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flat_bodys_german.py
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203 lines (202 loc) · 9.23 KB
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import turtle
import math
print("\n\n****************************************************************************\n\n")
print("\n****************************************************************************\n")
print("\n\nWenn ein Mass unbekannt, dann bitte null schreiben!\n")
print("Es muessen zwei Masse bekannt sein, um die Berechnung durchzufuehren!\n\n")
print("\n****************************************************************************\n")
while 1:
t = str(input("Type des Vielecks r=Rechteck, p=Parallelogramm, dr=Dreieck, de=Deltoid, t=Trapez e=Exit : "))
if t in ['e']:
break
elif t in ['r']:
print("\n\n****************************************************************************\n\n")
ar = float(input("Laenge der Seite a [mm] : "))
br = float(input("Laenge der Seite b [mm] : "))
Ar = float(input("Flaeche [mm**2] : "))
#U = (a + b) * 2
print("\n\n****************************************************************************\n\n")
#print "Seite a = ", a, "[mm]"
#print "Seite b = ", b, "[mm]"
if Ar == 0:
Br = ar * br
print("Ergebnis: Flaeche des Rechtecks = %.1f" % Br, "[mm**2]")
print("\n\n****************************************************************************\n\n")
elif ar == 0:
cr = Ar / br
print("Ergebnis: Laenge der Seite a = %.5f" % cr, "[mm]")
print("\n\n****************************************************************************\n\n")
ar = cr
elif br == 0:
dr = Ar / ar
print("Ergebnis: Laenge der Seite b = %.5f" % dr, "[mm]")
print("\n\n****************************************************************************\n\n")
br = dr
else:
print(":-(")
print("\n\n****************************************************************************\n\n")
window = turtle.Screen()
turtle.hideturtle()
turtle.forward(ar)
turtle.left(90)
turtle.forward(br)
turtle.left(90)
turtle.forward(ar)
turtle.left(90)
turtle.forward(br)
turtle.left(90)
window.exitonclick()
elif t in ['p']:
print("\n\n****************************************************************************\n\n")
ap = float(input("Laenge der Seite a [mm] : "))
hap = float(input("Laenge der Hoehe ha [mm] : "))
Ap = float(input("Flaeche [mm**2] : "))
alp = float(input("Groese des Winkel Alpha [grad] : "))
#U = (a + b) * 2
print("\n\n****************************************************************************\n\n")
#print "Seite a = ", a, "[mm]"
#print "Seite b = ", b, "[mm]"
if Ap == 0:
Bp = ap * hap
print("Ergebnis: Flaeche des Parallelogramms = %.1f" % Bp, "[mm**2]")
print("\n\n****************************************************************************\n\n")
elif ap == 0:
cp = Ap / hap
print("Ergebnis: Laenge der Seite a = %.5f" % cp, "[mm]")
print("\n\n****************************************************************************\n\n")
ap = cp
elif hap == 0:
dp = Ap / ap
print("Ergebnis: Laenge der Hoehe ha = %.5f" % dp, "[mm]")
print("\n\n****************************************************************************\n\n")
hap = dp
else:
print(":-(")
print("\n\n****************************************************************************\n\n")
window = turtle.Screen()
turtle.hideturtle()
turtle.forward(ap)
turtle.left(180 - alp)
turtle.forward(hap / math.sin(alp))
turtle.left(alp)
turtle.forward(ap)
turtle.left(180 - alp)
turtle.forward(hap / math.sin(alp))
turtle.left(alp)
window.exitonclick()
elif t in ['dr']:
print("\n\n****************************************************************************\n\n")
cd = float(input("Laenge der Seite c [mm] : "))
hcd = float(input("Laenge der Hoehe hc [mm] : "))
Ad = float(input("Flaeche [mm**2] : "))
ald = float(input("Groese des Winkel Alpha [grad] : "))
#U = (a + b) * 2
print("\n\n****************************************************************************\n\n")
#print "Seite a = ", a, "[mm]"
#print "Seite b = ", b, "[mm]"
if Ad == 0:
Bd = cd * hcd / 2
print("Ergebnis: Flaeche des Dreiecks = %.1f" % Bd, "[mm**2]")
print("\n\n****************************************************************************\n\n")
elif cd == 0:
Cd = Ad / hcd * 2
print("Ergebnis: Laenge der Seite c = %.5f" % Cd, "[mm]")
print("\n\n****************************************************************************\n\n")
cd = Cd
elif hcd == 0:
dd = Ad / cd * 2
print("Ergebnis: Laenge der Hoehe hc = %.5f" % dd, "[mm]")
print("\n\n****************************************************************************\n\n")
hcd = dd
else:
print(":-(")
print("\n\n****************************************************************************\n\n")
aldx = math.radians(ald)
window = turtle.Screen()
turtle.radians()
turtle.ht()
turtle.pd()
turtle.goto(- cd / 2, 0)
turtle.left(aldx)
turtle.forward(hcd / math.sin(aldx))
turtle.goto(cd / 2, 0)
turtle.home()
elif t in ['de']:
print("\n\n****************************************************************************\n\n")
ede = float(input("Laenge der Diagonale e [mm] : "))
fde = float(input("Laenge der Diagonale f [mm] : "))
Ade = float(input("Flaeche [mm**2] : "))
alde = float(input("Groese des Winkel Alpha [grad] : "))
#U = (a + b) * 2
print("\n\n****************************************************************************\n\n")
#print "Seite a = ", a, "[mm]"
#print "Seite b = ", b, "[mm]"
if Ade == 0:
Bde = ede * fde / 2
print("Ergebnis: Flaeche des Deltoids = %.1f" % Bde, "[mm**2]")
print("\n\n****************************************************************************\n\n")
elif ede == 0:
Cde = Ade / fde * 2
print("Ergebnis: Laenge der Diagonale e = %.5f" % Cde, "[mm]")
print("\n\n****************************************************************************\n\n")
ede = Cde
elif fde == 0:
dde = Ade / ede * 2
print("Ergebnis: Laenge der Diagonale f = %.5f" % dde, "[mm]")
print("\n\n****************************************************************************\n\n")
fde = dde
else:
print(":-(")
print("\n\n****************************************************************************\n\n")
exde = fde / 2 / math.tan(alde / 2)
window = turtle.Screen()
turtle.ht()
turtle.pd()
turtle.goto(exde, -fde / 2)
turtle.goto(ede, 0)
turtle.goto(exde, fde / 2)
turtle.home()
window.exitonclick()
elif t in ['t']:
print("\n\n****************************************************************************\n\n")
at = float(input("Laenge der Seite a [mm] : "))
ct = float(input("Laenge der Seite c [mm] : "))
ht = float(input("Laenge der Hoehe h [mm] : "))
At = float(input("Flaeche [mm**2] : "))
#U = (a + b) * 2
print("\n\n****************************************************************************\n\n")
#print "Seite a = ", a, "[mm]"
#print "Seite b = ", b, "[mm]"
if At == 0:
Bt = (at + ct) * ht / 2
print("Ergebnis: Flaeche des Trapez = %.1f" % Bt, "[mm**2]")
print("\n\n****************************************************************************\n\n")
elif at == 0:
Ct = 2 * At / ht - ct
print("Ergebnis: Laenge der Seite a = %.5f" % Ct, "[mm]")
print("\n\n****************************************************************************\n\n")
at = Ct
elif ct == 0:
Dt = 2 * At / ht - at
print("Ergebnis: Laenge der Seite c = %.5f" % Dt, "[mm]")
print("\n\n****************************************************************************\n\n")
ct = Dt
elif ht == 0:
dt = At / (at + ct) * 2
print("Ergebnis: Laenge der Hoehe h = %.5f" % dt, "[mm]")
print("\n\n****************************************************************************\n\n")
ht = dt
else:
print(":-(")
print("\n\n****************************************************************************\n\n")
window = turtle.Screen()
turtle.ht()
turtle.pd()
turtle.goto(-at / 2, 0)
turtle.goto(-ct / 2, ht)
turtle.goto(ct / 2, ht)
turtle.goto(at / 2, 0)
turtle.home()
window.exitonclick()
else:
print("\n\n:-(\n\n")