From: mleech Date: Thu, 6 Sep 2007 01:54:36 +0000 (+0000) Subject: Updated to use Dave Wards code. X-Git-Url: https://git.gag.com/?a=commitdiff_plain;h=deb2f30daebaeb9c5e2aa64278bdd8cc7e28ed61;p=debian%2Fgnuradio Updated to use Dave Wards code. git-svn-id: http://gnuradio.org/svn/gnuradio/trunk@6340 221aa14e-8319-0410-a670-987f0aec2ac5 --- diff --git a/gr-radio-astronomy/src/python/ra_waterfallsink.py b/gr-radio-astronomy/src/python/ra_waterfallsink.py index bc107653..5ca7072c 100755 --- a/gr-radio-astronomy/src/python/ra_waterfallsink.py +++ b/gr-radio-astronomy/src/python/ra_waterfallsink.py @@ -6,7 +6,7 @@ # # 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) +# 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, @@ -24,7 +24,7 @@ from gnuradio import gr, gru, window from gnuradio.wxgui import stdgui import wx import gnuradio.wxgui.plot as plot -import Numeric +import numpy import os import threading import math @@ -32,11 +32,43 @@ import math default_fftsink_size = (640,240) default_fft_rate = gr.prefs().get_long('wxgui', 'fft_rate', 15) -class ra_waterfallsink_base(object): +def axis_design( x1, x2, nx ): + # Given start, end, and number of labels, return value of first label, + # increment between labels, number of unlabeled division between labels, + # and scale factor. + + dx = abs( x2 - x1 )/float(nx+1) # allow for space at each end + ldx = math.log10(dx) + l2 = math.log10(2.) + l5 = math.log10(5.) + le = math.floor(ldx) + lf = ldx - le + if lf < l2/2: + c = 1 + dt = 10 + elif lf < (l2+l5)/2: + c = 2 + dt = 4 + elif lf < (l5+1)/2: + c = 5 + dt = 5 + else: + c = 1 + dt = 10 + le += 1 + inc = c*pow( 10., le ) + first = math.ceil( x1/inc )*inc + scale = 1. + while ( abs(x1*scale) >= 1e5 ) or ( abs(x2*scale) >= 1e5 ): + scale *= 1e-3 + return ( first, inc, dt, scale ) + + +class waterfall_sink_base(object): def __init__(self, input_is_real=False, baseband_freq=0, sample_rate=1, fft_size=512, fft_rate=default_fft_rate, - average=False, avg_alpha=None, title='', ofunc=None, xydfunc=None, scaling=100): + average=False, avg_alpha=None, title='', ofunc=None, xydfunc=None): # initialize common attributes self.baseband_freq = baseband_freq @@ -46,7 +78,6 @@ class ra_waterfallsink_base(object): self.average = average self.ofunc = ofunc self.xydfunc = xydfunc - self.scaling = scaling if avg_alpha is None: self.avg_alpha = 2.0 / fft_rate else: @@ -55,6 +86,9 @@ class ra_waterfallsink_base(object): self.input_is_real = input_is_real self.msgq = gr.msg_queue(2) # queue up to 2 messages + def reconnect( self, fg ): + fg.connect( *self.block_list ) + def set_average(self, average): self.average = average if average: @@ -72,23 +106,21 @@ class ra_waterfallsink_base(object): self.sample_rate = sample_rate self._set_n() - def set_scaling(self,scaling): - self.scaling = scaling - return - def _set_n(self): self.one_in_n.set_n(max(1, int(self.sample_rate/self.fft_size/self.fft_rate))) -class ra_waterfallsink_f(gr.hier_block, ra_waterfallsink_base): +class waterfall_sink_f(gr.hier_block, waterfall_sink_base): def __init__(self, fg, parent, baseband_freq=0, - y_per_div=10, ref_level=50, sample_rate=1, fft_size=512, + ref_level=0, sample_rate=1, fft_size=512, fft_rate=default_fft_rate, average=False, avg_alpha=None, - title='', scaling=100, size=default_fftsink_size, ofunc=None, xydfunc=None): - - ra_waterfallsink_base.__init__(self, input_is_real=True, baseband_freq=baseband_freq, - sample_rate=sample_rate, fft_size=fft_size, - fft_rate=fft_rate, - average=average, avg_alpha=avg_alpha, title=title, ofunc=ofunc, xydfunc=xydfunc, scaling=scaling) + title='', size=default_fftsink_size, report=None, span=40, ofunc=None, xydfunc=None): + + waterfall_sink_base.__init__(self, input_is_real=True, + baseband_freq=baseband_freq, + sample_rate=sample_rate, + fft_size=fft_size, fft_rate=fft_rate, + average=average, avg_alpha=avg_alpha, + title=title) s2p = gr.serial_to_parallel(gr.sizeof_float, self.fft_size) self.one_in_n = gr.keep_one_in_n(gr.sizeof_float * self.fft_size, @@ -100,27 +132,28 @@ class ra_waterfallsink_f(gr.hier_block, ra_waterfallsink_base): log = gr.nlog10_ff(20, self.fft_size, -20*math.log10(self.fft_size)) sink = gr.message_sink(gr.sizeof_float * self.fft_size, self.msgq, True) - fg.connect (s2p, self.one_in_n, fft, c2mag, self.avg, log, sink) + self.block_list = (s2p, self.one_in_n, fft, c2mag, self.avg, log, sink) + self.reconnect( fg ) gr.hier_block.__init__(self, fg, s2p, sink) - self.win = ra_waterfall_window(self, parent, size=size) + self.win = waterfall_window(self, parent, size=size, report=report, + ref_level=ref_level, span=span, ofunc=ofunc, xydfunc=xydfunc) self.set_average(self.average) -class ra_waterfallsink_c(gr.hier_block, ra_waterfallsink_base): +class waterfall_sink_c(gr.hier_block, waterfall_sink_base): def __init__(self, fg, 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, scaling=100, - title='', size=default_fftsink_size, ofunc=None, xydfunc=None): - - ra_waterfallsink_base.__init__(self, input_is_real=False, baseband_freq=baseband_freq, - sample_rate=sample_rate, fft_size=fft_size, + ref_level=0, sample_rate=1, fft_size=512, + fft_rate=default_fft_rate, average=False, avg_alpha=None, + title='', size=default_fftsink_size, report=None, span=40, ofunc=None, xydfunc=None): + + waterfall_sink_base.__init__(self, input_is_real=False, + baseband_freq=baseband_freq, + sample_rate=sample_rate, + fft_size=fft_size, fft_rate=fft_rate, - average=average, - avg_alpha=avg_alpha, - title=title, ofunc=ofunc, - xydfunc=xydfunc, scaling=scaling) + average=average, avg_alpha=avg_alpha, + title=title) s2p = gr.serial_to_parallel(gr.sizeof_gr_complex, self.fft_size) self.one_in_n = gr.keep_one_in_n(gr.sizeof_gr_complex * self.fft_size, @@ -133,10 +166,12 @@ class ra_waterfallsink_c(gr.hier_block, ra_waterfallsink_base): log = gr.nlog10_ff(20, self.fft_size, -20*math.log10(self.fft_size)) sink = gr.message_sink(gr.sizeof_float * self.fft_size, self.msgq, True) - fg.connect(s2p, self.one_in_n, fft, c2mag, self.avg, log, sink) + self.block_list = (s2p, self.one_in_n, fft, c2mag, self.avg, log, sink) + self.reconnect( fg ) gr.hier_block.__init__(self, fg, s2p, sink) - self.win = ra_waterfall_window(self, parent, size=size) + self.win = waterfall_window(self, parent, size=size, report=report, + ref_level=ref_level, span=span, ofunc=ofunc, xydfunc=xydfunc) self.set_average(self.average) @@ -180,31 +215,50 @@ class input_watcher (threading.Thread): start = itemsize * (nitems - 1) s = s[start:start+itemsize] - complex_data = Numeric.fromstring (s, Numeric.Float32) + complex_data = numpy.fromstring (s, numpy.float32) de = DataEvent (complex_data) wx.PostEvent (self.event_receiver, de) del de -class ra_waterfall_window (wx.Panel): +class waterfall_window (wx.ScrolledWindow): def __init__ (self, fftsink, parent, id = -1, pos = wx.DefaultPosition, size = wx.DefaultSize, - style = wx.DEFAULT_FRAME_STYLE, name = ""): - wx.Panel.__init__(self, parent, id, pos, size, style, name) + style = wx.DEFAULT_FRAME_STYLE, name = "", report=None, + ref_level = 0, span = 50, ofunc=None, xydfunc=None): + wx.ScrolledWindow.__init__(self, parent, id, pos, size, + style|wx.HSCROLL, name) + self.parent = parent + self.SetCursor(wx.StockCursor(wx.CURSOR_IBEAM)) + self.ref_level = ref_level + self.scale_factor = 256./span + + self.ppsh = 128 # pixels per scroll, horizontal + self.SetScrollbars( self.ppsh, 0, fftsink.fft_size/self.ppsh, 0 ) self.fftsink = fftsink - self.bm = wx.EmptyBitmap(1024, 512, -1) + self.size = size + self.report = report + self.ofunc = ofunc + self.xydfunc = xydfunc - self.scale_factor = self.fftsink.scaling - dc1 = wx.MemoryDC() - dc1.SelectObject(self.bm) - dc1.Clear() + dc1.SetFont( wx.SMALL_FONT ) + self.h_scale = dc1.GetCharHeight() + 3 + #self.bm_size = ( self.fftsink.fft_size, self.size[1] - self.h_scale ) + self.im_size = ( self.fftsink.fft_size, self.size[1] - self.h_scale ) + #self.bm = wx.EmptyBitmap( self.bm_size[0], self.bm_size[1], -1) + self.im = wx.EmptyImage( self.im_size[0], self.im_size[1], True ) + self.im_cur = 0 - self.pens = self.make_pens() + self.baseband_freq = None + + self.make_pens() wx.EVT_PAINT( self, self.OnPaint ) wx.EVT_CLOSE (self, self.on_close_window) + #wx.EVT_LEFT_UP(self, self.on_left_up) + #wx.EVT_LEFT_DOWN(self, self.on_left_down) EVT_DATA_EVENT (self, self.set_data) self.build_popup_menu() @@ -213,13 +267,37 @@ class ra_waterfall_window (wx.Panel): self.Bind(wx.EVT_RIGHT_UP, self.on_right_click) self.Bind(wx.EVT_MOTION, self.on_motion) - self.input_watcher = input_watcher(fftsink.msgq, fftsink.fft_size, self) + self.down_pos = None + self.input_watcher = input_watcher(fftsink.msgq, fftsink.fft_size, self) def on_close_window (self, event): - print "ra_waterfall_window: on_close_window" self.keep_running = False + def on_left_down( self, evt ): + self.down_pos = evt.GetPosition() + self.down_time = evt.GetTimestamp() + + def on_left_up( self, evt ): + if self.down_pos: + dt = ( evt.GetTimestamp() - self.down_time )/1000. + pph = self.fftsink.fft_size/float(self.fftsink.sample_rate) + dx = evt.GetPosition()[0] - self.down_pos[0] + if dx != 0: + rt = pph/dx + else: + rt = 0 + t = 'Down time: %f Delta f: %f Period: %f' % ( dt, dx/pph, rt ) + print t + if self.report: + self.report(t) + + def on_motion(self, event): + if self.xydfunc: + pos = event.GetPosition() + self.xydfunc(pos) + + def const_list(self,const,len): return [const] * len @@ -245,21 +323,63 @@ class ra_waterfall_window (wx.Panel): def make_pens(self): (r,g,b) = self.make_colormap() - pens = [] - for i in range(0,256): - colour = wx.Colour(r[i], g[i], b[i]) - pens.append( wx.Pen(colour, 2, wx.SOLID)) - return pens + self.rgb = numpy.transpose( numpy.array( (r,g,b) ).astype(numpy.int8) ) def OnPaint(self, event): - dc = wx.PaintDC(self) - self.DoDrawing(dc) + dc = wx.BufferedPaintDC(self) + self.DoDrawing( dc ) + + def DoDrawing(self,dc): + w, h = self.GetClientSizeTuple() + w = min( w, self.fftsink.fft_size ) + if w <= 0: + return - def DoDrawing(self, dc=None): if dc is None: - dc = wx.ClientDC(self) - dc.DrawBitmap(self.bm, 0, 0, False ) - + dc = wx.BufferedDC( wx.ClientDC(self), (w,h) ) + + dc.SetBackground( wx.Brush( self.GetBackgroundColour(), wx.SOLID ) ) + dc.Clear() + + x, y = self.GetViewStart() + x *= self.ppsh + + ih = min( h - self.h_scale, self.im_size[1] - self.im_cur ) + r = wx.Rect( x, self.im_cur, w, ih ) + bm = wx.BitmapFromImage( self.im.GetSubImage(r) ) + dc.DrawBitmap( bm, 0, self.h_scale ) + rem = min( self.im_size[1] - ih, h - ih - self.h_scale ) + if( rem > 0 ): + r = wx.Rect( x, 0, w, rem ) + bm = wx.BitmapFromImage( self.im.GetSubImage(r) ) + dc.DrawBitmap( bm, 0, ih + self.h_scale ) + + # Draw axis + if self.baseband_freq != self.fftsink.baseband_freq: + self.baseband_freq = self.fftsink.baseband_freq + t = self.fftsink.sample_rate*w/float(self.fftsink.fft_size) + self.ax_spec = axis_design( self.baseband_freq - t/2, + self.baseband_freq + t/2, 7 ) + dc.SetFont( wx.SMALL_FONT ) + fo = self.baseband_freq + po = self.fftsink.fft_size/2 + pph = self.fftsink.fft_size/float(self.fftsink.sample_rate) + f = math.floor((fo-po/pph)/self.ax_spec[1])*self.ax_spec[1] + while True: + t = po + ( f - fo )*pph + s = str( f*self.ax_spec[3] ) + e = dc.GetTextExtent( s ) + if t - e[1]/2 >= x + w: + break + dc.DrawText( s, t - x - e[0]/2, 0 ) + dc.DrawLine( t - x, e[1] - 1, t - x, self.h_scale ) + dt = self.ax_spec[1]/self.ax_spec[2]*pph + for i in range(self.ax_spec[2]-1): + t += dt + if t >= x + w: + break + dc.DrawLine( t - x, e[1] + 1, t - x, self.h_scale ) + f += self.ax_spec[1] def const_list(self,const,len): a = [const] @@ -291,12 +411,19 @@ class ra_waterfall_window (wx.Panel): dB = evt.data L = len (dB) - if (self.fftsink.ofunc != None): - self.fftsink.ofunc (evt.data, L) + if self.ofunc != None: + self.ofunc(evt.data, L) + #dc1 = wx.MemoryDC() + #dc1.SelectObject(self.bm) - dc1 = wx.MemoryDC() - dc1.SelectObject(self.bm) - dc1.Blit(0,1,1024,512,dc1,0,0,wx.COPY,False,-1,-1) + # Scroll existing bitmap + if 1: + #dc1.Blit(0,1,self.bm_size[0],self.bm_size[1]-1,dc1,0,0, + # wx.COPY,False,-1,-1) + pass + else: + for i in range( self.bm_size[1]-1, 0, -1 ): + dc1.Blit( 0, i, self.bm_size[0], 1, dc1, 0, i-1 ) x = max(abs(self.fftsink.sample_rate), abs(self.fftsink.baseband_freq)) if x >= 1e9: @@ -317,43 +444,28 @@ class ra_waterfall_window (wx.Panel): d_max = L/2 p_width = 1 - WATERFALL_WIDTH=1024 scale_factor = self.scale_factor - x_positions = Numeric.zeros(WATERFALL_WIDTH, Numeric.Float64) - y_values = Numeric.zeros(WATERFALL_WIDTH, Numeric.Float64) - x_scale = L / WATERFALL_WIDTH - x_scale = int(x_scale) + dB -= self.ref_level + dB *= scale_factor + dB = dB.astype(numpy.int_).clip( min=0, max=255 ) if self.fftsink.input_is_real: # real fft - for x_pos in range(0, d_max): - value = int(dB[x_pos] * scale_factor) - value = min(255, max(0, value)) - idx = int(x_pos/x_scale) - idx = min(WATERFALL_WIDTH-1,idx) - x_positions[idx] = idx - y_values[idx] = y_values[idx] + value + dB = numpy.array( ( dB[0:d_max][::-1], dB[0:d_max] ) ) else: # complex fft - for x_pos in range(0, d_max): # positive freqs - value = int(dB[x_pos] * scale_factor) - value = min(255, max(0, value)) - idx = int((x_pos+d_max)/x_scale) - idx = min(WATERFALL_WIDTH-1,idx) - x_positions[idx] = idx - y_values[idx] = y_values[idx] + value - for x_pos in range(0 , d_max): # negative freqs - value = int(dB[x_pos+d_max] * scale_factor) - value = min(255, max(0, value)) - idx = int((x_pos)/x_scale) - idx = min(WATERFALL_WIDTH-1,idx) - x_positions[idx] = idx - y_values[idx] = y_values[idx] + value - - for i in range(0,WATERFALL_WIDTH): - yv = y_values[i]/x_scale - yv = int(min(255,yv)) - dc1.SetPen(self.pens[yv]) - dc1.DrawRectangle(i*p_width, 0, p_width, 1) - - self.DoDrawing (None) + dB = numpy.concatenate( ( dB[d_max:L], dB[0:d_max] ) ) + + dB = self.rgb[dB] + img = wx.ImageFromData( L, 1, dB.ravel().tostring() ) + #bm = wx.BitmapFromImage( img ) + #dc1.DrawBitmap( bm, 0, 0 ) + ibuf = self.im.GetDataBuffer() + self.im_cur -= 1 + if self.im_cur < 0: + self.im_cur = self.im_size[1] - 1 + start = 3*self.im_cur*self.im_size[0] + ibuf[start:start+3*self.im_size[0]] = img.GetData() + + #del dc1 + self.DoDrawing(None) def on_average(self, evt): # print "on_average" @@ -361,64 +473,98 @@ class ra_waterfall_window (wx.Panel): 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 on_motion(self, event): - if not self.fftsink.xydfunc == None: - pos = event.GetPosition() - self.fftsink.xydfunc(pos) - - def on_scaling(self, evt): - Id = evt.GetId() - if Id == self.id_scaling_100: - self.fftsink.set_scaling(100) - elif Id == self.id_scaling_150: - self.fftsink.set_scaling(150) - elif Id == self.id_scaling_200: - self.fftsink.set_scaling(200) - elif Id == self.id_scaling_250: - self.fftsink.set_scaling(250) - elif Id == self.id_scaling_300: - self.fftsink.set_scaling(300) def build_popup_menu(self): - self.id_scaling_100 = wx.NewId() - self.id_scaling_150 = wx.NewId() - self.id_scaling_200 = wx.NewId() - self.id_scaling_250 = wx.NewId() - self.id_scaling_300 = wx.NewId() - self.id_average = wx.NewId() - - self.Bind(wx.EVT_MENU, self.on_average, id=self.id_average) - self.Bind(wx.EVT_MENU, self.on_scaling, id=self.id_scaling_100) - self.Bind(wx.EVT_MENU, self.on_scaling, id=self.id_scaling_150) - self.Bind(wx.EVT_MENU, self.on_scaling, id=self.id_scaling_200) - self.Bind(wx.EVT_MENU, self.on_scaling, id=self.id_scaling_250) - self.Bind(wx.EVT_MENU, self.on_scaling, id=self.id_scaling_300) - + id_ref_gain = wx.NewId() + self.Bind( wx.EVT_MENU, self.on_ref_gain, id=id_ref_gain ) # make a menu menu = wx.Menu() self.popup_menu = menu - menu.AppendCheckItem(self.id_average, "Average") - menu.AppendCheckItem(self.id_scaling_100, "100 scale factor") - menu.AppendCheckItem(self.id_scaling_150, "150 scale factor") - menu.AppendCheckItem(self.id_scaling_200, "200 scale factor") - menu.AppendCheckItem(self.id_scaling_250, "250 scale factor") - menu.AppendCheckItem(self.id_scaling_300, "300 scale factor") + menu.Append( id_ref_gain, "Ref Level and Gain" ) + self.rg_dialog = None self.checkmarks = { - self.id_average : lambda : self.fftsink.average, - self.id_scaling_100 : lambda : self.fftsink.scaling == 100, - self.id_scaling_150 : lambda : self.fftsink.scaling == 150, - self.id_scaling_200 : lambda : self.fftsink.scaling == 200, - self.id_scaling_250 : lambda : self.fftsink.scaling == 250, - self.id_scaling_300 : lambda : self.fftsink.scaling == 300, + #self.id_average : lambda : self.fftsink.average } + def on_ref_gain( self, evt ): + if self.rg_dialog == None: + self.rg_dialog = rg_dialog( self.parent, self.set_ref_gain, + ref=self.ref_level, + span=256./self.scale_factor ) + self.rg_dialog.Show( True ) + + def set_ref_gain( self, ref, span ): + self.ref_level = ref + self.scale_factor = 256/span + +class rg_dialog( wx.Dialog ): + def __init__( self, parent, set_function, ref=0, span=256./5. ): + wx.Dialog.__init__( self, parent, -1, "Waterfall Settings" ) + self.set_function = set_function + #status_bar = wx.StatusBar( self, -1 ) + + d_sizer = wx.BoxSizer( wx.VERTICAL ) # dialog sizer + f_sizer = wx.BoxSizer( wx.VERTICAL ) # form sizer + vs = 10 + + #f_sizer.Add( fn_sizer, 0, flag=wx.TOP, border=10 ) + + h_sizer = wx.BoxSizer( wx.HORIZONTAL ) + self.ref = tab_item( self, "Ref Level:", 4, "dB" ) + self.ref.ctrl.SetValue( "%d" % ref ) + h_sizer.Add((0,0),1) + h_sizer.Add( self.ref, 0 ) + h_sizer.Add((0,0),1) + self.span = tab_item( self, "Range:", 4, "dB" ) + self.span.ctrl.SetValue( "%d" % span ) + h_sizer.Add( self.span, 0 ) + h_sizer.Add((0,0),1) + f_sizer.Add( h_sizer, 0, flag=wx.TOP|wx.EXPAND, border=vs ) + + d_sizer.Add((0,0),1) + d_sizer.Add( f_sizer, 0, flag=wx.ALIGN_CENTER_HORIZONTAL|wx.EXPAND ) + d_sizer.Add((0,0),1) + d_sizer.Add((0,0),1) + + button_sizer = wx.BoxSizer( wx.HORIZONTAL ) + apply_button = wx.Button( self, -1, "Apply" ) + apply_button.Bind( wx.EVT_BUTTON, self.apply_evt ) + cancel_button = wx.Button( self, -1, "Cancel" ) + cancel_button.Bind( wx.EVT_BUTTON, self.cancel_evt ) + ok_button = wx.Button( self, -1, "OK" ) + ok_button.Bind( wx.EVT_BUTTON, self.ok_evt ) + button_sizer.Add((0,0),1) + button_sizer.Add( apply_button, 0, + flag=wx.ALIGN_CENTER_HORIZONTAL ) + button_sizer.Add((0,0),1) + button_sizer.Add( cancel_button, 0, + flag=wx.ALIGN_CENTER_HORIZONTAL ) + button_sizer.Add((0,0),1) + button_sizer.Add( ok_button, 0, + flag=wx.ALIGN_CENTER_HORIZONTAL ) + button_sizer.Add((0,0),1) + d_sizer.Add( button_sizer, 0, + flag=wx.EXPAND|wx.ALIGN_CENTER|wx.BOTTOM, border=30 ) + self.SetSizer( d_sizer ) + + def apply_evt( self, evt ): + self.do_apply() + + def cancel_evt( self, evt ): + self.Show( False ) + + def ok_evt( self, evt ): + self.do_apply() + self.Show( False ) + + def do_apply( self ): + r = float( self.ref.ctrl.GetValue() ) + g = float( self.span.ctrl.GetValue() ) + self.set_function( r, g ) def next_up(v, seq): """ @@ -441,6 +587,19 @@ def next_down(v, seq): return s return v +# One of many copies that should be consolidated . . . +def tab_item( parent, label, chars, units, style=wx.TE_RIGHT, value="" ): + s = wx.BoxSizer( wx.HORIZONTAL ) + s.Add( wx.StaticText( parent, -1, label ), 0, + flag=wx.ALIGN_CENTER_VERTICAL ) + s.ctrl = wx.TextCtrl( parent, -1, style=style, value=value ) + s.ctrl.SetMinSize( ( (1.00+chars)*s.ctrl.GetCharWidth(), + 1.25*s.ctrl.GetCharHeight() ) ) + s.Add( s.ctrl, -1, flag=wx.LEFT, border=3 ) + s.Add( wx.StaticText( parent, -1, units ), 0, + flag=wx.ALIGN_CENTER_VERTICAL|wx.LEFT, border=1 ) + return s + # ---------------------------------------------------------------- # Deprecated interfaces @@ -450,9 +609,9 @@ def next_down(v, seq): # block requires a single input stream of float # win is a subclass of wxWindow -def make_ra_waterfallsink_f(fg, parent, title, fft_size, input_rate): +def make_waterfall_sink_f(fg, parent, title, fft_size, input_rate): - block = ra_waterfallsink_f(fg, parent, title=title, fft_size=fft_size, + block = waterfall_sink_f(fg, parent, title=title, fft_size=fft_size, sample_rate=input_rate) return (block, block.win) @@ -460,8 +619,8 @@ def make_ra_waterfallsink_f(fg, parent, title, fft_size, input_rate): # block requires a single input stream of gr_complex # win is a subclass of wxWindow -def make_ra_waterfallsink_c(fg, parent, title, fft_size, input_rate): - block = ra_waterfallsink_c(fg, parent, title=title, fft_size=fft_size, +def make_waterfall_sink_c(fg, parent, title, fft_size, input_rate): + block = waterfall_sink_c(fg, parent, title=title, fft_size=fft_size, sample_rate=input_rate) return (block, block.win) @@ -487,8 +646,10 @@ class test_app_flow_graph (stdgui.gui_flow_graph): # suck down all the CPU available. Normally you wouldn't use these. thr1 = gr.throttle(gr.sizeof_gr_complex, input_rate) - sink1 = ra_waterfallsink_c (self, panel, title="Complex Data", fft_size=fft_size, - sample_rate=input_rate, baseband_freq=100e3) + sink1 = waterfall_sink_c (self, panel, title="Complex Data", + fft_size=fft_size, + sample_rate=input_rate, baseband_freq=0, + size=(600,144) ) vbox.Add (sink1.win, 1, wx.EXPAND) self.connect (src1, thr1, sink1) @@ -496,8 +657,8 @@ class test_app_flow_graph (stdgui.gui_flow_graph): src2 = gr.sig_source_f (input_rate, gr.GR_SIN_WAVE, 5.75e3, 1000) #src2 = gr.sig_source_f (input_rate, gr.GR_CONST_WAVE, 5.75e3, 1000) thr2 = gr.throttle(gr.sizeof_float, input_rate) - sink2 = ra_waterfallsink_f (self, panel, title="Real Data", fft_size=fft_size, - sample_rate=input_rate, baseband_freq=100e3) + sink2 = waterfall_sink_f (self, panel, title="Real Data", fft_size=fft_size, + sample_rate=input_rate, baseband_freq=0) vbox.Add (sink2.win, 1, wx.EXPAND) self.connect (src2, thr2, sink2)