def _insert_step(self, time_range, time_index, param_index, envelope, value):
param = self.parameters[param_index]
envelope_value = self._parameter_floats[time_index][param_index]
if param.is_quantized:
value_to_insert = clamp(envelope_value + value / EnumerableSetting.STEP_SIZE, param.min, param.max)
else:
value_range = param.max - param.min
value_to_insert = clamp(envelope_value + value * value_range, param.min, param.max)
self._parameter_floats[time_index][param_index] = value_to_insert
envelope.insert_step(time_range[0], time_range[1] - time_range[0], value_to_insert)
def _insert_step(self, time_range, time_index, param_index, envelope, value):
param = self.parameters[param_index]
envelope_value = self._parameter_floats[time_index][param_index]
if param.is_quantized:
value_to_insert = clamp(envelope_value + value / EnumerableSetting.STEP_SIZE, param.min, param.max)
else:
value_range = param.max - param.min
value_to_insert = clamp(envelope_value + value * value_range, param.min, param.max)
self._parameter_floats[time_index][param_index] = value_to_insert
envelope.insert_step(time_range[0], time_range[1] - time_range[0], value_to_insert)
def _touch_strip_to_scroll_position(self, value, offset):
detailed = self._shift_button and self._shift_button.is_pressed()
max_pitchbend = 16384.0
num_pad_rows = 32
max_pad_row = 28
bank_size = 4
offsetted_value = clamp(value - offset, 0, max_pitchbend)
return min(int(offsetted_value / max_pitchbend *
num_pad_rows), max_pad_row) if detailed else clamp(
int(
int(value / max_pitchbend * num_pad_rows + 3) /
float(bank_size)) * bank_size -
3, 0, max_pad_row)
def _normalize_offset(self, index):
if index >= 0:
if index >= self._offset + self._num_visible_items:
self._offset = index - (self._num_visible_items - 1)
elif index < self._offset:
self._offset = index
self._offset = clamp(self._offset, 0, len(self._items) - self._num_visible_items)
def handle_value(self, value, notify):
range, position = self.handle.range, self.handle.position
if not self._grabbed and range[0] <= value - position < range[1]:
self._offset = value - position
self._grabbed = True
else:
notify(clamp(value - self._offset, 0, MAX_PITCHBEND))
def _on_content_lists_changed(self):
components = self._list_components
contents = self._browser_model.content_lists
messages = self._browser_model.empty_list_messages
for component, content, message in map(None, components, contents, messages):
if component != None:
component.scrollable_list = content
component.empty_list_message = message
active_lists = len(contents)
num_head = clamp(active_lists - 1, 0, self.NUM_COLUMNS - 1)
head = components[:num_head]
last = components[num_head:]
def set_data_sources_with_separator(component, sources, separator):
for source in sources:
source.separator = separator
component.set_data_sources(sources)
component.set_enabled(True)
for idx, component in enumerate(head):
offset = idx * self.COLUMN_SIZE
sources = self._data_sources[offset:offset + self.COLUMN_SIZE]
set_data_sources_with_separator(component, sources, '|')
if last:
sources = self._data_sources[num_head * self.COLUMN_SIZE:]
set_data_sources_with_separator(last[0], sources, '')
for component in last[1:]:
component.set_enabled(False)
self.set_select_buttons(self._select_buttons)
self.set_state_buttons(self._state_buttons)
self.set_encoder_controls(self._encoder_controls)
def handle_value(self, value, notify):
range, position = self.handle.range, self.handle.position
if not self._grabbed and range[0] <= value - position < range[1]:
self._offset = value - position
self._grabbed = True
else:
notify(clamp(value - self._offset, 0, MAX_PITCHBEND))
def _on_record_quantization_value(self, value):
self._record_quantization_float = clamp(
self._record_quantization_float + value, 0.0, 1.0)
self._record_quantization = float_to_record_quantization(
self._record_quantization_float)
self._update_record_quantization()
self._update_record_quantization_display()
def convert_value_to_graphic(value, value_range):
value_bar = GRAPH_VOL
graph_range = float(len(value_bar))
value = clamp(int(value / value_range * graph_range), 0,
len(value_bar) - 1)
display_string = value_bar[value]
return display_string
def _normalize_offset(self, index):
if index >= 0:
if index >= self._offset + self._num_visible_items:
self._offset = index - (self._num_visible_items - 1)
elif index < self._offset:
self._offset = index
self._offset = clamp(self._offset, 0, len(self._items) - self._num_visible_items)
def _on_clip_warp_mode_value(self, value):
if self._clip != None:
self._warp_mode_encoder_value = clamp(self._warp_mode_encoder_value + value, 0.0, 1.0)
if self._clip.warping:
warp_mode_index = int(self._warp_mode_encoder_value * (len(self._available_warp_modes) - 1))
self._clip.warp_mode = self._available_warp_modes[warp_mode_index]
return
def _touch_strip_to_scroll_position(self, value, offset):
detailed = self._shift_button and self._shift_button.is_pressed()
max_pitchbend = 16384.0
num_pad_rows = 32
max_pad_row = 28
bank_size = 4
offsetted_value = clamp(value - offset, 0, max_pitchbend)
return min(int(offsetted_value / max_pitchbend * num_pad_rows), max_pad_row) if detailed else clamp(int(int(value / max_pitchbend * num_pad_rows + 3) / float(bank_size)) * bank_size - 3, 0, max_pad_row)
def clamp(self, time, extra_time=0.0):
result = clamp(
self._looped_time(time, extra_time), self.left_boundary(),
self.start - self.offset + self.length - BEAT_TIME_EPSILON)
if result < self.clip_start:
return result - self.clip_start + self.clip_end
else:
return result
def _add_offset_to_selected_index(self, offset):
if self.is_enabled() and self._scrollable_list:
with self._delay_activation():
with self._in_encoder_selection():
self._selected_index_float = clamp(
self._selected_index_float + offset * self.ENCODER_FACTOR, 0, len(self._scrollable_list.items)
)
self._scrollable_list.select_item_index_with_border(int(self._selected_index_float), 1)
def _set_option_names(self, value):
self._option_names = value
if self._selected_option:
currently_selected_option = self.selected_option
self.selected_option = clamp(self._selected_option, 0, len(self._option_names) - 1)
if currently_selected_option != self.selected_option:
self.notify_selected_option(self.selected_option)
self._update_data_sources()
def prev_page(self):
if self.can_scroll_up():
current_page = self.selected_item_index / self.num_visible_items
last_page_index = len(self.items) - self.num_visible_items
if self.selected_item_index <= last_page_index:
index = clamp((current_page - 1) * self.num_visible_items, 0, len(self.items) - self.num_visible_items)
else:
index = max(len(self.items) - self.num_visible_items, 0)
self.select_item_index_with_offset(index, 0)
def next_page(self):
if self.can_scroll_down():
current_page = self.selected_item_index / self.num_visible_items
last_page_index = len(self.items) - self.num_visible_items
if self.selected_item_index < last_page_index:
index = clamp((current_page + 1) * self.num_visible_items, 0, len(self.items) - self.num_visible_items)
else:
index = len(self.items) - 1
self.select_item_index_with_offset(index, 0)
def prev_page(self):
if self.can_scroll_up():
current_page = self.selected_item_index / self.num_visible_items
last_page_index = len(self.items) - self.num_visible_items
if self.selected_item_index <= last_page_index:
index = clamp((current_page - 1) * self.num_visible_items, 0, len(self.items) - self.num_visible_items)
else:
index = max(len(self.items) - self.num_visible_items, 0)
self.select_item_index_with_offset(index, 0)
def next_page(self):
if self.can_scroll_down():
current_page = self.selected_item_index / self.num_visible_items
last_page_index = len(self.items) - self.num_visible_items
if self.selected_item_index < last_page_index:
index = clamp((current_page + 1) * self.num_visible_items, 0, len(self.items) - self.num_visible_items)
else:
index = len(self.items) - 1
self.select_item_index_with_offset(index, 0)
def _touch_strip_to_page_position(self, value):
bank_size = self._slideable.page_length
num_pad_rows = self._slideable.position_count
max_pad_row = num_pad_rows - bank_size
offset = bank_size - self._slideable.page_offset
return clamp(
int(
int(value / MAX_PITCHBEND * num_pad_rows + offset) /
float(bank_size)) * bank_size - offset, 0, max_pad_row)
def clamp(self, time, extra_time=0.0):
result = clamp(
self._looped_time(time, extra_time),
self.left_boundary(),
self.start - self.offset + self.length - BEAT_TIME_EPSILON,
)
if result < self.clip_start:
return result - self.clip_start + self.clip_end
else:
return result
def _add_offset_to_selected_index(self, offset):
if self.is_enabled() and self._scrollable_list:
with self._delay_activation():
with self._in_encoder_selection():
self._selected_index_float = clamp(
self._selected_index_float +
offset * self.ENCODER_FACTOR, 0,
len(self._scrollable_list.items))
self._scrollable_list.select_item_index_with_border(
int(self._selected_index_float), 1)
def _set_option_names(self, value):
self._option_names = value
self.select_buttons.control_count = len(value)
if self._selected_option:
currently_selected_option = self.selected_option
self.selected_option = clamp(self._selected_option, 0, len(self._option_names) - 1)
if currently_selected_option != self.selected_option:
self.notify_selected_option(self.selected_option)
self._update_select_buttons()
self._update_data_sources()
def _set_option_names(self, value):
self._option_names = value
self.select_buttons.control_count = len(value)
if self._selected_option:
currently_selected_option = self.selected_option
self.selected_option = clamp(self._selected_option, 0, len(self._option_names) - 1)
if currently_selected_option != self.selected_option:
self.notify_selected_option(self.selected_option)
self._update_select_buttons()
self._update_data_sources()
def visible_drum_pads(self):
if self._visible_drum_pads and self._all_drum_pads:
first_pad = first(self._visible_drum_pads)
if first_pad:
size = self.width * self.height
first_note = first_pad.note
if first_note > 128 - size:
size = 128 - first_note
offset = clamp(first_note, 0, 128 - len(self._visible_drum_pads))
return self._all_drum_pads[offset : offset + size]
return []
def select_item_index_with_border(self, index, border_size):
"""
Selects an item with an index. Moves the view if the selection would exceed the
border of the current view.
"""
if index >= 0 and index < len(self._items):
if not in_range(index, self._offset + border_size, self._offset + self._num_visible_items - border_size):
offset = index - (self._num_visible_items - 2 * border_size) if self.selected_item_index < index else index - border_size
self._offset = clamp(offset, 0, len(self._items))
self._normalize_offset(index)
self._do_set_selected_item_index(index)
def select_item_index_with_offset(self, index, offset):
"""
Selects an item index but moves the view such that there are,
if possible, 'offset' number of elements visible before the
selected one. Does nothing if the item was already selected.
"""
if not (index != self.selected_item_index and index >= 0 and index < len(self._items) and self.selected_item_index != -1):
raise AssertionError
self._offset = clamp(index - offset, 0, len(self._items))
self._normalize_offset(index)
self._do_set_selected_item_index(index)
def visible_drum_pads(self): if self._visible_drum_pads and self._all_drum_pads: first_pad = first(self._visible_drum_pads) if first_pad: size = self.width * self.height first_note = first_pad.note if first_note > 128 - size: size = 128 - first_note offset = clamp(first_note, 0, 128 - len(self._visible_drum_pads)) return self._all_drum_pads[offset:offset + size] return []
def select_item_index_with_offset(self, index, offset):
"""
Selects an item index but moves the view such that there are,
if possible, 'offset' number of elements visible before the
selected one. Does nothing if the item was already selected.
"""
if not (index != self.selected_item_index and index >= 0 and index < len(self._items) and self.selected_item_index != -1):
raise AssertionError
self._offset = clamp(index - offset, 0, len(self._items))
self._normalize_offset(index)
self._do_set_selected_item_index(index)
def select_item_index_with_border(self, index, border_size):
"""
Selects an item with an index. Moves the view if the selection would exceed the
border of the current view.
"""
if self.fixed_offset is not None:
self.select_item_index_with_offset(index, self.fixed_offset)
elif index >= 0 and index < len(self._items):
if not in_range(index, self._offset + border_size, self._offset + self._num_visible_items - border_size):
offset = index - (self._num_visible_items - 2 * border_size) if self.selected_item_index < index else index - border_size
self._offset = clamp(offset, 0, len(self._items))
self._normalize_offset(index)
self._do_set_selected_item_index(index)
def _on_content_lists_changed(self):
components = self._list_components
contents = self._browser_model.content_lists[self._scroll_offset:]
messages = self._browser_model.empty_list_messages
scroll_depth = len(self._browser_model.content_lists) - len(
self._list_components)
self._max_scroll_offset = max(0, scroll_depth + 2)
self._max_hierarchy = max(0, scroll_depth)
for component, content, message in map(None, components, contents,
messages):
if component != None:
component.scrollable_list = content
component.empty_list_message = message
active_lists = len(contents)
num_head = clamp(active_lists - 1, 0, self.NUM_COLUMNS - 1)
head = components[:num_head]
last = components[num_head:]
def set_data_sources_with_separator(component, sources, separator):
for source in sources:
source.separator = separator
component.set_data_sources(sources)
component.set_enabled(True)
for idx, component in enumerate(head):
offset = idx * self.COLUMN_SIZE
sources = self._data_sources[offset:offset + self.COLUMN_SIZE]
set_data_sources_with_separator(component, sources, '|')
if last:
offset = num_head * self.COLUMN_SIZE
scrollable_list = last[0].scrollable_list
if scrollable_list and find_if(lambda item: item.content.is_folder,
scrollable_list.items):
sources = self._data_sources[offset:offset + self.COLUMN_SIZE]
map(DisplayDataSource.clear,
self._data_sources[offset + self.COLUMN_SIZE:])
else:
sources = self._data_sources[offset:]
set_data_sources_with_separator(last[0], sources, '')
for component in last[1:]:
component.set_enabled(False)
self.set_select_buttons(self._select_buttons)
self.set_state_buttons(self._state_buttons)
self.set_encoder_controls(self._encoder_controls)
self._update_navigation_button_state()
return
def _on_content_lists_changed(self):
components = self._list_components
contents = self._browser_model.content_lists[self._scroll_offset:]
messages = self._browser_model.empty_list_messages
scroll_depth = len(self._browser_model.content_lists) - len(self._list_components)
self._max_scroll_offset = max(0, scroll_depth + 2)
self._max_hierarchy = max(0, scroll_depth)
for component, content, message in map(None, components, contents, messages):
if component != None:
component.scrollable_list = content
component.empty_list_message = message
active_lists = len(contents)
num_head = clamp(active_lists - 1, 0, self.NUM_COLUMNS - 1)
head = components[:num_head]
last = components[num_head:]
def set_data_sources_with_separator(component, sources, separator):
for source in sources:
source.separator = separator
component.set_data_sources(sources)
component.set_enabled(True)
for idx, component in enumerate(head):
offset = idx * self.COLUMN_SIZE
sources = self._data_sources[offset:offset + self.COLUMN_SIZE]
set_data_sources_with_separator(component, sources, '|')
if last:
offset = num_head * self.COLUMN_SIZE
scrollable_list = last[0].scrollable_list
if scrollable_list and find_if(lambda item: item.content.is_folder, scrollable_list.items):
sources = self._data_sources[offset:offset + self.COLUMN_SIZE]
map(DisplayDataSource.clear, self._data_sources[offset + self.COLUMN_SIZE:])
else:
sources = self._data_sources[offset:]
set_data_sources_with_separator(last[0], sources, '')
for component in last[1:]:
component.set_enabled(False)
self.set_select_buttons(self._select_buttons)
self.set_state_buttons(self._state_buttons)
self.set_encoder_controls(self._encoder_controls)
self._update_navigation_button_state()
return
def set(self, base_name=None, playing_slot_index=None, preset_index=None):
# type: (Optional[str], Optional[int], Optional[int]) -> None
playing_slot_index = playing_slot_index if playing_slot_index is not None else self.playing_slot_index
playing_slot_index = clamp(playing_slot_index, -1,
len(self.track.song.scenes) - 1)
if base_name and base_name != self.base_name:
# noinspection PyUnresolvedReferences
self.notify_base_name()
name = "%s - %s" % (base_name if base_name else self.base_name,
playing_slot_index)
if self.track.instrument:
preset_index = preset_index if preset_index is not None else self.preset_index
preset_index = max(0, preset_index)
name += " - %s" % preset_index
self.track.name = name
def _on_content_lists_changed(self):
components = self._list_components
contents = self._browser_model.content_lists
messages = self._browser_model.empty_list_messages
for component, content, message in map(None, components, contents,
messages):
if component != None:
component.scrollable_list = content
component.empty_list_message = message
active_lists = len(contents)
num_head = clamp(active_lists - 1, 0, self.NUM_COLUMNS - 1)
head = components[:num_head]
last = components[num_head:]
def set_data_sources_with_separator(component, sources, separator):
for source in sources:
source.separator = separator
component.set_data_sources(sources)
component.set_enabled(True)
for idx, component in enumerate(head):
offset = idx * self.COLUMN_SIZE
sources = self._data_sources[offset:offset + self.COLUMN_SIZE]
set_data_sources_with_separator(component, sources, '|')
if last:
sources = self._data_sources[num_head * self.COLUMN_SIZE:]
set_data_sources_with_separator(last[0], sources, '')
for component in last[1:]:
component.set_enabled(False)
self.set_select_buttons(self._select_buttons)
self.set_state_buttons(self._state_buttons)
self.set_encoder_controls(self._encoder_controls)
def _tempo_encoder_value(self, value):
if self.is_enabled():
step = 0.1 if self.shift_button.is_pressed else 1.0
amount = value - 128 if value >= 64 else value
self.song().tempo = clamp(self.song().tempo + amount * step, 20, 999)
def _scroll_position(self, delta):
if self.is_enabled():
model = self._slideable
model.position = clamp(model.position + delta, 0, model.position_count - model.page_length)
def _touch_strip_to_page_position(self, value):
bank_size = self._slideable.page_length
num_pad_rows = self._slideable.position_count
max_pad_row = num_pad_rows - bank_size
offset = bank_size - self._slideable.page_offset
return clamp(int(int(value / MAX_PITCHBEND * num_pad_rows + offset) / float(bank_size)) * bank_size - offset, 0, max_pad_row)
def on_num_sends_changed(self):
self.send_select_buttons.control_count = clamp(self.num_sends, 0, 8)
def _clamp_send_index(self):
self._selected_send_index = clamp(self._selected_send_index, 0, self.num_sends - 1)
if self._selected_send_index % 2 > 0:
self._selected_send_index -= 1
def _scroll_position(self, delta):
if self.is_enabled():
model = self._slideable
model.position = clamp(model.position + delta, 0, model.position_count - model.page_length)
def _on_clip_transpose_value(self, value):
if self._clip != None:
self._pitch_coarse = clamp(
self._pitch_coarse + value * 96 * self._encoder_factor, -48.0,
48.0)
self._clip.pitch_coarse = int(self._pitch_coarse)
def clamp(self, time, extra_time = 0.0):
return clamp(time + extra_time, self.left_boundary(), self.right_boundary())
def _jump_relative(self, relative_position):
current_position = self.values.index(self.value)
new_position = clamp(current_position + relative_position, 0,
len(self.values) - 1)
self.value = self.values[new_position]
return new_position if current_position != new_position else None
def _on_clip_gain_value(self, value):
if self._clip != None:
delta = value * self._encoder_factor
new_gain = self._clip.gain + delta
self._clip.gain = clamp(new_gain, 0.0, 1.0)
def _on_quantize_amount_value(self, value):
self._quantize_amount = clamp(self._quantize_amount + value, 0.0, 1.0)
self._update_quantize_amount_display()
def _on_swing_amount_value(self, value):
self.song().swing_amount = clamp(self.song().swing_amount + value * 0.5, 0.0, 0.5)
account current modifiers. If the note is not within
the given step, returns the note as-is.
If the time_step is inside a loop, the last part of the loop
is considered as being the same as the part just before the
loop, so the resulting note may, in this case, jump between
the beginning and the end.
"""
if time_step.includes_time(time):
time = time_step.clamp(time, self._nudge_offset)
if self._length_offset <= -time_step.length and length + self._length_offset < time_step.length:
if length > time_step.length:
length = time_step.length
else:
length = max(0, length + self._length_offset)
velocity = 127 if self.full_velocity else clamp(velocity + self._velocity_offset, 1, 127)
mute = not step_mute if self._mute_button and self._mute_button.is_pressed() else mute
return (pitch,
time,
length,
velocity,
mute)
def _min_max_for_notes(self, notes, start_time, min_max_values = None):
for note in notes:
note_values = list(note[:4])
note_values[1] -= start_time
for index, value in enumerate(note_values):
if not min_max_values:
min_max_values = [(99999, -99999)] * 4
min_value, max_value = min_max_values[index]
def _change_swing_amount_value(self, value):
self._set_swing_amount_value(
clamp(self.song().swing_amount + value * 0.025, 0.0, 0.99))
def _on_tracks_changed(self):
tracks = tracks_to_use_from_song(self.song())
self._track_offset = clamp(self._track_offset, 0, len(tracks) - 1)
self._on_fired_slot_index_changed.replace_subjects(tracks, count())
self._on_playing_slot_index_changed.replace_subjects(tracks, count())
self._update_all_stop_buttons()
def _on_record_quantization_value(self, value):
self._record_quantization_float = clamp(self._record_quantization_float + value, 0.0, 1.0)
self._record_quantization = float_to_record_quantization(self._record_quantization_float)
self._update_record_quantization()
self._update_record_quantization_display()
def on_num_sends_changed(self):
self.send_select_buttons.control_count = clamp(self.num_sends, 0, 8)
def _tempo_encoder_value(self, value):
if self.is_enabled():
step = 0.1 if self.shift_button.is_pressed else 1.0
amount = value - 128 if value >= 64 else value
self.song().tempo = clamp(self.song().tempo + amount * step, 20,
999)
account current modifiers. If the note is not within
the given step, returns the note as-is.
If the time_step is inside a loop, the last part of the loop
is considered as being the same as the part just before the
loop, so the resulting note may, in this case, jump between
the beginning and the end.
"""
if time_step.includes_time(time):
time = time_step.clamp(time, self._nudge_offset)
if self._length_offset <= -time_step.length and length + self._length_offset < time_step.length:
if length > time_step.length:
length = time_step.length
else:
length = max(0, length + self._length_offset)
velocity = 127 if self.full_velocity else clamp(
velocity + self._velocity_offset, 1, 127)
mute = not step_mute if self._mute_button and self._mute_button.is_pressed(
) else mute
return (pitch, time, length, velocity, mute)
def _min_max_for_notes(self, notes, start_time, min_max_values=None):
for note in notes:
note_values = list(note[:4])
note_values[1] -= start_time
for index, value in enumerate(note_values):
if not min_max_values:
min_max_values = [(99999, -99999)] * 4
min_value, max_value = min_max_values[index]
min_max_values[index] = (min(value,
min_value), max(value, max_value))
def _on_clip_gain_value(self, value):
if self._clip != None:
delta = value * self._encoder_factor
new_gain = self._clip.gain + delta
self._clip.gain = clamp(new_gain, 0.0, 1.0)
def clamp(self, time, extra_time=0.0):
return clamp(time + extra_time, self.left_boundary(),
self.right_boundary())
def _page_length_in_beats(self):
return clamp(self._paginator.page_length, 0.5, self._one_measure_in_beats)
def _on_clip_transpose_value(self, value):
if self._clip != None:
self._pitch_coarse = clamp(self._pitch_coarse + value * 96 * self._encoder_factor, -48.0, 48.0)
self._clip.pitch_coarse = int(self._pitch_coarse)
