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| import torch | |
| import torch.nn as nn | |
| import torch.nn.functional as F | |
| from torch.nn.utils.spectral_norm import spectral_norm | |
| from torch.nn import Conv1d, ConvTranspose1d, AvgPool1d, Conv2d | |
| from torch.nn.utils.weight_norm import weight_norm, remove_weight_norm | |
| from ...log import logger | |
| LRELU_SLOPE = 0.1 | |
| def init_weights(m, mean=0.0, std=0.01): | |
| classname = m.__class__.__name__ | |
| if classname.find("Conv") != -1: | |
| m.weight.data.normal_(mean, std) | |
| def get_padding(kernel_size, dilation=1): | |
| return int((kernel_size * dilation - dilation) / 2) | |
| class ResBlock1(torch.nn.Module): | |
| def __init__(self, h, channels, kernel_size=3, dilation=(1, 3, 5)): | |
| super(ResBlock1, self).__init__() | |
| self.h = h | |
| self.convs1 = nn.ModuleList( | |
| [ | |
| weight_norm( | |
| Conv1d( | |
| channels, | |
| channels, | |
| kernel_size, | |
| 1, | |
| dilation=dilation[0], | |
| padding=get_padding(kernel_size, dilation[0]), | |
| ) | |
| ), | |
| weight_norm( | |
| Conv1d( | |
| channels, | |
| channels, | |
| kernel_size, | |
| 1, | |
| dilation=dilation[1], | |
| padding=get_padding(kernel_size, dilation[1]), | |
| ) | |
| ), | |
| weight_norm( | |
| Conv1d( | |
| channels, | |
| channels, | |
| kernel_size, | |
| 1, | |
| dilation=dilation[2], | |
| padding=get_padding(kernel_size, dilation[2]), | |
| ) | |
| ), | |
| ] | |
| ) | |
| self.convs1.apply(init_weights) | |
| self.convs2 = nn.ModuleList( | |
| [ | |
| weight_norm( | |
| Conv1d( | |
| channels, | |
| channels, | |
| kernel_size, | |
| 1, | |
| dilation=1, | |
| padding=get_padding(kernel_size, 1), | |
| ) | |
| ), | |
| weight_norm( | |
| Conv1d( | |
| channels, | |
| channels, | |
| kernel_size, | |
| 1, | |
| dilation=1, | |
| padding=get_padding(kernel_size, 1), | |
| ) | |
| ), | |
| weight_norm( | |
| Conv1d( | |
| channels, | |
| channels, | |
| kernel_size, | |
| 1, | |
| dilation=1, | |
| padding=get_padding(kernel_size, 1), | |
| ) | |
| ), | |
| ] | |
| ) | |
| self.convs2.apply(init_weights) | |
| def forward(self, x): | |
| for c1, c2 in zip(self.convs1, self.convs2): | |
| xt = F.leaky_relu(x, LRELU_SLOPE) | |
| xt = c1(xt) | |
| xt = F.leaky_relu(xt, LRELU_SLOPE) | |
| xt = c2(xt) | |
| x = xt + x | |
| return x | |
| def remove_weight_norm(self): | |
| for l in self.convs1: | |
| remove_weight_norm(l) | |
| for l in self.convs2: | |
| remove_weight_norm(l) | |
| class ResBlock2(torch.nn.Module): | |
| def __init__(self, h, channels, kernel_size=3, dilation=(1, 3)): | |
| super(ResBlock2, self).__init__() | |
| self.h = h | |
| self.convs = nn.ModuleList( | |
| [ | |
| weight_norm( | |
| Conv1d( | |
| channels, | |
| channels, | |
| kernel_size, | |
| 1, | |
| dilation=dilation[0], | |
| padding=get_padding(kernel_size, dilation[0]), | |
| ) | |
| ), | |
| weight_norm( | |
| Conv1d( | |
| channels, | |
| channels, | |
| kernel_size, | |
| 1, | |
| dilation=dilation[1], | |
| padding=get_padding(kernel_size, dilation[1]), | |
| ) | |
| ), | |
| ] | |
| ) | |
| self.convs.apply(init_weights) | |
| def forward(self, x): | |
| for c in self.convs: | |
| xt = F.leaky_relu(x, LRELU_SLOPE) | |
| xt = c(xt) | |
| x = xt + x | |
| return x | |
| def remove_weight_norm(self): | |
| for l in self.convs: | |
| remove_weight_norm(l) | |
| class InterpolationBlock(torch.nn.Module): | |
| def __init__( | |
| self, scale_factor, mode="nearest", align_corners=None, downsample=False | |
| ): | |
| super(InterpolationBlock, self).__init__() | |
| self.downsample = downsample | |
| self.scale_factor = scale_factor | |
| self.mode = mode | |
| self.align_corners = align_corners | |
| def forward(self, x): | |
| outputs = F.interpolate( | |
| x, | |
| size=x.shape[-1] * self.scale_factor | |
| if not self.downsample | |
| else x.shape[-1] // self.scale_factor, | |
| mode=self.mode, | |
| align_corners=self.align_corners, | |
| recompute_scale_factor=False, | |
| ) | |
| return outputs | |
| class Generator(torch.nn.Module): | |
| def __init__(self, h): | |
| super(Generator, self).__init__() | |
| self.h = h | |
| self.num_kernels = len(h.resblock_kernel_sizes) | |
| self.num_upsamples = len(h.upsample_rates) | |
| self.conv_pre = weight_norm( | |
| Conv1d(80, h.upsample_initial_channel, 7, 1, padding=3) | |
| ) | |
| resblock = ResBlock1 if h.resblock == "1" else ResBlock2 | |
| self.ups = nn.ModuleList() | |
| # for i, (u, k) in enumerate(zip(h.upsample_rates, h.upsample_kernel_sizes)): | |
| # # self.ups.append(weight_norm( | |
| # # ConvTranspose1d(h.upsample_initial_channel//(2**i), h.upsample_initial_channel//(2**(i+1)), | |
| # # k, u, padding=(k-u)//2))) | |
| if h.sampling_rate == 24000: | |
| for i, (u, k) in enumerate(zip(h.upsample_rates, h.upsample_kernel_sizes)): | |
| self.ups.append( | |
| torch.nn.Sequential( | |
| InterpolationBlock(u), | |
| weight_norm( | |
| torch.nn.Conv1d( | |
| h.upsample_initial_channel // (2**i), | |
| h.upsample_initial_channel // (2 ** (i + 1)), | |
| k, | |
| padding=(k - 1) // 2, | |
| ) | |
| ), | |
| ) | |
| ) | |
| else: | |
| for i, (u, k) in enumerate(zip(h.upsample_rates, h.upsample_kernel_sizes)): | |
| self.ups.append( | |
| weight_norm( | |
| ConvTranspose1d( | |
| h.upsample_initial_channel // (2**i), | |
| h.upsample_initial_channel // (2 ** (i + 1)), | |
| k, | |
| u, | |
| padding=(u // 2 + u % 2), | |
| output_padding=u % 2, | |
| ) | |
| ) | |
| ) | |
| self.resblocks = nn.ModuleList() | |
| ch = 0 | |
| for i in range(len(self.ups)): | |
| ch = h.upsample_initial_channel // (2 ** (i + 1)) | |
| for j, (k, d) in enumerate( | |
| zip(h.resblock_kernel_sizes, h.resblock_dilation_sizes) | |
| ): | |
| self.resblocks.append(resblock(h, ch, k, d)) | |
| self.conv_post = weight_norm(Conv1d(ch, 1, 7, 1, padding=3)) | |
| self.ups.apply(init_weights) | |
| self.conv_post.apply(init_weights) | |
| def forward(self, x): | |
| x = self.conv_pre(x) | |
| for i in range(self.num_upsamples): | |
| x = F.leaky_relu(x, LRELU_SLOPE) | |
| x = self.ups[i](x) | |
| xs = None | |
| for j in range(self.num_kernels): | |
| if xs is None: | |
| xs = self.resblocks[i * self.num_kernels + j](x) | |
| else: | |
| xs += self.resblocks[i * self.num_kernels + j](x) | |
| x = xs / self.num_kernels | |
| x = F.leaky_relu(x) | |
| x = self.conv_post(x) | |
| x = torch.tanh(x) | |
| return x | |
| def remove_weight_norm(self): | |
| logger.debug("Removing weight norm...") | |
| for module in self.ups: | |
| if self.h.sampling_rate == 24000: | |
| remove_weight_norm(module[-1]) | |
| else: | |
| remove_weight_norm(module) | |
| for module in self.resblocks: | |
| module.remove_weight_norm() | |
| remove_weight_norm(self.conv_pre) | |
| remove_weight_norm(self.conv_post) | |
| class DiscriminatorP(torch.nn.Module): | |
| def __init__(self, period, kernel_size=5, stride=3, use_spectral_norm=False): | |
| super(DiscriminatorP, self).__init__() | |
| self.period = period | |
| norm_f = weight_norm if use_spectral_norm == False else spectral_norm | |
| self.convs = nn.ModuleList( | |
| [ | |
| norm_f( | |
| Conv2d( | |
| 1, | |
| 32, | |
| (kernel_size, 1), | |
| (stride, 1), | |
| padding=(get_padding(5, 1), 0), | |
| ) | |
| ), | |
| norm_f( | |
| Conv2d( | |
| 32, | |
| 128, | |
| (kernel_size, 1), | |
| (stride, 1), | |
| padding=(get_padding(5, 1), 0), | |
| ) | |
| ), | |
| norm_f( | |
| Conv2d( | |
| 128, | |
| 512, | |
| (kernel_size, 1), | |
| (stride, 1), | |
| padding=(get_padding(5, 1), 0), | |
| ) | |
| ), | |
| norm_f( | |
| Conv2d( | |
| 512, | |
| 1024, | |
| (kernel_size, 1), | |
| (stride, 1), | |
| padding=(get_padding(5, 1), 0), | |
| ) | |
| ), | |
| norm_f(Conv2d(1024, 1024, (kernel_size, 1), 1, padding=(2, 0))), | |
| ] | |
| ) | |
| self.conv_post = norm_f(Conv2d(1024, 1, (3, 1), 1, padding=(1, 0))) | |
| def forward(self, x): | |
| fmap = [] | |
| # 1d to 2d | |
| b, c, t = x.shape | |
| if t % self.period != 0: # pad first | |
| n_pad = self.period - (t % self.period) | |
| x = F.pad(x, (0, n_pad), "reflect") | |
| t = t + n_pad | |
| x = x.view(b, c, t // self.period, self.period) | |
| for l in self.convs: | |
| x = l(x) | |
| x = F.leaky_relu(x, LRELU_SLOPE) | |
| fmap.append(x) | |
| x = self.conv_post(x) | |
| fmap.append(x) | |
| x = torch.flatten(x, 1, -1) | |
| return x, fmap | |
| class MultiPeriodDiscriminator(torch.nn.Module): | |
| def __init__(self): | |
| super(MultiPeriodDiscriminator, self).__init__() | |
| self.discriminators = nn.ModuleList( | |
| [ | |
| DiscriminatorP(2), | |
| DiscriminatorP(3), | |
| DiscriminatorP(5), | |
| DiscriminatorP(7), | |
| DiscriminatorP(11), | |
| ] | |
| ) | |
| def forward(self, y, y_hat): | |
| y_d_rs = [] | |
| y_d_gs = [] | |
| fmap_rs = [] | |
| fmap_gs = [] | |
| for i, d in enumerate(self.discriminators): | |
| y_d_r, fmap_r = d(y) | |
| y_d_g, fmap_g = d(y_hat) | |
| y_d_rs.append(y_d_r) | |
| fmap_rs.append(fmap_r) | |
| y_d_gs.append(y_d_g) | |
| fmap_gs.append(fmap_g) | |
| return y_d_rs, y_d_gs, fmap_rs, fmap_gs | |
| class DiscriminatorS(torch.nn.Module): | |
| def __init__(self, use_spectral_norm=False): | |
| super(DiscriminatorS, self).__init__() | |
| norm_f = weight_norm if use_spectral_norm == False else spectral_norm | |
| self.convs = nn.ModuleList( | |
| [ | |
| norm_f(Conv1d(1, 128, 15, 1, padding=7)), | |
| norm_f(Conv1d(128, 128, 41, 2, groups=4, padding=20)), | |
| norm_f(Conv1d(128, 256, 41, 2, groups=16, padding=20)), | |
| norm_f(Conv1d(256, 512, 41, 4, groups=16, padding=20)), | |
| norm_f(Conv1d(512, 1024, 41, 4, groups=16, padding=20)), | |
| norm_f(Conv1d(1024, 1024, 41, 1, groups=16, padding=20)), | |
| norm_f(Conv1d(1024, 1024, 5, 1, padding=2)), | |
| ] | |
| ) | |
| self.conv_post = norm_f(Conv1d(1024, 1, 3, 1, padding=1)) | |
| def forward(self, x): | |
| fmap = [] | |
| for l in self.convs: | |
| x = l(x) | |
| x = F.leaky_relu(x, LRELU_SLOPE) | |
| fmap.append(x) | |
| x = self.conv_post(x) | |
| fmap.append(x) | |
| x = torch.flatten(x, 1, -1) | |
| return x, fmap | |
| class MultiScaleDiscriminator(torch.nn.Module): | |
| def __init__(self): | |
| super(MultiScaleDiscriminator, self).__init__() | |
| self.discriminators = nn.ModuleList( | |
| [ | |
| DiscriminatorS(use_spectral_norm=True), | |
| DiscriminatorS(), | |
| DiscriminatorS(), | |
| ] | |
| ) | |
| self.meanpools = nn.ModuleList( | |
| [AvgPool1d(4, 2, padding=2), AvgPool1d(4, 2, padding=2)] | |
| ) | |
| def forward(self, y, y_hat): | |
| y_d_rs = [] | |
| y_d_gs = [] | |
| fmap_rs = [] | |
| fmap_gs = [] | |
| for i, d in enumerate(self.discriminators): | |
| if i != 0: | |
| y = self.meanpools[i - 1](y) | |
| y_hat = self.meanpools[i - 1](y_hat) | |
| y_d_r, fmap_r = d(y) | |
| y_d_g, fmap_g = d(y_hat) | |
| y_d_rs.append(y_d_r) | |
| fmap_rs.append(fmap_r) | |
| y_d_gs.append(y_d_g) | |
| fmap_gs.append(fmap_g) | |
| return y_d_rs, y_d_gs, fmap_rs, fmap_gs | |
| def feature_loss(fmap_r, fmap_g): | |
| loss = 0 | |
| for dr, dg in zip(fmap_r, fmap_g): | |
| for rl, gl in zip(dr, dg): | |
| loss += torch.mean(torch.abs(rl - gl)) | |
| return loss * 2 | |
| def discriminator_loss(disc_real_outputs, disc_generated_outputs): | |
| loss = 0 | |
| r_losses = [] | |
| g_losses = [] | |
| for dr, dg in zip(disc_real_outputs, disc_generated_outputs): | |
| r_loss = torch.mean((1 - dr) ** 2) | |
| g_loss = torch.mean(dg**2) | |
| loss += r_loss + g_loss | |
| r_losses.append(r_loss.item()) | |
| g_losses.append(g_loss.item()) | |
| return loss, r_losses, g_losses | |
| def generator_loss(disc_outputs): | |
| loss = 0 | |
| gen_losses = [] | |
| for dg in disc_outputs: | |
| l = torch.mean((1 - dg) ** 2) | |
| gen_losses.append(l) | |
| loss += l | |
| return loss, gen_losses | |