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model_torch.py
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model_torch.py
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import torch
import torch.nn as nn
import torch.optim as optim
import torch.nn.functional as Func
import os
class Linear_QNet(nn.Module):
def __init__(self, input_size, hid1, output_size):
super().__init__()
self.inp_layer = nn.Linear(input_size, hid1)
# self.hid1 = nn.Linear(hid1, hid2)
self.hid1 = nn.Linear(hid1, output_size)
def forward(self, x):
x = Func.relu(self.inp_layer(x))
# x = Func.relu(self.hid1(x))
x = self.hid1(x)
return x
def save(self, file_name='model.pth'):
model_folder_path = './model'
if not os.path.exists(model_folder_path):
os.makedirs(model_folder_path)
file_name = os.path.join(model_folder_path, file_name)
torch.save(self.state_dict(), file_name)
class QTrainer:
def __init__(self, model, lr, gamma):
self.lr = lr
self.gamma = gamma
self.model = model
self.optimizer = optim.Adam(model.parameters(), lr=self.lr)
self.criterion = nn.MSELoss()
def train_step(self, state, action, reward, next_state, done):
state = torch.tensor(state, dtype=torch.float)
next_state = torch.tensor(next_state, dtype=torch.float)
action = torch.tensor(action, dtype=torch.long)
reward = torch.tensor(reward, dtype=torch.float)
# (n, x)
if len(state.shape) == 1:
# (1, x)
state = torch.unsqueeze(state, 0)
next_state = torch.unsqueeze(next_state, 0)
action = torch.unsqueeze(action, 0)
reward = torch.unsqueeze(reward, 0)
done = (done,)
# 1: predicted Q values with current state
pred = self.model(state)
target = pred.clone()
for idx in range(len(done)):
Q_new = reward[idx]
if not done[idx]:
Q_new = reward[idx] + self.gamma * torch.max(self.model(next_state[idx]))
target[idx][torch.argmax(action[idx]).item()] = Q_new
# 2: Q_new = r + y * max(next_predicted Q value) -> only do this if not done
# pred.clone()
# preds[argmax(action)] = Q_new
self.optimizer.zero_grad()
loss = self.criterion(target, pred)
loss.backward()
self.optimizer.step()