171 lines
5.8 KiB
Python
171 lines
5.8 KiB
Python
import torch
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import numpy as np
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import torch.nn as nn
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import gym
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import os
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from collections import deque
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import random
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class eval_mode(object):
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def __init__(self, *models):
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self.models = models
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def __enter__(self):
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self.prev_states = []
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for model in self.models:
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self.prev_states.append(model.training)
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model.train(False)
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def __exit__(self, *args):
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for model, state in zip(self.models, self.prev_states):
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model.train(state)
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return False
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def soft_update_params(net, target_net, tau):
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for param, target_param in zip(net.parameters(), target_net.parameters()):
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target_param.data.copy_(
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tau * param.data + (1 - tau) * target_param.data
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)
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def set_seed_everywhere(seed):
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torch.manual_seed(seed)
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if torch.cuda.is_available():
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torch.cuda.manual_seed_all(seed)
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np.random.seed(seed)
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random.seed(seed)
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def module_hash(module):
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result = 0
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for tensor in module.state_dict().values():
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result += tensor.sum().item()
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return result
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def make_dir(dir_path):
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try:
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os.mkdir(dir_path)
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except OSError:
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pass
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return dir_path
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def preprocess_obs(obs, bits=5):
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"""Preprocessing image, see https://arxiv.org/abs/1807.03039."""
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bins = 2**bits
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assert obs.dtype == torch.float32
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if bits < 8:
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obs = torch.floor(obs / 2**(8 - bits))
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obs = obs / bins
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obs = obs + torch.rand_like(obs) / bins
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obs = obs - 0.5
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return obs
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class ReplayBuffer(object):
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"""Buffer to store environment transitions."""
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def __init__(self, obs_shape, action_shape, capacity, batch_size, device):
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self.capacity = capacity
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self.batch_size = batch_size
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self.device = device
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# the proprioceptive obs is stored as float32, pixels obs as uint8
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obs_dtype = np.float32 if len(obs_shape) == 1 else np.uint8
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self.obses = np.empty((capacity, *obs_shape), dtype=obs_dtype)
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self.next_obses = np.empty((capacity, *obs_shape), dtype=obs_dtype)
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self.actions = np.empty((capacity, *action_shape), dtype=np.float32)
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self.rewards = np.empty((capacity, 1), dtype=np.float32)
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self.not_dones = np.empty((capacity, 1), dtype=np.float32)
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self.idx = 0
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self.last_save = 0
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self.full = False
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def add(self, obs, action, reward, next_obs, done):
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np.copyto(self.obses[self.idx], obs)
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np.copyto(self.actions[self.idx], action)
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np.copyto(self.rewards[self.idx], reward)
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np.copyto(self.next_obses[self.idx], next_obs)
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np.copyto(self.not_dones[self.idx], not done)
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self.idx = (self.idx + 1) % self.capacity
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self.full = self.full or self.idx == 0
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def sample(self):
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begin = 2
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idxs = np.random.randint(
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begin, self.capacity if self.full else self.idx, size=self.batch_size
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)
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past_idxs = idxs - begin
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obses = torch.as_tensor(np.swapaxes(np.asarray([self.obses[past_idxs:idxs] for past_idxs, idxs in zip(past_idxs, idxs)]),0,1), device=self.device).float()
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actions = torch.as_tensor(np.swapaxes(np.asarray([self.actions[past_idxs:idxs] for past_idxs, idxs in zip(past_idxs, idxs)]),0,1), device=self.device)
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rewards = torch.as_tensor(np.swapaxes(np.asarray([self.rewards[past_idxs:idxs] for past_idxs, idxs in zip(past_idxs, idxs)]),0,1), device=self.device)
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next_obses = torch.as_tensor(np.swapaxes(np.asarray([self.next_obses[past_idxs:idxs] for past_idxs, idxs in zip(past_idxs, idxs)]),0,1), device=self.device).float()
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not_dones = torch.as_tensor(np.swapaxes(np.asarray([self.not_dones[past_idxs:idxs] for past_idxs, idxs in zip(past_idxs, idxs)]),0,1), device=self.device)
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return obses, actions, rewards, next_obses, not_dones
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def save(self, save_dir):
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if self.idx == self.last_save:
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return
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path = os.path.join(save_dir, '%d_%d.pt' % (self.last_save, self.idx))
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payload = [
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self.obses[self.last_save:self.idx],
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self.next_obses[self.last_save:self.idx],
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self.actions[self.last_save:self.idx],
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self.rewards[self.last_save:self.idx],
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self.not_dones[self.last_save:self.idx]
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]
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self.last_save = self.idx
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torch.save(payload, path)
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def load(self, save_dir):
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chunks = os.listdir(save_dir)
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chucks = sorted(chunks, key=lambda x: int(x.split('_')[0]))
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for chunk in chucks:
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start, end = [int(x) for x in chunk.split('.')[0].split('_')]
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path = os.path.join(save_dir, chunk)
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payload = torch.load(path)
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assert self.idx == start
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self.obses[start:end] = payload[0]
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self.next_obses[start:end] = payload[1]
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self.actions[start:end] = payload[2]
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self.rewards[start:end] = payload[3]
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self.not_dones[start:end] = payload[4]
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self.idx = end
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class FrameStack(gym.Wrapper):
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def __init__(self, env, k):
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gym.Wrapper.__init__(self, env)
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self._k = k
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self._frames = deque([], maxlen=k)
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shp = env.observation_space.shape
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self.observation_space = gym.spaces.Box(
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low=0,
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high=1,
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shape=((shp[0] * k,) + shp[1:]),
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dtype=env.observation_space.dtype
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)
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self._max_episode_steps = env._max_episode_steps
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def reset(self):
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obs = self.env.reset()
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for _ in range(self._k):
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self._frames.append(obs)
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return self._get_obs()
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def step(self, action):
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obs, reward, done, info = self.env.step(action)
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self._frames.append(obs)
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return self._get_obs(), reward, done, info
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def _get_obs(self):
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assert len(self._frames) == self._k
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return np.concatenate(list(self._frames), axis=0)
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