def initialize_particles(**kwargs):
"""
Initialize N particles in a circular distribution around a center
point, where N=number. Keyword arguments include a radius from the
center, an identifier pattern and other keyword arguments that would
instantiate a particle.
"""
# Initialize variables needed to do initialization
klass = kwargs.get('type', Particle)
number = kwargs.get('number', world_parameters.get('team_size'))
center = kwargs.get('center', (750,750))
radius = kwargs.get('radius', 100)
team = kwargs.get('team', 'ally')
maxvel = kwargs.get('maximum_velocity', world_parameters.get('maximum_velocity'))
home = kwargs.get('home', None)
params = kwargs.get('params', world_parameters)
# Generate coordinates and particles
coords = zip(*circular_distribute(num=number, center=center, r=radius))
for idx, coord in enumerate(coords):
position = Vector.arrp(*coord)
velocity = Vector.rand(maxvel) if maxvel > 0 else Vector.zero()
name = team + "%02i" % (idx+1)
yield klass(position, velocity, name, team=team, home=home, params=params)
def create_ally_home():
"""
Constructs the ALLY_HOME on a per-simulation basis.
"""
return ResourceParticle(Vector.arrp(750, 750),
identifier="ally_home",
stash_size=0)
def initialize_particles(**kwargs):
"""
Initialize N particles in a circular distribution around a center
point, where N=number. Keyword arguments include a radius from the
center, an identifier pattern and other keyword arguments that would
instantiate a particle.
"""
# Initialize variables needed to do initialization
klass = kwargs.get('type', Particle)
number = kwargs.get('number', world_parameters.get('team_size'))
center = kwargs.get('center', (750, 750))
radius = kwargs.get('radius', 100)
team = kwargs.get('team', 'ally')
maxvel = kwargs.get('maximum_velocity',
world_parameters.get('maximum_velocity'))
home = kwargs.get('home', None)
params = kwargs.get('params', world_parameters)
# Generate coordinates and particles
coords = zip(*circular_distribute(num=number, center=center, r=radius))
for idx, coord in enumerate(coords):
position = Vector.arrp(*coord)
velocity = Vector.rand(maxvel) if maxvel > 0 else Vector.zero()
name = team + "%02i" % (idx + 1)
yield klass(position,
velocity,
name,
team=team,
home=home,
params=params)
def create_enemy_home():
"""
Constructs the ENEMY_HOME on a per-simulation basis.
"""
return ResourceParticle(Vector.arrp(2250, 2250),
identifier="enemy_home",
stash_size=0)
def initialize_resources(**kwargs):
"""
Initialize N particles in a linear distribution along a line with a
slope and an intercept. N=number. Keyword arguments include the slope,
the intercept, and the length of the line to distribute along.
"""
# Initialize variables needed to do initialization
klass = kwargs.get('type', ResourceParticle)
number = kwargs.get('number', world_parameters.get('deposits')) + 2 # Add two to skip corners
length = kwargs.get('length', 3000)
slope = kwargs.get('slope', -1)
yint = kwargs.get('yint', 3000)
coords = zip(*linear_distribute(number, length, slope, yint))
for idx, coord in enumerate(coords):
if coord[0] in (0.0, length): continue # Skip corners
yield klass(Vector.arrp(*coord), identifier="mineral%2i" % (idx+1))
def initialize_resources(**kwargs):
"""
Initialize N particles in a linear distribution along a line with a
slope and an intercept. N=number. Keyword arguments include the slope,
the intercept, and the length of the line to distribute along.
"""
# Initialize variables needed to do initialization
klass = kwargs.get('type', ResourceParticle)
number = kwargs.get(
'number',
world_parameters.get('deposits')) + 2 # Add two to skip corners
length = kwargs.get('length', 3000)
slope = kwargs.get('slope', -1)
yint = kwargs.get('yint', 3000)
coords = zip(*linear_distribute(number, length, slope, yint))
for idx, coord in enumerate(coords):
if coord[0] in (0.0, length): continue # Skip corners
yield klass(Vector.arrp(*coord), identifier="mineral%2i" % (idx + 1))
def create_enemy_home():
"""
Constructs the ENEMY_HOME on a per-simulation basis.
"""
return ResourceParticle(Vector.arrp(2250,2250), identifier="enemy_home", stash_size=0)
def create_ally_home():
"""
Constructs the ALLY_HOME on a per-simulation basis.
"""
return ResourceParticle(Vector.arrp(750,750), identifier="ally_home", stash_size=0)
