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Se agrego manejo de excepciones para la lectura del header de los archivos en formato Jicamarca....
Se agrego manejo de excepciones para la lectura del header de los archivos en formato Jicamarca. Se agrego el atributo type a los Datos (Voltaje y Espectra)
Miguel Valdez - - Load All Authors

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SpectraPlot.py
172 lines | 5.2 KiB | text/x-python | PythonLexer
/ schainpy / Graphics / SpectraPlot.py
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'''
Created on Feb 7, 2012
@author $Author$
@version $Id$
'''
import os, sys
import numpy
import datetime
import plplot
path = os.path.split(os.getcwd())[0]
sys.path.append(path)
from Graphics.BaseGraph import *
from Model.Spectra import Spectra
class Spectrum():
def __init__(self, Spectra, index=0):
"""
Inputs:
type: "power" ->> Potencia
"iq" ->> Real + Imaginario
"""
self.__isPlotConfig = False
self.__isPlotIni = False
self.__xrange = None
self.__yrange = None
self.nGraphs = 0
self.indexPlot = index
self.graphObjList = []
self.m_Spectra = Spectra
def __addGraph(self, subpage, title="", xlabel="", ylabel="", showColorbar=False, showPowerProfile=True, XAxisAsTime=False):
graphObj = ColorPlot()
graphObj.setup(subpage,
title,
xlabel,
ylabel,
showColorbar=showColorbar,
showPowerProfile=showPowerProfile,
XAxisAsTime=XAxisAsTime)
self.graphObjList.append(graphObj)
def setup(self, titleList=None, xlabelList=None, ylabelList=None, showColorbar=False, showPowerProfile=True, XAxisAsTime=False):
nChan = int(self.m_Spectra.m_SystemHeader.numChannels)
channels = range(nChan)
myXlabel = "Radial Velocity (m/s)"
myYlabel = "Range (km)"
for i in channels:
if titleList != None:
myTitle = titleList[i]
myXlabel = xlabelList[i]
myYlabel = ylabelList[i]
if self.m_Spectra.noise != None:
noise = '%4.2fdB' %(self.m_Spectra.noise[i])
else:
noise = '--'
myTitle = "Channel: %d - Noise: %s" %(i, noise)
self.__addGraph(i+1,
title=myTitle,
xlabel=myXlabel,
ylabel=myYlabel,
showColorbar=showColorbar,
showPowerProfile=showPowerProfile,
XAxisAsTime=XAxisAsTime)
self.nGraphs = nChan
self.__isPlotConfig = True
def iniPlot(self):
nx = int(numpy.sqrt(self.nGraphs)+1)
#ny = int(self.nGraphs/nx)
plplot.plsstrm(self.indexPlot)
plplot.plsetopt("geometry", "%dx%d" %(300*nx, 240*nx))
plplot.plsdev("xwin")
plplot.plscolbg(255,255,255)
plplot.plscol0(1,0,0,0)
plplot.plinit()
plplot.plspause(False)
plplot.pladv(0)
plplot.plssub(nx, nx)
self.__nx = nx
self.__ny = nx
self.__isPlotIni = True
def plotData(self, xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None, titleList=None, xlabelList=None, ylabelList=None, showColorbar=False, showPowerProfile=True, XAxisAsTime=False):
if not(self.__isPlotConfig):
self.setup(titleList,
xlabelList,
ylabelList,
showColorbar,
showPowerProfile,
XAxisAsTime)
if not(self.__isPlotIni):
self.iniPlot()
plplot.plsstrm(self.indexPlot)
data = 10.*numpy.log10(self.m_Spectra.data_spc)
nX, nY, nChan = numpy.shape(data)
x = numpy.arange(nX)
y = self.m_Spectra.heights
thisDatetime = datetime.datetime.fromtimestamp(self.m_Spectra.m_BasicHeader.utc)
txtDate = "Self Spectra - Date: %s" %(thisDatetime.strftime("%d-%b-%Y %H:%M:%S"))
if xmin == None: xmin = x[0]
if xmax == None: xmax = x[-1]
if ymin == None: ymin = y[0]
if ymax == None: ymax = y[-1]
if zmin == None: zmin = numpy.nanmin(abs(data))
if zmax == None: zmax = numpy.nanmax(abs(data))
plplot.plbop()
plplot.plssub(self.__nx, self.__ny)
for i in range(self.nGraphs):
self.graphObjList[i].iniSubpage()
self.graphObjList[i].plotData(data[i,:,:],
x,
y,
xmin=xmin,
xmax=xmax,
ymin=ymin,
ymax=ymax,
zmin=zmin,
zmax=zmax)
plplot.plssub(1,0)
plplot.pladv(0)
plplot.plvpor(0., 1., 0., 1.)
plplot.plmtex("t",-1., 0.5, 0.5, txtDate)
plplot.plflush()
plplot.pleop()
def end(self):
plplot.plend()
if __name__ == '__main__':
pass