##// END OF EJS Templates
schain
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rti png filename is defined by self.figfile
Daniel Valdez -
r490:9dd98ddf6c74
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@@ -1,1148 +1,1151
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 xlabel = "Velocity (m/s)"
134 xlabel = "Velocity (m/s)"
135 ylabel = "Range (Km)"
135 ylabel = "Range (Km)"
136
136
137 if not self.isConfig:
137 if not self.isConfig:
138
138
139 nplots = len(channelIndexList)
139 nplots = len(channelIndexList)
140
140
141 self.setup(id=id,
141 self.setup(id=id,
142 nplots=nplots,
142 nplots=nplots,
143 wintitle=wintitle,
143 wintitle=wintitle,
144 showprofile=showprofile,
144 showprofile=showprofile,
145 show=show)
145 show=show)
146
146
147 if xmin == None: xmin = numpy.nanmin(x)
147 if xmin == None: xmin = numpy.nanmin(x)
148 if xmax == None: xmax = numpy.nanmax(x)
148 if xmax == None: xmax = numpy.nanmax(x)
149 if ymin == None: ymin = numpy.nanmin(y)
149 if ymin == None: ymin = numpy.nanmin(y)
150 if ymax == None: ymax = numpy.nanmax(y)
150 if ymax == None: ymax = numpy.nanmax(y)
151 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
151 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
152 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
152 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
153
153
154 self.FTP_WEI = ftp_wei
154 self.FTP_WEI = ftp_wei
155 self.EXP_CODE = exp_code
155 self.EXP_CODE = exp_code
156 self.SUB_EXP_CODE = sub_exp_code
156 self.SUB_EXP_CODE = sub_exp_code
157 self.PLOT_POS = plot_pos
157 self.PLOT_POS = plot_pos
158
158
159 self.isConfig = True
159 self.isConfig = True
160
160
161 self.setWinTitle(title)
161 self.setWinTitle(title)
162
162
163 for i in range(self.nplots):
163 for i in range(self.nplots):
164 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
164 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
165 title = "Channel %d: %4.2fdB: %s" %(dataOut.channelList[i]+1, noisedB[i], str_datetime)
165 title = "Channel %d: %4.2fdB: %s" %(dataOut.channelList[i]+1, noisedB[i], str_datetime)
166 axes = self.axesList[i*self.__nsubplots]
166 axes = self.axesList[i*self.__nsubplots]
167 axes.pcolor(x, y, zdB[i,:,:],
167 axes.pcolor(x, y, zdB[i,:,:],
168 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
168 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
169 xlabel=xlabel, ylabel=ylabel, title=title,
169 xlabel=xlabel, ylabel=ylabel, title=title,
170 ticksize=9, cblabel='')
170 ticksize=9, cblabel='')
171
171
172 if self.__showprofile:
172 if self.__showprofile:
173 axes = self.axesList[i*self.__nsubplots +1]
173 axes = self.axesList[i*self.__nsubplots +1]
174 axes.pline(avgdB[i], y,
174 axes.pline(avgdB[i], y,
175 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
175 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
176 xlabel='dB', ylabel='', title='',
176 xlabel='dB', ylabel='', title='',
177 ytick_visible=False,
177 ytick_visible=False,
178 grid='x')
178 grid='x')
179
179
180 noiseline = numpy.repeat(noisedB[i], len(y))
180 noiseline = numpy.repeat(noisedB[i], len(y))
181 axes.addpline(noiseline, y, idline=1, color="black", linestyle="dashed", lw=2)
181 axes.addpline(noiseline, y, idline=1, color="black", linestyle="dashed", lw=2)
182
182
183 self.draw()
183 self.draw()
184
184
185 if figfile == None:
185 if figfile == None:
186 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
186 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
187 figfile = self.getFilename(name = str_datetime)
187 figfile = self.getFilename(name = str_datetime)
188
188
189 if figpath != '':
189 if figpath != '':
190 self.counter_imagwr += 1
190 self.counter_imagwr += 1
191 if (self.counter_imagwr>=wr_period):
191 if (self.counter_imagwr>=wr_period):
192 # store png plot to local folder
192 # store png plot to local folder
193 self.saveFigure(figpath, figfile)
193 self.saveFigure(figpath, figfile)
194 # store png plot to FTP server according to RT-Web format
194 # store png plot to FTP server according to RT-Web format
195 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
195 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
196 ftp_filename = os.path.join(figpath, name)
196 ftp_filename = os.path.join(figpath, name)
197 self.saveFigure(figpath, ftp_filename)
197 self.saveFigure(figpath, ftp_filename)
198 self.counter_imagwr = 0
198 self.counter_imagwr = 0
199
199
200
200
201 class CrossSpectraPlot(Figure):
201 class CrossSpectraPlot(Figure):
202
202
203 isConfig = None
203 isConfig = None
204 __nsubplots = None
204 __nsubplots = None
205
205
206 WIDTH = None
206 WIDTH = None
207 HEIGHT = None
207 HEIGHT = None
208 WIDTHPROF = None
208 WIDTHPROF = None
209 HEIGHTPROF = None
209 HEIGHTPROF = None
210 PREFIX = 'cspc'
210 PREFIX = 'cspc'
211
211
212 def __init__(self):
212 def __init__(self):
213
213
214 self.isConfig = False
214 self.isConfig = False
215 self.__nsubplots = 4
215 self.__nsubplots = 4
216 self.counter_imagwr = 0
216 self.counter_imagwr = 0
217 self.WIDTH = 250
217 self.WIDTH = 250
218 self.HEIGHT = 250
218 self.HEIGHT = 250
219 self.WIDTHPROF = 0
219 self.WIDTHPROF = 0
220 self.HEIGHTPROF = 0
220 self.HEIGHTPROF = 0
221
221
222 self.PLOT_CODE = 1
222 self.PLOT_CODE = 1
223 self.FTP_WEI = None
223 self.FTP_WEI = None
224 self.EXP_CODE = None
224 self.EXP_CODE = None
225 self.SUB_EXP_CODE = None
225 self.SUB_EXP_CODE = None
226 self.PLOT_POS = None
226 self.PLOT_POS = None
227
227
228 def getSubplots(self):
228 def getSubplots(self):
229
229
230 ncol = 4
230 ncol = 4
231 nrow = self.nplots
231 nrow = self.nplots
232
232
233 return nrow, ncol
233 return nrow, ncol
234
234
235 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
235 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
236
236
237 self.__showprofile = showprofile
237 self.__showprofile = showprofile
238 self.nplots = nplots
238 self.nplots = nplots
239
239
240 ncolspan = 1
240 ncolspan = 1
241 colspan = 1
241 colspan = 1
242
242
243 self.createFigure(id = id,
243 self.createFigure(id = id,
244 wintitle = wintitle,
244 wintitle = wintitle,
245 widthplot = self.WIDTH + self.WIDTHPROF,
245 widthplot = self.WIDTH + self.WIDTHPROF,
246 heightplot = self.HEIGHT + self.HEIGHTPROF,
246 heightplot = self.HEIGHT + self.HEIGHTPROF,
247 show=True)
247 show=True)
248
248
249 nrow, ncol = self.getSubplots()
249 nrow, ncol = self.getSubplots()
250
250
251 counter = 0
251 counter = 0
252 for y in range(nrow):
252 for y in range(nrow):
253 for x in range(ncol):
253 for x in range(ncol):
254 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
254 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
255
255
256 counter += 1
256 counter += 1
257
257
258 def run(self, dataOut, id, wintitle="", pairsList=None,
258 def run(self, dataOut, id, wintitle="", pairsList=None,
259 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
259 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
260 save=False, figpath='./', figfile=None, ftp=False, wr_period=1,
260 save=False, figpath='./', figfile=None, ftp=False, wr_period=1,
261 power_cmap='jet', coherence_cmap='jet', phase_cmap='RdBu_r', show=True,
261 power_cmap='jet', coherence_cmap='jet', phase_cmap='RdBu_r', show=True,
262 server=None, folder=None, username=None, password=None,
262 server=None, folder=None, username=None, password=None,
263 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
263 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
264
264
265 """
265 """
266
266
267 Input:
267 Input:
268 dataOut :
268 dataOut :
269 id :
269 id :
270 wintitle :
270 wintitle :
271 channelList :
271 channelList :
272 showProfile :
272 showProfile :
273 xmin : None,
273 xmin : None,
274 xmax : None,
274 xmax : None,
275 ymin : None,
275 ymin : None,
276 ymax : None,
276 ymax : None,
277 zmin : None,
277 zmin : None,
278 zmax : None
278 zmax : None
279 """
279 """
280
280
281 if pairsList == None:
281 if pairsList == None:
282 pairsIndexList = dataOut.pairsIndexList
282 pairsIndexList = dataOut.pairsIndexList
283 else:
283 else:
284 pairsIndexList = []
284 pairsIndexList = []
285 for pair in pairsList:
285 for pair in pairsList:
286 if pair not in dataOut.pairsList:
286 if pair not in dataOut.pairsList:
287 raise ValueError, "Pair %s is not in dataOut.pairsList" %(pair)
287 raise ValueError, "Pair %s is not in dataOut.pairsList" %(pair)
288 pairsIndexList.append(dataOut.pairsList.index(pair))
288 pairsIndexList.append(dataOut.pairsList.index(pair))
289
289
290 if pairsIndexList == []:
290 if pairsIndexList == []:
291 return
291 return
292
292
293 if len(pairsIndexList) > 4:
293 if len(pairsIndexList) > 4:
294 pairsIndexList = pairsIndexList[0:4]
294 pairsIndexList = pairsIndexList[0:4]
295 factor = dataOut.normFactor
295 factor = dataOut.normFactor
296 x = dataOut.getVelRange(1)
296 x = dataOut.getVelRange(1)
297 y = dataOut.getHeiRange()
297 y = dataOut.getHeiRange()
298 z = dataOut.data_spc[:,:,:]/factor
298 z = dataOut.data_spc[:,:,:]/factor
299 # z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
299 # z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
300 avg = numpy.abs(numpy.average(z, axis=1))
300 avg = numpy.abs(numpy.average(z, axis=1))
301 noise = dataOut.noise()/factor
301 noise = dataOut.noise()/factor
302
302
303 zdB = 10*numpy.log10(z)
303 zdB = 10*numpy.log10(z)
304 avgdB = 10*numpy.log10(avg)
304 avgdB = 10*numpy.log10(avg)
305 noisedB = 10*numpy.log10(noise)
305 noisedB = 10*numpy.log10(noise)
306
306
307
307
308 #thisDatetime = dataOut.datatime
308 #thisDatetime = dataOut.datatime
309 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
309 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
310 title = wintitle + " Cross-Spectra: %s" %(thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
310 title = wintitle + " Cross-Spectra: %s" %(thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
311 xlabel = "Velocity (m/s)"
311 xlabel = "Velocity (m/s)"
312 ylabel = "Range (Km)"
312 ylabel = "Range (Km)"
313
313
314 if not self.isConfig:
314 if not self.isConfig:
315
315
316 nplots = len(pairsIndexList)
316 nplots = len(pairsIndexList)
317
317
318 self.setup(id=id,
318 self.setup(id=id,
319 nplots=nplots,
319 nplots=nplots,
320 wintitle=wintitle,
320 wintitle=wintitle,
321 showprofile=False,
321 showprofile=False,
322 show=show)
322 show=show)
323
323
324 if xmin == None: xmin = numpy.nanmin(x)
324 if xmin == None: xmin = numpy.nanmin(x)
325 if xmax == None: xmax = numpy.nanmax(x)
325 if xmax == None: xmax = numpy.nanmax(x)
326 if ymin == None: ymin = numpy.nanmin(y)
326 if ymin == None: ymin = numpy.nanmin(y)
327 if ymax == None: ymax = numpy.nanmax(y)
327 if ymax == None: ymax = numpy.nanmax(y)
328 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
328 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
329 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
329 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
330
330
331 self.FTP_WEI = ftp_wei
331 self.FTP_WEI = ftp_wei
332 self.EXP_CODE = exp_code
332 self.EXP_CODE = exp_code
333 self.SUB_EXP_CODE = sub_exp_code
333 self.SUB_EXP_CODE = sub_exp_code
334 self.PLOT_POS = plot_pos
334 self.PLOT_POS = plot_pos
335
335
336 self.isConfig = True
336 self.isConfig = True
337
337
338 self.setWinTitle(title)
338 self.setWinTitle(title)
339
339
340 for i in range(self.nplots):
340 for i in range(self.nplots):
341 pair = dataOut.pairsList[pairsIndexList[i]]
341 pair = dataOut.pairsList[pairsIndexList[i]]
342 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
342 str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
343 title = "Ch%d: %4.2fdB: %s" %(pair[0], noisedB[pair[0]], str_datetime)
343 title = "Ch%d: %4.2fdB: %s" %(pair[0], noisedB[pair[0]], str_datetime)
344 zdB = 10.*numpy.log10(dataOut.data_spc[pair[0],:,:]/factor)
344 zdB = 10.*numpy.log10(dataOut.data_spc[pair[0],:,:]/factor)
345 axes0 = self.axesList[i*self.__nsubplots]
345 axes0 = self.axesList[i*self.__nsubplots]
346 axes0.pcolor(x, y, zdB,
346 axes0.pcolor(x, y, zdB,
347 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
347 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
348 xlabel=xlabel, ylabel=ylabel, title=title,
348 xlabel=xlabel, ylabel=ylabel, title=title,
349 ticksize=9, colormap=power_cmap, cblabel='')
349 ticksize=9, colormap=power_cmap, cblabel='')
350
350
351 title = "Ch%d: %4.2fdB: %s" %(pair[1], noisedB[pair[1]], str_datetime)
351 title = "Ch%d: %4.2fdB: %s" %(pair[1], noisedB[pair[1]], str_datetime)
352 zdB = 10.*numpy.log10(dataOut.data_spc[pair[1],:,:]/factor)
352 zdB = 10.*numpy.log10(dataOut.data_spc[pair[1],:,:]/factor)
353 axes0 = self.axesList[i*self.__nsubplots+1]
353 axes0 = self.axesList[i*self.__nsubplots+1]
354 axes0.pcolor(x, y, zdB,
354 axes0.pcolor(x, y, zdB,
355 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
355 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
356 xlabel=xlabel, ylabel=ylabel, title=title,
356 xlabel=xlabel, ylabel=ylabel, title=title,
357 ticksize=9, colormap=power_cmap, cblabel='')
357 ticksize=9, colormap=power_cmap, cblabel='')
358
358
359 coherenceComplex = dataOut.data_cspc[pairsIndexList[i],:,:]/numpy.sqrt(dataOut.data_spc[pair[0],:,:]*dataOut.data_spc[pair[1],:,:])
359 coherenceComplex = dataOut.data_cspc[pairsIndexList[i],:,:]/numpy.sqrt(dataOut.data_spc[pair[0],:,:]*dataOut.data_spc[pair[1],:,:])
360 coherence = numpy.abs(coherenceComplex)
360 coherence = numpy.abs(coherenceComplex)
361 # phase = numpy.arctan(-1*coherenceComplex.imag/coherenceComplex.real)*180/numpy.pi
361 # phase = numpy.arctan(-1*coherenceComplex.imag/coherenceComplex.real)*180/numpy.pi
362 phase = numpy.arctan2(coherenceComplex.imag, coherenceComplex.real)*180/numpy.pi
362 phase = numpy.arctan2(coherenceComplex.imag, coherenceComplex.real)*180/numpy.pi
363
363
364 title = "Coherence %d%d" %(pair[0], pair[1])
364 title = "Coherence %d%d" %(pair[0], pair[1])
365 axes0 = self.axesList[i*self.__nsubplots+2]
365 axes0 = self.axesList[i*self.__nsubplots+2]
366 axes0.pcolor(x, y, coherence,
366 axes0.pcolor(x, y, coherence,
367 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=0, zmax=1,
367 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=0, zmax=1,
368 xlabel=xlabel, ylabel=ylabel, title=title,
368 xlabel=xlabel, ylabel=ylabel, title=title,
369 ticksize=9, colormap=coherence_cmap, cblabel='')
369 ticksize=9, colormap=coherence_cmap, cblabel='')
370
370
371 title = "Phase %d%d" %(pair[0], pair[1])
371 title = "Phase %d%d" %(pair[0], pair[1])
372 axes0 = self.axesList[i*self.__nsubplots+3]
372 axes0 = self.axesList[i*self.__nsubplots+3]
373 axes0.pcolor(x, y, phase,
373 axes0.pcolor(x, y, phase,
374 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=-180, zmax=180,
374 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax, zmin=-180, zmax=180,
375 xlabel=xlabel, ylabel=ylabel, title=title,
375 xlabel=xlabel, ylabel=ylabel, title=title,
376 ticksize=9, colormap=phase_cmap, cblabel='')
376 ticksize=9, colormap=phase_cmap, cblabel='')
377
377
378
378
379
379
380 self.draw()
380 self.draw()
381
381
382 if save:
382 if save:
383
383
384 self.counter_imagwr += 1
384 self.counter_imagwr += 1
385 if (self.counter_imagwr==wr_period):
385 if (self.counter_imagwr==wr_period):
386 if figfile == None:
386 if figfile == None:
387 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
387 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
388 figfile = self.getFilename(name = str_datetime)
388 figfile = self.getFilename(name = str_datetime)
389
389
390 self.saveFigure(figpath, figfile)
390 self.saveFigure(figpath, figfile)
391
391
392 if ftp:
392 if ftp:
393 #provisionalmente envia archivos en el formato de la web en tiempo real
393 #provisionalmente envia archivos en el formato de la web en tiempo real
394 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
394 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
395 path = '%s%03d' %(self.PREFIX, self.id)
395 path = '%s%03d' %(self.PREFIX, self.id)
396 ftp_file = os.path.join(path,'ftp','%s.png'%name)
396 ftp_file = os.path.join(path,'ftp','%s.png'%name)
397 self.saveFigure(figpath, ftp_file)
397 self.saveFigure(figpath, ftp_file)
398 ftp_filename = os.path.join(figpath,ftp_file)
398 ftp_filename = os.path.join(figpath,ftp_file)
399
399
400 try:
400 try:
401 self.sendByFTP(ftp_filename, server, folder, username, password)
401 self.sendByFTP(ftp_filename, server, folder, username, password)
402 except:
402 except:
403 self.counter_imagwr = 0
403 self.counter_imagwr = 0
404 print ValueError, 'Error FTP'
404 print ValueError, 'Error FTP'
405
405
406 self.counter_imagwr = 0
406 self.counter_imagwr = 0
407
407
408 class RTIPlot(Figure):
408 class RTIPlot(Figure):
409
409
410 isConfig = None
410 isConfig = None
411 __nsubplots = None
411 __nsubplots = None
412
412
413 WIDTHPROF = None
413 WIDTHPROF = None
414 HEIGHTPROF = None
414 HEIGHTPROF = None
415 PREFIX = 'rti'
415 PREFIX = 'rti'
416
416
417 def __init__(self):
417 def __init__(self):
418
418
419 self.timerange = 2*60*60
419 self.timerange = 2*60*60
420 self.isConfig = False
420 self.isConfig = False
421 self.__nsubplots = 1
421 self.__nsubplots = 1
422
422
423 self.WIDTH = 800
423 self.WIDTH = 800
424 self.HEIGHT = 150
424 self.HEIGHT = 150
425 self.WIDTHPROF = 120
425 self.WIDTHPROF = 120
426 self.HEIGHTPROF = 0
426 self.HEIGHTPROF = 0
427 self.counter_imagwr = 0
427 self.counter_imagwr = 0
428
428
429 self.PLOT_CODE = 0
429 self.PLOT_CODE = 0
430 self.FTP_WEI = None
430 self.FTP_WEI = None
431 self.EXP_CODE = None
431 self.EXP_CODE = None
432 self.SUB_EXP_CODE = None
432 self.SUB_EXP_CODE = None
433 self.PLOT_POS = None
433 self.PLOT_POS = None
434 self.tmin = None
434 self.tmin = None
435 self.tmax = None
435 self.tmax = None
436
436
437 self.xmin = None
437 self.xmin = None
438 self.xmax = None
438 self.xmax = None
439
439
440 self.figfile = None
441
440 def getSubplots(self):
442 def getSubplots(self):
441
443
442 ncol = 1
444 ncol = 1
443 nrow = self.nplots
445 nrow = self.nplots
444
446
445 return nrow, ncol
447 return nrow, ncol
446
448
447 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
449 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
448
450
449 self.__showprofile = showprofile
451 self.__showprofile = showprofile
450 self.nplots = nplots
452 self.nplots = nplots
451
453
452 ncolspan = 1
454 ncolspan = 1
453 colspan = 1
455 colspan = 1
454 if showprofile:
456 if showprofile:
455 ncolspan = 7
457 ncolspan = 7
456 colspan = 6
458 colspan = 6
457 self.__nsubplots = 2
459 self.__nsubplots = 2
458
460
459 self.createFigure(id = id,
461 self.createFigure(id = id,
460 wintitle = wintitle,
462 wintitle = wintitle,
461 widthplot = self.WIDTH + self.WIDTHPROF,
463 widthplot = self.WIDTH + self.WIDTHPROF,
462 heightplot = self.HEIGHT + self.HEIGHTPROF,
464 heightplot = self.HEIGHT + self.HEIGHTPROF,
463 show=show)
465 show=show)
464
466
465 nrow, ncol = self.getSubplots()
467 nrow, ncol = self.getSubplots()
466
468
467 counter = 0
469 counter = 0
468 for y in range(nrow):
470 for y in range(nrow):
469 for x in range(ncol):
471 for x in range(ncol):
470
472
471 if counter >= self.nplots:
473 if counter >= self.nplots:
472 break
474 break
473
475
474 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
476 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
475
477
476 if showprofile:
478 if showprofile:
477 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
479 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
478
480
479 counter += 1
481 counter += 1
480
482
481 def run(self, dataOut, id, wintitle="", channelList=None, showprofile='True',
483 def run(self, dataOut, id, wintitle="", channelList=None, showprofile='True',
482 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
484 xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None,
483 timerange=None,
485 timerange=None,
484 save=False, figpath='./', lastone=0,figfile=None, ftp=False, wr_period=1, show=True,
486 save=False, figpath='./', lastone=0,figfile=None, ftp=False, wr_period=1, show=True,
485 server=None, folder=None, username=None, password=None,
487 server=None, folder=None, username=None, password=None,
486 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
488 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
487
489
488 """
490 """
489
491
490 Input:
492 Input:
491 dataOut :
493 dataOut :
492 id :
494 id :
493 wintitle :
495 wintitle :
494 channelList :
496 channelList :
495 showProfile :
497 showProfile :
496 xmin : None,
498 xmin : None,
497 xmax : None,
499 xmax : None,
498 ymin : None,
500 ymin : None,
499 ymax : None,
501 ymax : None,
500 zmin : None,
502 zmin : None,
501 zmax : None
503 zmax : None
502 """
504 """
503
505
504 if channelList == None:
506 if channelList == None:
505 channelIndexList = dataOut.channelIndexList
507 channelIndexList = dataOut.channelIndexList
506 else:
508 else:
507 channelIndexList = []
509 channelIndexList = []
508 for channel in channelList:
510 for channel in channelList:
509 if channel not in dataOut.channelList:
511 if channel not in dataOut.channelList:
510 raise ValueError, "Channel %d is not in dataOut.channelList"
512 raise ValueError, "Channel %d is not in dataOut.channelList"
511 channelIndexList.append(dataOut.channelList.index(channel))
513 channelIndexList.append(dataOut.channelList.index(channel))
512
514
513 if timerange != None:
515 if timerange != None:
514 self.timerange = timerange
516 self.timerange = timerange
515
517
516 #tmin = None
518 #tmin = None
517 #tmax = None
519 #tmax = None
518 factor = dataOut.normFactor
520 factor = dataOut.normFactor
519 x = dataOut.getTimeRange()
521 x = dataOut.getTimeRange()
520 y = dataOut.getHeiRange()
522 y = dataOut.getHeiRange()
521
523
522 z = dataOut.data_spc[channelIndexList,:,:]/factor
524 z = dataOut.data_spc[channelIndexList,:,:]/factor
523 z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
525 z = numpy.where(numpy.isfinite(z), z, numpy.NAN)
524 avg = numpy.average(z, axis=1)
526 avg = numpy.average(z, axis=1)
525
527
526 avgdB = 10.*numpy.log10(avg)
528 avgdB = 10.*numpy.log10(avg)
527
529
528
530
529 # thisDatetime = dataOut.datatime
531 # thisDatetime = dataOut.datatime
530 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
532 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
531 title = wintitle + " RTI" #: %s" %(thisDatetime.strftime("%d-%b-%Y"))
533 title = wintitle + " RTI" #: %s" %(thisDatetime.strftime("%d-%b-%Y"))
532 xlabel = ""
534 xlabel = ""
533 ylabel = "Range (Km)"
535 ylabel = "Range (Km)"
534
536
535 if not self.isConfig:
537 if not self.isConfig:
536
538
537 nplots = len(channelIndexList)
539 nplots = len(channelIndexList)
538
540
539 self.setup(id=id,
541 self.setup(id=id,
540 nplots=nplots,
542 nplots=nplots,
541 wintitle=wintitle,
543 wintitle=wintitle,
542 showprofile=showprofile,
544 showprofile=showprofile,
543 show=show)
545 show=show)
544
546
545 self.xmin, self.xmax = self.getTimeLim(x, xmin, xmax, timerange)
547 self.xmin, self.xmax = self.getTimeLim(x, xmin, xmax, timerange)
546
548
547 # if timerange != None:
549 # if timerange != None:
548 # self.timerange = timerange
550 # self.timerange = timerange
549 # self.xmin, self.tmax = self.getTimeLim(x, xmin, xmax, timerange)
551 # self.xmin, self.tmax = self.getTimeLim(x, xmin, xmax, timerange)
550
552
551
553
552
554
553 if ymin == None: ymin = numpy.nanmin(y)
555 if ymin == None: ymin = numpy.nanmin(y)
554 if ymax == None: ymax = numpy.nanmax(y)
556 if ymax == None: ymax = numpy.nanmax(y)
555 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
557 if zmin == None: zmin = numpy.nanmin(avgdB)*0.9
556 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
558 if zmax == None: zmax = numpy.nanmax(avgdB)*0.9
557
559
558 self.FTP_WEI = ftp_wei
560 self.FTP_WEI = ftp_wei
559 self.EXP_CODE = exp_code
561 self.EXP_CODE = exp_code
560 self.SUB_EXP_CODE = sub_exp_code
562 self.SUB_EXP_CODE = sub_exp_code
561 self.PLOT_POS = plot_pos
563 self.PLOT_POS = plot_pos
562
564
563 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
565 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
564 self.isConfig = True
566 self.isConfig = True
565
567 self.figfile = figfile
566
568
567 self.setWinTitle(title)
569 self.setWinTitle(title)
568
570
569 if ((self.xmax - x[1]) < (x[1]-x[0])):
571 if ((self.xmax - x[1]) < (x[1]-x[0])):
570 x[1] = self.xmax
572 x[1] = self.xmax
571
573
572 for i in range(self.nplots):
574 for i in range(self.nplots):
573 title = "Channel %d: %s" %(dataOut.channelList[i]+1, thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
575 title = "Channel %d: %s" %(dataOut.channelList[i]+1, thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
574 axes = self.axesList[i*self.__nsubplots]
576 axes = self.axesList[i*self.__nsubplots]
575 zdB = avgdB[i].reshape((1,-1))
577 zdB = avgdB[i].reshape((1,-1))
576 axes.pcolorbuffer(x, y, zdB,
578 axes.pcolorbuffer(x, y, zdB,
577 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
579 xmin=self.xmin, xmax=self.xmax, ymin=ymin, ymax=ymax, zmin=zmin, zmax=zmax,
578 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
580 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
579 ticksize=9, cblabel='', cbsize="1%")
581 ticksize=9, cblabel='', cbsize="1%")
580
582
581 if self.__showprofile:
583 if self.__showprofile:
582 axes = self.axesList[i*self.__nsubplots +1]
584 axes = self.axesList[i*self.__nsubplots +1]
583 axes.pline(avgdB[i], y,
585 axes.pline(avgdB[i], y,
584 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
586 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
585 xlabel='dB', ylabel='', title='',
587 xlabel='dB', ylabel='', title='',
586 ytick_visible=False,
588 ytick_visible=False,
587 grid='x')
589 grid='x')
588
590
589 self.draw()
591 self.draw()
590
592
591 if x[1] >= self.axesList[0].xmax:
593 if x[1] >= self.axesList[0].xmax:
592 self.counter_imagwr = wr_period
594 self.counter_imagwr = wr_period
593 self.__isConfig = False
595 self.__isConfig = False
594
596
595 if figfile == None:
597
598 if self.figfile == None:
596 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
599 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
597 figfile = self.getFilename(name = str_datetime)
600 self.figfile = self.getFilename(name = str_datetime)
598
601
599 if figpath != '':
602 if figpath != '':
600
603
601 self.counter_imagwr += 1
604 self.counter_imagwr += 1
602 if (self.counter_imagwr>=wr_period):
605 if (self.counter_imagwr>=wr_period):
603 # store png plot to local folder
606 # store png plot to local folder
604 self.saveFigure(figpath, figfile)
607 self.saveFigure(figpath, self.figfile)
605 # store png plot to FTP server according to RT-Web format
608 # store png plot to FTP server according to RT-Web format
606 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
609 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
607 ftp_filename = os.path.join(figpath, name)
610 ftp_filename = os.path.join(figpath, name)
608 self.saveFigure(figpath, ftp_filename)
611 self.saveFigure(figpath, ftp_filename)
609
612
610 self.counter_imagwr = 0
613 self.counter_imagwr = 0
611
614
612
615
613 class CoherenceMap(Figure):
616 class CoherenceMap(Figure):
614 isConfig = None
617 isConfig = None
615 __nsubplots = None
618 __nsubplots = None
616
619
617 WIDTHPROF = None
620 WIDTHPROF = None
618 HEIGHTPROF = None
621 HEIGHTPROF = None
619 PREFIX = 'cmap'
622 PREFIX = 'cmap'
620
623
621 def __init__(self):
624 def __init__(self):
622 self.timerange = 2*60*60
625 self.timerange = 2*60*60
623 self.isConfig = False
626 self.isConfig = False
624 self.__nsubplots = 1
627 self.__nsubplots = 1
625
628
626 self.WIDTH = 800
629 self.WIDTH = 800
627 self.HEIGHT = 150
630 self.HEIGHT = 150
628 self.WIDTHPROF = 120
631 self.WIDTHPROF = 120
629 self.HEIGHTPROF = 0
632 self.HEIGHTPROF = 0
630 self.counter_imagwr = 0
633 self.counter_imagwr = 0
631
634
632 self.PLOT_CODE = 3
635 self.PLOT_CODE = 3
633 self.FTP_WEI = None
636 self.FTP_WEI = None
634 self.EXP_CODE = None
637 self.EXP_CODE = None
635 self.SUB_EXP_CODE = None
638 self.SUB_EXP_CODE = None
636 self.PLOT_POS = None
639 self.PLOT_POS = None
637 self.counter_imagwr = 0
640 self.counter_imagwr = 0
638
641
639 self.xmin = None
642 self.xmin = None
640 self.xmax = None
643 self.xmax = None
641
644
642 def getSubplots(self):
645 def getSubplots(self):
643 ncol = 1
646 ncol = 1
644 nrow = self.nplots*2
647 nrow = self.nplots*2
645
648
646 return nrow, ncol
649 return nrow, ncol
647
650
648 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
651 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
649 self.__showprofile = showprofile
652 self.__showprofile = showprofile
650 self.nplots = nplots
653 self.nplots = nplots
651
654
652 ncolspan = 1
655 ncolspan = 1
653 colspan = 1
656 colspan = 1
654 if showprofile:
657 if showprofile:
655 ncolspan = 7
658 ncolspan = 7
656 colspan = 6
659 colspan = 6
657 self.__nsubplots = 2
660 self.__nsubplots = 2
658
661
659 self.createFigure(id = id,
662 self.createFigure(id = id,
660 wintitle = wintitle,
663 wintitle = wintitle,
661 widthplot = self.WIDTH + self.WIDTHPROF,
664 widthplot = self.WIDTH + self.WIDTHPROF,
662 heightplot = self.HEIGHT + self.HEIGHTPROF,
665 heightplot = self.HEIGHT + self.HEIGHTPROF,
663 show=True)
666 show=True)
664
667
665 nrow, ncol = self.getSubplots()
668 nrow, ncol = self.getSubplots()
666
669
667 for y in range(nrow):
670 for y in range(nrow):
668 for x in range(ncol):
671 for x in range(ncol):
669
672
670 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
673 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
671
674
672 if showprofile:
675 if showprofile:
673 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
676 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
674
677
675 def run(self, dataOut, id, wintitle="", pairsList=None, showprofile='True',
678 def run(self, dataOut, id, wintitle="", pairsList=None, showprofile='True',
676 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,
677 timerange=None,
680 timerange=None,
678 save=False, figpath='./', figfile=None, ftp=False, wr_period=1,
681 save=False, figpath='./', figfile=None, ftp=False, wr_period=1,
679 coherence_cmap='jet', phase_cmap='RdBu_r', show=True,
682 coherence_cmap='jet', phase_cmap='RdBu_r', show=True,
680 server=None, folder=None, username=None, password=None,
683 server=None, folder=None, username=None, password=None,
681 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):
682
685
683 if pairsList == None:
686 if pairsList == None:
684 pairsIndexList = dataOut.pairsIndexList
687 pairsIndexList = dataOut.pairsIndexList
685 else:
688 else:
686 pairsIndexList = []
689 pairsIndexList = []
687 for pair in pairsList:
690 for pair in pairsList:
688 if pair not in dataOut.pairsList:
691 if pair not in dataOut.pairsList:
689 raise ValueError, "Pair %s is not in dataOut.pairsList" %(pair)
692 raise ValueError, "Pair %s is not in dataOut.pairsList" %(pair)
690 pairsIndexList.append(dataOut.pairsList.index(pair))
693 pairsIndexList.append(dataOut.pairsList.index(pair))
691
694
692 if timerange != None:
695 if timerange != None:
693 self.timerange = timerange
696 self.timerange = timerange
694
697
695 if pairsIndexList == []:
698 if pairsIndexList == []:
696 return
699 return
697
700
698 if len(pairsIndexList) > 4:
701 if len(pairsIndexList) > 4:
699 pairsIndexList = pairsIndexList[0:4]
702 pairsIndexList = pairsIndexList[0:4]
700
703
701 # tmin = None
704 # tmin = None
702 # tmax = None
705 # tmax = None
703 x = dataOut.getTimeRange()
706 x = dataOut.getTimeRange()
704 y = dataOut.getHeiRange()
707 y = dataOut.getHeiRange()
705
708
706 #thisDatetime = dataOut.datatime
709 #thisDatetime = dataOut.datatime
707 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
710 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
708 title = wintitle + " CoherenceMap" #: %s" %(thisDatetime.strftime("%d-%b-%Y"))
711 title = wintitle + " CoherenceMap" #: %s" %(thisDatetime.strftime("%d-%b-%Y"))
709 xlabel = ""
712 xlabel = ""
710 ylabel = "Range (Km)"
713 ylabel = "Range (Km)"
711
714
712 if not self.isConfig:
715 if not self.isConfig:
713 nplots = len(pairsIndexList)
716 nplots = len(pairsIndexList)
714 self.setup(id=id,
717 self.setup(id=id,
715 nplots=nplots,
718 nplots=nplots,
716 wintitle=wintitle,
719 wintitle=wintitle,
717 showprofile=showprofile,
720 showprofile=showprofile,
718 show=show)
721 show=show)
719
722
720 #tmin, tmax = self.getTimeLim(x, xmin, xmax)
723 #tmin, tmax = self.getTimeLim(x, xmin, xmax)
721
724
722 self.xmin, self.xmax = self.getTimeLim(x, xmin, xmax, timerange)
725 self.xmin, self.xmax = self.getTimeLim(x, xmin, xmax, timerange)
723
726
724 if ymin == None: ymin = numpy.nanmin(y)
727 if ymin == None: ymin = numpy.nanmin(y)
725 if ymax == None: ymax = numpy.nanmax(y)
728 if ymax == None: ymax = numpy.nanmax(y)
726 if zmin == None: zmin = 0.
729 if zmin == None: zmin = 0.
727 if zmax == None: zmax = 1.
730 if zmax == None: zmax = 1.
728
731
729 self.FTP_WEI = ftp_wei
732 self.FTP_WEI = ftp_wei
730 self.EXP_CODE = exp_code
733 self.EXP_CODE = exp_code
731 self.SUB_EXP_CODE = sub_exp_code
734 self.SUB_EXP_CODE = sub_exp_code
732 self.PLOT_POS = plot_pos
735 self.PLOT_POS = plot_pos
733
736
734 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
737 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
735
738
736 self.isConfig = True
739 self.isConfig = True
737
740
738 self.setWinTitle(title)
741 self.setWinTitle(title)
739
742
740 if ((self.xmax - x[1]) < (x[1]-x[0])):
743 if ((self.xmax - x[1]) < (x[1]-x[0])):
741 x[1] = self.xmax
744 x[1] = self.xmax
742
745
743 for i in range(self.nplots):
746 for i in range(self.nplots):
744
747
745 pair = dataOut.pairsList[pairsIndexList[i]]
748 pair = dataOut.pairsList[pairsIndexList[i]]
746
749
747 ccf = numpy.average(dataOut.data_cspc[pairsIndexList[i],:,:],axis=0)
750 ccf = numpy.average(dataOut.data_cspc[pairsIndexList[i],:,:],axis=0)
748 powa = numpy.average(dataOut.data_spc[pair[0],:,:],axis=0)
751 powa = numpy.average(dataOut.data_spc[pair[0],:,:],axis=0)
749 powb = numpy.average(dataOut.data_spc[pair[1],:,:],axis=0)
752 powb = numpy.average(dataOut.data_spc[pair[1],:,:],axis=0)
750
753
751
754
752 avgcoherenceComplex = ccf/numpy.sqrt(powa*powb)
755 avgcoherenceComplex = ccf/numpy.sqrt(powa*powb)
753 coherence = numpy.abs(avgcoherenceComplex)
756 coherence = numpy.abs(avgcoherenceComplex)
754
757
755 z = coherence.reshape((1,-1))
758 z = coherence.reshape((1,-1))
756
759
757 counter = 0
760 counter = 0
758
761
759 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"))
760 axes = self.axesList[i*self.__nsubplots*2]
763 axes = self.axesList[i*self.__nsubplots*2]
761 axes.pcolorbuffer(x, y, z,
764 axes.pcolorbuffer(x, y, z,
762 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,
763 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
766 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
764 ticksize=9, cblabel='', colormap=coherence_cmap, cbsize="1%")
767 ticksize=9, cblabel='', colormap=coherence_cmap, cbsize="1%")
765
768
766 if self.__showprofile:
769 if self.__showprofile:
767 counter += 1
770 counter += 1
768 axes = self.axesList[i*self.__nsubplots*2 + counter]
771 axes = self.axesList[i*self.__nsubplots*2 + counter]
769 axes.pline(coherence, y,
772 axes.pline(coherence, y,
770 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
773 xmin=zmin, xmax=zmax, ymin=ymin, ymax=ymax,
771 xlabel='', ylabel='', title='', ticksize=7,
774 xlabel='', ylabel='', title='', ticksize=7,
772 ytick_visible=False, nxticks=5,
775 ytick_visible=False, nxticks=5,
773 grid='x')
776 grid='x')
774
777
775 counter += 1
778 counter += 1
776
779
777 phase = numpy.arctan2(avgcoherenceComplex.imag, avgcoherenceComplex.real)*180/numpy.pi
780 phase = numpy.arctan2(avgcoherenceComplex.imag, avgcoherenceComplex.real)*180/numpy.pi
778
781
779 z = phase.reshape((1,-1))
782 z = phase.reshape((1,-1))
780
783
781 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"))
782 axes = self.axesList[i*self.__nsubplots*2 + counter]
785 axes = self.axesList[i*self.__nsubplots*2 + counter]
783 axes.pcolorbuffer(x, y, z,
786 axes.pcolorbuffer(x, y, z,
784 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,
785 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
788 xlabel=xlabel, ylabel=ylabel, title=title, rti=True, XAxisAsTime=True,
786 ticksize=9, cblabel='', colormap=phase_cmap, cbsize="1%")
789 ticksize=9, cblabel='', colormap=phase_cmap, cbsize="1%")
787
790
788 if self.__showprofile:
791 if self.__showprofile:
789 counter += 1
792 counter += 1
790 axes = self.axesList[i*self.__nsubplots*2 + counter]
793 axes = self.axesList[i*self.__nsubplots*2 + counter]
791 axes.pline(phase, y,
794 axes.pline(phase, y,
792 xmin=-180, xmax=180, ymin=ymin, ymax=ymax,
795 xmin=-180, xmax=180, ymin=ymin, ymax=ymax,
793 xlabel='', ylabel='', title='', ticksize=7,
796 xlabel='', ylabel='', title='', ticksize=7,
794 ytick_visible=False, nxticks=4,
797 ytick_visible=False, nxticks=4,
795 grid='x')
798 grid='x')
796
799
797 self.draw()
800 self.draw()
798
801
799 if x[1] >= self.axesList[0].xmax:
802 if x[1] >= self.axesList[0].xmax:
800 self.counter_imagwr = wr_period
803 self.counter_imagwr = wr_period
801 self.__isConfig = False
804 self.__isConfig = False
802
805
803 if figfile == None:
806 if figfile == None:
804 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
807 str_datetime = thisDatetime.strftime("%Y%m%d_%H%M%S")
805 figfile = self.getFilename(name = str_datetime)
808 figfile = self.getFilename(name = str_datetime)
806
809
807 if figpath != '':
810 if figpath != '':
808
811
809 self.counter_imagwr += 1
812 self.counter_imagwr += 1
810 if (self.counter_imagwr>=wr_period):
813 if (self.counter_imagwr>=wr_period):
811 # store png plot to local folder
814 # store png plot to local folder
812 self.saveFigure(figpath, figfile)
815 self.saveFigure(figpath, figfile)
813 # store png plot to FTP server according to RT-Web format
816 # store png plot to FTP server according to RT-Web format
814 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)
815 ftp_filename = os.path.join(figpath, name)
818 ftp_filename = os.path.join(figpath, name)
816 self.saveFigure(figpath, ftp_filename)
819 self.saveFigure(figpath, ftp_filename)
817
820
818 self.counter_imagwr = 0
821 self.counter_imagwr = 0
819
822
820 class PowerProfile(Figure):
823 class PowerProfile(Figure):
821 isConfig = None
824 isConfig = None
822 __nsubplots = None
825 __nsubplots = None
823
826
824 WIDTHPROF = None
827 WIDTHPROF = None
825 HEIGHTPROF = None
828 HEIGHTPROF = None
826 PREFIX = 'spcprofile'
829 PREFIX = 'spcprofile'
827
830
828 def __init__(self):
831 def __init__(self):
829 self.isConfig = False
832 self.isConfig = False
830 self.__nsubplots = 1
833 self.__nsubplots = 1
831
834
832 self.WIDTH = 300
835 self.WIDTH = 300
833 self.HEIGHT = 500
836 self.HEIGHT = 500
834 self.counter_imagwr = 0
837 self.counter_imagwr = 0
835
838
836 def getSubplots(self):
839 def getSubplots(self):
837 ncol = 1
840 ncol = 1
838 nrow = 1
841 nrow = 1
839
842
840 return nrow, ncol
843 return nrow, ncol
841
844
842 def setup(self, id, nplots, wintitle, show):
845 def setup(self, id, nplots, wintitle, show):
843
846
844 self.nplots = nplots
847 self.nplots = nplots
845
848
846 ncolspan = 1
849 ncolspan = 1
847 colspan = 1
850 colspan = 1
848
851
849 self.createFigure(id = id,
852 self.createFigure(id = id,
850 wintitle = wintitle,
853 wintitle = wintitle,
851 widthplot = self.WIDTH,
854 widthplot = self.WIDTH,
852 heightplot = self.HEIGHT,
855 heightplot = self.HEIGHT,
853 show=show)
856 show=show)
854
857
855 nrow, ncol = self.getSubplots()
858 nrow, ncol = self.getSubplots()
856
859
857 counter = 0
860 counter = 0
858 for y in range(nrow):
861 for y in range(nrow):
859 for x in range(ncol):
862 for x in range(ncol):
860 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
863 self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
861
864
862 def run(self, dataOut, id, wintitle="", channelList=None,
865 def run(self, dataOut, id, wintitle="", channelList=None,
863 xmin=None, xmax=None, ymin=None, ymax=None,
866 xmin=None, xmax=None, ymin=None, ymax=None,
864 save=False, figpath='./', figfile=None, show=True, wr_period=1,
867 save=False, figpath='./', figfile=None, show=True, wr_period=1,
865 server=None, folder=None, username=None, password=None,):
868 server=None, folder=None, username=None, password=None,):
866
869
867 if dataOut.flagNoData:
870 if dataOut.flagNoData:
868 return None
871 return None
869
872
870 if channelList == None:
873 if channelList == None:
871 channelIndexList = dataOut.channelIndexList
874 channelIndexList = dataOut.channelIndexList
872 channelList = dataOut.channelList
875 channelList = dataOut.channelList
873 else:
876 else:
874 channelIndexList = []
877 channelIndexList = []
875 for channel in channelList:
878 for channel in channelList:
876 if channel not in dataOut.channelList:
879 if channel not in dataOut.channelList:
877 raise ValueError, "Channel %d is not in dataOut.channelList"
880 raise ValueError, "Channel %d is not in dataOut.channelList"
878 channelIndexList.append(dataOut.channelList.index(channel))
881 channelIndexList.append(dataOut.channelList.index(channel))
879
882
880 try:
883 try:
881 factor = dataOut.normFactor
884 factor = dataOut.normFactor
882 except:
885 except:
883 factor = 1
886 factor = 1
884
887
885 y = dataOut.getHeiRange()
888 y = dataOut.getHeiRange()
886
889
887 #for voltage
890 #for voltage
888 if dataOut.type == 'Voltage':
891 if dataOut.type == 'Voltage':
889 x = dataOut.data[channelIndexList,:] * numpy.conjugate(dataOut.data[channelIndexList,:])
892 x = dataOut.data[channelIndexList,:] * numpy.conjugate(dataOut.data[channelIndexList,:])
890 x = x.real
893 x = x.real
891 x = numpy.where(numpy.isfinite(x), x, numpy.NAN)
894 x = numpy.where(numpy.isfinite(x), x, numpy.NAN)
892
895
893 #for spectra
896 #for spectra
894 if dataOut.type == 'Spectra':
897 if dataOut.type == 'Spectra':
895 x = dataOut.data_spc[channelIndexList,:,:]/factor
898 x = dataOut.data_spc[channelIndexList,:,:]/factor
896 x = numpy.where(numpy.isfinite(x), x, numpy.NAN)
899 x = numpy.where(numpy.isfinite(x), x, numpy.NAN)
897 x = numpy.average(x, axis=1)
900 x = numpy.average(x, axis=1)
898
901
899
902
900 xdB = 10*numpy.log10(x)
903 xdB = 10*numpy.log10(x)
901
904
902 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
905 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
903 title = wintitle + " Power Profile %s" %(thisDatetime.strftime("%d-%b-%Y"))
906 title = wintitle + " Power Profile %s" %(thisDatetime.strftime("%d-%b-%Y"))
904 xlabel = "dB"
907 xlabel = "dB"
905 ylabel = "Range (Km)"
908 ylabel = "Range (Km)"
906
909
907 if not self.isConfig:
910 if not self.isConfig:
908
911
909 nplots = 1
912 nplots = 1
910
913
911 self.setup(id=id,
914 self.setup(id=id,
912 nplots=nplots,
915 nplots=nplots,
913 wintitle=wintitle,
916 wintitle=wintitle,
914 show=show)
917 show=show)
915
918
916 if ymin == None: ymin = numpy.nanmin(y)
919 if ymin == None: ymin = numpy.nanmin(y)
917 if ymax == None: ymax = numpy.nanmax(y)
920 if ymax == None: ymax = numpy.nanmax(y)
918 if xmin == None: xmin = numpy.nanmin(xdB)*0.9
921 if xmin == None: xmin = numpy.nanmin(xdB)*0.9
919 if xmax == None: xmax = numpy.nanmax(xdB)*0.9
922 if xmax == None: xmax = numpy.nanmax(xdB)*0.9
920
923
921 self.__isConfig = True
924 self.__isConfig = True
922
925
923 self.setWinTitle(title)
926 self.setWinTitle(title)
924
927
925 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"))
926 axes = self.axesList[0]
929 axes = self.axesList[0]
927
930
928 legendlabels = ["channel %d"%x for x in channelList]
931 legendlabels = ["channel %d"%x for x in channelList]
929 axes.pmultiline(xdB, y,
932 axes.pmultiline(xdB, y,
930 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax,
933 xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax,
931 xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels,
934 xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels,
932 ytick_visible=True, nxticks=5,
935 ytick_visible=True, nxticks=5,
933 grid='x')
936 grid='x')
934
937
935 self.draw()
938 self.draw()
936
939
937 if save:
940 if save:
938 date = thisDatetime.strftime("%Y%m%d")
941 date = thisDatetime.strftime("%Y%m%d")
939 if figfile == None:
942 if figfile == None:
940 figfile = self.getFilename(name = date)
943 figfile = self.getFilename(name = date)
941
944
942 self.saveFigure(figpath, figfile)
945 self.saveFigure(figpath, figfile)
943
946
944 self.counter_imagwr += 1
947 self.counter_imagwr += 1
945 if (ftp and (self.counter_imagwr==wr_period)):
948 if (ftp and (self.counter_imagwr==wr_period)):
946 ftp_filename = os.path.join(figpath,figfile)
949 ftp_filename = os.path.join(figpath,figfile)
947 self.sendByFTP_Thread(ftp_filename, server, folder, username, password)
950 self.sendByFTP_Thread(ftp_filename, server, folder, username, password)
948 self.counter_imagwr = 0
951 self.counter_imagwr = 0
949
952
950 class Noise(Figure):
953 class Noise(Figure):
951
954
952 isConfig = None
955 isConfig = None
953 __nsubplots = None
956 __nsubplots = None
954
957
955 PREFIX = 'noise'
958 PREFIX = 'noise'
956
959
957 def __init__(self):
960 def __init__(self):
958
961
959 self.timerange = 24*60*60
962 self.timerange = 24*60*60
960 self.isConfig = False
963 self.isConfig = False
961 self.__nsubplots = 1
964 self.__nsubplots = 1
962 self.counter_imagwr = 0
965 self.counter_imagwr = 0
963 self.WIDTH = 600
966 self.WIDTH = 600
964 self.HEIGHT = 300
967 self.HEIGHT = 300
965 self.WIDTHPROF = 120
968 self.WIDTHPROF = 120
966 self.HEIGHTPROF = 0
969 self.HEIGHTPROF = 0
967 self.xdata = None
970 self.xdata = None
968 self.ydata = None
971 self.ydata = None
969
972
970 self.PLOT_CODE = 77
973 self.PLOT_CODE = 77
971 self.FTP_WEI = None
974 self.FTP_WEI = None
972 self.EXP_CODE = None
975 self.EXP_CODE = None
973 self.SUB_EXP_CODE = None
976 self.SUB_EXP_CODE = None
974 self.PLOT_POS = None
977 self.PLOT_POS = None
975
978
976 def getSubplots(self):
979 def getSubplots(self):
977
980
978 ncol = 1
981 ncol = 1
979 nrow = 1
982 nrow = 1
980
983
981 return nrow, ncol
984 return nrow, ncol
982
985
983 def openfile(self, filename):
986 def openfile(self, filename):
984 f = open(filename,'w+')
987 f = open(filename,'w+')
985 f.write('\n\n')
988 f.write('\n\n')
986 f.write('JICAMARCA RADIO OBSERVATORY - Noise \n')
989 f.write('JICAMARCA RADIO OBSERVATORY - Noise \n')
987 f.write('DD MM YYYY HH MM SS Channel0 Channel1 Channel2 Channel3\n\n' )
990 f.write('DD MM YYYY HH MM SS Channel0 Channel1 Channel2 Channel3\n\n' )
988 f.close()
991 f.close()
989
992
990 def save_data(self, filename_phase, data, data_datetime):
993 def save_data(self, filename_phase, data, data_datetime):
991 f=open(filename_phase,'a')
994 f=open(filename_phase,'a')
992 timetuple_data = data_datetime.timetuple()
995 timetuple_data = data_datetime.timetuple()
993 day = str(timetuple_data.tm_mday)
996 day = str(timetuple_data.tm_mday)
994 month = str(timetuple_data.tm_mon)
997 month = str(timetuple_data.tm_mon)
995 year = str(timetuple_data.tm_year)
998 year = str(timetuple_data.tm_year)
996 hour = str(timetuple_data.tm_hour)
999 hour = str(timetuple_data.tm_hour)
997 minute = str(timetuple_data.tm_min)
1000 minute = str(timetuple_data.tm_min)
998 second = str(timetuple_data.tm_sec)
1001 second = str(timetuple_data.tm_sec)
999 f.write(day+' '+month+' '+year+' '+hour+' '+minute+' '+second+' '+str(data[0])+' '+str(data[1])+' '+str(data[2])+' '+str(data[3])+'\n')
1002 f.write(day+' '+month+' '+year+' '+hour+' '+minute+' '+second+' '+str(data[0])+' '+str(data[1])+' '+str(data[2])+' '+str(data[3])+'\n')
1000 f.close()
1003 f.close()
1001
1004
1002
1005
1003 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
1006 def setup(self, id, nplots, wintitle, showprofile=True, show=True):
1004
1007
1005 self.__showprofile = showprofile
1008 self.__showprofile = showprofile
1006 self.nplots = nplots
1009 self.nplots = nplots
1007
1010
1008 ncolspan = 7
1011 ncolspan = 7
1009 colspan = 6
1012 colspan = 6
1010 self.__nsubplots = 2
1013 self.__nsubplots = 2
1011
1014
1012 self.createFigure(id = id,
1015 self.createFigure(id = id,
1013 wintitle = wintitle,
1016 wintitle = wintitle,
1014 widthplot = self.WIDTH+self.WIDTHPROF,
1017 widthplot = self.WIDTH+self.WIDTHPROF,
1015 heightplot = self.HEIGHT+self.HEIGHTPROF,
1018 heightplot = self.HEIGHT+self.HEIGHTPROF,
1016 show=show)
1019 show=show)
1017
1020
1018 nrow, ncol = self.getSubplots()
1021 nrow, ncol = self.getSubplots()
1019
1022
1020 self.addAxes(nrow, ncol*ncolspan, 0, 0, colspan, 1)
1023 self.addAxes(nrow, ncol*ncolspan, 0, 0, colspan, 1)
1021
1024
1022
1025
1023 def run(self, dataOut, id, wintitle="", channelList=None, showprofile='True',
1026 def run(self, dataOut, id, wintitle="", channelList=None, showprofile='True',
1024 xmin=None, xmax=None, ymin=None, ymax=None,
1027 xmin=None, xmax=None, ymin=None, ymax=None,
1025 timerange=None,
1028 timerange=None,
1026 save=False, figpath='./', figfile=None, show=True, ftp=False, wr_period=1,
1029 save=False, figpath='./', figfile=None, show=True, ftp=False, wr_period=1,
1027 server=None, folder=None, username=None, password=None,
1030 server=None, folder=None, username=None, password=None,
1028 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
1031 ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
1029
1032
1030 if channelList == None:
1033 if channelList == None:
1031 channelIndexList = dataOut.channelIndexList
1034 channelIndexList = dataOut.channelIndexList
1032 channelList = dataOut.channelList
1035 channelList = dataOut.channelList
1033 else:
1036 else:
1034 channelIndexList = []
1037 channelIndexList = []
1035 for channel in channelList:
1038 for channel in channelList:
1036 if channel not in dataOut.channelList:
1039 if channel not in dataOut.channelList:
1037 raise ValueError, "Channel %d is not in dataOut.channelList"
1040 raise ValueError, "Channel %d is not in dataOut.channelList"
1038 channelIndexList.append(dataOut.channelList.index(channel))
1041 channelIndexList.append(dataOut.channelList.index(channel))
1039
1042
1040 if timerange != None:
1043 if timerange != None:
1041 self.timerange = timerange
1044 self.timerange = timerange
1042
1045
1043 tmin = None
1046 tmin = None
1044 tmax = None
1047 tmax = None
1045 x = dataOut.getTimeRange()
1048 x = dataOut.getTimeRange()
1046 y = dataOut.getHeiRange()
1049 y = dataOut.getHeiRange()
1047 factor = dataOut.normFactor
1050 factor = dataOut.normFactor
1048 noise = dataOut.noise()/factor
1051 noise = dataOut.noise()/factor
1049 noisedB = 10*numpy.log10(noise)
1052 noisedB = 10*numpy.log10(noise)
1050
1053
1051 #thisDatetime = dataOut.datatime
1054 #thisDatetime = dataOut.datatime
1052 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
1055 thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[1])
1053 title = wintitle + " Noise" # : %s" %(thisDatetime.strftime("%d-%b-%Y"))
1056 title = wintitle + " Noise" # : %s" %(thisDatetime.strftime("%d-%b-%Y"))
1054 xlabel = ""
1057 xlabel = ""
1055 ylabel = "Intensity (dB)"
1058 ylabel = "Intensity (dB)"
1056
1059
1057 if not self.isConfig:
1060 if not self.isConfig:
1058
1061
1059 nplots = 1
1062 nplots = 1
1060
1063
1061 self.setup(id=id,
1064 self.setup(id=id,
1062 nplots=nplots,
1065 nplots=nplots,
1063 wintitle=wintitle,
1066 wintitle=wintitle,
1064 showprofile=showprofile,
1067 showprofile=showprofile,
1065 show=show)
1068 show=show)
1066
1069
1067 tmin, tmax = self.getTimeLim(x, xmin, xmax)
1070 tmin, tmax = self.getTimeLim(x, xmin, xmax)
1068 if ymin == None: ymin = numpy.nanmin(noisedB) - 10.0
1071 if ymin == None: ymin = numpy.nanmin(noisedB) - 10.0
1069 if ymax == None: ymax = numpy.nanmax(noisedB) + 10.0
1072 if ymax == None: ymax = numpy.nanmax(noisedB) + 10.0
1070
1073
1071 self.FTP_WEI = ftp_wei
1074 self.FTP_WEI = ftp_wei
1072 self.EXP_CODE = exp_code
1075 self.EXP_CODE = exp_code
1073 self.SUB_EXP_CODE = sub_exp_code
1076 self.SUB_EXP_CODE = sub_exp_code
1074 self.PLOT_POS = plot_pos
1077 self.PLOT_POS = plot_pos
1075
1078
1076
1079
1077 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
1080 self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
1078 self.isConfig = True
1081 self.isConfig = True
1079
1082
1080 self.xdata = numpy.array([])
1083 self.xdata = numpy.array([])
1081 self.ydata = numpy.array([])
1084 self.ydata = numpy.array([])
1082
1085
1083 #open file beacon phase
1086 #open file beacon phase
1084 path = '%s%03d' %(self.PREFIX, self.id)
1087 path = '%s%03d' %(self.PREFIX, self.id)
1085 noise_file = os.path.join(path,'%s.txt'%self.name)
1088 noise_file = os.path.join(path,'%s.txt'%self.name)
1086 self.filename_noise = os.path.join(figpath,noise_file)
1089 self.filename_noise = os.path.join(figpath,noise_file)
1087 self.openfile(self.filename_noise)
1090 self.openfile(self.filename_noise)
1088
1091
1089
1092
1090 #store data beacon phase
1093 #store data beacon phase
1091 self.save_data(self.filename_noise, noisedB, thisDatetime)
1094 self.save_data(self.filename_noise, noisedB, thisDatetime)
1092
1095
1093
1096
1094 self.setWinTitle(title)
1097 self.setWinTitle(title)
1095
1098
1096
1099
1097 title = "Noise %s" %(thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
1100 title = "Noise %s" %(thisDatetime.strftime("%Y/%m/%d %H:%M:%S"))
1098
1101
1099 legendlabels = ["channel %d"%(idchannel+1) for idchannel in channelList]
1102 legendlabels = ["channel %d"%(idchannel+1) for idchannel in channelList]
1100 axes = self.axesList[0]
1103 axes = self.axesList[0]
1101
1104
1102 self.xdata = numpy.hstack((self.xdata, x[0:1]))
1105 self.xdata = numpy.hstack((self.xdata, x[0:1]))
1103
1106
1104 if len(self.ydata)==0:
1107 if len(self.ydata)==0:
1105 self.ydata = noisedB[channelIndexList].reshape(-1,1)
1108 self.ydata = noisedB[channelIndexList].reshape(-1,1)
1106 else:
1109 else:
1107 self.ydata = numpy.hstack((self.ydata, noisedB[channelIndexList].reshape(-1,1)))
1110 self.ydata = numpy.hstack((self.ydata, noisedB[channelIndexList].reshape(-1,1)))
1108
1111
1109
1112
1110 axes.pmultilineyaxis(x=self.xdata, y=self.ydata,
1113 axes.pmultilineyaxis(x=self.xdata, y=self.ydata,
1111 xmin=tmin, xmax=tmax, ymin=ymin, ymax=ymax,
1114 xmin=tmin, xmax=tmax, ymin=ymin, ymax=ymax,
1112 xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels, marker='x', markersize=8, linestyle="solid",
1115 xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels, marker='x', markersize=8, linestyle="solid",
1113 XAxisAsTime=True, grid='both'
1116 XAxisAsTime=True, grid='both'
1114 )
1117 )
1115
1118
1116 self.draw()
1119 self.draw()
1117
1120
1118 # if save:
1121 # if save:
1119 #
1122 #
1120 # if figfile == None:
1123 # if figfile == None:
1121 # figfile = self.getFilename(name = self.name)
1124 # figfile = self.getFilename(name = self.name)
1122 #
1125 #
1123 # self.saveFigure(figpath, figfile)
1126 # self.saveFigure(figpath, figfile)
1124
1127
1125 if save:
1128 if save:
1126
1129
1127 self.counter_imagwr += 1
1130 self.counter_imagwr += 1
1128 if (self.counter_imagwr==wr_period):
1131 if (self.counter_imagwr==wr_period):
1129 if figfile == None:
1132 if figfile == None:
1130 figfile = self.getFilename(name = self.name)
1133 figfile = self.getFilename(name = self.name)
1131 self.saveFigure(figpath, figfile)
1134 self.saveFigure(figpath, figfile)
1132
1135
1133 if ftp:
1136 if ftp:
1134 #provisionalmente envia archivos en el formato de la web en tiempo real
1137 #provisionalmente envia archivos en el formato de la web en tiempo real
1135 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
1138 name = self.getNameToFtp(thisDatetime, self.FTP_WEI, self.EXP_CODE, self.SUB_EXP_CODE, self.PLOT_CODE, self.PLOT_POS)
1136 path = '%s%03d' %(self.PREFIX, self.id)
1139 path = '%s%03d' %(self.PREFIX, self.id)
1137 ftp_file = os.path.join(path,'ftp','%s.png'%name)
1140 ftp_file = os.path.join(path,'ftp','%s.png'%name)
1138 self.saveFigure(figpath, ftp_file)
1141 self.saveFigure(figpath, ftp_file)
1139 ftp_filename = os.path.join(figpath,ftp_file)
1142 ftp_filename = os.path.join(figpath,ftp_file)
1140 self.sendByFTP_Thread(ftp_filename, server, folder, username, password)
1143 self.sendByFTP_Thread(ftp_filename, server, folder, username, password)
1141 self.counter_imagwr = 0
1144 self.counter_imagwr = 0
1142
1145
1143 self.counter_imagwr = 0
1146 self.counter_imagwr = 0
1144
1147
1145 if x[1] + (x[1]-x[0]) >= self.axesList[0].xmax:
1148 if x[1] + (x[1]-x[0]) >= self.axesList[0].xmax:
1146 self.isConfig = False
1149 self.isConfig = False
1147 del self.xdata
1150 del self.xdata
1148 del self.ydata
1151 del self.ydata
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