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#
# Copyright 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.
#
##################################################
# Imports
##################################################
import plotter
import common
import wx
import numpy
import math
import pubsub
from constants import *
from gnuradio import gr #for gr.prefs
import forms
##################################################
# Constants
##################################################
SLIDER_STEPS = 100
AVG_ALPHA_MIN_EXP, AVG_ALPHA_MAX_EXP = -3, 0
DEFAULT_WIN_SIZE = (600, 300)
DEFAULT_FRAME_RATE = gr.prefs().get_long('wxgui', 'fft_rate', 30)
DB_DIV_MIN, DB_DIV_MAX = 1, 20
FFT_PLOT_COLOR_SPEC = (0.3, 0.3, 1.0)
PEAK_VALS_COLOR_SPEC = (0.0, 0.8, 0.0)
EMPTY_TRACE = list()
TRACES = ('A', 'B')
TRACES_COLOR_SPEC = {
'A': (1.0, 0.0, 0.0),
'B': (0.8, 0.0, 0.8),
}
##################################################
# FFT window control panel
##################################################
class control_panel(wx.Panel):
"""
A control panel with wx widgits to control the plotter and fft block chain.
"""
def __init__(self, parent):
"""
Create a new control panel.
@param parent the wx parent window
"""
self.parent = parent
wx.Panel.__init__(self, parent, style=wx.SUNKEN_BORDER)
parent[SHOW_CONTROL_PANEL_KEY] = True
parent.subscribe(SHOW_CONTROL_PANEL_KEY, self.Show)
control_box = wx.BoxSizer(wx.VERTICAL)
control_box.AddStretchSpacer()
#checkboxes for average and peak hold
options_box = forms.static_box_sizer(
parent=self, sizer=control_box, label='Trace 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])
#trace menu
for trace in TRACES:
trace_box = wx.BoxSizer(wx.HORIZONTAL)
options_box.Add(trace_box, 0, wx.EXPAND)
forms.check_box(
sizer=trace_box, parent=self,
ps=parent, key=TRACE_SHOW_KEY+trace,
label='Trace %s'%trace,
)
trace_box.AddSpacer(10)
forms.single_button(
sizer=trace_box, parent=self,
ps=parent, key=TRACE_STORE_KEY+trace,
label='Store', style=wx.BU_EXACTFIT,
)
trace_box.AddSpacer(10)
#radio buttons for div size
control_box.AddStretchSpacer()
y_ctrl_box = forms.static_box_sizer(
parent=self, sizer=control_box, label='Axis Options',
bold=True, orient=wx.VERTICAL,
)
forms.incr_decr_buttons(
parent=self, sizer=y_ctrl_box, label='dB/Div',
on_incr=self._on_incr_db_div, on_decr=self._on_decr_db_div,
)
#ref lvl buttons
forms.incr_decr_buttons(
parent=self, sizer=y_ctrl_box, label='Ref Level',
on_incr=self._on_incr_ref_level, on_decr=self._on_decr_ref_level,
)
y_ctrl_box.AddSpacer(2)
#autoscale
forms.single_button(
sizer=y_ctrl_box, parent=self, label='Autoscale',
callback=self.parent.autoscale,
)
#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)
#mouse wheel event
def on_mouse_wheel(event):
if event.GetWheelRotation() < 0: self._on_incr_ref_level(event)
else: self._on_decr_ref_level(event)
parent.plotter.Bind(wx.EVT_MOUSEWHEEL, on_mouse_wheel)
##################################################
# Event handlers
##################################################
def _on_incr_ref_level(self, event):
self.parent[REF_LEVEL_KEY] = self.parent[REF_LEVEL_KEY] + self.parent[Y_PER_DIV_KEY]
def _on_decr_ref_level(self, event):
self.parent[REF_LEVEL_KEY] = self.parent[REF_LEVEL_KEY] - self.parent[Y_PER_DIV_KEY]
def _on_incr_db_div(self, event):
self.parent[Y_PER_DIV_KEY] = min(DB_DIV_MAX, common.get_clean_incr(self.parent[Y_PER_DIV_KEY]))
def _on_decr_db_div(self, event):
self.parent[Y_PER_DIV_KEY] = max(DB_DIV_MIN, common.get_clean_decr(self.parent[Y_PER_DIV_KEY]))
##################################################
# FFT window with plotter and control panel
##################################################
class fft_window(wx.Panel, pubsub.pubsub):
def __init__(
self,
parent,
controller,
size,
title,
real,
fft_size,
baseband_freq,
sample_rate_key,
y_per_div,
y_divs,
ref_level,
average_key,
avg_alpha_key,
peak_hold,
msg_key,
):
pubsub.pubsub.__init__(self)
#setup
self.samples = EMPTY_TRACE
self.real = real
self.fft_size = fft_size
self._reset_peak_vals()
self._traces = dict()
#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[Y_PER_DIV_KEY] = y_per_div
self[Y_DIVS_KEY] = y_divs
self[X_DIVS_KEY] = 8 #approximate
self[REF_LEVEL_KEY] = ref_level
self[BASEBAND_FREQ_KEY] = baseband_freq
self[RUNNING_KEY] = True
for trace in TRACES:
#a function that returns a function
#so the function wont use local trace
def new_store_trace(my_trace):
def store_trace(*args):
self._traces[my_trace] = self.samples
self.update_grid()
return store_trace
def new_toggle_trace(my_trace):
def toggle_trace(toggle):
#do an automatic store if toggled on and empty trace
if toggle and not len(self._traces[my_trace]):
self._traces[my_trace] = self.samples
self.update_grid()
return toggle_trace
self._traces[trace] = EMPTY_TRACE
self[TRACE_STORE_KEY+trace] = False
self[TRACE_SHOW_KEY+trace] = False
self.subscribe(TRACE_STORE_KEY+trace, new_store_trace(trace))
self.subscribe(TRACE_SHOW_KEY+trace, new_toggle_trace(trace))
#init panel and plot
wx.Panel.__init__(self, parent, style=wx.SIMPLE_BORDER)
self.plotter = plotter.channel_plotter(self)
self.plotter.SetSize(wx.Size(*size))
self.plotter.set_title(title)
self.plotter.enable_legend(True)
self.plotter.enable_point_label(True)
self.plotter.enable_grid_lines(True)
#setup the box with plot and controls
self.control_panel = control_panel(self)
main_box = wx.BoxSizer(wx.HORIZONTAL)
main_box.Add(self.plotter, 1, wx.EXPAND)
main_box.Add(self.control_panel, 0, wx.EXPAND)
self.SetSizerAndFit(main_box)
#register events
self.subscribe(AVERAGE_KEY, self._reset_peak_vals)
self.subscribe(MSG_KEY, self.handle_msg)
self.subscribe(SAMPLE_RATE_KEY, self.update_grid)
for key in (
BASEBAND_FREQ_KEY,
Y_PER_DIV_KEY, X_DIVS_KEY,
Y_DIVS_KEY, REF_LEVEL_KEY,
): self.subscribe(key, self.update_grid)
#initial update
self.update_grid()
def autoscale(self, *args):
"""
Autoscale the fft plot to the last frame.
Set the dynamic range and reference level.
"""
if not len(self.samples): return
min_level, max_level = common.get_min_max_fft(self.samples)
#set the range to a clean number of the dynamic range
self[Y_PER_DIV_KEY] = common.get_clean_num(1+(max_level - min_level)/self[Y_DIVS_KEY])
#set the reference level to a multiple of y per div
self[REF_LEVEL_KEY] = self[Y_PER_DIV_KEY]*round(.5+max_level/self[Y_PER_DIV_KEY])
def _reset_peak_vals(self, *args): self.peak_vals = EMPTY_TRACE
def handle_msg(self, msg):
"""
Handle the message from the fft sink message queue.
If complex, reorder the fft samples so the negative bins come first.
If real, keep take only the positive bins.
Plot the samples onto the grid as channel 1.
If peak hold is enabled, plot peak vals as channel 2.
@param msg the fft array as a character array
"""
if not self[RUNNING_KEY]: return
#convert to floating point numbers
samples = numpy.fromstring(msg, numpy.float32)[:self.fft_size] #only take first frame
num_samps = len(samples)
#reorder fft
if self.real: samples = samples[:(num_samps+1)/2]
else: samples = numpy.concatenate((samples[num_samps/2+1:], samples[:(num_samps+1)/2]))
self.samples = samples
#peak hold calculation
if self[PEAK_HOLD_KEY]:
if len(self.peak_vals) != len(samples): self.peak_vals = samples
self.peak_vals = numpy.maximum(samples, self.peak_vals)
#plot the peak hold
self.plotter.set_waveform(
channel='Peak',
samples=self.peak_vals,
color_spec=PEAK_VALS_COLOR_SPEC,
)
else:
self._reset_peak_vals()
self.plotter.clear_waveform(channel='Peak')
#plot the fft
self.plotter.set_waveform(
channel='FFT',
samples=samples,
color_spec=FFT_PLOT_COLOR_SPEC,
)
#update the plotter
self.plotter.update()
def update_grid(self, *args):
"""
Update the plotter grid.
This update method is dependent on the variables below.
Determine the x and y axis grid parameters.
The x axis depends on sample rate, baseband freq, and x divs.
The y axis depends on y per div, y divs, and ref level.
"""
for trace in TRACES:
channel = '%s'%trace.upper()
if self[TRACE_SHOW_KEY+trace]:
self.plotter.set_waveform(
channel=channel,
samples=self._traces[trace],
color_spec=TRACES_COLOR_SPEC[trace],
)
else: self.plotter.clear_waveform(channel=channel)
#grid parameters
sample_rate = self[SAMPLE_RATE_KEY]
baseband_freq = self[BASEBAND_FREQ_KEY]
y_per_div = self[Y_PER_DIV_KEY]
y_divs = self[Y_DIVS_KEY]
x_divs = self[X_DIVS_KEY]
ref_level = self[REF_LEVEL_KEY]
#determine best fitting x_per_div
if self.real: x_width = sample_rate/2.0
else: x_width = sample_rate/1.0
x_per_div = common.get_clean_num(x_width/x_divs)
#update the x grid
if self.real:
self.plotter.set_x_grid(
baseband_freq,
baseband_freq + sample_rate/2.0,
x_per_div, True,
)
else:
self.plotter.set_x_grid(
baseband_freq - sample_rate/2.0,
baseband_freq + sample_rate/2.0,
x_per_div, True,
)
#update x units
self.plotter.set_x_label('Frequency', 'Hz')
#update y grid
self.plotter.set_y_grid(ref_level-y_per_div*y_divs, ref_level, y_per_div)
#update y units
self.plotter.set_y_label('Amplitude', 'dB')
#update plotter
self.plotter.update()
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