mirror of
https://github.com/onyx-and-iris/xair-api-python.git
synced 2024-09-27 14:56:59 +01:00
681 lines
19 KiB
Python
681 lines
19 KiB
Python
from typing import Union
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from .errors import XAirRemoteError
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from .meta import geq_prop
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from .util import _get_fader_val, _set_fader_val, lin_get, lin_set, log_get, log_set
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"""
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Classes shared by /ch, /rtn, /rtn/aux, /bus, /fxsend, /lr
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"""
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class Config:
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@property
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def address(self) -> str:
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root = super(Config, self).address
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return f"{root}/config"
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@property
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def name(self) -> str:
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return self.getter("name")[0]
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@name.setter
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def name(self, val: str):
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if not isinstance(val, str):
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raise XAirRemoteError("name is a string parameter")
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self.setter("name", val)
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@property
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def color(self) -> int:
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return self.getter("color")[0]
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@color.setter
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def color(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError("color is an int parameter")
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self.setter("color", val)
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@property
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def inputsource(self) -> int:
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return self.getter("insrc")[0]
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@inputsource.setter
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def inputsource(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError("inputsource is an int parameter")
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self.setter("insrc", val)
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@property
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def usbreturn(self) -> int:
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return self.getter("rtnsrc")[0]
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@usbreturn.setter
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def usbreturn(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError("usbreturn is an int parameter")
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self.setter("rtnsrc", val)
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class Preamp:
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@property
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def address(self) -> str:
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root = super(Preamp, self).address
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return f"{root}/preamp"
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@property
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def usbtrim(self) -> float:
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return round(lin_get(-18, 18, self.getter("rtntrim")[0]), 1)
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@usbtrim.setter
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def usbtrim(self, val: float):
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if not isinstance(val, float):
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raise XAirRemoteError(
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"usbtrim is a float parameter, expected value in range -18 to 18"
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)
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self.setter("rtntrim", lin_set(-18, 18, val))
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@property
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def usbinput(self) -> bool:
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return self.getter("rtnsw")[0] == 1
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@usbinput.setter
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def usbinput(self, val: bool):
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if not isinstance(val, bool):
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raise XAirRemoteError("rtnsw is a bool parameter")
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self.setter("rtnsw", 1 if val else 0)
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@property
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def invert(self) -> bool:
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return self.getter("invert")[0] == 1
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@invert.setter
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def invert(self, val: bool):
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if not isinstance(val, bool):
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raise XAirRemoteError("invert is a bool parameter")
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self.setter("invert", 1 if val else 0)
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@property
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def highpasson(self) -> bool:
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return self.getter("hpon")[0] == 1
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@highpasson.setter
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def highpasson(self, val: bool):
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if not isinstance(val, bool):
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raise XAirRemoteError("hpon is a bool parameter")
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self.setter("hpon", 1 if val else 0)
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@property
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def highpassfilter(self) -> int:
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return int(log_get(20, 400, self.getter("hpf")[0]))
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@highpassfilter.setter
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def highpassfilter(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError("highpassfilter is an int parameter")
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self.setter("hpf", log_set(20, 400, val))
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class Gate:
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@property
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def address(self) -> str:
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root = super(Gate, self).address
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return f"{root}/gate"
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@property
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def on(self) -> bool:
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return self.getter("on")[0] == 1
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@on.setter
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def on(self, val: bool):
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if not isinstance(val, bool):
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raise XAirRemoteError("on is a boolean parameter")
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self.setter("on", 1 if val else 0)
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@property
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def mode(self) -> str:
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opts = ("gate", "exp2", "exp3", "exp4", "duck")
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return opts[self.getter("mode")[0]]
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@mode.setter
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def mode(self, val: str):
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opts = ("gate", "exp2", "exp3", "exp4", "duck")
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if not isinstance(val, str) and val not in opts:
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raise XAirRemoteError(f"mode is a string parameter, expected one of {opts}")
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self.setter("mode", opts.index(val))
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@property
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def threshold(self) -> float:
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return round(lin_get(-80, 0, self.getter("thr")[0]), 1)
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@threshold.setter
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def threshold(self, val: float):
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if not isinstance(val, float):
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raise XAirRemoteError(
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"threshold is a float parameter, expected value in range -80 to 0"
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)
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self.setter("thr", lin_set(-80, 0, val))
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@property
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def range(self) -> int:
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return int(lin_get(3, 60, self.getter("range")[0]))
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@range.setter
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def range(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError(
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"range is an int parameter, expected value in range 3 to 60"
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)
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self.setter("range", lin_set(3, 60, val))
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@property
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def attack(self) -> int:
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return int(lin_get(0, 120, self.getter("attack")[0]))
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@attack.setter
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def attack(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError(
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"attack is an int parameter, expected value in range 0 to 120"
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)
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self.setter("attack", lin_set(0, 120, val))
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@property
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def hold(self) -> Union[float, int]:
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val = log_get(0.02, 2000, self.getter("hold")[0])
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return round(val, 1) if val < 100 else int(val)
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@hold.setter
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def hold(self, val: float):
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self.setter("hold", log_set(0.02, 2000, val))
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@property
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def release(self) -> int:
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return int(log_get(5, 4000, self.getter("release")[0]))
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@release.setter
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def release(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError(
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"release is an int parameter, expected value in range 5 to 4000"
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)
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self.setter("release", log_set(5, 4000, val))
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@property
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def keysource(self):
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return self.getter("keysrc")[0]
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@keysource.setter
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def keysource(self, val):
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if not isinstance(val, int):
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raise XAirRemoteError("keysource is an int parameter")
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self.setter("keysrc", val)
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@property
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def filteron(self):
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return self.getter("filter/on")[0] == 1
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@filteron.setter
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def filteron(self, val: bool):
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if not isinstance(val, bool):
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raise XAirRemoteError("filteron is a boolean parameter")
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self.setter("filter/on", 1 if val else 0)
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@property
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def filtertype(self) -> int:
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return int(self.getter("filter/type")[0])
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@filtertype.setter
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def filtertype(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError("filtertype is an int parameter")
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self.setter("filter/type", val)
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@property
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def filterfreq(self) -> Union[float, int]:
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retval = log_get(20, 20000, self.getter("filter/f")[0])
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return int(retval) if retval > 1000 else round(retval, 1)
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@filterfreq.setter
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def filterfreq(self, val: Union[float, int]):
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self.setter("filter/f", log_set(20, 20000, val))
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class Dyn:
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@property
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def address(self) -> str:
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root = super(Dyn, self).address
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return f"{root}/dyn"
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@property
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def on(self) -> bool:
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return self.getter("on")[0] == 1
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@on.setter
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def on(self, val: bool):
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if not isinstance(val, bool):
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raise XAirRemoteError("on is a boolean parameter")
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self.setter("on", 1 if val else 0)
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@property
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def mode(self) -> str:
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opts = ("comp", "exp")
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return opts[self.getter("mode")[0]]
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@mode.setter
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def mode(self, val: str):
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opts = ("comp", "exp")
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if not isinstance(val, str) and val not in opts:
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raise XAirRemoteError(f"mode is a string parameter, expected one of {opts}")
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self.setter("mode", opts.index(val))
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@property
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def det(self) -> str:
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opts = ("peak", "rms")
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return opts[self.getter("det")[0]]
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@det.setter
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def det(self, val: str):
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opts = ("peak", "rms")
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if not isinstance(val, str) and val not in opts:
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raise XAirRemoteError(f"det is a string parameter, expected one of {opts}")
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self.setter("det", opts.index(val))
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@property
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def env(self) -> str:
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opts = ("lin", "log")
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return opts[self.getter("env")[0]]
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@env.setter
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def env(self, val: str):
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opts = ("lin", "log")
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if not isinstance(val, str) and val not in opts:
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raise XAirRemoteError(f"env is a string parameter, expected one of {opts}")
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self.setter("env", opts.index(val))
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@property
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def threshold(self) -> float:
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return round(lin_get(-60, 0, self.getter("thr")[0]), 1)
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@threshold.setter
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def threshold(self, val: float):
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if not isinstance(val, float):
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raise XAirRemoteError(
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"threshold is a float parameter, expected value in range -80 to 0"
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)
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self.setter("thr", lin_set(-60, 0, val))
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@property
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def ratio(self) -> Union[float, int]:
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opts = (1.1, 1.3, 1.5, 2.0, 2.5, 3.0, 4.0, 5.0, 7.0, 10, 20, 100)
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return opts[self.getter("ratio")[0]]
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@ratio.setter
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def ratio(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError("ratio is an int parameter")
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self.setter("ratio", val)
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@property
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def knee(self) -> int:
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return int(lin_get(0, 5, self.getter("knee")[0]))
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@knee.setter
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def knee(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError(
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"knee is an int parameter, expected value in range 0 to 5"
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)
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self.setter("knee", lin_set(0, 5, val))
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@property
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def mgain(self) -> float:
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return round(lin_get(0, 24, self.getter("mgain")[0]), 1)
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@mgain.setter
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def mgain(self, val: float):
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self.setter("mgain", lin_set(0, 24, val))
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@property
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def attack(self) -> int:
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return int(lin_get(0, 120, self.getter("attack")[0]))
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@attack.setter
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def attack(self, val: int):
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self.setter("attack", lin_set(0, 120, val))
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@property
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def hold(self) -> Union[float, int]:
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val = log_get(0.02, 2000, self.getter("hold")[0])
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return round(val, 1) if val < 100 else int(val)
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@hold.setter
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def hold(self, val: float):
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self.setter("hold", log_set(0.02, 2000, val))
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@property
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def release(self) -> int:
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return int(log_get(5, 4000, self.getter("release")[0]))
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@release.setter
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def release(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError(
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"release is an int parameter, expected value in range 5 to 4000"
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)
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self.setter("release", log_set(5, 4000, val))
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@property
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def mix(self) -> int:
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return int(lin_get(0, 100, self.getter("mix")[0]))
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@mix.setter
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def mix(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError(
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"mix is an int parameter, expected value in range 0 to 5"
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)
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self.setter("mix", lin_set(0, 100, val))
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@property
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def keysource(self):
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return self.getter("keysrc")[0]
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@keysource.setter
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def keysource(self, val):
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if not isinstance(val, int):
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raise XAirRemoteError("keysource is an int parameter")
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self.setter("keysrc", val)
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@property
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def auto(self) -> bool:
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return self.getter("auto")[0] == 1
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@auto.setter
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def auto(self, val: bool):
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if not isinstance(val, bool):
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raise XAirRemoteError("auto is a boolean parameter")
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self.setter("auto", 1 if val else 0)
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@property
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def filteron(self):
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return self.getter("filter/on")[0] == 1
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@filteron.setter
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def filteron(self, val: bool):
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if not isinstance(val, bool):
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raise XAirRemoteError("filteron is a boolean parameter")
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self.setter("filter/on", 1 if val else 0)
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@property
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def filtertype(self) -> int:
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return int(self.getter("filter/type")[0])
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@filtertype.setter
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def filtertype(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError("filtertype is an int parameter")
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self.setter("filter/type", val)
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@property
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def filterfreq(self) -> Union[float, int]:
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retval = log_get(20, 20000, self.getter("filter/f")[0])
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return int(retval) if retval > 1000 else round(retval, 1)
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@filterfreq.setter
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def filterfreq(self, val: Union[float, int]):
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self.setter("filter/f", log_set(20, 20000, val))
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class Insert:
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@property
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def address(self) -> str:
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root = super(Insert, self).address
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return f"{root}/insert"
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@property
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def on(self) -> bool:
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return self.getter("on")[0] == 1
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@on.setter
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def on(self, val: bool):
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if not isinstance(val, bool):
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raise XAirRemoteError("on is a boolean parameter")
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self.setter("on", 1 if val else 0)
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@property
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def sel(self) -> int:
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return self.getter("sel")[0]
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@sel.setter
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def sel(self, val: int):
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if not isinstance(val, int):
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raise XAirRemoteError("sel is an int parameter")
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self.setter("sel", val)
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class EQ:
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@classmethod
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def make_fourband(cls, _cls, remote, index=None):
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EQBand_cls = type("EQBand", (EQ.EQBand, _cls), {})
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return type(
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"EQ",
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(cls,),
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{
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"low": EQBand_cls(1, remote, index),
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"lomid": EQBand_cls(2, remote, index),
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"himid": EQBand_cls(3, remote, index),
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"high": EQBand_cls(4, remote, index),
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},
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)
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@classmethod
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def make_sixband(cls, _cls, remote, index=None):
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EQBand_cls = type("EQBand", (EQ.EQBand, _cls), {})
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return type(
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"EQ",
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(cls,),
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{
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"low": EQBand_cls(1, remote, index),
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"low2": EQBand_cls(2, remote, index),
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"lomid": EQBand_cls(3, remote, index),
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"himid": EQBand_cls(4, remote, index),
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"high2": EQBand_cls(5, remote, index),
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"high": EQBand_cls(6, remote, index),
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},
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)
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@property
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def address(self) -> str:
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root = super(EQ, self).address
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return f"{root}/eq"
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@property
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def on(self) -> bool:
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return self.getter("on")[0] == 1
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@on.setter
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def on(self, val: bool):
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if not isinstance(val, bool):
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raise XAirRemoteError("on is a boolean parameter")
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self.setter("on", 1 if val else 0)
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@property
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def mode(self) -> str:
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opts = ("peq", "geq", "teq")
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return opts[self.getter("mode")[0]]
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@mode.setter
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def mode(self, val: str):
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opts = ("peq", "geq", "teq")
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if not isinstance(val, str) and val not in opts:
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raise XAirRemoteError(f"mode is a string parameter, expected one of {opts}")
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self.setter("mode", opts.index(val))
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class EQBand:
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def __init__(self, i, remote, index):
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if index is None:
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super(EQ.EQBand, self).__init__(remote)
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else:
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super(EQ.EQBand, self).__init__(remote, index)
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self.i = i
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@property
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def address(self) -> str:
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root = super(EQ.EQBand, self).address
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return f"{root}/eq/{self.i}"
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@property
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def type(self) -> int:
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return int(self.getter("type")[0])
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@type.setter
|
|
def type(self, val: int):
|
|
if not isinstance(val, int):
|
|
raise XAirRemoteError("type is an int parameter")
|
|
self.setter(f"type", val)
|
|
|
|
@property
|
|
def frequency(self) -> float:
|
|
retval = log_get(20, 20000, self.getter("f")[0])
|
|
return round(retval, 1)
|
|
|
|
@frequency.setter
|
|
def frequency(self, val: float):
|
|
self.setter("f", log_set(20, 20000, val))
|
|
|
|
@property
|
|
def gain(self) -> float:
|
|
return round(lin_get(-15, 15, self.getter("g")[0]), 1)
|
|
|
|
@gain.setter
|
|
def gain(self, val: float):
|
|
self.setter("g", lin_set(-15, 15, val))
|
|
|
|
@property
|
|
def quality(self) -> float:
|
|
retval = log_get(0.3, 10, self.getter("q")[0])
|
|
return round(retval, 1)
|
|
|
|
@quality.setter
|
|
def quality(self, val: float):
|
|
self.setter("q", log_set(0.3, 10, val))
|
|
|
|
|
|
class GEQ:
|
|
@classmethod
|
|
def make(cls):
|
|
# fmt: off
|
|
return type(
|
|
"GEQ",
|
|
(cls,),
|
|
{
|
|
**{
|
|
f"slider_{param}": geq_prop(param)
|
|
for param in [
|
|
"20", "25", "31_5", "40", "50", "63", "80", "100", "125",
|
|
"160", "200", "250", "315" "400", "500", "630", "800", "1k",
|
|
"1k25", "1k6", "2k", "2k5", "3k15", "4k", "5k", "6k3", "8k",
|
|
"10k", "12k5", "16k", "20k",
|
|
]
|
|
}
|
|
},
|
|
)
|
|
# fmt: on
|
|
|
|
@property
|
|
def address(self) -> str:
|
|
root = super(GEQ, self).address
|
|
return f"{root}/geq"
|
|
|
|
|
|
class Mix:
|
|
@property
|
|
def address(self) -> str:
|
|
root = super(Mix, self).address
|
|
return f"{root}/mix"
|
|
|
|
@property
|
|
def on(self) -> bool:
|
|
return self.getter("on")[0] == 1
|
|
|
|
@on.setter
|
|
def on(self, val: bool):
|
|
if not isinstance(val, bool):
|
|
raise XAirRemoteError("on is a boolean parameter")
|
|
self.setter("on", 1 if val else 0)
|
|
|
|
@property
|
|
def fader(self) -> float:
|
|
retval = self.getter("fader")[0]
|
|
return _get_fader_val(retval)
|
|
|
|
@fader.setter
|
|
def fader(self, val: float):
|
|
_set_fader_val(self, val)
|
|
|
|
@property
|
|
def lr(self) -> bool:
|
|
return self.getter("lr")[0] == 1
|
|
|
|
@lr.setter
|
|
def lr(self, val: bool):
|
|
if not isinstance(val, bool):
|
|
raise XAirRemoteError("lr is a boolean parameter")
|
|
self.setter("lr", 1 if val else 0)
|
|
|
|
|
|
class Group:
|
|
@property
|
|
def address(self) -> str:
|
|
root = super(Group, self).address
|
|
return f"{root}/grp"
|
|
|
|
@property
|
|
def dca(self) -> int:
|
|
return self.getter("dca")[0]
|
|
|
|
@dca.setter
|
|
def dca(self, val: int):
|
|
if not isinstance(val, int):
|
|
raise XAirRemoteError("dca is an int parameter")
|
|
self.setter("dca", val)
|
|
|
|
@property
|
|
def mute(self) -> int:
|
|
return self.getter("mute")[0]
|
|
|
|
@mute.setter
|
|
def mute(self, val: int):
|
|
if not isinstance(val, int):
|
|
raise XAirRemoteError("mute is an int parameter")
|
|
self.setter("mute", val)
|
|
|
|
|
|
class Automix:
|
|
@property
|
|
def address(self) -> str:
|
|
root = super(Automix, self).address
|
|
return f"{root}/automix"
|
|
|
|
@property
|
|
def group(self) -> int:
|
|
return self.getter("group")[0]
|
|
|
|
@group.setter
|
|
def group(self, val: int):
|
|
if not isinstance(val, int):
|
|
raise XAirRemoteError("group is an int parameter")
|
|
self.setter("group", val)
|
|
|
|
@property
|
|
def weight(self) -> float:
|
|
return round(lin_get(-12, 12, self.getter("weight")[0]), 1)
|
|
|
|
@weight.setter
|
|
def weight(self, val: float):
|
|
if not isinstance(val, float):
|
|
raise XAirRemoteError(
|
|
"weight is a float parameter, expected value in range -12 to 12"
|
|
)
|
|
self.setter("weight", lin_set(-12, 12, val))
|