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replayer.py
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replayer.py
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import argparse
import datetime
import glob
import os
import pickle
import sys
import exptag
import ipdb
import numpy as np
from atari_wrappers import make_atari, wrap_deepmind
from run_atari import add_env_params
seen_scores = set()
class EpisodeIterator(object):
def __init__(self, filenames):
if args['filter'] == 'none':
cond = lambda info: True
elif args['filter'] == 'rew':
cond = lambda info: info['r'] < args['rew_max'] and (info['r'] > args['rew_min'])
elif args['filter'] == 'room':
def cond(info):
return any(int(room) in args['room_number'] for room in info['places'])
self.filenames = filenames
self.condition = cond
self.episode_number = 0
def iterate(self):
for filename in self.filenames:
print("Opening file", filename)
with open(filename, 'rb') as f:
yield from self.iterate_over_episodes_in_file(f, condition=self.condition)
raise StopIteration
def iterate_over_episodes_in_file(self, file, condition):
while True:
try:
episode = pickle.load(file)
except:
raise StopIteration
info = episode['info']
if condition(info):
print(self.episode_number)
self.episode_number += 1
if self.episode_number >= args['skip']:
if 'obs' in episode:
# import ipdb; ipdb.set_trace()
yield episode
else:
unwrapped_env = env.unwrapped
if 'rng_at_episode_start' in info:
random_state = info['rng_at_episode_start']
unwrapped_env.np_random.set_state(random_state.get_state())
if hasattr(unwrapped_env, "scene"):
unwrapped_env.scene.np_random.set_state(random_state.get_state())
ob = env.reset()
ret = 0
frames = []
infos = []
for i, a in enumerate(episode['acs']):
ob, r, d, info = env.step(a)
if args['display'] == 'game':
rend = unwrapped_env.render(mode="rgb_array")
else:
rend = np.asarray(ob)[:, :, :1]
frames.append(rend)
ret += r
infos.append(info)
assert not d or i == len(episode['acs']) - 1, ipdb.set_trace()
assert d, ipdb.set_trace()
assert ret == episode['info']['r'], (ret, episode['info']['r'])
episode['obs'] = frames
episode['infos'] = infos
print(episode.keys())
yield episode
class Animation(object):
def __init__(self, episodes):
self.episodes = episodes
self.pause = False
self.delta = 1
self.j = 0
self.fig = self.create_empty_figure()
self.fig.canvas.mpl_connect('key_press_event', self.onKeyPress)
self.axes = {}
self.lines = {}
self.dots = {}
# self.ax1 = self.fig.add_subplot(1, 2, 1)
# self.ax2 = self.fig.add_subplot(1, 2, 2)
def create_empty_figure(self):
fig = plt.figure()
for evt, callback in fig.canvas.callbacks.callbacks.items():
items = list(callback.items())
for cid, _ in items:
fig.canvas.mpl_disconnect(cid)
return fig
def onKeyPress(self, event):
if event.key == 'left':
self.pause = True
if self.j > 0:
self.j -= 1
elif event.key == 'right':
self.pause = True
if self.j < len(self.episode['obs']) - 1:
self.j += 1
elif event.key == 'n':
self.pause = False
self.j = len(self.episode['obs']) - 1
elif event.key == ' ':
self.pause = not self.pause
elif event.key == 'q':
sys.exit()
elif event.key == 'f':
self.delta = 1 if self.delta > 1 else 8
elif event.key == 'b':
self.j = max(self.j-100, 0)
def create_axes(self, episode):
assert self.axes == {}
keys = [key for key in episode.keys() if key not in ['acs', 'infos', 'obs', 'info']]
keys.insert(0, 'obs')
n_rows = int(np.floor(np.sqrt(len(keys))))
n_cols = int(np.ceil(len(keys) / n_rows))
for i, key in enumerate(keys, start=1):
self.axes[key] = self.fig.add_subplot(n_rows, n_cols, i)
def process_frame(self, frame):
if frame.shape[-1] == 3:
return frame
else:
return frame[:, :, -1]
def run(self):
self.episode = next(self.episodes)
if self.axes == {}:
self.create_axes(self.episode)
self.im = self.axes['obs'].imshow(self.process_frame(self.episode['obs'][0]), cmap='gray')
for key in self.axes:
if key != 'obs':
line, = self.axes[key].plot(self.episode[key], alpha=0.5)
dot = matplotlib.patches.Ellipse(xy=(0, 0), width=1, height=0.0001, color='r')
self.axes[key].add_artist(dot)
self.axes[key].set_title(key)
self.lines[key] = line
self.dots[key] = dot
def draw_frame_i(i):
# update the data
if self.j == 0:
for key in self.axes:
if key != 'obs':
data = self.episode[key]
n_timesteps = len(data)
self.lines[key].set_data(range(n_timesteps), data)
self.axes[key].set_xlim(0, n_timesteps)
min_y, max_y = np.min(data), np.max(data)
self.axes[key].set_ylim(min_y, max_y)
self.dots[key].height = (max_y - min_y) / 30.
self.dots[key].width = n_timesteps / 30.
self.im.set_data(self.process_frame(self.episode['obs'][self.j]))
for key in self.axes:
if key != 'obs':
self.dots[key].center = (self.j, self.episode[key][self.j])
if not self.pause:
self.j += self.delta
if self.j > len(self.episode['obs']) - 1:
self.episode = next(episodes)
self.j = 0
return [self.im] + list(self.lines.values()) + list(self.dots.values())
ani = animation.FuncAnimation(self.fig, draw_frame_i, blit=False, interval=1,
repeat=False)
plt.show()
plt.close()
if __name__ == '__main__':
parser = argparse.ArgumentParser(formatter_class=argparse.ArgumentDefaultsHelpFormatter)
add_env_params(parser)
parser.add_argument('--filter', type=str, default='none')
parser.add_argument('--rew_min', type=int, default=0)
parser.add_argument('--rew_max', type=int, default=np.inf)
parser.add_argument('--tag', type=str, default=None)
parser.add_argument('--kind', type=str, default='plot')
parser.add_argument('--display', type=str, default='game', choices=['game', 'agent'])
parser.add_argument('--skip', type=int, default=0)
parser.add_argument('--room_number', type=lambda x: [int(_) for _ in x.split(',')], default=[15])
args = parser.parse_args().__dict__
folder = exptag.get_last_experiment_folder_by_tag(args['tag'])
def date_from_folder(folder):
assert folder.startswith('openai-')
date_started = folder[len('openai-'):]
return datetime.datetime.strptime(date_started, "%Y-%m-%d-%H-%M-%S-%f")
date_started = date_from_folder(os.path.basename(folder))
machine_dir = os.path.dirname(folder)
if machine_dir[-4:-1]=='-00':
all_machine_dirs = glob.glob(machine_dir[:-1]+'*')
else:
all_machine_dirs = [machine_dir]
other_folders = []
for machine_dir in all_machine_dirs:
this_machine_other_folders = os.listdir(machine_dir)
this_machine_other_folders = [f_ for f_ in this_machine_other_folders
if f_.startswith("openai-") and abs((date_from_folder(f_) - date_started).total_seconds()) < 3]
this_machine_other_folders = [os.path.join(machine_dir, f_) for f_ in this_machine_other_folders]
other_folders.extend(this_machine_other_folders)
filenames = [glob.glob(os.path.join(f_, "videos_*.pk")) for f_ in other_folders]
assert all(len(files_) == 1 for files_ in filenames), filenames
filenames = [files_[0] for files_ in filenames]
env = make_atari(args['env'], max_episode_steps=args['max_episode_steps'])
if args['display'] == 'agent':
env = wrap_deepmind(env, frame_stack=4, clip_rewards=False)
env.reset()
un_env = env.unwrapped
rend_shape = un_env.render(mode='rgb_array').shape
episodes = EpisodeIterator(filenames).iterate()
if args['kind'] == 'movie':
import imageio
import time
for i, episode in enumerate(episodes):
filename = os.path.expanduser('~/tmp/movie_{}.mp4'.format(time.time()))
imageio.mimwrite(filename, episode["obs"], fps=30)
print(filename)
else:
import matplotlib.patches
import matplotlib.pyplot as plt
import matplotlib.animation as animation
print('left/right, space, n, q, f keys are special')
Animation(episodes).run()