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import matplotlib

matplotlib.use('Agg')

import glob
import importlib
from utils.cwt import get_lf0_cwt
import os
import torch.optim
import torch.utils.data
from utils.indexed_datasets import IndexedDataset
from utils.pitch_utils import norm_interp_f0
import numpy as np
from training.dataset.base_dataset import BaseDataset
import torch
import torch.optim
import torch.utils.data
import utils
import torch.distributions
from utils.hparams import hparams


class FastSpeechDataset(BaseDataset):
    def __init__(self, prefix, shuffle=False):
        super().__init__(shuffle)
        self.data_dir = hparams['binary_data_dir']
        self.prefix = prefix
        self.hparams = hparams
        self.sizes = np.load(f'{self.data_dir}/{self.prefix}_lengths.npy')
        self.indexed_ds = None
        # self.name2spk_id={}

        # pitch stats
        f0_stats_fn = f'{self.data_dir}/train_f0s_mean_std.npy'
        if os.path.exists(f0_stats_fn):
            hparams['f0_mean'], hparams['f0_std'] = self.f0_mean, self.f0_std = np.load(f0_stats_fn)
            hparams['f0_mean'] = float(hparams['f0_mean'])
            hparams['f0_std'] = float(hparams['f0_std'])
        else:
            hparams['f0_mean'], hparams['f0_std'] = self.f0_mean, self.f0_std = None, None

        if prefix == 'test':
            if hparams['test_input_dir'] != '':
                self.indexed_ds, self.sizes = self.load_test_inputs(hparams['test_input_dir'])
            else:
                if hparams['num_test_samples'] > 0:
                    self.avail_idxs = list(range(hparams['num_test_samples'])) + hparams['test_ids']
                    self.sizes = [self.sizes[i] for i in self.avail_idxs]

        if hparams['pitch_type'] == 'cwt':
            _, hparams['cwt_scales'] = get_lf0_cwt(np.ones(10))

    def _get_item(self, index):
        if hasattr(self, 'avail_idxs') and self.avail_idxs is not None:
            index = self.avail_idxs[index]
        if self.indexed_ds is None:
            self.indexed_ds = IndexedDataset(f'{self.data_dir}/{self.prefix}')
        return self.indexed_ds[index]

    def __getitem__(self, index):
        hparams = self.hparams
        item = self._get_item(index)
        max_frames = hparams['max_frames']
        spec = torch.Tensor(item['mel'])[:max_frames]
        energy = (spec.exp() ** 2).sum(-1).sqrt()
        mel2ph = torch.LongTensor(item['mel2ph'])[:max_frames] if 'mel2ph' in item else None
        f0, uv = norm_interp_f0(item["f0"][:max_frames], hparams)
        #phone = torch.LongTensor(item['phone'][:hparams['max_input_tokens']])
        hubert=torch.Tensor(item['hubert'][:hparams['max_input_tokens']])
        pitch = torch.LongTensor(item.get("pitch"))[:max_frames]
        # print(item.keys(), item['mel'].shape, spec.shape)
        sample = {
            "id": index,
            "item_name": item['item_name'],
           # "text": item['txt'],
           # "txt_token": phone,
            "hubert":hubert,
            "mel": spec,
            "pitch": pitch,
            "energy": energy,
            "f0": f0,
            "uv": uv,
            "mel2ph": mel2ph,
            "mel_nonpadding": spec.abs().sum(-1) > 0,
        }
        if self.hparams['use_spk_embed']:
            sample["spk_embed"] = torch.Tensor(item['spk_embed'])
        if self.hparams['use_spk_id']:
            sample["spk_id"] = item['spk_id']
            # sample['spk_id'] = 0
            # for key in self.name2spk_id.keys():
            #     if key in item['item_name']:
            #         sample['spk_id'] = self.name2spk_id[key]
            #         break
        #======not used==========
        # if self.hparams['pitch_type'] == 'cwt':
        #     cwt_spec = torch.Tensor(item['cwt_spec'])[:max_frames]
        #     f0_mean = item.get('f0_mean', item.get('cwt_mean'))
        #     f0_std = item.get('f0_std', item.get('cwt_std'))
        #     sample.update({"cwt_spec": cwt_spec, "f0_mean": f0_mean, "f0_std": f0_std})
        # elif self.hparams['pitch_type'] == 'ph':
        #     f0_phlevel_sum = torch.zeros_like(phone).float().scatter_add(0, mel2ph - 1, f0)
        #     f0_phlevel_num = torch.zeros_like(phone).float().scatter_add(
        #         0, mel2ph - 1, torch.ones_like(f0)).clamp_min(1)
        #     sample["f0_ph"] = f0_phlevel_sum / f0_phlevel_num
        return sample

    def collater(self, samples):
        if len(samples) == 0:
            return {}
        id = torch.LongTensor([s['id'] for s in samples])
        item_names = [s['item_name'] for s in samples]
        text = [s['text'] for s in samples]
        txt_tokens = utils.collate_1d([s['txt_token'] for s in samples], 0)
        f0 = utils.collate_1d([s['f0'] for s in samples], 0.0)
        pitch = utils.collate_1d([s['pitch'] for s in samples],1)
        uv = utils.collate_1d([s['uv'] for s in samples])
        energy = utils.collate_1d([s['energy'] for s in samples], 0.0)
        mel2ph = utils.collate_1d([s['mel2ph'] for s in samples], 0.0) \
            if samples[0]['mel2ph'] is not None else None
        mels = utils.collate_2d([s['mel'] for s in samples], 0.0)
        txt_lengths = torch.LongTensor([s['txt_token'].numel() for s in samples])
        mel_lengths = torch.LongTensor([s['mel'].shape[0] for s in samples])

        batch = {
            'id': id,
            'item_name': item_names,
            'nsamples': len(samples),
            'text': text,
            'txt_tokens': txt_tokens,
            'txt_lengths': txt_lengths,
            'mels': mels,
            'mel_lengths': mel_lengths,
            'mel2ph': mel2ph,
            'energy': energy,
            'pitch': pitch,
            'f0': f0,
            'uv': uv,
        }

        if self.hparams['use_spk_embed']:
            spk_embed = torch.stack([s['spk_embed'] for s in samples])
            batch['spk_embed'] = spk_embed
        if self.hparams['use_spk_id']:
            spk_ids = torch.LongTensor([s['spk_id'] for s in samples])
            batch['spk_ids'] = spk_ids
        if self.hparams['pitch_type'] == 'cwt':
            cwt_spec = utils.collate_2d([s['cwt_spec'] for s in samples])
            f0_mean = torch.Tensor([s['f0_mean'] for s in samples])
            f0_std = torch.Tensor([s['f0_std'] for s in samples])
            batch.update({'cwt_spec': cwt_spec, 'f0_mean': f0_mean, 'f0_std': f0_std})
        elif self.hparams['pitch_type'] == 'ph':
            batch['f0'] = utils.collate_1d([s['f0_ph'] for s in samples])

        return batch

    def load_test_inputs(self, test_input_dir, spk_id=0):
        inp_wav_paths = glob.glob(f'{test_input_dir}/*.wav') + glob.glob(f'{test_input_dir}/*.mp3')
        sizes = []
        items = []

        binarizer_cls = hparams.get("binarizer_cls", 'basics.base_binarizer.BaseBinarizer')
        pkg = ".".join(binarizer_cls.split(".")[:-1])
        cls_name = binarizer_cls.split(".")[-1]
        binarizer_cls = getattr(importlib.import_module(pkg), cls_name)
        binarization_args = hparams['binarization_args']
        from preprocessing.hubertinfer import Hubertencoder
        for wav_fn in inp_wav_paths:
            item_name = os.path.basename(wav_fn)
            ph = txt = tg_fn = ''
            wav_fn = wav_fn
            encoder = Hubertencoder(hparams['hubert_path'])

            item = binarizer_cls.process_item(item_name, {'wav_fn':wav_fn}, encoder, binarization_args)
            print(item)
            items.append(item)
            sizes.append(item['len'])
        return items, sizes