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Testeado con datos de Imagenes (Espectros)...
Testeado con datos de Imagenes (Espectros) Se visualiza el ruido en los graficos y en la escala correcta de velocidad 1. Upgrade de la libreria grafica 2. Adicion de la clase IncohInt para los datos de tipo Spectra 3. Adicion de calculo de ruido, calculo de numero de canales, rangeo de velocidad a la clase JROData
Miguel Valdez - - Load All Authors

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VoltagePlot.py
199 lines | 6.9 KiB | text/x-python | PythonLexer
/ schainpy / old / Graphics / VoltagePlot.py
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'''
Created on Feb 7, 2012
@author $Author$
@version $Id$
'''
import numpy
import os
import sys
path = os.path.split(os.getcwd())[0]
sys.path.append(path)
from Graphics.BaseGraph import *
from Model.Voltage import Voltage
class Osciloscope:
linearplotObj = None
def __init__(self, Voltage, index):
self.__isPlotConfig = False
self.__isPlotIni = False
self.__xrange = None
self.__yrange = None
self.indexPlot = index
self.voltageObj = Voltage
def setup(self,indexPlot,nsubplot,winTitle=''):
self.linearplotObj = LinearPlot(indexPlot,nsubplot,winTitle)
def initPlot(self,xmin,xmax,ymin,ymax,titleList,xlabelList,ylabelList):
nsubplot = self.voltageObj.nChannels
for index in range(nsubplot):
title = titleList[index]
xlabel = xlabelList[index]
ylabel = ylabelList[index]
subplot = index
self.linearplotObj.setup(subplot+1,xmin,xmax,ymin,ymax,title,xlabel,ylabel)
def plotData(self,
xmin=None,
xmax=None,
ymin=None,
ymax=None,
titleList=None,
xlabelList=None,
ylabelList=None,
winTitle='',
type="power"):
databuffer = self.voltageObj.data
height = self.voltageObj.heightList
nsubplot = self.voltageObj.nChannels
indexPlot = self.indexPlot
if not(self.__isPlotConfig):
self.setup(indexPlot,nsubplot,winTitle)
self.__isPlotConfig = True
if not(self.__isPlotIni):
if titleList == None:
titleList = []
thisDatetime = datetime.datetime.fromtimestamp(self.voltageObj.m_BasicHeader.utc)
txtdate = "Date: %s" %(thisDatetime.strftime("%d-%b-%Y"))
for i in range(nsubplot):
titleList.append("Channel: %d %s" %(i, txtdate))
if xlabelList == None:
xlabelList = []
for i in range(nsubplot):
xlabelList.append("")
if ylabelList == None:
ylabelList = []
for i in range(nsubplot):
ylabelList.append("")
if xmin == None: xmin = height[0]
if xmax == None: xmax = height[-1]
if ymin == None: ymin = numpy.nanmin(abs(databuffer))
if ymax == None: ymax = numpy.nanmax(abs(databuffer))
self.initPlot(xmin,xmax,ymin,ymax,titleList,xlabelList,ylabelList)
self.__isPlotIni = True
self.linearplotObj.setFigure(indexPlot)
for index in range(nsubplot):
data = databuffer[index,:]
self.linearplotObj.plot(subplot=index+1,x=height,y=data,type=type)
self.linearplotObj.refresh()
class RTI:
colorplotObj = None
def __init__(self, Voltage, index):
self.__isPlotConfig = False
self.__isPlotIni = False
self.__xrange = None
self.__yrange = None
self.indexPlot = index
self.voltageObj = Voltage
def setup(self,indexPlot,nsubplot,winTitle='',colormap="br_green",showColorbar=False,showPowerProfile=False,XAxisAsTime=False):
self.colorplotObj = RtiPlot(indexPlot,nsubplot,winTitle,colormap,showColorbar,showPowerProfile,XAxisAsTime)
def initPlot(self,xmin,xmax,ymin,ymax,zmin,zmax,titleList,xlabelList,ylabelList,timezone,npoints):
nsubplot = self.voltageObj.nChannels
timedata = self.voltageObj.m_BasicHeader.utc
for index in range(nsubplot):
title = titleList[index]
xlabel = xlabelList[index]
ylabel = ylabelList[index]
subplot = index
self.colorplotObj.setup(subplot+1,xmin,xmax,ymin,ymax,zmin,zmax,title,xlabel,ylabel,timedata,timezone,npoints)
def plotData(self,
xmin=None,
xmax=None,
ymin=None,
ymax=None,
zmin=None,
zmax=None,
titleList=None,
xlabelList=None,
ylabelList=None,
winTitle='',
timezone='lt',
npoints=1000.0,
colormap="br_green",
showColorbar=True,
showPowerProfile=True,
XAxisAsTime=True,
save = False):
databuffer = self.voltageObj.data
timedata = self.voltageObj.m_BasicHeader.utc
height = self.voltageObj.heightList
nsubplot = self.voltageObj.nChannels
indexPlot = self.indexPlot
if not(self.__isPlotConfig):
self.setup(indexPlot,nsubplot,winTitle,colormap,showColorbar,showPowerProfile,XAxisAsTime)
self.__isPlotConfig = True
if not(self.__isPlotIni):
if titleList == None:
titleList = []
thisDatetime = datetime.datetime.fromtimestamp(timedata)
txtdate = "Date: %s" %(thisDatetime.strftime("%d-%b-%Y"))
for i in range(nsubplot):
titleList.append("Channel: %d %s" %(i, txtdate))
if xlabelList == None:
xlabelList = []
for i in range(nsubplot):
xlabelList.append("")
if ylabelList == None:
ylabelList = []
for i in range(nsubplot):
ylabelList.append("")
if xmin == None: xmin = 0
if xmax == None: xmax = 23
if ymin == None: ymin = min(self.voltageObj.heightList)
if ymax == None: ymax = max(self.voltageObj.heightList)
if zmin == None: zmin = 0
if zmax == None: zmax = 50
self.initPlot(xmin,xmax,ymin,ymax,zmin,zmax,titleList,xlabelList,ylabelList,timezone,npoints)
self.__isPlotIni = True
self.colorplotObj.setFigure(indexPlot)
if timezone == 'lt':
timedata = timedata - time.timezone
for index in range(nsubplot):
data = databuffer[index,:]
self.colorplotObj.plot(subplot=index+1,x=timedata,y=height,z=data)
self.colorplotObj.refresh()
if save:
self.colorplotObj.setFigure(indexPlot)
path = "/Users/jro/Pictures"
now = datetime.datetime.now().timetuple()
file = "rti_img%02d_%03d_%02d%02d%02d.png"%(indexPlot,now[7],now[3],now[4],now[5])
filename = os.path.join(path,file)
self.colorplotObj.savePlot(indexPlot, filename)