def menu(): # exp_n = [[3, 1, 17], [4, 13, -2], [1, -6 , -3]] #this should give you -772 # r = det(exp_n) # print(r) RETURN_VAL = 4 opc = 0 while opc != RETURN_VAL: print(""" DETERMINANT MATRIX 1- A determinat of a matrix order 1 to 5 manually 2- A determinat of a random matrix 3- Show documentation. 4- Go back """) opc = input_int("_") if opc == 1: size = input_int("Size of the matrix:", allow_negative=False, default=2, min_val=2, max_val=5) m = create_matrix(size) m_numpy = np.array(m) print_matrix(m) r = det(m) r_numpy = np.linalg.det(m_numpy) print(f"|m| = {r}") print(f"Resultado de numpy: {r_numpy}") input("Enter to continue") clean_screen() if opc == 2: size = input_int("Size of the random matrix: ", min_val=2, max_val=15, allow_negative=False, default=2) m = gen_random_matrix(size) m_numpy = np.array(m) print_matrix(m) r_numpy = np.linalg.det(m_numpy) r = det(m) print(f"|m| = {r}") print(f"Resultado de numpy: {r_numpy}") input("Enter to continue") clean_screen() if opc == 3: help(print_matrix) help(det) help(transf_signs_rows) help(reduce_matrix) clean_screen() if opc == 4: input("returning to main menu") clean_screen() else: clean_screen()
def main(): """ Main function Handler """ clean_screen() row = input_int("Row of the digit to search: ", False) column = input_int("Column of the digit to search: ", False, max_val=row) r = pascal(row, column) # 6 draw_triangle(row) print(f"the digit in position [{row},{column}] is {r}")
def triangle_area(): """ Calculate and prints the area of a triangle""" print_title("OPTION 1-TRIANGLE AREA") h = input_int("Triangle height: ") b = input_int("Triangle base: ") precision = input("Do you want Decimals?: [y/n]") if precision == "y": r = (b * h) / 2 else: r = (b * h) // 2 print(f"AREA: {r}")
def handle_add(): desc = input_str_non_empty("Article Description: ") amount = input_int("Article Amount: ", False, min_val=1, default=1) ex_factor = round(input_float("Article Factor Cost: ", False), 2) base_cost = input_int("Article base cost: ", False, min_val=1, default=1) article = Article(desc, amount, ex_factor, base_cost) r.add_article(article)
def menu(): EXIT_VAL = 4 alumnos_del_profe_valdo = [] opc = 0 while opc != EXIT_VAL: print("MENU") print("1. Altas Alumnos") print("2. Reporte de Alumnos") print("3. Random Matrix List") print("4. Salir") opc = int(input_int("_")) if opc == 1: new_student = input("Name of the new student:\n") alumnos_del_profe_valdo.append(new_student) clean_screen() elif opc == 2: print("Alumnos:") for alum in alumnos_del_profe_valdo: print(alum) input("Enter to continue") clean_screen() elif opc == 3: random_matrix_list() input("Enter to continue") clean_screen() elif opc == EXIT_VAL: print("byeee.......") clean_screen() else: print("opc invalid") input("Enter to continue") clean_screen()
def handle_add_ticket(): """ Function that handles to add a ticket. """ if len(clients) == 0: print("No clients register for the moment, Cant do transactions.") print("Please, Add a client") return 0 client = selection_client() t = Ticket(client.name) still = True while still: clean_screen() print(f"Client: {client.name}") print("Adding New Article") print("*" * 20) desc = input_str_non_empty("Description Article: ") amount = input_int("Amount: ", False, min_val=1, default=1) price = round( input_float("Price per product: ", False, min_val=1, default=1), 2) new_article = Article(desc, amount, price) t.add_article(new_article) still = still_bool("More Products? [y/n]: ") t.show_report()
def main(): print("CYCLODE FUNCTION - OPTION 7") print("*" * 20) print("Advice: Not allowing negative numbers") r = input_int("Circle Radius:\n", allow_negative=False) n_p = input_int("Until which PI value you wanna graph:\n", allow_negative=False) n_t = input_int("How many PI values for generating teta angles:\n", allow_negative=False) val = 0 teta_angle = [] for n in range(n_t): while val < n_p * math.pi: val += 1 / n_t * math.pi teta_angle.append(val) cycloid_function(r, teta_angle=teta_angle)
def main(): """ Main function that handles the excersice 4. """ client_name = input("Client Name: ") t = Ticket(client_name) still = True while still: clean_screen() print(f""" Client: {client_name} """) print("Adding New Article") print("*" * 20) desc = input_str_non_empty("Description Article: ") amount = input_int("Amount: ", False, min_val=1, default=1) price = round(input_float("Price per product: ", False, min_val=1, default=1), 2) new_article = Article(desc, amount, price) t.add_article(new_article) still = still_bool("More Products? [y/n]: ") t.show_report()
def main(): """ Main Handler function """ clean_screen() num = input_int("Give me a Integer number to sum digits: ", allow_negative=False) print(f"Num: {num}\n Sum Digits: {sum_digits(num)}")
def cuadratic_ecuations(): """ Calculates x1, x2 in a cuadratic equation""" print_title("OPTION 2-CUADRATIC SOLUTIONS") a = input_int("Insert a number A in ecuation: ") b = input_int("Insert a number B in ecuation: ") c = input_int("Insert a number C in ecuation: ") try: x1 = (-b + sqrt(b**2 - 4 * a * c)) / (2 * a) x2 = (-b - sqrt(b**2 - 4 * a * c)) / (2 * a) except ValueError: x1 = (-b + sqrt(abs(b**2 - 4 * a * c))) / (2 * a) x2 = (-b - sqrt(abs(b**2 - 4 * a * c))) / (2 * a) return print(f"x1: {x1}i\nx2:{x2}i") except ZeroDivisionError: return print("We cant dive into 0.") print(f"x1: {x1}\nx2:{x2}")
def add_trip(self): print(f"Elevator Trip {len(self.trip_amount_persons) + 1}") amount = input_int("Amount of people in the elevator trip: ", allow_negative=False) weight = round( input_float("Weight in the elevator trip: ", allow_negative=False), 2) self.trip_amount_persons.append(amount) self.trip_weight.append(weight) print("Elevator Trip registered")
def create_matrix(size): """ Input for creating a matrix """ m = [] for i in range(size): m.append([]) for j in range(size): n = input_int(f"Value row {i + 1} column {j + 1}: ", min_val=-99, max_val=99, default=0) m[i].append(n) return m
def print_opc(self): """ This function prints all the posible options in the menu plus the exit val. """ clean_screen() print("OPTIONS| PLEASE SELECT ONE") for item in self.__posible_options: print_format_item(item[0], item[1]) print_format_item(self.__exit_val, f"{ 'Exit' if self.__welcome else 'Back' }") print("=" * 40) return input_int("_")
def student_form(self): name = input_str_non_empty("Student Name: ") age = input_int("Student age: ", allow_negative=False, min_val=3, default=3) sex = selection_opt(OPTION_SEX, "Student gender: ") height = input_float("Student Height: ", allow_negative=False, min_val=1, default=1) weight = input_float("Student Weight: ", allow_negative=False, min_val=1, default=1) eye_color = selection_opt(OPTION_EYE_COLOR, "Student Eye color: ") hair_color = selection_opt(OPTION_HAIR_COLOR, "Student hair color: ") newStudent = Student(name, sex, age, height, weight, eye_color, hair_color) return newStudent
def main(): clean_screen() n = input_int("Give me a num: ") r_iterative = iterative_sum(n) r_recursion = recursive_sum(n) @cronometer def conatiner_fibo(n): print(f"Fibo with memo: {fibonacci(n)}") @cronometer def container_fibo_slow(n): print(f"Fibo SLOOOOW: {fibonacci_slow(n)}") conatiner_fibo(n) container_fibo_slow(n) print(f"factorial: {factorial(n)}") print(f"recursion: {r_recursion}") print(f"iterative: {r_iterative}")
def main_menu(): """ Main menu function program""" clean_screen() opc = 0 while opc != EXIT_VALUE: print(""" MAIN MENU *************************************** 1. Triangle Area 2. Solution Cuadratic Equations 3. Average of n Grades 4. Higher value of n Numbers 5. Higher value of random Numbers 6. Parametric Functions - Vector Calculation 7. Cycloid Funcitions - Vector Calculation 8. Custom Error - Warning crash the program 9. Custom Error managed - Exception catched 10. Determinat Matrix 11. Random Higher Numbers 12. Sesion 4 Clase 13. Pascal Algorithm 14. Cronometer test 15. Fibonacci Recursion and Factorial Recursion 16. Sum the digits of a string 17. EXIT """) # Input opc = input_int("_") # Main Options if opc == 1: triangle_area() opc = still() elif opc == 2: cuadratic_ecuations() opc = still() elif opc == 3: average_grades() opc = still() elif opc == 4: max_number() opc = still() elif opc == 5: print_title("OPTION 5 - Higher num of random numbers") size = input_int("Tamano de la lista: ") max_random_num(size) opc = still() elif opc == 6: parametric_fun() opc = still() elif opc == 7: cyclode_function() opc = still() elif opc == 8: run_custom_exception() # this exeception ends program elif opc == 9: run_manage_custom_exception() opc = still() elif opc == 10: determinat_menu() opc = still() elif opc == 11: s = input_int("Size of the random list: ", allow_negative=False, min_val=3, default=2) random_higher_num(s) opc = still() elif opc == 12: sesion4() opc = still() elif opc == 13: pascal() opc = still() elif opc == 14: cronometer_test() opc = still() elif opc == 15: recursion() opc = still() elif opc == 16: sum_digits() opc = still() elif opc == EXIT_VALUE: exit() else: print("Option No valid Check de menu")