def __init__(self, object_set):
print(object_set.num_blocks())
instance_name = 'hbw-num-blocks-%s-num-cyls-%s' % (
object_set.num_blocks(), object_set.num_cylinders())
Task.__init__(self, 'Hydraulic-BlocksWorld', instance_name)
self.objects = object_set
self.block_position_value_names = [
on_block(k) for k in xrange(0, self.objects.num_blocks())
]
self.block_position_value_names += [
'on_piston'
] #on_cylinder_piston(k) for k in xrange(0, self.objects.num_cylinders()) ]
self.block_position_value_names += ['hand']
self.block_position_values = {
name: k
for k, name in enumerate(self.block_position_value_names)
}
self.block_container_value_names = [
in_cylinder(k) for k in xrange(0, self.objects.num_cylinders())
] + ['none']
self.block_container_values = {
name: k
for k, name in enumerate(self.block_container_value_names)
}
self.create_vars(self.objects.num_blocks(),
self.objects.num_cylinders())
def __init__( self, counters, max_value ) :
Task.__init__( self, 'Counters', 'Num-Counters-{0}-Max-Value-{1}'.format( len(counters), max_value ) )
self.counters = counters
self.max_value = int(max_value)
self.counter_values = []
self.create_vars()
self.create_actions()
def __init__(self, object_set):
print(object_set.num_blocks())
instance_name = 'hbw-num-blocks-%s-num-cyls-%s' % (
object_set.num_blocks(), object_set.num_cylinders())
Task.__init__(self, 'Hydraulic-BlocksWorld', instance_name)
self.objects = object_set
self.create_vars(self.objects.num_blocks(),
self.objects.num_cylinders())
def __init__(self, counters, max_value):
Task.__init__(
self, 'Counters',
'Num-Counters-{0}-Max-Value-{1}'.format(len(counters), max_value))
self.counters = counters
self.max_value = int(max_value)
self.counter_values = {
c: {k: None
for k in xrange(0, self.max_value)}
for c in self.counters
}
self.create_vars()
self.create_actions()
def __init__(self, network, sdac=None):
Task.__init__(self, 'SGT_PSR_UG', 'SGT_PSR_UG_NETWORK')
self.network = network
self.network.find_total_load()
self.plan_end_var = None
self.create_vars()
self.conditional_costs = []
self.sdac_type = sdac
if sdac == "Valuation":
self.create_conditional_costs()
elif sdac == "Objective":
self.objective_function = "PSRObjective"
self.create_actions()
def __init__(self, network, sdac=None):
Task.__init__(self, 'SGT_PSR', 'SGT_PSR_NETWORK')
self.network = network
self.network.find_total_load()
print("Total load:", self.network.total_load)
self.create_vars()
self.objective_function = None
self.conditional_costs = []
if sdac == "Valuation":
self.create_conditional_costs()
elif sdac == "Objective":
self.objective_function = "PSRObjective"
self.create_actions()
def __init__(self, name, dm, locations, demand, vehicles):
instance_name = name
Task.__init__(self, 'Linehaul', instance_name)
# list of location names, depot is locations[0]:
self.locations = locations
self.distance_matrix = dm
# demand[l] = (qc, qa) means the total demand for
# chilled (ambient) goods at location l is qc (qa).
self.demand = demand
# vehicles: list of tuples (type, pkc, cap, chilled),
# where: pkc = per-kilometer cost, cap = capactiy,
# chilled = True/False
self.vehicles = []
self.vehicle_type = dict()
for (vtype, count, pkc, cap, chilled) in vehicles:
for i in range(count):
vname = "{0}{1}".format(vtype, i)
self.vehicles.append((vname, pkc, cap, chilled))
self.vehicle_type[vname] = vtype
self.create_vars()
self.create_actions()
def __init__(self, power_network):
Task.__init__(self, 'Two-End Line PSR', power_network.name)
self.network = power_network
self.create_vars()
self.create_actions()
def __init__(self, network):
Task.__init__(self, 'SGT_PSR', 'SGT_PSR_NETWORK')
self.network = network
self.create_vars()
self.create_actions()