masks_augments_compare-21/util/module_mixins.py

from collections import defaultdict

from abc import ABC
from argparse import Namespace

import sklearn
import torch
import numpy as np
from torch import nn
from torch.optim import Adam
from torch.utils.data import DataLoader, RandomSampler
from torchcontrib.optim import SWA
from torchvision.transforms import Compose, RandomApply

from ml_lib.audio_toolset.audio_augmentation import Speed
from ml_lib.audio_toolset.mel_augmentation import NoiseInjection, LoudnessManipulator, ShiftTime, MaskAug
from ml_lib.audio_toolset.audio_io import AudioToMel, MelToImage, NormalizeLocal
from ml_lib.modules.util import LightningBaseModule
from ml_lib.utils.transforms import ToTensor

import variables as V


class BaseOptimizerMixin:

    def configure_optimizers(self):
        assert isinstance(self, LightningBaseModule)
        opt = Adam(params=self.parameters(), lr=self.params.lr, weight_decay=self.params.weight_decay)
        if self.params.sto_weight_avg:
            opt = SWA(opt, swa_start=10, swa_freq=5, swa_lr=0.05)
        return opt

    def on_train_end(self):
        assert isinstance(self, LightningBaseModule)
        for opt in self.trainer.optimizers:
            if isinstance(opt, SWA):
                opt.swap_swa_sgd()

    def on_epoch_end(self):
        assert isinstance(self, LightningBaseModule)
        if self.params.opt_reset_interval:
            if self.current_epoch % self.params.opt_reset_interval == 0:
                for opt in self.trainer.optimizers:
                    opt.state = defaultdict(dict)


class BaseTrainMixin:

    absolute_loss = nn.L1Loss()
    nll_loss = nn.NLLLoss()
    bce_loss = nn.BCELoss()

    def training_step(self, batch_xy, batch_nb, *args, **kwargs):
        assert isinstance(self, LightningBaseModule)
        batch_x, batch_y = batch_xy
        y = self(batch_x).main_out
        bce_loss = self.bce_loss(y, batch_y)
        return dict(loss=bce_loss)

    def training_epoch_end(self, outputs):
        assert isinstance(self, LightningBaseModule)
        keys = list(outputs[0].keys())

        summary_dict = dict(log={f'mean_{key}': torch.mean(torch.stack([output[key]
                                                                        for output in outputs]))
                                 for key in keys if 'loss' in key})
        return summary_dict


class BaseValMixin:

    absolute_loss = nn.L1Loss()
    nll_loss = nn.NLLLoss()
    bce_loss = nn.BCELoss()

    def validation_step(self, batch_xy, batch_idx, dataloader_idx, *args, **kwargs):
        assert isinstance(self, LightningBaseModule)
        batch_x, batch_y = batch_xy
        y = self(batch_x).main_out
        val_bce_loss = self.bce_loss(y, batch_y)
        return dict(val_bce_loss=val_bce_loss,
                    batch_idx=batch_idx, y=y, batch_y=batch_y)

    def validation_epoch_end(self, outputs, *args, **kwargs):
        assert isinstance(self, LightningBaseModule)
        summary_dict = dict(log=dict())
        for output_idx, output in enumerate(outputs):
            keys = list(output[0].keys())
            ident = '' if output_idx == 0 else '_train'
            summary_dict['log'].update({f'mean{ident}_{key}': torch.mean(torch.stack([output[key]
                                                                                      for output in output]))
                                        for key in keys if 'loss' in key}
                                       )

            # UnweightedAverageRecall
            y_true = torch.cat([output['batch_y'] for output in output]) .cpu().numpy()
            y_pred = torch.cat([output['y'] for output in output]).squeeze().cpu().numpy()

            y_pred = (y_pred >= 0.5).astype(np.float32)

            uar_score = sklearn.metrics.recall_score(y_true, y_pred, labels=[0, 1], average='macro',
                                                     sample_weight=None, zero_division='warn')
            uar_score = torch.as_tensor(uar_score)
            summary_dict['log'].update({f'uar{ident}_score': uar_score})
        return summary_dict


class BinaryMaskDatasetMixin:

    def build_dataset(self):
        assert isinstance(self, LightningBaseModule)

        # Dataset
        # =============================================================================
        # Mel Transforms
        mel_transforms = Compose([
            # Audio to Mel Transformations
            AudioToMel(sr=self.params.sr,
                       n_mels=self.params.n_mels,
                       n_fft=self.params.n_fft,
                       hop_length=self.params.hop_length),
            MelToImage()])

        mel_transforms_train = Compose([
            # Audio to Mel Transformations
            Speed(max_amount=self.params.speed_amount,
                  speed_min=self.params.speed_min,
                  speed_max=self.params.speed_max
                  ),
            mel_transforms])

        # Utility
        util_transforms = Compose([NormalizeLocal(), ToTensor()])

        # Data Augmentations
        aug_transforms = Compose([
            RandomApply([
                NoiseInjection(self.params.noise_ratio),
                LoudnessManipulator(self.params.loudness_ratio),
                ShiftTime(self.params.shift_ratio),
                MaskAug(self.params.mask_ratio),
                ], p=0.6),
            util_transforms])

        # Datasets
        from datasets.binar_masks import BinaryMasksDataset
        dataset = Namespace(
            **dict(
                # TRAIN DATASET
                train_dataset=BinaryMasksDataset(self.params.root, setting=V.DATA_OPTIONS.train,
                                                 use_preprocessed=self.params.use_preprocessed,
                                                 stretch_dataset=self.params.stretch,
                                                 mel_transforms=mel_transforms_train, transforms=aug_transforms),
                # VALIDATION DATASET
                val_train_dataset=BinaryMasksDataset(self.params.root, setting=V.DATA_OPTIONS.train,
                                                     mel_transforms=mel_transforms, transforms=util_transforms),
                val_dataset=BinaryMasksDataset(self.params.root, setting=V.DATA_OPTIONS.devel,
                                               mel_transforms=mel_transforms, transforms=util_transforms),
                # TEST DATASET
                test_dataset=BinaryMasksDataset(self.params.root, setting=V.DATA_OPTIONS.test,
                                                mel_transforms=mel_transforms, transforms=util_transforms),
            )
        )
        return dataset


class BaseDataloadersMixin(ABC):

    # Dataloaders
    # ================================================================================
    # Train Dataloader
    def train_dataloader(self):
        assert isinstance(self, LightningBaseModule)
        # sampler = RandomSampler(self.dataset.train_dataset, True, len(self.dataset.train_dataset))
        sampler = None
        return DataLoader(dataset=self.dataset.train_dataset, shuffle=True if not sampler else None, sampler=sampler,
                          batch_size=self.params.batch_size,
                          num_workers=self.params.worker)

    # Test Dataloader
    def test_dataloader(self):
        assert isinstance(self, LightningBaseModule)
        return DataLoader(dataset=self.dataset.test_dataset, shuffle=False,
                          batch_size=self.params.batch_size,
                          num_workers=self.params.worker)

    # Validation Dataloader
    def val_dataloader(self):
        assert isinstance(self, LightningBaseModule)
        val_dataloader = DataLoader(dataset=self.dataset.val_dataset, shuffle=False,
                                    batch_size=self.params.batch_size, num_workers=self.params.worker)

        train_dataloader = DataLoader(self.dataset.val_train_dataset, num_workers=self.params.worker,
                                      batch_size=self.params.batch_size, shuffle=False)
        return [val_dataloader, train_dataloader]