[FP] Code reformat

- Performed code reformat to the entire directory '1ano/1semestre/fp/'
2023-05-16 21:18:38 +01:00 · 2023-05-16 21:18:38 +01:00 · cd0b5c5f82
parent 4cd88a465f
commit cd0b5c5f82
86 changed files with 401 additions and 370 deletions
--- a/1ano/1semestre/fp/aula00/welcome.py
+++ b/1ano/1semestre/fp/aula00/welcome.py
@ -9,4 +9,3 @@ surname = input("Apelido? ")
 course = input("Curso? ")
 print("Olá {} {}!\nBem vindo ao curso de {}!".format(name, surname, course))
--- a/1ano/1semestre/fp/aula01/ex04.py
+++ b/1ano/1semestre/fp/aula01/ex04.py
@ -4,5 +4,4 @@ mins = secs // 60
 m = mins % 60
 h = mins // 60
 print("{:02d}:{:02d}:{:02d}".format(h, m, s))
--- a/1ano/1semestre/fp/aula01/ex05.py
+++ b/1ano/1semestre/fp/aula01/ex05.py
@ -1,6 +1,5 @@
 from math import *
 A = float(input('Comprimento do cateto A: '))
 B = float(input('Comprimento do cateto B: '))
@ -10,4 +9,5 @@ cosseno = A / C
 angRad = acos(cosseno)
 angDeg = angRad * 180 / pi
-print(f'O comprimento da hipotenusa é {round(C, 2)} e o valor do angulo entre o cateto A e a hipotenusa é {round(angDeg, 2)}°')
+print(
    f'O comprimento da hipotenusa é {round(C, 2)} e o valor do angulo entre o cateto A e a hipotenusa é {round(angDeg, 2)}°')
--- a/1ano/1semestre/fp/aula01/ex06.py
+++ b/1ano/1semestre/fp/aula01/ex06.py
@ -1,6 +1,5 @@
 from math import sqrt
 x1, y1 = input("Introduza x1 e y1, separados por uma virgula ',': ").split(',')
 x2, y2 = input("Introduza x2 e y2, separados por uma virgula ',': ").split(',')
--- a/1ano/1semestre/fp/aula02/age.py
+++ b/1ano/1semestre/fp/aula02/age.py
@ -1,4 +1,3 @@
 # A teenager is a person between 13 and 19 years old, inclusive.
 # A child is under 13.  A grown-up is 20 or more.
 # This program outputs the age category for a given input age.
--- a/1ano/1semestre/fp/aula02/darts.py
+++ b/1ano/1semestre/fp/aula02/darts.py
@ -2,7 +2,8 @@ import math
 POINTS = (6, 13, 4, 18, 1, 20, 5, 12, 9, 14, 11, 8, 16, 7, 19, 3, 17, 2, 15, 10)
-print("Introduza as coordenadas (x, y) do dardo.\nRepresenta as posicoes horizontal e vertical respetivamente.\nAmbas em milimetros.")
+print(
    "Introduza as coordenadas (x, y) do dardo.\nRepresenta as posicoes horizontal e vertical respetivamente.\nAmbas em milimetros.")
 x = int(input('X: '))
 y = int(input('Y: '))
@ -19,7 +20,6 @@ elif mod < 32:
    print('Pontuacao: 25 pontos.')
    exit(1)
 angleRad = math.atan2(y, x)
 angleDeg = math.degrees(angleRad) - 9
 score = POINTS[int(angleDeg / 20)]
--- a/1ano/1semestre/fp/aula02/ex09.py
+++ b/1ano/1semestre/fp/aula02/ex09.py
@ -1,7 +1,6 @@
 CTP = float(input('Componente Teorica-pratica: '))
 CP = float(input('Componente Pratica: '))
 NF = round(0.3 * CTP + 0.7 * CP)
 if (CTP < 6.6) or (CP < 6.6):
--- a/1ano/1semestre/fp/aula03/dates.py
+++ b/1ano/1semestre/fp/aula03/dates.py
@ -1,6 +1,7 @@
 def isLeapYear(year):
    return year % 400 == 0 if year % 100 == 0 else year % 4 == 0
 def monthDays(year, month):
    assert month > 0
@ -9,6 +10,7 @@ def monthDays(year, month):
    return days + 1 if (isLeapYear(year) and month == 2) else days
 def nextDay(year, month, day):
    # Verifica se é o último dia do ano
    if (month, day) == (12, 31):
@ -52,6 +54,7 @@ def main():
    y, m, d = nextDay(2017, 12, 31)
    print(y, m, d)  # 2018 1 1 ?
 # call the main function
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula03/ex05_06.py
+++ b/1ano/1semestre/fp/aula03/ex05_06.py
@ -4,9 +4,11 @@ def max2(x, y):
    else:
        return y
 def max3(x, y, z):
    return max2(x, max2(y, z))
 def main():
    n1 = float(input('Introduza dois valores.\nN1: '))
    n2 = float(input('N2: '))
--- a/1ano/1semestre/fp/aula03/ex07.py
+++ b/1ano/1semestre/fp/aula03/ex07.py
@ -5,5 +5,6 @@ def tax(r):
        return 0.2 * r - 100
    return 0.3 * r - 300
 x = float(input('R? '))
 print('O valor de tax(r) é: {:.3f}'.format(tax(x)))
--- a/1ano/1semestre/fp/aula03/ex08.py
+++ b/1ano/1semestre/fp/aula03/ex08.py
@ -1,15 +1,18 @@
 def intersects(a1, b1, a2, b2):
-    assert a1 < b1
+    assert a1 <= b1 and a2 <= b2, "Os intervalos não são válidos."
-    assert a2 < b2
+    return a1 <= b2 and a2 <= b1
    if a1 < b2 and a2 < b1:
        return True
    else:
        return False
 def main():
    a1 = float(input("a1: "))
    b1 = float(input("b1: "))
    a2 = float(input("a2: "))
    b2 = float(input("b2: "))
    try:
        print(intersects(a1, b1, a2, b2))
    except AssertionError as e:
        print(e)
 main()
--- a/1ano/1semestre/fp/aula03/ex12.py
+++ b/1ano/1semestre/fp/aula03/ex12.py
@ -11,5 +11,6 @@ def countdown(n):
        yield n
        n -= 1
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula03/ex13.py
+++ b/1ano/1semestre/fp/aula03/ex13.py
@ -7,11 +7,13 @@ def mdc(a, b):
    else:
        return mdc(b, r)
 def main():
    print('Este programa calcula o máximo divisor comum de dois námeros naturais')
    n1 = int(input('Numero 1: '))
    n2 = int(input('Numero 2: '))
    print(f'\nO Máximo Divisor Comum de {n1} e {n2} é: {mdc(n1, n2)}')
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula04/divs-cate.py
+++ b/1ano/1semestre/fp/aula04/divs-cate.py
@ -20,6 +20,7 @@ Este é um número {category(n, div_list_array)}.
 """)
 # Obtém uma lista com todos os dividores de um número
 def divList(n):
    divs = []
@ -28,6 +29,7 @@ def divList(n):
            divs.append(str(x))
    return divs
 # Obtém a categoria de um número
 def category(n, divs):
    total = 0
@ -37,5 +39,6 @@ def category(n, divs):
    if total == n: return 'perfeito'
    if total > n: return 'abundante'
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula04/factorial.py
+++ b/1ano/1semestre/fp/aula04/factorial.py
@ -4,9 +4,11 @@ def factorial(n):
        total *= x
    return total
 def main():
    n = int(input('Introduza um número: '))
    print('O fatorial de {} é: {}'.format(n, factorial(n)))
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula04/fibonacci.py
+++ b/1ano/1semestre/fp/aula04/fibonacci.py
@ -3,9 +3,11 @@ def fibonacci(n):
    if n == 1: return 1
    return fibonacci(n - 1) + fibonacci(n - 2)
 def main():
    n = int(input('Introduza um número: '))
    print(f'O {n}º número de Fibonacci é: {fibonacci(n)}')
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula04/hilo.py
+++ b/1ano/1semestre/fp/aula04/hilo.py
@ -2,6 +2,7 @@
 import random
 def main():
    # Pick a random number between 1 and 100, inclusive
    secret = random.randrange(1, 101)
@ -19,7 +20,9 @@ def main():
        c += 1
        trieslist.append(str(num))
    triesstr = ', '.join(trieslist)
-    print(f'Well done! The secret number was {secret}. It took you {c} tries to get it right.\nList of tries: {triesstr}')
+    print(
        f'Well done! The secret number was {secret}. It took you {c} tries to get it right.\nList of tries: {triesstr}')
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula04/media.py
+++ b/1ano/1semestre/fp/aula04/media.py
@ -10,14 +10,17 @@ def GetValues():
        count += 1
    return values
 # Calcula a média dos valores da lista 'values'
 def GetMedia(val):
    return sum(val) / len(val)
 # Função principal
 def main():
    values = GetValues()
    print('Média dos valores introduzidos: ', GetMedia(values))
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula04/tp-codecheck/ex01.py
+++ b/1ano/1semestre/fp/aula04/tp-codecheck/ex01.py
@ -4,6 +4,7 @@
 def isLeapYear(year):
    return year % 4 == 0 and year % 100 != 0 or year % 400 == 0
 def printLeapYears(year1, year2):
    """Print all leap years in range [year1, year2[."""
    for year in listLeapYears(year1, year2):
--- a/1ano/1semestre/fp/aula04/tp-codecheck/ex02.py
+++ b/1ano/1semestre/fp/aula04/tp-codecheck/ex02.py
@ -10,10 +10,12 @@ def inputTotal():
        if n == '': return tot
        tot += float(n)
 # MAIN PROGRAM
 def main():
    tot = inputTotal()
    print(tot)
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula04/tp-codecheck/ex03.py
+++ b/1ano/1semestre/fp/aula04/tp-codecheck/ex03.py
@ -15,9 +15,11 @@ def main():
        table(i)
        print()
 def table(n):
    for i in range(1, 11):
        print(f'{n} x {i} = {n * i}')
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula04/turtle1.py
+++ b/1ano/1semestre/fp/aula04/turtle1.py
@ -6,12 +6,14 @@
 import turtle  # allows us to use the turtles library
 # Make turtle t draw a square with the given side length
 def square(t, side):
    for n in range(4):
        t.forward(side)
        t.left(90)
 # Make turtle t draw a spiral.
 # The first side should have length = start, the second start+incr, etc.,
 # until the length reaches length=end (exclusive).
--- a/1ano/1semestre/fp/aula05/shorten.py
+++ b/1ano/1semestre/fp/aula05/shorten.py
@ -10,5 +10,6 @@ def shorten(string):
            abv += char
    return abv
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula05/telephones.py
+++ b/1ano/1semestre/fp/aula05/telephones.py
@ -19,6 +19,7 @@ def nameToTels(partName, telList, nameList):
            tels.append(telList[index])
    return tels
 def main():
    # Lists of telephone numbers and names
    telList = ['975318642', '234000111', '777888333', '911911911']
--- a/1ano/1semestre/fp/aula05/tp05-codecheck/exercises01/ex01.py
+++ b/1ano/1semestre/fp/aula05/tp05-codecheck/exercises01/ex01.py
@ -15,7 +15,6 @@ print(len(train))
 # Qual o total de passageiros?
 print(sum(train))
 # Os dias da semana:
 week = ['sab', 'dom', 'seg', 'ter', 'qua', 'qui', 'sex']
--- a/1ano/1semestre/fp/aula05/tp05-codecheck/exercises02/ex01.py
+++ b/1ano/1semestre/fp/aula05/tp05-codecheck/exercises02/ex01.py
@ -15,6 +15,7 @@ def passengers(train, n):
    num2 = sum(class2)
    return [num1, num2]
 def test():
    train1 = [12, 32, 10, 21]
    train2 = [9, 29, 19]
@ -26,6 +27,7 @@ def test():
    print(passengers(train2, 1))
    print(passengers(train3, 0))
 # Run tests:
 test()
--- a/1ano/1semestre/fp/aula05/tp05-codecheck/exercises02/ex02.py
+++ b/1ano/1semestre/fp/aula05/tp05-codecheck/exercises02/ex02.py
@ -7,6 +7,7 @@ def transfer1car(t1, t2):
    t2.append(t1[-1])
    t1.remove(t1[-1])
 def test():
    train1 = [12, 32, 10, 21]
    train2 = [9, 29, 19]
@ -21,6 +22,7 @@ def test():
    transfer1car(train3, train1)
    print(train1, train2, train3)
 # Run tests:
 test()
--- a/1ano/1semestre/fp/aula05/tp05-codecheck/exercises02/ex03.py
+++ b/1ano/1semestre/fp/aula05/tp05-codecheck/exercises02/ex03.py
@ -18,6 +18,7 @@ def match(t1, t2, g1, g2):
        t1[2] += 1
        t2[2] += 1
 def test():
    team1 = ["Ajax", 0, 0, 0]
    team2 = ["Benfica", 0, 0, 0]
@ -31,6 +32,7 @@ def test():
    match(team3, team1, 0, 3)
    print(team1, team2, team3)
 # Run tests:
 test()
--- a/1ano/1semestre/fp/aula05/tp05-codecheck/exercises03/ex01.py
+++ b/1ano/1semestre/fp/aula05/tp05-codecheck/exercises03/ex01.py
@ -9,6 +9,7 @@ def inputDate():
    d = int(input("Dia? "))
    return (y, m, d)
 # Complete a definição de forma que inputPerson(msg)
 # peça o nome de uma pessoa e a sua data de nascimento
 # e devolva esses dados num tuplo com a forma (nome, (ano, mẽs, dia)).
@ -18,6 +19,7 @@ def inputPerson(msg):
    birth = inputDate()
    return (name, birth)
 def test():
    print("Natal de 2020")
    natal = inputDate()
@ -31,6 +33,7 @@ def test():
    older = p1[1] < p2[1]
    print("p1 é mais velha que p2:", older)
 # Run tests:
 test()
--- a/1ano/1semestre/fp/aula05/tp05-codecheck/exercises03/ex02.py
+++ b/1ano/1semestre/fp/aula05/tp05-codecheck/exercises03/ex02.py
@ -4,6 +4,7 @@
 MESESPT = ("janeiro", "fevereiro", "março", "abril", "maio", "junho",
           "julho", "agosto", "setembro", "outubro", "novembro", "dezembro")
 # Complete a função para que, dado um tuplo (ano, mes, dia)
 # devolva um data por extenso.
 # Por exemplo, datePT((1938, 1, 22)) deve devolver "22 de janeiro de 1938".
@ -12,6 +13,7 @@ def datePT(date):
    s = f"{str(dia)} de {MESESPT[mes - 1]} de {ano}"
    return s
 # Complete a definição para converter uma data no formato "DD/MM/AAAA"
 # num tuplo de inteiros com (ano, mês, dia).
 # Por exemplo: parseDMY("25/12/2020") deve devolver (2020, 12, 25).
--- a/1ano/1semestre/fp/aula06/floatinput.py
+++ b/1ano/1semestre/fp/aula06/floatinput.py
@ -32,5 +32,6 @@ def main():
    return
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula06/school.py
+++ b/1ano/1semestre/fp/aula06/school.py
@ -44,5 +44,3 @@ def main():
 # Call main function
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula07/campeonato.py
+++ b/1ano/1semestre/fp/aula07/campeonato.py
@ -1,6 +1,7 @@
 from extras.allMatches import *             # importa a função allMatches criada na aula05
 import math
 from extras.allMatches import *  # importa a função allMatches criada na aula05
 def main():
    equipas = getTeams()  # pede as equipas ao utilizador
@ -58,14 +59,14 @@ def getTable(teams, results):
 def updateStats(table, team, gm, gs):
-    table[team][5] += (points := 1 if gm == gs else (3 if gm > gs else 0))     # calcula os pontos a atribuir à equipa e adiciona à tabela
+    table[team][5] += (
        points := 1 if gm == gs else (3 if gm > gs else 0))  # calcula os pontos a atribuir à equipa e adiciona à tabela
    table[team][math.trunc(2 - points / 2)] += 1  # determina o index ao qual atribui o jogo (V/E/D)
    table[team][3] += gm  # adiciona os golos marcados
    table[team][4] += gs  # adiciona os golos marcados
 def printTable(table):
    print(f"\n{'Equipa':<15}\tV\tE\tD\tGM\tGS\tPts")
    for team in table:
--- a/1ano/1semestre/fp/aula07/coins.py
+++ b/1ano/1semestre/fp/aula07/coins.py
@ -37,7 +37,6 @@ def transfer(bag1, amount, bag2):
 def transferProcess(bag1, amount, bag2, coins):
    bagBackup = (bag1.copy(), bag2.copy())
    amountBackup = amount
@ -113,4 +112,3 @@ def main():
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula08/imctable2.py
+++ b/1ano/1semestre/fp/aula08/imctable2.py
@ -1,4 +1,3 @@
 # Devolve o IMC para uma pessoa com peso w e altura h.
 def imc(w, h):
    return w / h ** 2
--- a/1ano/1semestre/fp/aula08/interests.py
+++ b/1ano/1semestre/fp/aula08/interests.py
@ -1,4 +1,3 @@
 def main():
    A = "reading"
    B = "eating"
--- a/1ano/1semestre/fp/aula09/binarySearch.py
+++ b/1ano/1semestre/fp/aula09/binarySearch.py
@ -1,6 +1,5 @@
 import bisect
 with open("wordlist.txt", "r") as f:
    word_list: list[str] = f.read().split()
--- a/1ano/1semestre/fp/aula09/insertionSort.py
+++ b/1ano/1semestre/fp/aula09/insertionSort.py
@ -1,4 +1,3 @@
 # This function sorts a list (like list.sort)
 # using the insertion sort algorithm.
 # Modify it to accept a key= keyword argument that works like in list.sort.
@ -48,4 +47,3 @@ def main():
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula09/integrate.py
+++ b/1ano/1semestre/fp/aula09/integrate.py
@ -1,5 +1,4 @@
 import sys
 import math
 def integrate(f, a, b, n):
--- a/1ano/1semestre/fp/aula09/polynomial.py
+++ b/1ano/1semestre/fp/aula09/polynomial.py
@ -34,6 +34,6 @@ def main():
    s = polynomial([1, -1, 0, 100])  # creates s(x)=x³-x²+100
    print([s(x) for x in xx])  # [100, 100, 104, 118]
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula09/tabelaFutebol.py
+++ b/1ano/1semestre/fp/aula09/tabelaFutebol.py
@ -1,4 +1,3 @@
 # Tabela classificativa da Primeira Liga de futebol de Portugal em 2018-11-30.
 # (Descarregada de https://www.resultados.com/futebol/portugal/primeira-liga/)
@ -43,7 +42,6 @@ def printTabela(tabela):
 # dado um registo de uma equipa, devolve o número de jogos que a equipa jogou.
 numJogos = lambda reg: reg[V] + reg[E] + reg[D]
 # a)
 # Complete a expressão lambda para definir uma função que,
 # dado um registo de uma equipa, devolva o número de pontos da equipa.
@ -57,7 +55,6 @@ def main():
    print(tabela[-1][N], pontos(tabela[-1]))  # Chaves 7?
    # Mostra a tabela classificativa original, não ordenada:
    printTabela(tabela)
--- a/1ano/1semestre/fp/aula10/findFiles.py
+++ b/1ano/1semestre/fp/aula10/findFiles.py
@ -46,4 +46,3 @@ def main():
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula10/genWords.py
+++ b/1ano/1semestre/fp/aula10/genWords.py
@ -1,4 +1,3 @@
 # Generates all length-3 words with symbols taken from the given alphabet.
 def genWords3(symbols):
    return [x + y + z for x in symbols for y in symbols for z in symbols]
@ -26,6 +25,6 @@ def main():
    lstC = genWords("01", 4)  # should return all length-4 binary words
    print(lstC)
 if __name__ == "__main__":
    main()
--- a/1ano/1semestre/fp/aula10/moveLetters.py
+++ b/1ano/1semestre/fp/aula10/moveLetters.py
@ -12,6 +12,7 @@ endX("xxhixx") → "hixxxx"
 endX("hixhix") → "hihixx"
 """
 def endX(s):
    if s == '':
        return ''
--- a/1ano/1semestre/fp/aula10/recErrors.py
+++ b/1ano/1semestre/fp/aula10/recErrors.py
@ -1,4 +1,3 @@
 # Calcula o factorial de n, baseado na recorrencia n! = n*(n-1)!.
 # Mas não termina!  Detete a causa e corrija o erro.
 def fact(n):
--- a/1ano/1semestre/fp/aula10/recmickey.py
+++ b/1ano/1semestre/fp/aula10/recmickey.py
@ -1,4 +1,5 @@
 import sys
 from ezgraphics import GraphicsWindow
--- a/1ano/1semestre/fp/aula10/traced.py
+++ b/1ano/1semestre/fp/aula10/traced.py
@ -28,6 +28,7 @@ def traced(func):
    return tracedfunc
 # Initial tracing prefix:
 traced.indent = ""
@ -38,13 +39,13 @@ traced.indent = ""
 if __name__ == "__main__":
    # How to use this module:
    from traced import traced
    @traced
    def func(x):
        return x * x
    func(3)
    func(3)
--- a/1ano/1semestre/fp/avaliacao/ap2/ex9.py
+++ b/1ano/1semestre/fp/avaliacao/ap2/ex9.py
@ -27,4 +27,3 @@ def score(guess, secret):
                cows_index.append(i)
    return len(bulls_index), len(cows_index)
--- a/1ano/1semestre/fp/avaliacao/apx2/shop.py
+++ b/1ano/1semestre/fp/avaliacao/apx2/shop.py
@ -10,7 +10,8 @@ def loadDataBase(fname, produtos):
    with open(fname, 'r') as f:  # Abre o ficheiro em modo de leitura
        productsFileContent = f.read()  # Cria uma string com o conteudo do ficheiro
-    for product in productsFileContent.split('\n')[1:]:       # Divide a string 'productsFileContent' numa lista com cada produto
+    for product in productsFileContent.split('\n')[
                   1:]:  # Divide a string 'productsFileContent' numa lista com cada produto
        productComponents = product.split(';')  # Divide as componentes do produto (código, nome, secção, preço, iva)
        if len(productComponents) != 5:
@ -29,7 +30,8 @@ def registaCompra(produtos):
    mostra nome, quantidade e preço final de cada um,
    e devolve dicionário com {codigo: quantidade, ...}
    """
-    compra = {"totals": [0, 0, 0]}     # Inicia o dicionário da compra com os totais da mesma: [total bruto, total iva, total liquido]
+    compra = {"totals": [0, 0,
                         0]}  # Inicia o dicionário da compra com os totais da mesma: [total bruto, total iva, total liquido]
    userInput = input('Code? ')
    while userInput != "":
        try:
@ -64,7 +66,8 @@ def fatura(produtos, compra):
    """Imprime a fatura de uma dada compra."""
    # Obtém a lista de secções presentes na compra (por ordem alfabética)
-    sections = sorted(list({section for section in [product[1] for code, product in produtos.items() if code in compra]}))
+    sections = sorted(
        list({section for section in [product[1] for code, product in produtos.items() if code in compra]}))
    # Itera as secções para apresentar os produtos ordenados por secção
    for section in sections:
@ -75,7 +78,8 @@ def fatura(produtos, compra):
        # Itera os códigos para apresentar as informações de cada produto
        for code in sectionProductsCodes:
-            print(f"{compra[code]:>4} {produtos[code][0]:<31}({int(produtos[code][3]*100):>2}%){round(compra[code]*produtos[code][2]*(1+produtos[code][3]), 2):>11}")
+            print(
                f"{compra[code]:>4} {produtos[code][0]:<31}({int(produtos[code][3] * 100):>2}%){round(compra[code] * produtos[code][2] * (1 + produtos[code][3]), 2):>11}")
    # Apresenta os totais da compra
    print(f"""{'Total Bruto:':>41}{round(compra["totals"][0], 2):>11}
@ -120,5 +124,6 @@ def main(args):
 # Não altere este código / Do not change this code
 import sys
 if __name__ == "__main__":
    main(sys.argv[1:])
--- a/1ano/1semestre/fp/extra2/telecom.py
+++ b/1ano/1semestre/fp/extra2/telecom.py
@ -98,7 +98,9 @@ def fatura(calls: dict, phone_number: str) -> None:
 def validate_phone_number(phone_number: str) -> bool:
-    return phone_number.isdigit() and len(phone_number) >= 3 if phone_number[0] != "+" else phone_number[1:].isdigit() and len(phone_number[1:]) >= 3
+    return phone_number.isdigit() and len(phone_number) >= 3 if phone_number[0] != "+" else phone_number[
                                                                                            1:].isdigit() and len(
        phone_number[1:]) >= 3
 if __name__ == '__main__':
--- a/1ano/1semestre/fp/extra2/totobola.py
+++ b/1ano/1semestre/fp/extra2/totobola.py
@ -74,7 +74,8 @@ def print_results(journeys: dict, journey: int, budget: int) -> None:
            price = 1000
        else:
            price = 5000
-        print(f"TEM {right_bets_count} CERTAS. {'SEM PRÉMIO' if right_bets_count < 7 else ('3º PRÉMIO' if right_bets_count < 8 else ('2º PRÉMIO' if right_bets_count < 9 else '1º PRÉMIO'))}")
+        print(
            f"TEM {right_bets_count} CERTAS. {'SEM PRÉMIO' if right_bets_count < 7 else ('3º PRÉMIO' if right_bets_count < 8 else ('2º PRÉMIO' if right_bets_count < 9 else '1º PRÉMIO'))}")
        budget += price
        get_user_input(journeys, budget)
--- a/1ano/1semestre/fp/extra2/twitter.py
+++ b/1ano/1semestre/fp/extra2/twitter.py
@ -23,7 +23,6 @@ print(twits[0]["text"])
 # Algumas mensagens contêm hashtags:
 print(twits[880]["text"])
 # A)
 word_count: dict[str, int] = {}
@ -38,19 +37,16 @@ word_list = list(word_count.keys())
 print("A)\n" + str(word_list), end="\n\n")
 # B)
 ordered_list = sorted(word_list, key=lambda t: word_count[t], reverse=True)
 print("B)\n" + str(ordered_list), end="\n\n")
 # C)
 ordered_hashtag_list = [word for word in ordered_list if word.startswith('#')]
 print("C)\n" + str(ordered_hashtag_list), end="\n\n")
 # D)
 print("D)\n")
 most_used = word_count[ordered_hashtag_list[0]]
--- a/1ano/1semestre/fp/extra3/ex01.py
+++ b/1ano/1semestre/fp/extra3/ex01.py
@ -1,4 +1,3 @@
 # On a chessboard, positions are marked with letters between a and h for the column and a
 # number between 1 and 8 for the row. The first place on the board, a1, is black. The next
 # is white, alternating across a row. Odd rows start with black, even rows start with white.
--- a/1ano/1semestre/fp/extra3/ex03.py
+++ b/1ano/1semestre/fp/extra3/ex03.py
@ -1,4 +1,3 @@
 # Given a string s and a string t, return a string in which all the characters
 # of s that occur in t have been replaced by a _ sign. The comparisons are
 # case sensitive.
--- a/1ano/1semestre/fp/extra3/ex04.py
+++ b/1ano/1semestre/fp/extra3/ex04.py
@ -1,4 +1,3 @@
 # Given a string s, return the longest prefix that is repeated somewhere else in the string.
 # For example, "abcdabejf" would return "ab" as "ab" starts at the beginning of the string
 # and is repeated again later. Do not use the find method.
--- a/1ano/1semestre/fp/extra3/ex05.py
+++ b/1ano/1semestre/fp/extra3/ex05.py
@ -1,3 +1,4 @@
 def printStocks(stocks):
    for stock in stocks:
-        print(f"{stock[0]:<10}{stock[1]:<19}{stock[2]:>6.2f}{stock[3]:>10.2f}{stock[4]:>10}{(stock[3]/stock[2]-1)*100:>7.1f}%")
+        print(
            f"{stock[0]:<10}{stock[1]:<19}{stock[2]:>6.2f}{stock[3]:>10.2f}{stock[4]:>10}{(stock[3] / stock[2] - 1) * 100:>7.1f}%")
--- a/1ano/1semestre/fp/extra3/ex08.py
+++ b/1ano/1semestre/fp/extra3/ex08.py
@ -3,5 +3,6 @@ def load(fname):
    with open(fname, 'r') as f:
        for stock in f:
            components = stock[:-1].split('\t')
-            stocks_list.append((components[0], components[1], float(components[2]), float(components[3]), int(components[4])))
+            stocks_list.append(
                (components[0], components[1], float(components[2]), float(components[3]), int(components[4])))
    return stocks_list
--- a/1ano/1semestre/fp/extra3/ex10.py
+++ b/1ano/1semestre/fp/extra3/ex10.py
@ -14,6 +14,7 @@ Se não, deve devolver a quantidade que não conseguiu descarregar.
 """
 # Se w=['coal', 45], então w[0]='coal' e w[1]=45.
 def unload(t, m, q):
--- a/1ano/1semestre/fp/extra3/ex11.py
+++ b/1ano/1semestre/fp/extra3/ex11.py
@ -4,7 +4,7 @@ Por exemplo, onlyCaps("John Fitzgerald Kennedy") deve devolver "JFK".
 A solução tem de ser recursiva e não pode usar ciclos.
 """
 def onlyCaps(s):
    # NOTE: ch.isupper() -> True if ch is uppercase.
    return "" if len(s) == 0 else (s[0] + onlyCaps(s[1:]) if s[0].isupper() else onlyCaps(s[1:]))
`@ -9,4 +9,3 @@ surname = input("Apelido? ")`
	`course = input("Curso? ")`	`course = input("Curso? ")`

	`print("Olá {} {}!\nBem vindo ao curso de {}!".format(name, surname, course))`	`print("Olá {} {}!\nBem vindo ao curso de {}!".format(name, surname, course))`
`@ -46,4 +46,3 @@ def main():`

	`if __name__ == "__main__":`	`if __name__ == "__main__":`
	`main()`	`main()`
`@ -1,4 +1,5 @@`
	`import sys`	`import sys`

	`from ezgraphics import GraphicsWindow`	`from ezgraphics import GraphicsWindow`
`@ -27,4 +27,3 @@ def score(guess, secret):`
	`cows_index.append(i)`	`cows_index.append(i)`

	`return len(bulls_index), len(cows_index)`	`return len(bulls_index), len(cows_index)`