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Kudeki's experiment test using nTxs...
Kudeki's experiment test using nTxs Modified by M. Urco
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BaseGraph_mpl.py
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/ schainpy2 / Graphics / BaseGraph_mpl.py
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'''
Created on Feb 7, 2012
@autor $Author$
@version $Id$
'''
import numpy
import time
import datetime
import matplotlib as mpl
mpl.use('TKAgg')
import matplotlib.pyplot as plt
import scitools.numpyutils as sn
def cmap1_init(colormap='gray'):
pass
def setColormap(colormap='jet'):
pass
def savePlplot(filename,width,height):
pass
def initMatplotlib(indexFig,ncol,nrow,winTitle,width,height):
plt.ioff()
fig = plt.figure(indexFig)
fig.canvas.manager.set_window_title(winTitle)
fig.canvas.manager.resize(width,height)
# fig.add_subplot(nrow,ncol,1)
plt.ion()
def setNewPage():
plt.clf()
def closePage():
pass
def clearData(objGraph):
objGraph.plotBox(objGraph.xrange[0], objGraph.xrange[1], objGraph.yrange[0], objGraph.yrange[1], 'bc', 'bc')
objGraph.setColor(15) #Setting Line Color to White
if objGraph.datatype == 'complex':
objGraph.basicXYPlot(objGraph.xdata,objGraph.ydata.real)
objGraph.basicXYPlot(objGraph.xdata,objGraph.ydata.imag)
if objGraph.datatype == 'real':
objGraph.basicXYPlot(objGraph.xdata,objGraph.ydata)
objGraph.setColor(1)
def setFigure(indexFig):
plt.figure(indexFig)
def refresh():
plt.draw()
def show():
plt.ioff()
plt.show()
plt.ion()
def setPlTitle(pltitle,color, szchar=0.7):
pass
def setSubpages(ncol,nrow):
pass
class BaseGraph:
__name = None
__xpos = None
__ypos = None
__subplot = None
__xg = None
__yg = None
__axesId = None
xdata = None
ydata = None
getGrid = True
xaxisIsTime = False
deltax = None
xmin = None
xmax = None
def __init__(self,name,subplot,xpos,ypos,xlabel,ylabel,title,szchar,xrange,yrange,zrange=None,deltax=1.0):
self.setName(name)
self.setScreenPos(xpos, ypos)
self.setSubPlot(subplot)
self.setXYZrange(xrange,yrange,zrange)
self.setSizeOfChar(szchar)
self.setLabels(xlabel,ylabel,title)
self.getGrid = True
self.xaxisIsTime = False
self.deltax = deltax
pass
def makeAxes(self,indexFig,nrow,ncol,subplot):
fig = plt.figure(indexFig)
self.__axesId = fig.add_subplot(nrow,ncol,subplot)
def setParentAxesId(self,parent):
self.__axesId = parent.__axesId
def setName(self, name):
self.__name = name
def setScreenPos(self,xpos,ypos):
self.__xpos = xpos
self.__ypos = ypos
def setSubPlot(self,subplot):
self.__subplot = subplot
def setXYZrange(self,xrange,yrange,zrange):
self.xrange = xrange
self.yrange = yrange
self.zrange = zrange
def setSizeOfChar(self,szchar):
self.__szchar = szchar
def setLabels(self,xlabel=None,ylabel=None,title=None):
if xlabel != None: self.xlabel = xlabel
if ylabel != None: self.ylabel = ylabel
if title != None: self.title = title
def setXYData(self,xdata=None,ydata=None,datatype='real'):
if ((xdata != None) and (ydata != None)):
self.xdata = xdata
self.ydata = ydata
self.datatype = datatype
if ((self.xdata == None) and (self.ydata == None)):
return None
return 1
def setLineStyle(self, style):
pass
def setColor(self, color):
pass
def setXAxisAsTime(self, value=False):
self.xaxisIsTime = value
def basicLineTimePlot(self, x, y, colline=1):
ax = self.__axesId
if self.setXYData() == None:
ax.plot(x,y)
plt.tight_layout()
else:
ax.lines[0].set_data(x,y)
def basicXYPlot(self, x, y):
ax = self.__axesId
if self.setXYData() == None:
ax.plot(x,y)
else:
ax.lines[0].set_data(x,y)
def basicPcolorPlot(self, data, x, y, xmin=None, xmax=None, ymin=None, ymax=None, zmin=None, zmax=None):
pass
def __getBoxpltr(self, x, y, deltax=None, deltay=None):
pass
def advPcolorPlot(self, data, x, y, xmin=None, xmax=None, ymin=None, ymax=None, zmin=0., zmax=0., deltax=1.0, deltay=None, getGrid = True):
ax = self.__axesId
ax.pcolormesh(x,y,data.T,vmin=zmin,vmax=zmax)
def colorbarPlot(self, xmin=0., xmax=1., ymin=0., ymax=1.):
ax = self.__axesId
cax, kw = mpl.colorbar.make_axes(ax)
norm = mpl.colors.Normalize(vmin=ymin, vmax=ymax)
cb = mpl.colorbar.ColorbarBase(cax,norm=norm,**kw)
self.__colorbarId = cb
cb.set_label(self.title)
def plotBox(self, xmin, xmax, ymin, ymax, xopt, yopt, nolabels=False):
ax = self.__axesId
ax.set_xlim([xmin,xmax])
ax.set_ylim([ymin,ymax])
if not(nolabels):
ax.set_xlabel(self.xlabel)
ax.set_ylabel(self.ylabel)
ax.set_title(self.title)
def delLabels(self):
pass
def plotImage(self,x,y,z,xrange,yrange,zrange):
pass
class LinearPlot():
linearObjDic = {}
__xpos = None
__ypos = None
isPlotIni = None
def __init__(self, indexFig,nsubplot,winTitle):
self.width = 700
self.height = 800
self.indexFig = indexFig
self.ncol = 1
self.nrow = nsubplot
initMatplotlib(indexFig,self.ncol,self.nrow,winTitle,self.width,self.height)
self.isPlotIni = False
def setFigure(self,indexFig):
setFigure(indexFig)
def setNewPage(self, pltitle='No title'):
szchar = 0.7
# setNewPage()
setPlTitle(pltitle,'black', szchar=szchar)
setSubpages(self.ncol, self.nrow)
def setPosition(self):
xi = 0.07; xf = 0.9
yi = 0.15; yf = 0.8
xpos = [xi,xf]
ypos = [yi,yf]
self.__xpos = xpos
self.__ypos = ypos
return xpos,ypos
def createObjects(self,subplot,xmin,xmax,ymin,ymax,title,xlabel,ylabel):
szchar = 0.7
name = 'linear'
key = name + '%d'%subplot
xrange = [xmin,xmax]
yrange = [ymin,ymax]
xpos,ypos = self.setPosition()
linearObj = BaseGraph(name,subplot,xpos,ypos,xlabel,ylabel,title,szchar,xrange,yrange)
self.linearObjDic[key] = linearObj
def iniPlot(self,subplot):
name = 'linear'
key = name + '%d'%subplot
linearObj = self.linearObjDic[key]
linearObj.makeAxes(self.indexFig,self.nrow,self.ncol,subplot)
linearObj.plotBox(linearObj.xrange[0], linearObj.xrange[1], linearObj.yrange[0], linearObj.yrange[1], 'bcnst', 'bcnstv')
def plot(self,subplot,x,y,type='abs'):
name = 'linear'
key = name + '%d'%subplot
linearObj = self.linearObjDic[key]
if type.lower() == 'simple':
colline = 9
linearObj.basicLineTimePlot(x, y)
linearObj.setXYData(x,y,'real')
def refresh(self):
refresh()
def show(self):
show()
class PcolorPlot:
pcolorObjDic = {}
colorbarObjDic = {}
pwprofileObjDic = {}
showColorbar = None
showPowerProfile = None
XAxisAsTime = None
width = None
height = None
__spcxpos = None
__spcypos = None
__cmapxpos = None
__cmapypos = None
__profxpos = None
__profypos = None
__lastTitle = None
def __init__(self,indexFig,nsubplot,winTitle,colormap,showColorbar,showPowerProfile,XAxisAsTime):
self.width = 460
self.height = 300
self.showColorbar = showColorbar
self.showPowerProfile = showPowerProfile
self.XAxisAsTime = XAxisAsTime
ncol = int(numpy.sqrt(nsubplot)+0.9)
nrow = int(nsubplot*1./ncol + 0.9)
self.ncol = ncol
self.nrow = nrow
self.indexFig = indexFig
initMatplotlib(indexFig,ncol,nrow,winTitle,self.width,self.height)
setColormap(colormap)
def setFigure(self,indexFig):
setFigure(indexFig)
def setSpectraPos(self): #modificar valores de acuerdo al colorbar y pwprofile
if self.showPowerProfile: xi = 0.09; xf = 0.6 #0.075
else: xi = 0.15; xf = 0.8 #0.8,0.7,0.5
yi = 0.15; yf = 0.80
xpos = [xi,xf]
ypos = [yi,yf]
self.__spcxpos = xpos
self.__spcypos = ypos
return xpos,ypos
def setColorbarScreenPos(self):
xi = self.__spcxpos[1] + 0.03; xf = xi + 0.03
yi = self.__spcypos[0]; yf = self.__spcypos[1]
xpos = [xi,xf]
ypos = [yi,yf]
self.__cmapxpos = xpos
self.__cmapypos = ypos
return xpos,ypos
def setPowerprofileScreenPos(self):
xi = self.__cmapxpos[1] + 0.07; xf = xi + 0.25
yi = self.__spcypos[0]; yf = self.__spcypos[1]
xpos = [xi,xf]
ypos = [yi,yf]
self.__profxpos = [xi,xf]
self.__profypos = [yi,yf]
return xpos,ypos
def createObjects(self,subplot,xmin,xmax,ymin,ymax,zmin,zmax,title,xlabel,ylabel):
'''
Crea los objetos necesarios para un subplot
'''
# Config Spectra plot
szchar = 0.7
name = 'spc'
key = name + '%d'%subplot
xrange = [xmin,xmax]
yrange = [ymin,ymax]
zrange = [zmin,zmax]
xpos,ypos = self.setSpectraPos()
pcolorObj = BaseGraph(name,subplot,xpos,ypos,xlabel,ylabel,title,szchar,xrange,yrange,zrange)
#pcolorObj.makeAxes(self.indexFig,self.nrow,self.ncol,subplot)
self.pcolorObjDic[key] = pcolorObj
# Config Colorbar
if self.showColorbar:
szchar = 0.65
name = 'colorbar'
key = name + '%d'%subplot
xpos,ypos = self.setColorbarScreenPos()
xrange = [0.,1.]
yrange = [zmin,zmax]
cmapObj = BaseGraph(name,subplot,xpos,ypos,'','','dB',szchar,xrange,yrange)
self.colorbarObjDic[key] = cmapObj
# Config Power profile
if self.showPowerProfile:
szchar = 0.55
name = 'pwprofile'
key = name + '%d'%subplot
xpos,ypos = self.setPowerprofileScreenPos()
xrange = [zmin,zmax]
yrange = [ymin,ymax]
powObj = BaseGraph(name,subplot,xpos,ypos,'dB','','Power Profile',szchar,xrange,yrange)
#powObj.makeAxes(self.indexFig,self.nrow,self.ncol,subplot)
self.pwprofileObjDic[key] = powObj
def setNewPage(self, pltitle='No title'):
szchar = 0.7
setNewPage()
setPlTitle(pltitle,'black', szchar=szchar)
setSubpages(self.ncol, self.nrow)
def closePage(self):
closePage()
def show(self):
show()
def iniPlot(self,subplot):
'''
Inicializa los subplots con su frame, titulo, etc
'''
# Config Spectra plot
name = 'spc'
key = name + '%d'%subplot
pcolorObj = self.pcolorObjDic[key]
pcolorObj.makeAxes(self.indexFig,self.nrow,self.ncol,subplot)
pcolorObj.plotBox(pcolorObj.xrange[0], pcolorObj.xrange[1], pcolorObj.yrange[0], pcolorObj.yrange[1], 'bcnst', 'bcnstv')
# Config Colorbar
if self.showColorbar:
name = 'colorbar'
key = name + '%d'%subplot
cmapObj = self.colorbarObjDic[key]
cmapObj.setParentAxesId(pcolorObj)
# cmapObj.plotBox(cmapObj.xrange[0], cmapObj.xrange[1], cmapObj.yrange[0], cmapObj.yrange[1], 'bc', 'bcmtsv')
cmapObj.colorbarPlot(cmapObj.xrange[0], cmapObj.xrange[1], cmapObj.yrange[0], cmapObj.yrange[1])
# cmapObj.plotBox(cmapObj.xrange[0], cmapObj.xrange[1], cmapObj.yrange[0], cmapObj.yrange[1], 'bc', 'bcmtsv')
# Config Power profile
if self.showPowerProfile:
name = 'pwprofile'
key = name + '%d'%subplot
powObj = self.pwprofileObjDic[key]
powObj.setLineStyle(2)
powObj.plotBox(powObj.xrange[0], powObj.xrange[1], powObj.yrange[0], powObj.yrange[1], 'bcntg', 'bc')
powObj.setLineStyle(1)
powObj.plotBox(powObj.xrange[0], powObj.xrange[1], powObj.yrange[0], powObj.yrange[1], 'bc', 'bc')
def printTitle(self,pltitle):
setPlTitle(pltitle,'black')
def plot(self,subplot,x,y,z,subtitle=''):
# Spectra plot
name = 'spc'
key = name + '%d'%subplot
# newx = [x[0],x[-1]]
pcolorObj = self.pcolorObjDic[key]
# pcolorObj.plotBox(pcolorObj.xrange[0], pcolorObj.xrange[1], pcolorObj.yrange[0], pcolorObj.yrange[1], 'bcst', 'bcst')
#pcolorObj.delLabels()
pcolorObj.setLabels(title=subtitle)
deltax = None; deltay = None
pcolorObj.advPcolorPlot(z,
x,
y,
xmin=pcolorObj.xrange[0],
xmax=pcolorObj.xrange[1],
ymin=pcolorObj.yrange[0],
ymax=pcolorObj.yrange[1],
zmin=pcolorObj.zrange[0],
zmax=pcolorObj.zrange[1],
deltax=deltax,
deltay=deltay,
getGrid=pcolorObj.getGrid)
#Solo se calcula la primera vez que se ingresa a la funcion
pcolorObj.getGrid = False
#pcolorObj.plotBox(pcolorObj.xrange[0], pcolorObj.xrange[1], pcolorObj.yrange[0], pcolorObj.yrange[1], 'bcst', 'bcst', nolabels=True)
# Power Profile
if self.showPowerProfile:
power = numpy.average(z, axis=0)
name = 'pwprofile'
key = name + '%d'%subplot
powObj = self.pwprofileObjDic[key]
if powObj.setXYData() != None:
#clearData(powObj)
powObj.setLineStyle(2)
powObj.plotBox(powObj.xrange[0], powObj.xrange[1], powObj.yrange[0], powObj.yrange[1], 'bcntg', 'bc')
powObj.setLineStyle(1)
else:
powObj.setXYData(power,y)
powObj.plotBox(powObj.xrange[0], powObj.xrange[1], powObj.yrange[0], powObj.yrange[1], 'bc', 'bc')
powObj.basicXYPlot(power,y)
powObj.setXYData(power,y)
def savePlot(self,indexFig,filename):
width = self.width*self.ncol
hei = self.height*self.nrow
savePlplot(filename,width,hei)
def refresh(self):
refresh()
class RtiPlot:
pcolorObjDic = {}
colorbarObjDic = {}
pwprofileObjDic = {}
showColorbar = None
showPowerProfile = None
XAxisAsTime = None
widht = None
height = None
__rtixpos = None
__rtiypos = None
__cmapxpos = None
__cmapypos = None
__profxpos = None
__profypos = None
def __init__(self,indexFig,nsubplot,winTitle,colormap,showColorbar,showPowerProfile,XAxisAsTime):
self.width = 700
self.height = 150
self.showColorbar = showColorbar
self.showPowerProfile = showPowerProfile
self.XAxisAsTime = XAxisAsTime
ncol = 1
nrow = nsubplot
initMatplotlib(indexFig,ncol,nrow,winTitle,self.width,self.height)
setColormap(colormap)
self.ncol = ncol
self.nrow = nrow
def setFigure(self,indexFig):
setFigure(indexFig)
def setRtiScreenPos(self):
if self.showPowerProfile: xi = 0.07; xf = 0.65
else: xi = 0.07; xf = 0.9
yi = 0.15; yf = 0.80
xpos = [xi,xf]
ypos = [yi,yf]
self.__rtixpos = xpos
self.__rtiypos = ypos
return xpos,ypos
def setColorbarScreenPos(self):
xi = self.__rtixpos[1] + 0.03; xf = xi + 0.03
yi = self.__rtiypos[0]; yf = self.__rtiypos[1]
xpos = [xi,xf]
ypos = [yi,yf]
self.__cmapxpos = xpos
self.__cmapypos = ypos
return xpos,ypos
def setPowerprofileScreenPos(self):
xi = self.__cmapxpos[1] + 0.05; xf = xi + 0.20
yi = self.__rtiypos[0]; yf = self.__rtiypos[1]
xpos = [xi,xf]
ypos = [yi,yf]
self.__profxpos = [xi,xf]
self.__profypos = [yi,yf]
return xpos,ypos
def setup(self,subplot,xmin,xmax,ymin,ymax,zmin,zmax,title,xlabel,ylabel,timedata,timezone='lt',npoints=100):
# Config Rti plot
szchar = 1.10
name = 'rti'
key = name + '%d'%subplot
# xmin, xmax --> minHour, max Hour : valores que definen el ejex x=[horaInicio,horaFinal]
thisDateTime = datetime.datetime.fromtimestamp(timedata)
startDateTime = datetime.datetime(thisDateTime.year,thisDateTime.month,thisDateTime.day,xmin,0,0)
endDateTime = datetime.datetime(thisDateTime.year,thisDateTime.month,thisDateTime.day,xmax,59,59)
deltaTime = 0
if timezone == 'lt':
deltaTime = time.timezone
startTimeInSecs = time.mktime(startDateTime.timetuple()) - deltaTime
endTimeInSecs = time.mktime(endDateTime.timetuple()) - deltaTime
xrange = [startTimeInSecs,endTimeInSecs]
totalTimeInXrange = endTimeInSecs - startTimeInSecs + 1.
deltax = totalTimeInXrange / npoints
yrange = [ymin,ymax]
zrange = [zmin,zmax]
xpos,ypos = self.setRtiScreenPos()
pcolorObj = BaseGraph(name,subplot,xpos,ypos,xlabel,ylabel,title,szchar,xrange,yrange,zrange,deltax)
if self.XAxisAsTime:
pcolorObj.setXAxisAsTime(self.XAxisAsTime)
xopt = 'bcnstd'
yopt = 'bcnstv'
else:
xopt = 'bcnst'
yopt = 'bcnstv'
pcolorObj.plotBox(pcolorObj.xrange[0], pcolorObj.xrange[1], pcolorObj.yrange[0], pcolorObj.yrange[1], xopt, yopt)
self.pcolorObjDic[key] = pcolorObj
# Config Colorbar
if self.showColorbar:
szchar = 0.9
name = 'colorbar'
key = name + '%d'%subplot
xpos,ypos = self.setColorbarScreenPos()
xrange = [0.,1.]
yrange = [zmin,zmax]
cmapObj = BaseGraph(name,subplot,xpos,ypos,'','','dB',szchar,xrange,yrange)
cmapObj.plotBox(cmapObj.xrange[0], cmapObj.xrange[1], cmapObj.yrange[0], cmapObj.yrange[1], 'bc', 'bcm')
cmapObj.colorbarPlot(cmapObj.xrange[0], cmapObj.xrange[1], cmapObj.yrange[0], cmapObj.yrange[1])
cmapObj.plotBox(cmapObj.xrange[0], cmapObj.xrange[1], cmapObj.yrange[0], cmapObj.yrange[1], 'bc', 'bcmtsv')
self.colorbarObjDic[key] = cmapObj
# Config Power profile
if self.showPowerProfile:
szchar = 0.8
name = 'pwprofile'
key = name + '%d'%subplot
xpos,ypos = self.setPowerprofileScreenPos()
xrange = [zmin,zmax]
yrange = [ymin,ymax]
powObj = BaseGraph(name,subplot,xpos,ypos,'dB','','Power Profile',szchar,xrange,yrange)
powObj.setLineStyle(2)
powObj.plotBox(powObj.xrange[0], powObj.xrange[1], powObj.yrange[0], powObj.yrange[1], 'bcntg', 'bc')
powObj.setLineStyle(1)
powObj.plotBox(powObj.xrange[0], powObj.xrange[1], powObj.yrange[0], powObj.yrange[1], 'bc', 'bc')
self.pwprofileObjDic[key] = powObj
def plot(self,subplot,x,y,z):
# RTI plot
name = 'rti'
key = name + '%d'%subplot
data = numpy.reshape(z, (1,-1))
data = numpy.abs(data)
data = 10*numpy.log10(data)
newx = [x,x+1]
pcolorObj = self.pcolorObjDic[key]
if pcolorObj.xaxisIsTime:
xopt = 'bcstd'
yopt = 'bcst'
else:
xopt = 'bcst'
yopt = 'bcst'
pcolorObj.plotBox(pcolorObj.xrange[0], pcolorObj.xrange[1], pcolorObj.yrange[0], pcolorObj.yrange[1], xopt, yopt)
deltax = pcolorObj.deltax
deltay = None
if pcolorObj.xmin == None and pcolorObj.xmax == None:
pcolorObj.xmin = x
pcolorObj.xmax = x
if x >= pcolorObj.xmax:
xmin = x
xmax = x + deltax
x = [x]
pcolorObj.advPcolorPlot(data,
x,
y,
xmin=xmin,
xmax=xmax,
ymin=pcolorObj.yrange[0],
ymax=pcolorObj.yrange[1],
zmin=pcolorObj.zrange[0],
zmax=pcolorObj.zrange[1],
deltax=deltax,
deltay=deltay,
getGrid=pcolorObj.getGrid)
pcolorObj.xmin = xmin
pcolorObj.xmax = xmax
# Power Profile
if self.showPowerProfile:
data = numpy.reshape(data,(numpy.size(data)))
name = 'pwprofile'
key = name + '%d'%subplot
powObj = self.pwprofileObjDic[key]
if powObj.setXYData() != None:
clearData(powObj)
powObj.setLineStyle(2)
powObj.plotBox(powObj.xrange[0], powObj.xrange[1], powObj.yrange[0], powObj.yrange[1], 'bcntg', 'bc')
powObj.setLineStyle(1)
else:
powObj.setXYData(data,y)
powObj.plotBox(powObj.xrange[0], powObj.xrange[1], powObj.yrange[0], powObj.yrange[1], 'bc', 'bc')
powObj.basicXYPlot(data,y)
powObj.setXYData(data,y)
def savePlot(self,indexFig,filename):
width = self.width*self.ncol
hei = self.height*self.nrow
savePlplot(filename,width,hei)
def refresh(self):
refresh()
if __name__ == '__main__':
"""
Ejemplo1
"""
#Setting the signal
fs = 8000
f0 = 200
f1 = 400
T = 1./fs
x = numpy.arange(160)
y1 = numpy.sin(2*numpy.pi*f0*x*T)
y2 = numpy.sin(2*numpy.pi*f1*x*T)
signalList = [y1,y2]
xmin = numpy.min(x)
xmax = numpy.max(x)
ymin = numpy.min(y1) - 10
ymax = numpy.max(y1) + 10
subplotTitle = "subplot no. "
xlabel = ""
ylabel = ""
indexFig = 1
nsubplot = 6
winTitle = "figura"
isPlotIni = False
isPlotConfig = False
ntimes = 100
# Instancia del objeto
linearObj = LinearPlot(indexFig,nsubplot,winTitle)
for i in range(ntimes):
# Crea los subplots
if not(linearObj.isPlotIni):
for index in range(nsubplot):
indexplot = index + 1
title = subplotTitle + '%d'%indexplot
linearObj.createObjects(indexplot,xmin,xmax,ymin,ymax,title,xlabel,ylabel)
linearObj.isPlotIni = True
# Inicializa el grafico en cada iteracion
linearObj.setFigure(indexFig)
linearObj.setNewPage("")
for index in range(nsubplot):
subplot = index
linearObj.iniPlot(subplot+1)
#plotea los datos
for channel in range(nsubplot):
data = y1 + numpy.random.rand(len(y1))
linearObj.plot(channel+1, x, data, type='simple')
linearObj.refresh()
# linearObj.closePage() #descomentar esta linea para mas iteraciones
time.sleep(0.05)
linearObj.show()
print "example 1 completed"
"""
Ejemplo2
"""
# make these smaller to increase the resolution
dx, dy = 0.05, 0.05
x = numpy.arange(-3.0, 3.0001, dx)
y = numpy.arange(-2.0, 2.0001, dy)
# X,Y = numpy.meshgrid(x, y)
X,Y = sn.ndgrid(x, y)
Z = (1- X/2 + X**5 + Y**3)*numpy.exp(-X**2-Y**2)
# Creating Object
indexPlot = 2
nsubplot = 1
winTitle = "mi grafico pcolor"
colormap = "br_green"
showColorbar = True
showPowerProfile = False
XAxisAsTime = False
subplotTitle = "subplot no. "
xlabel = ""
ylabel = ""
xmin = -3.0
xmax = 3.0
ymin = -2.0
ymax = 2.0
zmin = -0.3
zmax = 1.0
isPlotIni = False
isPlotConfig = False
ntimes = 10
for i in range(ntimes):
# Instancia del objeto
if not(isPlotConfig):
pcolorObj = PcolorPlot(indexPlot, nsubplot, winTitle, colormap, showColorbar, showPowerProfile, XAxisAsTime)
isPlotConfig = True
# Crea los subplots
if not(isPlotIni):
for index in range(nsubplot):
indexplot = index + 1
title = subplotTitle + '%d'%indexplot
subplot = index
pcolorObj.createObjects(indexplot,xmin,xmax,ymin,ymax,zmin,zmax,title,xlabel,ylabel)
isPlotIni = True
# Inicializa el grafico en cada iteracion
pcolorObj.setFigure(indexPlot)
pcolorObj.setNewPage("")
for index in range(nsubplot):
subplot = index
pcolorObj.iniPlot(subplot+1)
#plotea los datos
for channel in range(nsubplot):
data = Z+0.1*numpy.random.randn(len(x),len(y))
pcolorObj.plot(channel+1, x, y, data)
pcolorObj.refresh()
# pcolorObj.closePage() #descomentar esta linea para mas iteraciones
time.sleep(1)
pcolorObj.show()
print "example 2 completed"