Exemplo n.º 1
0
def spawn_particles(destination_list,
                    count,
                    location,
                    color=default_color,
                    velocity=(0, 0),
                    lifespan=default_lifespan,
                    variation_velocity=default_variation_speed,
                    variation_location=default_variation_location,
                    variation_color=default_variation_color,
                    fade_to_color=None,
                    mass=default_mass,
                    sway=default_sway,
                    diameter=default_diameter,
                    drag=default_drag,
                    ):
    for x in range(count):
        particle_color = vary_color(color, variation_color)
        particle_velocity = util.gauss_vector(velocity, variation_velocity)
        particle_location = util.gauss_vector(location, variation_location)
        if fade_to_color is not None:
            fade_to_color = vary_color(fade_to_color, variation_color)
        particle = Particle(particle_location, particle_velocity,
                            particle_color, diameter, drag, mass,
                            sway, lifespan, fade_to_color=fade_to_color)
        destination_list.append(particle)
Exemplo n.º 2
0
 def update(self, actor_dict, screen, delta_time):
     velocity_change = util.gauss_vector((0, 0), self.sway)
     self.lifespan -= delta_time
     if self.lifespan <= 0:
         actor_dict.get(Particle).remove(self)
     super().increase_velocity(velocity_change)
     super().update(actor_dict, screen, delta_time)
import numpy as np
import matplotlib.pyplot as plt
import util
import plotting_utls as pltuls

T = 20
D = 5
N = 1

#Make a W
variances = np.random.uniform(0.5*T/20,T/20,(N,D))
means = np.random.uniform(1,T,(N,D))
W = util.gauss_vector(T,means,variances)

amp_max = 1
amplitudes = np.random.uniform(0,amp_max,(1,N,D))
c_min = 0
c_max = 1

W = amplitudes*W
W = np.squeeze(np.moveaxis(W,0,2))

shifts = np.array([-1,2,4])
shift_indices = shifts + (T-1)

plt.subplot2grid((len(shifts)+1,2),(0,1))
plt.imshow(W,interpolation='none')

# padded_W = np.concatenate([np.zeros((D,T-1)),W,np.zeros((D,T))],axis=1)

counter = 0
Exemplo n.º 4
0
def vary_color(color, variation):
    color = util.gauss_vector(color, variation)
    color = [min(255, max(0, int(x))) for x in color]
    return color