los_angeles_midi_dataset_metadata_maker.py

# -*- coding: utf-8 -*-
"""Los_Angeles_MIDI_Dataset_Metadata_Maker.ipynb

Automatically generated by Colaboratory.

Original file is located at
    https://colab.research.google.com/drive/1YgHU5oqIdvDcx6QnZzZKkolhia27zGo8

# Los Angeles MIDI Dataset Metadata Maker (ver. 1.0)

***

Powered by tegridy-tools: https://github.com/asigalov61/tegridy-tools

***

#### Project Los Angeles

#### Tegridy Code 2023

***

# (SETUP ENVIRONMENT)
"""

#@title Install all dependencies (run only once per session)

!git clone https://github.com/asigalov61/tegridy-tools
!pip install tqdm

#@title Import all needed modules

print('Loading needed modules. Please wait...')
import os

import math
import statistics
import random
from collections import Counter

from tqdm import tqdm

if not os.path.exists('/content/Dataset'):
    os.makedirs('/content/Dataset')

print('Loading TMIDIX module...')
os.chdir('/content/tegridy-tools/tegridy-tools')

import TMIDIX

print('Done!')

os.chdir('/content/')
print('Enjoy! :)')

"""# (DOWNLOAD SOURCE MIDI DATASET)"""

# Commented out IPython magic to ensure Python compatibility.
#@title Download original LAKH MIDI Dataset

# %cd /content/Dataset/

!wget 'http://hog.ee.columbia.edu/craffel/lmd/lmd_full.tar.gz'
!tar -xvf 'lmd_full.tar.gz'
!rm 'lmd_full.tar.gz'

# %cd /content/

#@title Mount Google Drive
from google.colab import drive
drive.mount('/content/drive')

"""# (FILE LIST)"""

#@title Save file list
###########

print('Loading MIDI files...')
print('This may take a while on a large dataset in particular.')

dataset_addr = "/content/Dataset"
# os.chdir(dataset_addr)
filez = list()
for (dirpath, dirnames, filenames) in os.walk(dataset_addr):
    filez += [os.path.join(dirpath, file) for file in filenames]
print('=' * 70)

if filez == []:
    print('Could not find any MIDI files. Please check Dataset dir...')
    print('=' * 70)

print('Randomizing file list...')
random.shuffle(filez)

TMIDIX.Tegridy_Any_Pickle_File_Writer(filez, '/content/drive/MyDrive/filez')

#@title Load file list
filez = TMIDIX.Tegridy_Any_Pickle_File_Reader('/content/drive/MyDrive/filez')
print('Done!')

"""# (PROCESS)"""

#@title Process MIDIs with TMIDIX MIDI processor

print('=' * 70)
print('TMIDIX MIDI Processor')
print('=' * 70)
print('Starting up...')
print('=' * 70)

###########

START_FILE_NUMBER = 0
LAST_SAVED_BATCH_COUNT = 0

input_files_count = START_FILE_NUMBER
files_count = LAST_SAVED_BATCH_COUNT

melody_chords_f = []

stats = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]

print('Processing MIDI files. Please wait...')
print('=' * 70)

for f in tqdm(filez[START_FILE_NUMBER:]):
    try:
        input_files_count += 1

        fn = os.path.basename(f)
        fn1 = fn.split('.mid')[0]

        #=======================================================
        # START PROCESSING
        
        opus = TMIDIX.midi2opus(open(f, 'rb').read())
        
        opus_events_matrix = []
        
        itrack0 = 1
       
        while itrack0 < len(opus):
            for event in opus[itrack0]:         
                    opus_events_matrix.append(event)
            itrack0 += 1
        
        #=======================================================
        
        ms_score = TMIDIX.opus2score(TMIDIX.to_millisecs(opus))

        ms_events_matrix = []
        
        itrack1 = 1
       
        while itrack1 < len(ms_score):
            for event in ms_score[itrack1]:         
                if event[0] == 'note':
                    ms_events_matrix.append(event)
            itrack1 += 1

        ms_events_matrix.sort(key=lambda x: x[1])
        
        #=======================================================

        # Convering MIDI to score with MIDI.py module
        score = TMIDIX.opus2score(opus)

        events_matrix = []
        full_events_matrix = []
        
        itrack = 1
        patches = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]

        while itrack < len(score):
            for event in score[itrack]:         
                if event[0] == 'note' or event[0] == 'patch_change':
                    events_matrix.append(event)
                full_events_matrix.append(event)
            itrack += 1
            
        full_events_matrix.sort(key=lambda x: x[1])
        events_matrix.sort(key=lambda x: x[1])
        
        events_matrix1 = []

        for event in events_matrix:
            if event[0] == 'patch_change':
                patches[event[2]] = event[3]

            if event[0] == 'note':
                event.extend([patches[event[3]]])
                events_matrix1.append(event)

        if len(events_matrix1) > 0:           
            
            events_matrix1.sort(key=lambda x: x[1])

            for e in events_matrix1:
                if e[0] == 'note':
                    if e[3] == 9:
                        e[4] = ((abs(e[4]) % 128) + 128)
                    else:
                        e[4] = (abs(e[4]) % 128)

            pitches_counts = [[y[0],y[1]] for y in Counter([y[4] for y in events_matrix1]).most_common()]
            pitches_counts.sort(key=lambda x: x[0], reverse=True)

            patches_counts = [[y[0],y[1]] for y in Counter([y[6] for y in events_matrix1]).most_common()]
            patches_counts.sort(key=lambda x: x[1], reverse=True)
            
            pitches_patches = sorted([[y[4], y[6]] for y in events_matrix1], reverse=True)
            pitches_patches_counts = [[[y[0][0], y[0][1]], y[1]] for y in Counter([tuple(x) for x in pitches_patches]).most_common()]
            
            midi_patches = sorted(list(set([y[3] for y in events_matrix if y[0] == 'patch_change'])))
            if len(midi_patches) == 0:
                midi_patches = [None]
                
            times = []
            pt = ms_events_matrix[0][1]
            start = True
            for e in ms_events_matrix:
                if (e[1]-pt) != 0 or start == True:
                    times.append((e[1]-pt))
                    start = False
                pt = e[1]
                
            times_sum = sum(times)
            
            durs = [e[2] for e in ms_events_matrix]
            vels = [e[5] for e in ms_events_matrix]
            
            avg_time = int(sum(times) / len(times))
            avg_dur = int(sum(durs) / len(durs))
            avg_vel = int(sum(vels) / len(vels))
            
            mode_time = statistics.mode(times)
            mode_dur = statistics.mode(durs)
            mode_vel = statistics.mode(vels)
            
            median_time = int(statistics.median(times))
            median_dur = int(statistics.median(durs))
            median_vel = int(statistics.median(vels))
            
            text_events_list = ['text_event', 
                           'text_event_08', 
                           'text_event_09', 
                           'text_event_0a', 
                           'text_event_0b', 
                           'text_event_0c',
                           'text_event_0d',
                           'text_event_0e',
                           'text_event_0f']
            
            text_events_count = len([e for e in full_events_matrix if e[0] in text_events_list])
            lyric_events_count = len([e for e in full_events_matrix if e[0] == 'lyric'])
            
            chords = []
            pe = ms_events_matrix[0]
            cho = []
            for e in ms_events_matrix:
                if (e[1] - pe[1]) == 0:
                  if e[3] != 9:
                    if (e[4] % 12) not in cho:
                      cho.append(e[4] % 12)
                else:
                  if len(cho) > 0:
                    chords.append(sorted(cho))
                  cho = []
                  if e[3] != 9:
                    if (e[4] % 12) not in cho:
                      cho.append(e[4] % 12)

                pe = e
                
            if len(cho) > 0:
                chords.append(sorted(cho))

            ms_chords_counts = sorted([[list(key), val] for key,val in Counter([tuple(c) for c in chords if len(c) > 1]).most_common()], reverse=True, key = lambda x: x[1])
            
            tempo_change_count = len([f for f in full_events_matrix if f[0] == 'set_tempo'])
            
            sixty_forth_note = [e for e in events_matrix1][64]
            sixty_forth_note_idx = full_events_matrix.index(sixty_forth_note)

            data = []
            data.append(['total_number_of_tracks', itrack])
            data.append(['total_number_of_opus_midi_events', len(opus_events_matrix)])
            data.append(['total_number_of_score_midi_events', len(full_events_matrix)])
            data.append(['average_median_mode_time_ms', [avg_time, median_time, mode_time]])
            data.append(['average_median_mode_dur_ms', [avg_dur, median_dur, mode_dur]])
            data.append(['average_median_mode_vel', [avg_vel, median_vel, mode_vel]])
            data.append(['total_number_of_chords', len(set([y[1] for y in events_matrix1]))])
            data.append(['total_number_of_chords_ms', len(times)])
            data.append(['ms_chords_counts', ms_chords_counts])
            data.append(['pitches_times_sum_ms', times_sum])
            data.append(['total_pitches_counts', pitches_counts])
            data.append(['total_patches_counts', patches_counts])
            data.append(['midi_patches', midi_patches])
            data.append(['total_pitches_patches_counts', pitches_patches_counts])
            data.append(['tempo_change_count', tempo_change_count])
            data.append(['text_events_count', text_events_count])
            data.append(['lyric_events_count', lyric_events_count])
            data.append(['midi_ticks', score[0]])
            data.extend(full_events_matrix[:sixty_forth_note_idx])
            data.append(full_events_matrix[-1])
            
            melody_chords_f.append([fn1, data])

            #=======================================================

            # Processed files counter
            files_count += 1

            # Saving every 5000 processed files
            if files_count % 10000 == 0:
              print('SAVING !!!')
              print('=' * 70)
              print('Saving processed files...')
              print('=' * 70)
              print('Processed so far:', files_count, 'out of', input_files_count, '===', files_count / input_files_count, 'good files ratio')
              print('=' * 70)
              count = str(files_count)
              TMIDIX.Tegridy_Any_Pickle_File_Writer(melody_chords_f, '/content/drive/MyDrive/LAMD_META_'+count)
              melody_chords_f = []
              print('=' * 70)

    except KeyboardInterrupt:
        print('Saving current progress and quitting...')
        break  

    except Exception as ex:
        print('WARNING !!!')
        print('=' * 70)
        print('Bad MIDI:', f)
        print('Error detected:', ex)
        print('=' * 70)
        continue

# Saving last processed files...
print('=' * 70)
print('Saving processed files...')
print('=' * 70)
print('Processed so far:', files_count, 'out of', input_files_count, '===', files_count / input_files_count, 'good files ratio')
print('=' * 70)
count = str(files_count)
TMIDIX.Tegridy_Any_Pickle_File_Writer(melody_chords_f, '/content/drive/MyDrive/LAMD_META_'+count)

# Displaying resulting processing stats...
print('=' * 70)
print('Done!')   
print('=' * 70)

print('Resulting Stats:')
print('=' * 70)
print('Total good processed MIDI files:', files_count)
print('=' * 70)

"""# Congrats! You did it! :)"""