##// END OF EJS Templates
schain
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Rewrite controller, remove MPDecorator to units (keep for plots an writers) use of queues for interproc comm instead of zmq, self operations are no longer supported
Rewrite controller, remove MPDecorator to units (keep for plots an writers) use of queues for interproc comm instead of zmq, self operations are no longer supported
Juan C. Espinoza - - Load All Authors

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jroplot_heispectra.py
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/ schainpy / model / graphics / jroplot_heispectra.py
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'''
Created on Jul 9, 2014
@author: roj-idl71
'''
import os
import datetime
import numpy
from schainpy.model.graphics.jroplot_base import Plot
class SpectraHeisScope(Plot):
isConfig = None
__nsubplots = None
WIDTHPROF = None
HEIGHTPROF = None
PREFIX = 'spc'
def __init__(self):#, **kwargs):
Plot.__init__(self)#, **kwargs)
self.isConfig = False
self.__nsubplots = 1
self.WIDTH = 230
self.HEIGHT = 250
self.WIDTHPROF = 120
self.HEIGHTPROF = 0
self.counter_imagwr = 0
self.PLOT_CODE = SPEC_CODE
def getSubplots(self):
ncol = int(numpy.sqrt(self.nplots)+0.9)
nrow = int(self.nplots*1./ncol + 0.9)
return nrow, ncol
def setup(self, id, nplots, wintitle, show):
showprofile = False
self.__showprofile = showprofile
self.nplots = nplots
ncolspan = 1
colspan = 1
if showprofile:
ncolspan = 3
colspan = 2
self.__nsubplots = 2
self.createFigure(id = id,
wintitle = wintitle,
widthplot = self.WIDTH + self.WIDTHPROF,
heightplot = self.HEIGHT + self.HEIGHTPROF,
show = show)
nrow, ncol = self.getSubplots()
counter = 0
for y in range(nrow):
for x in range(ncol):
if counter >= self.nplots:
break
self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan, colspan, 1)
if showprofile:
self.addAxes(nrow, ncol*ncolspan, y, x*ncolspan+colspan, 1, 1)
counter += 1
def run(self, dataOut, id, wintitle="", channelList=None,
xmin=None, xmax=None, ymin=None, ymax=None, save=False,
figpath='./', figfile=None, ftp=False, wr_period=1, show=True,
server=None, folder=None, username=None, password=None,
ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
"""
Input:
dataOut :
id :
wintitle :
channelList :
xmin : None,
xmax : None,
ymin : None,
ymax : None,
"""
if dataOut.flagNoData:
return dataOut
if dataOut.realtime:
if not(isRealtime(utcdatatime = dataOut.utctime)):
print('Skipping this plot function')
return
if channelList == None:
channelIndexList = dataOut.channelIndexList
else:
channelIndexList = []
for channel in channelList:
if channel not in dataOut.channelList:
raise ValueError("Channel %d is not in dataOut.channelList")
channelIndexList.append(dataOut.channelList.index(channel))
# x = dataOut.heightList
c = 3E8
deltaHeight = dataOut.heightList[1] - dataOut.heightList[0]
#deberia cambiar para el caso de 1Mhz y 100KHz
x = numpy.arange(-1*dataOut.nHeights/2.,dataOut.nHeights/2.)*(c/(2*deltaHeight*dataOut.nHeights*1000))
#para 1Mhz descomentar la siguiente linea
#x= x/(10000.0)
# y = dataOut.data[channelIndexList,:] * numpy.conjugate(dataOut.data[channelIndexList,:])
# y = y.real
factor = dataOut.normFactor
data = dataOut.data_spc / factor
datadB = 10.*numpy.log10(data)
y = datadB
#thisDatetime = dataOut.datatime
thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[0])
title = wintitle + " Scope: %s" %(thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
xlabel = ""
#para 1Mhz descomentar la siguiente linea
#xlabel = "Frequency x 10000"
ylabel = "Intensity (dB)"
if not self.isConfig:
nplots = len(channelIndexList)
self.setup(id=id,
nplots=nplots,
wintitle=wintitle,
show=show)
if xmin == None: xmin = numpy.nanmin(x)
if xmax == None: xmax = numpy.nanmax(x)
if ymin == None: ymin = numpy.nanmin(y)
if ymax == None: ymax = numpy.nanmax(y)
self.FTP_WEI = ftp_wei
self.EXP_CODE = exp_code
self.SUB_EXP_CODE = sub_exp_code
self.PLOT_POS = plot_pos
self.isConfig = True
self.setWinTitle(title)
for i in range(len(self.axesList)):
ychannel = y[i,:]
str_datetime = '%s %s'%(thisDatetime.strftime("%Y/%m/%d"),thisDatetime.strftime("%H:%M:%S"))
title = "Channel %d: %4.2fdB: %s" %(dataOut.channelList[channelIndexList[i]], numpy.max(ychannel), str_datetime)
axes = self.axesList[i]
axes.pline(x, ychannel,
xmin=xmin, xmax=xmax, ymin=ymin, ymax=ymax,
xlabel=xlabel, ylabel=ylabel, title=title, grid='both')
self.draw()
self.save(figpath=figpath,
figfile=figfile,
save=save,
ftp=ftp,
wr_period=wr_period,
thisDatetime=thisDatetime)
return dataOut
class RTIfromSpectraHeis(Plot):
isConfig = None
__nsubplots = None
PREFIX = 'rtinoise'
def __init__(self):#, **kwargs):
Plot.__init__(self)#, **kwargs)
self.timerange = 24*60*60
self.isConfig = False
self.__nsubplots = 1
self.WIDTH = 820
self.HEIGHT = 200
self.WIDTHPROF = 120
self.HEIGHTPROF = 0
self.counter_imagwr = 0
self.xdata = None
self.ydata = None
self.figfile = None
self.PLOT_CODE = RTI_CODE
def getSubplots(self):
ncol = 1
nrow = 1
return nrow, ncol
def setup(self, id, nplots, wintitle, showprofile=True, show=True):
self.__showprofile = showprofile
self.nplots = nplots
ncolspan = 7
colspan = 6
self.__nsubplots = 2
self.createFigure(id = id,
wintitle = wintitle,
widthplot = self.WIDTH+self.WIDTHPROF,
heightplot = self.HEIGHT+self.HEIGHTPROF,
show = show)
nrow, ncol = self.getSubplots()
self.addAxes(nrow, ncol*ncolspan, 0, 0, colspan, 1)
def run(self, dataOut, id, wintitle="", channelList=None, showprofile='True',
xmin=None, xmax=None, ymin=None, ymax=None,
timerange=None,
save=False, figpath='./', figfile=None, ftp=False, wr_period=1, show=True,
server=None, folder=None, username=None, password=None,
ftp_wei=0, exp_code=0, sub_exp_code=0, plot_pos=0):
if dataOut.flagNoData:
return dataOut
if channelList == None:
channelIndexList = dataOut.channelIndexList
channelList = dataOut.channelList
else:
channelIndexList = []
for channel in channelList:
if channel not in dataOut.channelList:
raise ValueError("Channel %d is not in dataOut.channelList")
channelIndexList.append(dataOut.channelList.index(channel))
if timerange != None:
self.timerange = timerange
x = dataOut.getTimeRange()
y = dataOut.getHeiRange()
factor = dataOut.normFactor
data = dataOut.data_spc / factor
data = numpy.average(data,axis=1)
datadB = 10*numpy.log10(data)
# factor = dataOut.normFactor
# noise = dataOut.getNoise()/factor
# noisedB = 10*numpy.log10(noise)
#thisDatetime = dataOut.datatime
thisDatetime = datetime.datetime.utcfromtimestamp(dataOut.getTimeRange()[0])
title = wintitle + " RTI: %s" %(thisDatetime.strftime("%d-%b-%Y"))
xlabel = "Local Time"
ylabel = "Intensity (dB)"
if not self.isConfig:
nplots = 1
self.setup(id=id,
nplots=nplots,
wintitle=wintitle,
showprofile=showprofile,
show=show)
self.tmin, self.tmax = self.getTimeLim(x, xmin, xmax)
if ymin == None: ymin = numpy.nanmin(datadB)
if ymax == None: ymax = numpy.nanmax(datadB)
self.name = thisDatetime.strftime("%Y%m%d_%H%M%S")
self.isConfig = True
self.figfile = figfile
self.xdata = numpy.array([])
self.ydata = numpy.array([])
self.FTP_WEI = ftp_wei
self.EXP_CODE = exp_code
self.SUB_EXP_CODE = sub_exp_code
self.PLOT_POS = plot_pos
self.setWinTitle(title)
# title = "RTI %s" %(thisDatetime.strftime("%d-%b-%Y"))
title = "RTI - %s" %(thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
legendlabels = ["channel %d"%idchannel for idchannel in channelList]
axes = self.axesList[0]
self.xdata = numpy.hstack((self.xdata, x[0:1]))
if len(self.ydata)==0:
self.ydata = datadB[channelIndexList].reshape(-1,1)
else:
self.ydata = numpy.hstack((self.ydata, datadB[channelIndexList].reshape(-1,1)))
axes.pmultilineyaxis(x=self.xdata, y=self.ydata,
xmin=self.tmin, xmax=self.tmax, ymin=ymin, ymax=ymax,
xlabel=xlabel, ylabel=ylabel, title=title, legendlabels=legendlabels, marker='.', markersize=8, linestyle="solid", grid='both',
XAxisAsTime=True
)
self.draw()
update_figfile = False
if dataOut.ltctime >= self.tmax:
self.counter_imagwr = wr_period
self.isConfig = False
update_figfile = True
self.save(figpath=figpath,
figfile=figfile,
save=save,
ftp=ftp,
wr_period=wr_period,
thisDatetime=thisDatetime,
update_figfile=update_figfile)
return dataOut