# # 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 scope_window import common from gnuradio import gr from pubsub import pubsub from constants import * class ac_couple_block(gr.hier_block2): """ AC couple the incoming stream by subtracting out the low pass signal. Mute the low pass filter to disable ac coupling. """ def __init__(self, controller, ac_couple_key, sample_rate_key): gr.hier_block2.__init__( self, "ac_couple", gr.io_signature(1, 1, gr.sizeof_float), gr.io_signature(1, 1, gr.sizeof_float), ) #blocks lpf = gr.single_pole_iir_filter_ff(0.0) sub = gr.sub_ff() mute = gr.mute_ff() #connect self.connect(self, sub, self) self.connect(self, lpf, mute, (sub, 1)) #subscribe controller.subscribe(ac_couple_key, lambda x: mute.set_mute(not x)) controller.subscribe(sample_rate_key, lambda x: lpf.set_taps(0.05)) #initialize controller[ac_couple_key] = controller[ac_couple_key] controller[sample_rate_key] = controller[sample_rate_key] ################################################## # Scope sink block (wrapper for old wxgui) ################################################## class _scope_sink_base(gr.hier_block2, common.wxgui_hb): """ A scope block with a gui window. """ def __init__( self, parent, title='', sample_rate=1, size=scope_window.DEFAULT_WIN_SIZE, v_scale=0, t_scale=0, v_offset=0, xy_mode=False, ac_couple=False, num_inputs=1, trig_mode=scope_window.DEFAULT_TRIG_MODE, frame_rate=scope_window.DEFAULT_FRAME_RATE, **kwargs #do not end with a comma ): if not t_scale: t_scale = 10.0/sample_rate #init gr.hier_block2.__init__( self, "scope_sink", gr.io_signature(num_inputs, num_inputs, self._item_size), gr.io_signature(0, 0, 0), ) #scope msgq = gr.msg_queue(2) scope = gr.oscope_sink_f(sample_rate, msgq) #controller self.controller = pubsub() self.controller.subscribe(SAMPLE_RATE_KEY, scope.set_sample_rate) self.controller.publish(SAMPLE_RATE_KEY, scope.sample_rate) self.controller.subscribe(DECIMATION_KEY, scope.set_decimation_count) self.controller.publish(DECIMATION_KEY, scope.get_decimation_count) self.controller.subscribe(TRIGGER_LEVEL_KEY, scope.set_trigger_level) self.controller.publish(TRIGGER_LEVEL_KEY, scope.get_trigger_level) self.controller.subscribe(TRIGGER_MODE_KEY, scope.set_trigger_mode) self.controller.publish(TRIGGER_MODE_KEY, scope.get_trigger_mode) self.controller.subscribe(TRIGGER_SLOPE_KEY, scope.set_trigger_slope) self.controller.publish(TRIGGER_SLOPE_KEY, scope.get_trigger_slope) self.controller.subscribe(TRIGGER_CHANNEL_KEY, scope.set_trigger_channel) self.controller.publish(TRIGGER_CHANNEL_KEY, scope.get_trigger_channel) actual_num_inputs = self._real and num_inputs or num_inputs*2 #init ac couple for i in range(actual_num_inputs): self.controller[common.index_key(AC_COUPLE_KEY, i)] = ac_couple #start input watcher common.input_watcher(msgq, self.controller, MSG_KEY) #create window self.win = scope_window.scope_window( parent=parent, controller=self.controller, size=size, title=title, frame_rate=frame_rate, num_inputs=actual_num_inputs, sample_rate_key=SAMPLE_RATE_KEY, t_scale=t_scale, v_scale=v_scale, v_offset=v_offset, xy_mode=xy_mode, trig_mode=trig_mode, ac_couple_key=AC_COUPLE_KEY, trigger_level_key=TRIGGER_LEVEL_KEY, trigger_mode_key=TRIGGER_MODE_KEY, trigger_slope_key=TRIGGER_SLOPE_KEY, trigger_channel_key=TRIGGER_CHANNEL_KEY, decimation_key=DECIMATION_KEY, msg_key=MSG_KEY, ) common.register_access_methods(self, self.win) #connect if self._real: for i in range(num_inputs): self.wxgui_connect( (self, i), ac_couple_block(self.controller, common.index_key(AC_COUPLE_KEY, i), SAMPLE_RATE_KEY), (scope, i), ) else: for i in range(num_inputs): c2f = gr.complex_to_float() self.wxgui_connect((self, i), c2f) for j in range(2): self.connect( (c2f, j), ac_couple_block(self.controller, common.index_key(AC_COUPLE_KEY, 2*i+j), SAMPLE_RATE_KEY), (scope, 2*i+j), ) class scope_sink_f(_scope_sink_base): _item_size = gr.sizeof_float _real = True class scope_sink_c(_scope_sink_base): _item_size = gr.sizeof_gr_complex _real = False # ---------------------------------------------------------------- # Stand-alone test application # ---------------------------------------------------------------- import wx from gnuradio.wxgui import stdgui2 class test_top_block (stdgui2.std_top_block): def __init__(self, frame, panel, vbox, argv): stdgui2.std_top_block.__init__ (self, frame, panel, vbox, argv) if len(argv) > 1: frame_decim = int(argv[1]) else: frame_decim = 1 if len(argv) > 2: v_scale = float(argv[2]) # start up at this v_scale value else: v_scale = None # start up in autorange mode, default if len(argv) > 3: t_scale = float(argv[3]) # start up at this t_scale value else: t_scale = .00003 # old behavior print "frame decim %s v_scale %s t_scale %s" % (frame_decim,v_scale,t_scale) input_rate = 1e6 # Generate a complex sinusoid self.src0 = gr.sig_source_c (input_rate, gr.GR_SIN_WAVE, 25.1e3, 1e3) # We add this throttle block so that this demo doesn't suck down # all the CPU available. You normally wouldn't use it... self.thr = gr.throttle(gr.sizeof_gr_complex, input_rate) scope = scope_sink_c (panel,"Secret Data",sample_rate=input_rate, v_scale=v_scale, t_scale=t_scale) vbox.Add (scope.win, 1, wx.EXPAND) # Ultimately this will be # self.connect("src0 throttle scope") self.connect(self.src0, self.thr, scope) def main (): app = stdgui2.stdapp (test_top_block, "O'Scope Test App") app.MainLoop () if __name__ == '__main__': main ()