from __future__ import annotations
import numbers
import operator
import typing
import warnings
try:
import quicktions as fractions # type: ignore
except ImportError:
import fractions # type: ignore
from mutwo import core_constants
from mutwo import core_utilities
from mutwo import music_parameters
from .EqualDividedOctavePitch import EqualDividedOctavePitch
__all__ = ("WesternPitch",)
ConcertPitch = typing.Union[core_constants.Real, music_parameters.abc.Pitch]
PitchClassOrPitchClassName = typing.Union[core_constants.Real, str]
[docs]class WesternPitch(EqualDividedOctavePitch):
"""Pitch with a traditional Western nomenclature.
:param pitch_class_or_pitch_class_name: Name or number of the pitch
class of the new ``WesternPitch`` object. The nomenclature is
English (c, d, e, f, g, a, b). It uses an equal divided octave
system in 12 chromatic steps. Accidentals are indicated by
(s = sharp) and (f = flat). Further microtonal accidentals are
supported (see
:const:`mutwo.music_parameters.constants.ACCIDENTAL_NAME_TO_PITCH_CLASS_MODIFICATION_DICT`
for all supported accidentals).
:type pitch_class_or_pitch_class_name: PitchClassOrPitchClassName
:param octave: The octave of the new :class:`WesternPitch` object.
Indications for the specific octave follow the MIDI Standard where
4 is defined as one line.
:type octave: int
**Example:**
>>> from mutwo.music_parameters import pitches
>>> pitches.WesternPitch('cs', 4) # c-sharp 4
>>> pitches.WesternPitch('aqs', 2) # a-quarter-sharp 2
"""
def __init__(
self,
pitch_class_or_pitch_class_name: PitchClassOrPitchClassName = 0,
octave: int = 4,
concert_pitch_pitch_class: core_constants.Real = None,
concert_pitch_octave: int = None,
concert_pitch: ConcertPitch = None,
*args,
**kwargs,
):
if concert_pitch_pitch_class is None:
concert_pitch_pitch_class = (
music_parameters.configurations.DEFAULT_CONCERT_PITCH_PITCH_CLASS_FOR_WESTERN_PITCH
)
if concert_pitch_octave is None:
concert_pitch_octave = (
music_parameters.configurations.DEFAULT_CONCERT_PITCH_OCTAVE_FOR_WESTERN_PITCH
)
(
pitch_class,
pitch_class_name,
) = self._pitch_class_or_pitch_class_name_to_pitch_class_and_pitch_class_name(
pitch_class_or_pitch_class_name
)
super().__init__(
music_parameters.constants.CHROMATIC_PITCH_CLASS_COUNT,
pitch_class,
octave,
concert_pitch_pitch_class,
concert_pitch_octave,
concert_pitch,
*args,
**kwargs,
)
self._pitch_class_name = pitch_class_name
# ###################################################################### #
# static private methods #
# ###################################################################### #
@staticmethod
def _base_interval_type_and_interval_quality_semitone_count_to_interval_quality(
base_interval_type: str, interval_quality_semitone_count: int
) -> str:
is_interval_type_perfect = (
music_parameters.WesternPitchInterval.is_interval_type_perfect(
base_interval_type
)
)
if is_interval_type_perfect:
if interval_quality_semitone_count == 0:
interval_quality = "p"
elif interval_quality_semitone_count > 0:
interval_quality = "A" * interval_quality_semitone_count
else:
interval_quality = "d" * abs(interval_quality_semitone_count)
else:
if interval_quality_semitone_count == 0:
interval_quality = "M"
elif interval_quality_semitone_count == -1:
interval_quality = "m"
elif interval_quality_semitone_count > 0:
interval_quality = "A" * interval_quality_semitone_count
else:
interval_quality = "d" * abs(interval_quality_semitone_count + 1)
return interval_quality
@staticmethod
def _pitch_class_or_pitch_class_name_to_pitch_class_and_pitch_class_name(
pitch_class_or_pitch_class_name: PitchClassOrPitchClassName,
) -> tuple:
"""Helper function to initialise a WesternPitch from a number or a string.
A number has to represent the pitch class while the name has to use
the Western English nomenclature with the form
DIATONICPITCHCLASSNAME-ACCIDENTAL (e.g. "cs" for c-sharp,
"gqf" for g-quarter-flat, "b" for b)
"""
if isinstance(pitch_class_or_pitch_class_name, numbers.Real):
pitch_class = float(pitch_class_or_pitch_class_name)
pitch_class_name = WesternPitch._pitch_class_to_pitch_class_name(
pitch_class_or_pitch_class_name
)
elif isinstance(pitch_class_or_pitch_class_name, str):
pitch_class = WesternPitch._pitch_class_name_to_pitch_class(
pitch_class_or_pitch_class_name
)
pitch_class_name = pitch_class_or_pitch_class_name
else:
raise TypeError(
"Can't initalise pitch_class by "
f"'{pitch_class_or_pitch_class_name}' of type"
f" '{type(pitch_class_or_pitch_class_name)}'."
)
return pitch_class, pitch_class_name
@staticmethod
def _accidental_to_pitch_class_modifications(
accidental: str,
) -> core_constants.Real:
"""Helper function to translate an accidental to its pitch class modification.
Raises an error if the accidental hasn't been defined yet in
mutwo.music_parameters.constants.ACCIDENTAL_NAME_TO_PITCH_CLASS_MODIFICATION_DICT.
"""
try:
return music_parameters.constants.ACCIDENTAL_NAME_TO_PITCH_CLASS_MODIFICATION_DICT[
accidental
]
except KeyError:
raise NotImplementedError(
"Can't initialise WesternPitch with "
f"unknown accidental {accidental}! Please see "
"'music_parameters.constants.ACCIDENTAL_NAME_TO_PITCH_CLASS_MODIFICATION_DICT'"
" for a list of allowed accidentals."
)
@staticmethod
def _pitch_class_name_to_pitch_class(
pitch_class_name: str,
) -> float:
"""Helper function to translate a pitch class name to its respective number.
+/-1 is defined as one chromatic step. Smaller floating point numbers
represent microtonal inflections..
"""
diatonic_pitch_class_name, accidental = (
pitch_class_name[0],
pitch_class_name[1:],
)
diatonic_pitch_class = (
music_parameters.constants.DIATONIC_PITCH_CLASS_CONTAINER[
diatonic_pitch_class_name
].pitch_class
)
pitch_class_modification = (
WesternPitch._accidental_to_pitch_class_modifications(accidental)
)
return float(diatonic_pitch_class + pitch_class_modification)
@staticmethod
def _difference_to_closest_diatonic_pitch_to_accidental(
difference_to_closest_diatonic_pitch: core_constants.Real,
) -> str:
"""Helper function to translate a number to the closest known accidental."""
closest_pitch_class_modification: fractions.Fraction = core_utilities.find_closest_item(
difference_to_closest_diatonic_pitch,
tuple(
music_parameters.constants.PITCH_CLASS_MODIFICATION_TO_ACCIDENTAL_NAME_DICT.keys()
),
)
closest_accidental = (
music_parameters.constants.PITCH_CLASS_MODIFICATION_TO_ACCIDENTAL_NAME_DICT[
closest_pitch_class_modification
]
)
return closest_accidental
@staticmethod
def _pitch_class_to_pitch_class_name(
pitch_class: core_constants.Real,
) -> str:
"""Helper function to translate a pitch class in number to a string.
The returned pitch class name uses a Western nomenclature of English
diatonic note names. Accidental names are defined in
mutwo.music_parameters.constants.ACCIDENTAL_NAME_TO_PITCH_CLASS_MODIFICATION_DICT.
For floating point numbers the closest accidental is chosen.
"""
closest_diatonic_pitch_class = music_parameters.constants.DIATONIC_PITCH_CLASS_CONTAINER.get_closest_diatonic_pitch_class(
pitch_class
)
accidental_adjustments = pitch_class - closest_diatonic_pitch_class.pitch_class
accidental = WesternPitch._difference_to_closest_diatonic_pitch_to_accidental(
accidental_adjustments
)
pitch_class_name = f"{closest_diatonic_pitch_class}{accidental}"
return pitch_class_name
# ###################################################################### #
# public class methods #
# ###################################################################### #
[docs] @classmethod
def from_midi_pitch_number(cls, midi_pitch_number: float) -> WesternPitch:
pitch_number = (
midi_pitch_number - music_parameters.constants.CHROMATIC_PITCH_CLASS_COUNT
)
pitch_class_number = (
pitch_number % music_parameters.constants.CHROMATIC_PITCH_CLASS_COUNT
)
octave_number = int(
pitch_number // music_parameters.constants.CHROMATIC_PITCH_CLASS_COUNT
)
return cls(pitch_class_number, octave=octave_number)
# ###################################################################### #
# magic methods #
# ###################################################################### #
def __repr__(self) -> str:
return f"{type(self).__name__}('{self.pitch_class_name}', {self.octave})"
def __str__(self) -> str:
return repr(self)
# ###################################################################### #
# private methods #
# ###################################################################### #
def _parse_pitch_interval(
self,
pitch_interval: typing.Union[
str, music_parameters.abc.PitchInterval, core_constants.Real
],
) -> typing.Union[
music_parameters.abc.PitchInterval,
core_constants.Real,
music_parameters.abc.PitchInterval,
]:
if isinstance(pitch_interval, str):
pitch_interval = music_parameters.WesternPitchInterval(pitch_interval)
elif isinstance(pitch_interval, core_constants.Real.__args__ + (int,)):
# Only convert to western pitch interval in case the interval isn't
# microtonal (because WesternPitchInterval doesn't support
# microtonality). 0.001 (= 0.1 cents) are set in case for
# floating point errors.
if abs(round(pitch_interval) - pitch_interval) < 0.001:
pitch_interval = music_parameters.WesternPitchInterval(pitch_interval)
return pitch_interval
def _get_new_diatonic_pitch_class_name_and_octave_count(
self, western_pitch_interval_to_add: music_parameters.WesternPitchInterval
) -> tuple[str, int]:
diatonic_pitch_class = (
music_parameters.constants.DIATONIC_PITCH_CLASS_CONTAINER[
self.diatonic_pitch_class_name
]
)
return (
diatonic_pitch_class
+ western_pitch_interval_to_add.diatonic_pitch_class_count
)
def _get_new_pitch_class_modification(
self,
western_pitch_interval_to_add: music_parameters.WesternPitchInterval,
new_diatonic_pitch_class_name: str,
) -> fractions.Fraction:
key = (self.diatonic_pitch_class_name, new_diatonic_pitch_class_name)
if western_pitch_interval_to_add.is_interval_falling:
key = tuple(reversed(key))
added_cent_deviation = (
western_pitch_interval_to_add.interval_quality_cent_deviation
+ music_parameters.constants.DIATONIC_PITCH_CLASS_NAME_PAIR_TO_COMPENSATION_IN_CENTS_DICT[
key
]
)
added_pitch_class_modification = fractions.Fraction(
int(added_cent_deviation),
# 100 for cents -> to semitones
100,
)
pitch_class_modification = (operator.add, operator.sub)[
western_pitch_interval_to_add.is_interval_falling
](
music_parameters.constants.ACCIDENTAL_NAME_TO_PITCH_CLASS_MODIFICATION_DICT[
self.accidental_name
],
added_pitch_class_modification,
)
return pitch_class_modification
def _add_western_pitch_interval(
self, western_pitch_interval_to_add: music_parameters.WesternPitchInterval
):
(
new_diatonic_pitch_class_name,
octave_count,
) = self._get_new_diatonic_pitch_class_name_and_octave_count(
western_pitch_interval_to_add
)
new_pitch_class_modification = self._get_new_pitch_class_modification(
western_pitch_interval_to_add, new_diatonic_pitch_class_name
)
try:
new_accidental = music_parameters.constants.PITCH_CLASS_MODIFICATION_TO_ACCIDENTAL_NAME_DICT[
new_pitch_class_modification
]
except KeyError:
# Fall back to default calculation (because the needed accidental
# doesn't exist. We would need something even more sharp than
# double sharp or even more flat than double flat).
warnings.warn(
"Couldn't get correct western pitch with "
f"interval '{western_pitch_interval_to_add} to"
f" '{self}'; pitch_modifiation: "
f"{new_pitch_class_modification}.",
RuntimeWarning,
)
return super().add(western_pitch_interval_to_add)
new_pitch_class_name = f"{new_diatonic_pitch_class_name}{new_accidental}"
self.pitch_class_name = new_pitch_class_name
self.octave += octave_count
# ###################################################################### #
# public properties #
# ###################################################################### #
@property
def name(self) -> str:
"""The name of the pitch in Western nomenclature."""
return f"{self._pitch_class_name}{self.octave}"
@property
def pitch_class_name(self) -> str:
"""The name of the pitch class in Western nomenclature.
Mutwo uses the English nomenclature for pitch class names:
(c, d, e, f, g, a, b)
"""
return self._pitch_class_name
@pitch_class_name.setter
def pitch_class_name(self, pitch_class_name: str):
self._pitch_class = self._pitch_class_name_to_pitch_class(pitch_class_name)
self._pitch_class_name = pitch_class_name
@EqualDividedOctavePitch.pitch_class.setter # type: ignore
def pitch_class(self, pitch_class: core_constants.Real):
self._pitch_class_name = self._pitch_class_to_pitch_class_name(pitch_class)
self._pitch_class = pitch_class
@property
def diatonic_pitch_class_name(self) -> str:
"""Only get the diatonic part of the pitch name"""
return self.pitch_class_name[0]
@property
def accidental_name(self) -> str:
"""Only get accidental part of pitch name"""
return self.pitch_class_name[1:]
@property
def is_microtonal(self) -> bool:
"""Return `True` if accidental isn't on chromatic grid."""
pitch_modifiation = (
music_parameters.constants.ACCIDENTAL_NAME_TO_PITCH_CLASS_MODIFICATION_DICT[
self.accidental_name
]
)
return pitch_modifiation % fractions.Fraction(1, 1) != 0
@property
def enharmonic_pitch_tuple(self) -> tuple[WesternPitch, ...]:
"""Return pitches with equal frequency but different name.
**Disclaimer:**
This doesn't work in some corner cases yet (e.g. it won't find
"css" for "eff")
"""
(
previous_neighbour,
next_neighbour,
) = music_parameters.constants.DIATONIC_PITCH_CLASS_CONTAINER[
self.diatonic_pitch_class_name
].neighbour_tuple
enharmonic_pitch_list = []
for neighbour, accidental_sequence in (
(
previous_neighbour,
music_parameters.constants.RISING_ACCIDENTAL_NAME_TUPLE,
),
(
next_neighbour,
music_parameters.constants.FALLING_ACCIDENTAL_NAME_TUPLE,
),
):
diatonic_pitch_class, octave_count = neighbour
for accidental_name in ("",) + accidental_sequence:
if (
(
potential_enharmonic_pitch := WesternPitch(
f"{diatonic_pitch_class}{accidental_name}",
self.octave + octave_count,
)
).pitch_class
% music_parameters.constants.CHROMATIC_PITCH_CLASS_COUNT
== self.pitch_class
% music_parameters.constants.CHROMATIC_PITCH_CLASS_COUNT
):
enharmonic_pitch_list.append(potential_enharmonic_pitch)
return tuple(enharmonic_pitch_list)
# ###################################################################### #
# public methods #
# ###################################################################### #
[docs] @core_utilities.add_copy_option
def add( # type: ignore
self,
pitch_interval: typing.Union[
str, music_parameters.abc.PitchInterval, core_constants.Real
],
) -> WesternPitch: # type: ignore
pitch_interval = self._parse_pitch_interval(pitch_interval)
if isinstance(pitch_interval, music_parameters.WesternPitchInterval):
self._add_western_pitch_interval(pitch_interval)
else:
return super().add(pitch_interval) # type: ignore
[docs] @core_utilities.add_copy_option
def subtract( # type: ignore
self,
pitch_interval: typing.Union[
str, music_parameters.abc.PitchInterval, core_constants.Real
],
) -> WesternPitch: # type: ignore
pitch_interval = self._parse_pitch_interval(pitch_interval)
if isinstance(pitch_interval, music_parameters.WesternPitchInterval):
return self.add(pitch_interval.inverse_direction(mutate=False))
else:
return super().subtract(pitch_interval) # type: ignore
def _get_western_pitch_interval(
self, pitch_to_compare: music_parameters.WesternPitch
) -> music_parameters.WesternPitchInterval:
# First we need to fetch the basic interval type:
# we can check the distance between the diatonic pitch class
# names for this purpose.
diatonic_pitch_class_self, diatonic_pitch_class_other = (
music_parameters.constants.DIATONIC_PITCH_CLASS_CONTAINER[
self.diatonic_pitch_class_name
],
music_parameters.constants.DIATONIC_PITCH_CLASS_CONTAINER[
pitch_to_compare.diatonic_pitch_class_name
],
)
diatonic_pitch_class_count, octave_count = (
diatonic_pitch_class_other - diatonic_pitch_class_self
)
# Then we can add the octaves to our basic interval
# type.
octave_count += pitch_to_compare.octave - self.octave
base_interval_type = diatonic_pitch_class_count + 1
interval_type = base_interval_type + (
abs(octave_count)
* music_parameters.constants.DIATONIC_PITCH_CLASS_CONTAINER.diatonic_pitch_class_count
)
# Next we have to figure out the interval quality.
# To figure out the interval quality we need to compare
# (1) the accidentals of both pitches (2) the
# compensation between the diatonic pitch classes.
interval_quality_semitone_count = -(
music_parameters.constants.DIATONIC_PITCH_CLASS_NAME_PAIR_TO_COMPENSATION_IN_CENTS_DICT[
(diatonic_pitch_class_self, diatonic_pitch_class_other)
]
/ 100
)
pitch_modification_self, pitch_modification_other = (
music_parameters.constants.ACCIDENTAL_NAME_TO_PITCH_CLASS_MODIFICATION_DICT[
self.accidental_name
],
music_parameters.constants.ACCIDENTAL_NAME_TO_PITCH_CLASS_MODIFICATION_DICT[
pitch_to_compare.accidental_name
],
)
interval_quality_semitone_count += (
pitch_modification_other - pitch_modification_self
)
interval_quality = WesternPitch._base_interval_type_and_interval_quality_semitone_count_to_interval_quality(
str(base_interval_type), int(interval_quality_semitone_count)
)
return music_parameters.WesternPitchInterval(
f"{interval_quality}{interval_type}"
)
[docs] def get_pitch_interval(
self, pitch_to_compare: music_parameters.abc.Pitch
) -> music_parameters.abc.PitchInterval:
# We can try to return WesternPitchInterval which is more precise
# than the general DirectPitchInterval class.
if (
isinstance(pitch_to_compare, WesternPitch)
# WesternPitchInterval doesn't support microtonal intervals
and not self.is_microtonal
and not pitch_to_compare.is_microtonal
):
if pitch_to_compare < self:
pitch_interval = pitch_to_compare._get_western_pitch_interval(self)
pitch_interval.inverse_direction()
else:
pitch_interval = self._get_western_pitch_interval(pitch_to_compare)
return pitch_interval
else:
return super().get_pitch_interval(pitch_to_compare)