##// END OF EJS Templates
schain
RSS
Bug fixed in RTI and Wind Profiler Plots, when data time exceeded the xmax, the new plot generated was overwriting the first one.
Julio Valdez -
r509:7fe23f0913c9
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@@ -1,580 +1,576
1 import os
1 import os
2 import datetime
2 import datetime
3 import numpy
3 import numpy
4
4
5 from figure import Figure, isRealtime
5 from figure import Figure, isRealtime
6
6
7 class MomentsPlot(Figure):
7 class MomentsPlot(Figure):
8
8
9 isConfig = None
9 isConfig = None
10 __nsubplots = None
10 __nsubplots = None
11
11
12 WIDTHPROF = None
12 WIDTHPROF = None
13 HEIGHTPROF = None
13 HEIGHTPROF = None
14 PREFIX = 'prm'
14 PREFIX = 'prm'
15
15
16 def __init__(self):
16 def __init__(self):
17
17
18 self.isConfig = False
18 self.isConfig = False
19 self.__nsubplots = 1
19 self.__nsubplots = 1
20
20
21 self.WIDTH = 280
21 self.WIDTH = 280
22 self.HEIGHT = 250
22 self.HEIGHT = 250
23 self.WIDTHPROF = 120
23 self.WIDTHPROF = 120
24 self.HEIGHTPROF = 0
24 self.HEIGHTPROF = 0
25 self.counter_imagwr = 0
25 self.counter_imagwr = 0
26
26
27 self.PLOT_CODE = 1
27 self.PLOT_CODE = 1
28 self.FTP_WEI = None
28 self.FTP_WEI = None
29 self.EXP_CODE = None
29 self.EXP_CODE = None
30 self.SUB_EXP_CODE = None
30 self.SUB_EXP_CODE = None
31 self.PLOT_POS = None
31 self.PLOT_POS = None
32
32
33 def getSubplots(self):
33 def getSubplots(self):
34
34
35 ncol = int(numpy.sqrt(self.nplots)+0.9)
35 ncol = int(numpy.sqrt(self.nplots)+0.9)
36 nrow = int(self.nplots*1./ncol + 0.9)
36 nrow = int(self.nplots*1./ncol + 0.9)
37
37
38 return nrow, ncol
38 return nrow, ncol
39
39
40 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
40 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
41
41
42 self.__showprofile = showprofile
42 self.__showprofile = showprofile
43 self.nplots = nplots
43 self.nplots = nplots
44
44
45 ncolspan = 1
45 ncolspan = 1
46 colspan = 1
46 colspan = 1
47 if showprofile:
47 if showprofile:
48 ncolspan = 3
48 ncolspan = 3
49 colspan = 2
49 colspan = 2
50 self.__nsubplots = 2
50 self.__nsubplots = 2
51
51
52 self.createFigure(id = id,
52 self.createFigure(id = id,
53 wintitle = wintitle,
53 wintitle = wintitle,
54 widthplot = self.WIDTH + self.WIDTHPROF,
54 widthplot = self.WIDTH + self.WIDTHPROF,
55 heightplot = self.HEIGHT + self.HEIGHTPROF,
55 heightplot = self.HEIGHT + self.HEIGHTPROF,
56 show=show)
56 show=show)
57
57
58 nrow, ncol = self.getSubplots()
58 nrow, ncol = self.getSubplots()
59
59
60 counter = 0
60 counter = 0
61 for y in range(nrow):
61 for y in range(nrow):
62 for x in range(ncol):
62 for x in range(ncol):
63
63
64 if counter >= self.nplots:
64 if counter >= self.nplots:
65 break
65 break
66
66
67 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
67 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
68
68
69 if showprofile:
69 if showprofile:
70 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
70 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
71
71
72 counter += 1
72 counter += 1
73
73
74 def run(self, dataOut, id, wintitle="", channelList=None, showprofile=True,
74 def run(self, dataOut, id, wintitle="", channelList=None, showprofile=True,
75 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
75 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
76 save=False, figpath='', figfile=None, show=True, ftp=False, wr_period=1,
76 save=False, figpath='', figfile=None, show=True, ftp=False, wr_period=1,
77 server=None, folder=None, username=None, password=None,
77 server=None, folder=None, username=None, password=None,
78 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0, realtime=False):
78 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0, realtime=False):
79
79
80 """
80 """
81
81
82 Input:
82 Input:
83 dataOut :
83 dataOut :
84 id :
84 id :
85 wintitle :
85 wintitle :
86 channelList :
86 channelList :
87 showProfile :
87 showProfile :
88 xmin : None,
88 xmin : None,
89 xmax : None,
89 xmax : None,
90 ymin : None,
90 ymin : None,
91 ymax : None,
91 ymax : None,
92 zmin : None,
92 zmin : None,
93 zmax : None
93 zmax : None
94 """
94 """
95
95
96 if dataOut.flagNoData:
96 if dataOut.flagNoData:
97 return None
97 return None
98
98
99 if realtime:
99 if realtime:
100 if not(isRealtime(utcdatatime = dataOut.utctime)):
100 if not(isRealtime(utcdatatime = dataOut.utctime)):
101 print 'Skipping this plot function'
101 print 'Skipping this plot function'
102 return
102 return
103
103
104 if channelList == None:
104 if channelList == None:
105 channelIndexList = dataOut.channelIndexList
105 channelIndexList = dataOut.channelIndexList
106 else:
106 else:
107 channelIndexList = []
107 channelIndexList = []
108 for channel in channelList:
108 for channel in channelList:
109 if channel not in dataOut.channelList:
109 if channel not in dataOut.channelList:
110 raise ValueError, "Channel %d is not in dataOut.channelList"
110 raise ValueError, "Channel %d is not in dataOut.channelList"
111 channelIndexList.append(dataOut.channelList.index(channel))
111 channelIndexList.append(dataOut.channelList.index(channel))
112
112
113 factor = dataOut.normFactor
113 factor = dataOut.normFactor
114 x = dataOut.abscissaRange
114 x = dataOut.abscissaRange
115 y = dataOut.heightRange
115 y = dataOut.heightRange
116
116
117 z = dataOut.data_pre[channelIndexList,:,:]/factor
117 z = dataOut.data_pre[channelIndexList,:,:]/factor
118 z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
118 z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
119 avg = numpy.average(z, axis=1)
119 avg = numpy.average(z, axis=1)
120 noise = dataOut.noise/factor
120 noise = dataOut.noise/factor
121
121
122 zdB = 10*numpy.log10(z)
122 zdB = 10*numpy.log10(z)
123 avgdB = 10*numpy.log10(avg)
123 avgdB = 10*numpy.log10(avg)
124 noisedB = 10*numpy.log10(noise)
124 noisedB = 10*numpy.log10(noise)
125
125
126 #thisDatetime = dataOut.datatime
126 #thisDatetime = dataOut.datatime
127 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
127 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
128 title = wintitle + " Parameters"
128 title = wintitle + " Parameters"
129 xlabel = "Velocity (m/s)"
129 xlabel = "Velocity (m/s)"
130 ylabel = "Range (Km)"
130 ylabel = "Range (Km)"
131
131
132 if not self.isConfig:
132 if not self.isConfig:
133
133
134 nplots = len(channelIndexList)
134 nplots = len(channelIndexList)
135
135
136 self.setup(id=id,
136 self.setup(id=id,
137 nplots=nplots,
137 nplots=nplots,
138 wintitle=wintitle,
138 wintitle=wintitle,
139 showprofile=showprofile,
139 showprofile=showprofile,
140 show=show)
140 show=show)
141
141
142 if xmin == None: xmin = numpy.nanmin(x)
142 if xmin == None: xmin = numpy.nanmin(x)
143 if xmax == None: xmax = numpy.nanmax(x)
143 if xmax == None: xmax = numpy.nanmax(x)
144 if ymin == None: ymin = numpy.nanmin(y)
144 if ymin == None: ymin = numpy.nanmin(y)
145 if ymax == None: ymax = numpy.nanmax(y)
145 if ymax == None: ymax = numpy.nanmax(y)
146 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
146 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
147 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
147 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
148
148
149 self.FTP_WEI = ftp_wei
149 self.FTP_WEI = ftp_wei
150 self.EXP_CODE = exp_code
150 self.EXP_CODE = exp_code
151 self.SUB_EXP_CODE = sub_exp_code
151 self.SUB_EXP_CODE = sub_exp_code
152 self.PLOT_POS = plot_pos
152 self.PLOT_POS = plot_pos
153
153
154 self.isConfig = True
154 self.isConfig = True
155
155
156 self.setWinTitle(title)
156 self.setWinTitle(title)
157
157
158 for i in range(self.nplots):
158 for i in range(self.nplots):
159 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
159 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
160 title = "Channel %d: %4.2fdB: %s" %(dataOut.channelList[i]+1, noisedB[i], str_datetime)
160 title = "Channel %d: %4.2fdB: %s" %(dataOut.channelList[i]+1, noisedB[i], str_datetime)
161 axes = self.axesList[i*self.__nsubplots]
161 axes = self.axesList[i*self.__nsubplots]
162 axes.pcolor(x, y, zdB[i,:,:],
162 axes.pcolor(x, y, zdB[i,:,:],
163 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
163 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
164 xlabel=xlabel, ylabel=ylabel, title=title,
164 xlabel=xlabel, ylabel=ylabel, title=title,
165 ticksize=9, cblabel='')
165 ticksize=9, cblabel='')
166 #Mean Line
166 #Mean Line
167 mean = dataOut.data_param[i, 1, :]
167 mean = dataOut.data_param[i, 1, :]
168 axes.addpline(mean, y, idline=0, color="black", linestyle="solid", lw=1)
168 axes.addpline(mean, y, idline=0, color="black", linestyle="solid", lw=1)
169
169
170 if self.__showprofile:
170 if self.__showprofile:
171 axes = self.axesList[i*self.__nsubplots +1]
171 axes = self.axesList[i*self.__nsubplots +1]
172 axes.pline(avgdB[i], y,
172 axes.pline(avgdB[i], y,
173 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
173 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
174 xlabel='dB', ylabel='', title='',
174 xlabel='dB', ylabel='', title='',
175 ytick_visible=False,
175 ytick_visible=False,
176 grid='x')
176 grid='x')
177
177
178 noiseline = numpy.repeat(noisedB[i], len(y))
178 noiseline = numpy.repeat(noisedB[i], len(y))
179 axes.addpline(noiseline, y, idline=1, color="black", linestyle="dashed", lw=2)
179 axes.addpline(noiseline, y, idline=1, color="black", linestyle="dashed", lw=2)
180
180
181 self.draw()
181 self.draw()
182
182
183 if figfile == None:
183 if figfile == None:
184 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
184 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
185 figfile = self.getFilename(name = str_datetime)
185 figfile = self.getFilename(name = str_datetime)
186
186
187 if figpath != '':
187 if figpath != '':
188 self.counter_imagwr += 1
188 self.counter_imagwr += 1
189 if (self.counter_imagwr>=wr_period):
189 if (self.counter_imagwr>=wr_period):
190 # store png plot to local folder
190 # store png plot to local folder
191 self.saveFigure(figpath, figfile)
191 self.saveFigure(figpath, figfile)
192 # store png plot to FTP server according to RT-Web format
192 # store png plot to FTP server according to RT-Web format
193 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
193 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
194 ftp_filename = os.path.join(figpath, name)
194 ftp_filename = os.path.join(figpath, name)
195 self.saveFigure(figpath, ftp_filename)
195 self.saveFigure(figpath, ftp_filename)
196 self.counter_imagwr = 0
196 self.counter_imagwr = 0
197
197
198 class SkyMapPlot(Figure):
198 class SkyMapPlot(Figure):
199
199
200 __isConfig = None
200 __isConfig = None
201 __nsubplots = None
201 __nsubplots = None
202
202
203 WIDTHPROF = None
203 WIDTHPROF = None
204 HEIGHTPROF = None
204 HEIGHTPROF = None
205 PREFIX = 'prm'
205 PREFIX = 'prm'
206
206
207 def __init__(self):
207 def __init__(self):
208
208
209 self.__isConfig = False
209 self.__isConfig = False
210 self.__nsubplots = 1
210 self.__nsubplots = 1
211
211
212 # self.WIDTH = 280
212 # self.WIDTH = 280
213 # self.HEIGHT = 250
213 # self.HEIGHT = 250
214 self.WIDTH = 600
214 self.WIDTH = 600
215 self.HEIGHT = 600
215 self.HEIGHT = 600
216 self.WIDTHPROF = 120
216 self.WIDTHPROF = 120
217 self.HEIGHTPROF = 0
217 self.HEIGHTPROF = 0
218 self.counter_imagwr = 0
218 self.counter_imagwr = 0
219
219
220 self.PLOT_CODE = 1
220 self.PLOT_CODE = 1
221 self.FTP_WEI = None
221 self.FTP_WEI = None
222 self.EXP_CODE = None
222 self.EXP_CODE = None
223 self.SUB_EXP_CODE = None
223 self.SUB_EXP_CODE = None
224 self.PLOT_POS = None
224 self.PLOT_POS = None
225
225
226 def getSubplots(self):
226 def getSubplots(self):
227
227
228 ncol = int(numpy.sqrt(self.nplots)+0.9)
228 ncol = int(numpy.sqrt(self.nplots)+0.9)
229 nrow = int(self.nplots*1./ncol + 0.9)
229 nrow = int(self.nplots*1./ncol + 0.9)
230
230
231 return nrow, ncol
231 return nrow, ncol
232
232
233 def setup(self, id, nplots, wintitle, showprofile=False, show=True):
233 def setup(self, id, nplots, wintitle, showprofile=False, show=True):
234
234
235 self.__showprofile = showprofile
235 self.__showprofile = showprofile
236 self.nplots = nplots
236 self.nplots = nplots
237
237
238 ncolspan = 1
238 ncolspan = 1
239 colspan = 1
239 colspan = 1
240
240
241 self.createFigure(id = id,
241 self.createFigure(id = id,
242 wintitle = wintitle,
242 wintitle = wintitle,
243 widthplot = self.WIDTH, #+ self.WIDTHPROF,
243 widthplot = self.WIDTH, #+ self.WIDTHPROF,
244 heightplot = self.HEIGHT,# + self.HEIGHTPROF,
244 heightplot = self.HEIGHT,# + self.HEIGHTPROF,
245 show=show)
245 show=show)
246
246
247 nrow, ncol = 1,1
247 nrow, ncol = 1,1
248 counter = 0
248 counter = 0
249 x = 0
249 x = 0
250 y = 0
250 y = 0
251 self.addAxes(1, 1, 0, 0, 1, 1, True)
251 self.addAxes(1, 1, 0, 0, 1, 1, True)
252
252
253 def run(self, dataOut, id, wintitle="", channelList=None, showprofile=False,
253 def run(self, dataOut, id, wintitle="", channelList=None, showprofile=False,
254 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
254 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
255 save=False, figpath='./', figfile=None, show=True, ftp=False, wr_period=1,
255 save=False, figpath='./', figfile=None, show=True, ftp=False, wr_period=1,
256 server=None, folder=None, username=None, password=None,
256 server=None, folder=None, username=None, password=None,
257 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0, realtime=False):
257 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0, realtime=False):
258
258
259 """
259 """
260
260
261 Input:
261 Input:
262 dataOut :
262 dataOut :
263 id :
263 id :
264 wintitle :
264 wintitle :
265 channelList :
265 channelList :
266 showProfile :
266 showProfile :
267 xmin : None,
267 xmin : None,
268 xmax : None,
268 xmax : None,
269 ymin : None,
269 ymin : None,
270 ymax : None,
270 ymax : None,
271 zmin : None,
271 zmin : None,
272 zmax : None
272 zmax : None
273 """
273 """
274
274
275 arrayParameters = dataOut.data_param
275 arrayParameters = dataOut.data_param
276 error = arrayParameters[:,-1]
276 error = arrayParameters[:,-1]
277 indValid = numpy.where(error == 0)[0]
277 indValid = numpy.where(error == 0)[0]
278 finalMeteor = arrayParameters[indValid,:]
278 finalMeteor = arrayParameters[indValid,:]
279 finalAzimuth = finalMeteor[:,4]
279 finalAzimuth = finalMeteor[:,4]
280 finalZenith = finalMeteor[:,5]
280 finalZenith = finalMeteor[:,5]
281
281
282 x = finalAzimuth*numpy.pi/180
282 x = finalAzimuth*numpy.pi/180
283 y = finalZenith
283 y = finalZenith
284
284
285
285
286 #thisDatetime = dataOut.datatime
286 #thisDatetime = dataOut.datatime
287 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
287 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
288 title = wintitle + " Parameters"
288 title = wintitle + " Parameters"
289 xlabel = "Zonal Zenith Angle (deg) "
289 xlabel = "Zonal Zenith Angle (deg) "
290 ylabel = "Meridional Zenith Angle (deg)"
290 ylabel = "Meridional Zenith Angle (deg)"
291
291
292 if not self.__isConfig:
292 if not self.__isConfig:
293
293
294 nplots = 1
294 nplots = 1
295
295
296 self.setup(id=id,
296 self.setup(id=id,
297 nplots=nplots,
297 nplots=nplots,
298 wintitle=wintitle,
298 wintitle=wintitle,
299 showprofile=showprofile,
299 showprofile=showprofile,
300 show=show)
300 show=show)
301
301
302 self.FTP_WEI = ftp_wei
302 self.FTP_WEI = ftp_wei
303 self.EXP_CODE = exp_code
303 self.EXP_CODE = exp_code
304 self.SUB_EXP_CODE = sub_exp_code
304 self.SUB_EXP_CODE = sub_exp_code
305 self.PLOT_POS = plot_pos
305 self.PLOT_POS = plot_pos
306 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
306 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
307 self.firstdate = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
307 self.firstdate = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
308 self.__isConfig = True
308 self.__isConfig = True
309
309
310 self.setWinTitle(title)
310 self.setWinTitle(title)
311
311
312 i = 0
312 i = 0
313 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
313 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
314
314
315 axes = self.axesList[i*self.__nsubplots]
315 axes = self.axesList[i*self.__nsubplots]
316 nevents = axes.x_buffer.shape[0] + x.shape[0]
316 nevents = axes.x_buffer.shape[0] + x.shape[0]
317 title = "Meteor Detection Sky Map\n %s - %s \n Number of events: %5.0f\n" %(self.firstdate,str_datetime,nevents)
317 title = "Meteor Detection Sky Map\n %s - %s \n Number of events: %5.0f\n" %(self.firstdate,str_datetime,nevents)
318 axes.polar(x, y,
318 axes.polar(x, y,
319 title=title, xlabel=xlabel, ylabel=ylabel,
319 title=title, xlabel=xlabel, ylabel=ylabel,
320 ticksize=9, cblabel='')
320 ticksize=9, cblabel='')
321
321
322 self.draw()
322 self.draw()
323
323
324 if save:
324 if save:
325
325
326 self.counter_imagwr += 1
326 self.counter_imagwr += 1
327 if (self.counter_imagwr==wr_period):
327 if (self.counter_imagwr==wr_period):
328
328
329 if figfile == None:
329 if figfile == None:
330 figfile = self.getFilename(name = self.name)
330 figfile = self.getFilename(name = self.name)
331 self.saveFigure(figpath, figfile)
331 self.saveFigure(figpath, figfile)
332
332
333 if ftp:
333 if ftp:
334 #provisionalmente envia archivos en el formato de la web en tiempo real
334 #provisionalmente envia archivos en el formato de la web en tiempo real
335 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
335 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
336 path = '%s%03d' %(self.PREFIX, self.id)
336 path = '%s%03d' %(self.PREFIX, self.id)
337 ftp_file = os.path.join(path,'ftp','%s.png'%name)
337 ftp_file = os.path.join(path,'ftp','%s.png'%name)
338 self.saveFigure(figpath, ftp_file)
338 self.saveFigure(figpath, ftp_file)
339 ftp_filename = os.path.join(figpath,ftp_file)
339 ftp_filename = os.path.join(figpath,ftp_file)
340
340
341
341
342 try:
342 try:
343 self.sendByFTP(ftp_filename, server, folder, username, password)
343 self.sendByFTP(ftp_filename, server, folder, username, password)
344 except:
344 except:
345 self.counter_imagwr = 0
345 self.counter_imagwr = 0
346 raise ValueError, 'Error FTP'
346 raise ValueError, 'Error FTP'
347
347
348 self.counter_imagwr = 0
348 self.counter_imagwr = 0
349
349
350
350
351 class WindProfilerPlot(Figure):
351 class WindProfilerPlot(Figure):
352
352
353 __isConfig = None
353 __isConfig = None
354 __nsubplots = None
354 __nsubplots = None
355
355
356 WIDTHPROF = None
356 WIDTHPROF = None
357 HEIGHTPROF = None
357 HEIGHTPROF = None
358 PREFIX = 'wind'
358 PREFIX = 'wind'
359
359
360 def __init__(self):
360 def __init__(self):
361
361
362 self.timerange = 2*60*60
362 self.timerange = 2*60*60
363 self.isConfig = False
363 self.__isConfig = False
364 self.__nsubplots = 1
364 self.__nsubplots = 1
365
365
366 self.WIDTH = 800
366 self.WIDTH = 800
367 self.HEIGHT = 150
367 self.HEIGHT = 150
368 self.WIDTHPROF = 120
368 self.WIDTHPROF = 120
369 self.HEIGHTPROF = 0
369 self.HEIGHTPROF = 0
370 self.counter_imagwr = 0
370 self.counter_imagwr = 0
371
371
372 self.PLOT_CODE = 0
372 self.PLOT_CODE = 0
373 self.FTP_WEI = None
373 self.FTP_WEI = None
374 self.EXP_CODE = None
374 self.EXP_CODE = None
375 self.SUB_EXP_CODE = None
375 self.SUB_EXP_CODE = None
376 self.PLOT_POS = None
376 self.PLOT_POS = None
377 self.tmin = None
377 self.tmin = None
378 self.tmax = None
378 self.tmax = None
379
379
380 self.xmin = None
380 self.xmin = None
381 self.xmax = None
381 self.xmax = None
382
382
383 self.figfile = None
383 self.figfile = None
384
384
385 def getSubplots(self):
385 def getSubplots(self):
386
386
387 ncol = 1
387 ncol = 1
388 nrow = self.nplots
388 nrow = self.nplots
389
389
390 return nrow, ncol
390 return nrow, ncol
391
391
392 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
392 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
393
393
394 self.__showprofile = showprofile
394 self.__showprofile = showprofile
395 self.nplots = nplots
395 self.nplots = nplots
396
396
397 ncolspan = 1
397 ncolspan = 1
398 colspan = 1
398 colspan = 1
399
399
400 self.createFigure(id = id,
400 self.createFigure(id = id,
401 wintitle = wintitle,
401 wintitle = wintitle,
402 widthplot = self.WIDTH + self.WIDTHPROF,
402 widthplot = self.WIDTH + self.WIDTHPROF,
403 heightplot = self.HEIGHT + self.HEIGHTPROF,
403 heightplot = self.HEIGHT + self.HEIGHTPROF,
404 show=show)
404 show=show)
405
405
406 nrow, ncol = self.getSubplots()
406 nrow, ncol = self.getSubplots()
407
407
408 counter = 0
408 counter = 0
409 for y in range(nrow):
409 for y in range(nrow):
410 if counter >= self.nplots:
410 if counter >= self.nplots:
411 break
411 break
412
412
413 self.addAxes(nrow, ncol*ncolspan, y, 0, colspan, 1)
413 self.addAxes(nrow, ncol*ncolspan, y, 0, colspan, 1)
414 counter += 1
414 counter += 1
415
415
416 def run(self, dataOut, id, wintitle="", channelList=None,
416 def run(self, dataOut, id, wintitle="", channelList=None,
417 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
417 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
418 zmax_ver = None, zmin_ver = None, SNRmin = None, SNRmax = None,
418 zmax_ver = None, zmin_ver = None, SNRmin = None, SNRmax = None,
419 timerange=None, SNRthresh = None,
419 timerange=None, SNRthresh = None,
420 save=False, figpath='', lastone=0,figfile=None, ftp=False, wr_period=1, show=True,
420 save=False, figpath='', lastone=0,figfile=None, ftp=False, wr_period=1, show=True,
421 server=None, folder=None, username=None, password=None,
421 server=None, folder=None, username=None, password=None,
422 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
422 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
423 """
423 """
424
424
425 Input:
425 Input:
426 dataOut :
426 dataOut :
427 id :
427 id :
428 wintitle :
428 wintitle :
429 channelList :
429 channelList :
430 showProfile :
430 showProfile :
431 xmin : None,
431 xmin : None,
432 xmax : None,
432 xmax : None,
433 ymin : None,
433 ymin : None,
434 ymax : None,
434 ymax : None,
435 zmin : None,
435 zmin : None,
436 zmax : None
436 zmax : None
437 """
437 """
438
438
439 if channelList == None:
439 if channelList == None:
440 channelIndexList = dataOut.channelIndexList
440 channelIndexList = dataOut.channelIndexList
441 else:
441 else:
442 channelIndexList = []
442 channelIndexList = []
443 for channel in channelList:
443 for channel in channelList:
444 if channel not in dataOut.channelList:
444 if channel not in dataOut.channelList:
445 raise ValueError, "Channel %d is not in dataOut.channelList"
445 raise ValueError, "Channel %d is not in dataOut.channelList"
446 channelIndexList.append(dataOut.channelList.index(channel))
446 channelIndexList.append(dataOut.channelList.index(channel))
447
447
448 if timerange != None:
448 if timerange != None:
449 self.timerange = timerange
449 self.timerange = timerange
450
450
451 tmin = None
451 tmin = None
452 tmax = None
452 tmax = None
453
453
454 x = dataOut.getTimeRange1()
454 x = dataOut.getTimeRange1()
455 # y = dataOut.heightRange
455 # y = dataOut.heightRange
456 y = dataOut.heightRange
456 y = dataOut.heightRange
457
457
458 z = dataOut.winds
458 z = dataOut.winds
459 nplots = z.shape[0] #Number of wind dimensions estimated
459 nplots = z.shape[0] #Number of wind dimensions estimated
460 nplotsw = nplots
460 nplotsw = nplots
461
461
462 #If there is a SNR function defined
462 #If there is a SNR function defined
463 if dataOut.SNR != None:
463 if dataOut.SNR != None:
464 nplots += 1
464 nplots += 1
465 SNR = dataOut.SNR
465 SNR = dataOut.SNR
466 SNRavg = numpy.average(SNR, axis=0)
466 SNRavg = numpy.average(SNR, axis=0)
467
467
468 SNRdB = 10*numpy.log10(SNR)
468 SNRdB = 10*numpy.log10(SNR)
469 SNRavgdB = 10*numpy.log10(SNRavg)
469 SNRavgdB = 10*numpy.log10(SNRavg)
470
470
471 if SNRthresh == None: SNRthresh = -5.0
471 if SNRthresh == None: SNRthresh = -5.0
472 ind = numpy.where(SNRavg < 10**(SNRthresh/10))[0]
472 ind = numpy.where(SNRavg < 10**(SNRthresh/10))[0]
473
473
474 for i in range(nplotsw):
474 for i in range(nplotsw):
475 z[i,ind] = numpy.nan
475 z[i,ind] = numpy.nan
476
476
477
477
478 showprofile = False
478 showprofile = False
479 # thisDatetime = dataOut.datatime
479 # thisDatetime = dataOut.datatime
480 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
480 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
481 title = wintitle + "Wind"
481 title = wintitle + "Wind"
482 xlabel = ""
482 xlabel = ""
483 ylabel = "Range (Km)"
483 ylabel = "Range (Km)"
484
484
485 if not self.__isConfig:
485 if not self.__isConfig:
486
486
487
488
489 self.setup(id=id,
487 self.setup(id=id,
490 nplots=nplots,
488 nplots=nplots,
491 wintitle=wintitle,
489 wintitle=wintitle,
492 showprofile=showprofile,
490 showprofile=showprofile,
493 show=show)
491 show=show)
494
492
495 self.xmin, self.xmax = self.getTimeLim(x, xmin, xmax, timerange)
493 self.xmin, self.xmax = self.getTimeLim(x, xmin, xmax, timerange)
496
494
497 if ymin == None: ymin = numpy.nanmin(y)
495 if ymin == None: ymin = numpy.nanmin(y)
498 if ymax == None: ymax = numpy.nanmax(y)
496 if ymax == None: ymax = numpy.nanmax(y)
499
497
500 if zmax == None: zmax = numpy.nanmax(abs(z[range(2),:]))
498 if zmax == None: zmax = numpy.nanmax(abs(z[range(2),:]))
501 #if numpy.isnan(zmax): zmax = 50
499 #if numpy.isnan(zmax): zmax = 50
502 if zmin == None: zmin = -zmax
500 if zmin == None: zmin = -zmax
503
501
504 if nplotsw == 3:
502 if nplotsw == 3:
505 if zmax_ver == None: zmax_ver = numpy.nanmax(abs(z[2,:]))
503 if zmax_ver == None: zmax_ver = numpy.nanmax(abs(z[2,:]))
506 if zmin_ver == None: zmin_ver = -zmax_ver
504 if zmin_ver == None: zmin_ver = -zmax_ver
507
505
508 if dataOut.SNR != None:
506 if dataOut.SNR != None:
509 if SNRmin == None: SNRmin = numpy.nanmin(SNRavgdB)
507 if SNRmin == None: SNRmin = numpy.nanmin(SNRavgdB)
510 if SNRmax == None: SNRmax = numpy.nanmax(SNRavgdB)
508 if SNRmax == None: SNRmax = numpy.nanmax(SNRavgdB)
511
509
512 self.FTP_WEI = ftp_wei
510 self.FTP_WEI = ftp_wei
513 self.EXP_CODE = exp_code
511 self.EXP_CODE = exp_code
514 self.SUB_EXP_CODE = sub_exp_code
512 self.SUB_EXP_CODE = sub_exp_code
515 self.PLOT_POS = plot_pos
513 self.PLOT_POS = plot_pos
516
514
517 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
515 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
518 self.__isConfig = True
516 self.__isConfig = True
519
517
520
518
521 self.setWinTitle(title)
519 self.setWinTitle(title)
522
520
523 if ((self.xmax - x[1]) < (x[1]-x[0])):
521 if ((self.xmax - x[1]) < (x[1]-x[0])):
524 x[1] = self.xmax
522 x[1] = self.xmax
525
523
526 strWind = ['Zonal', 'Meridional', 'Vertical']
524 strWind = ['Zonal', 'Meridional', 'Vertical']
527 strCb = ['Velocity (m/s)','Velocity (m/s)','Velocity (cm/s)']
525 strCb = ['Velocity (m/s)','Velocity (m/s)','Velocity (cm/s)']
528 zmaxVector = [zmax, zmax, zmax_ver]
526 zmaxVector = [zmax, zmax, zmax_ver]
529 zminVector = [zmin, zmin, zmin_ver]
527 zminVector = [zmin, zmin, zmin_ver]
530 windFactor = [1,1,100]
528 windFactor = [1,1,100]
531
529
532 for i in range(nplotsw):
530 for i in range(nplotsw):
533
531
534 title = "%s Wind: %s" %(strWind[i], thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
532 title = "%s Wind: %s" %(strWind[i], thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
535 axes = self.axesList[i*self.__nsubplots]
533 axes = self.axesList[i*self.__nsubplots]
536
534
537 z1 = z[i,:].reshape((1,-1))*windFactor[i]
535 z1 = z[i,:].reshape((1,-1))*windFactor[i]
538
536
539 axes.pcolorbuffer(x, y, z1,
537 axes.pcolorbuffer(x, y, z1,
540 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=zminVector[i], zmax=zmaxVector[i],
538 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=zminVector[i], zmax=zmaxVector[i],
541 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
539 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
542 ticksize=9, cblabel=strCb[i], cbsize="1%", colormap="RdBu_r" )
540 ticksize=9, cblabel=strCb[i], cbsize="1%", colormap="RdBu_r" )
543
541
544 if dataOut.SNR != None:
542 if dataOut.SNR != None:
545 i += 1
543 i += 1
546 title = "Signal Noise Ratio (SNR): %s" %(thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
544 title = "Signal Noise Ratio (SNR): %s" %(thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
547 axes = self.axesList[i*self.__nsubplots]
545 axes = self.axesList[i*self.__nsubplots]
548
546
549 SNRavgdB = SNRavgdB.reshape((1,-1))
547 SNRavgdB = SNRavgdB.reshape((1,-1))
550
548
551 axes.pcolorbuffer(x, y, SNRavgdB,
549 axes.pcolorbuffer(x, y, SNRavgdB,
552 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=SNRmin, zmax=SNRmax,
550 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=SNRmin, zmax=SNRmax,
553 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
551 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
554 ticksize=9, cblabel='', cbsize="1%", colormap="jet")
552 ticksize=9, cblabel='', cbsize="1%", colormap="jet")
555
553
556 self.draw()
554 self.draw()
557
555
558 if x[1] >= self.axesList[0].xmax:
559 self.counter_imagwr = wr_period
560 self.__isConfig = False
561
562
563 if self.figfile == None:
556 if self.figfile == None:
564 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
557 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
565 self.figfile = self.getFilename(name = str_datetime)
558 self.figfile = self.getFilename(name = str_datetime)
566
559
567 if figpath != '':
560 if figpath != '':
568
561
569 self.counter_imagwr += 1
562 self.counter_imagwr += 1
570 if (self.counter_imagwr>=wr_period):
563 if (self.counter_imagwr>=wr_period):
571 # store png plot to local folder
564 # store png plot to local folder
572 self.saveFigure(figpath, self.figfile)
565 self.saveFigure(figpath, self.figfile)
573 # store png plot to FTP server according to RT-Web format
566 # store png plot to FTP server according to RT-Web format
574 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
567 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
575 ftp_filename = os.path.join(figpath, name)
568 ftp_filename = os.path.join(figpath, name)
576 self.saveFigure(figpath, ftp_filename)
569 self.saveFigure(figpath, ftp_filename)
577
570
578 self.counter_imagwr = 0
571 self.counter_imagwr = 0
579
572
580 No newline at end of file
573 if x[1] >= self.axesList[0].xmax:
574 self.counter_imagwr = wr_period
575 self.__isConfig = False
576 self.figfile = None No newline at end of file
Show file before | Show file after | Hide comments
@@ -1,1357 +1,1356
1 '''
1 '''
2 @author: Daniel Suarez
2 @author: Daniel Suarez
3 '''
3 '''
4 import os
4 import os
5 import datetime
5 import datetime
6 import numpy
6 import numpy
7
7
8 from figure import Figure, isRealtime
8 from figure import Figure, isRealtime
9
9
10 class SpectraPlot(Figure):
10 class SpectraPlot(Figure):
11
11
12 isConfig = None
12 isConfig = None
13 __nsubplots = None
13 __nsubplots = None
14
14
15 WIDTHPROF = None
15 WIDTHPROF = None
16 HEIGHTPROF = None
16 HEIGHTPROF = None
17 PREFIX = 'spc'
17 PREFIX = 'spc'
18
18
19 def __init__(self):
19 def __init__(self):
20
20
21 self.isConfig = False
21 self.isConfig = False
22 self.__nsubplots = 1
22 self.__nsubplots = 1
23
23
24 self.WIDTH = 280
24 self.WIDTH = 280
25 self.HEIGHT = 250
25 self.HEIGHT = 250
26 self.WIDTHPROF = 120
26 self.WIDTHPROF = 120
27 self.HEIGHTPROF = 0
27 self.HEIGHTPROF = 0
28 self.counter_imagwr = 0
28 self.counter_imagwr = 0
29
29
30 self.PLOT_CODE = 1
30 self.PLOT_CODE = 1
31 self.FTP_WEI = None
31 self.FTP_WEI = None
32 self.EXP_CODE = None
32 self.EXP_CODE = None
33 self.SUB_EXP_CODE = None
33 self.SUB_EXP_CODE = None
34 self.PLOT_POS = None
34 self.PLOT_POS = None
35
35
36 def getSubplots(self):
36 def getSubplots(self):
37
37
38 ncol = int(numpy.sqrt(self.nplots)+0.9)
38 ncol = int(numpy.sqrt(self.nplots)+0.9)
39 nrow = int(self.nplots*1./ncol + 0.9)
39 nrow = int(self.nplots*1./ncol + 0.9)
40
40
41 return nrow, ncol
41 return nrow, ncol
42
42
43 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
43 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
44
44
45 self.__showprofile = showprofile
45 self.__showprofile = showprofile
46 self.nplots = nplots
46 self.nplots = nplots
47
47
48 ncolspan = 1
48 ncolspan = 1
49 colspan = 1
49 colspan = 1
50 if showprofile:
50 if showprofile:
51 ncolspan = 3
51 ncolspan = 3
52 colspan = 2
52 colspan = 2
53 self.__nsubplots = 2
53 self.__nsubplots = 2
54
54
55 self.createFigure(id = id,
55 self.createFigure(id = id,
56 wintitle = wintitle,
56 wintitle = wintitle,
57 widthplot = self.WIDTH + self.WIDTHPROF,
57 widthplot = self.WIDTH + self.WIDTHPROF,
58 heightplot = self.HEIGHT + self.HEIGHTPROF,
58 heightplot = self.HEIGHT + self.HEIGHTPROF,
59 show=show)
59 show=show)
60
60
61 nrow, ncol = self.getSubplots()
61 nrow, ncol = self.getSubplots()
62
62
63 counter = 0
63 counter = 0
64 for y in range(nrow):
64 for y in range(nrow):
65 for x in range(ncol):
65 for x in range(ncol):
66
66
67 if counter >= self.nplots:
67 if counter >= self.nplots:
68 break
68 break
69
69
70 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
70 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
71
71
72 if showprofile:
72 if showprofile:
73 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
73 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
74
74
75 counter += 1
75 counter += 1
76
76
77 def run(self, dataOut, id, wintitle="", channelList=None, showprofile=True,
77 def run(self, dataOut, id, wintitle="", channelList=None, showprofile=True,
78 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
78 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
79 save=False, figpath='', figfile=None, show=True, ftp=False, wr_period=1,
79 save=False, figpath='', figfile=None, show=True, ftp=False, wr_period=1,
80 server=None, folder=None, username=None, password=None,
80 server=None, folder=None, username=None, password=None,
81 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0, realtime=False):
81 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0, realtime=False):
82
82
83 """
83 """
84
84
85 Input:
85 Input:
86 dataOut :
86 dataOut :
87 id :
87 id :
88 wintitle :
88 wintitle :
89 channelList :
89 channelList :
90 showProfile :
90 showProfile :
91 xmin : None,
91 xmin : None,
92 xmax : None,
92 xmax : None,
93 ymin : None,
93 ymin : None,
94 ymax : None,
94 ymax : None,
95 zmin : None,
95 zmin : None,
96 zmax : None
96 zmax : None
97 """
97 """
98
98
99 if dataOut.flagNoData:
99 if dataOut.flagNoData:
100 return None
100 return None
101
101
102 if realtime:
102 if realtime:
103 if not(isRealtime(utcdatatime = dataOut.utctime)):
103 if not(isRealtime(utcdatatime = dataOut.utctime)):
104 print 'Skipping this plot function'
104 print 'Skipping this plot function'
105 return
105 return
106
106
107 if channelList == None:
107 if channelList == None:
108 channelIndexList = dataOut.channelIndexList
108 channelIndexList = dataOut.channelIndexList
109 else:
109 else:
110 channelIndexList = []
110 channelIndexList = []
111 for channel in channelList:
111 for channel in channelList:
112 if channel not in dataOut.channelList:
112 if channel not in dataOut.channelList:
113 raise ValueError, "Channel %d is not in dataOut.channelList"
113 raise ValueError, "Channel %d is not in dataOut.channelList"
114 channelIndexList.append(dataOut.channelList.index(channel))
114 channelIndexList.append(dataOut.channelList.index(channel))
115
115
116 factor = dataOut.normFactor
116 factor = dataOut.normFactor
117
117
118 x = dataOut.getVelRange(1)
118 x = dataOut.getVelRange(1)
119 y = dataOut.getHeiRange()
119 y = dataOut.getHeiRange()
120
120
121 z = dataOut.data_spc[channelIndexList,:,:]/factor
121 z = dataOut.data_spc[channelIndexList,:,:]/factor
122 z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
122 z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
123 avg = numpy.average(z, axis=1)
123 avg = numpy.average(z, axis=1)
124 #avg = numpy.nanmean(z, axis=1)
124 #avg = numpy.nanmean(z, axis=1)
125 noise = dataOut.noise/factor
125 noise = dataOut.noise/factor
126
126
127 zdB = 10*numpy.log10(z)
127 zdB = 10*numpy.log10(z)
128 avgdB = 10*numpy.log10(avg)
128 avgdB = 10*numpy.log10(avg)
129 noisedB = 10*numpy.log10(noise)
129 noisedB = 10*numpy.log10(noise)
130
130
131 #thisDatetime = dataOut.datatime
131 #thisDatetime = dataOut.datatime
132 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
132 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
133 title = wintitle + " Spectra"
133 title = wintitle + " Spectra"
134 if ((dataOut.azimuth!=None) and (dataOut.zenith!=None)):
134 if ((dataOut.azimuth!=None) and (dataOut.zenith!=None)):
135 title = title + '_' + 'azimuth,zenith=%2.2f,%2.2f'%(dataOut.azimuth, dataOut.zenith)
135 title = title + '_' + 'azimuth,zenith=%2.2f,%2.2f'%(dataOut.azimuth, dataOut.zenith)
136
136
137 xlabel = "Velocity (m/s)"
137 xlabel = "Velocity (m/s)"
138 ylabel = "Range (Km)"
138 ylabel = "Range (Km)"
139
139
140 if not self.isConfig:
140 if not self.isConfig:
141
141
142 nplots = len(channelIndexList)
142 nplots = len(channelIndexList)
143
143
144 self.setup(id=id,
144 self.setup(id=id,
145 nplots=nplots,
145 nplots=nplots,
146 wintitle=wintitle,
146 wintitle=wintitle,
147 showprofile=showprofile,
147 showprofile=showprofile,
148 show=show)
148 show=show)
149
149
150 if xmin == None: xmin = numpy.nanmin(x)
150 if xmin == None: xmin = numpy.nanmin(x)
151 if xmax == None: xmax = numpy.nanmax(x)
151 if xmax == None: xmax = numpy.nanmax(x)
152 if ymin == None: ymin = numpy.nanmin(y)
152 if ymin == None: ymin = numpy.nanmin(y)
153 if ymax == None: ymax = numpy.nanmax(y)
153 if ymax == None: ymax = numpy.nanmax(y)
154 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
154 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
155 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
155 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
156
156
157 self.FTP_WEI = ftp_wei
157 self.FTP_WEI = ftp_wei
158 self.EXP_CODE = exp_code
158 self.EXP_CODE = exp_code
159 self.SUB_EXP_CODE = sub_exp_code
159 self.SUB_EXP_CODE = sub_exp_code
160 self.PLOT_POS = plot_pos
160 self.PLOT_POS = plot_pos
161
161
162 self.isConfig = True
162 self.isConfig = True
163
163
164 self.setWinTitle(title)
164 self.setWinTitle(title)
165
165
166 for i in range(self.nplots):
166 for i in range(self.nplots):
167 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
167 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
168 title = "Channel %d: %4.2fdB: %s" %(dataOut.channelList[i]+1, noisedB[i], str_datetime)
168 title = "Channel %d: %4.2fdB: %s" %(dataOut.channelList[i]+1, noisedB[i], str_datetime)
169 if len(dataOut.beam.codeList) != 0:
169 if len(dataOut.beam.codeList) != 0:
170 title = "Ch%d:%4.2fdB,%2.2f,%2.2f:%s" %(dataOut.channelList[i]+1, noisedB[i], dataOut.beam.azimuthList[i], dataOut.beam.zenithList[i], str_datetime)
170 title = "Ch%d:%4.2fdB,%2.2f,%2.2f:%s" %(dataOut.channelList[i]+1, noisedB[i], dataOut.beam.azimuthList[i], dataOut.beam.zenithList[i], str_datetime)
171
171
172 axes = self.axesList[i*self.__nsubplots]
172 axes = self.axesList[i*self.__nsubplots]
173 axes.pcolor(x, y, zdB[i,:,:],
173 axes.pcolor(x, y, zdB[i,:,:],
174 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
174 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
175 xlabel=xlabel, ylabel=ylabel, title=title,
175 xlabel=xlabel, ylabel=ylabel, title=title,
176 ticksize=9, cblabel='')
176 ticksize=9, cblabel='')
177
177
178 if self.__showprofile:
178 if self.__showprofile:
179 axes = self.axesList[i*self.__nsubplots +1]
179 axes = self.axesList[i*self.__nsubplots +1]
180 axes.pline(avgdB[i], y,
180 axes.pline(avgdB[i], y,
181 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
181 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
182 xlabel='dB', ylabel='', title='',
182 xlabel='dB', ylabel='', title='',
183 ytick_visible=False,
183 ytick_visible=False,
184 grid='x')
184 grid='x')
185
185
186 noiseline = numpy.repeat(noisedB[i], len(y))
186 noiseline = numpy.repeat(noisedB[i], len(y))
187 axes.addpline(noiseline, y, idline=1, color="black", linestyle="dashed", lw=2)
187 axes.addpline(noiseline, y, idline=1, color="black", linestyle="dashed", lw=2)
188
188
189 self.draw()
189 self.draw()
190
190
191 if figfile == None:
191 if figfile == None:
192 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
192 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
193 figfile = self.getFilename(name = str_datetime)
193 figfile = self.getFilename(name = str_datetime)
194 name = str_datetime
194 name = str_datetime
195 if ((dataOut.azimuth!=None) and (dataOut.zenith!=None)):
195 if ((dataOut.azimuth!=None) and (dataOut.zenith!=None)):
196 name = name + '_az' + '_%2.2f'%(dataOut.azimuth) + '_zn' + '_%2.2f'%(dataOut.zenith)
196 name = name + '_az' + '_%2.2f'%(dataOut.azimuth) + '_zn' + '_%2.2f'%(dataOut.zenith)
197 figfile = self.getFilename(name)
197 figfile = self.getFilename(name)
198 if figpath != '':
198 if figpath != '':
199 self.counter_imagwr += 1
199 self.counter_imagwr += 1
200 if (self.counter_imagwr>=wr_period):
200 if (self.counter_imagwr>=wr_period):
201 # store png plot to local folder
201 # store png plot to local folder
202 self.saveFigure(figpath, figfile)
202 self.saveFigure(figpath, figfile)
203 # store png plot to FTP server according to RT-Web format
203 # store png plot to FTP server according to RT-Web format
204 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
204 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
205 ftp_filename = os.path.join(figpath, name)
205 ftp_filename = os.path.join(figpath, name)
206 self.saveFigure(figpath, ftp_filename)
206 self.saveFigure(figpath, ftp_filename)
207 self.counter_imagwr = 0
207 self.counter_imagwr = 0
208
208
209
209
210 class CrossSpectraPlot(Figure):
210 class CrossSpectraPlot(Figure):
211
211
212 isConfig = None
212 isConfig = None
213 __nsubplots = None
213 __nsubplots = None
214
214
215 WIDTH = None
215 WIDTH = None
216 HEIGHT = None
216 HEIGHT = None
217 WIDTHPROF = None
217 WIDTHPROF = None
218 HEIGHTPROF = None
218 HEIGHTPROF = None
219 PREFIX = 'cspc'
219 PREFIX = 'cspc'
220
220
221 def __init__(self):
221 def __init__(self):
222
222
223 self.isConfig = False
223 self.isConfig = False
224 self.__nsubplots = 4
224 self.__nsubplots = 4
225 self.counter_imagwr = 0
225 self.counter_imagwr = 0
226 self.WIDTH = 250
226 self.WIDTH = 250
227 self.HEIGHT = 250
227 self.HEIGHT = 250
228 self.WIDTHPROF = 0
228 self.WIDTHPROF = 0
229 self.HEIGHTPROF = 0
229 self.HEIGHTPROF = 0
230
230
231 self.PLOT_CODE = 1
231 self.PLOT_CODE = 1
232 self.FTP_WEI = None
232 self.FTP_WEI = None
233 self.EXP_CODE = None
233 self.EXP_CODE = None
234 self.SUB_EXP_CODE = None
234 self.SUB_EXP_CODE = None
235 self.PLOT_POS = None
235 self.PLOT_POS = None
236
236
237 def getSubplots(self):
237 def getSubplots(self):
238
238
239 ncol = 4
239 ncol = 4
240 nrow = self.nplots
240 nrow = self.nplots
241
241
242 return nrow, ncol
242 return nrow, ncol
243
243
244 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
244 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
245
245
246 self.__showprofile = showprofile
246 self.__showprofile = showprofile
247 self.nplots = nplots
247 self.nplots = nplots
248
248
249 ncolspan = 1
249 ncolspan = 1
250 colspan = 1
250 colspan = 1
251
251
252 self.createFigure(id = id,
252 self.createFigure(id = id,
253 wintitle = wintitle,
253 wintitle = wintitle,
254 widthplot = self.WIDTH + self.WIDTHPROF,
254 widthplot = self.WIDTH + self.WIDTHPROF,
255 heightplot = self.HEIGHT + self.HEIGHTPROF,
255 heightplot = self.HEIGHT + self.HEIGHTPROF,
256 show=True)
256 show=True)
257
257
258 nrow, ncol = self.getSubplots()
258 nrow, ncol = self.getSubplots()
259
259
260 counter = 0
260 counter = 0
261 for y in range(nrow):
261 for y in range(nrow):
262 for x in range(ncol):
262 for x in range(ncol):
263 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
263 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
264
264
265 counter += 1
265 counter += 1
266
266
267 def run(self, dataOut, id, wintitle="", pairsList=None,
267 def run(self, dataOut, id, wintitle="", pairsList=None,
268 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
268 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
269 save=False, figpath='', figfile=None, ftp=False, wr_period=1,
269 save=False, figpath='', figfile=None, ftp=False, wr_period=1,
270 power_cmap='jet', coherence_cmap='jet', phase_cmap='RdBu_r', show=True,
270 power_cmap='jet', coherence_cmap='jet', phase_cmap='RdBu_r', show=True,
271 server=None, folder=None, username=None, password=None,
271 server=None, folder=None, username=None, password=None,
272 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
272 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
273
273
274 """
274 """
275
275
276 Input:
276 Input:
277 dataOut :
277 dataOut :
278 id :
278 id :
279 wintitle :
279 wintitle :
280 channelList :
280 channelList :
281 showProfile :
281 showProfile :
282 xmin : None,
282 xmin : None,
283 xmax : None,
283 xmax : None,
284 ymin : None,
284 ymin : None,
285 ymax : None,
285 ymax : None,
286 zmin : None,
286 zmin : None,
287 zmax : None
287 zmax : None
288 """
288 """
289
289
290 if pairsList == None:
290 if pairsList == None:
291 pairsIndexList = dataOut.pairsIndexList
291 pairsIndexList = dataOut.pairsIndexList
292 else:
292 else:
293 pairsIndexList = []
293 pairsIndexList = []
294 for pair in pairsList:
294 for pair in pairsList:
295 if pair not in dataOut.pairsList:
295 if pair not in dataOut.pairsList:
296 raise ValueError, "Pair %s is not in dataOut.pairsList" %(pair)
296 raise ValueError, "Pair %s is not in dataOut.pairsList" %(pair)
297 pairsIndexList.append(dataOut.pairsList.index(pair))
297 pairsIndexList.append(dataOut.pairsList.index(pair))
298
298
299 if pairsIndexList == []:
299 if pairsIndexList == []:
300 return
300 return
301
301
302 if len(pairsIndexList) > 4:
302 if len(pairsIndexList) > 4:
303 pairsIndexList = pairsIndexList[0:4]
303 pairsIndexList = pairsIndexList[0:4]
304 factor = dataOut.normFactor
304 factor = dataOut.normFactor
305 x = dataOut.getVelRange(1)
305 x = dataOut.getVelRange(1)
306 y = dataOut.getHeiRange()
306 y = dataOut.getHeiRange()
307 z = dataOut.data_spc[:,:,:]/factor
307 z = dataOut.data_spc[:,:,:]/factor
308 # z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
308 # z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
309 avg = numpy.abs(numpy.average(z, axis=1))
309 avg = numpy.abs(numpy.average(z, axis=1))
310 noise = dataOut.noise()/factor
310 noise = dataOut.noise()/factor
311
311
312 zdB = 10*numpy.log10(z)
312 zdB = 10*numpy.log10(z)
313 avgdB = 10*numpy.log10(avg)
313 avgdB = 10*numpy.log10(avg)
314 noisedB = 10*numpy.log10(noise)
314 noisedB = 10*numpy.log10(noise)
315
315
316
316
317 #thisDatetime = dataOut.datatime
317 #thisDatetime = dataOut.datatime
318 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
318 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
319 title = wintitle + " Cross-Spectra: %s" %(thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
319 title = wintitle + " Cross-Spectra: %s" %(thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
320 xlabel = "Velocity (m/s)"
320 xlabel = "Velocity (m/s)"
321 ylabel = "Range (Km)"
321 ylabel = "Range (Km)"
322
322
323 if not self.isConfig:
323 if not self.isConfig:
324
324
325 nplots = len(pairsIndexList)
325 nplots = len(pairsIndexList)
326
326
327 self.setup(id=id,
327 self.setup(id=id,
328 nplots=nplots,
328 nplots=nplots,
329 wintitle=wintitle,
329 wintitle=wintitle,
330 showprofile=False,
330 showprofile=False,
331 show=show)
331 show=show)
332
332
333 if xmin == None: xmin = numpy.nanmin(x)
333 if xmin == None: xmin = numpy.nanmin(x)
334 if xmax == None: xmax = numpy.nanmax(x)
334 if xmax == None: xmax = numpy.nanmax(x)
335 if ymin == None: ymin = numpy.nanmin(y)
335 if ymin == None: ymin = numpy.nanmin(y)
336 if ymax == None: ymax = numpy.nanmax(y)
336 if ymax == None: ymax = numpy.nanmax(y)
337 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
337 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
338 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
338 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
339
339
340 self.FTP_WEI = ftp_wei
340 self.FTP_WEI = ftp_wei
341 self.EXP_CODE = exp_code
341 self.EXP_CODE = exp_code
342 self.SUB_EXP_CODE = sub_exp_code
342 self.SUB_EXP_CODE = sub_exp_code
343 self.PLOT_POS = plot_pos
343 self.PLOT_POS = plot_pos
344
344
345 self.isConfig = True
345 self.isConfig = True
346
346
347 self.setWinTitle(title)
347 self.setWinTitle(title)
348
348
349 for i in range(self.nplots):
349 for i in range(self.nplots):
350 pair = dataOut.pairsList[pairsIndexList[i]]
350 pair = dataOut.pairsList[pairsIndexList[i]]
351 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
351 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
352 title = "Ch%d: %4.2fdB: %s" %(pair[0], noisedB[pair[0]], str_datetime)
352 title = "Ch%d: %4.2fdB: %s" %(pair[0], noisedB[pair[0]], str_datetime)
353 zdB = 10.*numpy.log10(dataOut.data_spc[pair[0],:,:]/factor)
353 zdB = 10.*numpy.log10(dataOut.data_spc[pair[0],:,:]/factor)
354 axes0 = self.axesList[i*self.__nsubplots]
354 axes0 = self.axesList[i*self.__nsubplots]
355 axes0.pcolor(x, y, zdB,
355 axes0.pcolor(x, y, zdB,
356 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
356 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
357 xlabel=xlabel, ylabel=ylabel, title=title,
357 xlabel=xlabel, ylabel=ylabel, title=title,
358 ticksize=9, colormap=power_cmap, cblabel='')
358 ticksize=9, colormap=power_cmap, cblabel='')
359
359
360 title = "Ch%d: %4.2fdB: %s" %(pair[1], noisedB[pair[1]], str_datetime)
360 title = "Ch%d: %4.2fdB: %s" %(pair[1], noisedB[pair[1]], str_datetime)
361 zdB = 10.*numpy.log10(dataOut.data_spc[pair[1],:,:]/factor)
361 zdB = 10.*numpy.log10(dataOut.data_spc[pair[1],:,:]/factor)
362 axes0 = self.axesList[i*self.__nsubplots+1]
362 axes0 = self.axesList[i*self.__nsubplots+1]
363 axes0.pcolor(x, y, zdB,
363 axes0.pcolor(x, y, zdB,
364 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
364 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
365 xlabel=xlabel, ylabel=ylabel, title=title,
365 xlabel=xlabel, ylabel=ylabel, title=title,
366 ticksize=9, colormap=power_cmap, cblabel='')
366 ticksize=9, colormap=power_cmap, cblabel='')
367
367
368 coherenceComplex = dataOut.data_cspc[pairsIndexList[i],:,:]/numpy.sqrt(dataOut.data_spc[pair[0],:,:]*dataOut.data_spc[pair[1],:,:])
368 coherenceComplex = dataOut.data_cspc[pairsIndexList[i],:,:]/numpy.sqrt(dataOut.data_spc[pair[0],:,:]*dataOut.data_spc[pair[1],:,:])
369 coherence = numpy.abs(coherenceComplex)
369 coherence = numpy.abs(coherenceComplex)
370 # phase = numpy.arctan(-1*coherenceComplex.imag/coherenceComplex.real)*180/numpy.pi
370 # phase = numpy.arctan(-1*coherenceComplex.imag/coherenceComplex.real)*180/numpy.pi
371 phase = numpy.arctan2(coherenceComplex.imag, coherenceComplex.real)*180/numpy.pi
371 phase = numpy.arctan2(coherenceComplex.imag, coherenceComplex.real)*180/numpy.pi
372
372
373 title = "Coherence %d%d" %(pair[0], pair[1])
373 title = "Coherence %d%d" %(pair[0], pair[1])
374 axes0 = self.axesList[i*self.__nsubplots+2]
374 axes0 = self.axesList[i*self.__nsubplots+2]
375 axes0.pcolor(x, y, coherence,
375 axes0.pcolor(x, y, coherence,
376 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=0, zmax=1,
376 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=0, zmax=1,
377 xlabel=xlabel, ylabel=ylabel, title=title,
377 xlabel=xlabel, ylabel=ylabel, title=title,
378 ticksize=9, colormap=coherence_cmap, cblabel='')
378 ticksize=9, colormap=coherence_cmap, cblabel='')
379
379
380 title = "Phase %d%d" %(pair[0], pair[1])
380 title = "Phase %d%d" %(pair[0], pair[1])
381 axes0 = self.axesList[i*self.__nsubplots+3]
381 axes0 = self.axesList[i*self.__nsubplots+3]
382 axes0.pcolor(x, y, phase,
382 axes0.pcolor(x, y, phase,
383 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=-180, zmax=180,
383 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=-180, zmax=180,
384 xlabel=xlabel, ylabel=ylabel, title=title,
384 xlabel=xlabel, ylabel=ylabel, title=title,
385 ticksize=9, colormap=phase_cmap, cblabel='')
385 ticksize=9, colormap=phase_cmap, cblabel='')
386
386
387
387
388
388
389 self.draw()
389 self.draw()
390
390
391 if figfile == None:
391 if figfile == None:
392 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
392 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
393 figfile = self.getFilename(name = str_datetime)
393 figfile = self.getFilename(name = str_datetime)
394
394
395 if figpath != '':
395 if figpath != '':
396 self.counter_imagwr += 1
396 self.counter_imagwr += 1
397 if (self.counter_imagwr>=wr_period):
397 if (self.counter_imagwr>=wr_period):
398 # store png plot to local folder
398 # store png plot to local folder
399 self.saveFigure(figpath, figfile)
399 self.saveFigure(figpath, figfile)
400 # store png plot to FTP server according to RT-Web format
400 # store png plot to FTP server according to RT-Web format
401 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
401 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
402 ftp_filename = os.path.join(figpath, name)
402 ftp_filename = os.path.join(figpath, name)
403 self.saveFigure(figpath, ftp_filename)
403 self.saveFigure(figpath, ftp_filename)
404 self.counter_imagwr = 0
404 self.counter_imagwr = 0
405
405
406
406
407 class RTIPlot(Figure):
407 class RTIPlot(Figure):
408
408
409 isConfig = None
409 __isConfig = None
410 __nsubplots = None
410 __nsubplots = None
411
411
412 WIDTHPROF = None
412 WIDTHPROF = None
413 HEIGHTPROF = None
413 HEIGHTPROF = None
414 PREFIX = 'rti'
414 PREFIX = 'rti'
415
415
416 def __init__(self):
416 def __init__(self):
417
417
418 self.timerange = 2*60*60
418 self.timerange = 2*60*60
419 self.isConfig = False
419 self.__isConfig = False
420 self.__nsubplots = 1
420 self.__nsubplots = 1
421
421
422 self.WIDTH = 800
422 self.WIDTH = 800
423 self.HEIGHT = 150
423 self.HEIGHT = 150
424 self.WIDTHPROF = 120
424 self.WIDTHPROF = 120
425 self.HEIGHTPROF = 0
425 self.HEIGHTPROF = 0
426 self.counter_imagwr = 0
426 self.counter_imagwr = 0
427
427
428 self.PLOT_CODE = 0
428 self.PLOT_CODE = 0
429 self.FTP_WEI = None
429 self.FTP_WEI = None
430 self.EXP_CODE = None
430 self.EXP_CODE = None
431 self.SUB_EXP_CODE = None
431 self.SUB_EXP_CODE = None
432 self.PLOT_POS = None
432 self.PLOT_POS = None
433 self.tmin = None
433 self.tmin = None
434 self.tmax = None
434 self.tmax = None
435
435
436 self.xmin = None
436 self.xmin = None
437 self.xmax = None
437 self.xmax = None
438
438
439 self.figfile = None
439 self.figfile = None
440
440
441 def getSubplots(self):
441 def getSubplots(self):
442
442
443 ncol = 1
443 ncol = 1
444 nrow = self.nplots
444 nrow = self.nplots
445
445
446 return nrow, ncol
446 return nrow, ncol
447
447
448 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
448 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
449
449
450 self.__showprofile = showprofile
450 self.__showprofile = showprofile
451 self.nplots = nplots
451 self.nplots = nplots
452
452
453 ncolspan = 1
453 ncolspan = 1
454 colspan = 1
454 colspan = 1
455 if showprofile:
455 if showprofile:
456 ncolspan = 7
456 ncolspan = 7
457 colspan = 6
457 colspan = 6
458 self.__nsubplots = 2
458 self.__nsubplots = 2
459
459
460 self.createFigure(id = id,
460 self.createFigure(id = id,
461 wintitle = wintitle,
461 wintitle = wintitle,
462 widthplot = self.WIDTH + self.WIDTHPROF,
462 widthplot = self.WIDTH + self.WIDTHPROF,
463 heightplot = self.HEIGHT + self.HEIGHTPROF,
463 heightplot = self.HEIGHT + self.HEIGHTPROF,
464 show=show)
464 show=show)
465
465
466 nrow, ncol = self.getSubplots()
466 nrow, ncol = self.getSubplots()
467
467
468 counter = 0
468 counter = 0
469 for y in range(nrow):
469 for y in range(nrow):
470 for x in range(ncol):
470 for x in range(ncol):
471
471
472 if counter >= self.nplots:
472 if counter >= self.nplots:
473 break
473 break
474
474
475 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
475 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
476
476
477 if showprofile:
477 if showprofile:
478 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
478 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
479
479
480 counter += 1
480 counter += 1
481
481
482 def run(self, dataOut, id, wintitle="", channelList=None, showprofile='True',
482 def run(self, dataOut, id, wintitle="", channelList=None, showprofile='True',
483 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
483 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
484 timerange=None,
484 timerange=None,
485 save=False, figpath='', lastone=0,figfile=None, ftp=False, wr_period=1, show=True,
485 save=False, figpath='', lastone=0,figfile=None, ftp=False, wr_period=1, show=True,
486 server=None, folder=None, username=None, password=None,
486 server=None, folder=None, username=None, password=None,
487 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
487 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
488
488
489 """
489 """
490
490
491 Input:
491 Input:
492 dataOut :
492 dataOut :
493 id :
493 id :
494 wintitle :
494 wintitle :
495 channelList :
495 channelList :
496 showProfile :
496 showProfile :
497 xmin : None,
497 xmin : None,
498 xmax : None,
498 xmax : None,
499 ymin : None,
499 ymin : None,
500 ymax : None,
500 ymax : None,
501 zmin : None,
501 zmin : None,
502 zmax : None
502 zmax : None
503 """
503 """
504
504
505 if channelList == None:
505 if channelList == None:
506 channelIndexList = dataOut.channelIndexList
506 channelIndexList = dataOut.channelIndexList
507 else:
507 else:
508 channelIndexList = []
508 channelIndexList = []
509 for channel in channelList:
509 for channel in channelList:
510 if channel not in dataOut.channelList:
510 if channel not in dataOut.channelList:
511 raise ValueError, "Channel %d is not in dataOut.channelList"
511 raise ValueError, "Channel %d is not in dataOut.channelList"
512 channelIndexList.append(dataOut.channelList.index(channel))
512 channelIndexList.append(dataOut.channelList.index(channel))
513
513
514 if timerange != None:
514 if timerange != None:
515 self.timerange = timerange
515 self.timerange = timerange
516
516
517 #tmin = None
517 #tmin = None
518 #tmax = None
518 #tmax = None
519 factor = dataOut.normFactor
519 factor = dataOut.normFactor
520 x = dataOut.getTimeRange()
520 x = dataOut.getTimeRange()
521 y = dataOut.getHeiRange()
521 y = dataOut.getHeiRange()
522
522
523 z = dataOut.data_spc[channelIndexList,:,:]/factor
523 z = dataOut.data_spc[channelIndexList,:,:]/factor
524 z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
524 z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
525 avg = numpy.average(z, axis=1)
525 avg = numpy.average(z, axis=1)
526
526
527 avgdB = 10.*numpy.log10(avg)
527 avgdB = 10.*numpy.log10(avg)
528
528
529
529
530 # thisDatetime = dataOut.datatime
530 # thisDatetime = dataOut.datatime
531 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
531 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
532 title = wintitle + " RTI" #: %s" %(thisDatetime.strftime("%d-%b-%Y"))
532 title = wintitle + " RTI" #: %s" %(thisDatetime.strftime("%d-%b-%Y"))
533 xlabel = ""
533 xlabel = ""
534 ylabel = "Range (Km)"
534 ylabel = "Range (Km)"
535
535
536 if not self.isConfig:
536 if not self.__isConfig:
537
537
538 nplots = len(channelIndexList)
538 nplots = len(channelIndexList)
539
539
540 self.setup(id=id,
540 self.setup(id=id,
541 nplots=nplots,
541 nplots=nplots,
542 wintitle=wintitle,
542 wintitle=wintitle,
543 showprofile=showprofile,
543 showprofile=showprofile,
544 show=show)
544 show=show)
545
545
546 self.xmin, self.xmax = self.getTimeLim(x, xmin, xmax, timerange)
546 self.xmin, self.xmax = self.getTimeLim(x, xmin, xmax, timerange)
547
547
548 # if timerange != None:
548 # if timerange != None:
549 # self.timerange = timerange
549 # self.timerange = timerange
550 # self.xmin, self.tmax = self.getTimeLim(x, xmin, xmax, timerange)
550 # self.xmin, self.tmax = self.getTimeLim(x, xmin, xmax, timerange)
551
551
552
552
553
553
554 if ymin == None: ymin = numpy.nanmin(y)
554 if ymin == None: ymin = numpy.nanmin(y)
555 if ymax == None: ymax = numpy.nanmax(y)
555 if ymax == None: ymax = numpy.nanmax(y)
556 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
556 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
557 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
557 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
558
558
559 self.FTP_WEI = ftp_wei
559 self.FTP_WEI = ftp_wei
560 self.EXP_CODE = exp_code
560 self.EXP_CODE = exp_code
561 self.SUB_EXP_CODE = sub_exp_code
561 self.SUB_EXP_CODE = sub_exp_code
562 self.PLOT_POS = plot_pos
562 self.PLOT_POS = plot_pos
563
563
564 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
564 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
565 self.isConfig = True
565 self.__isConfig = True
566 self.figfile = figfile
566 self.figfile = figfile
567
567
568 self.setWinTitle(title)
568 self.setWinTitle(title)
569
569
570 if ((self.xmax - x[1]) < (x[1]-x[0])):
570 if ((self.xmax - x[1]) < (x[1]-x[0])):
571 x[1] = self.xmax
571 x[1] = self.xmax
572
572
573 for i in range(self.nplots):
573 for i in range(self.nplots):
574 title = "Channel %d: %s" %(dataOut.channelList[i]+1, thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
574 title = "Channel %d: %s" %(dataOut.channelList[i]+1, thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
575 if ((dataOut.azimuth!=None) and (dataOut.zenith!=None)):
575 if ((dataOut.azimuth!=None) and (dataOut.zenith!=None)):
576 title = title + '_' + 'azimuth,zenith=%2.2f,%2.2f'%(dataOut.azimuth, dataOut.zenith)
576 title = title + '_' + 'azimuth,zenith=%2.2f,%2.2f'%(dataOut.azimuth, dataOut.zenith)
577 axes = self.axesList[i*self.__nsubplots]
577 axes = self.axesList[i*self.__nsubplots]
578 zdB = avgdB[i].reshape((1,-1))
578 zdB = avgdB[i].reshape((1,-1))
579 axes.pcolorbuffer(x, y, zdB,
579 axes.pcolorbuffer(x, y, zdB,
580 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
580 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
581 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
581 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
582 ticksize=9, cblabel='', cbsize="1%")
582 ticksize=9, cblabel='', cbsize="1%")
583
583
584 if self.__showprofile:
584 if self.__showprofile:
585 axes = self.axesList[i*self.__nsubplots +1]
585 axes = self.axesList[i*self.__nsubplots +1]
586 axes.pline(avgdB[i], y,
586 axes.pline(avgdB[i], y,
587 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
587 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
588 xlabel='dB', ylabel='', title='',
588 xlabel='dB', ylabel='', title='',
589 ytick_visible=False,
589 ytick_visible=False,
590 grid='x')
590 grid='x')
591
591
592 self.draw()
592 self.draw()
593
593
594 if x[1] >= self.axesList[0].xmax:
595 self.counter_imagwr = wr_period
596 self.__isConfig = False
597
598
599 if self.figfile == None:
594 if self.figfile == None:
600 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
595 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
601 self.figfile = self.getFilename(name = str_datetime)
596 self.figfile = self.getFilename(name = str_datetime)
602
597
603 if figpath != '':
598 if figpath != '':
604
599
605 self.counter_imagwr += 1
600 self.counter_imagwr += 1
606 if (self.counter_imagwr>=wr_period):
601 if (self.counter_imagwr>=wr_period):
607 # store png plot to local folder
602 # store png plot to local folder
608 self.saveFigure(figpath, self.figfile)
603 self.saveFigure(figpath, self.figfile)
609 # store png plot to FTP server according to RT-Web format
604 # store png plot to FTP server according to RT-Web format
610 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
605 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
611 ftp_filename = os.path.join(figpath, name)
606 ftp_filename = os.path.join(figpath, name)
612 self.saveFigure(figpath, ftp_filename)
607 self.saveFigure(figpath, ftp_filename)
613
608
614 self.counter_imagwr = 0
609 self.counter_imagwr = 0
615
610
611 if x[1] >= self.axesList[0].xmax:
612 self.counter_imagwr = wr_period
613 self.__isConfig = False
614 self.figfile = None
616
615
617 class CoherenceMap(Figure):
616 class CoherenceMap(Figure):
618 isConfig = None
617 isConfig = None
619 __nsubplots = None
618 __nsubplots = None
620
619
621 WIDTHPROF = None
620 WIDTHPROF = None
622 HEIGHTPROF = None
621 HEIGHTPROF = None
623 PREFIX = 'cmap'
622 PREFIX = 'cmap'
624
623
625 def __init__(self):
624 def __init__(self):
626 self.timerange = 2*60*60
625 self.timerange = 2*60*60
627 self.isConfig = False
626 self.isConfig = False
628 self.__nsubplots = 1
627 self.__nsubplots = 1
629
628
630 self.WIDTH = 800
629 self.WIDTH = 800
631 self.HEIGHT = 150
630 self.HEIGHT = 150
632 self.WIDTHPROF = 120
631 self.WIDTHPROF = 120
633 self.HEIGHTPROF = 0
632 self.HEIGHTPROF = 0
634 self.counter_imagwr = 0
633 self.counter_imagwr = 0
635
634
636 self.PLOT_CODE = 3
635 self.PLOT_CODE = 3
637 self.FTP_WEI = None
636 self.FTP_WEI = None
638 self.EXP_CODE = None
637 self.EXP_CODE = None
639 self.SUB_EXP_CODE = None
638 self.SUB_EXP_CODE = None
640 self.PLOT_POS = None
639 self.PLOT_POS = None
641 self.counter_imagwr = 0
640 self.counter_imagwr = 0
642
641
643 self.xmin = None
642 self.xmin = None
644 self.xmax = None
643 self.xmax = None
645
644
646 def getSubplots(self):
645 def getSubplots(self):
647 ncol = 1
646 ncol = 1
648 nrow = self.nplots*2
647 nrow = self.nplots*2
649
648
650 return nrow, ncol
649 return nrow, ncol
651
650
652 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
651 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
653 self.__showprofile = showprofile
652 self.__showprofile = showprofile
654 self.nplots = nplots
653 self.nplots = nplots
655
654
656 ncolspan = 1
655 ncolspan = 1
657 colspan = 1
656 colspan = 1
658 if showprofile:
657 if showprofile:
659 ncolspan = 7
658 ncolspan = 7
660 colspan = 6
659 colspan = 6
661 self.__nsubplots = 2
660 self.__nsubplots = 2
662
661
663 self.createFigure(id = id,
662 self.createFigure(id = id,
664 wintitle = wintitle,
663 wintitle = wintitle,
665 widthplot = self.WIDTH + self.WIDTHPROF,
664 widthplot = self.WIDTH + self.WIDTHPROF,
666 heightplot = self.HEIGHT + self.HEIGHTPROF,
665 heightplot = self.HEIGHT + self.HEIGHTPROF,
667 show=True)
666 show=True)
668
667
669 nrow, ncol = self.getSubplots()
668 nrow, ncol = self.getSubplots()
670
669
671 for y in range(nrow):
670 for y in range(nrow):
672 for x in range(ncol):
671 for x in range(ncol):
673
672
674 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
673 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
675
674
676 if showprofile:
675 if showprofile:
677 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
676 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
678
677
679 def run(self, dataOut, id, wintitle="", pairsList=None, showprofile='True',
678 def run(self, dataOut, id, wintitle="", pairsList=None, showprofile='True',
680 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
679 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
681 timerange=None,
680 timerange=None,
682 save=False, figpath='', figfile=None, ftp=False, wr_period=1,
681 save=False, figpath='', figfile=None, ftp=False, wr_period=1,
683 coherence_cmap='jet', phase_cmap='RdBu_r', show=True,
682 coherence_cmap='jet', phase_cmap='RdBu_r', show=True,
684 server=None, folder=None, username=None, password=None,
683 server=None, folder=None, username=None, password=None,
685 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
684 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
686
685
687 if pairsList == None:
686 if pairsList == None:
688 pairsIndexList = dataOut.pairsIndexList
687 pairsIndexList = dataOut.pairsIndexList
689 else:
688 else:
690 pairsIndexList = []
689 pairsIndexList = []
691 for pair in pairsList:
690 for pair in pairsList:
692 if pair not in dataOut.pairsList:
691 if pair not in dataOut.pairsList:
693 raise ValueError, "Pair %s is not in dataOut.pairsList" %(pair)
692 raise ValueError, "Pair %s is not in dataOut.pairsList" %(pair)
694 pairsIndexList.append(dataOut.pairsList.index(pair))
693 pairsIndexList.append(dataOut.pairsList.index(pair))
695
694
696 if timerange != None:
695 if timerange != None:
697 self.timerange = timerange
696 self.timerange = timerange
698
697
699 if pairsIndexList == []:
698 if pairsIndexList == []:
700 return
699 return
701
700
702 if len(pairsIndexList) > 4:
701 if len(pairsIndexList) > 4:
703 pairsIndexList = pairsIndexList[0:4]
702 pairsIndexList = pairsIndexList[0:4]
704
703
705 # tmin = None
704 # tmin = None
706 # tmax = None
705 # tmax = None
707 x = dataOut.getTimeRange()
706 x = dataOut.getTimeRange()
708 y = dataOut.getHeiRange()
707 y = dataOut.getHeiRange()
709
708
710 #thisDatetime = dataOut.datatime
709 #thisDatetime = dataOut.datatime
711 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
710 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
712 title = wintitle + " CoherenceMap" #: %s" %(thisDatetime.strftime("%d-%b-%Y"))
711 title = wintitle + " CoherenceMap" #: %s" %(thisDatetime.strftime("%d-%b-%Y"))
713 xlabel = ""
712 xlabel = ""
714 ylabel = "Range (Km)"
713 ylabel = "Range (Km)"
715
714
716 if not self.isConfig:
715 if not self.isConfig:
717 nplots = len(pairsIndexList)
716 nplots = len(pairsIndexList)
718 self.setup(id=id,
717 self.setup(id=id,
719 nplots=nplots,
718 nplots=nplots,
720 wintitle=wintitle,
719 wintitle=wintitle,
721 showprofile=showprofile,
720 showprofile=showprofile,
722 show=show)
721 show=show)
723
722
724 #tmin, tmax = self.getTimeLim(x, xmin, xmax)
723 #tmin, tmax = self.getTimeLim(x, xmin, xmax)
725
724
726 self.xmin, self.xmax = self.getTimeLim(x, xmin, xmax, timerange)
725 self.xmin, self.xmax = self.getTimeLim(x, xmin, xmax, timerange)
727
726
728 if ymin == None: ymin = numpy.nanmin(y)
727 if ymin == None: ymin = numpy.nanmin(y)
729 if ymax == None: ymax = numpy.nanmax(y)
728 if ymax == None: ymax = numpy.nanmax(y)
730 if zmin == None: zmin = 0.
729 if zmin == None: zmin = 0.
731 if zmax == None: zmax = 1.
730 if zmax == None: zmax = 1.
732
731
733 self.FTP_WEI = ftp_wei
732 self.FTP_WEI = ftp_wei
734 self.EXP_CODE = exp_code
733 self.EXP_CODE = exp_code
735 self.SUB_EXP_CODE = sub_exp_code
734 self.SUB_EXP_CODE = sub_exp_code
736 self.PLOT_POS = plot_pos
735 self.PLOT_POS = plot_pos
737
736
738 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
737 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
739
738
740 self.isConfig = True
739 self.isConfig = True
741
740
742 self.setWinTitle(title)
741 self.setWinTitle(title)
743
742
744 if ((self.xmax - x[1]) < (x[1]-x[0])):
743 if ((self.xmax - x[1]) < (x[1]-x[0])):
745 x[1] = self.xmax
744 x[1] = self.xmax
746
745
747 for i in range(self.nplots):
746 for i in range(self.nplots):
748
747
749 pair = dataOut.pairsList[pairsIndexList[i]]
748 pair = dataOut.pairsList[pairsIndexList[i]]
750
749
751 ccf = numpy.average(dataOut.data_cspc[pairsIndexList[i],:,:],axis=0)
750 ccf = numpy.average(dataOut.data_cspc[pairsIndexList[i],:,:],axis=0)
752 powa = numpy.average(dataOut.data_spc[pair[0],:,:],axis=0)
751 powa = numpy.average(dataOut.data_spc[pair[0],:,:],axis=0)
753 powb = numpy.average(dataOut.data_spc[pair[1],:,:],axis=0)
752 powb = numpy.average(dataOut.data_spc[pair[1],:,:],axis=0)
754
753
755
754
756 avgcoherenceComplex = ccf/numpy.sqrt(powa*powb)
755 avgcoherenceComplex = ccf/numpy.sqrt(powa*powb)
757 coherence = numpy.abs(avgcoherenceComplex)
756 coherence = numpy.abs(avgcoherenceComplex)
758
757
759 z = coherence.reshape((1,-1))
758 z = coherence.reshape((1,-1))
760
759
761 counter = 0
760 counter = 0
762
761
763 title = "Coherence %d%d: %s" %(pair[0], pair[1], thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
762 title = "Coherence %d%d: %s" %(pair[0], pair[1], thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
764 axes = self.axesList[i*self.__nsubplots*2]
763 axes = self.axesList[i*self.__nsubplots*2]
765 axes.pcolorbuffer(x, y, z,
764 axes.pcolorbuffer(x, y, z,
766 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
765 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
767 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
766 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
768 ticksize=9, cblabel='', colormap=coherence_cmap, cbsize="1%")
767 ticksize=9, cblabel='', colormap=coherence_cmap, cbsize="1%")
769
768
770 if self.__showprofile:
769 if self.__showprofile:
771 counter += 1
770 counter += 1
772 axes = self.axesList[i*self.__nsubplots*2 + counter]
771 axes = self.axesList[i*self.__nsubplots*2 + counter]
773 axes.pline(coherence, y,
772 axes.pline(coherence, y,
774 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
773 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
775 xlabel='', ylabel='', title='', ticksize=7,
774 xlabel='', ylabel='', title='', ticksize=7,
776 ytick_visible=False, nxticks=5,
775 ytick_visible=False, nxticks=5,
777 grid='x')
776 grid='x')
778
777
779 counter += 1
778 counter += 1
780
779
781 phase = numpy.arctan2(avgcoherenceComplex.imag, avgcoherenceComplex.real)*180/numpy.pi
780 phase = numpy.arctan2(avgcoherenceComplex.imag, avgcoherenceComplex.real)*180/numpy.pi
782
781
783 z = phase.reshape((1,-1))
782 z = phase.reshape((1,-1))
784
783
785 title = "Phase %d%d: %s" %(pair[0], pair[1], thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
784 title = "Phase %d%d: %s" %(pair[0], pair[1], thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
786 axes = self.axesList[i*self.__nsubplots*2 + counter]
785 axes = self.axesList[i*self.__nsubplots*2 + counter]
787 axes.pcolorbuffer(x, y, z,
786 axes.pcolorbuffer(x, y, z,
788 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=-180, zmax=180,
787 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=-180, zmax=180,
789 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
788 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
790 ticksize=9, cblabel='', colormap=phase_cmap, cbsize="1%")
789 ticksize=9, cblabel='', colormap=phase_cmap, cbsize="1%")
791
790
792 if self.__showprofile:
791 if self.__showprofile:
793 counter += 1
792 counter += 1
794 axes = self.axesList[i*self.__nsubplots*2 + counter]
793 axes = self.axesList[i*self.__nsubplots*2 + counter]
795 axes.pline(phase, y,
794 axes.pline(phase, y,
796 xmin=-180, xmax=180, ymin=ymin, ymax=ymax,
795 xmin=-180, xmax=180, ymin=ymin, ymax=ymax,
797 xlabel='', ylabel='', title='', ticksize=7,
796 xlabel='', ylabel='', title='', ticksize=7,
798 ytick_visible=False, nxticks=4,
797 ytick_visible=False, nxticks=4,
799 grid='x')
798 grid='x')
800
799
801 self.draw()
800 self.draw()
802
801
803 if x[1] >= self.axesList[0].xmax:
802 if x[1] >= self.axesList[0].xmax:
804 self.counter_imagwr = wr_period
803 self.counter_imagwr = wr_period
805 self.__isConfig = False
804 self.__isConfig = False
806
805
807 if figfile == None:
806 if figfile == None:
808 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
807 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
809 figfile = self.getFilename(name = str_datetime)
808 figfile = self.getFilename(name = str_datetime)
810
809
811 if figpath != '':
810 if figpath != '':
812
811
813 self.counter_imagwr += 1
812 self.counter_imagwr += 1
814 if (self.counter_imagwr>=wr_period):
813 if (self.counter_imagwr>=wr_period):
815 # store png plot to local folder
814 # store png plot to local folder
816 self.saveFigure(figpath, figfile)
815 self.saveFigure(figpath, figfile)
817 # store png plot to FTP server according to RT-Web format
816 # store png plot to FTP server according to RT-Web format
818 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
817 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
819 ftp_filename = os.path.join(figpath, name)
818 ftp_filename = os.path.join(figpath, name)
820 self.saveFigure(figpath, ftp_filename)
819 self.saveFigure(figpath, ftp_filename)
821
820
822 self.counter_imagwr = 0
821 self.counter_imagwr = 0
823
822
824 class PowerProfile(Figure):
823 class PowerProfile(Figure):
825 isConfig = None
824 isConfig = None
826 __nsubplots = None
825 __nsubplots = None
827
826
828 WIDTHPROF = None
827 WIDTHPROF = None
829 HEIGHTPROF = None
828 HEIGHTPROF = None
830 PREFIX = 'spcprofile'
829 PREFIX = 'spcprofile'
831
830
832 def __init__(self):
831 def __init__(self):
833 self.isConfig = False
832 self.isConfig = False
834 self.__nsubplots = 1
833 self.__nsubplots = 1
835
834
836 self.WIDTH = 300
835 self.WIDTH = 300
837 self.HEIGHT = 500
836 self.HEIGHT = 500
838 self.counter_imagwr = 0
837 self.counter_imagwr = 0
839
838
840 def getSubplots(self):
839 def getSubplots(self):
841 ncol = 1
840 ncol = 1
842 nrow = 1
841 nrow = 1
843
842
844 return nrow, ncol
843 return nrow, ncol
845
844
846 def setup(self, id, nplots, wintitle, show):
845 def setup(self, id, nplots, wintitle, show):
847
846
848 self.nplots = nplots
847 self.nplots = nplots
849
848
850 ncolspan = 1
849 ncolspan = 1
851 colspan = 1
850 colspan = 1
852
851
853 self.createFigure(id = id,
852 self.createFigure(id = id,
854 wintitle = wintitle,
853 wintitle = wintitle,
855 widthplot = self.WIDTH,
854 widthplot = self.WIDTH,
856 heightplot = self.HEIGHT,
855 heightplot = self.HEIGHT,
857 show=show)
856 show=show)
858
857
859 nrow, ncol = self.getSubplots()
858 nrow, ncol = self.getSubplots()
860
859
861 counter = 0
860 counter = 0
862 for y in range(nrow):
861 for y in range(nrow):
863 for x in range(ncol):
862 for x in range(ncol):
864 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
863 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
865
864
866 def run(self, dataOut, id, wintitle="", channelList=None,
865 def run(self, dataOut, id, wintitle="", channelList=None,
867 xmin=None, xmax=None, ymin=None, ymax=None,
866 xmin=None, xmax=None, ymin=None, ymax=None,
868 save=False, figpath='', figfile=None, show=True, wr_period=1,
867 save=False, figpath='', figfile=None, show=True, wr_period=1,
869 server=None, folder=None, username=None, password=None,):
868 server=None, folder=None, username=None, password=None,):
870
869
871 if dataOut.flagNoData:
870 if dataOut.flagNoData:
872 return None
871 return None
873
872
874 if channelList == None:
873 if channelList == None:
875 channelIndexList = dataOut.channelIndexList
874 channelIndexList = dataOut.channelIndexList
876 channelList = dataOut.channelList
875 channelList = dataOut.channelList
877 else:
876 else:
878 channelIndexList = []
877 channelIndexList = []
879 for channel in channelList:
878 for channel in channelList:
880 if channel not in dataOut.channelList:
879 if channel not in dataOut.channelList:
881 raise ValueError, "Channel %d is not in dataOut.channelList"
880 raise ValueError, "Channel %d is not in dataOut.channelList"
882 channelIndexList.append(dataOut.channelList.index(channel))
881 channelIndexList.append(dataOut.channelList.index(channel))
883
882
884 try:
883 try:
885 factor = dataOut.normFactor
884 factor = dataOut.normFactor
886 except:
885 except:
887 factor = 1
886 factor = 1
888
887
889 y = dataOut.getHeiRange()
888 y = dataOut.getHeiRange()
890
889
891 #for voltage
890 #for voltage
892 if dataOut.type == 'Voltage':
891 if dataOut.type == 'Voltage':
893 x = dataOut.data[channelIndexList,:] * numpy.conjugate(dataOut.data[channelIndexList,:])
892 x = dataOut.data[channelIndexList,:] * numpy.conjugate(dataOut.data[channelIndexList,:])
894 x = x.real
893 x = x.real
895 x = numpy.where(numpy.isfinite(x), x, numpy.NAN)
894 x = numpy.where(numpy.isfinite(x), x, numpy.NAN)
896
895
897 #for spectra
896 #for spectra
898 if dataOut.type == 'Spectra':
897 if dataOut.type == 'Spectra':
899 x = dataOut.data_spc[channelIndexList,:,:]/factor
898 x = dataOut.data_spc[channelIndexList,:,:]/factor
900 x = numpy.where(numpy.isfinite(x), x, numpy.NAN)
899 x = numpy.where(numpy.isfinite(x), x, numpy.NAN)
901 x = numpy.average(x, axis=1)
900 x = numpy.average(x, axis=1)
902
901
903
902
904 xdB = 10*numpy.log10(x)
903 xdB = 10*numpy.log10(x)
905
904
906 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
905 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
907 title = wintitle + " Power Profile %s" %(thisDatetime.strftime("%d-%b-%Y"))
906 title = wintitle + " Power Profile %s" %(thisDatetime.strftime("%d-%b-%Y"))
908 xlabel = "dB"
907 xlabel = "dB"
909 ylabel = "Range (Km)"
908 ylabel = "Range (Km)"
910
909
911 if not self.isConfig:
910 if not self.isConfig:
912
911
913 nplots = 1
912 nplots = 1
914
913
915 self.setup(id=id,
914 self.setup(id=id,
916 nplots=nplots,
915 nplots=nplots,
917 wintitle=wintitle,
916 wintitle=wintitle,
918 show=show)
917 show=show)
919
918
920 if ymin == None: ymin = numpy.nanmin(y)
919 if ymin == None: ymin = numpy.nanmin(y)
921 if ymax == None: ymax = numpy.nanmax(y)
920 if ymax == None: ymax = numpy.nanmax(y)
922 if xmin == None: xmin = numpy.nanmin(xdB)*0.9
921 if xmin == None: xmin = numpy.nanmin(xdB)*0.9
923 if xmax == None: xmax = numpy.nanmax(xdB)*0.9
922 if xmax == None: xmax = numpy.nanmax(xdB)*0.9
924
923
925 self.__isConfig = True
924 self.__isConfig = True
926
925
927 self.setWinTitle(title)
926 self.setWinTitle(title)
928
927
929 title = "Power Profile: %s" %(thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
928 title = "Power Profile: %s" %(thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
930 axes = self.axesList[0]
929 axes = self.axesList[0]
931
930
932 legendlabels = ["channel %d"%x for x in channelList]
931 legendlabels = ["channel %d"%x for x in channelList]
933 axes.pmultiline(xdB, y,
932 axes.pmultiline(xdB, y,
934 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax,
933 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax,
935 xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels,
934 xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels,
936 ytick_visible=True, nxticks=5,
935 ytick_visible=True, nxticks=5,
937 grid='x')
936 grid='x')
938
937
939 self.draw()
938 self.draw()
940
939
941 if figfile == None:
940 if figfile == None:
942 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
941 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
943 figfile = self.getFilename(name = str_datetime)
942 figfile = self.getFilename(name = str_datetime)
944
943
945 if figpath != '':
944 if figpath != '':
946 self.counter_imagwr += 1
945 self.counter_imagwr += 1
947 if (self.counter_imagwr>=wr_period):
946 if (self.counter_imagwr>=wr_period):
948 # store png plot to local folder
947 # store png plot to local folder
949 self.saveFigure(figpath, figfile)
948 self.saveFigure(figpath, figfile)
950 # store png plot to FTP server according to RT-Web format
949 # store png plot to FTP server according to RT-Web format
951 #name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
950 #name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
952 #ftp_filename = os.path.join(figpath, name)
951 #ftp_filename = os.path.join(figpath, name)
953 #self.saveFigure(figpath, ftp_filename)
952 #self.saveFigure(figpath, ftp_filename)
954 self.counter_imagwr = 0
953 self.counter_imagwr = 0
955
954
956
955
957
956
958 class Noise(Figure):
957 class Noise(Figure):
959
958
960 isConfig = None
959 isConfig = None
961 __nsubplots = None
960 __nsubplots = None
962
961
963 PREFIX = 'noise'
962 PREFIX = 'noise'
964
963
965 def __init__(self):
964 def __init__(self):
966
965
967 self.timerange = 24*60*60
966 self.timerange = 24*60*60
968 self.isConfig = False
967 self.isConfig = False
969 self.__nsubplots = 1
968 self.__nsubplots = 1
970 self.counter_imagwr = 0
969 self.counter_imagwr = 0
971 self.WIDTH = 600
970 self.WIDTH = 600
972 self.HEIGHT = 300
971 self.HEIGHT = 300
973 self.WIDTHPROF = 120
972 self.WIDTHPROF = 120
974 self.HEIGHTPROF = 0
973 self.HEIGHTPROF = 0
975 self.xdata = None
974 self.xdata = None
976 self.ydata = None
975 self.ydata = None
977
976
978 self.PLOT_CODE = 17
977 self.PLOT_CODE = 17
979 self.FTP_WEI = None
978 self.FTP_WEI = None
980 self.EXP_CODE = None
979 self.EXP_CODE = None
981 self.SUB_EXP_CODE = None
980 self.SUB_EXP_CODE = None
982 self.PLOT_POS = None
981 self.PLOT_POS = None
983 self.figfile = None
982 self.figfile = None
984
983
985 def getSubplots(self):
984 def getSubplots(self):
986
985
987 ncol = 1
986 ncol = 1
988 nrow = 1
987 nrow = 1
989
988
990 return nrow, ncol
989 return nrow, ncol
991
990
992 def openfile(self, filename):
991 def openfile(self, filename):
993 f = open(filename,'w+')
992 f = open(filename,'w+')
994 f.write('\n\n')
993 f.write('\n\n')
995 f.write('JICAMARCA RADIO OBSERVATORY - Noise \n')
994 f.write('JICAMARCA RADIO OBSERVATORY - Noise \n')
996 f.write('DD MM YYYY HH MM SS Channel0 Channel1 Channel2 Channel3\n\n' )
995 f.write('DD MM YYYY HH MM SS Channel0 Channel1 Channel2 Channel3\n\n' )
997 f.close()
996 f.close()
998
997
999 def save_data(self, filename_phase, data, data_datetime):
998 def save_data(self, filename_phase, data, data_datetime):
1000 f=open(filename_phase,'a')
999 f=open(filename_phase,'a')
1001 timetuple_data = data_datetime.timetuple()
1000 timetuple_data = data_datetime.timetuple()
1002 day = str(timetuple_data.tm_mday)
1001 day = str(timetuple_data.tm_mday)
1003 month = str(timetuple_data.tm_mon)
1002 month = str(timetuple_data.tm_mon)
1004 year = str(timetuple_data.tm_year)
1003 year = str(timetuple_data.tm_year)
1005 hour = str(timetuple_data.tm_hour)
1004 hour = str(timetuple_data.tm_hour)
1006 minute = str(timetuple_data.tm_min)
1005 minute = str(timetuple_data.tm_min)
1007 second = str(timetuple_data.tm_sec)
1006 second = str(timetuple_data.tm_sec)
1008 f.write(day+' '+month+' '+year+' '+hour+' '+minute+' '+second+' '+str(data[0])+' '+str(data[1])+' '+str(data[2])+' '+str(data[3])+'\n')
1007 f.write(day+' '+month+' '+year+' '+hour+' '+minute+' '+second+' '+str(data[0])+' '+str(data[1])+' '+str(data[2])+' '+str(data[3])+'\n')
1009 f.close()
1008 f.close()
1010
1009
1011
1010
1012 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
1011 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
1013
1012
1014 self.__showprofile = showprofile
1013 self.__showprofile = showprofile
1015 self.nplots = nplots
1014 self.nplots = nplots
1016
1015
1017 ncolspan = 7
1016 ncolspan = 7
1018 colspan = 6
1017 colspan = 6
1019 self.__nsubplots = 2
1018 self.__nsubplots = 2
1020
1019
1021 self.createFigure(id = id,
1020 self.createFigure(id = id,
1022 wintitle = wintitle,
1021 wintitle = wintitle,
1023 widthplot = self.WIDTH+self.WIDTHPROF,
1022 widthplot = self.WIDTH+self.WIDTHPROF,
1024 heightplot = self.HEIGHT+self.HEIGHTPROF,
1023 heightplot = self.HEIGHT+self.HEIGHTPROF,
1025 show=show)
1024 show=show)
1026
1025
1027 nrow, ncol = self.getSubplots()
1026 nrow, ncol = self.getSubplots()
1028
1027
1029 self.addAxes(nrow, ncol*ncolspan, 0, 0, colspan, 1)
1028 self.addAxes(nrow, ncol*ncolspan, 0, 0, colspan, 1)
1030
1029
1031
1030
1032 def run(self, dataOut, id, wintitle="", channelList=None, showprofile='True',
1031 def run(self, dataOut, id, wintitle="", channelList=None, showprofile='True',
1033 xmin=None, xmax=None, ymin=None, ymax=None,
1032 xmin=None, xmax=None, ymin=None, ymax=None,
1034 timerange=None,
1033 timerange=None,
1035 save=False, figpath='', figfile=None, show=True, ftp=False, wr_period=1,
1034 save=False, figpath='', figfile=None, show=True, ftp=False, wr_period=1,
1036 server=None, folder=None, username=None, password=None,
1035 server=None, folder=None, username=None, password=None,
1037 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
1036 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
1038
1037
1039 if channelList == None:
1038 if channelList == None:
1040 channelIndexList = dataOut.channelIndexList
1039 channelIndexList = dataOut.channelIndexList
1041 channelList = dataOut.channelList
1040 channelList = dataOut.channelList
1042 else:
1041 else:
1043 channelIndexList = []
1042 channelIndexList = []
1044 for channel in channelList:
1043 for channel in channelList:
1045 if channel not in dataOut.channelList:
1044 if channel not in dataOut.channelList:
1046 raise ValueError, "Channel %d is not in dataOut.channelList"
1045 raise ValueError, "Channel %d is not in dataOut.channelList"
1047 channelIndexList.append(dataOut.channelList.index(channel))
1046 channelIndexList.append(dataOut.channelList.index(channel))
1048
1047
1049 if timerange != None:
1048 if timerange != None:
1050 self.timerange = timerange
1049 self.timerange = timerange
1051
1050
1052 tmin = None
1051 tmin = None
1053 tmax = None
1052 tmax = None
1054 x = dataOut.getTimeRange()
1053 x = dataOut.getTimeRange()
1055 y = dataOut.getHeiRange()
1054 y = dataOut.getHeiRange()
1056 factor = dataOut.normFactor
1055 factor = dataOut.normFactor
1057 noise = dataOut.noise()/factor
1056 noise = dataOut.noise()/factor
1058 noisedB = 10*numpy.log10(noise)
1057 noisedB = 10*numpy.log10(noise)
1059
1058
1060 #thisDatetime = dataOut.datatime
1059 #thisDatetime = dataOut.datatime
1061 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
1060 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
1062 title = wintitle + " Noise" # : %s" %(thisDatetime.strftime("%d-%b-%Y"))
1061 title = wintitle + " Noise" # : %s" %(thisDatetime.strftime("%d-%b-%Y"))
1063 xlabel = ""
1062 xlabel = ""
1064 ylabel = "Intensity (dB)"
1063 ylabel = "Intensity (dB)"
1065
1064
1066 if not self.isConfig:
1065 if not self.isConfig:
1067
1066
1068 nplots = 1
1067 nplots = 1
1069
1068
1070 self.setup(id=id,
1069 self.setup(id=id,
1071 nplots=nplots,
1070 nplots=nplots,
1072 wintitle=wintitle,
1071 wintitle=wintitle,
1073 showprofile=showprofile,
1072 showprofile=showprofile,
1074 show=show)
1073 show=show)
1075
1074
1076 tmin, tmax = self.getTimeLim(x, xmin, xmax)
1075 tmin, tmax = self.getTimeLim(x, xmin, xmax)
1077 if ymin == None: ymin = numpy.nanmin(noisedB) - 10.0
1076 if ymin == None: ymin = numpy.nanmin(noisedB) - 10.0
1078 if ymax == None: ymax = numpy.nanmax(noisedB) + 10.0
1077 if ymax == None: ymax = numpy.nanmax(noisedB) + 10.0
1079
1078
1080 self.FTP_WEI = ftp_wei
1079 self.FTP_WEI = ftp_wei
1081 self.EXP_CODE = exp_code
1080 self.EXP_CODE = exp_code
1082 self.SUB_EXP_CODE = sub_exp_code
1081 self.SUB_EXP_CODE = sub_exp_code
1083 self.PLOT_POS = plot_pos
1082 self.PLOT_POS = plot_pos
1084
1083
1085
1084
1086 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
1085 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
1087 self.isConfig = True
1086 self.isConfig = True
1088 self.figfile = figfile
1087 self.figfile = figfile
1089 self.xdata = numpy.array([])
1088 self.xdata = numpy.array([])
1090 self.ydata = numpy.array([])
1089 self.ydata = numpy.array([])
1091
1090
1092 #open file beacon phase
1091 #open file beacon phase
1093 path = '%s%03d' %(self.PREFIX, self.id)
1092 path = '%s%03d' %(self.PREFIX, self.id)
1094 noise_file = os.path.join(path,'%s.txt'%self.name)
1093 noise_file = os.path.join(path,'%s.txt'%self.name)
1095 self.filename_noise = os.path.join(figpath,noise_file)
1094 self.filename_noise = os.path.join(figpath,noise_file)
1096 self.openfile(self.filename_noise)
1095 self.openfile(self.filename_noise)
1097
1096
1098
1097
1099 #store data beacon phase
1098 #store data beacon phase
1100 self.save_data(self.filename_noise, noisedB, thisDatetime)
1099 self.save_data(self.filename_noise, noisedB, thisDatetime)
1101
1100
1102
1101
1103 self.setWinTitle(title)
1102 self.setWinTitle(title)
1104
1103
1105
1104
1106 title = "Noise %s" %(thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
1105 title = "Noise %s" %(thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
1107
1106
1108 legendlabels = ["channel %d"%(idchannel+1) for idchannel in channelList]
1107 legendlabels = ["channel %d"%(idchannel+1) for idchannel in channelList]
1109 axes = self.axesList[0]
1108 axes = self.axesList[0]
1110
1109
1111 self.xdata = numpy.hstack((self.xdata, x[0:1]))
1110 self.xdata = numpy.hstack((self.xdata, x[0:1]))
1112
1111
1113 if len(self.ydata)==0:
1112 if len(self.ydata)==0:
1114 self.ydata = noisedB[channelIndexList].reshape(-1,1)
1113 self.ydata = noisedB[channelIndexList].reshape(-1,1)
1115 else:
1114 else:
1116 self.ydata = numpy.hstack((self.ydata, noisedB[channelIndexList].reshape(-1,1)))
1115 self.ydata = numpy.hstack((self.ydata, noisedB[channelIndexList].reshape(-1,1)))
1117
1116
1118
1117
1119 axes.pmultilineyaxis(x=self.xdata, y=self.ydata,
1118 axes.pmultilineyaxis(x=self.xdata, y=self.ydata,
1120 xmin=tmin, xmax=tmax, ymin=ymin, ymax=ymax,
1119 xmin=tmin, xmax=tmax, ymin=ymin, ymax=ymax,
1121 xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels, marker='x', markersize=8, linestyle="solid",
1120 xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels, marker='x', markersize=8, linestyle="solid",
1122 XAxisAsTime=True, grid='both'
1121 XAxisAsTime=True, grid='both'
1123 )
1122 )
1124
1123
1125 self.draw()
1124 self.draw()
1126
1125
1127 if x[1] >= self.axesList[0].xmax:
1126 if x[1] >= self.axesList[0].xmax:
1128 self.counter_imagwr = wr_period
1127 self.counter_imagwr = wr_period
1129 del self.xdata
1128 del self.xdata
1130 del self.ydata
1129 del self.ydata
1131 self.__isConfig = False
1130 self.__isConfig = False
1132
1131
1133 if self.figfile == None:
1132 if self.figfile == None:
1134 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
1133 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
1135 self.figfile = self.getFilename(name = str_datetime)
1134 self.figfile = self.getFilename(name = str_datetime)
1136
1135
1137 if figpath != '':
1136 if figpath != '':
1138 self.counter_imagwr += 1
1137 self.counter_imagwr += 1
1139 if (self.counter_imagwr>=wr_period):
1138 if (self.counter_imagwr>=wr_period):
1140 # store png plot to local folder
1139 # store png plot to local folder
1141 self.saveFigure(figpath, self.figfile)
1140 self.saveFigure(figpath, self.figfile)
1142 # store png plot to FTP server according to RT-Web format
1141 # store png plot to FTP server according to RT-Web format
1143 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
1142 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
1144 ftp_filename = os.path.join(figpath, name)
1143 ftp_filename = os.path.join(figpath, name)
1145 self.saveFigure(figpath, ftp_filename)
1144 self.saveFigure(figpath, ftp_filename)
1146 self.counter_imagwr = 0
1145 self.counter_imagwr = 0
1147
1146
1148
1147
1149 class BeaconPhase(Figure):
1148 class BeaconPhase(Figure):
1150
1149
1151 __isConfig = None
1150 __isConfig = None
1152 __nsubplots = None
1151 __nsubplots = None
1153
1152
1154 PREFIX = 'beacon_phase'
1153 PREFIX = 'beacon_phase'
1155
1154
1156 def __init__(self):
1155 def __init__(self):
1157
1156
1158 self.timerange = 24*60*60
1157 self.timerange = 24*60*60
1159 self.__isConfig = False
1158 self.__isConfig = False
1160 self.__nsubplots = 1
1159 self.__nsubplots = 1
1161 self.counter_imagwr = 0
1160 self.counter_imagwr = 0
1162 self.WIDTH = 600
1161 self.WIDTH = 600
1163 self.HEIGHT = 300
1162 self.HEIGHT = 300
1164 self.WIDTHPROF = 120
1163 self.WIDTHPROF = 120
1165 self.HEIGHTPROF = 0
1164 self.HEIGHTPROF = 0
1166 self.xdata = None
1165 self.xdata = None
1167 self.ydata = None
1166 self.ydata = None
1168
1167
1169 self.PLOT_CODE = 18
1168 self.PLOT_CODE = 18
1170 self.FTP_WEI = None
1169 self.FTP_WEI = None
1171 self.EXP_CODE = None
1170 self.EXP_CODE = None
1172 self.SUB_EXP_CODE = None
1171 self.SUB_EXP_CODE = None
1173 self.PLOT_POS = None
1172 self.PLOT_POS = None
1174
1173
1175 self.filename_phase = None
1174 self.filename_phase = None
1176
1175
1177 self.figfile = None
1176 self.figfile = None
1178
1177
1179 def getSubplots(self):
1178 def getSubplots(self):
1180
1179
1181 ncol = 1
1180 ncol = 1
1182 nrow = 1
1181 nrow = 1
1183
1182
1184 return nrow, ncol
1183 return nrow, ncol
1185
1184
1186 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
1185 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
1187
1186
1188 self.__showprofile = showprofile
1187 self.__showprofile = showprofile
1189 self.nplots = nplots
1188 self.nplots = nplots
1190
1189
1191 ncolspan = 7
1190 ncolspan = 7
1192 colspan = 6
1191 colspan = 6
1193 self.__nsubplots = 2
1192 self.__nsubplots = 2
1194
1193
1195 self.createFigure(id = id,
1194 self.createFigure(id = id,
1196 wintitle = wintitle,
1195 wintitle = wintitle,
1197 widthplot = self.WIDTH+self.WIDTHPROF,
1196 widthplot = self.WIDTH+self.WIDTHPROF,
1198 heightplot = self.HEIGHT+self.HEIGHTPROF,
1197 heightplot = self.HEIGHT+self.HEIGHTPROF,
1199 show=show)
1198 show=show)
1200
1199
1201 nrow, ncol = self.getSubplots()
1200 nrow, ncol = self.getSubplots()
1202
1201
1203 self.addAxes(nrow, ncol*ncolspan, 0, 0, colspan, 1)
1202 self.addAxes(nrow, ncol*ncolspan, 0, 0, colspan, 1)
1204
1203
1205 def save_phase(self, filename_phase):
1204 def save_phase(self, filename_phase):
1206 f = open(filename_phase,'w+')
1205 f = open(filename_phase,'w+')
1207 f.write('\n\n')
1206 f.write('\n\n')
1208 f.write('JICAMARCA RADIO OBSERVATORY - Beacon Phase \n')
1207 f.write('JICAMARCA RADIO OBSERVATORY - Beacon Phase \n')
1209 f.write('DD MM YYYY HH MM SS pair(2,0) pair(2,1) pair(2,3) pair(2,4)\n\n' )
1208 f.write('DD MM YYYY HH MM SS pair(2,0) pair(2,1) pair(2,3) pair(2,4)\n\n' )
1210 f.close()
1209 f.close()
1211
1210
1212 def save_data(self, filename_phase, data, data_datetime):
1211 def save_data(self, filename_phase, data, data_datetime):
1213 f=open(filename_phase,'a')
1212 f=open(filename_phase,'a')
1214 timetuple_data = data_datetime.timetuple()
1213 timetuple_data = data_datetime.timetuple()
1215 day = str(timetuple_data.tm_mday)
1214 day = str(timetuple_data.tm_mday)
1216 month = str(timetuple_data.tm_mon)
1215 month = str(timetuple_data.tm_mon)
1217 year = str(timetuple_data.tm_year)
1216 year = str(timetuple_data.tm_year)
1218 hour = str(timetuple_data.tm_hour)
1217 hour = str(timetuple_data.tm_hour)
1219 minute = str(timetuple_data.tm_min)
1218 minute = str(timetuple_data.tm_min)
1220 second = str(timetuple_data.tm_sec)
1219 second = str(timetuple_data.tm_sec)
1221 f.write(day+' '+month+' '+year+' '+hour+' '+minute+' '+second+' '+str(data[0])+' '+str(data[1])+' '+str(data[2])+' '+str(data[3])+'\n')
1220 f.write(day+' '+month+' '+year+' '+hour+' '+minute+' '+second+' '+str(data[0])+' '+str(data[1])+' '+str(data[2])+' '+str(data[3])+'\n')
1222 f.close()
1221 f.close()
1223
1222
1224
1223
1225 def run(self, dataOut, id, wintitle="", pairsList=None, showprofile='True',
1224 def run(self, dataOut, id, wintitle="", pairsList=None, showprofile='True',
1226 xmin=None, xmax=None, ymin=None, ymax=None,
1225 xmin=None, xmax=None, ymin=None, ymax=None,
1227 timerange=None,
1226 timerange=None,
1228 save=False, figpath='', figfile=None, show=True, ftp=False, wr_period=1,
1227 save=False, figpath='', figfile=None, show=True, ftp=False, wr_period=1,
1229 server=None, folder=None, username=None, password=None,
1228 server=None, folder=None, username=None, password=None,
1230 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
1229 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
1231
1230
1232 if pairsList == None:
1231 if pairsList == None:
1233 pairsIndexList = dataOut.pairsIndexList
1232 pairsIndexList = dataOut.pairsIndexList
1234 else:
1233 else:
1235 pairsIndexList = []
1234 pairsIndexList = []
1236 for pair in pairsList:
1235 for pair in pairsList:
1237 if pair not in dataOut.pairsList:
1236 if pair not in dataOut.pairsList:
1238 raise ValueError, "Pair %s is not in dataOut.pairsList" %(pair)
1237 raise ValueError, "Pair %s is not in dataOut.pairsList" %(pair)
1239 pairsIndexList.append(dataOut.pairsList.index(pair))
1238 pairsIndexList.append(dataOut.pairsList.index(pair))
1240
1239
1241 if pairsIndexList == []:
1240 if pairsIndexList == []:
1242 return
1241 return
1243
1242
1244 # if len(pairsIndexList) > 4:
1243 # if len(pairsIndexList) > 4:
1245 # pairsIndexList = pairsIndexList[0:4]
1244 # pairsIndexList = pairsIndexList[0:4]
1246
1245
1247 if timerange != None:
1246 if timerange != None:
1248 self.timerange = timerange
1247 self.timerange = timerange
1249
1248
1250 tmin = None
1249 tmin = None
1251 tmax = None
1250 tmax = None
1252 x = dataOut.getTimeRange()
1251 x = dataOut.getTimeRange()
1253 y = dataOut.getHeiRange()
1252 y = dataOut.getHeiRange()
1254
1253
1255
1254
1256 #thisDatetime = dataOut.datatime
1255 #thisDatetime = dataOut.datatime
1257 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
1256 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
1258 title = wintitle + " Phase of Beacon Signal" # : %s" %(thisDatetime.strftime("%d-%b-%Y"))
1257 title = wintitle + " Phase of Beacon Signal" # : %s" %(thisDatetime.strftime("%d-%b-%Y"))
1259 xlabel = "Local Time"
1258 xlabel = "Local Time"
1260 ylabel = "Phase"
1259 ylabel = "Phase"
1261
1260
1262 nplots = len(pairsIndexList)
1261 nplots = len(pairsIndexList)
1263 #phase = numpy.zeros((len(pairsIndexList),len(dataOut.beacon_heiIndexList)))
1262 #phase = numpy.zeros((len(pairsIndexList),len(dataOut.beacon_heiIndexList)))
1264 phase_beacon = numpy.zeros(len(pairsIndexList))
1263 phase_beacon = numpy.zeros(len(pairsIndexList))
1265 for i in range(nplots):
1264 for i in range(nplots):
1266 pair = dataOut.pairsList[pairsIndexList[i]]
1265 pair = dataOut.pairsList[pairsIndexList[i]]
1267 ccf = numpy.average(dataOut.data_cspc[pairsIndexList[i],:,:],axis=0)
1266 ccf = numpy.average(dataOut.data_cspc[pairsIndexList[i],:,:],axis=0)
1268 powa = numpy.average(dataOut.data_spc[pair[0],:,:],axis=0)
1267 powa = numpy.average(dataOut.data_spc[pair[0],:,:],axis=0)
1269 powb = numpy.average(dataOut.data_spc[pair[1],:,:],axis=0)
1268 powb = numpy.average(dataOut.data_spc[pair[1],:,:],axis=0)
1270 avgcoherenceComplex = ccf/numpy.sqrt(powa*powb)
1269 avgcoherenceComplex = ccf/numpy.sqrt(powa*powb)
1271 phase = numpy.arctan2(avgcoherenceComplex.imag, avgcoherenceComplex.real)*180/numpy.pi
1270 phase = numpy.arctan2(avgcoherenceComplex.imag, avgcoherenceComplex.real)*180/numpy.pi
1272
1271
1273 #print "Phase %d%d" %(pair[0], pair[1])
1272 #print "Phase %d%d" %(pair[0], pair[1])
1274 #print phase[dataOut.beacon_heiIndexList]
1273 #print phase[dataOut.beacon_heiIndexList]
1275
1274
1276 phase_beacon[i] = numpy.average(phase[dataOut.beacon_heiIndexList])
1275 phase_beacon[i] = numpy.average(phase[dataOut.beacon_heiIndexList])
1277
1276
1278 if not self.__isConfig:
1277 if not self.__isConfig:
1279
1278
1280 nplots = len(pairsIndexList)
1279 nplots = len(pairsIndexList)
1281
1280
1282 self.setup(id=id,
1281 self.setup(id=id,
1283 nplots=nplots,
1282 nplots=nplots,
1284 wintitle=wintitle,
1283 wintitle=wintitle,
1285 showprofile=showprofile,
1284 showprofile=showprofile,
1286 show=show)
1285 show=show)
1287
1286
1288 tmin, tmax = self.getTimeLim(x, xmin, xmax)
1287 tmin, tmax = self.getTimeLim(x, xmin, xmax)
1289 if ymin == None: ymin = numpy.nanmin(phase_beacon) - 10.0
1288 if ymin == None: ymin = numpy.nanmin(phase_beacon) - 10.0
1290 if ymax == None: ymax = numpy.nanmax(phase_beacon) + 10.0
1289 if ymax == None: ymax = numpy.nanmax(phase_beacon) + 10.0
1291
1290
1292 self.FTP_WEI = ftp_wei
1291 self.FTP_WEI = ftp_wei
1293 self.EXP_CODE = exp_code
1292 self.EXP_CODE = exp_code
1294 self.SUB_EXP_CODE = sub_exp_code
1293 self.SUB_EXP_CODE = sub_exp_code
1295 self.PLOT_POS = plot_pos
1294 self.PLOT_POS = plot_pos
1296
1295
1297 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
1296 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
1298 self.__isConfig = True
1297 self.__isConfig = True
1299 self.figfile = figfile
1298 self.figfile = figfile
1300 self.xdata = numpy.array([])
1299 self.xdata = numpy.array([])
1301 self.ydata = numpy.array([])
1300 self.ydata = numpy.array([])
1302
1301
1303 #open file beacon phase
1302 #open file beacon phase
1304 path = '%s%03d' %(self.PREFIX, self.id)
1303 path = '%s%03d' %(self.PREFIX, self.id)
1305 beacon_file = os.path.join(path,'%s.txt'%self.name)
1304 beacon_file = os.path.join(path,'%s.txt'%self.name)
1306 self.filename_phase = os.path.join(figpath,beacon_file)
1305 self.filename_phase = os.path.join(figpath,beacon_file)
1307 #self.save_phase(self.filename_phase)
1306 #self.save_phase(self.filename_phase)
1308
1307
1309
1308
1310 #store data beacon phase
1309 #store data beacon phase
1311 #self.save_data(self.filename_phase, phase_beacon, thisDatetime)
1310 #self.save_data(self.filename_phase, phase_beacon, thisDatetime)
1312
1311
1313 self.setWinTitle(title)
1312 self.setWinTitle(title)
1314
1313
1315
1314
1316 title = "Beacon Signal %s" %(thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
1315 title = "Beacon Signal %s" %(thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
1317
1316
1318 legendlabels = ["pairs %d%d"%(pair[0], pair[1]) for pair in dataOut.pairsList]
1317 legendlabels = ["pairs %d%d"%(pair[0], pair[1]) for pair in dataOut.pairsList]
1319
1318
1320 axes = self.axesList[0]
1319 axes = self.axesList[0]
1321
1320
1322 self.xdata = numpy.hstack((self.xdata, x[0:1]))
1321 self.xdata = numpy.hstack((self.xdata, x[0:1]))
1323
1322
1324 if len(self.ydata)==0:
1323 if len(self.ydata)==0:
1325 self.ydata = phase_beacon.reshape(-1,1)
1324 self.ydata = phase_beacon.reshape(-1,1)
1326 else:
1325 else:
1327 self.ydata = numpy.hstack((self.ydata, phase_beacon.reshape(-1,1)))
1326 self.ydata = numpy.hstack((self.ydata, phase_beacon.reshape(-1,1)))
1328
1327
1329
1328
1330 axes.pmultilineyaxis(x=self.xdata, y=self.ydata,
1329 axes.pmultilineyaxis(x=self.xdata, y=self.ydata,
1331 xmin=tmin, xmax=tmax, ymin=ymin, ymax=ymax,
1330 xmin=tmin, xmax=tmax, ymin=ymin, ymax=ymax,
1332 xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels, marker='x', markersize=8, linestyle="solid",
1331 xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels, marker='x', markersize=8, linestyle="solid",
1333 XAxisAsTime=True, grid='both'
1332 XAxisAsTime=True, grid='both'
1334 )
1333 )
1335
1334
1336 self.draw()
1335 self.draw()
1337
1336
1338 if x[1] >= self.axesList[0].xmax:
1337 if x[1] >= self.axesList[0].xmax:
1339 self.counter_imagwr = wr_period
1338 self.counter_imagwr = wr_period
1340 del self.xdata
1339 del self.xdata
1341 del self.ydata
1340 del self.ydata
1342 self.__isConfig = False
1341 self.__isConfig = False
1343
1342
1344 if self.figfile == None:
1343 if self.figfile == None:
1345 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
1344 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
1346 self.figfile = self.getFilename(name = str_datetime)
1345 self.figfile = self.getFilename(name = str_datetime)
1347
1346
1348 if figpath != '':
1347 if figpath != '':
1349 self.counter_imagwr += 1
1348 self.counter_imagwr += 1
1350 if (self.counter_imagwr>=wr_period):
1349 if (self.counter_imagwr>=wr_period):
1351 # store png plot to local folder
1350 # store png plot to local folder
1352 self.saveFigure(figpath, self.figfile)
1351 self.saveFigure(figpath, self.figfile)
1353 # store png plot to FTP server according to RT-Web format
1352 # store png plot to FTP server according to RT-Web format
1354 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
1353 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
1355 ftp_filename = os.path.join(figpath, name)
1354 ftp_filename = os.path.join(figpath, name)
1356 self.saveFigure(figpath, ftp_filename)
1355 self.saveFigure(figpath, ftp_filename)
1357 self.counter_imagwr = 0
1356 self.counter_imagwr = 0
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