#================================================================ # https://huggingface.co/spaces/asigalov61/Advanced-MIDI-Renderer #================================================================ # Packages: # # apt install fluidsynth #================================================================ # Requirements: # # pip install gradio # pip install numpy # pip install scipy # pip install matplotlib # pip install networkx # pip install scikit-learn #================================================================ # Core modules: # # git clone --depth 1 https://github.com/asigalov61/tegridy-tools # # import TMIDIX # import TPLOTS # import midi_to_colab_audio #================================================================ import os import hashlib import time import datetime from pytz import timezone import copy from collections import Counter import random import statistics import gradio as gr import TMIDIX import TPLOTS from midi_to_colab_audio import midi_to_colab_audio #========================================================================================================== def Render_MIDI(input_midi, render_type, soundfont_bank, render_sample_rate, custom_render_patch, render_align, render_transpose_value, render_transpose_to_C4, render_output_as_solo_piano, render_remove_drums ): print('*' * 70) print('Req start time: {:%Y-%m-%d %H:%M:%S}'.format(datetime.datetime.now(PDT))) start_time = time.time() print('=' * 70) print('Loading MIDI...') fn = os.path.basename(input_midi) fn1 = fn.split('.')[0] fdata = open(input_midi, 'rb').read() input_midi_md5hash = hashlib.md5(fdata).hexdigest() print('=' * 70) print('Requested settings:') print('=' * 70) print('Input MIDI file name:', fn) print('Input MIDI md5 hash', input_midi_md5hash) print('-' * 70) print('Render type:', render_type) print('Soudnfont bank', soundfont_bank) print('Audio render sample rate', render_sample_rate) print('Custom MIDI render patch', custom_render_patch) print('Align to bars:', render_align) print('Transpose value:', render_transpose_value) print('Transpose to C4', render_transpose_to_C4) print('Output as Solo Piano', render_output_as_solo_piano) print('Remove drums:', render_remove_drums) print('=' * 70) print('Processing MIDI...Please wait...') #======================================================= # START PROCESSING raw_score = TMIDIX.midi2single_track_ms_score(fdata) escore = TMIDIX.advanced_score_processor(raw_score, return_enhanced_score_notes=True)[0] escore = TMIDIX.augment_enhanced_score_notes(escore, timings_divider=1) first_note_index = [e[0] for e in raw_score[1]].index('note') cscore = TMIDIX.chordify_score([1000, escore]) meta_data = raw_score[1][:first_note_index] + [escore[0]] + [escore[-1]] + [raw_score[1][-1]] print('Done!') print('=' * 70) print('Input MIDI metadata:', meta_data[:5]) print('=' * 70) print('Processing...Please wait...') output_score = copy.deepcopy(escore) if render_type == "Extract melody": output_score = TMIDIX.add_melody_to_enhanced_score_notes(escore, return_melody=True) output_score = TMIDIX.recalculate_score_timings(output_score) elif render_type == "Flip": output_score = TMIDIX.flip_enhanced_score_notes(escore) elif render_type == "Reverse": output_score = TMIDIX.reverse_enhanced_score_notes(escore) elif render_type == 'Repair Chords': fixed_cscore = TMIDIX.advanced_check_and_fix_chords_in_chordified_score(cscore)[0] output_score = TMIDIX.flatten(fixed_cscore) print('Done processing!') print('=' * 70) print('Repatching if needed...') print('=' * 70) if -1 < custom_render_patch < 128: for e in output_score: if e[3] != 9: e[6] = custom_render_patch print('Done repatching!') print('=' * 70) print('Sample output events', output_score[:5]) print('=' * 70) print('Final processing...') new_fn = fn1+'.mid' if render_type != "Render as-is": if render_transpose_value != 0: output_score = TMIDIX.transpose_escore_notes(output_score, render_transpose_value) if render_transpose_to_C4: output_score = TMIDIX.transpose_escore_notes_to_pitch(output_score) if render_align == "Start Times": output_score = TMIDIX.recalculate_score_timings(output_score) output_score = TMIDIX.align_escore_notes_to_bars(output_score) elif render_align == "Start Times and Durations": output_score = TMIDIX.recalculate_score_timings(output_score) output_score = TMIDIX.align_escore_notes_to_bars(output_score, trim_durations=True) elif render_align == "Start Times and Split Durations": output_score = TMIDIX.recalculate_score_timings(output_score) output_score = TMIDIX.align_escore_notes_to_bars(output_score, split_durations=True) if render_type == "Longest Repeating Phrase": zscore = TMIDIX.recalculate_score_timings(output_score) lrno_score = TMIDIX.escore_notes_lrno_pattern(zscore) if lrno_score is not None: output_score = TMIDIX.recalculate_score_timings(lrno_score) else: output_score = TMIDIX.recalculate_score_timings(TMIDIX.escore_notes_middle(output_score, 50)) if render_type == "Multi-Instrumental Summary": zscore = TMIDIX.recalculate_score_timings(output_score) c_escore_notes = TMIDIX.compress_patches_in_escore_notes_chords(zscore) cmatrix = TMIDIX.escore_notes_to_image_matrix(c_escore_notes, filter_out_zero_rows=True, filter_out_duplicate_rows=True) smatrix = TPLOTS.square_image_matrix(cmatrix) output_score = TMIDIX.image_matrix_to_original_escore_notes(smatrix) for o in output_score: o[1] *= 250 o[2] *= 250 if render_output_as_solo_piano: output_score = TMIDIX.solo_piano_escore_notes(output_score, keep_drums=True) if render_remove_drums: output_score = TMIDIX.strip_drums_from_escore_notes(output_score) if render_type == "Solo Piano Summary": sp_escore_notes = TMIDIX.solo_piano_escore_notes(output_score, keep_drums=False) zscore = TMIDIX.recalculate_score_timings(sp_escore_notes) bmatrix = TMIDIX.escore_notes_to_binary_matrix(zscore) cmatrix = TMIDIX.compress_binary_matrix(bmatrix, only_compress_zeros=True) smatrix = TPLOTS.square_binary_matrix(cmatrix) output_score = TMIDIX.binary_matrix_to_original_escore_notes(smatrix) for o in output_score: o[1] *= 200 o[2] *= 200 SONG, patches, overflow_patches = TMIDIX.patch_enhanced_score_notes(output_score) detailed_stats = TMIDIX.Tegridy_ms_SONG_to_MIDI_Converter(SONG, output_signature = 'Advanced MIDI Renderer', output_file_name = fn1, track_name='Project Los Angeles', list_of_MIDI_patches=patches ) else: with open(new_fn, 'wb') as f: f.write(fdata) f.close() if soundfont_bank in ["Super GM", "Orpheus GM", "Live HQ GM", "Nice Strings + Orchestra", "Real Choir", "Super Game Boy", "Proto Square" ]: sf2bank = ["Super GM", "Orpheus GM", "Live HQ GM", "Nice Strings + Orchestra", "Real Choir", "Super Game Boy", "Proto Square" ].index(soundfont_bank) else: sf2bank = 0 if render_sample_rate in ["16000", "32000", "44100"]: srate = int(render_sample_rate) else: srate = 16000 print('-' * 70) print('Generating audio with SF2 bank', sf2bank, 'and', srate, 'Hz sample rate') audio = midi_to_colab_audio(new_fn, soundfont_path=soundfonts[sf2bank], sample_rate=srate, volume_scale=10, output_for_gradio=True ) print('-' * 70) new_md5_hash = hashlib.md5(open(new_fn,'rb').read()).hexdigest() print('Done!') print('=' * 70) #======================================================== output_midi_md5 = str(new_md5_hash) output_midi_title = str(fn1) output_midi_summary = str(meta_data) output_midi = str(new_fn) output_audio = (srate, audio) output_plot = TMIDIX.plot_ms_SONG(output_score, plot_title=output_midi, return_plt=True) print('Output MIDI file name:', output_midi) print('Output MIDI title:', output_midi_title) print('Output MIDI hash:', output_midi_md5) print('Output MIDI summary:', output_midi_summary[:5]) print('=' * 70) #======================================================== print('Req end time: {:%Y-%m-%d %H:%M:%S}'.format(datetime.datetime.now(PDT))) print('-' * 70) print('Req execution time:', (time.time() - start_time), 'sec') print('*' * 70) #======================================================== return output_midi_md5, output_midi_title, output_midi_summary, output_midi, output_audio, output_plot #========================================================================================================== if __name__ == "__main__": PDT = timezone('US/Pacific') print('=' * 70) print('App start time: {:%Y-%m-%d %H:%M:%S}'.format(datetime.datetime.now(PDT))) print('=' * 70) soundfonts = ["SGM-v2.01-YamahaGrand-Guit-Bass-v2.7.sf2", "Orpheus_18.06.2020.sf2", "Live HQ Natural SoundFont GM.sf2", "Nice-Strings-PlusOrchestra-v1.6.sf2", "KBH-Real-Choir-V2.5.sf2", "SuperGameBoy.sf2", "ProtoSquare.sf2" ] app = gr.Blocks() with app: gr.Markdown("