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train.py
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from unityagents import UnityEnvironment
import numpy as np
from dqn_agent import Agent
import torch
from collections import deque
import matplotlib.pyplot as plt
env = UnityEnvironment(file_name="./Banana_Windows_x86_64/Banana.exe")
brain_name = env.brain_names[0]
brain = env.brains[brain_name]
print(brain_name)
print(brain)
agent = Agent(state_size=37, action_size=4, seed=0)
def dqn(n_episodes=2000, max_t=1000, eps_start=1.0, eps_end=0.01, eps_decay=0.995):
"""Deep Q-Learning.
Params
======
n_episodes (int): maximum number of training episodes
max_t (int): maximum number of timesteps per episode
eps_start (float): starting value of epsilon, for epsilon-greedy action selection
eps_end (float): minimum value of epsilon
eps_decay (float): multiplicative factor (per episode) for decreasing epsilon
"""
scores = [] # list containing scores from each episode
scores_window = deque(maxlen=100) # last 100 scores
eps = eps_start # initialize epsilon
for i_episode in range(1, n_episodes+1):
env_info = env.reset(train_mode=True)[brain_name]
state = env_info.vector_observations[0]
score = 0
for t in range(max_t):
action = agent.act(state, eps)
env_info = env.step(action.astype(int))[brain_name]
next_state = env_info.vector_observations[0]
reward = env_info.rewards[0]
done = env_info.local_done[0]
agent.step(state, action, reward, next_state, done)
state = next_state
score += reward
if done:
break
scores_window.append(score) # save most recent score
scores.append(score) # save most recent score
eps = max(eps_end, eps_decay*eps) # decrease epsilon
print('\rEpisode {}\tAverage Score: {:.2f}'.format(i_episode, np.mean(scores_window)), end="")
if i_episode % 100 == 0:
print('\rEpisode {}\tAverage Score: {:.2f}'.format(i_episode, np.mean(scores_window)))
if np.mean(scores_window)>=13.0:
print('\nEnvironment solved in {:d} episodes!\tAverage Score: {:.2f}'.format(i_episode-100, np.mean(scores_window)))
torch.save(agent.qnetwork_local.state_dict(), 'checkpoint.pth')
break
return scores
scores = dqn()
plt.plot(scores)
plt.savefig("learning_scores.png")
plt.show()