def gpu_decode(feat_list, gpu, cvlist=None, mcdpow_cvlist=None, mcdpowstd_cvlist=None, mcd_cvlist=None, \ mcdstd_cvlist=None, cvlist_dv=None, mcdpow_cvlist_dv=None, mcdpowstd_cvlist_dv=None, \ mcd_cvlist_dv=None, mcdstd_cvlist_dv=None, \ f0rmse_cvlist=None, f0corr_cvlist=None, caprmse_cvlist=None, \ f0rmse_cvlist_dv=None, f0corr_cvlist_dv=None, caprmse_cvlist_dv=None, \ cvlist_cyc=None, mcdpow_cvlist_cyc=None, mcdpowstd_cvlist_cyc=None, mcd_cvlist_cyc=None, \ mcdstd_cvlist_cyc=None, cvlist_cyc_dv=None, mcdpow_cvlist_cyc_dv=None, mcdpowstd_cvlist_cyc_dv=None, \ mcd_cvlist_cyc_dv=None, mcdstd_cvlist_cyc_dv=None, \ f0rmse_cvlist_cyc=None, f0corr_cvlist_cyc=None, caprmse_cvlist_cyc=None, \ f0rmse_cvlist_cyc_dv=None, f0corr_cvlist_cyc_dv=None, caprmse_cvlist_cyc_dv=None): with torch.cuda.device(gpu): # define model and load parameters with torch.no_grad(): model_encoder_mcep = GRU_VAE_ENCODER( in_dim=config.mcep_dim+config.excit_dim, n_spk=n_spk, lat_dim=config.lat_dim, hidden_layers=config.hidden_layers_enc, hidden_units=config.hidden_units_enc, kernel_size=config.kernel_size_enc, dilation_size=config.dilation_size_enc, causal_conv=config.causal_conv_enc, bi=config.bi_enc, cont=False, pad_first=True, right_size=config.right_size, ar=config.ar_enc) logging.info(model_encoder_mcep) model_decoder_mcep = GRU_SPEC_DECODER( feat_dim=config.lat_dim, out_dim=config.mcep_dim, n_spk=n_spk, hidden_layers=config.hidden_layers_dec, hidden_units=config.hidden_units_dec, kernel_size=config.kernel_size_dec, dilation_size=config.dilation_size_dec, causal_conv=config.causal_conv_dec, bi=config.bi_dec, spkidtr_dim=config.spkidtr_dim, pad_first=True, ar=config.ar_dec) logging.info(model_decoder_mcep) model_encoder_excit = GRU_VAE_ENCODER( in_dim=config.mcep_dim+config.excit_dim, n_spk=n_spk, lat_dim=config.lat_dim_e, hidden_layers=config.hidden_layers_enc, hidden_units=config.hidden_units_enc, kernel_size=config.kernel_size_enc, dilation_size=config.dilation_size_enc, causal_conv=config.causal_conv_enc, bi=config.bi_enc, cont=False, pad_first=True, right_size=config.right_size, ar=config.ar_enc) logging.info(model_encoder_excit) model_decoder_excit = GRU_EXCIT_DECODER( feat_dim=config.lat_dim_e, cap_dim=config.cap_dim, n_spk=n_spk, hidden_layers=config.hidden_layers_lf0, hidden_units=config.hidden_units_lf0, kernel_size=config.kernel_size_lf0, dilation_size=config.dilation_size_lf0, causal_conv=config.causal_conv_lf0, bi=config.bi_lf0, spkidtr_dim=config.spkidtr_dim, pad_first=True, ar=config.ar_f0) logging.info(model_decoder_excit) model_vq = torch.nn.Embedding(config.ctr_size, config.lat_dim) logging.info(model_vq) model_encoder_mcep.load_state_dict(torch.load(args.model)["model_encoder_mcep"]) model_decoder_mcep.load_state_dict(torch.load(args.model)["model_decoder_mcep"]) model_encoder_excit.load_state_dict(torch.load(args.model)["model_encoder_excit"]) model_decoder_excit.load_state_dict(torch.load(args.model)["model_decoder_excit"]) model_vq.load_state_dict(torch.load(args.model)["model_vq"]) model_encoder_mcep.cuda() model_decoder_mcep.cuda() model_encoder_excit.cuda() model_decoder_excit.cuda() model_vq.cuda() model_encoder_mcep.eval() model_decoder_mcep.eval() model_encoder_excit.eval() model_decoder_excit.eval() model_vq.eval() for param in model_encoder_mcep.parameters(): param.requires_grad = False for param in model_decoder_mcep.parameters(): param.requires_grad = False for param in model_encoder_excit.parameters(): param.requires_grad = False for param in model_decoder_excit.parameters(): param.requires_grad = False for param in model_vq.parameters(): param.requires_grad = False if config.ar_enc: yz_in = torch.zeros((1, 1, n_spk+config.lat_dim)).cuda() yz_in_e = torch.zeros((1, 1, n_spk+config.lat_dim_e)).cuda() if config.ar_dec or config.ar_f0: mean_stats = torch.FloatTensor(read_hdf5(config.stats, "/mean_"+config.string_path.replace("/",""))) scale_stats = torch.FloatTensor(read_hdf5(config.stats, "/scale_"+config.string_path.replace("/",""))) if config.ar_dec: x_in = ((torch.zeros((1, 1, config.mcep_dim))-mean_stats[config.excit_dim:])/scale_stats[config.excit_dim:]).cuda() if config.ar_f0: e_in = torch.cat((torch.zeros(1,1,1), (torch.zeros(1,1,1)-mean_stats[1:2])/scale_stats[1:2], \ torch.zeros(1,1,1), (torch.zeros(1,1,config.cap_dim)-mean_stats[3:config.excit_dim])/scale_stats[3:config.excit_dim]), 2).cuda() count = 0 pad_left = (model_encoder_mcep.pad_left + model_decoder_mcep.pad_left)*2 pad_right = (model_encoder_mcep.pad_right + model_decoder_mcep.pad_right)*2 outpad_lefts = [None]*3 outpad_rights = [None]*3 outpad_lefts[0] = pad_left-model_encoder_mcep.pad_left outpad_rights[0] = pad_right-model_encoder_mcep.pad_right outpad_lefts[1] = outpad_lefts[0]-model_decoder_mcep.pad_left outpad_rights[1] = outpad_rights[0]-model_decoder_mcep.pad_right outpad_lefts[2] = outpad_lefts[1]-model_encoder_mcep.pad_left outpad_rights[2] = outpad_rights[1]-model_encoder_mcep.pad_right for feat_file in feat_list: # convert mcep logging.info("recmcep " + feat_file) feat_org = read_hdf5(feat_file, "/feat_mceplf0cap") logging.info(feat_org.shape) with torch.no_grad(): feat = F.pad(torch.FloatTensor(feat_org).cuda().unsqueeze(0).transpose(1,2), (pad_left,pad_right), "replicate").transpose(1,2) if config.ar_enc: spk_logits, lat_src, _, _ = model_encoder_mcep(feat, yz_in=yz_in) spk_logits_e, lat_src_e, _, _ = model_encoder_excit(feat, yz_in=yz_in) else: spk_logits, lat_src, _ = model_encoder_mcep(feat) spk_logits_e, lat_src_e, _ = model_encoder_excit(feat) idx_vq = nn_search_batch(lat_src, model_vq.weight) lat_src = model_vq(idx_vq) if outpad_rights[0] > 0: unique, counts = np.unique(idx_vq[:,outpad_lefts[0]:-outpad_rights[0]].cpu().data.numpy(), return_counts=True) else: unique, counts = np.unique(idx_vq[:,outpad_lefts[0]:].cpu().data.numpy(), return_counts=True) logging.info("input vq") logging.info(dict(zip(unique, counts))) idx_vq_e = nn_search_batch(lat_src_e, model_vq.weight) lat_src_e = model_vq(idx_vq_e) if outpad_rights[0] > 0: unique, counts = np.unique(idx_vq_e[:,outpad_lefts[0]:-outpad_rights[0]].cpu().data.numpy(), return_counts=True) else: unique, counts = np.unique(idx_vq_e[:,outpad_lefts[0]:].cpu().data.numpy(), return_counts=True) logging.info("input vq_e") logging.info(dict(zip(unique, counts))) logging.info('input spkpost') if outpad_rights[0] > 0: logging.info(torch.mean(F.softmax(spk_logits[:,outpad_lefts[0]:-outpad_rights[0]], dim=-1), 1)) else: logging.info(torch.mean(F.softmax(spk_logits[:,outpad_lefts[0]:], dim=-1), 1)) logging.info('input spkpost_e') if outpad_rights[0] > 0: logging.info(torch.mean(F.softmax(spk_logits_e[:,outpad_lefts[0]:-outpad_rights[0]], dim=-1), 1)) else: logging.info(torch.mean(F.softmax(spk_logits_e[:,outpad_lefts[0]:], dim=-1), 1)) src_code = (torch.ones((1, lat_src.shape[1]))*spk_idx).cuda().long() if config.ar_dec: cvmcep_src, _, _ = model_decoder_mcep(src_code, lat_src, x_in=x_in) else: cvmcep_src, _ = model_decoder_mcep(src_code, lat_src) if config.ar_f0: cvlf0_src, _, _ = model_decoder_excit(src_code, lat_src_e, e_in=e_in) else: cvlf0_src, _ = model_decoder_excit(src_code, lat_src_e) cv_feat = torch.cat((cvlf0_src, cvmcep_src), 2) if config.ar_enc: spk_logits, lat_rec, _, _ = model_encoder_mcep(cv_feat, yz_in=yz_in) spk_logits_e, lat_rec_e, _, _ = model_encoder_excit(cv_feat, yz_in=yz_in) else: spk_logits, lat_rec, _ = model_encoder_mcep(cv_feat) spk_logits_e, lat_rec_e, _ = model_encoder_excit(cv_feat) idx_vq = nn_search_batch(lat_rec, model_vq.weight) lat_rec = model_vq(idx_vq) if outpad_rights[2] > 0: unique, counts = np.unique(idx_vq[:,outpad_lefts[2]:-outpad_rights[2]].cpu().data.numpy(), return_counts=True) else: unique, counts = np.unique(idx_vq[:,outpad_lefts[2]:].cpu().data.numpy(), return_counts=True) logging.info("input vq") logging.info(dict(zip(unique, counts))) idx_vq_e = nn_search_batch(lat_rec_e, model_vq.weight) lat_rec_e = model_vq(idx_vq_e) if outpad_rights[2] > 0: unique, counts = np.unique(idx_vq_e[:,outpad_lefts[2]:-outpad_rights[2]].cpu().data.numpy(), return_counts=True) else: unique, counts = np.unique(idx_vq_e[:,outpad_lefts[2]:].cpu().data.numpy(), return_counts=True) logging.info("input vq_e") logging.info(dict(zip(unique, counts))) logging.info('rec spkpost') if outpad_rights[2] > 0: logging.info(torch.mean(F.softmax(spk_logits[:,outpad_lefts[2]:-outpad_rights[2]], dim=-1), 1)) else: logging.info(torch.mean(F.softmax(spk_logits[:,outpad_lefts[2]:], dim=-1), 1)) logging.info('rec spkpost_e') if outpad_rights[2] > 0: logging.info(torch.mean(F.softmax(spk_logits_e[:,outpad_lefts[2]:-outpad_rights[2]], dim=-1), 1)) else: logging.info(torch.mean(F.softmax(spk_logits_e[:,outpad_lefts[2]:], dim=-1), 1)) src_code = (torch.ones((1, lat_rec.shape[1]))*spk_idx).cuda().long() if config.ar_dec: cvmcep_cyc, _, _ = model_decoder_mcep(src_code, lat_rec, x_in=x_in) else: cvmcep_cyc, _ = model_decoder_mcep(src_code, lat_rec) if config.ar_f0: cvlf0_cyc, _, _ = model_decoder_excit(src_code, lat_rec_e, e_in=e_in) else: cvlf0_cyc, _ = model_decoder_excit(src_code, lat_rec_e) if outpad_rights[1] > 0: cvmcep_src = cvmcep_src[:,outpad_lefts[1]:-outpad_rights[1]] cvlf0_src = cvlf0_src[:,outpad_lefts[1]:-outpad_rights[1]] else: cvmcep_src = cvmcep_src[:,outpad_lefts[1]:] cvlf0_src = cvlf0_src[:,outpad_lefts[1]:] feat_rec = torch.cat((torch.round(cvlf0_src[:,:,:1]), cvlf0_src[:,:,1:2], \ torch.round(cvlf0_src[:,:,2:3]), cvlf0_src[:,:,3:], cvmcep_src), \ 2)[0].cpu().data.numpy() feat_cyc = torch.cat((torch.round(cvlf0_cyc[:,:,:1]), cvlf0_cyc[:,:,1:2], \ torch.round(cvlf0_cyc[:,:,2:3]), cvlf0_cyc[:,:,3:], cvmcep_cyc), \ 2)[0].cpu().data.numpy() cvmcep_src = np.array(cvmcep_src[0].cpu().data.numpy(), dtype=np.float64) cvlf0_src = np.array(cvlf0_src[0].cpu().data.numpy(), dtype=np.float64) cvmcep_cyc = np.array(cvmcep_cyc[0].cpu().data.numpy(), dtype=np.float64) cvlf0_cyc = np.array(cvlf0_cyc[0].cpu().data.numpy(), dtype=np.float64) logging.info(cvlf0_src.shape) logging.info(cvmcep_src.shape) logging.info(cvlf0_cyc.shape) logging.info(cvmcep_cyc.shape) mcep = np.array(feat_org[:,-model_decoder_mcep.out_dim:]) f0 = np.array(np.rint(feat_org[:,0])*np.exp(feat_org[:,1])) codeap = np.array(np.rint(feat_org[:,2:3])*(-np.exp(feat_org[:,3:feat_org.shape[-1]-model_decoder_mcep.out_dim]))) cvf0_src = np.array(np.rint(cvlf0_src[:,0])*np.exp(cvlf0_src[:,1])) cvcodeap_src = np.array(np.rint(cvlf0_src[:,2:3])*(-np.exp(cvlf0_src[:,3:]))) f0_rmse = np.sqrt(np.mean((cvf0_src-f0)**2)) logging.info('F0_rmse_rec: %lf Hz' % (f0_rmse)) cvf0_src_mean = np.mean(cvf0_src) f0_mean = np.mean(f0) f0_corr = np.sum((cvf0_src-cvf0_src_mean)*(f0-f0_mean))/\ (np.sqrt(np.sum((cvf0_src-cvf0_src_mean)**2))*np.sqrt(np.sum((f0-f0_mean)**2))) logging.info('F0_corr_rec: %lf' % (f0_corr)) codeap_rmse = np.sqrt(np.mean((cvcodeap_src-codeap)**2, axis=0)) for i in range(codeap_rmse.shape[-1]): logging.info('codeap-%d_rmse_rec: %lf dB' % (i+1, codeap_rmse[i])) cvf0_cyc = np.array(np.rint(cvlf0_cyc[:,0])*np.exp(cvlf0_cyc[:,1])) cvcodeap_cyc = np.array(np.rint(cvlf0_cyc[:,2:3])*(-np.exp(cvlf0_cyc[:,3:]))) f0_rmse_cyc = np.sqrt(np.mean((cvf0_cyc-f0)**2)) logging.info('F0_rmse_cyc: %lf Hz' % (f0_rmse_cyc)) cvf0_cyc_mean = np.mean(cvf0_cyc) f0_mean = np.mean(f0) f0_corr_cyc = np.sum((cvf0_cyc-cvf0_cyc_mean)*(f0-f0_mean))/\ (np.sqrt(np.sum((cvf0_cyc-cvf0_cyc_mean)**2))*np.sqrt(np.sum((f0-f0_mean)**2))) logging.info('F0_corr_cyc: %lf' % (f0_corr_cyc)) codeap_rmse_cyc = np.sqrt(np.mean((cvcodeap_cyc-codeap)**2, axis=0)) for i in range(codeap_rmse_cyc.shape[-1]): logging.info('codeap-%d_rmse_cyc: %lf dB' % (i+1, codeap_rmse_cyc[i])) spcidx = read_hdf5(feat_file, "/spcidx_range")[0] _, _, _, mcdpow_arr = dtw.dtw_org_to_trg(np.array(cvmcep_src[np.array(spcidx),:], \ dtype=np.float64), np.array(mcep[np.array(spcidx),:], dtype=np.float64)) _, _, _, mcd_arr = dtw.dtw_org_to_trg(np.array(cvmcep_src[np.array(spcidx),1:], \ dtype=np.float64), np.array(mcep[np.array(spcidx),1:], dtype=np.float64)) mcdpow_mean = np.mean(mcdpow_arr) mcdpow_std = np.std(mcdpow_arr) mcd_mean = np.mean(mcd_arr) mcd_std = np.std(mcd_arr) logging.info("mcdpow_rec: %.6f dB +- %.6f" % (mcdpow_mean, mcdpow_std)) logging.info("mcd_rec: %.6f dB +- %.6f" % (mcd_mean, mcd_std)) _, _, _, mcdpow_arr = dtw.dtw_org_to_trg(np.array(cvmcep_cyc[np.array(spcidx),:], \ dtype=np.float64), np.array(mcep[np.array(spcidx),:], dtype=np.float64)) _, _, _, mcd_arr = dtw.dtw_org_to_trg(np.array(cvmcep_cyc[np.array(spcidx),1:], \ dtype=np.float64), np.array(mcep[np.array(spcidx),1:], dtype=np.float64)) mcdpow_mean_cyc = np.mean(mcdpow_arr) mcdpow_std_cyc = np.std(mcdpow_arr) mcd_mean_cyc = np.mean(mcd_arr) mcd_std_cyc = np.std(mcd_arr) logging.info("mcdpow_cyc: %.6f dB +- %.6f" % (mcdpow_mean_cyc, mcdpow_std_cyc)) logging.info("mcd_cyc: %.6f dB +- %.6f" % (mcd_mean_cyc, mcd_std_cyc)) logging.info('org f0') logging.info(f0[10:15]) logging.info('rec f0') logging.info(cvf0_src[10:15]) logging.info('cyc f0') logging.info(cvf0_cyc[10:15]) logging.info('org cap') logging.info(codeap[10:15]) logging.info('rec cap') logging.info(cvcodeap_src[10:15]) logging.info('cyc cap') logging.info(cvcodeap_cyc[10:15]) dataset = feat_file.split('/')[1].split('_')[0] if 'tr' in dataset: logging.info('trn') f0rmse_cvlist.append(f0_rmse) f0corr_cvlist.append(f0_corr) caprmse_cvlist.append(codeap_rmse) mcdpow_cvlist.append(mcdpow_mean) mcdpow_cvlist.append(mcdpow_mean) mcdpowstd_cvlist.append(mcdpow_std) mcd_cvlist.append(mcd_mean) mcdstd_cvlist.append(mcd_std) cvlist.append(np.var(cvmcep_src[:,1:], axis=0)) logging.info(len(cvlist)) f0rmse_cvlist_cyc.append(f0_rmse_cyc) f0corr_cvlist_cyc.append(f0_corr_cyc) caprmse_cvlist_cyc.append(codeap_rmse_cyc) mcdpow_cvlist_cyc.append(mcdpow_mean_cyc) mcdpow_cvlist_cyc.append(mcdpow_mean_cyc) mcdpowstd_cvlist_cyc.append(mcdpow_std_cyc) mcd_cvlist_cyc.append(mcd_mean_cyc) mcdstd_cvlist_cyc.append(mcd_std_cyc) cvlist_cyc.append(np.var(cvmcep_cyc[:,1:], axis=0)) elif 'dv' in dataset: logging.info('dev') f0rmse_cvlist_dv.append(f0_rmse) f0corr_cvlist_dv.append(f0_corr) caprmse_cvlist_dv.append(codeap_rmse) mcdpow_cvlist_dv.append(mcdpow_mean) mcdpowstd_cvlist_dv.append(mcdpow_std) mcd_cvlist_dv.append(mcd_mean) mcdstd_cvlist_dv.append(mcd_std) cvlist_dv.append(np.var(cvmcep_src[:,1:], axis=0)) logging.info(len(cvlist_dv)) f0rmse_cvlist_cyc_dv.append(f0_rmse_cyc) f0corr_cvlist_cyc_dv.append(f0_corr_cyc) caprmse_cvlist_cyc_dv.append(codeap_rmse_cyc) mcdpow_cvlist_cyc_dv.append(mcdpow_mean_cyc) mcdpow_cvlist_cyc_dv.append(mcdpow_mean_cyc) mcdpowstd_cvlist_cyc_dv.append(mcdpow_std_cyc) mcd_cvlist_cyc_dv.append(mcd_mean_cyc) mcdstd_cvlist_cyc_dv.append(mcd_std_cyc) cvlist_cyc_dv.append(np.var(cvmcep_cyc[:,1:], axis=0)) logging.info('write rec to h5') outh5dir = os.path.join(os.path.dirname(os.path.dirname(feat_file)), args.spk+"-"+args.spk) if not os.path.exists(outh5dir): os.makedirs(outh5dir) feat_file = os.path.join(outh5dir, os.path.basename(feat_file)) logging.info(feat_file + ' ' + args.string_path) logging.info(feat_rec.shape) write_hdf5(feat_file, args.string_path, feat_rec) logging.info('write cyc to h5') outh5dir = os.path.join(os.path.dirname(os.path.dirname(feat_file)), args.spk+"-"+args.spk+"-"+args.spk) if not os.path.exists(outh5dir): os.makedirs(outh5dir) feat_file = os.path.join(outh5dir, os.path.basename(feat_file)) logging.info(feat_file + ' ' + args.string_path) logging.info(feat_cyc.shape) write_hdf5(feat_file, args.string_path, feat_cyc) count += 1
def gpu_decode(feat_list, gpu, cvlist=None, lsd_cvlist=None, lsdstd_cvlist=None, cvlist_dv=None, lsd_cvlist_dv=None, lsdstd_cvlist_dv=None, f0rmse_cvlist=None, f0corr_cvlist=None, caprmse_cvlist=None, f0rmse_cvlist_dv=None, f0corr_cvlist_dv=None, caprmse_cvlist_dv=None, cvlist_cyc=None, lsd_cvlist_cyc=None, lsdstd_cvlist_cyc=None, cvlist_cyc_dv=None, lsd_cvlist_cyc_dv=None, lsdstd_cvlist_cyc_dv=None, f0rmse_cvlist_cyc=None, f0corr_cvlist_cyc=None, caprmse_cvlist_cyc=None, f0rmse_cvlist_cyc_dv=None, f0corr_cvlist_cyc_dv=None, caprmse_cvlist_cyc_dv=None): with torch.cuda.device(gpu): # define model and load parameters with torch.no_grad(): model_encoder_melsp = GRU_VAE_ENCODER( in_dim=config.mel_dim, n_spk=n_spk, lat_dim=config.lat_dim, hidden_layers=config.hidden_layers_enc, hidden_units=config.hidden_units_enc, kernel_size=config.kernel_size_enc, dilation_size=config.dilation_size_enc, causal_conv=config.causal_conv_enc, bi=False, ar=False, pad_first=True, right_size=config.right_size_enc) logging.info(model_encoder_melsp) model_decoder_melsp = GRU_SPEC_DECODER( feat_dim=config.lat_dim + config.lat_dim_e, excit_dim=config.excit_dim, out_dim=config.mel_dim, n_spk=n_spk, hidden_layers=config.hidden_layers_dec, hidden_units=config.hidden_units_dec, kernel_size=config.kernel_size_dec, dilation_size=config.dilation_size_dec, causal_conv=config.causal_conv_dec, bi=False, ar=False, pad_first=True, right_size=config.right_size_dec) logging.info(model_decoder_melsp) model_encoder_excit = GRU_VAE_ENCODER( in_dim=config.mel_dim, n_spk=n_spk, lat_dim=config.lat_dim_e, hidden_layers=config.hidden_layers_enc, hidden_units=config.hidden_units_enc, kernel_size=config.kernel_size_enc, dilation_size=config.dilation_size_enc, causal_conv=config.causal_conv_enc, bi=False, ar=False, pad_first=True, right_size=config.right_size_enc) logging.info(model_encoder_excit) model_decoder_excit = GRU_EXCIT_DECODER( feat_dim=config.lat_dim_e, cap_dim=config.cap_dim, n_spk=n_spk, hidden_layers=config.hidden_layers_lf0, hidden_units=config.hidden_units_lf0, kernel_size=config.kernel_size_lf0, dilation_size=config.dilation_size_lf0, causal_conv=config.causal_conv_lf0, bi=False, ar=False, pad_first=True, right_size=config.right_size_lf0) logging.info(model_decoder_excit) if (config.spkidtr_dim > 0): model_spkidtr = SPKID_TRANSFORM_LAYER( n_spk=n_spk, spkidtr_dim=config.spkidtr_dim) logging.info(model_spkidtr) model_encoder_melsp.load_state_dict( torch.load(args.model)["model_encoder_melsp"]) model_decoder_melsp.load_state_dict( torch.load(args.model)["model_decoder_melsp"]) model_encoder_excit.load_state_dict( torch.load(args.model)["model_encoder_excit"]) model_decoder_excit.load_state_dict( torch.load(args.model)["model_decoder_excit"]) if (config.spkidtr_dim > 0): model_spkidtr.load_state_dict( torch.load(args.model)["model_spkidtr"]) model_encoder_melsp.cuda() model_decoder_melsp.cuda() model_encoder_excit.cuda() model_decoder_excit.cuda() if (config.spkidtr_dim > 0): model_spkidtr.cuda() model_encoder_melsp.eval() model_decoder_melsp.eval() model_encoder_excit.eval() model_decoder_excit.eval() if (config.spkidtr_dim > 0): model_spkidtr.eval() for param in model_encoder_melsp.parameters(): param.requires_grad = False for param in model_decoder_melsp.parameters(): param.requires_grad = False for param in model_encoder_excit.parameters(): param.requires_grad = False for param in model_decoder_excit.parameters(): param.requires_grad = False if (config.spkidtr_dim > 0): for param in model_spkidtr.parameters(): param.requires_grad = False count = 0 pad_left = (model_encoder_melsp.pad_left + model_decoder_excit.pad_left + model_decoder_melsp.pad_left) * 2 pad_right = (model_encoder_melsp.pad_right + model_decoder_excit.pad_right + model_decoder_melsp.pad_right) * 2 outpad_lefts = [None] * 5 outpad_rights = [None] * 5 outpad_lefts[0] = pad_left - model_encoder_melsp.pad_left outpad_rights[0] = pad_right - model_encoder_melsp.pad_right outpad_lefts[1] = outpad_lefts[0] - model_decoder_excit.pad_left outpad_rights[1] = outpad_rights[0] - model_decoder_excit.pad_right outpad_lefts[2] = outpad_lefts[1] - model_decoder_melsp.pad_left outpad_rights[2] = outpad_rights[1] - model_decoder_melsp.pad_right outpad_lefts[3] = outpad_lefts[2] - model_encoder_melsp.pad_left outpad_rights[3] = outpad_rights[2] - model_encoder_melsp.pad_right outpad_lefts[4] = outpad_lefts[3] - model_decoder_excit.pad_left outpad_rights[4] = outpad_rights[3] - model_decoder_excit.pad_right for feat_file in feat_list: # reconst. melsp logging.info("recmelsp " + feat_file) feat_org = read_hdf5(feat_file, "/log_1pmelmagsp") logging.info(feat_org.shape) with torch.no_grad(): feat = F.pad( torch.FloatTensor(feat_org).cuda().unsqueeze( 0).transpose(1, 2), (pad_left, pad_right), "replicate").transpose(1, 2) spk_logits, _, lat_src, _ = model_encoder_melsp( feat, sampling=False) spk_logits_e, _, lat_src_e, _ = model_encoder_excit( feat, sampling=False) logging.info('input spkpost') if outpad_rights[0] > 0: logging.info( torch.mean( F.softmax(spk_logits[:, outpad_lefts[0]: -outpad_rights[0]], dim=-1), 1)) else: logging.info( torch.mean( F.softmax(spk_logits[:, outpad_lefts[0]:], dim=-1), 1)) logging.info('input spkpost_e') if outpad_rights[0] > 0: logging.info( torch.mean( F.softmax(spk_logits_e[:, outpad_lefts[0]: -outpad_rights[0]], dim=-1), 1)) else: logging.info( torch.mean( F.softmax(spk_logits_e[:, outpad_lefts[0]:], dim=-1), 1)) if config.spkidtr_dim > 0: src_code = model_spkidtr((torch.ones( (1, lat_src_e.shape[1])) * spk_idx).cuda().long()) else: src_code = (torch.ones( (1, lat_src_e.shape[1])) * spk_idx).cuda().long() cvlf0_src, _ = model_decoder_excit(src_code, lat_src_e) if model_decoder_excit.pad_right > 0: lat_cat = torch.cat(( lat_src_e[:, model_decoder_excit. pad_left:-model_decoder_excit.pad_right], lat_src[:, model_decoder_excit. pad_left:-model_decoder_excit.pad_right]), 2) else: lat_cat = torch.cat( (lat_src_e[:, model_decoder_excit.pad_left:], lat_src[:, model_decoder_excit.pad_left:]), 2) if config.spkidtr_dim > 0: src_code = model_spkidtr((torch.ones( (1, lat_cat.shape[1])) * spk_idx).cuda().long()) else: src_code = (torch.ones( (1, lat_cat.shape[1])) * spk_idx).cuda().long() cvmelsp_src, _ = model_decoder_melsp( lat_cat, y=src_code, e=cvlf0_src[:, :, :config.excit_dim]) spk_logits, _, lat_rec, _ = model_encoder_melsp( cvmelsp_src, sampling=False) spk_logits_e, _, lat_rec_e, _ = model_encoder_excit( cvmelsp_src, sampling=False) logging.info('rec spkpost') if outpad_rights[3] > 0: logging.info( torch.mean( F.softmax(spk_logits[:, outpad_lefts[3]: -outpad_rights[3]], dim=-1), 1)) else: logging.info( torch.mean( F.softmax(spk_logits[:, outpad_lefts[3]:], dim=-1), 1)) logging.info('rec spkpost_e') if outpad_rights[3] > 0: logging.info( torch.mean( F.softmax(spk_logits_e[:, outpad_lefts[3]: -outpad_rights[3]], dim=-1), 1)) else: logging.info( torch.mean( F.softmax(spk_logits_e[:, outpad_lefts[3]:], dim=-1), 1)) if config.spkidtr_dim > 0: src_code = model_spkidtr((torch.ones( (1, lat_rec_e.shape[1])) * spk_idx).cuda().long()) else: src_code = (torch.ones( (1, lat_rec_e.shape[1])) * spk_idx).cuda().long() cvlf0_cyc, _ = model_decoder_excit(src_code, lat_rec_e) if model_decoder_excit.pad_right > 0: lat_cat = torch.cat(( lat_rec_e[:, model_decoder_excit. pad_left:-model_decoder_excit.pad_right], lat_rec[:, model_decoder_excit. pad_left:-model_decoder_excit.pad_right]), 2) else: lat_cat = torch.cat( (lat_rec_e[:, model_decoder_excit.pad_left:], lat_rec[:, model_decoder_excit.pad_left:]), 2) if config.spkidtr_dim > 0: src_code = model_spkidtr((torch.ones( (1, lat_cat.shape[1])) * spk_idx).cuda().long()) else: src_code = (torch.ones( (1, lat_cat.shape[1])) * spk_idx).cuda().long() cvmelsp_cyc, _ = model_decoder_melsp( lat_cat, y=src_code, e=cvlf0_cyc[:, :, :config.excit_dim]) if outpad_rights[1] > 0: cvlf0_src = cvlf0_src[:, outpad_lefts[1]: -outpad_rights[1]] else: cvlf0_src = cvlf0_src[:, outpad_lefts[1]:] if outpad_rights[2] > 0: cvmelsp_src = cvmelsp_src[:, outpad_lefts[2]: -outpad_rights[2]] else: cvmelsp_src = cvmelsp_src[:, outpad_lefts[2]:] if outpad_rights[4] > 0: cvlf0_cyc = cvlf0_cyc[:, outpad_lefts[4]: -outpad_rights[4]] else: cvlf0_cyc = cvlf0_cyc[:, outpad_lefts[4]:] feat_rec = cvmelsp_src[0].cpu().data.numpy() feat_cyc = cvmelsp_cyc[0].cpu().data.numpy() cvmelsp_src = np.array(cvmelsp_src[0].cpu().data.numpy(), dtype=np.float64) cvlf0_src = np.array(cvlf0_src[0].cpu().data.numpy(), dtype=np.float64) cvmelsp_cyc = np.array(cvmelsp_cyc[0].cpu().data.numpy(), dtype=np.float64) cvlf0_cyc = np.array(cvlf0_cyc[0].cpu().data.numpy(), dtype=np.float64) logging.info(cvlf0_src.shape) logging.info(cvmelsp_src.shape) logging.info(cvlf0_cyc.shape) logging.info(cvmelsp_cyc.shape) melsp = np.array(feat_org) feat_world = read_hdf5(feat_file, "/feat_mceplf0cap") f0 = np.array( np.rint(feat_world[:, 0]) * np.exp(feat_world[:, 1])) codeap = np.array( np.rint(feat_world[:, 2:3]) * (-np.exp(feat_world[:, 3:config.full_excit_dim]))) cvf0_src = np.array( np.rint(cvlf0_src[:, 0]) * np.exp(cvlf0_src[:, 1])) cvcodeap_src = np.array( np.rint(cvlf0_src[:, 2:3]) * (-np.exp(cvlf0_src[:, 3:]))) f0_rmse = np.sqrt(np.mean((cvf0_src - f0)**2)) logging.info('F0_rmse_rec: %lf Hz' % (f0_rmse)) cvf0_src_mean = np.mean(cvf0_src) f0_mean = np.mean(f0) f0_corr = np.sum((cvf0_src-cvf0_src_mean)*(f0-f0_mean))/\ (np.sqrt(np.sum((cvf0_src-cvf0_src_mean)**2))*np.sqrt(np.sum((f0-f0_mean)**2))) logging.info('F0_corr_rec: %lf' % (f0_corr)) codeap_rmse = np.sqrt( np.mean((cvcodeap_src - codeap)**2, axis=0)) for i in range(codeap_rmse.shape[-1]): logging.info('codeap-%d_rmse_rec: %lf dB' % (i + 1, codeap_rmse[i])) cvf0_cyc = np.array( np.rint(cvlf0_cyc[:, 0]) * np.exp(cvlf0_cyc[:, 1])) cvcodeap_cyc = np.array( np.rint(cvlf0_cyc[:, 2:3]) * (-np.exp(cvlf0_cyc[:, 3:]))) f0_rmse_cyc = np.sqrt(np.mean((cvf0_cyc - f0)**2)) logging.info('F0_rmse_cyc: %lf Hz' % (f0_rmse_cyc)) cvf0_cyc_mean = np.mean(cvf0_cyc) f0_mean = np.mean(f0) f0_corr_cyc = np.sum((cvf0_cyc-cvf0_cyc_mean)*(f0-f0_mean))/\ (np.sqrt(np.sum((cvf0_cyc-cvf0_cyc_mean)**2))*np.sqrt(np.sum((f0-f0_mean)**2))) logging.info('F0_corr_cyc: %lf' % (f0_corr_cyc)) codeap_rmse_cyc = np.sqrt( np.mean((cvcodeap_cyc - codeap)**2, axis=0)) for i in range(codeap_rmse_cyc.shape[-1]): logging.info('codeap-%d_rmse_cyc: %lf dB' % (i + 1, codeap_rmse_cyc[i])) spcidx = np.array(read_hdf5(feat_file, "/spcidx_range")[0]) melsp_rest = (np.exp(melsp) - 1) / 10000 melsp_src_rest = (np.exp(cvmelsp_src) - 1) / 10000 melsp_cyc_rest = (np.exp(cvmelsp_cyc) - 1) / 10000 lsd_arr = np.sqrt(np.mean((20*(np.log10(np.clip(melsp_src_rest[spcidx], a_min=1e-16, a_max=None))\ -np.log10(np.clip(melsp_rest[spcidx], a_min=1e-16, a_max=None))))**2, axis=-1)) lsd_mean = np.mean(lsd_arr) lsd_std = np.std(lsd_arr) logging.info("lsd_rec: %.6f dB +- %.6f" % (lsd_mean, lsd_std)) lsd_arr = np.sqrt(np.mean((20*(np.log10(np.clip(melsp_cyc_rest[spcidx], a_min=1e-16, a_max=None))\ -np.log10(np.clip(melsp_rest[spcidx], a_min=1e-16, a_max=None))))**2, axis=-1)) lsd_mean_cyc = np.mean(lsd_arr) lsd_std_cyc = np.std(lsd_arr) logging.info("lsd_cyc: %.6f dB +- %.6f" % (lsd_mean_cyc, lsd_std_cyc)) logging.info('org f0') logging.info(f0[10:15]) logging.info('rec f0') logging.info(cvf0_src[10:15]) logging.info('cyc f0') logging.info(cvf0_cyc[10:15]) logging.info('org cap') logging.info(codeap[10:15]) logging.info('rec cap') logging.info(cvcodeap_src[10:15]) logging.info('cyc cap') logging.info(cvcodeap_cyc[10:15]) dataset = feat_file.split('/')[1].split('_')[0] if 'tr' in dataset: logging.info('trn') f0rmse_cvlist.append(f0_rmse) f0corr_cvlist.append(f0_corr) caprmse_cvlist.append(codeap_rmse) lsd_cvlist.append(lsd_mean) lsdstd_cvlist.append(lsd_std) cvlist.append(np.var(melsp_src_rest, axis=0)) logging.info(len(cvlist)) f0rmse_cvlist_cyc.append(f0_rmse_cyc) f0corr_cvlist_cyc.append(f0_corr_cyc) caprmse_cvlist_cyc.append(codeap_rmse_cyc) lsd_cvlist_cyc.append(lsd_mean_cyc) lsdstd_cvlist_cyc.append(lsd_std_cyc) cvlist_cyc.append(np.var(melsp_cyc_rest, axis=0)) elif 'dv' in dataset: logging.info('dev') f0rmse_cvlist_dv.append(f0_rmse) f0corr_cvlist_dv.append(f0_corr) caprmse_cvlist_dv.append(codeap_rmse) lsd_cvlist_dv.append(lsd_mean) lsdstd_cvlist_dv.append(lsd_std) cvlist_dv.append(np.var(melsp_src_rest, axis=0)) logging.info(len(cvlist_dv)) f0rmse_cvlist_cyc_dv.append(f0_rmse_cyc) f0corr_cvlist_cyc_dv.append(f0_corr_cyc) caprmse_cvlist_cyc_dv.append(codeap_rmse_cyc) lsd_cvlist_cyc_dv.append(lsd_mean_cyc) lsdstd_cvlist_cyc_dv.append(lsd_std_cyc) cvlist_cyc_dv.append(np.var(melsp_cyc_rest, axis=0)) logging.info('write rec to h5') outh5dir = os.path.join( os.path.dirname(os.path.dirname(feat_file)), args.spk + "-" + args.spk) if not os.path.exists(outh5dir): os.makedirs(outh5dir) feat_file = os.path.join(outh5dir, os.path.basename(feat_file)) logging.info(feat_file + ' ' + args.string_path) logging.info(feat_rec.shape) write_hdf5(feat_file, args.string_path, feat_rec) logging.info('write cyc to h5') outh5dir = os.path.join( os.path.dirname(os.path.dirname(feat_file)), args.spk + "-" + args.spk + "-" + args.spk) if not os.path.exists(outh5dir): os.makedirs(outh5dir) feat_file = os.path.join(outh5dir, os.path.basename(feat_file)) logging.info(feat_file + ' ' + args.string_path) logging.info(feat_cyc.shape) write_hdf5(feat_file, args.string_path, feat_cyc) count += 1