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import os |
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import glob |
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import re |
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import sys |
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import argparse |
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import logging |
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import json |
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import subprocess |
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import warnings |
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import random |
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import functools |
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import librosa |
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import numpy as np |
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from scipy.io.wavfile import read |
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import torch |
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from torch.nn import functional as F |
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from modules.commons import sequence_mask |
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from hubert import hubert_model |
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MATPLOTLIB_FLAG = False |
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logging.basicConfig(stream=sys.stdout, level=logging.DEBUG) |
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logger = logging |
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f0_bin = 256 |
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f0_max = 1100.0 |
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f0_min = 50.0 |
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f0_mel_min = 1127 * np.log(1 + f0_min / 700) |
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f0_mel_max = 1127 * np.log(1 + f0_max / 700) |
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def deprecated(func): |
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"""This is a decorator which can be used to mark functions |
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as deprecated. It will result in a warning being emitted |
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when the function is used.""" |
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@functools.wraps(func) |
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def new_func(*args, **kwargs): |
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warnings.simplefilter('always', DeprecationWarning) |
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warnings.warn("Call to deprecated function {}.".format(func.__name__), |
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category=DeprecationWarning, |
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stacklevel=2) |
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warnings.simplefilter('default', DeprecationWarning) |
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return func(*args, **kwargs) |
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return new_func |
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def normalize_f0(f0, x_mask, uv, random_scale=True): |
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uv_sum = torch.sum(uv, dim=1, keepdim=True) |
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uv_sum[uv_sum == 0] = 9999 |
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means = torch.sum(f0[:, 0, :] * uv, dim=1, keepdim=True) / uv_sum |
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if random_scale: |
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factor = torch.Tensor(f0.shape[0], 1).uniform_(0.8, 1.2).to(f0.device) |
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else: |
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factor = torch.ones(f0.shape[0], 1).to(f0.device) |
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f0_norm = (f0 - means.unsqueeze(-1)) * factor.unsqueeze(-1) |
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if torch.isnan(f0_norm).any(): |
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exit(0) |
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return f0_norm * x_mask |
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def compute_f0_uv_torchcrepe(wav_numpy, p_len=None, sampling_rate=44100, hop_length=512,device=None): |
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from modules.crepe import CrepePitchExtractor |
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x = wav_numpy |
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if p_len is None: |
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p_len = x.shape[0]//hop_length |
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else: |
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assert abs(p_len-x.shape[0]//hop_length) < 4, "pad length error" |
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f0_min = 50 |
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f0_max = 1100 |
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F0Creper = CrepePitchExtractor(hop_length=hop_length,f0_min=f0_min,f0_max=f0_max,device=device) |
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f0,uv = F0Creper(x[None,:].float(),sampling_rate,pad_to=p_len) |
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return f0,uv |
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def plot_data_to_numpy(x, y): |
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global MATPLOTLIB_FLAG |
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if not MATPLOTLIB_FLAG: |
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import matplotlib |
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matplotlib.use("Agg") |
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MATPLOTLIB_FLAG = True |
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mpl_logger = logging.getLogger('matplotlib') |
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mpl_logger.setLevel(logging.WARNING) |
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import matplotlib.pylab as plt |
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import numpy as np |
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fig, ax = plt.subplots(figsize=(10, 2)) |
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plt.plot(x) |
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plt.plot(y) |
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plt.tight_layout() |
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fig.canvas.draw() |
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data = np.fromstring(fig.canvas.tostring_rgb(), dtype=np.uint8, sep='') |
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data = data.reshape(fig.canvas.get_width_height()[::-1] + (3,)) |
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plt.close() |
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return data |
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def interpolate_f0(f0): |
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''' |
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对F0进行插值处理 |
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''' |
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data = np.reshape(f0, (f0.size, 1)) |
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vuv_vector = np.zeros((data.size, 1), dtype=np.float32) |
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vuv_vector[data > 0.0] = 1.0 |
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vuv_vector[data <= 0.0] = 0.0 |
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ip_data = data |
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frame_number = data.size |
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last_value = 0.0 |
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for i in range(frame_number): |
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if data[i] <= 0.0: |
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j = i + 1 |
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for j in range(i + 1, frame_number): |
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if data[j] > 0.0: |
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break |
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if j < frame_number - 1: |
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if last_value > 0.0: |
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step = (data[j] - data[i - 1]) / float(j - i) |
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for k in range(i, j): |
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ip_data[k] = data[i - 1] + step * (k - i + 1) |
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else: |
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for k in range(i, j): |
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ip_data[k] = data[j] |
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else: |
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for k in range(i, frame_number): |
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ip_data[k] = last_value |
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else: |
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ip_data[i] = data[i] |
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last_value = data[i] |
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return ip_data[:,0], vuv_vector[:,0] |
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def compute_f0_parselmouth(wav_numpy, p_len=None, sampling_rate=44100, hop_length=512): |
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import parselmouth |
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x = wav_numpy |
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if p_len is None: |
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p_len = x.shape[0]//hop_length |
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else: |
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assert abs(p_len-x.shape[0]//hop_length) < 4, "pad length error" |
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time_step = hop_length / sampling_rate * 1000 |
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f0_min = 50 |
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f0_max = 1100 |
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f0 = parselmouth.Sound(x, sampling_rate).to_pitch_ac( |
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time_step=time_step / 1000, voicing_threshold=0.6, |
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pitch_floor=f0_min, pitch_ceiling=f0_max).selected_array['frequency'] |
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pad_size=(p_len - len(f0) + 1) // 2 |
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if(pad_size>0 or p_len - len(f0) - pad_size>0): |
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f0 = np.pad(f0,[[pad_size,p_len - len(f0) - pad_size]], mode='constant') |
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return f0 |
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def resize_f0(x, target_len): |
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source = np.array(x) |
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source[source<0.001] = np.nan |
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target = np.interp(np.arange(0, len(source)*target_len, len(source))/ target_len, np.arange(0, len(source)), source) |
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res = np.nan_to_num(target) |
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return res |
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def compute_f0_dio(wav_numpy, p_len=None, sampling_rate=44100, hop_length=512): |
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import pyworld |
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if p_len is None: |
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p_len = wav_numpy.shape[0]//hop_length |
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f0, t = pyworld.dio( |
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wav_numpy.astype(np.double), |
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fs=sampling_rate, |
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f0_ceil=800, |
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frame_period=1000 * hop_length / sampling_rate, |
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) |
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f0 = pyworld.stonemask(wav_numpy.astype(np.double), f0, t, sampling_rate) |
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for index, pitch in enumerate(f0): |
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f0[index] = round(pitch, 1) |
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return resize_f0(f0, p_len) |
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def f0_to_coarse(f0): |
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is_torch = isinstance(f0, torch.Tensor) |
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f0_mel = 1127 * (1 + f0 / 700).log() if is_torch else 1127 * np.log(1 + f0 / 700) |
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f0_mel[f0_mel > 0] = (f0_mel[f0_mel > 0] - f0_mel_min) * (f0_bin - 2) / (f0_mel_max - f0_mel_min) + 1 |
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f0_mel[f0_mel <= 1] = 1 |
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f0_mel[f0_mel > f0_bin - 1] = f0_bin - 1 |
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f0_coarse = (f0_mel + 0.5).long() if is_torch else np.rint(f0_mel).astype(np.int) |
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assert f0_coarse.max() <= 255 and f0_coarse.min() >= 1, (f0_coarse.max(), f0_coarse.min()) |
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return f0_coarse |
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def get_hubert_model(): |
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vec_path = "hubert/checkpoint_best_legacy_500.pt" |
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print("load model(s) from {}".format(vec_path)) |
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from fairseq import checkpoint_utils |
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models, saved_cfg, task = checkpoint_utils.load_model_ensemble_and_task( |
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[vec_path], |
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suffix="", |
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) |
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model = models[0] |
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model.eval() |
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return model |
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def get_hubert_content(hmodel, wav_16k_tensor): |
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feats = wav_16k_tensor |
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if feats.dim() == 2: |
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feats = feats.mean(-1) |
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assert feats.dim() == 1, feats.dim() |
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feats = feats.view(1, -1) |
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padding_mask = torch.BoolTensor(feats.shape).fill_(False) |
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inputs = { |
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"source": feats.to(wav_16k_tensor.device), |
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"padding_mask": padding_mask.to(wav_16k_tensor.device), |
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"output_layer": 9, |
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} |
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with torch.no_grad(): |
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logits = hmodel.extract_features(**inputs) |
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feats = hmodel.final_proj(logits[0]) |
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return feats.transpose(1, 2) |
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def get_content(cmodel, y): |
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with torch.no_grad(): |
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c = cmodel.extract_features(y.squeeze(1))[0] |
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c = c.transpose(1, 2) |
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return c |
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def load_checkpoint(checkpoint_path, model, optimizer=None, skip_optimizer=False): |
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assert os.path.isfile(checkpoint_path) |
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checkpoint_dict = torch.load(checkpoint_path, map_location='cpu') |
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iteration = checkpoint_dict['iteration'] |
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learning_rate = checkpoint_dict['learning_rate'] |
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if optimizer is not None and not skip_optimizer and checkpoint_dict['optimizer'] is not None: |
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optimizer.load_state_dict(checkpoint_dict['optimizer']) |
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saved_state_dict = checkpoint_dict['model'] |
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if hasattr(model, 'module'): |
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state_dict = model.module.state_dict() |
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else: |
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state_dict = model.state_dict() |
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new_state_dict = {} |
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for k, v in state_dict.items(): |
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try: |
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new_state_dict[k] = saved_state_dict[k] |
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assert saved_state_dict[k].shape == v.shape, (saved_state_dict[k].shape, v.shape) |
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except: |
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print("error, %s is not in the checkpoint" % k) |
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logger.info("%s is not in the checkpoint" % k) |
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new_state_dict[k] = v |
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if hasattr(model, 'module'): |
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model.module.load_state_dict(new_state_dict) |
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else: |
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model.load_state_dict(new_state_dict) |
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print("load ") |
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logger.info("Loaded checkpoint '{}' (iteration {})".format( |
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checkpoint_path, iteration)) |
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return model, optimizer, learning_rate, iteration |
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def save_checkpoint(model, optimizer, learning_rate, iteration, checkpoint_path): |
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logger.info("Saving model and optimizer state at iteration {} to {}".format( |
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iteration, checkpoint_path)) |
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if hasattr(model, 'module'): |
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state_dict = model.module.state_dict() |
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else: |
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state_dict = model.state_dict() |
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torch.save({'model': state_dict, |
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'iteration': iteration, |
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'optimizer': optimizer.state_dict(), |
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'learning_rate': learning_rate}, checkpoint_path) |
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def clean_checkpoints(path_to_models='logs/44k/', n_ckpts_to_keep=2, sort_by_time=True): |
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"""Freeing up space by deleting saved ckpts |
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Arguments: |
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path_to_models -- Path to the model directory |
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n_ckpts_to_keep -- Number of ckpts to keep, excluding G_0.pth and D_0.pth |
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sort_by_time -- True -> chronologically delete ckpts |
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False -> lexicographically delete ckpts |
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""" |
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ckpts_files = [f for f in os.listdir(path_to_models) if os.path.isfile(os.path.join(path_to_models, f))] |
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name_key = (lambda _f: int(re.compile('._(\d+)\.pth').match(_f).group(1))) |
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time_key = (lambda _f: os.path.getmtime(os.path.join(path_to_models, _f))) |
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sort_key = time_key if sort_by_time else name_key |
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x_sorted = lambda _x: sorted([f for f in ckpts_files if f.startswith(_x) and not f.endswith('_0.pth')], key=sort_key) |
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to_del = [os.path.join(path_to_models, fn) for fn in |
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(x_sorted('G')[:-n_ckpts_to_keep] + x_sorted('D')[:-n_ckpts_to_keep])] |
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del_info = lambda fn: logger.info(f".. Free up space by deleting ckpt {fn}") |
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del_routine = lambda x: [os.remove(x), del_info(x)] |
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rs = [del_routine(fn) for fn in to_del] |
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def summarize(writer, global_step, scalars={}, histograms={}, images={}, audios={}, audio_sampling_rate=22050): |
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for k, v in scalars.items(): |
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writer.add_scalar(k, v, global_step) |
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for k, v in histograms.items(): |
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writer.add_histogram(k, v, global_step) |
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for k, v in images.items(): |
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writer.add_image(k, v, global_step, dataformats='HWC') |
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for k, v in audios.items(): |
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writer.add_audio(k, v, global_step, audio_sampling_rate) |
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def latest_checkpoint_path(dir_path, regex="G_*.pth"): |
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f_list = glob.glob(os.path.join(dir_path, regex)) |
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f_list.sort(key=lambda f: int("".join(filter(str.isdigit, f)))) |
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x = f_list[-1] |
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print(x) |
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return x |
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def plot_spectrogram_to_numpy(spectrogram): |
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global MATPLOTLIB_FLAG |
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if not MATPLOTLIB_FLAG: |
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import matplotlib |
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matplotlib.use("Agg") |
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MATPLOTLIB_FLAG = True |
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mpl_logger = logging.getLogger('matplotlib') |
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mpl_logger.setLevel(logging.WARNING) |
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import matplotlib.pylab as plt |
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import numpy as np |
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fig, ax = plt.subplots(figsize=(10,2)) |
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im = ax.imshow(spectrogram, aspect="auto", origin="lower", |
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interpolation='none') |
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plt.colorbar(im, ax=ax) |
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plt.xlabel("Frames") |
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plt.ylabel("Channels") |
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plt.tight_layout() |
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fig.canvas.draw() |
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data = np.fromstring(fig.canvas.tostring_rgb(), dtype=np.uint8, sep='') |
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data = data.reshape(fig.canvas.get_width_height()[::-1] + (3,)) |
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plt.close() |
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return data |
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def plot_alignment_to_numpy(alignment, info=None): |
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global MATPLOTLIB_FLAG |
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if not MATPLOTLIB_FLAG: |
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import matplotlib |
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matplotlib.use("Agg") |
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MATPLOTLIB_FLAG = True |
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mpl_logger = logging.getLogger('matplotlib') |
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mpl_logger.setLevel(logging.WARNING) |
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import matplotlib.pylab as plt |
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import numpy as np |
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fig, ax = plt.subplots(figsize=(6, 4)) |
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im = ax.imshow(alignment.transpose(), aspect='auto', origin='lower', |
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interpolation='none') |
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fig.colorbar(im, ax=ax) |
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xlabel = 'Decoder timestep' |
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if info is not None: |
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xlabel += '\n\n' + info |
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plt.xlabel(xlabel) |
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plt.ylabel('Encoder timestep') |
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plt.tight_layout() |
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fig.canvas.draw() |
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data = np.fromstring(fig.canvas.tostring_rgb(), dtype=np.uint8, sep='') |
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data = data.reshape(fig.canvas.get_width_height()[::-1] + (3,)) |
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plt.close() |
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return data |
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def load_wav_to_torch(full_path): |
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sampling_rate, data = read(full_path) |
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return torch.FloatTensor(data.astype(np.float32)), sampling_rate |
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def load_filepaths_and_text(filename, split="|"): |
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with open(filename, encoding='utf-8') as f: |
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filepaths_and_text = [line.strip().split(split) for line in f] |
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return filepaths_and_text |
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def get_hparams(init=True): |
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parser = argparse.ArgumentParser() |
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parser.add_argument('-c', '--config', type=str, default="./configs/base.json", |
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help='JSON file for configuration') |
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parser.add_argument('-m', '--model', type=str, required=True, |
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help='Model name') |
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args = parser.parse_args() |
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model_dir = os.path.join("./logs", args.model) |
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if not os.path.exists(model_dir): |
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os.makedirs(model_dir) |
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config_path = args.config |
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config_save_path = os.path.join(model_dir, "config.json") |
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if init: |
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with open(config_path, "r") as f: |
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data = f.read() |
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with open(config_save_path, "w") as f: |
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f.write(data) |
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else: |
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with open(config_save_path, "r") as f: |
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data = f.read() |
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config = json.loads(data) |
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hparams = HParams(**config) |
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hparams.model_dir = model_dir |
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return hparams |
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def get_hparams_from_dir(model_dir): |
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config_save_path = os.path.join(model_dir, "config.json") |
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with open(config_save_path, "r") as f: |
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data = f.read() |
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config = json.loads(data) |
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|
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hparams =HParams(**config) |
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hparams.model_dir = model_dir |
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return hparams |
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|
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def get_hparams_from_file(config_path): |
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with open(config_path, "r") as f: |
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data = f.read() |
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config = json.loads(data) |
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|
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hparams =HParams(**config) |
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return hparams |
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|
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def check_git_hash(model_dir): |
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source_dir = os.path.dirname(os.path.realpath(__file__)) |
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if not os.path.exists(os.path.join(source_dir, ".git")): |
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logger.warn("{} is not a git repository, therefore hash value comparison will be ignored.".format( |
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source_dir |
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)) |
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return |
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|
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cur_hash = subprocess.getoutput("git rev-parse HEAD") |
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|
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path = os.path.join(model_dir, "githash") |
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if os.path.exists(path): |
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saved_hash = open(path).read() |
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if saved_hash != cur_hash: |
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logger.warn("git hash values are different. {}(saved) != {}(current)".format( |
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saved_hash[:8], cur_hash[:8])) |
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else: |
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open(path, "w").write(cur_hash) |
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|
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def get_logger(model_dir, filename="train.log"): |
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global logger |
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logger = logging.getLogger(os.path.basename(model_dir)) |
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logger.setLevel(logging.DEBUG) |
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|
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formatter = logging.Formatter("%(asctime)s\t%(name)s\t%(levelname)s\t%(message)s") |
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if not os.path.exists(model_dir): |
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os.makedirs(model_dir) |
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h = logging.FileHandler(os.path.join(model_dir, filename)) |
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h.setLevel(logging.DEBUG) |
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h.setFormatter(formatter) |
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logger.addHandler(h) |
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return logger |
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|
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def repeat_expand_2d(content, target_len): |
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|
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|
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src_len = content.shape[-1] |
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target = torch.zeros([content.shape[0], target_len], dtype=torch.float).to(content.device) |
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temp = torch.arange(src_len+1) * target_len / src_len |
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current_pos = 0 |
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for i in range(target_len): |
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if i < temp[current_pos+1]: |
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target[:, i] = content[:, current_pos] |
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else: |
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current_pos += 1 |
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target[:, i] = content[:, current_pos] |
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return target |
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|
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class HParams(): |
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def __init__(self, **kwargs): |
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for k, v in kwargs.items(): |
|
if type(v) == dict: |
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v = HParams(**v) |
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self[k] = v |
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|
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def keys(self): |
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return self.__dict__.keys() |
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|
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def items(self): |
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return self.__dict__.items() |
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|
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def values(self): |
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return self.__dict__.values() |
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|
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def __len__(self): |
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return len(self.__dict__) |
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|
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def __getitem__(self, key): |
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return getattr(self, key) |
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|
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def __setitem__(self, key, value): |
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return setattr(self, key, value) |
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|
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def __contains__(self, key): |
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return key in self.__dict__ |
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def __repr__(self): |
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return self.__dict__.__repr__() |
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