From 1f459ba19422593de325983040e176f97cf4ffc0 Mon Sep 17 00:00:00 2001
From: aktersnurra <gustaf.rydholm@gmail.com>
Date: Thu, 20 Aug 2020 22:18:35 +0200
Subject: A lot of stuff working :D. ResNet implemented!

---
 src/training/trainer/train.py | 216 ++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 216 insertions(+)
 create mode 100644 src/training/trainer/train.py

(limited to 'src/training/trainer/train.py')

diff --git a/src/training/trainer/train.py b/src/training/trainer/train.py
new file mode 100644
index 0000000..a75ae8f
--- /dev/null
+++ b/src/training/trainer/train.py
@@ -0,0 +1,216 @@
+"""Training script for PyTorch models."""
+
+from pathlib import Path
+import time
+from typing import Dict, List, Optional, Tuple, Type
+
+from loguru import logger
+import numpy as np
+import torch
+from torch import Tensor
+from training.trainer.callbacks import Callback, CallbackList
+from training.trainer.util import RunningAverage
+import wandb
+
+from text_recognizer.models import Model
+
+
+torch.backends.cudnn.benchmark = True
+np.random.seed(4711)
+torch.manual_seed(4711)
+torch.cuda.manual_seed(4711)
+
+
+class Trainer:
+    """Trainer for training PyTorch models."""
+
+    def __init__(
+        self,
+        model: Type[Model],
+        model_dir: Path,
+        train_args: Dict,
+        callbacks: CallbackList,
+        checkpoint_path: Optional[Path] = None,
+    ) -> None:
+        """Initialization of the Trainer.
+
+        Args:
+            model (Type[Model]): A model object.
+            model_dir (Path): Path to the model directory.
+            train_args (Dict): The training arguments.
+            callbacks (CallbackList): List of callbacks to be called.
+            checkpoint_path (Optional[Path]): The path to a previously trained model. Defaults to None.
+
+        """
+        self.model = model
+        self.model_dir = model_dir
+        self.checkpoint_path = checkpoint_path
+        self.start_epoch = 1
+        self.epochs = train_args["epochs"]
+        self.callbacks = callbacks
+
+        if self.checkpoint_path is not None:
+            self.start_epoch = self.model.load_checkpoint(self.checkpoint_path)
+
+        # Parse the name of the experiment.
+        experiment_dir = str(self.model_dir.parents[1]).split("/")
+        self.experiment_name = experiment_dir[-2] + "/" + experiment_dir[-1]
+
+    def training_step(
+        self,
+        batch: int,
+        samples: Tuple[Tensor, Tensor],
+        loss_avg: Type[RunningAverage],
+    ) -> Dict:
+        """Performs the training step."""
+        # Pass the tensor to the device for computation.
+        data, targets = samples
+        data, targets = (
+            data.to(self.model.device),
+            targets.to(self.model.device),
+        )
+
+        # Forward pass.
+        # Get the network prediction.
+        output = self.model.network(data)
+
+        # Compute the loss.
+        loss = self.model.criterion(output, targets)
+
+        # Backward pass.
+        # Clear the previous gradients.
+        self.model.optimizer.zero_grad()
+
+        # Compute the gradients.
+        loss.backward()
+
+        # Perform updates using calculated gradients.
+        self.model.optimizer.step()
+
+        # Compute metrics.
+        loss_avg.update(loss.item())
+        output = output.data.cpu()
+        targets = targets.data.cpu()
+        metrics = {
+            metric: self.model.metrics[metric](output, targets)
+            for metric in self.model.metrics
+        }
+        metrics["loss"] = loss_avg()
+        return metrics
+
+    def train(self) -> None:
+        """Runs the training loop for one epoch."""
+        # Set model to traning mode.
+        self.model.train()
+
+        # Running average for the loss.
+        loss_avg = RunningAverage()
+
+        data_loader = self.model.data_loaders["train"]
+
+        for batch, samples in enumerate(data_loader):
+            self.callbacks.on_train_batch_begin(batch)
+            metrics = self.training_step(batch, samples, loss_avg)
+            self.callbacks.on_train_batch_end(batch, logs=metrics)
+
+    @torch.no_grad()
+    def validation_step(
+        self,
+        batch: int,
+        samples: Tuple[Tensor, Tensor],
+        loss_avg: Type[RunningAverage],
+    ) -> Dict:
+        """Performs the validation step."""
+        # Pass the tensor to the device for computation.
+        data, targets = samples
+        data, targets = (
+            data.to(self.model.device),
+            targets.to(self.model.device),
+        )
+
+        # Forward pass.
+        # Get the network prediction.
+        output = self.model.network(data)
+
+        # Compute the loss.
+        loss = self.model.criterion(output, targets)
+
+        # Compute metrics.
+        loss_avg.update(loss.item())
+        output = output.data.cpu()
+        targets = targets.data.cpu()
+        metrics = {
+            metric: self.model.metrics[metric](output, targets)
+            for metric in self.model.metrics
+        }
+        metrics["loss"] = loss.item()
+
+        return metrics
+
+    def _log_val_metric(self, metrics_mean: Dict, epoch: Optional[int] = None) -> None:
+        log_str = "Validation metrics " + (f"at epoch {epoch} - " if epoch else " - ")
+        logger.debug(
+            log_str + " - ".join(f"{k}: {v:.4f}" for k, v in metrics_mean.items())
+        )
+
+    def validate(self, epoch: Optional[int] = None) -> Dict:
+        """Runs the validation loop for one epoch."""
+        # Set model to eval mode.
+        self.model.eval()
+
+        # Running average for the loss.
+        data_loader = self.model.data_loaders["val"]
+
+        # Running average for the loss.
+        loss_avg = RunningAverage()
+
+        # Summary for the current eval loop.
+        summary = []
+
+        for batch, samples in enumerate(data_loader):
+            self.callbacks.on_validation_batch_begin(batch)
+            metrics = self.validation_step(batch, samples, loss_avg)
+            self.callbacks.on_validation_batch_end(batch, logs=metrics)
+            summary.append(metrics)
+
+        # Compute mean of all metrics.
+        metrics_mean = {
+            "val_" + metric: np.mean([x[metric] for x in summary])
+            for metric in summary[0]
+        }
+        self._log_val_metric(metrics_mean, epoch)
+
+        return metrics_mean
+
+    def fit(self) -> None:
+        """Runs the training and evaluation loop."""
+
+        logger.debug(f"Running an experiment called {self.experiment_name}.")
+
+        # Set start time.
+        t_start = time.time()
+
+        self.callbacks.on_fit_begin()
+
+        # Run the training loop.
+        for epoch in range(self.start_epoch, self.epochs + 1):
+            self.callbacks.on_epoch_begin(epoch)
+
+            # Perform one training pass over the training set.
+            self.train()
+
+            # Evaluate the model on the validation set.
+            val_metrics = self.validate(epoch)
+
+            self.callbacks.on_epoch_end(epoch, logs=val_metrics)
+
+            if self.model.stop_training:
+                break
+
+        # Calculate the total training time.
+        t_end = time.time()
+        t_training = t_end - t_start
+
+        self.callbacks.on_fit_end()
+
+        logger.info(f"Training took {t_training:.2f} s.")
-- 
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