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GeometryCalc.py
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GeometryCalc.py
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import math
from colorama import init
from colorama import Fore, Back, Style
init()
words = []
en = ["GeometryCalc with formulas", "Made by Rene Ehlers", "Sidelength (no unit): ", "Sidelength", " Squareunits", "Squareroot(2) =", " Lengthunits", "First sidelength (a): ", "Second sidelength (b): ", "SU", "a ", "b ", "Long Side: ", "Short Side: ", "LU", "Main Menu", 16, "Square", "Rectangle", "Circle", "Triangle", "Exit", "Other", "Program selection: ", "Squareroot", "Radius: ", "radius", "Side (a): ", "Height (a): ", "Side (a)", "Height (a)", 31, "Menu for square calculations", "Square Area:", "Square diagonal length", "Menu for rectangle calculations", "Rectangle Area:", "Rectangle Circumference:", "Rectangle Diagonal:", "Menu for circle calculations", "Circle Area:", "Circle Circumference", "Menu for trangle calculations", "Triangle Area:"]
de = ["GeometryCalc mit Formelanzeige", "von Rene Ehlers", "Seitenlänge (ohne Einheit): ", "Seitenlänge", " Flächeneinheiten", "Wurzel (2) =", " Längeneinheiten", "Erste Seitenlänge (a): ", "Zweite Seitenlänge (b): ", "FE", "a ", "b ", "Lange Seite: ", "Kurze Seite: ", "LE", "Hauptmenü", 16, "Quadrat", "Rechteck", "Kreis", "Dreieck", "Beenden", "Sonstiges", "Programmauswahl: ", "Wurzel", "Radius: ", "Radius", "Seite (a): ", "Höhe (a): ", "Seite (a)", "Höhe (a)", 31, "Menü zur Quadratberechnung", "Quadrat Fläche:", "Quadrat Diagonale:", "Menü zur Rechtecksberechnung", "Rechteck Fläche:", "Rechteck Umfang:", "Rechteck Diagonale:", "Menü zur Kreisberechnung", "Kreis Fläche:", "Kreis Umfang:", "Menü zur Dreiecksberechnung", "Dreieck Fläche:"]
def info():
print(Fore.GREEN + words[0])
print(Fore.GREEN + words[1])
print(Fore.GREEN + "Published under: GNU GPLv3")
print(Style.RESET_ALL)
def quadrat_fläche():
quadrat_seitenlänge = input(words[2])
quadrat_fläche_calc = float(quadrat_seitenlänge) * float(quadrat_seitenlänge)
print(words[3], "x", words[3], " = ")
print(Fore.GREEN + str(quadrat_fläche_calc), words[4])
print(Style.RESET_ALL)
def quadrat_diagonale():
quadrat_seitenlänge = input(words[2])
quadrat_diagonale_calc = float(quadrat_seitenlänge) * math.sqrt(2)
print(words[3], "x", words[5])
print(Fore.GREEN + str(quadrat_diagonale_calc), words[6])
print(Style.RESET_ALL)
def rechteck_fläche():
seite1 = input(words[7])
seite2 = input(words[8])
fläche_rechteck_gesamt = float(seite1) * float(seite2)
print(words[7], "x", words[8], " = ")
print(" ____________")
print(" |", round(float(fläche_rechteck_gesamt)), words[9], " |")
print(" ------------ ")
print(Fore.GREEN + str(fläche_rechteck_gesamt), words[5])
print(Style.RESET_ALL)
def rechteck_umfang():
seite1 = input(words[7])
seite2 = input(words[8])
umfang_rechteck_gesamt = float(seite1) * 2 + float(seite2) * 2
print("(",words[10], "x 2) + (", words[11], "x 2) =")
print(words[12])
print("______" , max(float(seite1), float(seite2)), " x 2 = ", max(float(seite1), float(seite2)) * 2, words[14])
print(words[13])
print("| ")
print("| " , min(float(seite1), float(seite2)), " x 2 = ", min(float(seite1), float(seite2)) * 2, words[14])
print(Fore.GREEN + str(umfang_rechteck_gesamt), words[6])
print(Style.RESET_ALL)
def rechteck_diagonale():
seite1 = input(words[7])
seite2 = input(words[8])
diagonale_rechteck_gesamt = math.sqrt(float(seite1) ** 2 + float(seite2) ** 2)
print(words[24]," -- > (",words[7]," ^ 2) + (",words[8]," ^ 2) =")
print(Fore.GREEN + str(diagonale_rechteck_gesamt), words[6])
print(Style.RESET_ALL)
def kreis_fläche():
radius = input(words[25])
kreis_fläche_gesamt = math.pi * float(radius) ** 2
print("Pi x ",words[26]," ^ 2 =")
print(Fore.GREEN + str(kreis_fläche_gesamt), words[4])
print(Style.RESET_ALL)
def kreis_umfang():
radius = input(words[25])
kreis_umfang_gesamt = 2 * math.pi * float(radius)
print("2 x Pi x ",words[26]," =")
print(Fore.GREEN + str(kreis_umfang_gesamt), words[6])
print(Style.RESET_ALL)
def dreieck_fläche():
print(" /|\ ")
print(" / | \ ")
print(" / |h \ ")
print(" / | \ ")
print("/____|____\ ")
print(" a ")
seite = input(words[27])
höhe = input(words[28])
dreieck_fläche_ges = float(seite) * float(höhe) / 2
print(words[29], "x", words[30])
print(Fore.GREEN + str(dreieck_fläche_ges), words[4])
print(Style.RESET_ALL)
def sub_menu_quadrat():
print("\n")
print(words[32])
print("1.", words[33])
print("2.", words[34])
print("m.", words[15])
print("e.", words[21])
userselection = input(words[23])
if userselection == "1":
quadrat_fläche()
sub_menu_quadrat()
if userselection == "2":
quadrat_diagonale()
sub_menu_quadrat()
if userselection == "m":
menu()
if userselection == "e":
exit()
def sub_menu_rechteck():
print("\n")
print(words[35])
print("1.", words[36])
print("2.", words[37])
print("3.", words[38])
print("m.", words[15])
print("e.", words[21])
userselection = input(words[23])
if userselection == "1":
rechteck_fläche()
sub_menu_rechteck()
if userselection == "2":
rechteck_umfang()
sub_menu_rechteck()
if userselection == "3":
rechteck_diagonale()
sub_menu_rechteck()
if userselection == "m":
menu()
if userselection == "e":
exit()
def sub_menu_kreis():
print("\n")
print(words[39])
print("1.", words[40])
print("2.", words[41])
print("m.", words[15])
print("e.", words[21])
userselection = input(words[23])
if userselection == "1":
kreis_fläche()
sub_menu_kreis()
if userselection == "2":
kreis_umfang()
sub_menu_kreis()
if userselection == "m":
menu()
if userselection == "e":
exit()
def sub_menu_dreieck():
print("\n")
print(words[42])
print("1.", words[43])
print("m.", words[15])
print("e.", words[21])
userselection = input(words[23])
if userselection == "1":
dreieck_fläche()
sub_menu_dreieck()
if userselection == "m":
menu()
if userselection == "e":
exit()
def settings():
print("\n")
print(Fore.CYAN + words[22])
lang()
print(Style.RESET_ALL)
def menu_sel():
userselection = input(words[23])
if userselection == "1":
sub_menu_quadrat()
elif userselection == "2":
sub_menu_rechteck()
elif userselection == "3":
sub_menu_kreis()
elif userselection == "4":
sub_menu_dreieck()
elif userselection == "o":
settings()
elif userselection == "e":
exit()
else:
print(Fore.LIGHTRED_EX +"Invalid!")
print(Style.RESET_ALL)
menu_sel()
def menu():
print("\n")
print(Fore.CYAN + words[15])
print("1. ",words[17])
print("2. ",words[18])
print("3. ",words[19])
print("4. ",words[20])
print("o. ",words[22])
print("e. ",words[21])
print(Style.RESET_ALL)
menu_sel()
def lang():
print("Choose a language from below options")
print("1. English")
print("2. German")
lan = input("Enter a number: ")
if lan == "1":
words.extend(en)
info()
menu()
if lan == "2":
words.extend(de)
info()
menu()
if lan != "1" and lan != "2":
print("\n")
print(Fore.RED + "Invalid Language!")
print(Style.RESET_ALL)
print("Choose a valid Language by using the numbers (eg: 1) and press enter!")
lang()
lang()