I am trying to create a GUI for a terminal app I created that listens to your microphone to determine which note you are playing on Guitar. I want to use PyQt5 and it is the first time I am using it (or any GUI framework in particular).
I can create the UI just fine, however the main function I am using for note detection that gets called by a QTimer makes the app very sluggish and unresponsive. I think I am doing something VERY wrong in terms of how I should set it up, but couldn't find the best way to do it by myself.
Here is my code:
import sys from PyQt5.QtWidgets import QApplication, QWidget from PyQt5.QtWidgets import QGridLayout, QLabel from PyQt5.QtGui import QFont from PyQt5.QtCore import QTimer, QTime, Qt import pyaudio import numpy as np from aubio import pitch from helpers import pitch2note # set up globals CHUNK = 1024 FORMAT = pyaudio.paFloat32 CHANNELS = 1 RATE = 44100 RECORD_SECONDS = 5000 tolerance = 0.8 downsample = 1 win_s = 4096 // downsample # fft size hop_s = 1024 // downsample # hop size pitch_o = pitch("yinfft", win_s, hop_s, RATE) pitch_o.set_unit("Hz") pitch_o.set_silence(-40) pitch_o.set_tolerance(tolerance) class Window(QWidget): def __init__(self): super().__init__() self.setupUI() def setupUI(self): # UI design is very much in progress # not final but it shouldn't matter for this case self.setGeometry(100, 100, 800, 400) self.noteLabel = QLabel('Note played:') layout = QGridLayout() font = QFont('Arial', 60, QFont.Bold) self.note = QLabel() # the variable I will modify later self.note.setAlignment(Qt.AlignCenter) # setting font to the label self.note.setFont(font) # adding widgets to the layout layout.addWidget(self.noteLabel, 1, 0) layout.addWidget(self.note, 1, 1) # setting the layout to main window self.setLayout(layout) # creating a timer object timer = QTimer(self) # adding action to timer # this is what might be wrong timer.timeout.connect(self.getNote) # update the timer every 33ms (30fps?) # or is it too much? timer.start(33) def getNote(self): # main function handling note detection p = pyaudio.PyAudio() stream = p.open(format=FORMAT, channels=CHANNELS, rate=RATE, input=True, frames_per_buffer=CHUNK) frames =  notes_list =  for i in range(0, int(RATE / CHUNK * RECORD_SECONDS)): buffer = stream.read(CHUNK) frames.append(buffer) signal = np.frombuffer(buffer, dtype=np.float32) pitch_of_note = pitch_o(signal) if pitch_of_note != 0: note_played = pitch2note(pitch_of_note) notes_list.append(note_played[:-1]) # we append only note and not number (eg. E and not E2) if len(notes_list) == 10: # We listen for 10 signals and then select the most frequent note in the list # This is because when you pluck a note the frequency can deviate as you pluck it strongly most_likely_note = max(notes_list, key=notes_list.count) stream.stop_stream() stream.close() p.terminate() self.label.setText(most_likely_note) return most_likely_note # create pyqt5 app App = QApplication(sys.argv) # create the instance of our Window window = Window() # showing all the widgets window.show() # start the app App.exit(App.exec_())
And this is the helpers file:
from math import log2 A4 = 440 C0 = A4*pow(2, -4.75) NOTE_NAMES = ["C", "C#", "D", "D#", "E", "F", "F#", "G", "G#", "A", "A#", "B"] def pitch2note(freq): h = round(12*log2(freq/C0)) octave = h // 12 n = h % 12 return NOTE_NAMES[n] + str(octave)