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from torch import nn, tensor, float32 |
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import os |
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import torch |
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from torch.utils.data.dataloader import DataLoader |
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from sklearn.metrics import r2_score |
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import numpy as np |
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from models.viscosity_models import CNN3D |
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from pytorchtools import EarlyStopping |
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from typing import List, Optional, Callable, Tuple |
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from utils.datastruct import history, metrics |
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from tqdm import tqdm |
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def train(model : CNN3D, |
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data_loader : DataLoader, |
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optimizer : torch.optim.Optimizer, |
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criterion : torch.nn.modules.loss._Loss, |
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device : torch.device) -> float: |
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train_loss = [] |
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model.train() |
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for (X,y) in data_loader: |
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X = X.to(device) |
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y = y.to(device) |
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y = y.to(float32) |
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optimizer.zero_grad() |
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out = model(X) |
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loss = criterion(out,y) |
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loss.backward() |
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optimizer.step() |
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train_loss.append(loss.item()) |
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return np.mean(train_loss) |
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def test(model : CNN3D, data_loader : DataLoader, criterion : torch.nn.modules.loss._Loss, device : torch.device) -> Tuple[float, float]: |
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model.eval() |
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y_h_all = [] |
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y_all =[] |
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test_loss = [] |
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with torch.no_grad(): |
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for (X,y) in data_loader: |
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X = X.to(device) |
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y = y.to(float32) |
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y_h = model(X) |
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loss = criterion(y_h.detach().cpu(),y) |
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test_loss.append(loss) |
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y_h_all.extend(y_h.detach().cpu().numpy()) |
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y_all.extend(y.numpy()) |
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return (np.mean(test_loss), r2_score(np.array(y_all),np.array(y_h_all))) |
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def train_epochs(model : CNN3D , |
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dataloaders : List[DataLoader], |
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optimizer : torch.optim.Optimizer, |
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criterion : torch.nn.modules.loss._Loss, |
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epochs : int, |
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early_stop : Optional[int], |
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device : torch.device, |
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path : str, |
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save_weights_frequency : int) -> Tuple[CNN3D, history]: |
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''' |
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if len(data_loader)>2 : |
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(train_loader, val_loader, test_loader) = dataloaders |
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else : |
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(train_loader, val_loader) = dataloaders |
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''' |
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(train_loader, val_loader, test_loader) = dataloaders |
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if early_stop : early_stopping = EarlyStopping(patience=early_stop, verbose=True) |
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train_loss_list=[] |
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val_loss_list=[] |
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test_loss_list=[] |
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train_r2_list=[] |
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val_r2_list=[] |
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test_r2_list=[] |
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for epoch in tqdm(range(epochs)): |
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loss = train(model, |
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data_loader=train_loader, |
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optimizer=optimizer, |
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criterion=criterion, |
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device = device) |
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(_,r2_train) = test(model = model,data_loader = train_loader, criterion = criterion, device = device) |
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(val_loss, r2_val) = test(model = model, data_loader=val_loader, criterion = criterion, device = device) |
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(test_loss, r2_test) = test(model = model, data_loader=test_loader, criterion = criterion, device = device) |
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(test_loss, r2_test) = test(model = model, data_loader=test_loader, criterion = criterion, device = device) |
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if early_stop : |
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early_stopping(val_loss, model) |
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if early_stopping.early_stop: |
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print("Early stopping") |
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break |
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train_loss_list.append(loss) |
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val_loss_list.append(val_loss) |
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test_loss_list.append(test_loss) |
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train_r2_list.append(r2_train) |
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val_r2_list.append(r2_val) |
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test_r2_list.append(r2_test) |
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if (epoch+1) % save_weights_frequency == 0: |
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torch.save(model.state_dict(), os.path.join(path,'cnn3d_epoch_'+str(epoch+1)+'.pt')) |
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print(f'Epoch: {epoch:03d}, train loss: {loss : .4f}, val loss: {val_loss:.4f}, test loss : {test_loss:.4f}') |
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print(f'Epoch: {epoch:03d}, train r2: {r2_train : .4f}, val r2: {r2_val:.4f}, test r2: {r2_test:.4f}') |
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return model, history(metrics(r2_train, train_loss_list), metrics(r2_val, val_loss_list), metrics(r2_test, test_loss_list)) |
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