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vban-cmd-python/vbancmd/strip.py
onyx-and-iris 85f74b20cb remove underscore from package name 
remove underscore from package name
2022-03-04 14:22:29 +00:00

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from .errors import VMCMDErrors
from . import channel
from .channel import Channel
from . import kinds
from .meta import strip_output_prop
class InputStrip(Channel):
""" Base class for input strips. """
@classmethod
def make(cls, is_physical, remote, index, **kwargs):
"""
Factory function for input strips.
Returns a physical/virtual strip of a kind.
"""
PhysStrip, VirtStrip = _strip_pairs[remote.kind.id]
InputStrip = PhysStrip if is_physical else VirtStrip
GainLayerMixin = _make_gainlayer_mixin(remote, index)
IS_cls = type(f'Strip{remote.kind.name}', (InputStrip, GainLayerMixin), {
'levels': StripLevel(remote, index),
})
return IS_cls(remote, index, **kwargs)
@property
def identifier(self):
return f'Strip[{self.index}]'
@property
def mono(self) -> bool:
return not int.from_bytes(self.public_packet.stripstate[self.index], 'little') & self._modes._mono == 0
@mono.setter
def mono(self, val: bool):
if not isinstance(val, bool) and val not in (0,1):
raise VMCMDErrors('mono is a boolean parameter')
self.setter('mono', 1 if val else 0)
@property
def solo(self) -> bool:
return not int.from_bytes(self.public_packet.stripstate[self.index], 'little') & self._modes._solo == 0
@solo.setter
def solo(self, val: bool):
if not isinstance(val, bool) and val not in (0,1):
raise VMCMDErrors('solo is a boolean parameter')
self.setter('solo', 1 if val else 0)
@property
def mute(self) -> bool:
return not int.from_bytes(self.public_packet.stripstate[self.index], 'little') & self._modes._mute == 0
@mute.setter
def mute(self, val: bool):
if not isinstance(val, bool) and val not in (0,1):
raise VMCMDErrors('mute is a boolean parameter')
self.setter('mute', 1 if val else 0)
@property
def limit(self) -> int:
return
@limit.setter
def limit(self, val: int):
if val not in range(-40,13):
raise VMCMDErrors('Expected value from -40 to 12')
self.setter('limit', val)
@property
def label(self) -> str:
return self.public_packet.striplabels[self.index]
@label.setter
def label(self, val: str):
if not isinstance(val, str):
raise VMCMDErrors('label is a string parameter')
self.setter('label', val)
@property
def gain(self) -> float:
return self.gainlayer[0].gain
@gain.setter
def gain(self, val: float):
self.setter('gain', val)
class PhysicalInputStrip(InputStrip):
@property
def comp(self) -> float:
return
@comp.setter
def comp(self, val: float):
self.setter('Comp', val)
@property
def gate(self) -> float:
return
@gate.setter
def gate(self, val: float):
self.setter('gate', val)
@property
def device(self):
return
@property
def sr(self):
return
class VirtualInputStrip(InputStrip):
@property
def mc(self) -> bool:
return
@mc.setter
def mc(self, val: bool):
if not isinstance(val, bool) and val not in (0,1):
raise VMCMDErrors('mc is a boolean parameter')
self.setter('mc', 1 if val else 0)
mono = mc
@property
def k(self) -> int:
return
@k.setter
def k(self, val: int):
if val not in range(5):
raise VMCMDErrors('Expected value from 0 to 4')
self.setter('karaoke', val)
class StripLevel(InputStrip):
def __init__(self, remote, index):
super().__init__(remote, index)
self.level_map = _strip_maps[remote.kind.id]
def getter_level(self, mode=None):
def fget(i, data):
val = data.inputlevels[i]
return -val * 0.01
range_ = self.level_map[self.index]
data = self.public_packet
levels = tuple(round(fget(i, data), 1) for i in range(*range_))
return levels
@property
def prefader(self) -> tuple:
return self.getter_level()
@property
def postfader(self) -> tuple:
return
@property
def postmute(self) -> tuple:
return
class GainLayer(InputStrip):
def __init__(self, remote, index, i):
super().__init__(remote, index)
self._i = i
@property
def gain(self) -> float:
def fget():
val = getattr(self.public_packet, f'stripgainlayer{self._i+1}')[self.index]
if val < 10000:
return -val
elif val == ((1 << 16) - 1):
return 0
else:
return ((1 << 16) - 1) - val
return round((fget() * 0.01), 1)
@gain.setter
def gain(self, val: float):
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(8))
})
def _make_strip_mixin(kind):
""" Creates a mixin with the kind's strip layout set as class variables. """
num_A, num_B = kind.outs
return type(f'StripMixin{kind.name}', (), {
**{f'A{i}': strip_output_prop(f'A{i}') for i in range(1, num_A+1)},
**{f'B{i}': strip_output_prop(f'B{i}') for i in range(1, num_B+1)}
})
_strip_mixins = {kind.id: _make_strip_mixin(kind) for kind in kinds.all}
def _make_strip_pair(kind):
""" Creates a PhysicalInputStrip and a VirtualInputStrip of a kind. """
StripMixin = _strip_mixins[kind.id]
PhysStrip = type(f'PhysicalInputStrip{kind.name}', (PhysicalInputStrip, StripMixin), {})
VirtStrip = type(f'VirtualInputStrip{kind.name}', (VirtualInputStrip, StripMixin), {})
return (PhysStrip, VirtStrip)
_strip_pairs = {kind.id: _make_strip_pair(kind) for kind in kinds.all}
def _make_strip_level_map(kind):
phys_in, virt_in = kind.ins
phys_map = tuple((i, i+2) for i in range(0, phys_in*2, 2))
virt_map = tuple((i, i+8) for i in range(phys_in*2, phys_in*2+virt_in*8, 8))
return phys_map+virt_map
_strip_maps = {kind.id: _make_strip_level_map(kind) for kind in kinds.all}
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