def _is_length_tuple(expr): if expr is None: return True if mathtools.all_are_nonnegative_integer_equivalent_numbers(expr): if isinstance(expr, tuple): return True return False
def __init__( self, counts=(1,), only_if_preceded_by_nonsilence=None, only_if_preceded_by_silence=None, ): if not counts: counts = (0,), if not isinstance(counts, collections.Sequence): counts = (counts,) assert len(counts) assert mathtools.all_are_nonnegative_integer_equivalent_numbers( counts) self._counts = abjad.CyclicTuple(counts) if only_if_preceded_by_nonsilence is not None: only_if_preceded_by_nonsilence = bool( only_if_preceded_by_nonsilence) if only_if_preceded_by_silence is not None: only_if_preceded_by_silence = bool( only_if_preceded_by_silence) assert not ( only_if_preceded_by_silence and only_if_preceded_by_nonsilence ) self._only_if_preceded_by_silence = only_if_preceded_by_silence self._only_if_preceded_by_nonsilence = only_if_preceded_by_nonsilence
def _is_length_tuple(expr): if expr is None: return True if mathtools.all_are_nonnegative_integer_equivalent_numbers(expr): if isinstance(expr, (tuple, list)): return True return False
def __init__( self, beam_specifier=None, duration_spelling_specifier=None, division_masks=None, extra_counts_per_division=None, incise_specifier=None, logical_tie_masks=None, split_divisions_by_counts=None, tie_specifier=None, tuplet_spelling_specifier=None, helper_functions=None, ): from abjad.tools import rhythmmakertools RhythmMaker.__init__( self, beam_specifier=beam_specifier, duration_spelling_specifier=duration_spelling_specifier, division_masks=division_masks, logical_tie_masks=logical_tie_masks, tie_specifier=tie_specifier, tuplet_spelling_specifier=tuplet_spelling_specifier, ) prototype = (rhythmmakertools.InciseSpecifier, type(None)) assert isinstance(incise_specifier, prototype) self._incise_specifier = incise_specifier if extra_counts_per_division is not None: extra_counts_per_division = tuple(extra_counts_per_division) if split_divisions_by_counts is not None: split_divisions_by_counts = tuple(split_divisions_by_counts) assert extra_counts_per_division is None or \ mathtools.all_are_nonnegative_integer_equivalent_numbers( extra_counts_per_division), extra_counts_per_division assert split_divisions_by_counts is None or \ mathtools.all_are_nonnegative_integer_equivalent_numbers( split_divisions_by_counts), split_divisions_by_counts self._extra_counts_per_division = extra_counts_per_division self._split_divisions_by_counts = split_divisions_by_counts if helper_functions is not None: assert isinstance(helper_functions, dict) for name in helper_functions: function = helper_functions.get(name) assert callable(function) self._helper_functions = helper_functions
def __init__( self, incise_specifier=None, split_divisions_by_counts=None, extra_counts_per_division=None, beam_specifier=None, duration_spelling_specifier=None, output_masks=None, tie_specifier=None, tuplet_spelling_specifier=None, helper_functions=None, ): from abjad.tools import rhythmmakertools RhythmMaker.__init__( self, beam_specifier=beam_specifier, duration_spelling_specifier=duration_spelling_specifier, output_masks=output_masks, tie_specifier=tie_specifier, tuplet_spelling_specifier=tuplet_spelling_specifier, ) prototype = (rhythmmakertools.InciseSpecifier, type(None)) assert isinstance(incise_specifier, prototype) self._incise_specifier = incise_specifier extra_counts_per_division = \ self._to_tuple(extra_counts_per_division) split_divisions_by_counts = \ self._to_tuple(split_divisions_by_counts) assert extra_counts_per_division is None or \ mathtools.all_are_nonnegative_integer_equivalent_numbers( extra_counts_per_division), extra_counts_per_division assert split_divisions_by_counts is None or \ mathtools.all_are_nonnegative_integer_equivalent_numbers( split_divisions_by_counts), split_divisions_by_counts self._extra_counts_per_division = extra_counts_per_division self._split_divisions_by_counts = split_divisions_by_counts if helper_functions is not None: assert isinstance(helper_functions, dict) for name in helper_functions: function = helper_functions.get(name) assert callable(function) self._helper_functions = helper_functions