from random import choice
from .. import CHROMATIC_TYPE
from ..questionbase import QuestionBase
from ..questionbase import register_question_class
from ..interval import Interval
from ..sequence import Sequence
from ..resolution import Resolution
from ..prequestion import PreQuestion
from ..interfaces.commandline import center_text
[docs]@register_question_class
class InstrumentalDictationQuestion(QuestionBase):
"""Implements an instrumental dictation test.
"""
name = 'instrumental'
def __init__(self, mode='major', wait_time=11, n_repeats=1,
max_intervals=3, n_notes=4, tonic='C', octave=4,
descending=False, chromatic=False, n_octaves=1,
valid_intervals=CHROMATIC_TYPE, user_durations=None,
prequestion_method='progression_i_iv_v_i',
resolution_method='repeat_only', *args, **kwargs):
"""Inits the class.
Args:
mode (str): A string representing the mode of the question.
Eg., 'major' or 'minor'.
wait_time (float): Wait time in seconds for the next question or
repeat.
n_repeats (int): Number of times the same dictation will be
repeated before the end of the exercise.
max_intervals (int): The maximum number of random intervals the
question will have.
n_notes (int): The number of notes the melodic dictation will have.
tonic (str): A string representing the tonic of the question,
eg.: 'C'; if omitted, it will be selected randomly.
octave (int): A scienfic octave notation, for example, 4 for 'C4';
if not present, it will be randomly chosen.
descending (bool): Is the question direction in descending, ie.,
intervals have lower pitch than the tonic.
chromatic (bool): If the question can have (True) or not (False)
chromatic intervals, ie., intervals not in the diatonic scale
of tonic/mode.
n_octaves (int): Maximum number of octaves of the question.
valid_intervals (list): A list with intervals (int) valid for
random choice, 1 is 1st, 2 is second etc. Eg. [1, 4, 5] to
allow only tonics, fourths and fifths.
user_durations (str): A string with 9 comma-separated `int` or
`float`s to set the default duration for the notes played. The
values are respectively for: pre-question duration (1st),
pre-question delay (2nd), and pre-question pos-delay (3rd);
question duration (4th), question delay (5th), and question
pos-delay (6th); resolution duration (7th), resolution
delay (8th), and resolution pos-delay (9th).
duration is the duration in of the note in seconds; delay is
the time to wait before playing the next note, and pos_delay is
the time to wait after all the notes of the respective sequence
have been played. If any of the user durations is `n`, the
default duration for the type of question will be used instead.
Example::
"2,0.5,1,2,n,0,2.5,n,1"
prequestion_method (str): Method of playing a cadence or the
exercise tonic before the question so to affirm the question
musical tonic key to the ear. Valid ones are registered in the
`birdears.prequestion.PREQUESION_METHODS` global dict.
resolution_method (str): Method of playing the resolution of an
exercise. Valid ones are registered in the
`birdears.resolution.RESOLUTION_METHODS` global dict.
"""
default_durations = {
'preq': {'duration': 2, 'delay': 0.5, 'pos_delay': 1},
'quest': {'duration': 2, 'delay': 0.5, 'pos_delay': 0},
'resol': {'duration': 2.5, 'delay': 0.5, 'pos_delay': 1}
}
super(InstrumentalDictationQuestion, self).\
__init__(mode=mode, n_notes=n_notes, tonic=tonic, octave=octave,
descending=descending, chromatic=chromatic,
n_octaves=n_octaves, valid_intervals=valid_intervals,
user_durations=user_durations,
prequestion_method=prequestion_method,
resolution_method=resolution_method,
default_durations=default_durations, *args, **kwargs)
self.is_harmonic = False
self.wait_time = wait_time
self.n_repeats = n_repeats
# instrumental doesn't take input
self.n_input_notes = 0
self.random_pitches = [choice(self.allowed_pitches) for note
in range(n_notes)]
self.pre_question =\
self.make_pre_question(method=prequestion_method)
self.question = self.make_question()
self.resolution = self.make_resolution(method=resolution_method)
[docs] def make_pre_question(self, method):
prequestion = PreQuestion(method=method, question=self)
return prequestion()
[docs] def make_question(self):
return Sequence(self.random_pitches, **self.durations['quest'])
[docs] def make_resolution(self, method):
resolve = Resolution(method=method, question=self)
resolution = resolve()
return resolution
[docs] def play_question(self, callback=None, end_callback=None,
*args, **kwargs):
for r in range(self.n_repeats):
self.display.update({'main_display': 'Listen to the tonality.'})
self.pre_question.play(callback=callback,
end_callback=end_callback,
*args, **kwargs)
# self.question.play(callback=callback, end_callback=end_callback,
self.question.play(callback=None, end_callback=end_callback,
*args, **kwargs)
for i in range(self.wait_time):
time_left = str(self.wait_time - i).rjust(3)
text = '{} seconds remaining...'.format(time_left)
self.display.update({'counter': text})
# print(center_text(text, sep=False), end='')
self.question._wait(1)
[docs] def check_question(self):
"""Checks whether the given answer is correct.
This currently doesn't applies to instrumental dictation questions.
"""
intervals = " ".join([Interval(self.tonic_pitch, pitch)['data'][1]
for pitch in self.random_pitches]).center(7)
notes = " ".join([str(pitch) for pitch in self.random_pitches]) \
.center(7)
correct_response_str = """\
The intervals and notes of this question:
{intervals}
{notes}
""".format(**dict(intervals=intervals, notes=notes))
response = {
'correct_semitones': self.random_pitches,
'correct_response_str': correct_response_str
}
return response