class EARTH:
RADIUS = n_float(6378.1) * n_exp(3.)
"""Equatorial radius, m."""
MASS = n_float(5.97237) * n_exp(24.)
"""Mass, kg."""
ORBIT_RADIUS = n_float(149.6) * n_exp(9.)
"""Orbit radius, m."""
ORBITAL_VELOCITY = n_float(29.8) * n_exp(3.)
"""Orbital velocity, m/s."""
ROTATION_PERIOD = n_float(365.2) * 24. * 60. * 60.
"""Sidereal rotation period, s."""
class Space:
"""3D space with array of dots and gravitation logic."""
dots: List[dot.Dot] = dataclasses.field(default_factory=list)
_gravitation_const: n_float = constants.GRAVITATIONAL_CONST
_default_step: n_float = n_float(1)
def step_newton(self):
"""Update dots acceleration by `Newton's law of universal gravitation`."""
G = self.gravitation_const
for dot_1_index, dot_1 in enumerate(self.dots):
for dot_2_index, dot_2 in enumerate(self.dots[dot_1_index + 1:],
start=dot_1_index + 1):
x_1 = dot_1.pos
m_1 = dot_1.mass
x_2 = dot_2.pos
m_2 = dot_2.mass
dx = x_2 - x_1
distance = numpy.linalg.norm(dx)
a = G / numpy.power(distance, 3) * dx
print(f"Acc {dot_1_index} {dot_2_index} {a}")
a_1 = a * m_2
a_2 = -a * m_1
dot_1.acc = a_1
dot_2.acc = a_2
step_acceleration = step_newton
def step_velocity_and_position(self, time=_default_step):
"""Update dots velotity and position."""
for dot in self.dots:
dot.step(time=time)
def step(self, time=_default_step):
"""Do all steps."""
self.step_acceleration()
self.step_velocity_and_position(time=time)
@staticmethod
def distance(vec_a, vec_b):
return numpy.linalg.norm(vec_a - vec_b)
def __str__(self):
return "\n".join(
[f"{number} {dot}" for number, dot in enumerate(self.dots)])
@property
def gravitation_const(self):
return self._gravitation_const
@gravitation_const.setter
def gravitation_const(self, value):
self._gravitation_const = n_float(value)
@property
def default_step(self):
return self._default_step
@default_step.setter
def default_step(self, value):
self._default_step = n_float(value)
class SUN:
RADIUS = n_float(695_510) * n_exp(3.)
"""Equatorial radius, m."""
MASS = n_float(1.989) * n_exp(30.)
"""Mass, kg."""
class MOON:
"""Source: `https://nssdc.gsfc.nasa.gov/planetary/factsheet/moonfact.html`."""
RADIUS = n_float(1738.1) * n_exp(3.)
"""Equatorial radius, m."""
MASS = n_float(0.07346) * n_exp(24.)
"""Mass, kg."""
PERIGEE_ORBIT_RADIUS = n_float(0.3633) * n_exp(9.)
"""Perigee orbit radius, m."""
MAX_ORBITAL_VELOCITY = n_float(1.082) * n_exp(3.)
"""Max. orbital velocity, m/s."""
SYNODIC_PERIOD = n_float(29.53) * 24. * 60. * 60.
"""Synodic period, s."""
SIDEREAL_ROTATION_PERIOD = n_float(655.728) * 60. * 60.
"""Sidereal rotation period, s.
import functools
import numpy
from config import n_float
n_exp = functools.partial(numpy.power, n_float(10.))
GRAVITATIONAL_CONST = n_float(6.67430) * n_exp(-11.)
"""Gravitational constant, m^3 * kg^-1 * s^-2."""
class SUN:
RADIUS = n_float(695_510) * n_exp(3.)
"""Equatorial radius, m."""
MASS = n_float(1.989) * n_exp(30.)
"""Mass, kg."""
class EARTH:
RADIUS = n_float(6378.1) * n_exp(3.)
"""Equatorial radius, m."""
MASS = n_float(5.97237) * n_exp(24.)
"""Mass, kg."""
ORBIT_RADIUS = n_float(149.6) * n_exp(9.)
"""Orbit radius, m."""
def default_step(self, value):
self._default_step = n_float(value)
def gravitation_const(self, value):
self._gravitation_const = n_float(value)
class Dot:
"""3D dot with position, velocity and acceleration."""
data: numpy.array = dataclasses.field(default_factory=n_data)
_mass: n_float = n_float(1)
_default_step: n_float = n_float(1)
def step(self, time=_default_step):
"""Update velocity and position by acceleration and time."""
self.vel += self.acc * time
self.pos += self.vel * time
# self.data[2] = numpy.zeros(shape=(3,)) # ?
def __str__(self):
header = f"{self.__class__.__name__} m={self.mass}"
data = "\n".join([
"{key}: {value}".format(key=key,
value=", ".join(
[f"{number:.2f}" for number in value]))
for key, value in zip("xva", self.data)
])
return "\n".join([header, data])
@property
def pos(self):
return self.data[0]
@pos.setter
def pos(self, value):
self.data[0] = value
@property
def vel(self):
return self.data[1]
@vel.setter
def vel(self, value):
self.data[1] = value
@property
def acc(self):
return self.data[2]
@acc.setter
def acc(self, value):
self.data[2] = value
@property
def mass(self):
return self._mass
@mass.setter
def mass(self, value):
self._mass = n_float(value)
@property
def default_step(self):
return self._default_step
@default_step.setter
def default_step(self, value):
self._default_step = n_float(value)
def mass(self, value):
self._mass = n_float(value)
