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diff --git a/gr-wxgui/src/python/fftsink2.py b/gr-wxgui/src/python/fftsink2.py
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+#!/usr/bin/env python
+#
+# Copyright 2003,2004,2005,2006 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 2, 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, window
+from gnuradio.wxgui import stdgui2
+import wx
+import gnuradio.wxgui.plot as plot
+import Numeric
+import threading
+import math
+
+default_fftsink_size = (640,240)
+default_fft_rate = gr.prefs().get_long('wxgui', 'fft_rate', 15)
+
+class fft_sink_base(object):
+ def __init__(self, input_is_real=False, baseband_freq=0, y_per_div=10, ref_level=50,
+ sample_rate=1, fft_size=512,
+ fft_rate=default_fft_rate,
+ average=False, avg_alpha=None, title='', peak_hold=False):
+
+ # initialize common attributes
+ self.baseband_freq = baseband_freq
+ self.y_divs = 8
+ self.y_per_div=y_per_div
+ self.ref_level = ref_level
+ self.sample_rate = sample_rate
+ self.fft_size = fft_size
+ self.fft_rate = fft_rate
+ self.average = average
+ if avg_alpha is None:
+ self.avg_alpha = 2.0 / fft_rate
+ else:
+ self.avg_alpha = avg_alpha
+ self.title = title
+ self.peak_hold = peak_hold
+ self.input_is_real = input_is_real
+ self.msgq = gr.msg_queue(2) # queue that holds a maximum of 2 messages
+
+ def set_y_per_div(self, y_per_div):
+ self.y_per_div = y_per_div
+
+ def set_ref_level(self, ref_level):
+ self.ref_level = ref_level
+
+ def set_average(self, average):
+ self.average = average
+ if average:
+ self.avg.set_taps(self.avg_alpha)
+ self.set_peak_hold(False)
+ else:
+ self.avg.set_taps(1.0)
+
+ def set_peak_hold(self, enable):
+ self.peak_hold = enable
+ if enable:
+ self.set_average(False)
+ self.win.set_peak_hold(enable)
+
+ def set_avg_alpha(self, avg_alpha):
+ self.avg_alpha = avg_alpha
+
+ def set_baseband_freq(self, baseband_freq):
+ self.baseband_freq = baseband_freq
+
+ def set_sample_rate(self, sample_rate):
+ self.sample_rate = sample_rate
+ self._set_n()
+
+ def _set_n(self):
+ self.one_in_n.set_n(max(1, int(self.sample_rate/self.fft_size/self.fft_rate)))
+
+
+class fft_sink_f(gr.hier_block2, fft_sink_base):
+ def __init__(self, parent, baseband_freq=0,
+ y_per_div=10, ref_level=50, sample_rate=1, fft_size=512,
+ fft_rate=default_fft_rate, average=False, avg_alpha=None,
+ title='', size=default_fftsink_size, peak_hold=False):
+
+ gr.hier_block2.__init__(self, "fft_sink_f",
+ gr.io_signature(1, 1, gr.sizeof_float),
+ gr.io_signature(0,0,0))
+
+ fft_sink_base.__init__(self, input_is_real=True, baseband_freq=baseband_freq,
+ y_per_div=y_per_div, ref_level=ref_level,
+ sample_rate=sample_rate, fft_size=fft_size,
+ fft_rate=fft_rate,
+ average=average, avg_alpha=avg_alpha, title=title,
+ peak_hold=peak_hold)
+
+ self.define_component("s2p", gr.stream_to_vector(gr.sizeof_float, self.fft_size))
+ self.one_in_n = gr.keep_one_in_n(gr.sizeof_float * self.fft_size,
+ max(1, int(self.sample_rate/self.fft_size/self.fft_rate)))
+ self.define_component("one_in_n", self.one_in_n)
+
+ mywindow = window.blackmanharris(self.fft_size)
+ self.define_component("fft", gr.fft_vfc(self.fft_size, True, mywindow))
+ power = 0
+ for tap in mywindow:
+ power += tap*tap
+
+ self.define_component("c2mag", gr.complex_to_mag(self.fft_size))
+ self.avg = gr.single_pole_iir_filter_ff(1.0, self.fft_size)
+ self.define_component("avg", self.avg)
+
+ # FIXME We need to add 3dB to all bins but the DC bin
+ self.define_component("log", gr.nlog10_ff(20, self.fft_size,
+ -20*math.log10(self.fft_size)-10*math.log10(power/self.fft_size)))
+ self.define_component("sink", gr.message_sink(gr.sizeof_float * self.fft_size, self.msgq, True))
+
+
+ # Ultimately this will be
+ # self.connect("self s2p one_in_n fft c2mag avg log sink")
+ self.connect("self", 0, "s2p", 0)
+ self.connect("s2p", 0, "one_in_n", 0)
+ self.connect("one_in_n", 0, "fft", 0)
+ self.connect("fft", 0, "c2mag", 0)
+ self.connect("c2mag", 0, "avg", 0)
+ self.connect("avg", 0, "log", 0)
+ self.connect("log", 0, "sink", 0)
+
+ self.win = fft_window(self, parent, size=size)
+ self.set_average(self.average)
+
+
+class fft_sink_c(gr.hier_block2, fft_sink_base):
+ def __init__(self, parent, baseband_freq=0,
+ y_per_div=10, ref_level=50, sample_rate=1, fft_size=512,
+ fft_rate=default_fft_rate, average=False, avg_alpha=None,
+ title='', size=default_fftsink_size, peak_hold=False):
+
+ gr.hier_block2.__init__(self, "fft_sink_c",
+ gr.io_signature(1, 1, gr.sizeof_gr_complex),
+ gr.io_signature(0,0,0))
+
+ fft_sink_base.__init__(self, input_is_real=False, baseband_freq=baseband_freq,
+ y_per_div=y_per_div, ref_level=ref_level,
+ sample_rate=sample_rate, fft_size=fft_size,
+ fft_rate=fft_rate,
+ average=average, avg_alpha=avg_alpha, title=title,
+ peak_hold=peak_hold)
+
+ self.define_component("s2p", gr.stream_to_vector(gr.sizeof_gr_complex, self.fft_size))
+ self.one_in_n = gr.keep_one_in_n(gr.sizeof_gr_complex * self.fft_size,
+ max(1, int(self.sample_rate/self.fft_size/self.fft_rate)))
+ self.define_component("one_in_n", self.one_in_n)
+
+ mywindow = window.blackmanharris(self.fft_size)
+ self.define_component("fft", gr.fft_vcc(self.fft_size, True, mywindow))
+ power = 0
+ for tap in mywindow:
+ power += tap*tap
+
+ self.define_component("c2mag", gr.complex_to_mag(self.fft_size))
+ self.avg = gr.single_pole_iir_filter_ff(1.0, self.fft_size)
+ self.define_component("avg", self.avg)
+
+ # FIXME We need to add 3dB to all bins but the DC bin
+ self.define_component("log", gr.nlog10_ff(20, self.fft_size,
+ -20*math.log10(self.fft_size)-10*math.log10(power/self.fft_size)))
+ self.define_component("sink", gr.message_sink(gr.sizeof_float * self.fft_size, self.msgq, True))
+
+ # Ultimately this will be
+ # self.connect("self s2p one_in_n fft c2mag avg log sink")
+ self.connect("self", 0, "s2p", 0)
+ self.connect("s2p", 0, "one_in_n", 0)
+ self.connect("one_in_n", 0, "fft", 0)
+ self.connect("fft", 0, "c2mag", 0)
+ self.connect("c2mag", 0, "avg", 0)
+ self.connect("avg", 0, "log", 0)
+ self.connect("log", 0, "sink", 0)
+
+ self.win = fft_window(self, parent, size=size)
+ self.set_average(self.average)
+
+
+# ------------------------------------------------------------------------
+
+myDATA_EVENT = wx.NewEventType()
+EVT_DATA_EVENT = wx.PyEventBinder (myDATA_EVENT, 0)
+
+
+class DataEvent(wx.PyEvent):
+ def __init__(self, data):
+ wx.PyEvent.__init__(self)
+ self.SetEventType (myDATA_EVENT)
+ self.data = data
+
+ def Clone (self):
+ self.__class__ (self.GetId())
+
+
+class input_watcher (threading.Thread):
+ def __init__ (self, msgq, fft_size, event_receiver, **kwds):
+ threading.Thread.__init__ (self, **kwds)
+ self.setDaemon (1)
+ self.msgq = msgq
+ self.fft_size = fft_size
+ self.event_receiver = event_receiver
+ self.keep_running = True
+ self.start ()
+
+ def run (self):
+ while (self.keep_running):
+ msg = self.msgq.delete_head() # blocking read of message queue
+ itemsize = int(msg.arg1())
+ nitems = int(msg.arg2())
+
+ s = msg.to_string() # get the body of the msg as a string
+
+ # There may be more than one FFT frame in the message.
+ # If so, we take only the last one
+ if nitems > 1:
+ start = itemsize * (nitems - 1)
+ s = s[start:start+itemsize]
+
+ complex_data = Numeric.fromstring (s, Numeric.Float32)
+ de = DataEvent (complex_data)
+ wx.PostEvent (self.event_receiver, de)
+ del de
+
+
+class fft_window (plot.PlotCanvas):
+ def __init__ (self, fftsink, parent, id = -1,
+ pos = wx.DefaultPosition, size = wx.DefaultSize,
+ style = wx.DEFAULT_FRAME_STYLE, name = ""):
+ plot.PlotCanvas.__init__ (self, parent, id, pos, size, style, name)
+
+ self.y_range = None
+ self.fftsink = fftsink
+ self.peak_hold = False
+ self.peak_vals = None
+
+ self.SetEnableGrid (True)
+ # self.SetEnableZoom (True)
+ # self.SetBackgroundColour ('black')
+
+ self.build_popup_menu()
+
+ EVT_DATA_EVENT (self, self.set_data)
+ wx.EVT_CLOSE (self, self.on_close_window)
+ self.Bind(wx.EVT_RIGHT_UP, self.on_right_click)
+
+ self.input_watcher = input_watcher(fftsink.msgq, fftsink.fft_size, self)
+
+
+ def on_close_window (self, event):
+ print "fft_window:on_close_window"
+ self.keep_running = False
+
+
+ def set_data (self, evt):
+ dB = evt.data
+ L = len (dB)
+
+ if self.peak_hold:
+ if self.peak_vals is None:
+ self.peak_vals = dB
+ else:
+ self.peak_vals = Numeric.maximum(dB, self.peak_vals)
+ dB = self.peak_vals
+
+ x = max(abs(self.fftsink.sample_rate), abs(self.fftsink.baseband_freq))
+ if x >= 1e9:
+ sf = 1e-9
+ units = "GHz"
+ elif x >= 1e6:
+ sf = 1e-6
+ units = "MHz"
+ else:
+ sf = 1e-3
+ units = "kHz"
+
+ if self.fftsink.input_is_real: # only plot 1/2 the points
+ x_vals = ((Numeric.arrayrange (L/2)
+ * (self.fftsink.sample_rate * sf / L))
+ + self.fftsink.baseband_freq * sf)
+ points = Numeric.zeros((len(x_vals), 2), Numeric.Float64)
+ points[:,0] = x_vals
+ points[:,1] = dB[0:L/2]
+ else:
+ # the "negative freqs" are in the second half of the array
+ x_vals = ((Numeric.arrayrange (-L/2, L/2)
+ * (self.fftsink.sample_rate * sf / L))
+ + self.fftsink.baseband_freq * sf)
+ points = Numeric.zeros((len(x_vals), 2), Numeric.Float64)
+ points[:,0] = x_vals
+ points[:,1] = Numeric.concatenate ((dB[L/2:], dB[0:L/2]))
+
+
+ lines = plot.PolyLine (points, colour='BLUE')
+
+ graphics = plot.PlotGraphics ([lines],
+ title=self.fftsink.title,
+ xLabel = units, yLabel = "dB")
+
+ self.Draw (graphics, xAxis=None, yAxis=self.y_range)
+ self.update_y_range ()
+
+ def set_peak_hold(self, enable):
+ self.peak_hold = enable
+ self.peak_vals = None
+
+ def update_y_range (self):
+ ymax = self.fftsink.ref_level
+ ymin = self.fftsink.ref_level - self.fftsink.y_per_div * self.fftsink.y_divs
+ self.y_range = self._axisInterval ('min', ymin, ymax)
+
+ def on_average(self, evt):
+ # print "on_average"
+ self.fftsink.set_average(evt.IsChecked())
+
+ def on_peak_hold(self, evt):
+ # print "on_peak_hold"
+ self.fftsink.set_peak_hold(evt.IsChecked())
+
+ def on_incr_ref_level(self, evt):
+ # print "on_incr_ref_level"
+ self.fftsink.set_ref_level(self.fftsink.ref_level
+ + self.fftsink.y_per_div)
+
+ def on_decr_ref_level(self, evt):
+ # print "on_decr_ref_level"
+ self.fftsink.set_ref_level(self.fftsink.ref_level
+ - self.fftsink.y_per_div)
+
+ def on_incr_y_per_div(self, evt):
+ # print "on_incr_y_per_div"
+ self.fftsink.set_y_per_div(next_up(self.fftsink.y_per_div, (1,2,5,10,20)))
+
+ def on_decr_y_per_div(self, evt):
+ # print "on_decr_y_per_div"
+ self.fftsink.set_y_per_div(next_down(self.fftsink.y_per_div, (1,2,5,10,20)))
+
+ def on_y_per_div(self, evt):
+ # print "on_y_per_div"
+ Id = evt.GetId()
+ if Id == self.id_y_per_div_1:
+ self.fftsink.set_y_per_div(1)
+ elif Id == self.id_y_per_div_2:
+ self.fftsink.set_y_per_div(2)
+ elif Id == self.id_y_per_div_5:
+ self.fftsink.set_y_per_div(5)
+ elif Id == self.id_y_per_div_10:
+ self.fftsink.set_y_per_div(10)
+ elif Id == self.id_y_per_div_20:
+ self.fftsink.set_y_per_div(20)
+
+
+ def on_right_click(self, event):
+ menu = self.popup_menu
+ for id, pred in self.checkmarks.items():
+ item = menu.FindItemById(id)
+ item.Check(pred())
+ self.PopupMenu(menu, event.GetPosition())
+
+
+ def build_popup_menu(self):
+ self.id_incr_ref_level = wx.NewId()
+ self.id_decr_ref_level = wx.NewId()
+ self.id_incr_y_per_div = wx.NewId()
+ self.id_decr_y_per_div = wx.NewId()
+ self.id_y_per_div_1 = wx.NewId()
+ self.id_y_per_div_2 = wx.NewId()
+ self.id_y_per_div_5 = wx.NewId()
+ self.id_y_per_div_10 = wx.NewId()
+ self.id_y_per_div_20 = wx.NewId()
+ self.id_average = wx.NewId()
+ self.id_peak_hold = wx.NewId()
+
+ self.Bind(wx.EVT_MENU, self.on_average, id=self.id_average)
+ self.Bind(wx.EVT_MENU, self.on_peak_hold, id=self.id_peak_hold)
+ self.Bind(wx.EVT_MENU, self.on_incr_ref_level, id=self.id_incr_ref_level)
+ self.Bind(wx.EVT_MENU, self.on_decr_ref_level, id=self.id_decr_ref_level)
+ self.Bind(wx.EVT_MENU, self.on_incr_y_per_div, id=self.id_incr_y_per_div)
+ self.Bind(wx.EVT_MENU, self.on_decr_y_per_div, id=self.id_decr_y_per_div)
+ self.Bind(wx.EVT_MENU, self.on_y_per_div, id=self.id_y_per_div_1)
+ self.Bind(wx.EVT_MENU, self.on_y_per_div, id=self.id_y_per_div_2)
+ self.Bind(wx.EVT_MENU, self.on_y_per_div, id=self.id_y_per_div_5)
+ self.Bind(wx.EVT_MENU, self.on_y_per_div, id=self.id_y_per_div_10)
+ self.Bind(wx.EVT_MENU, self.on_y_per_div, id=self.id_y_per_div_20)
+
+
+ # make a menu
+ menu = wx.Menu()
+ self.popup_menu = menu
+ menu.AppendCheckItem(self.id_average, "Average")
+ menu.AppendCheckItem(self.id_peak_hold, "Peak Hold")
+ menu.Append(self.id_incr_ref_level, "Incr Ref Level")
+ menu.Append(self.id_decr_ref_level, "Decr Ref Level")
+ # menu.Append(self.id_incr_y_per_div, "Incr dB/div")
+ # menu.Append(self.id_decr_y_per_div, "Decr dB/div")
+ menu.AppendSeparator()
+ # we'd use RadioItems for these, but they're not supported on Mac
+ menu.AppendCheckItem(self.id_y_per_div_1, "1 dB/div")
+ menu.AppendCheckItem(self.id_y_per_div_2, "2 dB/div")
+ menu.AppendCheckItem(self.id_y_per_div_5, "5 dB/div")
+ menu.AppendCheckItem(self.id_y_per_div_10, "10 dB/div")
+ menu.AppendCheckItem(self.id_y_per_div_20, "20 dB/div")
+
+ self.checkmarks = {
+ self.id_average : lambda : self.fftsink.average,
+ self.id_peak_hold : lambda : self.fftsink.peak_hold,
+ self.id_y_per_div_1 : lambda : self.fftsink.y_per_div == 1,
+ self.id_y_per_div_2 : lambda : self.fftsink.y_per_div == 2,
+ self.id_y_per_div_5 : lambda : self.fftsink.y_per_div == 5,
+ self.id_y_per_div_10 : lambda : self.fftsink.y_per_div == 10,
+ self.id_y_per_div_20 : lambda : self.fftsink.y_per_div == 20,
+ }
+
+
+def next_up(v, seq):
+ """
+ Return the first item in seq that is > v.
+ """
+ for s in seq:
+ if s > v:
+ return s
+ return v
+
+def next_down(v, seq):
+ """
+ Return the last item in seq that is < v.
+ """
+ rseq = list(seq[:])
+ rseq.reverse()
+
+ for s in rseq:
+ if s < v:
+ return s
+ return v
+
+
+# ----------------------------------------------------------------
+# Standalone test app
+# ----------------------------------------------------------------
+
+class test_app_block (stdgui2.std_top_block):
+ def __init__(self, frame, panel, vbox, argv):
+ stdgui2.std_top_block.__init__ (self, frame, panel, vbox, argv)
+
+ fft_size = 256
+
+ # build our flow graph
+ input_rate = 20.48e3
+
+ # Generate a complex sinusoid
+ #src1 = gr.sig_source_c (input_rate, gr.GR_SIN_WAVE, 2e3, 1)
+ src1 = gr.sig_source_c (input_rate, gr.GR_CONST_WAVE, 5.75e3, 1)
+
+ # We add these throttle blocks so that this demo doesn't
+ # suck down all the CPU available. Normally you wouldn't use these.
+ thr1 = gr.throttle(gr.sizeof_gr_complex, input_rate)
+
+ sink1 = fft_sink_c (panel, title="Complex Data", fft_size=fft_size,
+ sample_rate=input_rate, baseband_freq=100e3,
+ ref_level=0, y_per_div=20)
+ vbox.Add (sink1.win, 1, wx.EXPAND)
+
+ self.define_component("src1", src1)
+ self.define_component("thr1", thr1)
+ self.define_component("sink1", sink1)
+
+ self.connect ("src1", 0, "thr1", 0)
+ self.connect ("thr1", 0, "sink1", 0)
+
+ #src2 = gr.sig_source_f (input_rate, gr.GR_SIN_WAVE, 2e3, 1)
+ src2 = gr.sig_source_f (input_rate, gr.GR_CONST_WAVE, 5.75e3, 1)
+ thr2 = gr.throttle(gr.sizeof_float, input_rate)
+ sink2 = fft_sink_f (panel, title="Real Data", fft_size=fft_size*2,
+ sample_rate=input_rate, baseband_freq=100e3,
+ ref_level=0, y_per_div=20)
+ vbox.Add (sink2.win, 1, wx.EXPAND)
+
+ self.define_component("src2", src2)
+ self.define_component("thr2", thr2)
+ self.define_component("sink2", sink2)
+
+ self.connect ("src2", 0, "thr2", 0)
+ self.connect ("thr2", 0, "sink2", 0)
+
+def main ():
+ app = stdgui2.stdapp (test_app_block,
+ "FFT Sink Test App")
+ app.MainLoop ()
+
+if __name__ == '__main__':
+ main ()