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engine.py
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engine.py
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from math import floor
from utils import linspace
class Engine():
def __init__(self) -> None:
self.power = 0
self.shipPosition = 0
self.f1Curve = [0, 0, 0, 0, 0]
self.f2Curve = [0, 0, 0, 0, 0]
self.f3Curve = [0, 0, 0, 0, 0]
self.f1Stock = 100
self.f2Stock = 100
self.f3Stock = 100
self.status = 'Shut off'
self.running = False
self.temperature = 0
self.aX = 0
self.aY = 0
self.speed = 0
self.remainingByProduct = 0
self.oxygen = 100
self.last_power = 0
self.last_f1 = 0
self.last_f2 = 0
self.last_f3 = 0
self.last_f4 = 0
# constants
self.speedDecay = 0.95
self.f1f2Temperaturef4 = [0, 2, 5, 7, 8]
self.f1f2TemperaturePower = [8, 5, 3, 2, 1]
self.f3f4TemperaturePower = [2, 3, 5, 7, 8]
self.f3f4TemperatureByproduct = [8, 7, 5, 3, 1]
def update(self, dt) -> int:
f1c = []
f2c = []
f3c = []
f1f2cf4 = []
f1f2cPower = []
f3f4cPower = []
f3f4cBp = []
for out, inc in zip((f1c, f2c, f3c, f1f2cf4, f1f2cPower, f3f4cPower, f3f4cBp),
(self.f1Curve, self.f2Curve, self.f3Curve, self.f1f2Temperaturef4, self.f1f2TemperaturePower,
self.f3f4TemperaturePower, self.f3f4TemperatureByproduct)):
for i in range(4):
out += list(linspace(inc[i], inc[i + 1], 15))
out += [inc[-1]]
power = 0
calcPower = self.power
byproducts = 0
if not self.running:
self.temperature *= 0.9
else:
# with open('log.txt', 'a') as file:
# file.write(str(f1c) + '\n')
f1 = f1c[int(calcPower * 4.3 * 65 // 100)] * dt
f2 = f2c[int(calcPower * 4.3 * 65 // 100)] * dt
f3 = f3c[int(calcPower * 4.3 * 65 // 100)] * dt
self.f1Stock -= f1 * 0.15
self.f2Stock -= f2 * 0.15
self.f3Stock -= f3 * 0.15
# reaction 1
mini = min((f1, f2))
f4 = mini * (f1f2cf4[int(calcPower * 4.3 * 65 // 100)])
power += mini * (f1f2cPower[int(calcPower * 4.3 * 65 // 100)] + 1)
f1 -= mini
f2 -= mini
# reaction 2
mini = min((f3, f4))
power += mini * (f3f4cPower[int(calcPower * 4.3 * 65 // 100)]) * 3
byproducts += mini * (f3f4cBp[int(calcPower * 4.3 * 65 // 100)]) // 2
f3 -= mini
f4 -= mini
# remaining reagents
self.oxygen -= f4
byproducts += f1
byproducts += f2 * 0.5
byproducts += f3 * 1.5
self.last_f1 = f1 * 10
self.last_f2 = f2 * 10
self.last_f3 = f3 * 10
self.last_f4 = f4 * 10
self.temperature -= f2 * 2.5
self.temperature += f3
self.speed -= f3
self.last_power = self.power
self.power = power
self.aX = self.power * 45
self.aY = self.aX
self.speed += self.power
self.speed *= self.speedDecay
self.shipPosition += self.speed * 0.002
self.temperature += self.power * 0.2
byproducts += self.remainingByProduct
self.remainingByProduct = byproducts - floor(byproducts)
# securities
if self.power > 15:
self.power = 15
if self.power < 0:
self.power = 0
if self.temperature > 200:
self.stop('args')
self.status = 'Staled'
return int(byproducts // 2)
def linspace(self, start, stop, count):
step = (stop - start) / float(count)
return [start + i * step for i in range(count)]
def start(self, args):
self.status = 'Running'
self.running = True
def stop(self, args):
self.status = 'Idle'
self.running = False
def set_curve(self, args):
if args[1] == 'full' or args[1] == 'f':
if len(args) != 7:
return
if [x in '012345678' for x in args[2:]] != [True for x in range(len(args[2:]))]:
return
newCurve = [int(x) for x in args[2:]]
if [0 <= x <= 8 for x in newCurve] != [True for x in range(len(self.f1Curve))]:
return
if args[0] == 'f1':
self.f1Curve = newCurve
if args[0] == 'f2':
self.f2Curve = newCurve
if args[0] == 'f3':
self.f3Curve = newCurve
if not args[1] in ('0', '25', '50', '75', '100'):
return args[1] + ' should be either 0, 25, 50, 75 or 100'
if not args[2] in ('0', '1', '2', '3', '4', '5', '6', '7', '8'):
return args[2] + ' should be an integer between 0 and 8'
if args[0] == 'f1':
self.f1Curve[('0', '25', '50', '75', '100').index(args[1])] = int(args[2])
if args[0] == 'f2':
self.f2Curve[('0', '25', '50', '75', '100').index(args[1])] = int(args[2])
if args[0] == 'f3':
self.f3Curve[('0', '25', '50', '75', '100').index(args[1])] = int(args[2])