def test_inference(): input_dummy = torch.randint(0, 24, (8, 128)).long().to(device) input_lengths = torch.randint(100, 129, (8,)).long().to(device) input_lengths[-1] = 128 mel_spec = torch.rand(8, 30, c.audio["num_mels"]).to(device) mel_lengths = torch.randint(20, 30, (8,)).long().to(device) speaker_ids = torch.randint(0, 5, (8,)).long().to(device) # create model config = GlowTTSConfig(num_chars=32) model = GlowTTS(config).to(device) model.eval() print(" > Num parameters for GlowTTS model:%s" % (count_parameters(model))) # inference encoder and decoder with MAS y = model.inference_with_MAS(input_dummy, input_lengths, mel_spec, mel_lengths) y2 = model.decoder_inference(mel_spec, mel_lengths) assert ( y2["model_outputs"].shape == y["model_outputs"].shape ), "Difference between the shapes of the glowTTS inference with MAS ({}) and the inference using only the decoder ({}) !!".format( y["model_outputs"].shape, y2["model_outputs"].shape )
def test_inference(): input_dummy = torch.randint(0, 24, (8, 128)).long().to(device) input_lengths = torch.randint(100, 129, (8, )).long().to(device) input_lengths[-1] = 128 mel_spec = torch.rand(8, c.audio["num_mels"], 30).to(device) mel_lengths = torch.randint(20, 30, (8, )).long().to(device) speaker_ids = torch.randint(0, 5, (8, )).long().to(device) # create model model = GlowTTS( num_chars=32, hidden_channels_enc=48, hidden_channels_dec=48, hidden_channels_dp=32, out_channels=80, encoder_type="rel_pos_transformer", encoder_params={ "kernel_size": 3, "dropout_p": 0.1, "num_layers": 6, "num_heads": 2, "hidden_channels_ffn": 16, # 4 times the hidden_channels "input_length": None, }, use_encoder_prenet=True, num_flow_blocks_dec=12, kernel_size_dec=5, dilation_rate=1, num_block_layers=4, dropout_p_dec=0.0, num_speakers=0, c_in_channels=0, num_splits=4, num_squeeze=1, sigmoid_scale=False, mean_only=False, ).to(device) model.eval() print(" > Num parameters for GlowTTS model:%s" % (count_parameters(model))) # inference encoder and decoder with MAS y, *_ = model.inference_with_MAS(input_dummy, input_lengths, mel_spec, mel_lengths, None) y_dec, _ = model.decoder_inference(mel_spec, mel_lengths) assert ( y_dec.shape == y.shape ), "Difference between the shapes of the glowTTS inference with MAS ({}) and the inference using only the decoder ({}) !!".format( y.shape, y_dec.shape)
def _test_inference_with_MAS(self, batch_size): input_dummy, input_lengths, mel_spec, mel_lengths, speaker_ids = self._create_inputs( batch_size) # create model config = GlowTTSConfig(num_chars=32) model = GlowTTS(config).to(device) model.eval() # inference encoder and decoder with MAS y = model.inference_with_MAS(input_dummy, input_lengths, mel_spec, mel_lengths) y2 = model.decoder_inference(mel_spec, mel_lengths) assert ( y2["model_outputs"].shape == y["model_outputs"].shape ), "Difference between the shapes of the glowTTS inference with MAS ({}) and the inference using only the decoder ({}) !!".format( y["model_outputs"].shape, y2["model_outputs"].shape)