forked from M-Labs/artiq
dashboard: use new moninj protocol
This commit is contained in:
parent
990b8152f6
commit
96bf414257
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@ -1,13 +1,10 @@
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import asyncio
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import threading
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import logging
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import socket
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import struct
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from PyQt5 import QtCore, QtWidgets, QtGui
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from artiq.tools import TaskObject
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from artiq.protocols.sync_struct import Subscriber
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from artiq.coredevice.moninj import MonInjComm
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from artiq.gui.tools import LayoutWidget
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from artiq.gui.flowlayout import FlowLayout
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@ -15,20 +12,12 @@ from artiq.gui.flowlayout import FlowLayout
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logger = logging.getLogger(__name__)
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_mode_enc = {
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"exp": 0,
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"1": 1,
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"0": 2,
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"in": 3
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}
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class _TTLWidget(QtWidgets.QFrame):
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def __init__(self, channel, send_to_device, force_out, title):
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def __init__(self, channel, set_mode, force_out, title):
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QtWidgets.QFrame.__init__(self)
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self.channel = channel
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self.send_to_device = send_to_device
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self.set_mode = set_mode
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self.force_out = force_out
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self.setFrameShape(QtWidgets.QFrame.Box)
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@ -81,7 +70,10 @@ class _TTLWidget(QtWidgets.QFrame):
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self.override.clicked.connect(self.override_toggled)
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self.level.clicked.connect(self.level_toggled)
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self.set_value(0, False, False)
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self.cur_value = False
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self.cur_oe = False
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self.cur_override = False
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self.refresh_display()
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def enterEvent(self, event):
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self.stack.setCurrentIndex(1)
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@ -97,46 +89,40 @@ class _TTLWidget(QtWidgets.QFrame):
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return
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if override:
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if self.level.isChecked():
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self.set_mode("1")
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self.set_mode(self.channel, "1")
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else:
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self.set_mode("0")
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self.set_mode(self.channel, "0")
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else:
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self.set_mode("exp")
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self.set_mode(self.channel, "exp")
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def level_toggled(self, level):
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if self.programmatic_change:
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return
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if self.override.isChecked():
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if level:
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self.set_mode("1")
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self.set_mode(self.channel, "1")
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else:
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self.set_mode("0")
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self.set_mode(self.channel, "0")
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def set_mode(self, mode):
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data = struct.pack("bbb",
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2, # MONINJ_REQ_TTLSET
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self.channel, _mode_enc[mode])
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self.send_to_device(data)
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def set_value(self, value, oe, override):
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value_s = "1" if value else "0"
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if override:
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def refresh_display(self):
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value_s = "1" if self.cur_value else "0"
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if self.cur_override:
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value_s = "<b>" + value_s + "</b>"
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color = " color=\"red\""
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else:
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color = ""
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self.value.setText("<font size=\"5\"{}>{}</font>".format(
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color, value_s))
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oe = oe or self.force_out
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oe = self.cur_oe or self.force_out
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direction = "OUT" if oe else "IN"
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self.direction.setText("<font size=\"2\">" + direction + "</font>")
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self.programmatic_change = True
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try:
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self.override.setChecked(bool(override))
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if override:
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self.override.setChecked(self.cur_override)
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if self.cur_override:
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self.stack.setCurrentIndex(1)
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self.level.setChecked(bool(value))
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self.level.setChecked(self.cur_value)
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finally:
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self.programmatic_change = False
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@ -145,12 +131,11 @@ class _TTLWidget(QtWidgets.QFrame):
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class _DDSWidget(QtWidgets.QFrame):
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def __init__(self, bus_channel, channel, sysclk, title):
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def __init__(self, bus_channel, channel, title):
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QtWidgets.QFrame.__init__(self)
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self.bus_channel = bus_channel
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self.channel = channel
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self.sysclk = sysclk
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self.setFrameShape(QtWidgets.QFrame.Box)
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self.setFrameShadow(QtWidgets.QFrame.Raised)
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@ -174,85 +159,169 @@ class _DDSWidget(QtWidgets.QFrame):
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grid.setRowStretch(2, 0)
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grid.setRowStretch(3, 1)
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self.set_value(0)
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self.cur_frequency = 0
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self.refresh_display()
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def set_value(self, ftw):
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frequency = ftw*self.sysclk()/2**32
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def refresh_display(self):
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self.value.setText("<font size=\"4\">{:.7f}</font><font size=\"2\"> MHz</font>"
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.format(frequency/1e6))
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.format(self.cur_frequency/1e6))
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def sort_key(self):
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return (self.bus_channel, self.channel)
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TTL_PROBE_LEVEL = 0
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TTL_PROBE_OE = 1
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TTL_OVERRIDE_ENABLE = 0
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TTL_OVERRIDE_LEVEL = 1
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TTL_OVERRIDE_OE = 2
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class _DeviceManager:
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def __init__(self, send_to_device, init):
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def __init__(self, init):
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self.core_addr = None
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self.new_core_addr = asyncio.Event()
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self.core_connection = None
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self.core_connector_task = asyncio.ensure_future(self.core_connector())
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self.dds_sysclk = 0
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self.send_to_device = send_to_device
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self.ddb = dict()
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self.ttl_cb = lambda: None
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self.ttl_widgets = dict()
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self.ttl_widgets_by_channel = dict()
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self.dds_cb = lambda: None
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self.dds_widgets = dict()
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self.dds_widgets_by_channel = dict()
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for k, v in init.items():
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self[k] = v
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def get_dds_sysclk(self):
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return self.dds_sysclk
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def __setitem__(self, k, v):
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if k in self.ttl_widgets:
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del self[k]
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if k in self.dds_widgets:
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del self[k]
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self.ddb[k] = v
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if not isinstance(v, dict):
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return
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try:
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if v["type"] == "local":
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widget = None
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if v["module"] == "artiq.coredevice.ttl":
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if v["module"] == "artiq.coredevice.comm_tcp":
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self.core_addr = v["arguments"]["host"]
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self.new_core_addr.set()
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elif v["module"] == "artiq.coredevice.ttl":
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channel = v["arguments"]["channel"]
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force_out = v["class"] == "TTLOut"
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widget = _TTLWidget(
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channel, self.send_to_device, force_out, k)
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channel, self.ttl_set_mode, force_out, k)
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self.ttl_widgets[k] = widget
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self.ttl_widgets_by_channel[channel] = widget
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self.ttl_cb()
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if (v["module"] == "artiq.coredevice.dds"
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self.setup_ttl_monitoring(True, channel)
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elif (v["module"] == "artiq.coredevice.dds"
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and v["class"] == "DDSGroupAD9914"):
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self.dds_sysclk = v["arguments"]["sysclk"]
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if (v["module"] == "artiq.coredevice.dds"
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and v["class"] in {"DDSChannelAD9914"}):
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elif (v["module"] == "artiq.coredevice.dds"
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and v["class"] == "DDSChannelAD9914"):
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bus_channel = v["arguments"]["bus_channel"]
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channel = v["arguments"]["channel"]
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widget = _DDSWidget(
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bus_channel, channel, self.get_dds_sysclk, k)
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self.dds_widgets[channel] = widget
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widget = _DDSWidget(bus_channel, channel, k)
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self.dds_widgets[k] = widget
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self.dds_widgets_by_channel[(bus_channel, channel)] = widget
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self.dds_cb()
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self.setup_dds_monitoring(True, bus_channel, channel)
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if widget is not None and "comment" in v:
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widget.setToolTip(v["comment"])
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except KeyError:
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pass
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def __delitem__(self, k):
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del self.ddb[k]
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if k in self.ttl_widgets:
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self.ttl_widgets[k].deleteLater()
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widget = self.ttl_widgets[k]
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self.setup_ttl_monitoring(False, widget.channel)
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widget.deleteLater()
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del self.ttl_widgets_by_channel[widget.channel]
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del self.ttl_widgets[k]
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self.ttl_cb()
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if k in self.dds_widgets:
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self.dds_widgets[k].deleteLater()
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widget = self.dds_widgets[k]
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self.setup_dds_monitoring(False, widget.bus_channel, widget.channel)
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widget.deleteLater()
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del self.dds_widgets_by_channel[(widget.bus_channel, widget.channel)]
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del self.dds_widgets[k]
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self.dds_cb()
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def get_core_addr(self):
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def ttl_set_mode(self, channel, mode):
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if self.core_connection is not None:
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widget = self.ttl_widgets_by_channel[channel]
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if mode == "0":
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widget.cur_override = True
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self.core_connection.inject(channel, TTL_OVERRIDE_LEVEL, 0)
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self.core_connection.inject(channel, TTL_OVERRIDE_OE, 1)
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self.core_connection.inject(channel, TTL_OVERRIDE_EN, 1)
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elif mode == "1":
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widget.cur_override = True
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self.core_connection.inject(channel, TTL_OVERRIDE_LEVEL, 1)
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self.core_connection.inject(channel, TTL_OVERRIDE_OE, 1)
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self.core_connection.inject(channel, TTL_OVERRIDE_EN, 1)
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elif mode == "exp":
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widget.cur_override = False
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self.core_connection.inject(channel, TTL_OVERRIDE_EN, 0)
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else:
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raise ValueError
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def setup_ttl_monitoring(self, enable, channel):
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if self.core_connection is not None:
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self.core_connection.monitor(enable, channel, TTL_PROBE_LEVEL)
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self.core_connection.monitor(enable, channel, TTL_PROBE_OE)
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def setup_dds_monitoring(self, enable, bus_channel, channel):
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if self.core_connection is not None:
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self.core_connection.monitor(enable, bus_channel, channel)
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def monitor_cb(self, channel, probe, value):
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if channel in self.ttl_widgets_by_channel:
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widget = self.ttl_widgets_by_channel[channel]
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if probe == TTL_PROBE_LEVEL:
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widget.cur_level = bool(value)
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elif probe == TTL_PROBE_OE:
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widget.cur_oe = bool(value)
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widget.refresh_display()
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if (bus_channel, channel) in self.dds_widgets_by_channel:
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widget = self.dds_widgets_by_channel[(channel, probe)]
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widget.cur_frequency = value*self.dds_sysclk/2**32
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widget.refresh_display()
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def injection_status_cb(self, channel, override, value):
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if channel in self.ttl_widgets_by_channel:
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self.ttl_widgets_by_channel[channel].cur_override = bool(value)
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async def core_connector(self):
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while True:
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await self.new_core_addr.wait()
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self.new_core_addr.clear()
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if self.core_connection is not None:
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await self.core_connection.close()
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self.core_connection = None
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new_core_connection = MonInjComm(self.monitor_cb, self.injection_status_cb,
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lambda: logger.error("lost connection to core device moninj"))
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try:
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await new_core_connection.connect(self.core_addr, 1383)
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except:
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logger.error("failed to connect to core device moninj", exc_info=True)
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else:
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self.core_connection = new_core_connection
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for ttl_channel in self.ttl_widgets_by_channel.keys():
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self.setup_ttl_monitoring(True, ttl_channel)
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for bus_channel, channel in self.dds_widgets_by_channel.keys():
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self.setup_dds_monitoring(True, bus_channel, channel)
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async def close(self):
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self.core_connector_task.cancel()
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try:
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comm = self.ddb["comm"]
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while isinstance(comm, str):
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comm = self.ddb[comm]
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return comm["arguments"]["host"]
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except KeyError:
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return None
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await asyncio.wait_for(self.core_connector_task, None)
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except asyncio.CancelledError:
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pass
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if self.core_connection is not None:
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await self.core_connection.close()
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class _MonInjDock(QtWidgets.QDockWidget):
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@ -278,108 +347,24 @@ class _MonInjDock(QtWidgets.QDockWidget):
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scroll_area.setWidget(grid_widget)
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class MonInj(TaskObject):
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class MonInj:
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def __init__(self):
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self.ttl_dock = _MonInjDock("TTL")
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self.dds_dock = _MonInjDock("DDS")
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self.subscriber = Subscriber("devices", self.init_devices)
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self.dm = None
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self.socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
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self.socket.bind(("", 0))
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# Never ceasing to disappoint, asyncio has an issue about UDP
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# not being supported on Windows (ProactorEventLoop) open since 2014.
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self.loop = asyncio.get_event_loop()
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self.thread = threading.Thread(target=self.receiver_thread,
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daemon=True)
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self.thread.start()
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async def start(self, server, port):
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await self.subscriber.connect(server, port)
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try:
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TaskObject.start(self)
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except:
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await self.subscriber.close()
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raise
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async def stop(self):
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await TaskObject.stop(self)
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await self.subscriber.close()
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try:
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# This is required to make recvfrom terminate in the thread.
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# On Linux, this raises "OSError: Transport endpoint is not
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# connected", but still has the intended effect.
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self.socket.shutdown(socket.SHUT_RDWR)
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except OSError:
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pass
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self.socket.close()
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self.thread.join()
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def receiver_thread(self):
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while True:
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try:
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data, addr = self.socket.recvfrom(2048)
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except OSError:
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# Windows does this when the socket is terminated
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break
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if addr is None:
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# Linux does this when the socket is terminated
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break
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self.loop.call_soon_threadsafe(self.datagram_received, data)
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def datagram_received(self, data):
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if self.dm is None:
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logger.debug("received datagram, but device manager "
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"is not present yet")
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return
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try:
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hlen = 8*3+4
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(ttl_levels, ttl_oes, ttl_overrides,
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dds_rtio_first_channel, dds_channels_per_bus) = \
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struct.unpack(">QQQHH", data[:hlen])
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for w in self.dm.ttl_widgets.values():
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channel = w.channel
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w.set_value(ttl_levels & (1 << channel),
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ttl_oes & (1 << channel),
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ttl_overrides & (1 << channel))
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dds_data = data[hlen:]
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ndds = len(dds_data)//4
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ftws = struct.unpack(">" + "I"*ndds, dds_data)
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for w in self.dm.dds_widgets.values():
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bus_nr = w.bus_channel - dds_rtio_first_channel
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offset = dds_channels_per_bus*bus_nr + w.channel
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try:
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ftw = ftws[offset]
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except KeyError:
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pass
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else:
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w.set_value(ftw)
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except:
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logger.warning("failed to process datagram", exc_info=True)
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def send_to_device(self, data):
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if self.dm is None:
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logger.debug("cannot sent to device yet, no device manager")
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return
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ca = self.dm.get_core_addr()
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logger.debug("core device address: %s", ca)
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if ca is None:
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logger.error("could not find core device address")
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else:
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try:
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self.socket.sendto(data, (ca, 3250))
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except:
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logger.debug("could not send to device",
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exc_info=True)
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async def _do(self):
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while True:
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await asyncio.sleep(0.2)
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# MONINJ_REQ_MONITOR
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self.send_to_device(b"\x01")
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if self.dm is not None:
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await self.dm.close()
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def init_devices(self, d):
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self.dm = _DeviceManager(self.send_to_device, d)
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self.dm = _DeviceManager(d)
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self.dm.ttl_cb = lambda: self.ttl_dock.layout_widgets(
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self.dm.ttl_widgets.items())
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self.dm.dds_cb = lambda: self.dds_dock.layout_widgets(
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