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utils.py
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utils.py
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import numpy as np
import torch
from torch import nn
from torch import distributions as pyd
import torch.nn.functional as F
import gym
import os
from collections import deque
import random
import math
import dmc2gym
def make_env(cfg):
"""Helper function to create dm_control environment"""
if cfg.env == 'ball_in_cup_catch':
domain_name = 'ball_in_cup'
task_name = 'catch'
else:
domain_name = cfg.env.split('_')[0]
task_name = '_'.join(cfg.env.split('_')[1:])
env = dmc2gym.make(domain_name=domain_name,
task_name=task_name,
seed=cfg.seed,
visualize_reward=True)
env.seed(cfg.seed)
assert env.action_space.low.min() >= -1
assert env.action_space.high.max() <= 1
return env
class eval_mode(object):
def __init__(self, *models):
self.models = models
def __enter__(self):
self.prev_states = []
for model in self.models:
self.prev_states.append(model.training)
model.train(False)
def __exit__(self, *args):
for model, state in zip(self.models, self.prev_states):
model.train(state)
return False
class train_mode(object):
def __init__(self, *models):
self.models = models
def __enter__(self):
self.prev_states = []
for model in self.models:
self.prev_states.append(model.training)
model.train(True)
def __exit__(self, *args):
for model, state in zip(self.models, self.prev_states):
model.train(state)
return False
def soft_update_params(net, target_net, tau):
for param, target_param in zip(net.parameters(), target_net.parameters()):
target_param.data.copy_(tau * param.data +
(1 - tau) * target_param.data)
def set_seed_everywhere(seed):
torch.manual_seed(seed)
if torch.cuda.is_available():
torch.cuda.manual_seed_all(seed)
np.random.seed(seed)
random.seed(seed)
def make_dir(*path_parts):
dir_path = os.path.join(*path_parts)
try:
os.mkdir(dir_path)
except OSError:
pass
return dir_path
def weight_init(m):
"""Custom weight init for Conv2D and Linear layers."""
if isinstance(m, nn.Linear):
nn.init.orthogonal_(m.weight.data)
if hasattr(m.bias, 'data'):
m.bias.data.fill_(0.0)
class MLP(nn.Module):
def __init__(self,
input_dim,
hidden_dim,
output_dim,
hidden_depth,
output_mod=None):
super().__init__()
self.trunk = mlp(input_dim, hidden_dim, output_dim, hidden_depth,
output_mod)
self.apply(weight_init)
def forward(self, x):
return self.trunk(x)
def mlp(input_dim, hidden_dim, output_dim, hidden_depth, output_mod=None):
if hidden_depth == 0:
mods = [nn.Linear(input_dim, output_dim)]
else:
mods = [nn.Linear(input_dim, hidden_dim), nn.ReLU(inplace=True)]
for i in range(hidden_depth - 1):
mods += [nn.Linear(hidden_dim, hidden_dim), nn.ReLU(inplace=True)]
mods.append(nn.Linear(hidden_dim, output_dim))
if output_mod is not None:
mods.append(output_mod)
trunk = nn.Sequential(*mods)
return trunk
def to_np(t):
if t is None:
return None
elif t.nelement() == 0:
return np.array([])
else:
return t.cpu().detach().numpy()