import time from abc import abstractmethod from math import log from typing import Union from .error import VMError from .iremote import IRemote from .kinds import kinds_all from .meta import bool_prop class Strip(IRemote): """ Implements the common interface Defines concrete implementation for strip """ @abstractmethod def __str__(self): pass @property def identifier(self) -> str: return f"strip[{self.index}]" @property def mono(self) -> bool: return self.getter("mono") == 1 @mono.setter def mono(self, val: bool): if not isinstance(val, bool) and val not in (0, 1): raise VMError("mono is a boolean parameter") self.setter("mono", 1 if val else 0) @property def solo(self) -> bool: return self.getter("solo") == 1 @solo.setter def solo(self, val: bool): if not isinstance(val, bool) and val not in (0, 1): raise VMError("solo is a boolean parameter") self.setter("solo", 1 if val else 0) @property def mute(self) -> bool: return self.getter("mute") == 1 @mute.setter def mute(self, val: bool): if not isinstance(val, bool) and val not in (0, 1): raise VMError("mute is a boolean parameter") self.setter("mute", 1 if val else 0) @property def limit(self) -> int: return int(self.getter("limit")) @limit.setter def limit(self, val: int): self.setter("limit", val) @property def label(self) -> str: return self.getter("Label", is_string=True) @label.setter def label(self, val: str): if not isinstance(val, str): raise VMError("label is a string parameter") self.setter("Label", val) @property def gain(self) -> float: return round(self.getter("gain"), 1) @gain.setter def gain(self, val: float): self.setter("gain", val) def fadeto(self, target: float, time_: int): self.setter("FadeTo", f"({target}, {time_})") time.sleep(self._remote.DELAY) def fadeby(self, change: float, time_: int): self.setter("FadeBy", f"({change}, {time_})") time.sleep(self._remote.DELAY) class PhysicalStrip(Strip): def __str__(self): return f"{type(self).__name__}{self.index}" @property def comp(self) -> float: return round(self.getter("Comp"), 1) @comp.setter def comp(self, val: float): self.setter("Comp", val) @property def gate(self) -> float: return round(self.getter("Gate"), 1) @gate.setter def gate(self, val: float): self.setter("Gate", val) @property def audibility(self) -> float: return round(self.getter("audibility"), 1) @audibility.setter def audibility(self, val: float): self.setter("audibility", val) @property def device(self): return self.getter("device.name", is_string=True) @property def sr(self): return int(self.getter("device.sr")) class VirtualStrip(Strip): def __str__(self): return f"{type(self).__name__}{self.index}" @property def mc(self) -> bool: return self.getter("mc") == 1 @mc.setter def mc(self, val: bool): if not isinstance(val, bool) and val not in (0, 1): raise VMError("mc is a boolean parameter") self.setter("mc", 1 if val else 0) mono = mc @property def k(self) -> int: return int(self.getter("karaoke")) @k.setter def k(self, val: int): self.setter("karaoke", val) @property def bass(self): return round(self.getter("EQGain1"), 1) @bass.setter def bass(self, val: float): self.setter("EQGain1", val) @property def mid(self): return round(self.getter("EQGain2"), 1) @mid.setter def mid(self, val: float): self.setter("EQGain2", val) med = mid @property def treble(self): return round(self.getter("EQGain3"), 1) @treble.setter def treble(self, val: float): self.setter("EQGain3", val) def appgain(self, name: str, gain: float): self.setter("AppGain", f'("{name}", {gain})') def appmute(self, name: str, mute: bool = None): if not isinstance(mute, bool) and mute not in (0, 1): raise VMError("appmute is a boolean parameter") self.setter("AppMute", f'("{name}", {1 if mute else 0})') class StripLevel(IRemote): def __init__(self, remote, index): super().__init__(remote, index) phys_map = tuple((i, i + 2) for i in range(0, remote.kind.phys_in * 2, 2)) virt_map = tuple( (i, i + 8) for i in range( remote.kind.phys_in * 2, remote.kind.phys_in * 2 + remote.kind.virt_in * 8, 8, ) ) self.level_map = phys_map + virt_map def getter(self, mode): """Returns a tuple of level values for the channel.""" def fget(i): res = self._remote.get_level(mode, i) return round(20 * log(res, 10), 1) if res > 0 else -200.0 range_ = self.level_map[self.index] return tuple(fget(i) for i in range(*range_)) def getter_prefader(self): def fget(i): return round(20 * log(i, 10), 1) if i > 0 else -200.0 range_ = self.level_map[self.index] return tuple( fget(i) for i in self._remote._strip_levels[range_[0] : range_[-1]] ) @property def identifier(self) -> str: return f"Strip[{self.index}]" @property def prefader(self) -> tuple: return self.getter_prefader() @property def postfader(self) -> tuple: return self.getter(1) @property def postmute(self) -> tuple: return self.getter(2) @property def updated(self) -> tuple: return self._remote._strip_comp class GainLayer(IRemote): def __init__(self, remote, index, i): super().__init__(remote, index) self._i = i @property def identifier(self) -> str: return f"Strip[{self.index}]" @property def gain(self): return self.getter(f"GainLayer[{self._i}]") @gain.setter def gain(self, val): self.setter(f"GainLayer[{self._i}]", val) def _make_gainlayer_mixin(remote, index): """Creates a GainLayer mixin""" return type( f"GainlayerMixin", (), { "gainlayer": tuple( GainLayer(remote, index, i) for i in range(remote.kind.num_bus) ) }, ) def _make_channelout_mixin(kind): """Creates a channel out property mixin""" return type( f"ChannelOutMixin{kind}", (), { **{f"A{i}": bool_prop(f"A{i}") for i in range(1, kind.phys_out + 1)}, **{f"B{i}": bool_prop(f"B{i}") for i in range(1, kind.virt_out + 1)}, }, ) _make_channelout_mixins = { kind.name: _make_channelout_mixin(kind) for kind in kinds_all } def strip_factory(is_phys_strip, remote, i) -> Union[PhysicalStrip, VirtualStrip]: """ Factory method for strips Mixes in required classes Returns a physical or virtual strip subclass """ STRIP_cls = PhysicalStrip if is_phys_strip else VirtualStrip CHANNELOUTMIXIN_cls = _make_channelout_mixins[remote.kind.name] _kls = (STRIP_cls, CHANNELOUTMIXIN_cls) if remote.kind.name == "potato": GAINLAYERMIXIN_cls = _make_gainlayer_mixin(remote, i) _kls += (GAINLAYERMIXIN_cls,) return type( f"{STRIP_cls.__name__}{remote.kind}", _kls, { "levels": StripLevel(remote, i), }, )(remote, i) def request_strip_obj(is_phys_strip, remote, i) -> Strip: """ Strip entry point. Wraps factory method. Returns a reference to a strip subclass of a kind """ return strip_factory(is_phys_strip, remote, i)