xair-api-python/xair_api/xair.py
onyx-and-iris a69734b738 adapter module added
factory method for x32 added

logging module added for tracing OSC requests/reponses.
2022-11-07 11:08:56 +00:00

185 lines
5.8 KiB
Python

import abc
import logging
import threading
import time
from pathlib import Path
from typing import Optional
try:
import tomllib
except ModuleNotFoundError:
import tomli as tomllib
from pythonosc.dispatcher import Dispatcher
from pythonosc.osc_message_builder import OscMessageBuilder
from pythonosc.osc_server import BlockingOSCUDPServer
from . import adapter, kinds
from .bus import Bus
from .config import Config
from .dca import DCA
from .errors import XAirRemoteError
from .fx import FX, FXSend
from .kinds import KindMap
from .lr import LR
from .rtn import AuxRtn, FxRtn
from .strip import Strip
class OSCClientServer(BlockingOSCUDPServer):
def __init__(self, address: str, dispatcher: Dispatcher):
super().__init__(("", 0), dispatcher)
self.xr_address = address
def send_message(self, address: str, value: str):
builder = OscMessageBuilder(address=address)
if value is None:
values = list()
elif isinstance(value, list):
values = value
else:
values = [value]
for val in values:
builder.add_arg(val)
msg = builder.build()
self.socket.sendto(msg.dgram, self.xr_address)
class XAirRemote(abc.ABC):
"""Handles the communication with the mixer via the OSC protocol"""
logger = logging.getLogger("xair.xairremote")
_CONNECT_TIMEOUT = 0.5
_WAIT_TIME = 0.025
_REFRESH_TIMEOUT = 5
info_response = []
def __init__(self, **kwargs):
dispatcher = Dispatcher()
dispatcher.set_default_handler(self.msg_handler)
self.xair_ip = kwargs["ip"] or self._ip_from_toml()
self.xair_port = kwargs["port"]
if not (self.xair_ip and self.xair_port):
raise XAirRemoteError("No valid ip or password detected")
self.server = OSCClientServer((self.xair_ip, self.xair_port), dispatcher)
def __enter__(self):
self.worker = threading.Thread(target=self.run_server, daemon=True)
self.worker.start()
self.validate_connection()
return self
def _ip_from_toml(self) -> str:
filepath = Path.cwd() / "config.toml"
with open(filepath, "rb") as f:
conn = tomllib.load(f)
return conn["connection"].get("ip")
def validate_connection(self):
self.send("/xinfo")
time.sleep(self._CONNECT_TIMEOUT)
if len(self.info_response) > 0:
print(
f"Successfully connected to {self.info_response[2]} at {self.info_response[0]}."
)
else:
print(
"Error: Failed to setup OSC connection to mixer. Please check for correct ip address."
)
def run_server(self):
self.server.serve_forever()
def msg_handler(self, addr, *data):
self.logger.debug(f"received: {addr} {data if data else ''}")
self.info_response = data[:]
def send(self, addr: str, param: Optional[str] = None):
self.logger.debug(f"sending: {addr} {param if param else ''}")
self.server.send_message(addr, param)
time.sleep(self._WAIT_TIME)
def _query(self, address):
self.send(address)
time.sleep(self._WAIT_TIME)
return self.info_response
def __exit__(self, exc_type, exc_value, exc_tr):
self.server.shutdown()
def _make_remote(kind: KindMap) -> XAirRemote:
"""
Creates a new XAIR remote class.
The returned class will subclass XAirRemote.
"""
def init_x32(self, *args, **kwargs):
defaultkwargs = {"ip": None, "port": 10023}
kwargs = defaultkwargs | kwargs
XAirRemote.__init__(self, *args, **kwargs)
self.kind = kind
self.mainst = adapter.MainStereo.make(self)
self.mainmono = adapter.MainMono.make(self)
self.matrix = tuple(
adapter.Matrix.make(self, i) for i in range(kind.num_matrix)
)
self.strip = tuple(Strip.make(self, i) for i in range(kind.num_strip))
self.bus = tuple(adapter.Bus.make(self, i) for i in range(kind.num_bus))
self.dca = tuple(DCA(self, i) for i in range(kind.num_dca))
self.fx = tuple(FX(self, i) for i in range(kind.num_fx))
self.fxreturn = tuple(adapter.FxRtn.make(self, i) for i in range(kind.num_fx))
self.config = Config.make(self)
self.auxin = tuple(adapter.AuxRtn.make(self, i) for i in range(kind.num_auxrtn))
def init_xair(self, *args, **kwargs):
defaultkwargs = {"ip": None, "port": 10024}
kwargs = defaultkwargs | kwargs
XAirRemote.__init__(self, *args, **kwargs)
self.kind = kind
self.lr = LR.make(self)
self.strip = tuple(Strip.make(self, i) for i in range(kind.num_strip))
self.bus = tuple(Bus.make(self, i) for i in range(kind.num_bus))
self.dca = tuple(DCA(self, i) for i in range(kind.num_dca))
self.fx = tuple(FX(self, i) for i in range(kind.num_fx))
self.fxsend = tuple(FXSend.make(self, i) for i in range(kind.num_fx))
self.fxreturn = tuple(FxRtn.make(self, i) for i in range(kind.num_fx))
self.config = Config.make(self)
self.auxreturn = AuxRtn.make(self)
if kind.id_ == "X32":
return type(
f"XAirRemote{kind}",
(XAirRemote,),
{
"__init__": init_x32,
},
)
return type(
f"XAirRemote{kind}",
(XAirRemote,),
{
"__init__": init_xair,
},
)
_remotes = {kind.id_: _make_remote(kind) for kind in kinds.all}
def request_remote_obj(kind_id: str, *args, **kwargs) -> XAirRemote:
"""
Interface entry point. Wraps factory expression and handles errors
Returns a reference to an XAirRemote class of a kind
"""
XAIRREMOTE_cls = None
try:
XAIRREMOTE_cls = _remotes[kind_id]
except ValueError as e:
raise SystemExit(e)
return XAIRREMOTE_cls(*args, **kwargs)