def main():
parser = argparse.ArgumentParser()
parser.add_argument('--host', default='0.0.0.0')
parser.add_argument('--port', default='39999', type=int)
parser.add_argument('--live', action='store_true', help='Autoupdate the server with code changes')
parser.add_argument('--debug', action='store_true', help='Print tracebacks on errors')
options = parser.parse_args()
bottle.debug(options.debug)
app.start(host=options.host, port=options.port, reloader=options.live)
def main():
parser = argparse.ArgumentParser(
description="query and visualization api tool for nidm results, workflow, and experiments")
parser.add_argument("--ttl", help="List of comma separated ttl files to parse.", type=str)
try:
args = parser.parse_args()
except:
parser.print_help()
sys.exit(0)
#TODO: We will have logic here to serve API vs do some other functions, right now just serve API
start()
def start_server():
# some prelimenary setup
app.FULLNAME = os.path.normpath(os.path.abspath(__file__))
app.NAME = os.path.basename(app.FULLNAME)
app.PROG_DIR = os.path.dirname(app.FULLNAME)
app.DATA_DIR = app.PROG_DIR
app.ARGS = sys.argv[1:]
app.CREATEPID = False
print "SofaSpud has started"
app.start()
sys.exit()
def start_server(): # some prelimenary setup app.FULLNAME = os.path.normpath(os.path.abspath(__file__)) app.NAME = os.path.basename(app.FULLNAME) app.PROG_DIR = os.path.dirname(app.FULLNAME) app.DATA_DIR = app.PROG_DIR app.ARGS = sys.argv[1:] app.CREATEPID = False print "SofaSpud has started" app.start() sys.exit();
def main():
# start mesh network
mesh.start()
# register pipes
mesh.net_add_pipe('update', pipe_update)
mesh.net_add_pipe('startapp', pipe_startapp)
mesh.net_add_pipe('stopapp', pipe_stopapp)
mesh.net_add_pipe('reset', pipe_reset)
# execute application
try:
app.start()
except Exception, e:
log.warning('APP: ' + str(e))
def test_start(self):
"""test start function"""
MOCKSESSION = UnifiedAlchemyMagicMock()
with mock.patch("app.db.session", MOCKSESSION):
with mock.patch("flask.render_template", mock_render):
response = start()
self.assertEqual(response, "Successfully rendered index.html")
def add_contact():
os.system("clear")
# create temporary dictionary to store user details
user_details = {}
# get contact details
user_details["first_name"] = input("First name: ").lower()
user_details["surname"] = input("Surname: ").lower()
user_details["email"] = input("Email: ").lower()
user_details["phone_number"] = input("Phone number: ")
user_details["address"] = input("Address: ").lower()
# write details to file
with open(utils.CONTACTS_DATABASE, "a+") as f:
os.system("clear")
# convert dictionary to JSON
f.write(json.dumps(user_details) + "\n")
# close file
f.close()
# inform user of success
print(f"\n\n{utils.Colors.GREEN}Contact added successfully!{utils.Colors.END}\n\n")
time.sleep(1.5)
# return to main menu
os.system("clear")
return app.start()
def pipe_update(data):
log.info('MAIN: Update requested')
# check if the received file is valid
try:
compile(data, '<string>', 'exec')
except:
log.error('UPDATE: Application is invalid')
app.start()
return
# stop mesh network
try:
mesh.stop()
except Exception, e:
log.warning('MESH: ' + str(e))
def main():
parser = argparse.ArgumentParser(
description=
"query and visualization api tool for nidm results, workflow, and experiments"
)
parser.add_argument("--ttl",
help="List of comma separated ttl files to parse.",
type=str)
try:
args = parser.parse_args()
except:
parser.print_help()
sys.exit(0)
#TODO: We will have logic here to serve API vs do some other functions, right now just serve API
start()
def main():
opts = get_config()
logger.info("Preparing for data retrieval")
data_download = DataDownload(opts.tempdir)
data_download.add_download(
"https://raw.githubusercontent.com/CSSEGISandData/COVID-19/master/csse_covid_19_data/csse_covid_19_time_series/time_series_covid19_confirmed_global.csv",
"covid19_confirmed.csv")
data_download.add_download(
"https://raw.githubusercontent.com/CSSEGISandData/COVID-19/master/csse_covid_19_data/csse_covid_19_time_series/time_series_covid19_deaths_global.csv",
"covid19_deaths.csv")
data_download.add_download(
"https://raw.githubusercontent.com/CSSEGISandData/COVID-19/master/csse_covid_19_data/csse_covid_19_time_series/time_series_covid19_recovered_global.csv",
"covid19_recovered.csv")
data_download.add_download(
"https://population.un.org/wpp/Download/Files/1_Indicators%20(Standard)/CSV_FILES/WPP2019_TotalPopulationBySex.csv",
"total_population_data.csv")
data_file_paths = data_download.download_all()
data = {}
for file_path in data_file_paths:
if file_path.endswith('covid19_confirmed.csv'):
data['infected'] = file_path
elif file_path.endswith('covid19_deaths.csv'):
data['dead'] = file_path
elif file_path.endswith('covid19_recovered.csv'):
data['recovered'] = file_path
elif file_path.endswith('total_population_data.csv'):
data['population'] = file_path
logger.info('Parsing COVID-19 data')
data_parser = coviddata.COVIDDataParser(data['infected'],
data['recovered'], data['dead'])
covid_data = data_parser.parse()
logger.info('Parsing population data')
population_data = populationdata.PopulationDataParser(
data['population']).parse()
population_data.add_country_aliases('United States of America', 'US',
'USA')
population_data.add_country_aliases('Dem. People\'s Republic of Korea',
'North Korea', 'Korea, North')
population_data.add_country_aliases('Republic of Korea', 'South Korea',
'Korea, South')
app.set_data(covid_data, population_data)
app.create()
server = app.start()
options = {
'bind': '%s:%s' % (opts.listen, opts.port),
'workers': opts.workers
}
StandaloneApplication(server, options).run()
def init():
try:
db_connection.test_connection()
db_connection.create_tables()
except Exception as e:
logger.error(e)
raise e
logger.info("Application initialized")
return application.start()
def _post_fork(server=None, w=None):
_config_logging()
start()
def entrenamiento_service():
start(token)
result = "Envio de imagen: OK"
print(result)
return jsonify(result)
from app import db, start
print("Importing db...")
db.create_all(app=start())
print("Created database!")
def main():
app.start()
def main(): # start app app.start()
def main():
selected_packages = ask_user()
start(selected_packages)
import app app.start(debug=True)
#newname
from app import (start, App)
app = App()
@app.route('/')
def route_index():
return app.response.send('Hello, World!')
start(app, __name__)
'tap':
lambda dev, observer, env, attr: tap(dev, attr['x'], attr['y']),
'longclick':
lambda dev, observer, env, attr: longclick(dev, attr['x'], attr['y']),
'back':
lambda dev, observer, env, attr: back(dev),
'enter':
lambda dev, observer, env, attr: enter(dev),
'home':
lambda dev, observer, env, attr: home(dev),
'swipe':
lambda dev, observer, env, attr: swipe(dev, attr['x1'], attr['y1'], attr[
'x2'], attr['y2']),
# app
'start':
lambda dev, observer, env, attr: app.start(dev, attr['name']),
'stop':
lambda dev, observer, env, attr: app.stop(dev, attr['name']),
'clear':
lambda dev, observer, env, attr: app.clear(dev, attr['name']),
'waitact':
lambda dev, observer, env, attr: app.waitact(dev, attr['name']),
'wait':
lambda dev, observer, env, attr: wait(dev, attr['time']),
'waitfor':
lambda dev, observer, env, attr: waitfor(dev, attr['method'], attr[
'value'], observer, env),
'waitready':
lambda dev, observer, env, attr: waitready(dev, observer),
'waitidle':
lambda dev, observer, env, attr: waitidle(dev),
def test_init(self, mock_print):
with patch('app.game.game.input',
side_effect=('y', 'y', 'y', 'y', 'y')):
start()
from app import start
if __name__ == '__main__':
start()
# logging
from logging import getLogger, DEBUG, WARNING
log_initializer.setFmt()
log_initializer.setRootLevel(WARNING)
logger = getLogger(__name__)
logger.setLevel(DEBUG)
app.logger.setLevel(DEBUG)
if __name__ == '__main__':
# IO queue
update_queue = multiprocessing.Queue()
response_queue = multiprocessing.Queue()
# Start server
app.start(update_queue, response_queue)
# Main process
try:
while True:
# Wait for browser inputs
data = update_queue.get()
if 'range' in data:
val = data['range']
logger.info('Range input event ({})'.format(val))
message = 'Response: Range is changed ({})'.format(val)
elif 'button' in data:
logger.info('Button event')
message = 'Response: Button clicked'
else:
#Testing tello
# TelloDrone = unidrone.drone(droneType=2)
# TelloDrone.takeOff()
# TelloDrone.Forward(20)
# TelloDrone.Rollright(10)
# TelloDrone.Land()
# Testing codrone
# codrone = unidrone.drone(droneType=1)
# codrone.takeOff(5)
# codrone.Forward(50)
# codrone.Rollright(30)
# codrone.Land()
file_name = 'command.txt'
tellodrone = unidrone.Tello()
startdrone = app.start(file_name)
tellodrone.__init__()
tellodrone.send_command()
tellodrone.add_response()
tellodrone._receive_thread()
app.start(file_name)
# if droneT == 'TelloDrone':
# Tello=drone(droneType=2)
# yaw_direction = "cw"
# # Put Tello into command mode
# send("command", 3)
# # Send the takeoff command
# send("takeoff", 5)
import app
if __name__ == '__main__':
app.start()
def list_contacts():
os.system("clear")
print("\nList contacts by\n")
print("1. First name (Ascending)")
print("2. First name (Descending)")
print("3. Surname (Ascending)")
print("4. Surname (Descending)\n")
print("0. Return\n")
# all the possible options a user can take
available_options = {"0", "1", "2", "3", "4"}
# get user input
user_input = input(utils.user_input_str)
# validate user input
if user_input not in available_options:
return utils.invalid_input(list_contacts)
# convert user input into an integer
user_input = int(user_input)
# user wants to go back
if user_input == 0:
return app.start()
os.system("clear")
# temporary dictionary that stores all the
# contacts contained in the text file
users_dictionary = {}
# open contacts text file (database)
with open(utils.CONTACTS_DATABASE, "r") as f:
# read first line in the database and store its content in a variable
user_details = f.readline()
# loop through all users stored in the file
while user_details:
# convert current user string into a dictionary
user = json.loads(user_details)
# append user to users dictionary
if user_input == 1 or user_input == 2:
users_dictionary[
f"{user['first_name']}_{user['surname']}"] = user
# append user to users dictionary
if user_input == 3 or user_input == 4:
users_dictionary[
f"{user['surname']}_{user['first_name']}"] = user
# get the next user
user_details = f.readline()
# close file after operation
f.close()
# sort contacts in ascending order
if user_input == 1 or user_input == 3:
for user in sorted(users_dictionary, reverse=False):
utils.print_contact_details(users_dictionary[user])
# sort contacts in descending order
if user_input == 2 or user_input == 4:
for user in sorted(users_dictionary, reverse=True):
utils.print_contact_details(users_dictionary[user])
# print number of existing contacts
print(f"\nCONTACTS: {utils.number_of_entries(users_dictionary)}")
# call to action
utils.press_enter()
def test_if_init_works(self, mock_input, mock_print, mock_sleep):
start()
#! /usr/bin/env python
# -*- coding: utf-8 -*-
#
# RegexMate: A Visual Regular Expression Test/Evaluation tool
#
# @author: Sreejith K <*****@*****.**>
# Created on 29th June 2013
#
# Licensed under MIT license. Refer COPYING for more info.
import app
if __name__ == '__main__':
app.start()
def search_contact():
os.system("clear")
print("\nSearch contact by\n")
print("1. First name")
print("2. Email address\n")
print("0. Return\n")
# all the possible options a user can take
available_options = {"0", "1", "2"}
# get user input
user_input = input(utils.user_input_str).lower()
# validate user input
if user_input not in available_options:
return utils.invalid_input(search_contact)
# convert user input into an integer
user_input = int(user_input)
# user wants to go back
if user_input == 0:
return app.start()
# user wants to search by first name
if user_input == 1:
os.system("clear")
print("\nEnter contact's first name\n")
print("0. Return\n")
search_query = "first_name"
user_input = input(utils.user_input_str)
# user wants to go back
if user_input == "0":
return search_contact()
# user wants to search by email address
if user_input == 2:
os.system("clear")
print("\nEnter contact's email\n")
print("0. Return\n")
search_query = "email"
user_input = input(utils.user_input_str)
# user wants to go back
if user_input == "0":
return search_contact()
# search user in database
with open(utils.CONTACTS_DATABASE, "r") as f:
os.system("clear")
# read first line in the database and store its content in a variable
user_details = f.readline()
# loop through all users
while user_details:
# convert current user data into a dictionary
user = json.loads(user_details)
# check if user matches search query
if user_input == user[search_query]:
utils.print_contact_details(user)
# get the next user
user_details = f.readline()
# close file
f.close()
# call to action
utils.press_enter()
def handle(event, context):
return app.start(app.getConfig())
def pipe_startapp(data):
log.info('MAIN: Application start requested')
app.start()
def press_enter():
input(f"\n{Colors.GREEN}Press ENTER to return... {Colors.END}")
os.system("clear")
return app.start()
from app import start
app = start()
if __name__ == '__main__':
app.run(host="0.0.0.0", debug=True)
def _post_fork(server=None, w=None):
_config_logging()
start()
def test_app_start_log(caplog):
start()
assert "Starting" in caplog.text
