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Adicion de la clase ProfilePlot, CoherencePLot en el modulo jroplot.py...
Adicion de la clase ProfilePlot, CoherencePLot en el modulo jroplot.py Adicion de los metodos para graficos multilinea en figure.py y en mpldriver.py Se agrega el colormap como parametro para el metodo addpcolor en mpldriver.py Se hacen ajustes en los xticks cuando la diferencia entre xmax y xmin es menor igual a uno.
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)