quisk-kc4upr/configure.py

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98 KiB
Python
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from __future__ import print_function
from __future__ import absolute_import
from __future__ import division
import sys, wx, wx.lib, os, re, pickle, traceback, json
# Quisk will alter quisk_conf_defaults to include the user's config file.
import quisk_conf_defaults as conf
import _quisk as QS
from quisk_widgets import QuiskPushbutton, QuiskBitField
from quisk_widgets import wxVersion
if wxVersion in ('2', '3'):
import wx.combo as wxcombo
else:
wxcombo = wx # wxPython Phoenix
try:
from soapypkg import soapy
except:
soapy = None
# Settings is [
# 0: radio_requested, a string radio name or "Ask me" or "ConfigFileRadio"
# 1: radio in use and last used, a string radio name or "ConfigFileRadio"
# 2: list of radio names
# 3: parallel list of radio dicts. These are all the parameters for the corresponding radio. In
# general, they are a subset of all the parameters listed in self.sections and self.receiver_data[radio_name].
# ]
# radio_dict is a dictionary of variable names and text values for each radio including radio ConfigFileRadio.
# Only variable names from the specified radio and all sections are included. The data comes from the JSON file, and
# may be missing recently added config file items. Use GetValue() to get a configuration datum.
# local_conf is the single instance of class Configuration. conf is the configuration data from quisk_conf_defaults as
# over-writen by FSON data.
# Increasing the software version will display a message to re-read the soapy device.
soapy_software_version = 3
def FormatKhz(dnum): # Round to 3 decimal places; remove ending ".000"
t = "%.3f" % dnum
if t[-4:] == '.000':
t = t[0:-4]
return t
def SortKey(x):
try:
k = float(x)
except:
k = 0.0
return k
class Configuration:
def __init__(self, app, AskMe): # Called first
global application, local_conf, Settings, noname_enable, platform_ignore, platform_accept
Settings = ["ConfigFileRadio", "ConfigFileRadio", [], []]
application = app
local_conf = self
noname_enable = []
if sys.platform == 'win32':
platform_ignore = 'lin_'
platform_accept = 'win_'
else:
platform_accept = 'lin_'
platform_ignore = 'win_'
self.sections = []
self.receiver_data = []
self.StatePath = conf.settings_file_path
if not self.StatePath:
self.StatePath = os.path.join(conf.DefaultConfigDir, "quisk_settings.json")
self.ReadState()
if AskMe == 'Same':
pass
elif AskMe or Settings[0] == "Ask me":
choices = Settings[2] + ["ConfigFileRadio"]
dlg = wx.SingleChoiceDialog(None, "", "Start Quisk with this Radio",
choices, style=wx.DEFAULT_FRAME_STYLE|wx.OK|wx.CANCEL)
try:
n = choices.index(Settings[1]) # Set default to last used radio
except:
pass
else:
dlg.SetSelection(n)
ok = dlg.ShowModal()
if ok != wx.ID_OK:
sys.exit(0)
select = dlg.GetStringSelection()
dlg.Destroy()
if Settings[1] != select:
Settings[1] = select
self.settings_changed = True
else:
Settings[1] = Settings[0]
if Settings[1] == "ConfigFileRadio":
Settings[2].append("ConfigFileRadio")
Settings[3].append({})
self.ParseConfig()
self.originalBandEdge = {} # save original BandEdge
self.originalBandEdge.update(conf.BandEdge)
def UpdateConf(self): # Called second to update the configuration for the selected radio
if Settings[1] == "ConfigFileRadio":
return
radio_dict = self.GetRadioDict()
radio_type = radio_dict['hardware_file_type']
# Fill in required values
if radio_type == "SdrIQ":
radio_dict["use_sdriq"] = '1'
else:
radio_dict["use_sdriq"] = '0'
if radio_type == "Hermes":
radio_dict["hermes_bias_adjust"] = "False"
if radio_type == 'SoapySDR':
radio_dict["use_soapy"] = '1'
self.InitSoapyNames(radio_dict)
if radio_dict.get("soapy_file_version", 0) < soapy_software_version:
text = "Your SoapySDR device parameters are out of date. Please go to the radio configuration screen and re-read the device parameters."
dlg = wx.MessageDialog(None, text, 'Please Re-Read Device', wx.OK|wx.ICON_INFORMATION)
dlg.ShowModal()
dlg.Destroy()
else:
radio_dict["use_soapy"] = '0'
if radio_type not in ("HiQSDR", "Hermes", "Red Pitaya", "Odyssey", "Odyssey2"):
radio_dict["use_rx_udp"] = '0'
if radio_type in ("Hermes", "Red Pitaya", "Odyssey2"):
if "Hermes_BandDict" not in radio_dict:
radio_dict["Hermes_BandDict"] = {}
if "Hermes_BandDictTx" not in radio_dict:
radio_dict["Hermes_BandDictTx"] = {}
# fill in conf from our configuration data; convert text items to Python objects
errors = ''
for k, v in list(radio_dict.items()): # radio_dict may change size during iteration
if k == 'favorites_file_path': # A null string is equivalent to "not entered"
if not v.strip():
continue
if k in ('power_meter_local_calibrations', ): # present in configuration data but not in the config file
continue
if k[0:6] == 'soapy_': # present in configuration data but not in the config file
continue
if k[0:6] == 'Hware_': # contained in hardware file, not in configuration data nor config file
continue
try:
fmt = self.format4name[k]
except:
errors = errors + "Ignore obsolete parameter %s\n" % k
del radio_dict[k]
self.settings_changed = True
continue
k4 = k[0:4]
if k4 == platform_ignore:
continue
elif k4 == platform_accept:
k = k[4:]
fmt4 = fmt[0:4]
if fmt4 not in ('dict', 'list'):
i1 = v.find('#')
if i1 > 0:
v = v[0:i1]
try:
if fmt4 == 'text': # Note: JSON returns Unicode strings !!!
setattr(conf, k, v)
elif fmt4 in ('dict', 'list'):
setattr(conf, k, v)
elif fmt4 == 'inte':
setattr(conf, k, int(v, base=0))
elif fmt4 == 'numb':
setattr(conf, k, float(v))
elif fmt4 == 'bool':
if v == "True":
setattr(conf, k, True)
else:
setattr(conf, k, False)
elif fmt4 == 'rfil':
pass
elif fmt4 == 'keyc': # key code
if v == "None":
x = None
else:
x = eval(v)
x = int(x)
if k == 'hot_key_ptt2' and not isinstance(x, int):
setattr(conf, k, wx.ACCEL_NORMAL)
else:
setattr(conf, k, x)
else:
print ("Unknown format for", k, fmt)
except:
errors = errors + "Failed to set %s to %s using format %s\n" % (k, v, fmt)
#traceback.print_exc()
if conf.color_scheme == 'B':
conf.__dict__.update(conf.color_scheme_B)
elif conf.color_scheme == 'C':
conf.__dict__.update(conf.color_scheme_C)
if errors:
dlg = wx.MessageDialog(None, errors,
'Update Settings', wx.OK|wx.ICON_ERROR)
ret = dlg.ShowModal()
dlg.Destroy()
def InitSoapyNames(self, radio_dict): # Set Soapy data items, but not the hardware available lists and ranges.
if radio_dict.get('soapy_getFullDuplex_rx', 0):
radio_dict["add_fdx_button"] = '1'
else:
radio_dict["add_fdx_button"] = '0'
name = 'soapy_gain_mode_rx'
if name not in radio_dict:
radio_dict[name] = 'total'
name = 'soapy_setAntenna_rx'
if name not in radio_dict:
radio_dict[name] = ''
name = 'soapy_gain_values_rx'
if name not in radio_dict:
radio_dict[name] = {}
name = 'soapy_gain_mode_tx'
if name not in radio_dict:
radio_dict[name] = 'total'
name = 'soapy_setAntenna_tx'
if name not in radio_dict:
radio_dict[name] = ''
name = 'soapy_gain_values_tx'
if name not in radio_dict:
radio_dict[name] = {}
def NormPath(self, path): # Convert between Unix and Window file paths
if sys.platform == 'win32':
path = path.replace('/', '\\')
else:
path = path.replace('\\', '/')
return path
def GetHardware(self): # Called third to open the hardware file
if Settings[1] == "ConfigFileRadio":
return False
path = self.GetRadioDict()["hardware_file_name"]
path = self.NormPath(path)
if not os.path.isfile(path):
dlg = wx.MessageDialog(None,
"Failure for hardware file %s!" % path,
'Hardware File', wx.OK|wx.ICON_ERROR)
ret = dlg.ShowModal()
dlg.Destroy()
path = 'quisk_hardware_model.py'
dct = {}
dct.update(conf.__dict__) # make items from conf available
if "Hardware" in dct:
del dct["Hardware"]
if 'quisk_hardware' in dct:
del dct["quisk_hardware"]
exec(compile(open(path).read(), path, 'exec'), dct)
if "Hardware" in dct:
application.Hardware = dct['Hardware'](application, conf)
return True
return False
def Initialize(self): # Called fourth to fill in our ConfigFileRadio radio from conf
if Settings[1] == "ConfigFileRadio":
radio_dict = self.GetRadioDict("ConfigFileRadio")
typ = self.GuessType()
radio_dict['hardware_file_type'] = typ
all_data = []
all_data = all_data + self.GetReceiverData(typ)
for name, sdata in self.sections:
all_data = all_data + sdata
for data_name, text, fmt, help_text, values in all_data:
data_name4 = data_name[0:4]
if data_name4 == platform_ignore:
continue
elif data_name4 == platform_accept:
conf_name = data_name[4:]
else:
conf_name = data_name
try:
if fmt in ("dict", "list"):
radio_dict[data_name] = getattr(conf, conf_name)
else:
radio_dict[data_name] = str(getattr(conf, conf_name))
except:
if data_name == 'playback_rate':
pass
else:
print ('No config file value for', data_name)
def GetWidgets(self, app, hardware, conf, frame, gbs, vertBox): # Called fifth
if Settings[1] == "ConfigFileRadio":
return False
path = self.GetRadioDict()["widgets_file_name"]
path = self.NormPath(path)
if os.path.isfile(path):
dct = {}
dct.update(conf.__dict__) # make items from conf available
exec(compile(open(path).read(), path, 'exec'), dct)
if "BottomWidgets" in dct:
app.bottom_widgets = dct['BottomWidgets'](app, hardware, conf, frame, gbs, vertBox)
return True
def OnPageChanging(self, event):
event.Skip()
notebook = event.GetEventObject()
index = event.GetSelection()
if isinstance(notebook, RadioNotebook): # second level notebook with pages for each radio
if index > 0: # First tab is already finished
page = notebook.GetPage(index)
page.MakeControls()
def AddPages(self, notebk, width): # Called sixth to add pages Help, Radios, all radio names
global win_width
win_width = width
self.notebk = notebk
page = ConfigHelp(notebk)
notebk.AddPage(page, "Help with Radios")
self.radio_page = Radios(notebk)
notebk.AddPage(self.radio_page, "Radios")
self.radios_page_start = notebk.GetPageCount()
if sys.platform == 'win32': # On Windows, PAGE_CHANGING doesn't work
notebk.Bind(wx.EVT_NOTEBOOK_PAGE_CHANGED, self.OnPageChanging)
else:
notebk.Bind(wx.EVT_NOTEBOOK_PAGE_CHANGING, self.OnPageChanging)
for name in Settings[2]:
page = RadioNotebook(notebk, name)
if name == Settings[1]:
notebk.AddPage(page, "*%s*" % name)
else:
notebk.AddPage(page, name)
def GuessType(self):
udp = conf.use_rx_udp
if conf.use_sdriq:
return 'SdrIQ'
elif udp == 1:
return 'HiQSDR'
elif udp == 2:
return 'HiQSDR'
elif udp == 10:
return 'Hermes'
elif udp > 0:
return 'HiQSDR'
return 'SoftRock USB'
def AddRadio(self, radio_name, typ):
radio_dict = {}
radio_dict['hardware_file_type'] = typ
Settings[2].append(radio_name)
Settings[3].append(radio_dict)
for data_name, text, fmt, help_text, values in self.GetReceiverData(typ):
radio_dict[data_name] = values[0]
for name, data in self.sections:
for data_name, text, fmt, help_text, values in data:
radio_dict[data_name] = values[0]
# Change some default values in quisk_conf_defaults.py based on radio type
if typ in ("HiQSDR", "Hermes", "Red Pitaya", "Odyssey", "Odyssey2"):
radio_dict["add_fdx_button"] = '1'
page = RadioNotebook(self.notebk, radio_name)
self.notebk.AddPage(page, radio_name)
return True
def RenameRadio(self, old, new):
index = Settings[2].index(old)
n = self.radios_page_start + index
if old == Settings[1]:
self.notebk.SetPageText(n, "*%s*" % new)
else:
self.notebk.SetPageText(n, new)
Settings[2][index] = new
self.notebk.GetPage(n).NewName(new)
if old == "ConfigFileRadio":
for ctrl in noname_enable:
ctrl.Enable()
return True
def DeleteRadio(self, name):
index = Settings[2].index(name)
n = self.radios_page_start + index
self.notebk.DeletePage(n)
del Settings[2][index]
del Settings[3][index]
return True
def GetRadioDict(self, radio_name=None): # None radio_name means the current radio
if radio_name:
index = Settings[2].index(radio_name)
else: # index of radio in use
index = Settings[2].index(Settings[1])
return Settings[3][index]
def GetSectionData(self, section_name):
for sname, data in self.sections:
if sname == section_name:
return data
return None
def GetReceiverData(self, receiver_name):
for rxname, data in self.receiver_data:
if rxname == receiver_name:
return data
return None
def GetReceiverDatum(self, receiver_name, item_name):
for rxname, data in self.receiver_data:
if rxname == receiver_name:
for data_name, text, fmt, help_text, values in data:
if item_name == data_name:
return values[0]
break
return ''
def ReceiverHasName(self, receiver_name, item_name):
for rxname, data in self.receiver_data:
if rxname == receiver_name:
for data_name, text, fmt, help_text, values in data:
if item_name == data_name:
return True
break
return False
def ReadState(self):
self.settings_changed = False
global Settings
try:
fp = open(self.StatePath, "r")
except:
return
try:
Settings = json.load(fp)
except:
traceback.print_exc()
fp.close()
try: # Do not save settings for radio ConfigFileRadio
index = Settings[2].index("ConfigFileRadio")
except ValueError:
pass
else:
del Settings[2][index]
del Settings[3][index]
for sdict in Settings[3]: # Python None is saved as "null"
if "tx_level" in sdict:
if "null" in sdict["tx_level"]:
v = sdict["tx_level"]["null"]
sdict["tx_level"][None] = v
del sdict["tx_level"]["null"]
def SaveState(self):
if not self.settings_changed:
return
try:
fp = open(self.StatePath, "w")
except:
traceback.print_exc()
return
json.dump(Settings, fp, indent=2)
fp.close()
self.settings_changed = False
def ParseConfig(self):
# ParseConfig() fills self.sections, self.receiver_data, and
# self.format4name with the items that Configuration understands.
# Dicts and lists are Python objects. All other items are text, not Python objects.
#
# Sections start with 16 #, section name
# self.sections is a list of [section_name, section_data]
# section_data is a list of [data_name, text, fmt, help_text, values]
# Receiver sections start with 16 #, "Receivers ", receiver name, explain
# self.receiver_data is a list of [receiver_name, receiver_data]
# receiver_data is a list of [data_name, text, fmt, help_text, values]
# Variable names start with ## variable_name variable_text, format
# The format is integer, number, text, boolean, integer choice, text choice, rfile
# Then some help text starting with "# "
# Then a list of possible value#explain with the default first
# Then a blank line to end.
self.format4name = {}
self.format4name['hardware_file_type'] = 'text'
re_AeqB = re.compile("^#?(\w+)\s*=\s*([^#]+)#*(.*)") # item values "a = b"
section = None
data_name = None
fp = open("quisk_conf_defaults.py", "r")
for line in fp:
line = line.strip()
if not line:
data_name = None
continue
if line[0:27] == '################ Receivers ':
section = 'Receivers'
args = line[27:].split(',', 1)
rxname = args[0].strip()
section_data = []
self.receiver_data.append((rxname, section_data))
elif line[0:17] == '################ ':
args = line[17:].split(None, 2)
section = args[0]
if section in ('Colors', 'Obsolete'):
section = None
continue
rxname = None
section_data = []
self.sections.append((section, section_data))
if not section:
continue
if line[0:3] == '## ': # item_name item_text, format
args = line[3:].split(None, 1)
data_name = args[0]
args = args[1].split(',', 1)
dspl = args[0].strip()
fmt = args[1].strip()
value_list = []
if data_name in self.format4name:
if self.format4name[data_name] != fmt:
print ("Inconsistent format for", data_name, self.format4name[data_name], fmt)
else:
self.format4name[data_name] = fmt
section_data.append([data_name, dspl, fmt, '', value_list])
if not data_name:
continue
mo = re_AeqB.match(line)
if mo:
if data_name != mo.group(1):
print ("Parse error for", data_name)
continue
value = mo.group(2).strip()
expln = mo.group(3).strip()
if value[0] in ('"', "'"):
value = value[1:-1]
elif value == '{': # item is a dictionary
value = getattr(conf, data_name)
elif value == '[': # item is a list
value = getattr(conf, data_name)
if expln:
value_list.append("%s # %s" % (value, expln))
else:
value_list.append(value)
elif line[0:2] == '# ':
section_data[-1][3] = section_data[-1][3] + line[2:] + ' '
fp.close()
class ConfigHelp(wx.html.HtmlWindow): # The "Help with Radios" first-level page
"""Create the help screen for the configuration tabs."""
def __init__(self, parent):
wx.html.HtmlWindow.__init__(self, parent, -1, size=(win_width, 100))
if "gtk2" in wx.PlatformInfo:
self.SetStandardFonts()
self.SetFonts("", "", [10, 12, 14, 16, 18, 20, 22])
self.SetBackgroundColour(parent.bg_color)
# read in text from file help_conf.html in the directory of this module
self.LoadFile('help_conf.html')
class QPowerMeterCalibration(wx.Frame):
"""Create a window to enter the power output and corresponding ADC value AIN1/2"""
def __init__(self, parent, local_names):
self.parent = parent
self.local_names = local_names
self.table = [] # calibration table: list of [ADC code, power watts]
try: # may be missing in wxPython 2.x
wx.Frame.__init__(self, application.main_frame, -1, "Power Meter Calibration",
pos=(50, 100), style=wx.CAPTION|wx.FRAME_FLOAT_ON_PARENT)
except AttributeError:
wx.Frame.__init__(self, application.main_frame, -1, "Power Meter Calibration",
pos=(50, 100), style=wx.CAPTION)
panel = wx.Panel(self)
self.MakeControls(panel)
self.Show()
def MakeControls(self, panel):
charx = panel.GetCharWidth()
tab1 = charx * 5
y = 20
# line 1
txt = wx.StaticText(panel, -1, 'Name for new calibration table', pos=(tab1, y))
w, h = txt.GetSize().Get()
tab2 = tab1 + w + tab1 // 2
self.cal_name = wx.TextCtrl(panel, -1, pos=(tab2, h), size=(charx * 16, h * 13 // 10))
y += h * 3
# line 2
txt = wx.StaticText(panel, -1, 'Measured power level in watts', pos=(tab1, y))
self.cal_power = wx.TextCtrl(panel, -1, pos=(tab2, y), size=(charx * 16, h * 13 // 10))
x = tab2 + charx * 20
add = QuiskPushbutton(panel, self.OnBtnAdd, "Add to Table")
add.SetPosition((x, y - h * 3 // 10))
add.SetColorGray()
ww, hh = add.GetSize().Get()
width = x + ww + tab1
y += h * 3
# line 3
sv = QuiskPushbutton(panel, self.OnBtnSave, "Save")
sv.SetColorGray()
cn = QuiskPushbutton(panel, self.OnBtnCancel, "Cancel")
cn.SetColorGray()
w, h = cn.GetSize().Get()
sv.SetPosition((width // 4, y))
cn.SetPosition((width - width // 4 - w, y))
y += h * 12 // 10
# help text at bottom
wx.StaticText(panel, -1, '1. Attach a 50 ohm load and power meter to the antenna connector.', pos=(tab1, y))
w, h = txt.GetSize().Get()
h = h * 12 // 10
y += h
wx.StaticText(panel, -1, '2. Use the Spot button to transmit at a very low power.', pos=(tab1, y))
y += h
wx.StaticText(panel, -1, '3. Enter the measured power in the box above and press "Add to Table".', pos=(tab1, y))
y += h
wx.StaticText(panel, -1, '4. Increase the power a small amount and repeat step 3.', pos=(tab1, y))
y += h
wx.StaticText(panel, -1, '5. Increase power again and repeat step 3.', pos=(tab1, y))
y += h
wx.StaticText(panel, -1, '6. Keep adding measurements to the table until you reach full power.', pos=(tab1, y))
y += h
wx.StaticText(panel, -1, '7. Ten or twelve measurements should be enough. Then press "Save".', pos=(tab1, y))
y += h
wx.StaticText(panel, -1, 'To delete a table, save a table with zero measurements.', pos=(tab1, y))
y += h * 2
self.SetClientSize(wx.Size(width, y))
def OnBtnCancel(self, event=None):
self.parent.ChangePMcalFinished(None, None)
self.Destroy()
def OnBtnSave(self, event):
name = self.cal_name.GetValue().strip()
if not name:
dlg = wx.MessageDialog(self,
'Please enter a name for the new calibration table.',
'Missing Name', wx.OK|wx.ICON_ERROR)
dlg.ShowModal()
dlg.Destroy()
elif name in conf.power_meter_std_calibrations: # known calibration names from the config file
dlg = wx.MessageDialog(self,
'That name is reserved. Please enter a different name.',
'Reserved Name', wx.OK|wx.ICON_ERROR)
dlg.ShowModal()
dlg.Destroy()
elif name in self.local_names:
if self.table:
dlg = wx.MessageDialog(self,
'That name exists. Replace the existing table?',
'Replace Table', wx.OK|wx.CANCEL|wx.ICON_EXCLAMATION)
ret = dlg.ShowModal()
dlg.Destroy()
if ret == wx.ID_OK:
self.parent.ChangePMcalFinished(name, self.table)
self.Destroy()
else:
dlg = wx.MessageDialog(self,
'That name exists but the table is empty. Delete the existing table?.',
'Delete Table', wx.OK|wx.CANCEL|wx.ICON_EXCLAMATION)
ret = dlg.ShowModal()
dlg.Destroy()
if ret == wx.ID_OK:
self.parent.ChangePMcalFinished(name, None)
self.Destroy()
else:
self.parent.ChangePMcalFinished(name, self.table)
self.Destroy()
def OnBtnAdd(self, event):
power = self.cal_power.GetValue().strip()
self.cal_power.Clear()
try:
power = float(power)
except:
dlg = wx.MessageDialog(self, 'Missing or bad measured power.', 'Error in Power', wx.OK|wx.ICON_ERROR)
dlg.ShowModal()
dlg.Destroy()
else:
## Convert measured voltage to power
#power *= 6.388
#power = power**2 / 50.0
fwd = application.Hardware.hermes_fwd_power
rev = application.Hardware.hermes_rev_power
if fwd >= rev:
self.table.append([fwd, power]) # Item must use lists; sort() will fail with mixed lists and tuples
else:
self.table.append([rev, power])
class ListEditDialog(wx.Dialog): # Display a dialog with a List-Edit control, plus Ok/Cancel
def __init__(self, parent, title, choice, choices, width):
wx.Dialog.__init__(self, parent, title=title, style=wx.CAPTION|wx.CLOSE_BOX)
cancel = wx.Button(self, wx.ID_CANCEL, "Cancel")
bsize = cancel.GetSize()
margin = bsize.height
self.combo = wx.ComboBox(self, -1, choice, pos=(margin, margin), size=(width - margin * 2, -1), choices=choices, style=wx.CB_DROPDOWN)
y = margin + self.combo.GetSize().height + margin
x = width - margin * 2 - bsize.width * 2
x = x // 3
ok = wx.Button(self, wx.ID_OK, "OK", pos=(margin + x, y))
cancel.SetPosition((width - margin - x - bsize.width, y))
self.SetClientSize(wx.Size(width, y + bsize.height * 14 // 10))
def GetValue(self):
return self.combo.GetValue()
class RadioNotebook(wx.Notebook): # The second-level notebook for each radio name
def __init__(self, parent, radio_name):
wx.Notebook.__init__(self, parent)
font = wx.Font(conf.config_font_size, wx.FONTFAMILY_SWISS, wx.NORMAL,
wx.FONTWEIGHT_NORMAL, False, conf.quisk_typeface)
self.SetFont(font)
self.SetBackgroundColour(parent.bg_color)
self.radio_name = radio_name
self.pages = []
radio_dict = local_conf.GetRadioDict(radio_name)
radio_type = radio_dict['hardware_file_type']
if radio_type == 'SoapySDR':
page = RadioHardwareSoapySDR(self, radio_name)
else:
page = RadioHardware(self, radio_name)
self.AddPage(page, "Hardware")
self.pages.append(page)
page = RadioSound(self, radio_name)
self.AddPage(page, "Sound")
self.pages.append(page)
for section, names in local_conf.sections:
if section in ('Sound', 'Bands', 'Filters'): # There is a special page for these sections
continue
page = RadioSection(self, radio_name, section, names)
self.AddPage(page, section)
self.pages.append(page)
page = RadioBands(self, radio_name)
self.AddPage(page, "Bands")
self.pages.append(page)
if "use_rx_udp" in radio_dict and radio_dict["use_rx_udp"] == '10':
page = RadioFilters(self, radio_name)
self.AddPage(page, "Filters")
self.pages.append(page)
def NewName(self, new_name):
self.radio_name = new_name
for page in self.pages:
page.radio_name = new_name
class ComboCtrl(wxcombo.ComboCtrl):
def __init__(self, parent, value, choices, no_edit=False):
self.value = value
self.choices = choices[:]
self.handler = None
self.height = parent.quisk_height
if no_edit:
wxcombo.ComboCtrl.__init__(self, parent, -1, style=wx.CB_READONLY)
else:
wxcombo.ComboCtrl.__init__(self, parent, -1, style=wx.TE_PROCESS_ENTER)
self.GetTextCtrl().Bind(wx.EVT_KILL_FOCUS, self.OnKillFocus)
self.Bind(wx.EVT_TEXT_ENTER, self.OnTextEnter)
self.ctrl = ListBoxComboPopup(choices, parent.font)
self.SetPopupControl(self.ctrl)
self.SetText(value)
self.SetSizes()
def SetItems(self, lst):
self.ctrl.SetItems(lst)
self.choices = lst[:]
self.SetSizes()
def SetSizes(self):
charx = self.GetCharWidth()
wm = charx
w, h = self.GetTextExtent(self.value)
if wm < w:
wm = w
for ch in self.choices:
w, h = self.GetTextExtent(ch)
if wm < w:
wm = w
wm += charx * 5
self.SetSizeHints(wm, self.height, 9999, self.height)
def SetSelection(self, n):
try:
text = self.choices[n]
except IndexError:
self.SetText('')
self.value = ''
else:
self.ctrl.SetSelection(n)
self.SetText(text)
self.value = text
def OnTextEnter(self, event=None):
if event:
event.Skip()
if self.value != self.GetValue():
self.value = self.GetValue()
if self.handler:
ok = self.handler(self)
def OnKillFocus(self, event):
event.Skip()
self.OnTextEnter(event)
def OnListbox(self):
self.OnTextEnter()
class ListBoxComboPopup(wxcombo.ComboPopup):
def __init__(self, choices, font):
wxcombo.ComboPopup.__init__(self)
self.choices = choices
self.font = font
self.lbox = None
def Create(self, parent):
self.lbox = wx.ListBox(parent, choices=self.choices, style=wx.LB_SINGLE)
self.lbox.SetFont(self.font)
self.lbox.Bind(wx.EVT_MOTION, self.OnMotion)
self.lbox.Bind(wx.EVT_LEFT_DOWN, self.OnLeftDown)
return True
def SetItems(self, lst):
self.choices = lst[:]
self.lbox.Set(self.choices)
def SetSelection(self, n):
self.lbox.SetSelection(n)
def GetStringValue(self):
try:
return self.choices[self.lbox.GetSelection()]
except IndexError:
pass
return ''
def GetAdjustedSize(self, minWidth, prefHeight, maxHeight):
chary = self.lbox.GetCharHeight()
return (minWidth, chary * len(self.choices) * 15 // 10 + chary)
def OnLeftDown(self, event):
event.Skip()
self.Dismiss()
if wxVersion in ('2', '3'):
self.GetCombo().OnListbox()
else:
self.GetComboCtrl().OnListbox()
def OnMotion(self, event):
event.Skip()
item = self.lbox.HitTest(event.GetPosition())
if item >= 0:
self.lbox.SetSelection(item)
def GetControl(self):
return self.lbox
class BaseWindow(wx.ScrolledWindow):
def __init__(self, parent):
wx.ScrolledWindow.__init__(self, parent)
self.font = wx.Font(conf.config_font_size, wx.FONTFAMILY_SWISS, wx.NORMAL,
wx.FONTWEIGHT_NORMAL, False, conf.quisk_typeface)
self.SetFont(self.font)
self.row = 1
self.charx = self.GetCharWidth()
self.chary = self.GetCharHeight()
self.quisk_height = self.chary * 14 // 10
# GBS
self.gbs = wx.GridBagSizer(2, 2)
self.gbs.SetEmptyCellSize((self.charx, self.charx))
self.SetSizer(self.gbs)
self.gbs.Add((self.charx, self.charx), (0, 0))
def MarkCols(self):
for col in range(1, self.num_cols):
c = wx.StaticText(self, -1, str(col % 10))
self.gbs.Add(c, (self.row, col))
self.row += 1
def NextRow(self, row=None):
if row is None:
self.row += 1
else:
self.row = row
def AddTextL(self, col, text, span=None):
c = wx.StaticText(self, -1, text)
if col < 0:
pass
elif span is None:
self.gbs.Add(c, (self.row, col), flag=wx.ALIGN_CENTER_VERTICAL)
else:
self.gbs.Add(c, (self.row, col), span=(1, span), flag=wx.ALIGN_CENTER_VERTICAL)
return c
def AddTextC(self, col, text, span=None, flag=wx.ALIGN_CENTER):
c = wx.StaticText(self, -1, text)
if col < 0:
pass
elif span is None:
self.gbs.Add(c, (self.row, col), flag=flag)
else:
self.gbs.Add(c, (self.row, col), span=(1, span), flag=flag)
return c
def AddTextCHelp(self, col, text, help_text, span=None):
bsizer = wx.BoxSizer(wx.HORIZONTAL)
txt = wx.StaticText(self, -1, text)
bsizer.Add(txt, flag=wx.ALIGN_CENTER_VERTICAL)
btn = QuiskPushbutton(self, self._BTnHelp, "..")
btn.SetColorGray()
btn.quisk_help_text = help_text
btn.quisk_caption = text
h = self.quisk_height + 2
btn.SetSizeHints(h, h, h, h)
bsizer.Add(btn, flag=wx.ALIGN_CENTER_VERTICAL|wx.LEFT|wx.RIGHT, border=self.charx)
if col < 0:
pass
elif span is None:
self.gbs.Add(bsizer, (self.row, col), flag = wx.ALIGN_CENTER)
else:
self.gbs.Add(bsizer, (self.row, col), span=(1, span), flag = wx.ALIGN_CENTER)
return bsizer
def AddTextLHelp(self, col, text, help_text, span=None):
bsizer = wx.BoxSizer(wx.HORIZONTAL)
btn = QuiskPushbutton(self, self._BTnHelp, "..")
btn.SetColorGray()
btn.quisk_help_text = help_text
btn.quisk_caption = text
h = self.quisk_height + 2
btn.SetSizeHints(h, h, h, h)
bsizer.Add(btn, flag=wx.ALIGN_CENTER_VERTICAL|wx.LEFT|wx.RIGHT, border=self.charx)
txt = wx.StaticText(self, -1, text)
bsizer.Add(txt, flag=wx.ALIGN_CENTER_VERTICAL)
if col < 0:
pass
elif span is None:
self.gbs.Add(bsizer, (self.row, col), flag = wx.ALIGN_LEFT)
else:
self.gbs.Add(bsizer, (self.row, col), span=(1, span), flag = wx.ALIGN_LEFT)
return bsizer
def AddTextEditHelp(self, col, text1, text2, help_text, border=2, span1=1, span2=1):
txt = wx.StaticText(self, -1, text1)
self.gbs.Add(txt, (self.row, col), span=(1, span1), flag=wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, border=self.charx)
col += span1
#txt = wx.StaticText(self, -1, text2)
edt = wx.TextCtrl(self, -1, text2, style=wx.TE_READONLY)
#self.gbs.Add(txt, (self.row, col), span=(1, span2), flag=wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, border=self.charx)
self.gbs.Add(edt, (self.row, col), span=(1, span2),
flag=wx.ALIGN_RIGHT|wx.ALIGN_CENTER_VERTICAL|wx.EXPAND|wx.RIGHT,
border=self.charx*2//10)
col += span2
btn = QuiskPushbutton(self, self._BTnHelp, "..")
btn.SetColorGray()
btn.quisk_help_text = help_text
btn.quisk_caption = text1
h = self.quisk_height + 2
btn.SetSizeHints(h, h, h, h)
self.gbs.Add(btn, (self.row, col), flag=wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, border=self.charx*border)
return txt, edt, btn
def AddTextButtonHelp(self, col, text, butn_text, handler, help_text):
border = 1
txt = wx.StaticText(self, -1, text)
self.gbs.Add(txt, (self.row, col), flag = wx.ALIGN_LEFT)
btn = QuiskPushbutton(self, handler, butn_text)
btn.SetColorGray()
h = self.quisk_height + 2
btn.SetSizeHints(-1, h, -1, h)
self.gbs.Add(btn, (self.row, col + 1), flag = wx.ALIGN_RIGHT|wx.EXPAND)
hbtn = QuiskPushbutton(self, self._BTnHelp, "..")
hbtn.SetColorGray()
hbtn.quisk_help_text = help_text
hbtn.quisk_caption = text
h = self.quisk_height + 2
hbtn.SetSizeHints(h, h, h, h)
self.gbs.Add(hbtn, (self.row, col + 2), flag=wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, border=self.charx*border)
return txt, btn
def AddTextCtrl(self, col, text, handler=None, span=None):
c = wx.TextCtrl(self, -1, text, style=wx.TE_RIGHT)
if col < 0:
pass
elif span is None:
self.gbs.Add(c, (self.row, col), flag=wx.ALIGN_CENTER)
else:
self.gbs.Add(c, (self.row, col), span=(1, span), flag=wx.ALIGN_CENTER)
if handler:
c.Bind(wx.EVT_TEXT, handler)
return c
def AddBoxSizer(self, col, span):
bsizer = wx.BoxSizer(wx.HORIZONTAL)
self.gbs.Add(bsizer, (self.row, col), span=(1, span))
return bsizer
def AddColSpacer(self, col, width): # add a width spacer to row 0
self.gbs.Add((width * self.charx, 1), (0, col)) # width is in characters
def AddRadioButton(self, col, text, span=None, start=False):
if start:
c = wx.RadioButton(self, -1, text, style=wx.RB_GROUP)
else:
c = wx.RadioButton(self, -1, text)
if col < 0:
pass
elif span is None:
self.gbs.Add(c, (self.row, col), flag=wx.ALIGN_CENTER_VERTICAL)
else:
self.gbs.Add(c, (self.row, col), span=(1, span), flag=wx.ALIGN_CENTER_VERTICAL)
return c
def AddCheckBox(self, col, text, handler=None, flag=0, border=0):
btn = wx.CheckBox(self, -1, text)
h = self.quisk_height + 2
btn.SetSizeHints(-1, h, -1, h)
if col >= 0:
self.gbs.Add(btn, (self.row, col), flag=flag, border=border*self.charx)
if self.radio_name == "ConfigFileRadio":
btn.Enable(False)
noname_enable.append(btn)
if handler:
btn.Bind(wx.EVT_CHECKBOX, handler)
return btn
def AddBitField(self, col, number, name, band, value, handler=None, span=None, border=1):
bf = QuiskBitField(self, number, value, self.quisk_height, handler)
if col < 0:
pass
elif span is None:
self.gbs.Add(bf, (self.row, col), flag=wx.ALIGN_RIGHT|wx.ALIGN_CENTER_VERTICAL|wx.RIGHT|wx.LEFT, border=border*self.charx)
else:
self.gbs.Add(bf, (self.row, col), span=(1, span), flag=wx.ALIGN_RIGHT|wx.ALIGN_CENTER_VERTICAL|wx.RIGHT|wx.LEFT, border=border*self.charx)
bf.quisk_data_name = name
bf.quisk_band = band
return bf
def AddPushButton(self, col, text, handler, border=0):
btn = QuiskPushbutton(self, handler, text)
btn.SetColorGray()
h = self.quisk_height + 2
btn.SetSizeHints(-1, h, -1, h)
if col >= 0:
self.gbs.Add(btn, (self.row, col), flag=wx.RIGHT|wx.LEFT, border=border*self.charx)
if self.radio_name == "ConfigFileRadio":
btn.Enable(False)
noname_enable.append(btn)
return btn
def AddPushButtonR(self, col, text, handler, border=0):
btn = self.AddPushButton(-1, text, handler, border)
if col >= 0:
self.gbs.Add(btn, (self.row, col), flag=wx.ALIGN_RIGHT|wx.RIGHT|wx.LEFT, border=border*self.charx)
return btn
def AddComboCtrl(self, col, value, choices, right=False, no_edit=False, span=None, border=1):
cb = ComboCtrl(self, value, choices, no_edit)
if col < 0:
pass
elif span is None:
self.gbs.Add(cb, (self.row, col), flag=wx.ALIGN_RIGHT|wx.ALIGN_CENTER_VERTICAL|wx.EXPAND|wx.RIGHT|wx.LEFT, border=border*self.charx)
else:
self.gbs.Add(cb, (self.row, col), span=(1, span), flag=wx.ALIGN_RIGHT|wx.ALIGN_CENTER_VERTICAL|wx.EXPAND|wx.RIGHT|wx.LEFT, border=border*self.charx)
if self.radio_name == "ConfigFileRadio":
cb.Enable(False)
noname_enable.append(cb)
return cb
def AddComboCtrlTx(self, col, text, value, choices, right=False, no_edit=False):
c = wx.StaticText(self, -1, text)
if col >= 0:
self.gbs.Add(c, (self.row, col))
cb = self.AddComboCtrl(col + 1, value, choices, right, no_edit)
else:
cb = self.AddComboCtrl(col, value, choices, right, no_edit)
return c, cb
def AddTextComboHelp(self, col, text, value, choices, help_text, no_edit=False, border=2, span_text=1, span_combo=1):
txt = wx.StaticText(self, -1, text)
self.gbs.Add(txt, (self.row, col), span=(1, span_text), flag=wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, border=self.charx)
col += span_text
cb = self.AddComboCtrl(-1, value, choices, False, no_edit)
if no_edit:
if '#' in value:
value = value[0:value.index('#')]
value = value.strip()
l = len(value)
for i in range(len(choices)):
ch = choices[i]
if '#' in ch:
ch = ch[0:ch.index('#')]
ch.strip()
if value == ch[0:l]:
cb.SetSelection(i)
break
else:
if 'fail' in value:
pass
else:
print ("Failure to set value for", text, value, choices)
self.gbs.Add(cb, (self.row, col), span=(1, span_combo),
flag=wx.ALIGN_RIGHT|wx.ALIGN_CENTER_VERTICAL|wx.EXPAND|wx.RIGHT,
border=self.charx*2//10)
col += span_combo
btn = QuiskPushbutton(self, self._BTnHelp, "..")
btn.SetColorGray()
btn.quisk_help_text = help_text
btn.quisk_caption = text
h = self.quisk_height + 2
btn.SetSizeHints(h, h, h, h)
self.gbs.Add(btn, (self.row, col), flag=wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, border=self.charx*border)
return txt, cb, btn
def AddTextDblSpinnerHelp(self, col, text, value, dmin, dmax, dinc, help_text, border=2, span_text=1, span_spinner=1):
txt = wx.StaticText(self, -1, text)
self.gbs.Add(txt, (self.row, col), span=(1, span_text), flag=wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, border=self.charx)
col += span_text
spn = wx.SpinCtrlDouble(self, -1, initial=value, min=dmin, max=dmax, inc=dinc)
self.gbs.Add(spn, (self.row, col), span=(1, span_spinner),
flag=wx.ALIGN_RIGHT|wx.ALIGN_CENTER_VERTICAL|wx.EXPAND|wx.RIGHT,
border=self.charx*2//10)
col += span_spinner
btn = QuiskPushbutton(self, self._BTnHelp, "..")
btn.SetColorGray()
btn.quisk_help_text = help_text
btn.quisk_caption = text
h = self.quisk_height + 2
btn.SetSizeHints(h, h, h, h)
self.gbs.Add(btn, (self.row, col), flag=wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, border=self.charx*border)
return txt, spn, btn
def AddTextSpinnerHelp(self, col, text, value, imin, imax, help_text, border=2, span_text=1, span_spinner=1):
txt = wx.StaticText(self, -1, text)
self.gbs.Add(txt, (self.row, col), span=(1, span_text), flag=wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, border=self.charx)
col += span_text
spn = wx.SpinCtrl(self, -1, "")
spn.SetRange(imin, imax)
spn.SetValue(value)
self.gbs.Add(spn, (self.row, col), span=(1, span_spinner),
flag=wx.ALIGN_RIGHT|wx.ALIGN_CENTER_VERTICAL|wx.EXPAND|wx.RIGHT,
border=self.charx*2//10)
col += span_spinner
btn = QuiskPushbutton(self, self._BTnHelp, "..")
btn.SetColorGray()
btn.quisk_help_text = help_text
btn.quisk_caption = text
h = self.quisk_height + 2
btn.SetSizeHints(h, h, h, h)
self.gbs.Add(btn, (self.row, col), flag=wx.ALIGN_CENTER_VERTICAL|wx.RIGHT, border=self.charx*border)
return txt, spn, btn
def _BTnHelp(self, event):
btn = event.GetEventObject()
dlg = wx.MessageDialog(self, btn.quisk_help_text, btn.quisk_caption, style=wx.OK|wx.ICON_INFORMATION)
dlg.ShowModal()
dlg.Destroy()
def OnChange(self, ctrl):
value = ctrl.GetValue()
self.OnChange2(ctrl, value)
def OnChange2(self, ctrl, value):
# Careful: value is Unicode
name = ctrl.quisk_data_name
fmt4 = local_conf.format4name[name][0:4]
ok, x = self.EvalItem(value, fmt4) # Only evaluates integer, number, boolean, text, rfile
if ok:
radio_dict = local_conf.GetRadioDict(self.radio_name)
radio_dict[name] = value
local_conf.settings_changed = True
# Immediate changes
if self.radio_name == Settings[1]: # changed for current radio
if name in ('hot_key_ptt_toggle', 'hot_key_ptt_if_hidden', 'keyupDelay'):
setattr(conf, name, x)
application.ImmediateChange(name)
elif name == "reverse_tx_sideband":
setattr(conf, name, x)
QS.set_tx_audio(reverse_tx_sideband=x)
elif name == "dc_remove_bw":
setattr(conf, name, x)
QS.set_sparams(dc_remove_bw=x)
elif name == "digital_output_level":
setattr(conf, name, x)
QS.set_sparams(digital_output_level=x)
elif name == 'hermes_lowpwr_tr_enable':
application.Hardware.SetLowPwrEnable(x)
elif name == 'hermes_power_amp':
application.Hardware.EnablePowerAmp(x)
elif name == "hermes_bias_adjust":
self.HermesBias0.Enable(x)
self.HermesBias1.Enable(x)
self.HermesWriteBiasButton.Enable(x)
application.Hardware.EnableBiasChange(x)
elif name == "hermes_disable_sync":
application.Hardware.DisableSyncFreq(x)
def FormatOK(self, value, fmt4): # Check formats integer, number, boolean
ok, v = self.EvalItem(value, fmt4)
return ok
def EvalItem(self, value, fmt4): # Return Python integer, number, boolean, text
# return is (item_is_ok, evaluated_item)
if fmt4 in ('text', 'rfil'): # text items are always OK
return True, value
jj = value.find('#')
if jj > 0:
value = value[0:jj]
try: # only certain formats are evaluated
if fmt4 == 'inte':
v = int(value, base=0)
elif fmt4 == 'numb':
v = float(value)
elif fmt4 == 'bool':
if value == "True":
v = True
else:
v = False
else:
return False, None
except:
dlg = wx.MessageDialog(None,
"Can not set item with format %s to value %s" % (fmt4, value),
'Change to item', wx.OK|wx.ICON_ERROR)
dlg.ShowModal()
dlg.Destroy()
return False, None
return True, v
def GetValue(self, name, radio_dict):
try:
value = radio_dict[name]
except:
pass
else:
return value
# Value was not in radio_dict. Get it from conf. There are values for platform win_data_name and lin_data_name.
# The win_ and lin_ names are not in conf.
try:
fmt = local_conf.format4name[name]
except:
fmt = '' # not all items in conf are in section_data or receiver_data
try:
if fmt == 'dict': # make a copy for this radio
value = {}
value.update(getattr(conf, name))
elif fmt == 'list': # make a copy for this radio
value = getattr(conf, name)[:]
else:
value = str(getattr(conf, name))
except:
return ''
else:
return value
class Radios(BaseWindow): # The "Radios" first-level page
def __init__(self, parent):
BaseWindow.__init__(self, parent)
self.SetBackgroundColour(parent.bg_color)
self.num_cols = 8
self.radio_name = None
self.cur_radio_text = self.AddTextL(1, 'xx', self.num_cols - 1)
self.SetCurrentRadioText()
self.NextRow()
self.NextRow()
item = self.AddTextL(1, "When Quisk starts, use the radio")
self.start_radio = self.AddComboCtrl(2, 'big_radio_name', choices=[], no_edit=True)
self.start_radio.handler = self.OnChoiceStartup
self.NextRow()
item = self.AddTextL(1, "Add a new radio with the general type")
choices = []
for name, data in local_conf.receiver_data:
choices.append(name)
self.add_type = self.AddComboCtrl(2, '', choices=choices, no_edit=True)
self.add_type.SetSelection(0)
item = self.AddTextL(3, "and name the new radio")
self.add_name = self.AddComboCtrl(4, '', choices=["My Radio", "SR with XVtr", "SoftRock"])
item = self.AddPushButton(5, "Add", self.OnBtnAdd)
self.NextRow()
item = self.AddTextL(1, "Rename the radio named")
self.rename_old = self.AddComboCtrl(2, 'big_radio_name', choices=[], no_edit=True)
item = self.AddTextL(3, "to the new name")
self.rename_new = self.AddComboCtrl(4, '', choices=["My Radio", "SR with XVtr", "SoftRock"])
item = self.AddPushButton(5, "Rename", self.OnBtnRename)
self.NextRow()
item = self.AddTextL(1, "Delete the radio named")
self.delete_name = self.AddComboCtrl(2, 'big_radio_name', choices=[], no_edit=True)
item = self.AddPushButton(3, "Delete", self.OnBtnDelete)
self.NextRow()
self.FitInside()
self.SetScrollRate(1, 1)
self.NewRadioNames()
def SetCurrentRadioText(self):
radio_dict = local_conf.GetRadioDict(self.radio_name)
radio_type = radio_dict['hardware_file_type']
if Settings[1] == "ConfigFileRadio":
text = 'The current radio is ConfigFileRadio, so all settings come from the config file. The hardware type is %s.' % radio_type
else:
text = "Quisk is running with settings from the radio %s. The hardware type is %s." % (Settings[1], radio_type)
self.cur_radio_text.SetLabel(text)
def DuplicateName(self, name):
if name in Settings[2] or name == "ConfigFileRadio":
dlg = wx.MessageDialog(self, "The name already exists. Please choose a different name.",
'Quisk', wx.OK)
dlg.ShowModal()
dlg.Destroy()
return True
return False
def OnBtnAdd(self, event):
name = self.add_name.GetValue().strip()
if not name or self.DuplicateName(name):
return
self.add_name.SetValue('')
typ = self.add_type.GetValue().strip()
if local_conf.AddRadio(name, typ):
if Settings[0] != "Ask me":
Settings[0] = name
self.NewRadioNames()
local_conf.settings_changed = True
def OnBtnRename(self, event):
old = self.rename_old.GetValue()
new = self.rename_new.GetValue().strip()
if not old or not new or self.DuplicateName(new):
return
self.rename_new.SetValue('')
if local_conf.RenameRadio(old, new):
if old == 'ConfigFileRadio' and Settings[1] == "ConfigFileRadio":
Settings[1] = new
elif Settings[1] == old:
Settings[1] = new
self.SetCurrentRadioText()
if Settings[0] != "Ask me":
Settings[0] = new
self.NewRadioNames()
local_conf.settings_changed = True
def OnBtnDelete(self, event):
name = self.delete_name.GetValue()
if not name:
return
dlg = wx.MessageDialog(self,
"Are you sure you want to permanently delete the radio %s?" % name,
'Quisk', wx.OK|wx.CANCEL|wx.ICON_EXCLAMATION)
ret = dlg.ShowModal()
dlg.Destroy()
if ret == wx.ID_OK and local_conf.DeleteRadio(name):
self.NewRadioNames()
local_conf.settings_changed = True
def OnChoiceStartup(self, ctrl):
choice = self.start_radio.GetValue()
if Settings[0] != choice:
Settings[0] = choice
local_conf.settings_changed = True
def NewRadioNames(self): # Correct all choice lists for changed radio names
choices = Settings[2][:] # can rename any available radio
self.rename_old.SetItems(choices)
self.rename_old.SetSelection(0)
if "ConfigFileRadio" in choices:
choices.remove("ConfigFileRadio")
if Settings[1] in choices:
choices.remove(Settings[1])
self.delete_name.SetItems(choices) # can not delete ConfigFileRadio nor the current radio
self.delete_name.SetSelection(0)
choices = Settings[2] + ["Ask me"]
if "ConfigFileRadio" not in choices:
choices.append("ConfigFileRadio")
self.start_radio.SetItems(choices) # can start any radio, plus "Ask me" and "ConfigFileRadio"
try: # Set text in control
index = choices.index(Settings[0]) # last used radio, or new or renamed radio
except:
num = len(Settings[2])
if len == 0:
index = 1
elif num == 1:
index = 0
else:
index = len(choices) - 2
Settings[0] = choices[index]
self.start_radio.SetSelection(index)
class RadioSection(BaseWindow): # The pages for each section in the second-level notebook for each radio
def __init__(self, parent, radio_name, section, names):
BaseWindow.__init__(self, parent)
self.radio_name = radio_name
self.names = names
self.controls_done = False
def MakeControls(self):
if self.controls_done:
return
self.controls_done = True
self.num_cols = 8
#self.MarkCols()
self.NextRow(3)
col = 1
radio_dict = local_conf.GetRadioDict(self.radio_name)
for name, text, fmt, help_text, values in self.names:
if name == 'favorites_file_path':
self.favorites_path = radio_dict.get('favorites_file_path', '')
row = self.row
self.row = 1
item, self.favorites_combo, btn = self.AddTextComboHelp(1, text, self.favorites_path, values, help_text, False, span_text=1, span_combo=4)
self.favorites_combo.handler = self.OnButtonChangeFavorites
item = self.AddPushButtonR(7, "Change..", self.OnButtonChangeFavorites, border=0)
self.row = row
else:
if fmt[0:4] in ('dict', 'list'):
continue
if name[0:4] == platform_ignore:
continue
value = self.GetValue(name, radio_dict)
no_edit = "choice" in fmt or fmt == 'boolean'
txt, cb, btn = self.AddTextComboHelp(col, text, value, values, help_text, no_edit)
cb.handler = self.OnChange
cb.quisk_data_name = name
if col == 1:
col = 4
else:
col = 1
self.NextRow()
self.AddColSpacer(2, 20)
self.AddColSpacer(5, 20)
self.FitInside()
self.SetScrollRate(1, 1)
def OnButtonChangeFavorites(self, event):
if isinstance(event, ComboCtrl):
path = event.GetValue()
else:
direc, fname = os.path.split(getattr(conf, 'favorites_file_in_use'))
dlg = wx.FileDialog(None, "Choose Favorites File", direc, fname, "*.txt", wx.FD_OPEN)
if dlg.ShowModal() == wx.ID_OK:
path = dlg.GetPath()
self.favorites_combo.SetText(path)
dlg.Destroy()
else:
dlg.Destroy()
return
path = path.strip()
self.favorites_path = path
local_conf.GetRadioDict(self.radio_name)["favorites_file_path"] = path
local_conf.settings_changed = True
class RadioHardwareBase(BaseWindow): # The Hardware page in the second-level notebook for each radio
def __init__(self, parent, radio_name):
BaseWindow.__init__(self, parent)
self.radio_name = radio_name
self.num_cols = 8
self.PMcalDialog = None
#self.MarkCols()
def AlwaysMakeControls(self):
radio_dict = local_conf.GetRadioDict(self.radio_name)
radio_type = radio_dict['hardware_file_type']
data_names = local_conf.GetReceiverData(radio_type)
self.AddTextL(1, "These are the hardware settings for a radio of type %s" % radio_type, self.num_cols-1)
for name, text, fmt, help_text, values in data_names:
if name == 'hardware_file_name':
self.hware_path = self.GetValue(name, radio_dict)
row = self.row
self.row = 3
item, self.hware_combo, btn = self.AddTextComboHelp(1, text, self.hware_path, values, help_text, False, span_text=1, span_combo=4)
self.hware_combo.handler = self.OnButtonChangeHardware
item = self.AddPushButtonR(7, "Change..", self.OnButtonChangeHardware, border=0)
elif name == 'widgets_file_name':
self.widgets_path = self.GetValue(name, radio_dict)
row = self.row
self.row = 5
item, self.widgets_combo, btn = self.AddTextComboHelp(1, text, self.widgets_path, values, help_text, False, span_text=1, span_combo=4)
self.widgets_combo.handler = self.OnButtonChangeWidgets
item = self.AddPushButtonR(7, "Change..", self.OnButtonChangeWidgets, border=0)
self.NextRow(7)
self.AddColSpacer(2, 20)
self.AddColSpacer(5, 20)
self.SetScrollRate(1, 1)
def OnButtonChangeHardware(self, event):
if isinstance(event, ComboCtrl):
path = event.GetValue()
else:
direc, fname = os.path.split(self.hware_path)
dlg = wx.FileDialog(None, "Choose Hardware File", direc, fname, "*.py", wx.FD_OPEN)
if dlg.ShowModal() == wx.ID_OK:
path = dlg.GetPath()
self.hware_combo.SetText(path)
dlg.Destroy()
else:
dlg.Destroy()
return
path = path.strip()
self.hware_path = path
local_conf.GetRadioDict(self.radio_name)["hardware_file_name"] = path
local_conf.settings_changed = True
def OnButtonChangeWidgets(self, event):
if isinstance(event, ComboCtrl):
path = event.GetValue()
else:
direc, fname = os.path.split(self.widgets_path)
dlg = wx.FileDialog(None, "Choose Widgets File", direc, fname, "*.py", wx.FD_OPEN)
if dlg.ShowModal() == wx.ID_OK:
path = dlg.GetPath()
self.widgets_combo.SetText(path)
dlg.Destroy()
else:
dlg.Destroy()
return
path = path.strip()
self.widgets_path = path
local_conf.GetRadioDict(self.radio_name)["widgets_file_name"] = path
local_conf.settings_changed = True
class RadioHardware(RadioHardwareBase): # The Hardware page in the second-level notebook for each radio
def __init__(self, parent, radio_name):
RadioHardwareBase.__init__(self, parent, radio_name)
self.AlwaysMakeControls()
radio_dict = local_conf.GetRadioDict(radio_name)
radio_type = radio_dict['hardware_file_type']
data_names = local_conf.GetReceiverData(radio_type)
col = 1
border = 2
hermes_board_id = 0
if radio_type == "Hermes":
try:
hermes_board_id = application.Hardware.hermes_board_id
except:
pass
if hasattr(application.Hardware, "ProgramGateware"):
help_text = "Choose an RBF file and program the Gateware (FPGA software) over Ethernet."
self.AddTextButtonHelp(1, "Gateware Update", "Program from RBF file..", application.Hardware.ProgramGateware, help_text)
col = 1
self.NextRow(self.row + 2)
for name, text, fmt, help_text, values in data_names:
if name in ('hardware_file_name', 'widgets_file_name'):
pass
elif name[0:4] == platform_ignore:
pass
elif name in ('Hermes_BandDictEnTx', 'AlexHPF_TxEn', 'AlexLPF_TxEn'):
pass
elif 'Hl2_' in name and hermes_board_id != 6:
pass
elif fmt[0:4] in ('dict', 'list'):
pass
else:
if name[0:6] == 'Hware_': # value comes from the hardware file
value = application.Hardware.GetValue(name)
else:
value = self.GetValue(name, radio_dict)
no_edit = "choice" in fmt or fmt == 'boolean'
if name == 'power_meter_calib_name':
values = self.PowerMeterCalChoices()
txt, cb, btn = self.AddTextComboHelp(col, text, value, values, help_text, no_edit, border=border)
cb.handler = self.OnButtonChangePMcal
self.power_meter_cal_choices = cb
else:
txt, cb, btn = self.AddTextComboHelp(col, text, value, values, help_text, no_edit, border=border)
if name[0:6] == 'Hware_':
cb.handler = application.Hardware.SetValue
else:
cb.handler = self.OnChange
cb.quisk_data_name = name
if col == 1:
col = 4
border = 0
else:
col = 1
border = 2
self.NextRow()
if hermes_board_id == 6:
if col == 4:
self.NextRow()
help_text = ('This controls the bias level for transistors in the final power amplifier. Enter a level from 0 to 255.'
' These changes are temporary. Press the "Write" button to write the value to the hardware and make it permanent.')
## Bias is 0 indexed to match schematic
txt, self.HermesBias0, btn = self.AddTextSpinnerHelp(1, "Power amp bias 0", 0, 0, 255, help_text)
txt, self.HermesBias1, btn = self.AddTextSpinnerHelp(4, "Power amp bias 1", 0, 0, 255, help_text)
enbl = radio_dict["hermes_bias_adjust"] == "True"
self.HermesBias0.Enable(enbl)
self.HermesBias1.Enable(enbl)
self.HermesBias0.Bind(wx.EVT_SPINCTRL, self.OnHermesChangeBias0)
self.HermesBias1.Bind(wx.EVT_SPINCTRL, self.OnHermesChangeBias1)
self.HermesWriteBiasButton = self.AddPushButton(7, "Write", self.OnButtonHermesWriteBias, border=0)
self.HermesWriteBiasButton.Enable(enbl)
self.FitInside()
def OnHermesChangeBias0(self, event):
value = self.HermesBias0.GetValue()
application.Hardware.ChangeBias0(value)
def OnHermesChangeBias1(self, event):
value = self.HermesBias1.GetValue()
application.Hardware.ChangeBias1(value)
def OnButtonHermesWriteBias(self, event):
value0 = self.HermesBias0.GetValue()
value1 = self.HermesBias1.GetValue()
application.Hardware.WriteBias(value0, value1)
def PowerMeterCalChoices(self):
values = list(conf.power_meter_std_calibrations) # known calibration names from the config file
radio_dict = local_conf.GetRadioDict(self.radio_name)
values += list(radio_dict.get('power_meter_local_calibrations', {})) # local calibrations
values.sort()
values.append('New')
return values
def OnButtonChangePMcal(self, ctrl):
value = ctrl.GetValue()
name = ctrl.quisk_data_name
radio_dict = local_conf.GetRadioDict(self.radio_name)
local_cal = radio_dict.get('power_meter_local_calibrations', {})
if value == 'New':
if not self.PMcalDialog:
self.PMcalDialog = QPowerMeterCalibration(self, list(local_cal))
else:
setattr(conf, name, value)
radio_dict[name] = value
local_conf.settings_changed = True
application.Hardware.MakePowerCalibration()
def ChangePMcalFinished(self, name, table):
self.PMcalDialog = None
radio_dict = local_conf.GetRadioDict(self.radio_name)
local_cal = radio_dict.get('power_meter_local_calibrations', {})
if name is None: # Cancel
name = conf.power_meter_calib_name
values = self.PowerMeterCalChoices()
else:
if table is None: # delete name
del local_cal[name]
name = list(conf.power_meter_std_calibrations)[0] # replacement name
else: # new entry
local_cal[name] = table
conf.power_meter_calib_name = name
radio_dict['power_meter_calib_name'] = name
radio_dict['power_meter_local_calibrations'] = local_cal
local_conf.settings_changed = True
values = self.PowerMeterCalChoices()
self.power_meter_cal_choices.SetItems(values)
application.Hardware.MakePowerCalibration()
try:
index = values.index(name)
except:
index = 0
self.power_meter_cal_choices.SetSelection(index)
class RadioHardwareSoapySDR(RadioHardwareBase): # The Hardware page in the second-level notebook for the SoapySDR radios
name_text = {
'soapy_gain_mode_rx' : 'Rx gain mode',
'soapy_setAntenna_rx' : 'Rx antenna name',
'soapy_setBandwidth_rx' : 'Rx bandwidth kHz',
'soapy_setSampleRate_rx' : 'Rx sample rate kHz',
'soapy_device' : 'Device name',
'soapy_gain_mode_tx' : 'Tx gain mode',
'soapy_setAntenna_tx' : 'Tx antenna name',
'soapy_setBandwidth_tx' : 'Tx bandwidth kHz',
'soapy_setSampleRate_tx' : 'Tx sample rate kHz',
}
help_text = {
'soapy_gain_mode_rx' : 'Choose "total" to set the total gain, "detailed" to set multiple gain elements individually, \
or "automatic" for automatic gain control. The "detailed" or "automatic" may not be available depending on your hardware.',
'soapy_setAntenna_rx' : 'Choose the antenna to use for receive.',
'soapy_device' : "SoapySDR provides an interface to various radio hardware. The device name specifies \
the hardware device. Create a new radio for each hardware you have. Changing the device \
name requires re-entering all the hardware settings because different hardware has \
different settings. Also, the hardware device must be turned on when you change the \
device name so that Quisk can read the available settings.",
'soapy_gain_mode_tx' : 'Choose "total" to set the total gain, "detailed" to set multiple gain elements individually, \
or "automatic" for automatic gain control. The "detailed" or "automatic" may not be available depending on your hardware.',
'soapy_setAntenna_tx' : 'Choose the antenna to use for transmit.',
}
def __init__(self, parent, radio_name):
RadioHardwareBase.__init__(self, parent, radio_name)
self.no_device = "No device specified"
if soapy:
self.AlwaysMakeControls()
self.MakeSoapyControls()
else:
radio_dict = local_conf.GetRadioDict(self.radio_name)
radio_type = radio_dict['hardware_file_type']
self.AddTextL(1, "These are the hardware settings for a radio of type %s" % radio_type, self.num_cols-1)
self.NextRow()
self.AddTextL(1, "The shared library from the SoapySDR project is not available.")
self.NextRow()
self.AddTextL(1, "The shared library is not installed or is not compatible (perhaps 32 versus 64 bit versions).")
self.NextRow()
return
#self.MarkCols()
def NextCol(self):
if self.col == 1:
self.col = 4
self.border = 0
else:
self.col = 1
self.border = 2
self.NextRow()
def MakeSoapyControls(self):
self.gains_rx = []
self.gains_tx = []
radio_dict = local_conf.GetRadioDict(self.radio_name)
local_conf.InitSoapyNames(radio_dict)
self.border = 2
name = 'soapy_device'
device = radio_dict.get(name, self.no_device)
txt, self.edit_soapy_device, btn = self.AddTextEditHelp(1, self.name_text[name], device, self.help_text[name], span1=1, span2=4)
self.AddPushButtonR(7, "Change..", self.OnButtonChangeSoapyDevice, border=0)
self.NextRow()
self.NextRow()
self.col = 1
if device == self.no_device:
self.FitInside()
return
if radio_dict.get("soapy_file_version", 0) < soapy_software_version:
text = "Please re-enter the device name. This will read additional parameters from the hardware."
self.AddTextL(self.col, text, span=6)
self.FitInside()
return
# Receive parameters
name = 'soapy_setSampleRate_rx'
help_text = 'Available sample rates: '
rates = ['48', '50', '240', '250', '960', '1000']
for dmin, dmax, dstep in radio_dict.get('soapy_getSampleRateRange_rx', ()):
tmin = FormatKhz(dmin * 1E-3)
if tmin not in rates:
rates.append(tmin)
if abs(dmin - dmax) < 0.5:
help_text = help_text + '%s; ' % tmin
elif dstep < 0.5:
help_text = help_text + '%s to %s; ' % (tmin, FormatKhz(dmax * 1E-3))
else:
help_text = help_text + '%s to %s by %s; ' % (tmin, FormatKhz(dmax * 1E-3), FormatKhz(dstep * 1E-3))
help_text = help_text[0:-2] + '.'
if rates:
rates.sort(key=SortKey)
rate = radio_dict.get(name, '')
txt, cb, btn = self.AddTextComboHelp(self.col, self.name_text[name], rate, rates, help_text, False, border=self.border)
cb.handler = self.OnChange
cb.quisk_data_name = name
self.NextCol()
len_gain_names = len(radio_dict.get('soapy_listGainsValues_rx', ()))
name = 'soapy_gain_mode_rx'
gain_mode = radio_dict[name]
choices = ['total']
if len_gain_names >= 3:
choices.append('detailed')
if radio_dict.get('soapy_hasGainMode_rx', 0):
choices.append('automatic')
if gain_mode not in choices:
gain_mode = radio_dict[name] = 'total'
local_conf.settings_changed = True
txt, cb, btn = self.AddTextComboHelp(self.col, self.name_text[name], gain_mode, choices, self.help_text[name], True, border=self.border)
cb.handler = self.OnChange
cb.quisk_data_name = name
self.NextCol()
name = 'soapy_gain_values_rx'
values = radio_dict[name]
for name2, dmin, dmax, dstep in radio_dict.get('soapy_listGainsValues_rx', ()):
if dstep < 1E-4:
dstep = 0.5
text = "Rx gain %s" % name2
help_text = 'Rf gain min %f, max %f, step %f' % (dmin, dmax, dstep)
value = values.get(name2, '0')
value = float(value)
txt, spn, btn = self.AddTextDblSpinnerHelp(self.col, text, value, dmin, dmax, dstep, help_text, border=self.border)
spn.quisk_data_name = name
spn.quisk_data_name2 = name2
spn.Bind(wx.EVT_SPINCTRLDOUBLE, self.OnGain)
self.gains_rx.append(spn)
self.NextCol()
if len_gain_names < 3: # for 1 or 2 names, just show total gain item
break
self.FixGainButtons('soapy_gain_mode_rx')
name = 'soapy_setAntenna_rx'
antenna = radio_dict[name]
antennas = radio_dict.get('soapy_listAntennas_rx', ())
if antenna not in antennas:
if antennas:
antenna = antennas[0]
else:
antenna = ''
radio_dict[name] = antenna
local_conf.settings_changed = True
if antennas:
txt, cb, btn = self.AddTextComboHelp(self.col, self.name_text[name], antenna, antennas, self.help_text[name], True, border=self.border)
cb.handler = self.OnChange
cb.quisk_data_name = name
self.NextCol()
name = 'soapy_setBandwidth_rx'
help_text = 'Available bandwidth: '
bandwidths = []
for dmin, dmax, dstep in radio_dict.get('soapy_getBandwidthRange_rx', ()):
tmin = FormatKhz(dmin * 1E-3)
bandwidths.append(tmin)
if abs(dmin - dmax) < 0.5:
help_text = help_text + '%s; ' % tmin
elif dstep < 0.5:
help_text = help_text + '%s to %s; ' % (tmin, FormatKhz(dmax * 1E-3))
else:
help_text = help_text + '%s to %s by %s; ' % (tmin, FormatKhz(dmax * 1E-3), FormatKhz(dstep * 1E-3))
help_text = help_text[0:-2] + '.'
if bandwidths:
bandwidth = radio_dict.get(name, '')
txt, cb, btn = self.AddTextComboHelp(self.col, self.name_text[name], bandwidth, bandwidths, help_text, False, border=self.border)
cb.handler = self.OnChange
cb.quisk_data_name = name
self.NextCol()
# Transmit parameters
if self.col != 1:
self.NextCol()
name = 'soapy_enable_tx'
enable = radio_dict.get(name, 'Disable')
help_text = 'This will enable or disable the transmit function. If changed, you must restart Quisk.'
txt, cb, btn = self.AddTextComboHelp(self.col, 'Tx enable', enable, ['Enable', 'Disable'], help_text, True, border=self.border)
cb.handler = self.OnChange
cb.quisk_data_name = name
self.NextCol()
name = 'soapy_setSampleRate_tx'
help_text = 'Available sample rates: '
rates = []
for dmin, dmax, dstep in radio_dict.get('soapy_getSampleRateRange_tx', ()):
tmin = FormatKhz(dmin * 1E-3)
rates.append(tmin)
if abs(dmin - dmax) < 0.5:
help_text = help_text + '%s; ' % tmin
elif dstep < 0.5:
help_text = help_text + '%s to %s; ' % (tmin, FormatKhz(dmax * 1E-3))
else:
help_text = help_text + '%s to %s by %s; ' % (tmin, FormatKhz(dmax * 1E-3), FormatKhz(dstep * 1E-3))
help_text = help_text[0:-2] + '.'
if rates:
rate = radio_dict.get(name, '')
rates = ('48', '50', '96', '100', '192')
txt, cb, btn = self.AddTextComboHelp(self.col, self.name_text[name], rate, rates, help_text, True, border=self.border)
cb.handler = self.OnChange
cb.quisk_data_name = name
self.NextCol()
len_gain_names = len(radio_dict.get('soapy_listGainsValues_tx', ()))
name = 'soapy_gain_mode_tx'
gain_mode = radio_dict[name]
choices = ['total']
if len_gain_names >= 3:
choices.append('detailed')
if radio_dict.get('soapy_hasGainMode_tx', 0):
choices.append('automatic')
if gain_mode not in choices:
gain_mode = radio_dict[name] = 'total'
local_conf.settings_changed = True
txt, cb, btn = self.AddTextComboHelp(self.col, self.name_text[name], gain_mode, choices, self.help_text[name], True, border=self.border)
cb.handler = self.OnChange
cb.quisk_data_name = name
self.NextCol()
name = 'soapy_gain_values_tx'
values = radio_dict[name]
for name2, dmin, dmax, dstep in radio_dict.get('soapy_listGainsValues_tx', ()):
if dstep < 1E-4:
dstep = 0.5
text = "Tx gain %s" % name2
help_text = 'Rf gain min %f, max %f, step %f' % (dmin, dmax, dstep)
value = values.get(name2, '0')
value = float(value)
txt, spn, btn = self.AddTextDblSpinnerHelp(self.col, text, value, dmin, dmax, dstep, help_text, border=self.border)
spn.quisk_data_name = name
spn.quisk_data_name2 = name2
spn.Bind(wx.EVT_SPINCTRLDOUBLE, self.OnGain)
self.gains_tx.append(spn)
self.NextCol()
if len_gain_names < 3: # for 1 or 2 names, just show total gain item
break
self.FixGainButtons('soapy_gain_mode_tx')
name = 'soapy_setAntenna_tx'
antenna = radio_dict[name]
antennas = radio_dict.get('soapy_listAntennas_tx', ())
if antenna not in antennas:
if antennas:
antenna = antennas[0]
else:
antenna = ''
radio_dict[name] = antenna
local_conf.settings_changed = True
if antennas:
txt, cb, btn = self.AddTextComboHelp(self.col, self.name_text[name], antenna, antennas, self.help_text[name], True, border=self.border)
cb.handler = self.OnChange
cb.quisk_data_name = name
self.NextCol()
name = 'soapy_setBandwidth_tx'
help_text = 'Available bandwidths: '
bandwidths = []
for dmin, dmax, dstep in radio_dict.get('soapy_getBandwidthRange_tx', ()):
tmin = FormatKhz(dmin * 1E-3)
bandwidths.append(tmin)
if abs(dmin - dmax) < 0.5:
help_text = help_text + '%s; ' % tmin
elif dstep < 0.5:
help_text = help_text + '%s to %s; ' % (tmin, FormatKhz(dmax * 1E-3))
else:
help_text = help_text + '%s to %s by %s; ' % (tmin, FormatKhz(dmax * 1E-3), FormatKhz(dstep * 1E-3))
help_text = help_text[0:-2] + '.'
if bandwidths:
bandwidth = radio_dict.get(name, '')
txt, cb, btn = self.AddTextComboHelp(self.col, self.name_text[name], bandwidth, bandwidths, help_text, False, border=self.border)
cb.handler = self.OnChange
cb.quisk_data_name = name
self.NextCol()
self.FitInside()
def FixGainButtons(self, name):
radio_dict = local_conf.GetRadioDict(self.radio_name)
gain_mode = radio_dict[name]
if name[-3:] == '_tx':
controls = self.gains_tx
else:
controls = self.gains_rx
for i in range(len(controls)):
ctrl = controls[i]
if gain_mode == "automatic":
ctrl.Enable(False)
elif gain_mode == "total":
if i == 0:
ctrl.Enable(True)
else:
ctrl.Enable(False)
else: # gain_mode is "detailed"
if i == 0:
ctrl.Enable(False)
else:
ctrl.Enable(True)
def OnButtonChangeSoapyDevice(self, event):
if not soapy:
txt = "Soapy shared library (DLL) is not available."
msg = wx.MessageDialog(None, txt, 'SoapySDR Error', wx.OK|wx.ICON_ERROR)
msg.ShowModal()
msg.Destroy()
return
try:
choices = self.GetSoapyDevices()
except:
#traceback.print_exc()
choices = []
if not choices:
choices = ['No devices were found.']
device = self.edit_soapy_device.GetValue()
width = application.main_frame.GetSize().width
width = width * 50 // 100
parent = self.edit_soapy_device.GetParent()
dlg = ListEditDialog(parent, "Change Soapy Device", device, choices, width)
ok = dlg.ShowModal()
if ok != wx.ID_OK:
dlg.Destroy()
return
device = dlg.GetValue()
dlg.Destroy()
if device == self.no_device:
return
if Settings[1] == self.radio_name:
txt = "Changing the active radio requires a shutdown and restart. Proceed?"
msg = wx.MessageDialog(None, txt, 'SoapySDR Change to Active Radio', wx.OK|wx.CANCEL|wx.ICON_INFORMATION)
ok = msg.ShowModal()
msg.Destroy()
if ok == wx.ID_OK:
soapy.close_device(1)
else:
return
txt = soapy.open_device(device, 0, 0)
if txt[0:8] == 'Capture ':
radio_dict = local_conf.GetRadioDict(self.radio_name)
radio_dict['soapy_device'] = device
radio_dict['soapy_file_version'] = soapy_software_version
self.edit_soapy_device.ChangeValue(device)
# Record the new SoapySDR parameters for the new device. Do not change the old data values yet.
for name in ('soapy_listAntennas_rx', 'soapy_hasGainMode_rx', 'soapy_listGainsValues_rx',
'soapy_listAntennas_tx', 'soapy_hasGainMode_tx', 'soapy_listGainsValues_tx',
'soapy_getFullDuplex_rx', 'soapy_getSampleRateRange_rx', 'soapy_getSampleRateRange_tx',
'soapy_getBandwidthRange_rx', 'soapy_getBandwidthRange_tx',
):
radio_dict[name] = soapy.get_parameter(name, 0)
soapy.close_device(0)
local_conf.settings_changed = True
# Clear our sizer and re-create all the controls
self.gbs.Clear(True)
self.gbs.Add((self.charx, self.charx), (0, 0))
self.row = 1
RadioHardwareBase.AlwaysMakeControls(self)
self.MakeSoapyControls()
txt = "Please check the settings for the new hardware device."
msg = wx.MessageDialog(None, txt, 'SoapySDR Change to Radio', wx.OK|wx.ICON_INFORMATION)
msg.ShowModal()
msg.Destroy()
else:
msg = wx.MessageDialog(None, txt, 'SoapySDR Device Error', wx.OK|wx.ICON_ERROR)
msg.ShowModal()
msg.Destroy()
def GetSoapyDevices(self):
choices = []
for dct in soapy.get_device_list():
text = ''
try:
driver = dct["driver"]
except:
pass
else:
text = 'driver=%s' % driver
try:
label = dct["label"]
except:
pass
else:
text = text + ', label=%s' % label
choices.append(text)
return choices
def OnChange(self, ctrl):
name = ctrl.quisk_data_name
value = ctrl.GetValue()
radio_dict = local_conf.GetRadioDict(self.radio_name)
radio_dict[name] = value
local_conf.settings_changed = True
# Immediate changes
if name in ('soapy_gain_mode_rx', 'soapy_gain_mode_tx'):
self.FixGainButtons(name)
if soapy and self.radio_name == Settings[1]: # changed for current radio
application.Hardware.ImmediateChange(name, value)
def OnGain(self, event):
radio_dict = local_conf.GetRadioDict(self.radio_name)
obj = event.GetEventObject()
value = obj.GetValue()
name = obj.quisk_data_name
radio_dict[name][obj.quisk_data_name2] = value
local_conf.settings_changed = True
if soapy and self.radio_name == Settings[1]: # changed for current radio
application.Hardware.ChangeGain(name[-3:])
class RadioSound(BaseWindow): # The Sound page in the second-level notebook for each radio
"""Configure the available sound devices."""
sound_names = ( # same order as grid labels
('playback_rate', '', '', '', 'name_of_sound_play'),
('mic_sample_rate', 'mic_channel_I', 'mic_channel_Q', '', 'microphone_name'),
('sample_rate', 'channel_i', 'channel_q', 'channel_delay', 'name_of_sound_capt'),
('mic_playback_rate', 'mic_play_chan_I', 'mic_play_chan_Q', 'tx_channel_delay', 'name_of_mic_play'),
('', '', '', '', 'digital_input_name'),
('', '', '', '', 'digital_output_name'),
('', '', '', '', 'sample_playback_name'),
('', '', '', '', 'digital_rx1_name'),
)
def __init__(self, parent, radio_name):
BaseWindow.__init__(self, parent)
self.radio_name = radio_name
self.controls_done = False
def MakeControls(self):
if self.controls_done:
return
self.controls_done = True
self.radio_dict = local_conf.GetRadioDict(self.radio_name)
self.num_cols = 8
thename = platform_accept + "latency_millisecs"
for name, text, fmt, help_text, values in local_conf.GetSectionData('Sound'):
if name == thename:
value = self.GetValue(name, self.radio_dict)
no_edit = "choice" in fmt or fmt == 'boolean'
txt, cb, btn = self.AddTextComboHelp(1, text, value, values, help_text, no_edit)
cb.handler = self.OnChange
cb.quisk_data_name = name
break
for name, text, fmt, help_text, values in local_conf.GetSectionData('Sound'):
if name == 'digital_output_level':
value = self.GetValue(name, self.radio_dict)
no_edit = "choice" in fmt or fmt == 'boolean'
txt, cb, btn = self.AddTextComboHelp(4, text, value, values, help_text, no_edit)
cb.handler = self.OnChange
cb.quisk_data_name = name
break
self.NextRow()
# Add the grid for the sound settings
sizer = wx.GridBagSizer(2, 2)
sizer.SetEmptyCellSize((self.charx, self.charx))
self.gbs.Add(sizer, (self.row, 0), span=(1, self.num_cols))
gbs = self.gbs
self.gbs = sizer
self.row = 1
dev_capt, dev_play = QS.sound_devices()
if sys.platform != 'win32':
for i in range(len(dev_capt)):
dev_capt[i] = "alsa:" + dev_capt[i]
for i in range(len(dev_play)):
dev_play[i] = "alsa:" + dev_play[i]
show = self.GetValue('show_pulse_audio_devices', self.radio_dict)
if show == 'True':
dev_capt.append("pulse # Use the default pulse device")
dev_play.append("pulse # Use the default pulse device")
for n0, n1, n2 in application.pa_dev_capt:
dev_capt.append("pulse:%s" % n0)
for n0, n1, n2 in application.pa_dev_play:
dev_play.append("pulse:%s" % n0)
dev_capt.insert(0, '')
dev_play.insert(0, '')
self.AddTextC(1, "Stream")
self.AddTextCHelp(2, "Rate",
"This is the sample rate for the device in Hertz." "Some devices have fixed rates that can not be changed.")
self.AddTextCHelp(3, "Ch I", "This is the in-phase channel for devices with I/Q data, and the main channel for other devices.")
self.AddTextCHelp(4, "Ch Q", "This is the quadrature channel for devices with I/Q data, and the second channel for other devices.")
self.AddTextCHelp(5, "Delay", "Some older devices have a one sample channel delay between channels. "
"This must be corrected for devices with I/Q data. Enter the channel number to delay; either the I or Q channel number. "
"For no delay, leave this blank.")
self.AddTextCHelp(6, "Sound Device", "This is the name of the sound device. For Windows, this is the DirectX name. "
"For Linux you can use the Alsa device, the PortAudio device or the PulseAudio device. "
"The Alsa device are recommended because they have lower latency. See the documentation for more information.")
self.NextRow()
label_help = (
(1, "Radio Sound Output", "This is the radio sound going to the headphones or speakers."),
(0, "Microphone Input", "This is the monophonic microphone source. Set the channel if the source is stereo."),
(0, "I/Q Rx Sample Input", "This is the sample source if it comes from a sound device, such as a SoftRock."),
(1, "I/Q Tx Sample Output", "This is the transmit sample audio sent to a SoftRock."),
(0, "External Digital Input", "This is the loopback sound device for Rx samples received from a digital program such as FlDigi."),
(1, "External Digital Output", "This is the loopback sound device for Tx samples sent to a digital program such as FlDigi."),
(1, "Raw Digital Output", "This sends the received I/Q data to another program."),
(1, "Digital Rx1 Output", "This sends sub-receiver 1 output to another program."),
)
choices = (("48000", "96000", "192000"), ("0", "1"), ("0", "1"), (" ", "0", "1"))
r = 0
if "SoftRock" in self.radio_dict['hardware_file_type']: # Samples come from sound card
softrock = True
else:
softrock = False
for is_output, label, helptxt in label_help:
self.AddTextLHelp(1, label, helptxt)
# Add col 0
value = self.ItemValue(r, 0)
if value is None:
value = ''
data_name = self.sound_names[r][0]
if r == 0:
cb = self.AddComboCtrl(2, value, choices=("48000", "96000", "192000"), right=True)
if r == 1:
cb = self.AddComboCtrl(2, value, choices=("48000", "8000"), right=True, no_edit=True)
if softrock:
if r == 2:
cb = self.AddComboCtrl(2, value, choices=("48000", "96000", "192000"), right=True)
if r == 3:
cb = self.AddComboCtrl(2, value, choices=("48000", "96000", "192000"), right=True)
else:
if r == 2:
cb = self.AddComboCtrl(2, '', choices=("",), right=True)
cb.Enable(False)
if r == 3:
cb = self.AddComboCtrl(2, '', choices=("",), right=True)
cb.Enable(False)
if r == 4:
cb = self.AddComboCtrl(2, "48000", choices=("48000",), right=True, no_edit=True)
cb.Enable(False)
if r == 5:
cb = self.AddComboCtrl(2, "48000", choices=("48000",), right=True, no_edit=True)
cb.Enable(False)
if r == 6:
cb = self.AddComboCtrl(2, "48000", choices=("48000",), right=True, no_edit=True)
cb.Enable(False)
if r == 7:
cb = self.AddComboCtrl(2, "48000", choices=("48000",), right=True, no_edit=True)
cb.Enable(False)
cb.handler = self.OnChange
cb.quisk_data_name = data_name
# Add col 1, 2, 3
for col in range(1, 4):
value = self.ItemValue(r, col)
data_name = self.sound_names[r][col]
if value is None:
cb = self.AddComboCtrl(col + 2, ' ', choices=[], right=True)
cb.Enable(False)
else:
cb = self.AddComboCtrl(col + 2, value, choices=choices[col], right=True)
cb.handler = self.OnChange
cb.quisk_data_name = self.sound_names[r][col]
# Add col 4
if not softrock and r in (2, 3):
cb = self.AddComboCtrl(6, '', choices=[''])
cb.Enable(False)
elif is_output:
cb = self.AddComboCtrl(6, self.ItemValue(r, 4), choices=dev_play)
else:
cb = self.AddComboCtrl(6, self.ItemValue(r, 4), choices=dev_capt)
cb.handler = self.OnChange
cb.quisk_data_name = platform_accept + self.sound_names[r][4]
self.NextRow()
r += 1
self.gbs = gbs
self.FitInside()
self.SetScrollRate(1, 1)
def ItemValue(self, row, col):
data_name = self.sound_names[row][col]
if col == 4: # Device names
data_name = platform_accept + data_name
value = self.GetValue(data_name, self.radio_dict)
return value
elif data_name:
value = self.GetValue(data_name, self.radio_dict)
if col == 3: # Delay
if value == "-1":
value = ''
return value
return None
def OnChange(self, ctrl):
data_name = ctrl.quisk_data_name
value = ctrl.GetValue()
if data_name in ('channel_delay', 'tx_channel_delay'):
value = value.strip()
if not value:
value = "-1"
self.OnChange2(ctrl, value)
class RadioBands(BaseWindow): # The Bands page in the second-level notebook for each radio
def __init__(self, parent, radio_name):
BaseWindow.__init__(self, parent)
self.radio_name = radio_name
self.controls_done = False
def MakeControls(self):
if self.controls_done:
return
self.controls_done = True
radio_dict = local_conf.GetRadioDict(self.radio_name)
radio_type = radio_dict['hardware_file_type']
self.num_cols = 8
#self.MarkCols()
self.NextRow()
self.AddTextCHelp(1, "Bands",
"This is a list of the bands that Quisk understands. A check mark means that the band button is displayed. A maximum of "
"14 bands may be displayed.")
self.AddTextCHelp(2, " Start MHz",
"This is the start of the band in megahertz.")
self.AddTextCHelp(3, " End MHz",
"This is the end of the band in megahertz.")
heading_row = self.row
self.NextRow()
band_labels = radio_dict['bandLabels'][:]
for i in range(len(band_labels)):
if isinstance(band_labels[i], (list, tuple)):
band_labels[i] = band_labels[i][0]
band_edge = radio_dict['BandEdge']
# band_list is a list of all known bands
band_list = local_conf.originalBandEdge
band_list = list(band_list)
band_list.sort(key=self.SortCmp)
band_list.append('Time')
if local_conf.ReceiverHasName(radio_type, 'tx_level'):
tx_level = self.GetValue('tx_level', radio_dict)
radio_dict['tx_level'] = tx_level # Make sure the dictionary is in radio_dict
else:
tx_level = None
try:
transverter_offset = radio_dict['bandTransverterOffset']
except:
transverter_offset = {}
radio_dict['bandTransverterOffset'] = transverter_offset # Make sure the dictionary is in radio_dict
try:
hiqsdr_bus = radio_dict['HiQSDR_BandDict']
except:
hiqsdr_bus = None
try:
hermes_bus = radio_dict['Hermes_BandDict']
except:
hermes_bus = None
self.band_checks = []
# Add the Audio band. This must be first to allow for column labels.
cb = self.AddCheckBox(1, 'Audio', self.OnChangeBands)
self.band_checks.append(cb)
if 'Audio' in band_labels:
cb.SetValue(True)
self.NextRow()
start_row = self.row
# Add check box, start, end
for band in band_list:
cb = self.AddCheckBox(1, band, self.OnChangeBands)
self.band_checks.append(cb)
if band in band_labels:
cb.SetValue(True)
try:
start, end = band_edge[band]
start = str(start * 1E-6)
end = str(end * 1E-6)
except:
try:
start, end = local_conf.originalBandEdge[band]
start = str(start * 1E-6)
end = str(end * 1E-6)
except:
start = ''
end = ''
cb = self.AddComboCtrl(2, start, choices=(start, ), right=True)
cb.handler = self.OnChangeBandStart
cb.quisk_band = band
cb = self.AddComboCtrl(3, end, choices=(end, ), right=True)
cb.handler = self.OnChangeBandEnd
cb.quisk_band = band
self.NextRow()
col = 3
# Add tx_level
if tx_level is not None:
col += 1
self.row = heading_row
self.AddTextCHelp(col, " Tx Level",
"This is the transmit level for each band. The level is a number from zero to 255. Changes are immediate.")
self.row = start_row
for band in band_list:
try:
level = tx_level[band]
level = str(level)
except:
try:
level = tx_level[None]
tx_level[band] = level # Fill in tx_level for each band
level = str(level)
except:
tx_level[band] = 0
level = '0'
cb = self.AddComboCtrl(col, level, choices=(level, ), right=True)
cb.handler = self.OnChangeDict
cb.quisk_data_name = 'tx_level'
cb.quisk_band = band
self.NextRow()
# Add transverter offset
if isinstance(transverter_offset, dict):
col += 1
self.row = heading_row
self.AddTextCHelp(col, " Transverter Offset",
"If you use a transverter, you need to tune your hardware to a frequency lower than\
the frequency displayed by Quisk. For example, if you have a 2 meter transverter,\
you may need to tune your hardware from 28 to 30 MHz to receive 144 to 146 MHz.\
Enter the transverter offset in Hertz. For this to work, your\
hardware must support it. Currently, the HiQSDR, SDR-IQ and SoftRock are supported.")
self.row = start_row
for band in band_list:
try:
offset = transverter_offset[band]
except:
offset = ''
else:
offset = str(offset)
cb = self.AddComboCtrl(col, offset, choices=(offset, ), right=True)
cb.handler = self.OnChangeDictBlank
cb.quisk_data_name = 'bandTransverterOffset'
cb.quisk_band = band
self.NextRow()
# Add hiqsdr_bus
if hiqsdr_bus is not None:
bus_text = 'The IO bus is used to select filters for each band. Refer to the documentation for your filter board to see what number to enter.'
col += 1
self.row = heading_row
self.AddTextCHelp(col, " IO Bus", bus_text)
self.row = start_row
for band in band_list:
try:
bus = hiqsdr_bus[band]
except:
bus = ''
bus_choice = ('11', )
else:
bus = str(bus)
bus_choice = (bus, )
cb = self.AddComboCtrl(col, bus, bus_choice, right=True)
cb.handler = self.OnChangeDict
cb.quisk_data_name = 'HiQSDR_BandDict'
cb.quisk_band = band
self.NextRow()
# Add hermes_bus
if hermes_bus is not None:
bus_text = 'The IO bus is used to select filters for each band. Check the bit for a "1", and uncheck the bit for a "0".\
Bits are shown in binary number order. For example, decimal 9 is 0b1001, so check bits 3 and 0.\
Changes are immediate (no need to restart).\
Refer to the documentation for your filter board to see which bits to set.\
The Rx bits are used for both receive and transmit, unless the "Enable" box is checked.\
Then you can specify different filters for Rx and Tx.\
If multiple receivers are in use, the Rx filter will be that of the highest frequency band.'
col += 1
self.row = heading_row
self.AddTextCHelp(col, " Rx IO Bus", bus_text)
self.AddTextCHelp(col + 1, " Tx IO Bus", bus_text)
self.row += 1
self.AddTextC(col, "6...Bits...0")
btn = self.AddCheckBox(col + 1, " Enable", self.ChangeIOTxEnable, flag=wx.ALIGN_CENTER|wx.ALIGN_CENTER_VERTICAL)
value = self.GetValue("Hermes_BandDictEnTx", radio_dict)
value = value == 'True'
btn.SetValue(value)
self.row = start_row
try:
hermes_tx_bus = radio_dict['Hermes_BandDictTx']
except:
hermes_tx_bus = {}
for band in band_list:
try:
bus = int(hermes_bus[band])
except:
bus = 0
self.AddBitField(col, 7, 'Hermes_BandDict', band, bus, self.ChangeIO)
try:
bus = int(hermes_tx_bus[band])
except:
bus = 0
self.AddBitField(col + 1, 7, 'Hermes_BandDictTx', band, bus, self.ChangeIO)
self.NextRow()
self.FitInside()
self.SetScrollRate(1, 1)
def SortCmp(self, item1):
# Numerical conversion to megahertz
try:
if item1[-2:] == 'cm':
item1 = float(item1[0:-2]) * .01
item1 = 300.0 / item1
elif item1[-1] == 'k':
item1 = float(item1[0:-1]) * .001
else:
item1 = float(item1)
item1 = 300.0 / item1
except:
item1 = 50000.0
return item1
def OnChangeBands(self, ctrl):
band_list = []
count = 0
for cb in self.band_checks:
if cb.IsChecked():
band = cb.GetLabel()
count += 1
if band == '60' and len(conf.freq60) > 1:
band_list.append(('60', ) * len(conf.freq60))
elif band == 'Time' and len(conf.bandTime) > 1:
band_list.append(('Time', ) * len(conf.bandTime))
else:
band_list.append(band)
if count > 14:
dlg = wx.MessageDialog(None,
"There are more than the maximum of 14 bands checked. Please remove some checks.",
'List of Bands', wx.OK|wx.ICON_ERROR)
dlg.ShowModal()
dlg.Destroy()
else:
radio_dict = local_conf.GetRadioDict(self.radio_name)
radio_dict['bandLabels'] = band_list
local_conf.settings_changed = True
def OnChangeBandStart(self, ctrl):
radio_dict = local_conf.GetRadioDict(self.radio_name)
band_edge = radio_dict['BandEdge']
band = ctrl.quisk_band
start, end = band_edge.get(band, (0, 9999))
value = ctrl.GetValue()
if self.FormatOK(value, 'numb'):
start = int(float(value) * 1E6 + 0.1)
band_edge[band] = (start, end)
local_conf.settings_changed = True
def OnChangeBandEnd(self, ctrl):
radio_dict = local_conf.GetRadioDict(self.radio_name)
band_edge = radio_dict['BandEdge']
band = ctrl.quisk_band
start, end = band_edge.get(band, (0, 9999))
value = ctrl.GetValue()
if self.FormatOK(value, 'numb'):
end = int(float(value) * 1E6 + 0.1)
band_edge[band] = (start, end)
local_conf.settings_changed = True
def OnChangeDict(self, ctrl):
radio_dict = local_conf.GetRadioDict(self.radio_name)
dct = radio_dict[ctrl.quisk_data_name]
band = ctrl.quisk_band
value = ctrl.GetValue()
if self.FormatOK(value, 'inte'):
value = int(value)
dct[band] = value
local_conf.settings_changed = True
if ctrl.quisk_data_name == 'tx_level' and hasattr(application.Hardware, "SetTxLevel"):
application.Hardware.SetTxLevel()
def OnChangeDictBlank(self, ctrl):
radio_dict = local_conf.GetRadioDict(self.radio_name)
dct = radio_dict[ctrl.quisk_data_name]
band = ctrl.quisk_band
value = ctrl.GetValue()
value = value.strip()
if not value:
if band in dct:
del dct[band]
local_conf.settings_changed = True
elif self.FormatOK(value, 'inte'):
value = int(value)
dct[band] = value
local_conf.settings_changed = True
def ChangeIO(self, control):
radio_dict = local_conf.GetRadioDict(self.radio_name)
dct = radio_dict[control.quisk_data_name]
band = control.quisk_band
dct[band] = control.value
local_conf.settings_changed = True
if hasattr(application.Hardware, "ChangeBandFilters"):
application.Hardware.ChangeBandFilters()
def ChangeIOTxEnable(self, event):
name = "Hermes_BandDictEnTx"
radio_dict = local_conf.GetRadioDict(self.radio_name)
if event.IsChecked():
radio_dict[name] = "True"
setattr(conf, name, True)
else:
radio_dict[name] = "False"
setattr(conf, name, False)
local_conf.settings_changed = True
if hasattr(application.Hardware, "ChangeBandFilters"):
application.Hardware.ChangeBandFilters()
class RadioFilters(BaseWindow): # The Filters page in the second-level notebook for each radio
def __init__(self, parent, radio_name):
BaseWindow.__init__(self, parent)
self.radio_name = radio_name
self.controls_done = False
def MakeControls(self):
if self.controls_done:
return
self.controls_done = True
radio_dict = local_conf.GetRadioDict(self.radio_name)
self.num_cols = 8
self.NextRow()
bus_text = 'These high-pass and low-pass filters are only available for radios that support the Hermes protocol.\
Enter a frequency range and the control bits for that range. Leave the frequencies blank for unused ranges.\
Place whole bands within the frequency ranges because filters are only changed when changing bands.\
Check the bit for a "1", and uncheck the bit for a "0".\
Bits are shown in binary number order. For example, decimal 9 is 0b1001, so check bits 3 and 0.\
Changes are immediate (no need to restart).\
Refer to the documentation for your filter board to see which bits to set.\
The Rx bits are used for both receive and transmit, unless the "Tx Enable" box is checked.\
Then you can specify different filters for Rx and Tx.\
If multiple receivers are in use, the filters will accommodate the highest and lowest frequencies of all receivers.'
self.AddTextCHelp(1, 'Hermes Protocol: Alex High and Low Pass Filters', bus_text, span=self.num_cols)
self.NextRow()
self.AddTextC(1, 'Start MHz')
self.AddTextC(2, 'End MHz')
self.AddTextC(3, "Alex HPF Rx")
btn = self.AddCheckBox(4, "Alex HPF Tx", self.ChangeEnable, flag=wx.ALIGN_CENTER|wx.ALIGN_CENTER_VERTICAL)
btn.quisk_data_name = "AlexHPF_TxEn"
value = self.GetValue("AlexHPF_TxEn", radio_dict)
value = value == 'True'
btn.SetValue(value)
self.AddTextC(5, 'Start MHz')
self.AddTextC(6, 'End MHz')
self.AddTextC(7, "Alex LPF Rx")
btn = self.AddCheckBox(8, "Alex LPF Tx", self.ChangeEnable, flag=wx.ALIGN_CENTER|wx.ALIGN_CENTER_VERTICAL)
btn.quisk_data_name = "AlexLPF_TxEn"
value = self.GetValue("AlexLPF_TxEn", radio_dict)
value = value == 'True'
btn.SetValue(value)
self.NextRow()
hp_filters = self.GetValue("AlexHPF", radio_dict)
lp_filters = self.GetValue("AlexLPF", radio_dict)
row = self.row
for index in range(len(hp_filters)):
f1, f2, rx, tx = hp_filters[index] # f1 and f2 are strings; rx and tx are integers
cb = self.AddTextCtrl(1, f1, self.OnChangeFreq)
cb.quisk_data_name = "AlexHPF"
cb.index = (index, 0)
cb = self.AddTextCtrl(2, f2, self.OnChangeFreq)
cb.quisk_data_name = "AlexHPF"
cb.index = (index, 1)
bf = self.AddBitField(3, 8, 'AlexHPF', None, rx, self.ChangeBits)
bf.index = (index, 2)
bf = self.AddBitField(4, 8, 'AlexHPF', None, tx, self.ChangeBits)
bf.index = (index, 3)
self.NextRow()
index += 1
self.row = row
for index in range(len(lp_filters)):
f1, f2, rx, tx = lp_filters[index] # f1 and f2 are strings; rx and tx are integers
cb = self.AddTextCtrl(5, f1, self.OnChangeFreq)
cb.quisk_data_name = "AlexLPF"
cb.index = (index, 0)
cb = self.AddTextCtrl(6, f2, self.OnChangeFreq)
cb.quisk_data_name = "AlexLPF"
cb.index = (index, 1)
bf = self.AddBitField(7, 8, 'AlexLPF', None, rx, self.ChangeBits)
bf.index = (index, 2)
bf = self.AddBitField(8, 8, 'AlexLPF', None, tx, self.ChangeBits)
bf.index = (index, 3)
self.NextRow()
index += 1
self.FitInside()
self.SetScrollRate(1, 1)
def OnChangeFreq(self, event):
freq = event.GetString()
radio_dict = local_conf.GetRadioDict(self.radio_name)
ctrl = event.GetEventObject()
name = ctrl.quisk_data_name
filters = self.GetValue(name, radio_dict)
filters[ctrl.index[0]][ctrl.index[1]] = freq
setattr(conf, name, filters)
radio_dict[name] = filters
local_conf.settings_changed = True
if hasattr(application.Hardware, "ChangeAlexFilters"):
application.Hardware.ChangeAlexFilters(edit=True)
def ChangeBits(self, control):
radio_dict = local_conf.GetRadioDict(self.radio_name)
name = control.quisk_data_name
filters = self.GetValue(name, radio_dict)
filters[control.index[0]][control.index[1]] = control.value
setattr(conf, name, filters)
radio_dict[name] = filters
local_conf.settings_changed = True
if hasattr(application.Hardware, "ChangeAlexFilters"):
application.Hardware.ChangeAlexFilters(edit=True)
def ChangeEnable(self, event):
btn = event.GetEventObject()
name = btn.quisk_data_name
radio_dict = local_conf.GetRadioDict(self.radio_name)
if event.IsChecked():
radio_dict[name] = "True"
setattr(conf, name, True)
else:
radio_dict[name] = "False"
setattr(conf, name, False)
local_conf.settings_changed = True
if hasattr(application.Hardware, "ChangeAlexFilters"):
application.Hardware.ChangeAlexFilters(edit=True)