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3 Commits
092fb521e1
...
6ab356a947
| Author | SHA1 | Date | |
|---|---|---|---|
| 6ab356a947 | |||
| 3a42120857 | |||
| 648cf32e9c |
@@ -72,37 +72,37 @@ class Server:
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self.commit(msg)
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self.send()
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def receive(self) -> None:
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"""
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Receive the next message from the TCP/IP socket and updates world
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"""
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def receive(self):
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while True:
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# Receive message length information
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if (
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self.__socket.recv_into(
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self.__rcv_buffer, nbytes=4, flags=socket.MSG_WAITALL
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)
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!= 4
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) != 4
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):
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raise ConnectionResetError
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msg_size = int.from_bytes(self.__rcv_buffer[:4], byteorder="big", signed=False)
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# Ensure receive buffer is large enough to hold the message
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if msg_size > self.__rcv_buffer_size:
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self.__rcv_buffer_size = msg_size
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self.__rcv_buffer = bytearray(self.__rcv_buffer_size)
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# Receive message with the specified length
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if (
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self.__socket.recv_into(
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self.__rcv_buffer, nbytes=msg_size, flags=socket.MSG_WAITALL
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)
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!= msg_size
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) != msg_size
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):
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raise ConnectionResetError
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self.world_parser.parse(message=self.__rcv_buffer[:msg_size].decode())
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self.world_parser.parse(
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message=self.__rcv_buffer[:msg_size].decode()
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)
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# 如果socket没有更多数据就退出
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if len(select([self.__socket], [], [], 0.0)[0]) == 0:
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break
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def commit_beam(self, pos2d: list, rotation: float) -> None:
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assert len(pos2d) == 2
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@@ -18,9 +18,18 @@ class Server():
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# makes it easier to kill test servers without affecting train servers
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cmd = "rcssservermj"
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for i in range(n_servers):
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port = first_server_p + i
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mport = first_monitor_p + i
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server_cmd = f"{cmd} --aport {port} --mport {mport} --no-render --no-realtime"
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self.rcss_processes.append(
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subprocess.Popen((f"{cmd} --aport {first_server_p+i} --mport {first_monitor_p+i}").split(),
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stdout=subprocess.DEVNULL, stderr=subprocess.STDOUT, start_new_session=True)
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subprocess.Popen(
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server_cmd.split(),
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stdout=subprocess.DEVNULL,
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stderr=subprocess.STDOUT,
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start_new_session=True
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)
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)
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def check_running_servers(self, psutil, first_server_p, first_monitor_p, n_servers):
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@@ -56,7 +65,6 @@ class Server():
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p.kill()
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return
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def kill(self):
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for p in self.rcss_processes:
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p.kill()
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@@ -41,12 +41,10 @@ class Train_Base():
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self.cf_delay = 0
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# self.cf_target_period = World.STEPTIME # target simulation speed while testing (default: real-time)
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@staticmethod
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def prompt_user_for_model(self):
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gyms_logs_path = "./mujococodebase/scripts/gyms/logs/"
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gyms_logs_path = "./scripts/gyms/logs/"
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folders = [f for f in listdir(gyms_logs_path) if isdir(join(gyms_logs_path, f))]
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folders.sort(key=lambda f: os.path.getmtime(join(gyms_logs_path, f)), reverse=True) # sort by modification date
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@@ -64,7 +62,8 @@ class Train_Base():
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print("The chosen folder does not contain any .zip file!")
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continue
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models.sort(key=lambda m: os.path.getmtime(join(folder_dir, m+".zip")), reverse=True) # sort by modification date
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models.sort(key=lambda m: os.path.getmtime(join(folder_dir, m + ".zip")),
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reverse=True) # sort by modification date
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try:
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model_name = UI.print_list(models, prompt="Choose model (ctrl+c to return): ")[1]
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@@ -72,8 +71,8 @@ class Train_Base():
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except KeyboardInterrupt:
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print()
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return {"folder_dir":folder_dir, "folder_name":folder_name, "model_file":os.path.join(folder_dir, model_name+".zip")}
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return {"folder_dir": folder_dir, "folder_name": folder_name,
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"model_file": os.path.join(folder_dir, model_name + ".zip")}
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# def control_fps(self, read_input = False):
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# ''' Add delay to control simulation speed '''
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@@ -108,8 +107,8 @@ class Train_Base():
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# else:
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# self.cf_delay = 0
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def test_model(self, model:BaseAlgorithm, env, log_path:str=None, model_path:str=None, max_episodes=0, enable_FPS_control=True, verbose=1):
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def test_model(self, model: BaseAlgorithm, env, log_path: str = None, model_path: str = None, max_episodes=0,
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enable_FPS_control=True, verbose=1):
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'''
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Test model and log results
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@@ -186,8 +185,10 @@ class Train_Base():
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avg_rewards = rewards_sum / ep_no
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if verbose > 0:
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print( f"\rEpisode: {ep_no:<3} Ep.Length: {ep_length:<4.0f} Reward: {ep_reward:<6.2f} \n",
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end=f"--AVERAGE-- Ep.Length: {avg_ep_lengths:<4.0f} Reward: {avg_rewards:<6.2f} (Min: {reward_min:<6.2f} Max: {reward_max:<6.2f})", flush=True)
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print(
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f"\rEpisode: {ep_no:<3} Ep.Length: {ep_length:<4.0f} Reward: {ep_reward:<6.2f} \n",
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end=f"--AVERAGE-- Ep.Length: {avg_ep_lengths:<4.0f} Reward: {avg_rewards:<6.2f} (Min: {reward_min:<6.2f} Max: {reward_max:<6.2f})",
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flush=True)
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if log_path is not None:
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with open(log_path, 'a') as f:
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@@ -200,7 +201,8 @@ class Train_Base():
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ep_reward = 0
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ep_length = 0
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def learn_model(self, model:BaseAlgorithm, total_steps:int, path:str, eval_env=None, eval_freq=None, eval_eps=5, save_freq=None, backup_env_file=None, export_name=None):
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def learn_model(self, model: BaseAlgorithm, total_steps: int, path: str, eval_env=None, eval_freq=None, eval_eps=5,
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save_freq=None, backup_env_file=None, export_name=None):
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'''
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Learn Model for a specific number of time steps
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@@ -265,19 +267,25 @@ class Train_Base():
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evaluate = bool(eval_env is not None and eval_freq is not None)
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# Create evaluation callback
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eval_callback = None if not evaluate else EvalCallback(eval_env, n_eval_episodes=eval_eps, eval_freq=eval_freq, log_path=path,
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best_model_save_path=path, deterministic=True, render=False)
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eval_callback = None if not evaluate else EvalCallback(eval_env, n_eval_episodes=eval_eps, eval_freq=eval_freq,
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log_path=path,
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best_model_save_path=path, deterministic=True,
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render=False)
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# Create custom callback to display evaluations
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custom_callback = None if not evaluate else Cyclic_Callback(eval_freq, lambda:self.display_evaluations(path,True))
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custom_callback = None if not evaluate else Cyclic_Callback(eval_freq,
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lambda: self.display_evaluations(path, True))
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# Create checkpoint callback
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checkpoint_callback = None if save_freq is None else CheckpointCallback(save_freq=save_freq, save_path=path, name_prefix="model", verbose=1)
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checkpoint_callback = None if save_freq is None else CheckpointCallback(save_freq=save_freq, save_path=path,
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name_prefix="model", verbose=1)
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# Create custom callback to export checkpoint models
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export_callback = None if save_freq is None or export_name is None else Export_Callback(save_freq, path, export_name)
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export_callback = None if save_freq is None or export_name is None else Export_Callback(save_freq, path,
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export_name)
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callbacks = CallbackList([c for c in [eval_callback, custom_callback, checkpoint_callback, export_callback] if c is not None])
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callbacks = CallbackList(
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[c for c in [eval_callback, custom_callback, checkpoint_callback, export_callback] if c is not None])
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model.learn(total_timesteps=total_steps, callback=callbacks)
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model.save(os.path.join(path, "last_model"))
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@@ -329,8 +337,10 @@ class Train_Base():
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results_limits = np.min(results), np.max(results)
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ep_lengths_limits = np.min(ep_lengths), np.max(ep_lengths)
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results_discrete = np.digitize(results, np.linspace(results_limits[0]-1e-5, results_limits[1]+1e-5, console_height+1))-1
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ep_lengths_discrete = np.digitize(ep_lengths, np.linspace(0, ep_lengths_limits[1]+1e-5, console_height+1))-1
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results_discrete = np.digitize(results, np.linspace(results_limits[0] - 1e-5, results_limits[1] + 1e-5,
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console_height + 1)) - 1
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ep_lengths_discrete = np.digitize(ep_lengths,
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np.linspace(0, ep_lengths_limits[1] + 1e-5, console_height + 1)) - 1
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matrix = np.zeros((console_height, console_width, 2), int)
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matrix[results_discrete[0]][0][0] = 1 # draw 1st column
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@@ -353,14 +363,19 @@ class Train_Base():
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print(f'{"-" * console_width}')
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for l in reversed(range(console_height)):
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for c in range(console_width):
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if np.all(matrix[l][c] == 0): print(end=" ")
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elif np.all(matrix[l][c] == 1): print(end=symb_xo)
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elif matrix[l][c][0] == 1: print(end=symb_x)
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else: print(end=symb_o)
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if np.all(matrix[l][c] == 0):
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print(end=" ")
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elif np.all(matrix[l][c] == 1):
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print(end=symb_xo)
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elif matrix[l][c][0] == 1:
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print(end=symb_x)
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else:
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print(end=symb_o)
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print()
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print(f'{"-" * console_width}')
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print(f"({symb_x})-reward min:{results_limits[0]:11.2f} max:{results_limits[1]:11.2f}")
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print(f"({symb_o})-ep. length min:{ep_lengths_limits[0]:11.0f} max:{ep_lengths_limits[1]:11.0f} {time_steps[-1]/1000:15.0f}k steps")
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print(
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f"({symb_o})-ep. length min:{ep_lengths_limits[0]:11.0f} max:{ep_lengths_limits[1]:11.0f} {time_steps[-1] / 1000:15.0f}k steps")
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print(f'{"-" * console_width}')
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# save CSV
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@@ -372,7 +387,6 @@ class Train_Base():
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writer.writerow(["time_steps", "reward ep.", "length"])
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writer.writerow([time_steps[-1], results_raw[-1], ep_lengths_raw[-1]])
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# def generate_slot_behavior(self, path, slots, auto_head:bool, XML_name):
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# '''
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# Function that generates the XML file for the optimized slot behavior, overwriting previous files
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@@ -462,14 +476,14 @@ class Train_Base():
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for i in count(0, 2): # add hidden layers (step=2 because that's how SB3 works)
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if f"mlp_extractor.policy_net.{i}.bias" not in weights:
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break
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var_list.append([w(f"mlp_extractor.policy_net.{i}.bias"), w(f"mlp_extractor.policy_net.{i}.weight"), "tanh"])
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var_list.append(
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[w(f"mlp_extractor.policy_net.{i}.bias"), w(f"mlp_extractor.policy_net.{i}.weight"), "tanh"])
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var_list.append([w("action_net.bias"), w("action_net.weight"), "none"]) # add final layer
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with open(output_file, "wb") as f:
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pickle.dump(var_list, f, protocol=4) # protocol 4 is backward compatible with Python 3.4
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def print_list(data, numbering=True, prompt=None, divider=" | ", alignment="<", min_per_col=6):
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'''
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Print list - prints list, using as many columns as possible
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@@ -509,7 +523,8 @@ class Train_Base():
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items.append(f"{divider}{number}{data[i]}")
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items_len.append(len(items[-1]))
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max_cols = np.clip((WIDTH+len(divider)) // min(items_len),1,math.ceil(data_size/max(min_per_col,1))) # width + len(divider) because it is not needed in last col
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max_cols = np.clip((WIDTH + len(divider)) // min(items_len), 1, math.ceil(
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data_size / max(min_per_col, 1))) # width + len(divider) because it is not needed in last col
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# --------------------------------------------- Check maximum number of columns, considering content width (min:1)
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for i in range(max_cols, 0, -1):
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@@ -532,7 +547,8 @@ class Train_Base():
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print("=" * table_width)
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for row in range(math.ceil(data_size / i)):
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for col in range(i):
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content = cols_items[col][row] if len(cols_items[col]) > row else divider # print divider when there are no items
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content = cols_items[col][row] if len(
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cols_items[col]) > row else divider # print divider when there are no items
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if col == 0:
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l = len(divider)
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print(end=f"{content[l:]:{alignment}{cols_width[col] - l}}") # remove divider from 1st col
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@@ -552,9 +568,9 @@ class Train_Base():
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return idx, data[idx]
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class Cyclic_Callback(BaseCallback):
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''' Stable baselines custom callback '''
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def __init__(self, freq, function):
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super(Cyclic_Callback, self).__init__(1)
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self.freq = freq
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@@ -565,8 +581,10 @@ class Cyclic_Callback(BaseCallback):
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self.function()
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return True # If the callback returns False, training is aborted early
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class Export_Callback(BaseCallback):
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''' Stable baselines custom callback '''
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def __init__(self, freq, load_path, export_name):
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super(Export_Callback, self).__init__(1)
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self.freq = freq
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@@ -581,4 +599,3 @@ class Export_Callback(BaseCallback):
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@@ -1,11 +1,11 @@
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import os
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import numpy as np
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import math
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import time
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from time import sleep
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from random import random
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from random import uniform
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from stable_baselines3 import PPO
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from stable_baselines3.common.vec_env import SubprocVecEnv
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@@ -28,11 +28,10 @@ Learn how to run forward using step primitive
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- class Train: implements algorithms to train a new model or test an existing model
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'''
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class WalkEnv(gym.Env):
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def __init__(self, ip, server_p) -> None:
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# Args: Server IP, Agent Port, Monitor Port, Uniform No., Robot Type, Team Name, Enable Log, Enable Draw
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self.Player = player = Base_Agent(
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team_name="Gym",
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@@ -55,7 +54,17 @@ class WalkEnv(gym.Env):
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self.auto_calibrate_train_sim_flip = True
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self.nominal_calibrated_once = False
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self.flip_calibrated_once = False
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self._target_hz = 0.0
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self._target_dt = 0.0
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self._last_sync_time = None
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target_hz_env = 24
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if target_hz_env:
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try:
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self._target_hz = float(target_hz_env)
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except ValueError:
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self._target_hz = 0.0
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if self._target_hz > 0.0:
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self._target_dt = 1.0 / self._target_hz
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# State space
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# 原始观测大小: 78
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@@ -77,7 +86,6 @@ class WalkEnv(gym.Env):
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dtype=np.float32
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)
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# 中立姿态
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self.joint_nominal_position = np.array(
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[
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@@ -141,7 +149,7 @@ class WalkEnv(gym.Env):
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self.previous_action = np.zeros(len(self.Player.robot.ROBOT_MOTORS))
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self.previous_pos = np.array([0.0, 0.0]) # Track previous position
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self.Player.server.connect()
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sleep(2.0) # Longer wait for connection to establish completely
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# sleep(2.0) # Longer wait for connection to establish completely
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self.Player.server.send_immediate(
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f"(init {self.Player.robot.name} {self.Player.world.team_name} {self.Player.world.number})"
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)
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@@ -194,7 +202,6 @@ class WalkEnv(gym.Env):
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return reliable, leg_norm, leg_max, height
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def observe(self, init=False):
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"""获取当前观测值"""
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@@ -240,7 +247,6 @@ class WalkEnv(gym.Env):
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orientation_quat_inv = R.from_quat(robot._global_cheat_orientation).inv()
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projected_gravity = orientation_quat_inv.apply(np.array([0.0, 0.0, -1.0]))
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# 组合观测
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observation = np.concatenate([
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qpos_qvel_previous_action,
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@@ -249,8 +255,6 @@ class WalkEnv(gym.Env):
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projected_gravity,
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])
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observation = np.clip(observation, -10.0, 10.0)
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return observation.astype(np.float32)
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@@ -260,6 +264,17 @@ class WalkEnv(gym.Env):
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self.Player.world.update()
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self.Player.robot.commit_motor_targets_pd()
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self.Player.server.send()
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if self._target_dt > 0.0:
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now = time.time()
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if self._last_sync_time is None:
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self._last_sync_time = now
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return
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elapsed = now - self._last_sync_time
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remaining = self._target_dt - elapsed
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if remaining > 0.0:
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time.sleep(remaining)
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now = time.time()
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self._last_sync_time = now
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def debug_joint_status(self):
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robot = self.Player.robot
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@@ -301,7 +316,6 @@ class WalkEnv(gym.Env):
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angle2 = np.random.uniform(-30, 30) # randomize initial orientation
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||||
angle3 = np.random.uniform(-30, 30) # randomize target direction
|
||||
|
||||
|
||||
self.step_counter = 0
|
||||
self.waypoint_index = 0
|
||||
self.route_completed = False
|
||||
@@ -322,12 +336,12 @@ class WalkEnv(gym.Env):
|
||||
|
||||
# 执行 Neutral 技能直到完成,给机器人足够时间在 beam 位置稳定站立
|
||||
finished_count = 0
|
||||
for _ in range(20):
|
||||
for _ in range(10):
|
||||
finished = self.Player.skills_manager.execute("Neutral")
|
||||
self.sync()
|
||||
if finished:
|
||||
finished_count += 1
|
||||
if finished_count >= 2: # 假设需要连续2次完成才算成功
|
||||
if finished_count >= 3: # 假设需要连续3次完成才算成功
|
||||
break
|
||||
|
||||
# neutral_joint_positions = np.deg2rad(
|
||||
@@ -356,13 +370,11 @@ class WalkEnv(gym.Env):
|
||||
# reset_action_noise = np.random.uniform(-0.015, 0.015, size=(len(self.Player.robot.ROBOT_MOTORS),))
|
||||
# self.target_joint_positions = (self.joint_nominal_position + reset_action_noise) * self.train_sim_flip
|
||||
|
||||
|
||||
# for idx, target in enumerate(self.target_joint_positions):
|
||||
# r.set_motor_target_position(
|
||||
# r.ROBOT_MOTORS[idx], target*180/math.pi, kp=25, kd=0.6
|
||||
# )
|
||||
|
||||
|
||||
# memory variables
|
||||
self.initial_position = np.array(self.Player.world.global_position[:2])
|
||||
self.previous_pos = self.initial_position.copy() # Critical: set to actual position
|
||||
@@ -438,7 +450,6 @@ class WalkEnv(gym.Env):
|
||||
|
||||
r = self.Player.robot
|
||||
|
||||
|
||||
self.previous_action = action
|
||||
|
||||
self.target_joint_positions = (
|
||||
@@ -447,15 +458,11 @@ class WalkEnv(gym.Env):
|
||||
)
|
||||
self.target_joint_positions *= self.train_sim_flip
|
||||
|
||||
|
||||
for idx, target in enumerate(self.target_joint_positions):
|
||||
r.set_motor_target_position(
|
||||
r.ROBOT_MOTORS[idx], target * 180 / math.pi, kp=25, kd=0.6
|
||||
)
|
||||
|
||||
|
||||
|
||||
|
||||
self.sync() # run simulation step
|
||||
self.step_counter += 1
|
||||
|
||||
@@ -467,7 +474,6 @@ class WalkEnv(gym.Env):
|
||||
# Compute reward based on movement from previous step
|
||||
reward = self.compute_reward(self.previous_pos, current_pos, action)
|
||||
|
||||
|
||||
# Update previous position
|
||||
self.previous_pos = current_pos.copy()
|
||||
|
||||
@@ -481,20 +487,18 @@ class WalkEnv(gym.Env):
|
||||
return self.observe(), reward, terminated, truncated, {}
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
class Train(Train_Base):
|
||||
def __init__(self, script) -> None:
|
||||
super().__init__(script)
|
||||
|
||||
|
||||
def train(self, args):
|
||||
|
||||
# --------------------------------------- Learning parameters
|
||||
n_envs = 8 # Reduced from 8 to decrease CPU/network pressure during init
|
||||
if n_envs < 1:
|
||||
raise ValueError("GYM_CPU_N_ENVS must be >= 1")
|
||||
n_steps_per_env = 512 # RolloutBuffer is of size (n_steps_per_env * n_envs)
|
||||
minibatch_size = 64 # should be a factor of (n_steps_per_env * n_envs)
|
||||
minibatch_size = 128 # should be a factor of (n_steps_per_env * n_envs)
|
||||
total_steps = 30000000
|
||||
learning_rate = 3e-4
|
||||
folder_name = f'Walk_R{self.robot_type}'
|
||||
@@ -507,8 +511,11 @@ class Train(Train_Base):
|
||||
def init_env(i_env):
|
||||
def thunk():
|
||||
return WalkEnv(self.ip, self.server_p + i_env)
|
||||
|
||||
return thunk
|
||||
|
||||
server_log_dir = os.path.join(model_path, "server_logs")
|
||||
os.makedirs(server_log_dir, exist_ok=True)
|
||||
servers = Train_Server(self.server_p, self.monitor_p_1000, n_envs + 1) # include 1 extra server for testing
|
||||
|
||||
# Wait for servers to start
|
||||
@@ -518,7 +525,6 @@ class Train(Train_Base):
|
||||
env = SubprocVecEnv([init_env(i) for i in range(n_envs)])
|
||||
eval_env = SubprocVecEnv([init_env(n_envs)])
|
||||
|
||||
|
||||
try:
|
||||
# Custom policy network architecture
|
||||
policy_kwargs = dict(
|
||||
@@ -530,7 +536,8 @@ class Train(Train_Base):
|
||||
)
|
||||
|
||||
if "model_file" in args: # retrain
|
||||
model = PPO.load( args["model_file"], env=env, device="cpu", n_envs=n_envs, n_steps=n_steps_per_env, batch_size=minibatch_size, learning_rate=learning_rate )
|
||||
model = PPO.load(args["model_file"], env=env, device="cpu", n_envs=n_envs, n_steps=n_steps_per_env,
|
||||
batch_size=minibatch_size, learning_rate=learning_rate)
|
||||
else: # train new model
|
||||
model = PPO(
|
||||
"MlpPolicy",
|
||||
@@ -547,7 +554,9 @@ class Train(Train_Base):
|
||||
gamma=0.99 # Discount factor
|
||||
)
|
||||
|
||||
model_path = self.learn_model( model, total_steps, model_path, eval_env=eval_env, eval_freq=n_steps_per_env*20, save_freq=n_steps_per_env*20, backup_env_file=__file__ )
|
||||
model_path = self.learn_model(model, total_steps, model_path, eval_env=eval_env,
|
||||
eval_freq=n_steps_per_env * 10, save_freq=n_steps_per_env * 10,
|
||||
backup_env_file=__file__)
|
||||
except KeyboardInterrupt:
|
||||
sleep(1) # wait for child processes
|
||||
print("\nctrl+c pressed, aborting...\n")
|
||||
@@ -558,16 +567,18 @@ class Train(Train_Base):
|
||||
eval_env.close()
|
||||
servers.kill()
|
||||
|
||||
|
||||
def test(self, args):
|
||||
|
||||
# Uses different server and monitor ports
|
||||
server = Train_Server( self.server_p-1, self.monitor_p, 1 )
|
||||
server_log_dir = os.path.join(args["folder_dir"], "server_logs")
|
||||
os.makedirs(server_log_dir, exist_ok=True)
|
||||
server = Train_Server(self.server_p - 1, self.monitor_p, 1, log_dir=server_log_dir)
|
||||
env = WalkEnv(self.ip, self.server_p - 1)
|
||||
model = PPO.load(args["model_file"], env=env)
|
||||
|
||||
try:
|
||||
self.export_model( args["model_file"], args["model_file"]+".pkl", False ) # Export to pkl to create custom behavior
|
||||
self.export_model(args["model_file"], args["model_file"] + ".pkl",
|
||||
False) # Export to pkl to create custom behavior
|
||||
self.test_model(model, env, log_path=args["folder_dir"], model_path=args["folder_dir"])
|
||||
except KeyboardInterrupt:
|
||||
print()
|
||||
@@ -592,4 +603,4 @@ if __name__ == "__main__":
|
||||
)
|
||||
|
||||
trainer = Train(script_args)
|
||||
trainer.train({})
|
||||
trainer.train({"model_file": "scripts/gyms/logs/Walk_R0_000/model_245760_steps.zip"})
|
||||
|
||||
Reference in New Issue
Block a user