先坤
add greedrl
db26c81
from greedrl.feature import *
from greedrl.variable import *
from greedrl import Problem
features = [continuous_feature('task_demand'),
continuous_feature('worker_weight_limit'),
continuous_feature('distance_matrix'),
variable_feature('distance_this_to_task'),
variable_feature('distance_task_to_end')]
variables = [task_demand_now('task_demand_now', feature='task_demand'),
task_demand_now('task_demand_this', feature='task_demand', only_this=True),
feature_variable('task_weight'),
worker_variable('worker_weight_limit'),
worker_used_resource('worker_used_weight', task_require='task_weight'),
edge_variable('distance_last_to_this', feature='distance_matrix', last_to_this=True),
edge_variable('distance_this_to_task', feature='distance_matrix', this_to_task=True),
edge_variable('distance_task_to_end', feature='distance_matrix', task_to_end=True)]
class Constraint:
def do_task(self):
return self.task_demand_this
def mask_task(self):
# 已经完成的任务
mask = self.task_demand_now <= 0
# 车辆容量限制
worker_weight_limit = self.worker_weight_limit - self.worker_used_weight
mask |= self.task_demand_now * self.task_weight > worker_weight_limit[:, None]
return mask
def finished(self):
return torch.all(self.task_demand_now <= 0, 1)
class Objective:
def step_worker_end(self):
return self.distance_last_to_this
def step_task(self):
return self.distance_last_to_this
def make_problem(batch_count, batch_size=1, task_count=100):
assert task_count in (100, 1000, 2000, 5000)
weight_limit = 50
problem_list = []
for i in range(batch_count):
problem = Problem(True)
problem.id = torch.arange(batch_size) + i * batch_size;
problem.worker_weight_limit = torch.full((batch_size, 1), weight_limit, dtype=torch.int32)
N = task_count
problem.task_demand = torch.randint(1, 10, (batch_size, N), dtype=torch.int32)
problem.task_demand_x = problem.task_demand.float() / weight_limit
# 一个单位的task_demand的重量
problem.task_weight = torch.ones(batch_size, N, dtype=torch.int32)
loc = torch.rand(batch_size, N + 1, 2, dtype=torch.float32)
problem.task_location = loc[:, 1:, :]
problem.worker_location = loc[:, 0:1, :]
distance_matrix = torch.norm(loc[:, :, None, :] - loc[:, None, :, :], dim=3)
problem.distance_matrix = distance_matrix
problem.features = features
problem.variables = variables
problem.constraint = Constraint
problem.objective = Objective
problem_list.append(problem)
return problem_list
if __name__ == '__main__':
import sys
import os.path as osp
sys.path.append(osp.join(osp.dirname(__file__), '../'))
import runner
runner.run(make_problem)