# # Copyright 2008 Free Software Foundation, Inc. # # This file is part of GNU Radio # # GNU Radio is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3, or (at your option) # any later version. # # GNU Radio is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with GNU Radio; see the file COPYING. If not, write to # the Free Software Foundation, Inc., 51 Franklin Street, # Boston, MA 02110-1301, USA. # ################################################## # Imports ################################################## import common import numpy import wx import pubsub from constants import * from gnuradio import gr #for gr.prefs import forms ################################################## # Constants ################################################## NEG_INF = float('-inf') SLIDER_STEPS = 100 AVG_ALPHA_MIN_EXP, AVG_ALPHA_MAX_EXP = -3, 0 DEFAULT_NUMBER_RATE = gr.prefs().get_long('wxgui', 'number_rate', 5) DEFAULT_WIN_SIZE = (300, 300) DEFAULT_GAUGE_RANGE = 1000 VALUE_REPR_KEY = 'value_repr' VALUE_REAL_KEY = 'value_real' VALUE_IMAG_KEY = 'value_imag' ################################################## # Number window control panel ################################################## class control_panel(wx.Panel): """ A control panel with wx widgits to control the averaging. """ def __init__(self, parent): """ Create a new control panel. @param parent the wx parent window """ self.parent = parent wx.Panel.__init__(self, parent) control_box = wx.BoxSizer(wx.VERTICAL) #checkboxes for average and peak hold control_box.AddStretchSpacer() options_box = forms.static_box_sizer( parent=self, sizer=control_box, label='Options', bold=True, orient=wx.VERTICAL, ) forms.check_box( sizer=options_box, parent=self, label='Peak Hold', ps=parent, key=PEAK_HOLD_KEY, ) forms.check_box( sizer=options_box, parent=self, label='Average', ps=parent, key=AVERAGE_KEY, ) #static text and slider for averaging avg_alpha_text = forms.static_text( sizer=options_box, parent=self, label='Avg Alpha', converter=forms.float_converter(lambda x: '%.4f'%x), ps=parent, key=AVG_ALPHA_KEY, width=50, ) avg_alpha_slider = forms.log_slider( sizer=options_box, parent=self, min_exp=AVG_ALPHA_MIN_EXP, max_exp=AVG_ALPHA_MAX_EXP, num_steps=SLIDER_STEPS, ps=parent, key=AVG_ALPHA_KEY, ) for widget in (avg_alpha_text, avg_alpha_slider): parent.subscribe(AVERAGE_KEY, widget.Enable) widget.Enable(parent[AVERAGE_KEY]) #run/stop control_box.AddStretchSpacer() forms.toggle_button( sizer=control_box, parent=self, true_label='Stop', false_label='Run', ps=parent, key=RUNNING_KEY, ) #set sizer self.SetSizerAndFit(control_box) ################################################## # Numbersink window with label and gauges ################################################## class number_window(wx.Panel, pubsub.pubsub): def __init__( self, parent, controller, size, title, units, show_gauge, real, minval, maxval, decimal_places, average_key, avg_alpha_key, peak_hold, msg_key, sample_rate_key, ): pubsub.pubsub.__init__(self) wx.Panel.__init__(self, parent, style=wx.SUNKEN_BORDER) #setup self.peak_val_real = NEG_INF self.peak_val_imag = NEG_INF self.real = real self.units = units self.decimal_places = decimal_places #proxy the keys self.proxy(MSG_KEY, controller, msg_key) self.proxy(AVERAGE_KEY, controller, average_key) self.proxy(AVG_ALPHA_KEY, controller, avg_alpha_key) self.proxy(SAMPLE_RATE_KEY, controller, sample_rate_key) #initialize values self[PEAK_HOLD_KEY] = peak_hold self[RUNNING_KEY] = True self[VALUE_REAL_KEY] = minval self[VALUE_IMAG_KEY] = minval #setup the box with display and controls self.control_panel = control_panel(self) main_box = wx.BoxSizer(wx.HORIZONTAL) sizer = forms.static_box_sizer( parent=self, sizer=main_box, label=title, bold=True, orient=wx.VERTICAL, proportion=1, ) main_box.Add(self.control_panel, 0, wx.EXPAND) sizer.AddStretchSpacer() forms.static_text( parent=self, sizer=sizer, ps=self, key=VALUE_REPR_KEY, width=size[0], converter=forms.str_converter(), ) sizer.AddStretchSpacer() self.gauge_real = forms.gauge( parent=self, sizer=sizer, style=wx.GA_HORIZONTAL, ps=self, key=VALUE_REAL_KEY, length=size[0], minimum=minval, maximum=maxval, num_steps=DEFAULT_GAUGE_RANGE, ) self.gauge_imag = forms.gauge( parent=self, sizer=sizer, style=wx.GA_HORIZONTAL, ps=self, key=VALUE_IMAG_KEY, length=size[0], minimum=minval, maximum=maxval, num_steps=DEFAULT_GAUGE_RANGE, ) #hide/show gauges self.show_gauges(show_gauge) self.SetSizerAndFit(main_box) #register events self.subscribe(MSG_KEY, self.handle_msg) def show_gauges(self, show_gauge): """ Show or hide the gauges. If this is real, never show the imaginary gauge. @param show_gauge true to show """ self.gauge_real.ShowItems(show_gauge) self.gauge_imag.ShowItems(show_gauge and not self.real) def handle_msg(self, msg): """ Handle a message from the message queue. Convert the string based message into a float or complex. If more than one number was read, only take the last number. Perform peak hold operations, set the gauges and display. @param event event.data is the number sample as a character array """ if not self[RUNNING_KEY]: return format_string = "%%.%df"%self.decimal_places if self.real: sample = numpy.fromstring(msg, numpy.float32)[-1] if self[PEAK_HOLD_KEY]: sample = self.peak_val_real = max(self.peak_val_real, sample) label_text = "%s %s"%(format_string%sample, self.units) self[VALUE_REAL_KEY] = sample else: sample = numpy.fromstring(msg, numpy.complex64)[-1] if self[PEAK_HOLD_KEY]: self.peak_val_real = max(self.peak_val_real, sample.real) self.peak_val_imag = max(self.peak_val_imag, sample.imag) sample = self.peak_val_real + self.peak_val_imag*1j label_text = "%s + %sj %s"%(format_string%sample.real, format_string%sample.imag, self.units) self[VALUE_REAL_KEY] = sample.real self[VALUE_IMAG_KEY] = sample.imag #set label text self[VALUE_REPR_KEY] = label_text #clear peak hold if not self[PEAK_HOLD_KEY]: self.peak_val_real = NEG_INF self.peak_val_imag = NEG_INF