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#!/usr/bin/env python
#
# Copyright 2005,2006,2007,2008,2009 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.
#
from gnuradio import gr, gru, eng_notation, optfir
from gnuradio import audio
from gnuradio import usrp2
from gnuradio import blks2
from gnuradio.eng_option import eng_option
from optparse import OptionParser
import sys
import math
try:
from gnuradio.qtgui import qtgui
from PyQt4 import QtGui, QtCore
import sip
except ImportError:
print "Please install gr-qtgui."
sys.exit(1)
try:
from qt_wfm_interface import Ui_InterfaceWindow
except ImportError:
print "Error: could not find qt_wfm_interface.py:"
print "\tPlease run: \"pyuic4 qt_wfm_interface.ui -o qt_wfm_interface.py\""
sys.exit(1)
print "This program is not in a proper working state. Comment this out if you want to play."
sys.exit(1)
# ////////////////////////////////////////////////////////////////////
# Define the QT Interface and Control Dialog
# ////////////////////////////////////////////////////////////////////
class dialog_box(QtGui.QMainWindow):
def __init__(self, snk_usrp, snk_vol, fg, parent=None):
QtGui.QWidget.__init__(self, parent)
self.gui = Ui_InterfaceWindow()
self.gui.setupUi(self)
self.fg = fg
# Set USRP parameters
self.set_bw(self.fg.usrp_bw())
self.set_freq(self.fg.freq())
self.set_gain(self.fg.gain())
self.set_volume(self.fg.volume())
# Add the qtsnk widgets to the hlayout box
self.gui.sinkLayout.addWidget(snk_usrp)
self.gui.sinkLayout.addWidget(snk_vol)
# Connect up some signals
self.connect(self.gui.pauseButton, QtCore.SIGNAL("clicked()"),
self.pauseFg)
self.connect(self.gui.bandwidthEdit, QtCore.SIGNAL("editingFinished()"),
self.bwEditText)
self.connect(self.gui.freqEdit, QtCore.SIGNAL("editingFinished()"),
self.freqEditText)
self.connect(self.gui.gainEdit, QtCore.SIGNAL("editingFinished()"),
self.gainEditText)
self.connect(self.gui.volumeEdit, QtCore.SIGNAL("editingFinished()"),
self.volumeEditText)
def pauseFg(self):
if(self.gui.pauseButton.text() == "Pause"):
self.fg.stop()
self.fg.wait()
self.gui.pauseButton.setText("Unpause")
else:
self.fg.start()
self.gui.pauseButton.setText("Pause")
# Accessor functions for Gui to manipulate USRP
def set_bw(self, bw):
self.gui.bandwidthEdit.setText(QtCore.QString("%1").arg(bw))
def set_freq(self, freq):
self.gui.freqEdit.setText(QtCore.QString("%1").arg(freq))
def set_gain(self, gain):
self.gui.gainEdit.setText(QtCore.QString("%1").arg(gain))
def set_volume(self, vol):
self.gui.volumeEdit.setText(QtCore.QString("%1").arg(vol))
def bwEditText(self):
try:
bw = self.gui.bandwidthEdit.text().toDouble()[0]
self.fg.set_usrp_bw(bw)
except RuntimeError:
pass
def freqEditText(self):
try:
freq = self.gui.freqEdit.text().toDouble()[0]
self.fg.set_freq(freq)
except RuntimeError:
pass
def gainEditText(self):
try:
gain = self.gui.gainEdit.text().toDouble()[0]
self.fg.set_gain(gain)
except RuntimeError:
pass
def volumeEditText(self):
try:
vol = self.gui.volumeEdit.text().toDouble()[0]
self.fg.set_volume(vol)
except RuntimeError:
pass
# ////////////////////////////////////////////////////////////////////
# Define the GNU Radio Top Block
# ////////////////////////////////////////////////////////////////////
class wfm_rx_block (gr.top_block):
def __init__(self):
gr.top_block.__init__(self)
parser = OptionParser(option_class=eng_option)
parser.add_option("-e", "--interface", type="string", default="eth0",
help="select Ethernet interface, default is eth0")
parser.add_option("-m", "--mac-addr", type="string", default="",
help="select USRP by MAC address, default is auto-select")
#parser.add_option("-A", "--antenna", default=None,
# help="select Rx Antenna (only on RFX-series boards)")
parser.add_option("-f", "--freq", type="eng_float", default=100.1,
help="set frequency to FREQ", metavar="FREQ")
parser.add_option("-g", "--gain", type="eng_float", default=None,
help="set gain in dB (default is midpoint)")
parser.add_option("-V", "--volume", type="eng_float", default=None,
help="set volume (default is midpoint)")
parser.add_option("-O", "--audio-output", type="string", default="",
help="pcm device name. E.g., hw:0,0 or surround51 or /dev/dsp")
(options, args) = parser.parse_args()
if len(args) != 0:
parser.print_help()
sys.exit(1)
self._volume = options.volume
self._usrp_freq = options.freq
self._usrp_gain = options.gain
self._audio_rate = int(32e3)
# build graph
self.u = usrp2.source_32fc(options.interface, options.mac_addr)
# calculate decimation values to get USRP BW at 320 kHz
self.calculate_usrp_bw(320e3)
self.set_decim(self._usrp_decim)
#FIXME: need named constants and text descriptions available to (gr-)usrp2 even
#when usrp(1) module is not built. A usrp_common module, perhaps?
dbid = self.u.daughterboard_id()
print "Using RX d'board 0x%04X" % (dbid,)
#if not (dbid == 0x0001 or #usrp_dbid.BASIC_RX
# dbid == 0x0003 or #usrp_dbid.TV_RX
# dbid == 0x000c or #usrp_dbid.TV_RX_REV_2
# dbid == 0x0040): #usrp_dbid.TV_RX_REV_3
# print "This daughterboard does not cover the required frequency range"
# print "for this application. Please use a BasicRX or TVRX daughterboard."
# raw_input("Press ENTER to continue anyway, or Ctrl-C to exit.")
chan_filt_coeffs = optfir.low_pass (1, # gain
self._usrp_rate, # sampling rate
80e3, # passband cutoff
115e3, # stopband cutoff
0.1, # passband ripple
60) # stopband attenuation
#print len(chan_filt_coeffs)
chan_filt = gr.fir_filter_ccf (self._chanfilt_decim, chan_filt_coeffs)
self.guts = blks2.wfm_rcv (self._demod_rate, self._audio_decim)
self.volume_control = gr.multiply_const_ff(1)
# sound card as final sink
#audio_sink = audio.sink (int (audio_rate),
# options.audio_output,
# False) # ok_to_block
audio_sink = audio.sink (self._audio_rate,
options.audio_output)
if self._usrp_gain is None:
# if no gain was specified, use the mid-point in dB
g = self.u.gain_range()
print "Gain range: ", g
self._usrp_gain = float(g[0]+g[1])/2
if self._volume is None:
g = self.volume_range()
self._volume = float(g[0]+g[1])/2
if abs(self._usrp_freq) < 1e6:
self._usrp_freq *= 1e6
# set initial values
self.set_gain(self._usrp_gain)
self.set_volume(self._volume)
if not(self.set_freq(self._usrp_freq)):
print ("Failed to set initial frequency")
# Define a GUI sink to display the received signal
self.qapp = QtGui.QApplication(sys.argv)
fftsize = 2048
self.usrp_rx = qtgui.sink_c(fftsize, gr.firdes.WIN_BLACKMAN_hARRIS,
-self._usrp_rate/2.0, self._usrp_rate/2.0,
"Received Signal", True, True, False, True, False,
use_openGL=False)
self.usrp_rx2 = qtgui.sink_f(fftsize, gr.firdes.WIN_BLACKMAN_hARRIS,
-self._usrp_rate/2.0, self._usrp_rate/2.0,
"Received Signal", True, True, False, True, False)
# now wire it all together
self.connect (self.u, chan_filt, self.guts, self.volume_control, audio_sink)
self.connect (self.u, self.usrp_rx)
self.connect (self.volume_control, self.usrp_rx2)
usrp_rx_widget = sip.wrapinstance(self.usrp_rx.pyqwidget(), QtGui.QWidget)
usrp_rx2_widget = sip.wrapinstance(self.usrp_rx2.pyqwidget(), QtGui.QWidget)
self.main_box = dialog_box(usrp_rx_widget, usrp_rx2_widget, self)
self.main_box.show()
def calculate_usrp_bw(self, bw):
"""
Calculate the different decimation rates that make the USRP BW equal to the
input bandwidth parameter 'bw' and the audio bandwidth equal to the system-
wide bandwidth 'self._audio_rate'
"""
adc_rate = self.u.adc_rate()
d_usrp = int(adc_rate/bw)
bw_real = adc_rate / float(d_usrp)
d_chan = 1
demod_rate = bw_real / d_chan
d_audio = int(bw_real / self._audio_rate)
audio_rate = demod_rate / d_audio
self._usrp_decim = d_usrp
self._chanfilt_decim = d_chan
self._audio_decim = d_audio
self._demod_rate = demod_rate
self._usrp_rate = bw_real
print "USRP Decimation: ", self._usrp_decim
print "USRP Bandwidth: ", bw_real
print "Audio Decimation: ", self._audio_decim
print "Audio Bandwidth: ", audio_rate
def set_volume (self, vol):
g = self.volume_range()
self._volume = max(g[0], min(g[1], vol))
self.volume_control.set_k(10**(self._volume/10))
def set_freq(self, target_freq):
"""
Set the center frequency we're interested in.
@param target_freq: frequency in Hz
@rypte: bool
Tuning is a two step process. First we ask the front-end to
tune as close to the desired frequency as it can. Then we use
the result of that operation and our target_frequency to
determine the value for the digital down converter.
"""
r = self.u.set_center_freq(target_freq)
if r:
self._usrp_freq = target_freq
return True
return False
def set_usrp_bw(self, bw):
self.calculate_usrp_bw(bw)
def set_gain(self, gain):
self._usrp_gain = gain
self.u.set_gain(gain)
def set_decim(self, decim):
self._usrp_decim = int(decim)
self.u.set_decim(self._usrp_decim)
def volume(self):
return self._volume
def freq(self):
return self._usrp_freq
def usrp_bw(self):
return self._usrp_rate
def gain(self):
return self._usrp_gain
def decim(self):
return self._usrp_decim
def volume_range(self):
return (-20.0, 0.0, 0.5)
if __name__ == '__main__':
tb = wfm_rx_block()
tb.start()
tb.qapp.exec_()
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