update
This commit is contained in:
JohnJim0816
@@ -5,7 +5,7 @@
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@Email: johnjim0816@gmail.com
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@Date: 2020-06-12 00:50:49
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@LastEditor: John
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LastEditTime: 2021-03-28 11:07:35
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LastEditTime: 2021-05-04 15:04:45
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@Discription:
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@Environment: python 3.7.7
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'''
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@@ -42,15 +42,8 @@ class DoubleDQN:
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self.optimizer = optim.Adam(self.policy_net.parameters(), lr=cfg.lr)
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self.loss = 0
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self.memory = ReplayBuffer(cfg.memory_capacity)
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def choose_action(self, state):
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'''选择动作
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'''
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self.epsilon = self.epsilon_end + (self.epsilon_start - self.epsilon_end) * \
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math.exp(-1. * self.actions_count / self.epsilon_decay)
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self.actions_count += 1
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if random.random() > self.epsilon:
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with torch.no_grad():
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def predict(self,state):
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with torch.no_grad():
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# 先转为张量便于丢给神经网络,state元素数据原本为float64
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# 注意state=torch.tensor(state).unsqueeze(0)跟state=torch.tensor([state])等价
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state = torch.tensor(
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@@ -61,6 +54,15 @@ class DoubleDQN:
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# 如torch.return_types.max(values=tensor([10.3587]),indices=tensor([0]))
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# 所以tensor.max(1)[1]返回最大值对应的下标,即action
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action = q_value.max(1)[1].item()
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return action
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def choose_action(self, state):
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'''选择动作
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'''
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self.epsilon = self.epsilon_end + (self.epsilon_start - self.epsilon_end) * \
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math.exp(-1. * self.actions_count / self.epsilon_decay)
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self.actions_count += 1
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if random.random() > self.epsilon:
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action = self.predict(state)
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else:
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action = random.randrange(self.action_dim)
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return action
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@@ -113,7 +115,9 @@ class DoubleDQN:
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self.optimizer.step() # 更新模型
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def save(self,path):
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torch.save(self.target_net.state_dict(), path+'DoubleDQN_checkpoint.pth')
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torch.save(self.target_net.state_dict(), path+'checkpoint.pth')
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def load(self,path):
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self.target_net.load_state_dict(torch.load(path+'DoubleDQN_checkpoint.pth'))
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self.target_net.load_state_dict(torch.load(path+'checkpoint.pth'))
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for target_param, param in zip(self.target_net.parameters(), self.policy_net.parameters()):
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param.data.copy_(target_param.data)
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@@ -1,93 +0,0 @@
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#!/usr/bin/env python
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# coding=utf-8
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'''
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@Author: John
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@Email: johnjim0816@gmail.com
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@Date: 2020-06-12 00:48:57
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@LastEditor: John
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LastEditTime: 2021-03-28 11:05:14
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@Discription:
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@Environment: python 3.7.7
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'''
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import sys,os
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sys.path.append(os.getcwd()) # add current terminal path
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import gym
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import torch
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import datetime
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from DoubleDQN.agent import DoubleDQN
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from common.plot import plot_rewards
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from common.utils import save_results
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SEQUENCE = datetime.datetime.now().strftime("%Y%m%d-%H%M%S") # 获取当前时间
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SAVED_MODEL_PATH = os.path.split(os.path.abspath(__file__))[0]+"/saved_model/"+SEQUENCE+'/' # 生成保存的模型路径
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if not os.path.exists(os.path.split(os.path.abspath(__file__))[0]+"/saved_model/"):
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os.mkdir(os.path.split(os.path.abspath(__file__))[0]+"/saved_model/")
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if not os.path.exists(SAVED_MODEL_PATH):
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os.mkdir(SAVED_MODEL_PATH)
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RESULT_PATH = os.path.split(os.path.abspath(__file__))[0]+"/results/"+SEQUENCE+'/' # 存储reward的路径
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if not os.path.exists(os.path.split(os.path.abspath(__file__))[0]+"/results/"):
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os.mkdir(os.path.split(os.path.abspath(__file__))[0]+"/results/")
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if not os.path.exists(RESULT_PATH):
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os.mkdir(RESULT_PATH)
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class DoubleDQNConfig:
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def __init__(self):
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self.algo = "Double DQN" # name of algo
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self.gamma = 0.99
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self.epsilon_start = 0.9 # e-greedy策略的初始epsilon
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self.epsilon_end = 0.01
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self.epsilon_decay = 200
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self.lr = 0.01 # 学习率
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self.memory_capacity = 10000 # Replay Memory容量
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self.batch_size = 128
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self.train_eps = 300 # 训练的episode数目
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self.train_steps = 200 # 训练每个episode的最大长度
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self.target_update = 2 # target net的更新频率
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self.eval_eps = 20 # 测试的episode数目
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self.eval_steps = 200 # 测试每个episode的最大长度
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self.device = torch.device("cuda" if torch.cuda.is_available() else "cpu") # 检测gpu
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self.hidden_dim = 128 # 神经网络隐藏层维度
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def train(cfg,env,agent):
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print('Start to train !')
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rewards,ma_rewards = [],[]
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ep_steps = []
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for i_episode in range(cfg.train_eps):
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state = env.reset() # reset环境状态
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ep_reward = 0
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for i_step in range(cfg.train_steps):
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action = agent.choose_action(state) # 根据当前环境state选择action
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next_state, reward, done, _ = env.step(action) # 更新环境参数
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ep_reward += reward
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agent.memory.push(state, action, reward, next_state, done) # 将state等这些transition存入memory
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state = next_state # 跳转到下一个状态
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agent.update() # 每步更新网络
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if done:
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break
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# 更新target network,复制DQN中的所有weights and biases
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if i_episode % cfg.target_update == 0:
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agent.target_net.load_state_dict(agent.policy_net.state_dict())
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print('Episode:{}/{}, Reward:{}, Steps:{}, Done:{}'.format(i_episode+1,cfg.train_eps,ep_reward,i_step,done))
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ep_steps.append(i_step)
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rewards.append(ep_reward)
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# 计算滑动窗口的reward
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if ma_rewards:
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ma_rewards.append(
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0.9*ma_rewards[-1]+0.1*ep_reward)
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else:
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ma_rewards.append(ep_reward)
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print('Complete training!')
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return rewards,ma_rewards
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if __name__ == "__main__":
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cfg = DoubleDQNConfig()
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env = gym.make('CartPole-v0').unwrapped # 可google为什么unwrapped gym,此处一般不需要
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env.seed(1) # 设置env随机种子
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state_dim = env.observation_space.shape[0]
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action_dim = env.action_space.n
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agent = DoubleDQN(state_dim,action_dim,cfg)
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rewards,ma_rewards = train(cfg,env,agent)
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agent.save(path=SAVED_MODEL_PATH)
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save_results(rewards,ma_rewards,tag='train',path=RESULT_PATH)
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plot_rewards(rewards,ma_rewards,tag="train",algo = cfg.algo,path=RESULT_PATH)
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119
codes/DoubleDQN/task0_train.py
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119
codes/DoubleDQN/task0_train.py
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@@ -0,0 +1,119 @@
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#!/usr/bin/env python
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# coding=utf-8
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'''
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@Author: John
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@Email: johnjim0816@gmail.com
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@Date: 2020-06-12 00:48:57
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@LastEditor: John
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LastEditTime: 2021-05-04 15:05:37
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@Discription:
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@Environment: python 3.7.7
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'''
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import sys,os
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curr_path = os.path.dirname(__file__)
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parent_path = os.path.dirname(curr_path)
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sys.path.append(parent_path) # add current terminal path to sys.path
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import gym
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import torch
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import datetime
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from DoubleDQN.agent import DoubleDQN
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from common.plot import plot_rewards
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from common.utils import save_results, make_dir
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curr_time = datetime.datetime.now().strftime(
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"%Y%m%d-%H%M%S") # obtain current time
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class DoubleDQNConfig:
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def __init__(self):
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self.algo = "DoubleDQN" # name of algo
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self.env = 'CartPole-v0' # env name
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self.result_path = curr_path+"/outputs/" + self.env + \
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'/'+curr_time+'/results/' # path to save results
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self.model_path = curr_path+"/outputs/" + self.env + \
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'/'+curr_time+'/models/' # path to save results
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self.gamma = 0.99
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self.epsilon_start = 0.9 # start epsilon of e-greedy policy
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self.epsilon_end = 0.01
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self.epsilon_decay = 200
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self.lr = 0.01 # learning rate
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self.memory_capacity = 10000 # capacity of Replay Memory
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self.batch_size = 128
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self.train_eps = 300 # max tranng episodes
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self.train_steps = 200 # max training steps per episode
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self.target_update = 2 # update frequency of target net
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self.eval_eps = 50 # max evaling episodes
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self.eval_steps = 200 # max evaling steps per episode
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self.device = torch.device("cuda" if torch.cuda.is_available() else "cpu") # check gpu
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self.hidden_dim = 128 # hidden size of net
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def env_agent_config(cfg,seed=1):
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env = gym.make(cfg.env)
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env.seed(seed)
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state_dim = env.observation_space.shape[0]
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action_dim = env.action_space.n
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agent = DoubleDQN(state_dim,action_dim,cfg)
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return env,agent
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def train(cfg,env,agent):
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print('Start to train !')
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rewards,ma_rewards = [],[]
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for i_ep in range(cfg.train_eps):
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state = env.reset() # reset环境状态
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ep_reward = 0
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while True:
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action = agent.choose_action(state) # 根据当前环境state选择action
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next_state, reward, done, _ = env.step(action) # 更新环境参数
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ep_reward += reward
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agent.memory.push(state, action, reward, next_state, done) # 将state等这些transition存入memory
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state = next_state # 跳转到下一个状态
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agent.update() # 每步更新网络
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if done:
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break
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if i_ep % cfg.target_update == 0:
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agent.target_net.load_state_dict(agent.policy_net.state_dict())
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print(f'Episode:{i_ep+1}/{cfg.train_eps}, Reward:{ep_reward}')
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rewards.append(ep_reward)
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if ma_rewards:
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ma_rewards.append(
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0.9*ma_rewards[-1]+0.1*ep_reward)
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else:
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ma_rewards.append(ep_reward)
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print('Complete training!')
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return rewards,ma_rewards
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def eval(cfg,env,agent):
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rewards = []
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ma_rewards = []
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for i_ep in range(cfg.eval_eps):
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state = env.reset()
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ep_reward = 0
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while True:
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action = agent.predict(state)
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next_state, reward, done, _ = env.step(action)
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state = next_state
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ep_reward += reward
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if done:
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break
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rewards.append(ep_reward)
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if ma_rewards:
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ma_rewards.append(ma_rewards[-1]*0.9+ep_reward*0.1)
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else:
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ma_rewards.append(ep_reward)
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print(f"Episode:{i_ep+1}/{cfg.eval_eps}, reward:{ep_reward:.1f}")
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return rewards,ma_rewards
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if __name__ == "__main__":
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cfg = DoubleDQNConfig()
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env,agent = env_agent_config(cfg,seed=1)
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rewards, ma_rewards = train(cfg, env, agent)
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make_dir(cfg.result_path, cfg.model_path)
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agent.save(path=cfg.model_path)
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save_results(rewards, ma_rewards, tag='train', path=cfg.result_path)
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plot_rewards(rewards, ma_rewards, tag="train",
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algo=cfg.algo, path=cfg.result_path)
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env,agent = env_agent_config(cfg,seed=10)
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agent.load(path=cfg.model_path)
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rewards,ma_rewards = eval(cfg,env,agent)
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save_results(rewards,ma_rewards,tag='eval',path=cfg.result_path)
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plot_rewards(rewards,ma_rewards,tag="eval",env=cfg.env,algo = cfg.algo,path=cfg.result_path)
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@@ -1,21 +0,0 @@
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#!/usr/bin/env python
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# coding=utf-8
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'''
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Author: John
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Email: johnjim0816@gmail.com
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Date: 2020-10-15 21:28:00
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LastEditor: John
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LastEditTime: 2020-10-15 21:50:30
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Discription:
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Environment:
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'''
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import os
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import numpy as np
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def save_results(rewards,moving_average_rewards,ep_steps,tag='train',result_path='./results'):
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if not os.path.exists(result_path): # 检测是否存在文件夹
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os.mkdir(result_path)
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np.save(result_path+'rewards_'+tag+'.npy', rewards)
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np.save(result_path+'moving_average_rewards_'+tag+'.npy', moving_average_rewards)
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np.save(result_path+'steps_'+tag+'.npy',ep_steps )
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