def main():
Exit = 0
language = input(
"Please select your language english(0),spanish(1), french(2) or a diferent language(3)\n"
)
messages, library = fn.language_menu(language)
while Exit != 1:
while True:
try:
search_or_add_input = int(input(messages[1]))
if search_or_add_input == 0:
os.system('cls')
title = input(messages[2] + '')
author = input(messages[3] + '')
year = input(messages[4] + '')
location = input(messages[5] + '')
descritpion = input(messages[6] + '')
language_input = input(messages[23] + '')
state = input(messages[24] + '')
fn.add(title, author, year, location, descritpion,
language_input, state)
elif search_or_add_input == 1:
os.system('cls')
while True:
category = input(messages[14])
try:
category = int(category)
if category not in range(7):
print(messages[0])
continue
break
except:
os.system('cls')
print(messages[0])
continue
book = input(messages[15])
fn.search(category, book, language)
else:
os.system('cls')
print(messages[0])
continue
break
except:
os.system('cls')
print(messages[0])
while True:
Exit = input(messages[18])
try:
Exit = int(Exit)
if Exit not in range(2):
print(messages[0])
continue
break
except:
os.system('cls')
print(messages[0])
os.system('cls')
print('\n' + messages[17])
time.sleep(8)
def add(new_list):
New_Pokemon = add(Pokemon_List)
assert callable(add)
assert isinstance(add(Pokemon_List), list)
assert '' not in add(Pokemon_List)
def stand():
user_deck = from_db2arr(UserCards)
val1 = add(user_deck)
dealer_deck = from_db2arr(DealerCards)
val2 = add(dealer_deck)
if val2 < 17:
all_deck = from_db2arr(AllDeck)
while val2 < 17:
dealer_deck.append(all_deck.pop())
val2 = add(dealer_deck)
if val2 > val1 and val2 <= 21:
msg = "You lose"
elif val2 == val1:
msg = "A tied score"
else:
msg = "You win!"
return render_template('main.html',
val1=val1,
val2=val2,
msg=msg,
player=user_deck,
dealer=dealer_deck)
def process_create_new_message(message):
bad_words = check_bad_words(message.text.lower())
if bad_words == '':
add(message)
bot.send_message(message.chat.id, "Сообщение успешно добавлено!")
else:
bot.send_message(
message.chat.id,
f"Ваше сообщение содержит недопустимые слово(-а) ({bad_words}) и не было "
f"добавлено.")
go_back(message)
def add_podcast(self):
name = self.podcastLineEdit.text()
feed = self.feedLineEdit.text()
if len(name) is 0:
self.msgbox('Dont make it so hard', 'Please add a name')
elif len(feed) is 0:
self.msgbox('No feed', 'Please add a feed')
else:
podcastItem = QtGui.QListWidgetItem()
podcastItem.setText(name)
podcastItem.setToolTip(feed)
self.podcastList.addItem(podcastItem)
functions.add(name, feed)
self.add_dialog.accept()
def hit():
all_deck = from_db2arr(AllDeck)
user_deck = from_db2arr(UserCards)
user_deck.append(all_deck.pop())
to_db(UserCards, user_deck)
to_db(AllDeck, all_deck)
dealer_deck = from_db2arr(DealerCards)
if add(user_deck) > 21:
val1 = add(user_deck)
val2 = add(dealer_deck)
return render_template('main.html', val1=val1, val2=val2, msg="You lose", player=user_deck, dealer=dealer_deck)
dealer_deck[0] = 'X'
return render_template('main.html', player=user_deck, dealer=dealer_deck)
def test_add_strings():
assert functions.add(("hail", "fellow")) == "hailfellow"
assert functions.add(("well", "met")) == "wellmet"
assert functions.add(("", "")) == ""
with pytest.raises(TypeError):
functions.add(("bad", 1))
with pytest.raises(TypeError):
functions.add((1, "bad"))
def testAdd(operands):
sys.path.append('project/src/calculate-activity')
import functions as fun
# invoke the add method for the functions.py file
test = fun.add(operands[0], operands[1])
# return the result
return test
def stand():
user_deck = from_db2arr(UserCards)
val1 = add(user_deck)
dealer_deck = from_db2arr(DealerCards)
val2 = add(dealer_deck)
if val2 < 17:
all_deck = from_db2arr(AllDeck)
while val2 < 17:
dealer_deck.append(all_deck.pop())
val2 = add(dealer_deck)
if val2 > val1 and val2 <= 21:
msg = "You lose"
elif val2 == val1:
msg = "A tied score"
else:
msg = "You win!"
return render_template('main.html', val1=val1, val2=val2, msg=msg, player=user_deck, dealer=dealer_deck)
def getRanks(self, scores):
points = self.getPoints(scores)
games = {}
for score in scores:
games = add(games,score.home.id,1)
games = add(games,score.away.id,1)
rankDict = []
for i in range(len(points)):
team = 0
pts = -1
for t, p in points.items():
if p > pts:
team = t
pts = p
elif p == pts and team!=0 and games[t] < games[team]:
team = t
pts = p
teamObj = Team.objects.get(pk=team)
rankDict.append({'id': team, 'team': teamObj.name, 'pt': pts, 'games': games[team]})
del points[team]
return rankDict #returning a dictionary with limitted data instead of full team object
def command_line(dictionary):
while True:
command = input('Enter your command: ')
if command == 'exit':
return 'exit'
elif command == 'move':
functions.move()
elif command == 'help':
for command, description in list(commands_list.items()):
print(command + ' = ' + description)
elif command == 'add':
functions.add()
return functions.update()
elif command == 'remove':
functions.remove()
elif command == 'print':
continue
elif command == 'show':
functions.show()
elif command == 'train':
return functions.train(dictionary)
def hit():
all_deck = from_db2arr(AllDeck)
user_deck = from_db2arr(UserCards)
user_deck.append(all_deck.pop())
to_db(UserCards, user_deck)
to_db(AllDeck, all_deck)
dealer_deck = from_db2arr(DealerCards)
if add(user_deck) > 21:
val1 = add(user_deck)
val2 = add(dealer_deck)
return render_template('main.html',
val1=val1,
val2=val2,
msg="You lose",
player=user_deck,
dealer=dealer_deck)
dealer_deck[0] = 'X'
return render_template('main.html', player=user_deck, dealer=dealer_deck)
def testAdd(x, y):
#get Directory for functions
currentworkingdirectory = os.getcwd()
currentworkingdirectory = currentworkingdirectory.replace('/scripts', '')
currentworkingdirectory = (currentworkingdirectory + '/project/src')
sys.path.insert(0, currentworkingdirectory)
from functions import add
try:
output = add(int(x), int(y))
except:
output = "ERROR"
return output
def testAdd(x, y):
#get Directory for functions
currentworkingdirectory = os.getcwd()
currentworkingdirectory = currentworkingdirectory.replace('/scripts', '')
currentworkingdirectory = (currentworkingdirectory + '/project/src')
sys.path.insert(0, currentworkingdirectory)
from functions import add
try:
output = add(int(x),int(y))
except:
output = "ERROR"
return output
def getPoints(sewlf, scores):
points = {}
for score in scores:
if score.home_score > score.away_score:
points = add(points, score.home.id, 2)
points = add(points, score.away.id, 0)
elif score.home_score == score.away_score:
points = add(points, score.home.id, 1)
points = add(points, score.away.id, 1)
else:
points = add(points, score.home.id, 0)
points = add(points, score.away.id, 2)
return points
def main():
poll = None
while(poll != "quit"):
print("What would you like to do? (add, subtract, multiply, divide, quit)")
poll = input('>')
if poll == "add":
print("Your result is: %d\n\n" % (functions.add(*get_input())))
elif poll == "divide":
print("Your result is: %d\n\n" % (functions.divide(*get_input())))
elif poll == "multiply":
print("Your result is: %d\n\n" % (functions.multiply(*get_input())))
elif poll == "subtract":
print("Your result is: %d\n\n" % (functions.subtract(*get_input())))
else:
if not poll == "quit":
print("Sorry, I didn't understand.")
def test_add():
day = datetime.date.today().day
storage = {day: [[100, "out", "pizza"], [1000, "in", "salary"]]}
add(storage, 150, "out", "jewlery")
assert get_trans(storage, day, 2) == [150, "out", "jewlery"]
modulefun.add(10,20,30) import modulefun as mf # modulefun shpuld be available in the above mentioned path mf.add(2,5,6) mf.fib(50) mf.a print(mf.a) from modulefun import add add(2,5,6) # Packages import PYTHON_OCT2018 import functions functions. functions.add(11,11,11) Functions. modulefun.add(12,12,12) .modulefun md.add(4,5,6)
def add():
functions.add()
def test_add(self):
self.assertEqual(add(10, 5), 15)
self.assertEqual(add(-1, 1), 0)
self.assertEqual(add(-1, -1), -2)
def test_add(self):
result = functions.add(100, 5)
self.assertEqual(result, 105)
self.assertEqual(functions.add(100, 1), 101)
def test_sum():
assert f.add(7, 3) == 10
assert f.add(-1, -1) == -2
assert f.add(-1, 1) == 0
assert f.add(8.9, 9.1) == 18.0
def run_functions(curr_spreadsheet, query_string, query_parameters):
print("Query string: " + query_string)
# ADD <ENTRY_1> <ENTRY_2>
# <ENTRY_1>: row 4
commands = query_string.split(".")
sheet = curr_spreadsheet.sheet
for i in range(len(commands)):
args_and_comm = commands[i].split(" ")
command_name = args_and_comm[0]
args = []
for k in range(1, len(args_and_comm)):
result = args.append(query_parameters[args_and_comm[k]])
result = None
if command_name == "ADD":
result = functions.add(sheet, args[0], args[1])
elif command_name == "INSERTAFT":
if args[0].rowOrCol == 'col':
result = functions.insert_entry(sheet, chr(ord(args[0].value) + 1), args[0].rowOrCol)
else:
result = functions.insert_entry(sheet, int(args[0].value) + 1, args[0].rowOrCol)
elif command_name == "INSERTBEF":
if args[0].rowOrCol == 'col':
result = functions.insert_entry(sheet, chr(ord(args[0].value)), args[0].rowOrCol)
else:
result = functions.insert_entry(sheet, int(args[0].value), args[0].rowOrCol)
elif command_name == "SET":
if(isinstance(args[0], float)):
result = functions.cell_update(sheet, args[1].cell_str, args[0])
else:
result = functions.cell_update(sheet, args[1].cell_str, args[0].value)
elif command_name == "AVG":
result = functions.average_entry(sheet, args[0].value, args[0].rowOrCol)
elif command_name == "BOLD":
if(isinstance(args[0], Cell)):
result = functions.format_bold(sheet, str(args[0].cell_str) + ":" + str(args[0].cell_str))
else:
result = functions.format_bold_entry(sheet, args[0])
elif command_name == "SET_BG":
if(len(args) == 2):
if(isinstance(args[1], Cell)):
result = functions.set_background(sheet, args[1].cell_str + ":" + args[1].cell_str, args[0].color_str)
else:
result = functions.set_background_entry(sheet, args[1], args[0].color_str)
else:
result = functions.set_background(sheet, str(args[1].cell_str) + ":" + str(args[2].cell_str), args[0].color_str)
elif command_name == "MULTIPLY":
if(isinstance(args[1], Entry)):
result = functions.multiply_entry(sheet, int(args[0].value), args[1].value, args[1].rowOrCol == "row")
else:
result = functions.multiply_cell(sheet, int(args[0].value), args[1].cell_str)
elif command_name == "SIN":
if(len(args) == 1):
if (isinstance(args[0], Cell)):
result = functions.sin_cell(sheet, args[0].cell_str)
else:
# Don't know if this works
result = functions.sin_entry(sheet, ord(args[0].value) - ord("A") + 1, args[0].rowOrCol == "col")
else:
result = functions.sin_range(sheet, str(args[0].cell_str) + ":" + str(args[1].cell_str))
elif command_name == "COS":
if(len(args) == 1):
if (isinstance(args[0], Cell)):
result = functions.cos_cell(sheet, args[0].cell_str)
else:
result = functions.cos_entry(sheet, args[0].value, args[0].rowOrCol == "col")
else:
result = functions.cos_range(sheet, str(args[0].cell_str) + ":" + str(args[1].cell_str))
elif command_name == "SORT":
# result = functions.sort(sheet, args[0])
if(args[0].rowOrCol == 'col'):
result = functions.sort(sheet, (ord(args[0].value) - ord("A") + 1, 'asc'))
# elif command_name == "FILTER_EVEN":
# result = functions.filter_even(sheet, args[0])
# elif command_name == "FILTER_ODD":
# result = functions.filter_odd(sheet, args[0])
elif command_name == "FILTER_PRIME":
result = functions.filter_by_prime(sheet)
# elif command_name == "MAX_VAL":
# result = functions.max_val(sheet, args[0])
# elif command_name == "NORMALIZE":
# result = functions.normalize(sheet, args[0], args[1])
query_parameters["<RES_" + str(i + 1) + ">"] = result
def test_check_add():
assert add(5, 2) == 7
def test_check_wrong_add():
assert add(9, 4) == 7
# absolute import
import functions
# relative import
# from functions import add
# relative import with dot syntax, requires __init__.py file
from . import functions
x = 5
y = 6
z = functions.add(x, y)
print("5 + 6 =", z)
z = functions.sub(x, y)
print(z)
def test_add(self):
self.assertEqual(4, functions.add(2, 2))
self.assertEqual(0, functions.add(-2, 2))
self.assertEqual(-2, functions.add(-1, -1))
def test_add(self):
assert functions.add(0, 1) == 1
def ui_add(storage, cmd):
value = int(cmd[1])
tr_type = cmd[2]
description = cmd[3]
add(storage, value, tr_type, description)
The following arithmetic operators can be used:
- For addition, press A
- For subtraction, press S
- For multiplications, press M
- For division, press D
- For power function, press P
- To quit, press X
""")
op = input("> Enter operator key: ").lower()
if op == 'x':
break
elif op == 'a':
print("> The answer is: ", f.add(num1, num2))
elif op == 's':
in_order = bool(
int(input(
">> Enter 1 -> num1 - num2 OR Enter 0 -> num2 - num1: ")))
print("> The answer is: ", f.subtract(num1, num2, in_order=in_order))
elif op == 'm':
print("> The answer is: ", f.multiply(num1, num2))
elif op == 'd':
in_order = bool(
int(input(">> Enter 1 -> num1 / num2 OR Enter 0 -> num2 / num1")))
print("> The answer is: ", f.divide(num1, num2, in_order=in_order))
def test_add_integers():
assert functions.add((1, 1)) == 2
assert functions.add((1, -1)) == 0
assert functions.add((2**31, 1)) == 2147483649
import functions
from functions import subtract
from maths.multiplication import multiplication
if __name__ == '__main__':
c = functions.add(10, 2)
print(c)
d = subtract(20, 10)
print(d)
e = multiplication(12, 10)
print(e)
def start(self):
"""Starts the server."""
sock = socket.socket()
sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
sock.bind((self.host, self.port))
sock.listen(1)
print('Listening on port %s ...' % self.port)
while True:
# Accept client
conn, _ = sock.accept()
# Receive message
msg = conn.recv(1024).decode()
print('Received:', msg)
# Send response
# Nivel 1- Invocação de funções
res1 = functions.hello()
# Nivel 2 - Nomes das funções
if msg == "hello":
res2 = functions.hello()
elif msg == "hello2":
res2 = functions.hello2()
else:
res2 = 'Error'
# Nivel 3 - Parametros / Nivel 4 - Multiplos Parametros
if msg.startswith('greet'):
values = msg.split()
name = values[1]
res3and4 = functions.greet(name)
#conn.send(res3and4.encode())
elif msg.startswith('add'):
values = msg.split()
a = values[1]
b = values[2]
res3and4 = functions.add(eval(a), eval(b))
#conn.send(str(res3and4).encode())
# Nivel 5 - JSON
# Convert json message to dict
msg = json.loads(msg)
method = msg['method']
params = msg['params']
if method == 'greet':
res5 = functions.greet(*params)
result = {"result": str(res5)}
jsonResult = json.dumps(result)
#conn.send(jsonResult.encode())
elif method == 'add':
res5 = functions.add(*params)
result = {"result": str(res5)}
jsonResult = json.dumps(result)
#conn.send(jsonResult.encode())
else:
result = {"error": "Method not found"}
jsonResult = json.dumps(result)
#conn.send(jsonResult.encode())
# Nivel 7 - Funções como objetos
try:
func = self.funcs[method]
res = str(func(*params))
except KeyError:
res = 'Error'
conn.send(res.encode())
conn.send(res.encode())
# Close client connection
conn.close()
import functions print(functions.add(2, 3))
def test_add():
assert add(1, 2) == 3
del line[0]
#INCREMENTING 'WHILE' COUNTER
lineCounter += 1
#FUNCT IDENTIFIER
funct = line[0]
#SELECTING FUNCTION
if funct == 'add':
#REGISTERS IDENTIFIERS
reg1 = line[1]
reg2 = line[2]
reg3 = line[3]
#ENTERING FUNCTION
reg[reg1] = functions.add(reg[reg2], reg[reg3])
elif funct == 'addi':
#REGISTERS AND IMMEDIATE IDENTIFIERS
reg1 = line[1]
reg2 = line[2]
immediate = line[3]
#ENTERING FUNCTION
reg[reg1] = functions.addi(reg[reg2], immediate)
elif funct == 'j':
label = line[1]
#GOING BACK TO THE LINE WHERE THE LABEL STARTS
lineCounter = functions.j(label)
elif funct == 'beq':
reg1 = line[1]
reg2 = line[2]
label = line[3]
# Press the green button in the gutter to run the script.
if __name__ == '__main__':
# function
functions.print_hi('PyCharm')
functions.say_hi('Folau')
# method with return value
result = functions.is_adult(20)
print(f'is adult {result}')
# use built-in methods
print(math.pow(2, 3))
print(sqrt(4))
print(functions.add(1, 2))
print(functions.multiply(1, 2))
data_types.showDataTypes()
if_statements.showIfStatements()
iteration.show()
# Arbitrary arguments *
functions.print_profile("Folau", 30)
# Keyword Arguments
functions.print_hi(name="Folau")
#Arbitrary Keyword Arguments, **kwargs
