Exemplo n.º 1
0
def new_question_progression():
    if st.NEWQUESTION:
        if st.COUNT:
            print("score: {} / {} = {:.2%}".format(st.SCORE, st.COUNT,
                                                   st.SCORE / st.COUNT))
        st.COUNT += 1
        # Find random chord progression
        prog_length = random.choice(st.PROG_LENGTHS)
        prog, prog_strums = random_progression(prog_length, st.NUMERALS,
                                               st.CHORD_LENGTHS)

        # store question info
        st.CURRENT_Q_INFO = {'prog': prog, 'prog_strums': prog_strums}
    else:
        prog = st.CURRENT_Q_INFO['prog']
        prog_strums = st.CURRENT_Q_INFO['prog_strums']

    # Play chord/progression
    play_progression(prog_strums, st.KEY)

    # Request user's answer
    ans = input("Enter your answer using root note names "
                "or numbers 1-7 seperated by spaces: ").strip()

    if ans in menu_commands:
        menu_commands[ans].action()
    else:
        eval_progression(ans, prog, prog_strums)
Exemplo n.º 2
0
def new_question_single_chord():
    # Choose new chord+octave/Progression
    # Single chord mode
    if st.NEWQUESTION:
        if st.COUNT:
            print("score: {} / {} = {:.2%}".format(st.SCORE, st.COUNT,
                                                   st.SCORE / st.COUNT))
        st.COUNT += 1

        # Pick random chord/octave
        numeral, chord, Ioctave = random_chord()

        # store question info
        st.CURRENT_Q_INFO = {
            'numeral': numeral,
            'chord': chord,
            'Ioctave': Ioctave
        }
    else:
        numeral = st.CURRENT_Q_INFO['numeral']
        chord = st.CURRENT_Q_INFO['chord']
        Ioctave = st.CURRENT_Q_INFO['Ioctave']

    # Play chord
    play_progression([numeral], st.KEY, Ioctave=Ioctave)

    # Request user's answer
    ans = getch("Enter 1-7 or root of chord: ").strip()

    if ans in menu_commands:
        menu_commands[ans].action()
    else:
        if isvalidnote(ans):
            if eval_single_chord(ans, numeral, chord[0].name):
                st.SCORE += 1
                print("Yes!", chordname(chord, numeral))
                if st.RESOLVE_WHEN_CORRECT:
                    resolve_with_chords(numeral,
                                        key=st.KEY,
                                        Ioctave=Ioctave,
                                        numerals=st.NUMERALS,
                                        bpm=st.BPM * 2)
                    play_wait()
            else:
                print("No!", chordname(chord, numeral))
                if st.RESOLVE_WHEN_INCORRECT:
                    resolve_with_chords(numeral,
                                        key=st.KEY,
                                        Ioctave=Ioctave,
                                        numerals=st.NUMERALS,
                                        bpm=st.BPM * 2)
                    play_wait()
        else:
            print("User input not understood.  Please try again.")
    return
Exemplo n.º 3
0
def intro(play_cadence=True):
    print("\n" + "~" * 20 + "\n")

    # List menu_commands
    print("Note: At any time enter")
    for mc in menu_commands.values():
        print(mc.input_description, "to", mc.description)
    print("\n" + "-" * 10 + "\n")

    # Display key
    if st.KEY == st.KEY.lower():
        print("KEY:", st.KEY.upper(), "min")
    else:
        print("KEY:", st.KEY, "Maj")
    print("-" * 10)

    # Play cadence
    if play_cadence:
        play_progression(st.CADENCE, st.KEY, Iup=st.I)
        play_wait()
        # time.sleep(st.DELAY)
    # time.sleep(st.DELAY)
    return
Exemplo n.º 4
0
 def playfcn():
     play_progression([numeral], st.KEY, Ioctave=Ioctave)
     play_wait()
     fluidsynth.play_Note(tone)
Exemplo n.º 5
0
def new_question_chord_tone():
    if st.NEWQUESTION:
        if st.COUNT:
            print("score: {} / {} = {:.2%}".format(st.SCORE, st.COUNT,
                                                   st.SCORE / st.COUNT))
        st.COUNT += 1

        # Pick random chord/octave
        numeral, chord, Ioctave = random_chord()

        # Pick a random tone in the chord
        tone = random.choice(chord)

        # store question info
        st.CURRENT_Q_INFO = {
            'numeral': numeral,
            'chord': chord,
            'Ioctave': Ioctave,
            'tone': tone
        }
    else:
        numeral = st.CURRENT_Q_INFO['numeral']
        chord = st.CURRENT_Q_INFO['chord']
        Ioctave = st.CURRENT_Q_INFO['Ioctave']
        tone = st.CURRENT_Q_INFO['tone']

    # Play chord, then tone
    def playfcn():
        play_progression([numeral], st.KEY, Ioctave=Ioctave)
        play_wait()
        fluidsynth.play_Note(tone)

    p = Process(target=playfcn())
    p.start()

    # Request user's answer
    mes = ("Which tone did you hear?\n"
           "Enter {}, or {}: ".format(
               ", ".join([str(t) for t in st.TONES[:-1]]), st.TONES[-1]))
    ans = getch(mes).strip()
    p.terminate()

    if ans in menu_commands:
        menu_commands[ans].action()
    else:
        try:
            ans = int(ans)
        except:
            print("User input not understood.  Please try again.")
            st.NEWQUESTION = False

        if ans in st.TONES:
            tone_idx = [n for n in chord].index(tone)
            correct_ans = st.TONES[tone_idx]
            if ans == correct_ans:
                st.SCORE += 1
                print("Yes! The {} tone of".format(correct_ans),
                      chordname(chord, numeral))
                if st.ARPEGGIATE_WHEN_CORRECT:
                    resolve_chord_tone(chord, tone, Ioctave)
                    play_wait()
                    st.NEWQUESTION = True
            else:
                print("No! The {} tone of".format(correct_ans),
                      chordname(chord, numeral))
                if st.ARPEGGIATE_WHEN_INCORRECT:
                    resolve_chord_tone(chord, tone, Ioctave)
                    play_wait()
                    st.NEWQUESTION = True

        # secret option
        elif ans in [8, 9, 0]:
            tone_idx = [8, 9, 0].index(ans)
            for num in st.NUMERALS:
                tmp = progressions.to_chords([num], st.KEY)[0]
                num_chord = NoteContainer(tmp)
                play_progression([num], st.KEY, Ioctave=Ioctave)
                play_wait()
                fluidsynth.play_Note(num_chord[tone_idx])
                play_wait()
            play_wait()
            st.NEWQUESTION = False

        else:
            print("User input not understood.  Please try again.")
            st.NEWQUESTION = False
    return
Exemplo n.º 6
0
def play_cadence():
    play_progression(st.CADENCE, st.KEY, Iup=st.I, bpm=st.BPM)
    play_wait()