only apply if overdue and if it's a daily recurring tasks
if days_overdue >= 1 and days_difference == 1:
# Find curreny date in string format
today_str = [str(x) for x in [
today.year, today.month, today.day]]
if len(today_str[1]) == 1:
today_str[1] = ''.join(
['0', today_str[1]])
# Update due-date to today
item_due = item['due']
item_due['date'] = '-'.join(
today_str)
item.update(due=item_due)
# item.update(due={'date': '2020-05-29', 'is_recurring': True, 'string': 'every day'})
except:
# If date has never been saved before, create a new entry
logging.debug(
'New recurring task detected: %s' % item['content'])
item['date_old'] = item['due']['date']
api.items.update(item['id'])
except:
# logging.debug(
# 'Parent not recurring: %s' % item['content'])
pass
if args.regeneration is not None and item['parent_id'] != 0:
try:
if item['r_tag'] == 1:
item.update(checked=0)
item.update(in_history=0)
item['r_tag'] = 0
api.items.update(item['id'])
for child_item in child_items_all:
child_item['r_tag'] = 1
except:
# logging.debug('Child not recurring: %s' %
# item['content'])
pass
# Contains all main autodoist functionalities
def autodoist_magic(args, api, label_id, regen_labels_id):
# Preallocate dictionaries
overview_item_ids = {}
overview_item_labels = {}
for project in api.projects.all():
# To determine if a sequential task was found
first_found_project = False
# Check if we need to (un)header entire project
header_all_in_p, unheader_all_in_p = check_header(project)
if label_id is not None:
# Get project type
project_type, project_type_changed = get_project_type(
args, project)
if project_type is not None:
logging.debug('Identified \'%s\' as %s type',
project['name'], project_type)
# Get all items for the project
project_items = api.items.all(
lambda x: x['project_id'] == project['id'])
# Run for both none-sectioned and sectioned items
for s in [0, 1]:
if s == 0:
sections = [create_none_section()]
elif s == 1:
sections = api.sections.all(
lambda x: x['project_id'] == project['id'])
for section in sections:
# Check if we need to (un)header entire secion
header_all_in_s, unheader_all_in_s = check_header(section)
# To determine if a sequential task was found
first_found_section = False
# Get section type
section_type, section_type_changed = get_section_type(
args, section)
if section_type is not None:
logging.debug('Identified \'%s\' as %s type',
section['name'], section_type)
# Get all items for the section
items = [x for x in project_items if x['section_id']
== section['id']]
# Change top parents_id in order to sort later on
for item in items:
if not item['parent_id']:
item['parent_id'] = 0
# Sort by parent_id and filter for completable items
items = sorted(items, key=lambda x: (
x['parent_id'], x['child_order']))
# If a type has changed, clean label for good measure
if label_id is not None:
if project_type_changed == 1 or section_type_changed == 1:
# Remove labels
[remove_label(item, label_id, overview_item_ids,
overview_item_labels) for item in items]
# Remove parent types
for item in items:
item['parent_type'] = None
# For all items in this section
for item in items:
active_type = None # Reset
# Possible nottes routine for the future
# notes = api.notes.all() TODO: Quick notes test to see what the impact is?
# note_content = [x['content'] for x in notes if x['item_id'] == item['id']]
# print(note_content)
# Determine which child_items exist, both all and the ones that have not been checked yet
non_checked_items = list(
filter(lambda x: x['checked'] == 0, items))
child_items_all = list(
filter(lambda x: x['parent_id'] == item['id'], items))
child_items = list(
filter(lambda x: x['parent_id'] == item['id'], non_checked_items))
# Check if we need to (un)header entire item tree
header_all_in_i, unheader_all_in_i = check_header(item)
# Logic for applying and removing headers
if any([header_all_in_p, header_all_in_s, header_all_in_i]):
if item['content'][0] != '*':
item.update(content='* ' + item['content'])
for ci in child_items:
if not ci['content'].startswith('*'):
ci.update(content='* ' + ci['content'])
if any([unheader_all_in_p, unheader_all_in_s]):
if item['content'][0] == '*':
item.update(content=item['content'][2:])
if unheader_all_in_i:
[ci.update(content=ci['content'][2:])
for ci in child_items]
# Logic for recurring lists
if not args.regeneration:
try:
# If old label is present, reset it
if item['r_tag'] == 1:
item['r_tag'] = 0
api.items.update(item['id'])
except:
pass
# If options turned on, start recurring lists logic
if args.regeneration is not None or args.end:
run_recurring_lists_logic(
args, api, item, child_items, child_items_all, regen_labels_id)
# If options turned on, start labelling logic
if label_id is not None:
# Skip processing an item if it has already been checked or is a header
if item['checked'] == 1:
continue
if item['content'].startswith('*'):
# Remove next action label if it's still present
remove_label(item, label_id, overview_item_ids,overview_item_labels)
continue
# Check item type
item_type, item_type_changed = get_item_type(
args, item, project_type)
if item_type is not None:
logging.debug('Identified \'%s\' as %s type',
item['content'], item_type)
# Determine hierarchy types for logic
hierarchy_types = [item_type,
section_type, project_type]
active_types = [type(x) != type(None)
for x in hierarchy_types]
# If it is a parentless task
if item['parent_id'] == 0:
if active_types[0]:
# Do item types
active_type = item_type
add_label(
item, label_id, overview_item_ids, overview_item_labels)
elif active_types[1]:
# Do section types
active_type = section_type
if section_type == 'sequential' or section_type == 's-p':
if not first_found_section:
add_label(
item, label_id, overview_item_ids, overview_item_labels)
first_found_section = True
elif section_type == 'parallel' or section_type == 'p-s':
add_label(
item, label_id, overview_item_ids, overview_item_labels)
elif active_types[2]:
# Do project types
active_type = project_type
if project_type == 'sequential' or project_type == 's-p':
if not first_found_project:
add_label(
item, label_id, overview_item_ids, overview_item_labels)
first_found_project = True
elif project_type == 'parallel' or project_type == 'p-s':
add_label(
item, label_id, overview_item_ids, overview_item_labels)
# Mark other conditions too
if first_found_section == False and active_types[1]:
first_found_section = True
if first_found_project is False and active_types[2]:
first_found_project = True
# If there are children
if len(child_items) > 0:
# Check if item state has changed, if so clean children for good measure
if item_type_changed == 1:
[remove_label(child_item, label_id, overview_item_ids, overview_item_labels)
for child_item in child_items]
# If a sub-task, inherit parent task type
if item['parent_id'] !=0:
try:
active_type = item['parent_type']
except:
pass
# Process sequential tagged items (item_type can overrule project_type)
if active_type == 'sequential' or active_type == 'p-s':
for child_item in child_items:
# Ignore headered children
if child_item['content'].startswith('*'):
continue
# Pass item_type down to the children
child_item['parent_type'] = active_type
# Pass label down to the first child
if child_item['checked'] == 0 and label_id in item['labels']:
add_label(
child_item, label_id, overview_item_ids, overview_item_labels)
remove_label(
item, label_id, overview_item_ids, overview_item_labels)
else:
# Clean for good measure
remove_label(
child_item, label_id, overview_item_ids, overview_item_labels)
# Process parallel tagged items or untagged parents
elif active_type == 'parallel' or (active_type == 's-p' and label_id in item['labels']):
remove_label(
item, label_id, overview_item_ids, overview_item_labels)
for child_item in child_items:
# Ignore headered children
if child_item['content'].startswith('*'):
continue
child_item['parent_type'] = active_type
if child_item['checked'] == 0:
# child_first_found = True
add_label(
child_item, label_id, overview_item_ids, overview_item_labels)
# Remove labels based on start / due dates
# If item is too far in the future, remove the next_action tag and skip
try:
if args.hide_future > 0 and 'due' in item.data and item['due'] is not None:
due_date = datetime.strptime(
item['due']['date'], "%Y-%m-%d")
future_diff = (
due_date - datetime.today()).days
if future_diff >= args.hide_future:
remove_label(
item, label_id, overview_item_ids, overview_item_labels)
continue
except:
# Hide-future not set, skip
continue
# If start-date has not passed yet, remove label
try:
f1 = item['content'].find('start=')
f2 = item['content'].find('start=due-')
if f1 > -1 and f2 == -1:
f_end = item['content'][f1+6:].find(' ')
if f_end > -1:
start_date = item['content'][f1 +
6:f1+6+f_end]
else:
start_date = item['content'][f1+6:]
# If start-date hasen't passed, remove all labels
start_date = datetime.strptime(
start_date, args.dateformat)
future_diff = (
datetime.today()-start_date).days
if future_diff < 0:
remove_label(
item, label_id, overview_item_ids, overview_item_labels)
[remove_label(child_item, label_id, overview_item_ids,
overview_item_labels) for child_item in child_items]
continue
except:
logging.warning(
'Wrong start-date format for item: "%s". Please use "start=<DD-MM-YYYY>"', item['content'])
continue
# Recurring task friendly - remove label with relative change from due date
try:
f = item['content'].find('start=due-')
if f > -1:
f1a = item['content'].find(
'd') # Find 'd' from 'due'
f1b = item['content'].rfind(
'd') # Find 'd' from days
f2 = item['content'].find('w')
f_end = item['content'][f+10:].find(' ')
if f_end > -1:
offset = item['content'][f+10:f+10+f_end-1]
else:
offset = item['content'][f+10:-1]
try:
item_due_date = item['due']['date']
item_due_date = datetime.strptime(
item_due_date, '%Y-%m-%d')
except:
logging.warning(
'No due date to determine start date for item: "%s".', item['content'])
continue
if f1a != f1b and f1b > -1: # To make sure it doesn't trigger if 'w' is chosen
td = timedelta(days=int(offset))
elif f2 > -1:
td = timedelta(weeks=int(offset))
# If we're not in the offset from the due date yet, remove all labels
start_date = item_due_date - td
future_diff = (
datetime.today()-start_date).days
if future_diff < 0:
remove_label(
item, label_id, overview_item_ids, overview_item_labels)
[remove_label(child_item, label_id, overview_item_ids,
overview_item_labels) for child_item in child_items]
continue
except:
logging.warning(
'Wrong start-date format for item: %s. Please use "start=due-<NUM><d or w>"', item['content'])
continue
return overview_item_ids, overview_item_labels
# Main
def main():
# Version
current_version = 'v1.5'
# Main process functions.
parser = argparse.ArgumentParser(
formatter_class=make_wide(argparse.HelpFormatter, w=120, h=60))
parser.add_argument('-a', '--api_key',
help='takes your Todoist API Key.', type=str)
parser.add_argument(
'-l', '--label', help='enable next action labelling. Define which label to use.', type=str)
parser.add_argument(
'-r', '--regeneration', help='enable regeneration of sub-tasks in recurring lists. Chose overall mode: 0 - regen off, 1 - regen all (default), 2 - regen only if all sub-tasks are completed. Task labels can be used to overwrite this mode.', nargs='?', const='1', default=None, type=int)
parser.add_argument(
'-e', '--end', help='enable alternative end-of-day time instead of default midnight. Enter a number from 1 to 24 to define which hour is used.', type=int)
parser.add_argument(
'-d', '--delay', help='specify the delay in seconds between syncs (default 5).', default=5, type=int)
parser.add_argument(
'-pp', '--pp_suffix', help='change suffix for parallel-parallel labeling (default "//").', default='//')
parser.add_argument(
'-ss', '--ss_suffix', help='change suffix for sequential-sequential labeling (default "--").', default='--')
parser.add_argument(
'-ps', '--ps_suffix', help='change suffix for parallel-sequential labeling (default "/-").', default='/-')
parser.add_argument(
'-sp', '--sp_suffix', help='change suffix for sequential-parallel labeling (default "-/").', default='-/')
parser.add_argument(
'-df', '--dateformat', help='strptime() format of starting date (default "%%d-%%m-%%Y").', default='%d-%m-%Y')
parser.add_argument(
'-hf', '--hide_future', help='prevent labelling of future tasks beyond a specified number of days.', default=0, type=int)
parser.add_argument(
'--onetime', help='update Todoist once and exit.', action='store_true')
parser.add_argument(
'--nocache', help='disables caching data to disk for quicker syncing.', action='store_true')
parser.add_argument('--debug', help='enable debugging and store detailed to a log file.',
action='store_true')
parser.add_argument('--inbox', help='the method the Inbox should be processed with.',
default=None, choices=['parallel', 'sequential'])
args = parser.parse_args()
# Addition of regeneration labels
args.regen_label_names = ('Regen_off', 'Regen_all',
'Regen_all_if_completed')
# Set debug
if args.debug:
log_level = logging.DEBUG
else:
log_level = logging.INFO
logging.basicConfig(level=log_level,
format='%(asctime)s %(levelname)-8s %(message)s',
datefmt='%Y-%m-%d %H:%M:%S',
handlers=[logging.FileHandler(
'debug.log', 'w+', 'utf-8'),
logging.StreamHandler()]
)
# Check for updates
check_for_update(current_version)
# Initialise api
api, label_id, regen_labels_id = initialise(args)
# Start main loop
while True:
start_time = time.time()
sync(api)
# Evaluate projects, sections, and items
overview_item_ids, overview_item_labels = autodoist_magic(
args, api, label_id, regen_labels_id)
# Commit the queue with changes
if label_id is not None:
update_labels(api, label_id, overview_item_ids,
overview_item_labels)
if len(api.queue):
len_api_q = len(api.queue)
api.commit()
if len_api_q == 1:
logging.info(
'%d change committed to Todoist.', len_api_q)
else:
logging.info(
'%d changes committed to Todoist.', len_api_q)
else:
logging.info('No changes in queue, skipping sync.')
# If onetime is set, exit after first execution.
if args.onetime:
break
# Set a delay before next sync
end_time = time.time()
delta_time = end_time - start_time
if args.delay - delta_time < 0:
logging.debug(
'Computation time %d is larger than the specified delay %d. Sleeping skipped.', delta_time, args.delay)
elif args.delay >= 0:
sleep_time = args.delay - delta_time
logging.debug('Sleeping for %d seconds', sleep_time)