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import os |
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import time as reqtime |
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import datetime |
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from pytz import timezone |
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import torch |
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import spaces |
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import gradio as gr |
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from x_transformer_1_23_2 import * |
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import random |
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import tqdm |
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from midi_to_colab_audio import midi_to_colab_audio |
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import TMIDIX |
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import matplotlib.pyplot as plt |
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in_space = os.getenv("SYSTEM") == "spaces" |
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@spaces.GPU |
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def GenerateSong(input_melody_seed_number): |
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print('=' * 70) |
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print('Req start time: {:%Y-%m-%d %H:%M:%S}'.format(datetime.datetime.now(PDT))) |
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start_time = reqtime.time() |
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print('Loading model...') |
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SEQ_LEN = 2560 |
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PAD_IDX = 514 |
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DEVICE = 'cuda' |
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model = TransformerWrapper( |
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num_tokens = PAD_IDX+1, |
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max_seq_len = SEQ_LEN, |
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attn_layers = Decoder(dim = 1024, depth = 24, heads = 16, attn_flash = True) |
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) |
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model = AutoregressiveWrapper(model, ignore_index = PAD_IDX) |
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model.to(DEVICE) |
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print('=' * 70) |
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print('Loading model checkpoint...') |
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model.load_state_dict( |
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torch.load('Melody2Song_Seq2Seq_Music_Transformer_Trained_Model_28482_steps_0.719_loss_0.7865_acc.pth', |
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map_location=DEVICE)) |
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print('=' * 70) |
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model.eval() |
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if DEVICE == 'cpu': |
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dtype = torch.bfloat16 |
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else: |
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dtype = torch.bfloat16 |
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ctx = torch.amp.autocast(device_type=DEVICE, dtype=dtype) |
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print('Done!') |
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print('=' * 70) |
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seed_melody = seed_melodies_data[input_melody_seed_number] |
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print('Input melody seed number:', input_melody_seed_number) |
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print('-' * 70) |
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print('=' * 70) |
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print('Sample output events', seed_melody[:16]) |
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print('=' * 70) |
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print('Generating...') |
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x = (torch.tensor(seed_melody, dtype=torch.long, device='cuda')[None, ...]) |
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with ctx: |
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with torch.inference_mode(): |
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out = model.generate(x, |
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1024, |
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filter_logits_fn=top_k, |
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filter_kwargs={'k': 15}, |
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temperature=0.9, |
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return_prime=False, |
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verbose=False) |
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output = out[0].tolist() |
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print('=' * 70) |
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print('Done!') |
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print('=' * 70) |
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print('Rendering results...') |
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print('=' * 70) |
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print('Sample INTs', output[:15]) |
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print('=' * 70) |
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out1 = output |
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if len(out1) != 0: |
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song = out1 |
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song_f = [] |
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time = 0 |
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dur = 0 |
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vel = 90 |
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pitch = 0 |
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channel = 0 |
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patches = [0] * 16 |
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patches[3] = 40 |
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for ss in song: |
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if 0 < ss < 128: |
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time += (ss * 32) |
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if 128 < ss < 256: |
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dur = (ss-128) * 32 |
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if 256 < ss < 512: |
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pitch = (ss-256) % 128 |
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channel = (ss-256) // 128 |
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if channel == 1: |
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channel = 3 |
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vel = 110 + (pitch % 12) |
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song_f.append(['note', time, dur, channel, pitch, vel, 40]) |
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else: |
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vel = 80 + (pitch % 12) |
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channel = 0 |
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song_f.append(['note', time, dur, channel, pitch, vel, 0]) |
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fn1 = "Melody2Song-Seq2Seq-Music-Transformer-Composition" |
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detailed_stats = TMIDIX.Tegridy_ms_SONG_to_MIDI_Converter(song_f, |
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output_signature = 'Melody2Song Seq2Seq Music Transformer', |
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output_file_name = fn1, |
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track_name='Project Los Angeles', |
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list_of_MIDI_patches=patches |
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) |
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new_fn = fn1+'.mid' |
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audio = midi_to_colab_audio(new_fn, |
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soundfont_path=soundfont, |
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sample_rate=16000, |
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volume_scale=10, |
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output_for_gradio=True |
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) |
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print('Done!') |
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print('=' * 70) |
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output_midi_title = str(fn1) |
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output_midi_summary = str(song_f[:3]) |
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output_midi = str(new_fn) |
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output_audio = (16000, audio) |
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output_plot = TMIDIX.plot_ms_SONG(song_f, plot_title=output_midi, return_plt=True) |
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print('Output MIDI file name:', output_midi) |
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print('Output MIDI title:', output_midi_title) |
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print('Output MIDI summary:', output_midi_summary) |
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print('=' * 70) |
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print('-' * 70) |
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print('Req end time: {:%Y-%m-%d %H:%M:%S}'.format(datetime.datetime.now(PDT))) |
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print('-' * 70) |
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print('Req execution time:', (reqtime.time() - start_time), 'sec') |
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return output_midi_title, output_midi_summary, output_midi, output_audio, output_plot |
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if __name__ == "__main__": |
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PDT = timezone('US/Pacific') |
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print('=' * 70) |
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print('App start time: {:%Y-%m-%d %H:%M:%S}'.format(datetime.datetime.now(PDT))) |
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print('=' * 70) |
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soundfont = "SGM-v2.01-YamahaGrand-Guit-Bass-v2.7.sf2" |
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print('Loading seed meldoies data...') |
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seed_melodies_data = TMIDIX.Tegridy_Any_Pickle_File_Reader('Melody2Song_Seq2Seq_Music_Transformer_Seed_Melodies_Data') |
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print('=' * 70) |
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app = gr.Blocks() |
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with app: |
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gr.Markdown("<h1 style='text-align: center; margin-bottom: 1rem'>Melody2Song Seq2Seq Music Transformer</h1>") |
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gr.Markdown("<h1 style='text-align: center; margin-bottom: 1rem'>Generate unique songs from melodies with seq2seq music transformer</h1>") |
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gr.Markdown( |
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"![Visitors](https://api.visitorbadge.io/api/visitors?path=asigalov61.Melody2Song-Seq2Seq-Music-Transformer&style=flat)\n\n" |
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"[Open In Colab]" |
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"(https://colab.research.google.com/#fileId=https://huggingface.co/spaces/asigalov61/Melody2Song-Seq2Seq-Music-Transformer/blob/main/Melody2Song_Seq2Seq_Music_Transformer.ipynb)" |
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" for custom MIDI melody option, faster execution and endless generation") |
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input_melody_seed_number = gr.Slider(0, 203664, value=0, step=1, label="Select seed melody number") |
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run_btn = gr.Button("generate", variant="primary") |
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gr.Markdown("## Generation results") |
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output_midi_title = gr.Textbox(label="Output MIDI title") |
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output_midi_summary = gr.Textbox(label="Output MIDI summary") |
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output_audio = gr.Audio(label="Output MIDI audio", format="wav", elem_id="midi_audio") |
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output_plot = gr.Plot(label="Output MIDI score plot") |
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output_midi = gr.File(label="Output MIDI file", file_types=[".mid"]) |
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run_event = run_btn.click(GenerateSong, [input_melody_seed_number], |
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[output_midi_title, output_midi_summary, output_midi, output_audio, output_plot]) |
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app.queue().launch() |