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First Spectral Fitting and EW Drifts operative module inside Signal Chain TRUNK
First Spectral Fitting and EW Drifts operative module inside Signal Chain TRUNK
Julio Valdez - - Load All Authors

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mpldriver.py
427 lines | 12.2 KiB | text/x-python | PythonLexer
/ schainpy / model / graphics / mpldriver.py
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import numpy
import datetime
import sys
import matplotlib
if 'linux' in sys.platform:
matplotlib.use("TKAgg")
if 'darwin' in sys.platform:
matplotlib.use("TKAgg")
import matplotlib.pyplot
from mpl_toolkits.axes_grid1 import make_axes_locatable
from matplotlib.ticker import *
###########################################
#Actualizacion de las funciones del driver
###########################################
def createFigure(id, wintitle, width, height, facecolor="w", show=True):
matplotlib.pyplot.ioff()
fig = matplotlib.pyplot.figure(num=id, facecolor=facecolor)
fig.canvas.manager.set_window_title(wintitle)
fig.canvas.manager.resize(width, height)
matplotlib.pyplot.ion()
if show:
matplotlib.pyplot.show()
return fig
def closeFigure(show=True):
matplotlib.pyplot.ioff()
if show:
matplotlib.pyplot.show()
return
def saveFigure(fig, filename):
matplotlib.pyplot.ioff()
fig.savefig(filename)
matplotlib.pyplot.ion()
def setWinTitle(fig, title):
fig.canvas.manager.set_window_title(title)
def setTitle(fig, title):
fig.suptitle(title)
def createAxes(fig, nrow, ncol, xpos, ypos, colspan, rowspan, polar=False):
matplotlib.pyplot.ioff()
matplotlib.pyplot.figure(fig.number)
axes = matplotlib.pyplot.subplot2grid((nrow, ncol),
(xpos, ypos),
colspan=colspan,
rowspan=rowspan,
polar=polar)
matplotlib.pyplot.ion()
return axes
def setAxesText(ax, text):
ax.annotate(text,
xy = (.1, .99),
xycoords = 'figure fraction',
horizontalalignment = 'left',
verticalalignment = 'top',
fontsize = 10)
def printLabels(ax, xlabel, ylabel, title):
ax.set_xlabel(xlabel, size=11)
ax.set_ylabel(ylabel, size=11)
ax.set_title(title, size=8)
def createPline(ax, x, y, xmin, xmax, ymin, ymax, xlabel='', ylabel='', title='',
ticksize=9, xtick_visible=True, ytick_visible=True,
nxticks=4, nyticks=10,
grid=None,color='blue'):
"""
Input:
grid : None, 'both', 'x', 'y'
"""
matplotlib.pyplot.ioff()
ax.set_xlim([xmin,xmax])
ax.set_ylim([ymin,ymax])
printLabels(ax, xlabel, ylabel, title)
######################################################
if (xmax-xmin)<=1:
xtickspos = numpy.linspace(xmin,xmax,nxticks)
xtickspos = numpy.array([float("%.1f"%i) for i in xtickspos])
ax.set_xticks(xtickspos)
else:
xtickspos = numpy.arange(nxticks)*int((xmax-xmin)/(nxticks)) + int(xmin)
# xtickspos = numpy.arange(nxticks)*float(xmax-xmin)/float(nxticks) + int(xmin)
ax.set_xticks(xtickspos)
for tick in ax.get_xticklabels():
tick.set_visible(xtick_visible)
for tick in ax.xaxis.get_major_ticks():
tick.label.set_fontsize(ticksize)
######################################################
for tick in ax.get_yticklabels():
tick.set_visible(ytick_visible)
for tick in ax.yaxis.get_major_ticks():
tick.label.set_fontsize(ticksize)
ax.plot(x, y, color=color)
iplot = ax.lines[-1]
######################################################
if '0.' in matplotlib.__version__[0:2]:
print "The matplotlib version has to be updated to 1.1 or newer"
return iplot
if '1.0.' in matplotlib.__version__[0:4]:
print "The matplotlib version has to be updated to 1.1 or newer"
return iplot
if grid != None:
ax.grid(b=True, which='major', axis=grid)
matplotlib.pyplot.tight_layout()
matplotlib.pyplot.ion()
return iplot
def set_linedata(ax, x, y, idline):
ax.lines[idline].set_data(x,y)
def pline(iplot, x, y, xlabel='', ylabel='', title=''):
ax = iplot.get_axes()
printLabels(ax, xlabel, ylabel, title)
set_linedata(ax, x, y, idline=0)
def addpline(ax, x, y, color, linestyle, lw):
ax.plot(x,y,color=color,linestyle=linestyle,lw=lw)
def createPcolor(ax, x, y, z, xmin, xmax, ymin, ymax, zmin, zmax,
xlabel='', ylabel='', title='', ticksize = 9,
colormap='jet',cblabel='', cbsize="5%",
XAxisAsTime=False):
matplotlib.pyplot.ioff()
divider = make_axes_locatable(ax)
ax_cb = divider.new_horizontal(size=cbsize, pad=0.05)
fig = ax.get_figure()
fig.add_axes(ax_cb)
ax.set_xlim([xmin,xmax])
ax.set_ylim([ymin,ymax])
printLabels(ax, xlabel, ylabel, title)
imesh = ax.pcolormesh(x,y,z.T, vmin=zmin, vmax=zmax, cmap=matplotlib.pyplot.get_cmap(colormap))
cb = matplotlib.pyplot.colorbar(imesh, cax=ax_cb)
cb.set_label(cblabel)
# for tl in ax_cb.get_yticklabels():
# tl.set_visible(True)
for tick in ax.yaxis.get_major_ticks():
tick.label.set_fontsize(ticksize)
for tick in ax.xaxis.get_major_ticks():
tick.label.set_fontsize(ticksize)
for tick in cb.ax.get_yticklabels():
tick.set_fontsize(ticksize)
ax_cb.yaxis.tick_right()
if '0.' in matplotlib.__version__[0:2]:
print "The matplotlib version has to be updated to 1.1 or newer"
return imesh
if '1.0.' in matplotlib.__version__[0:4]:
print "The matplotlib version has to be updated to 1.1 or newer"
return imesh
matplotlib.pyplot.tight_layout()
if XAxisAsTime:
func = lambda x, pos: ('%s') %(datetime.datetime.utcfromtimestamp(x).strftime("%H:%M:%S"))
ax.xaxis.set_major_formatter(FuncFormatter(func))
ax.xaxis.set_major_locator(LinearLocator(7))
matplotlib.pyplot.ion()
return imesh
def pcolor(imesh, z, xlabel='', ylabel='', title=''):
z = z.T
ax = imesh.get_axes()
printLabels(ax, xlabel, ylabel, title)
imesh.set_array(z.ravel())
def addpcolor(ax, x, y, z, zmin, zmax, xlabel='', ylabel='', title='', colormap='jet'):
printLabels(ax, xlabel, ylabel, title)
ax.pcolormesh(x,y,z.T,vmin=zmin,vmax=zmax, cmap=matplotlib.pyplot.get_cmap(colormap))
def addpcolorbuffer(ax, x, y, z, zmin, zmax, xlabel='', ylabel='', title='', colormap='jet'):
printLabels(ax, xlabel, ylabel, title)
ax.collections.remove(ax.collections[0])
ax.pcolormesh(x,y,z.T,vmin=zmin,vmax=zmax, cmap=matplotlib.pyplot.get_cmap(colormap))
def createPmultiline(ax, x, y, xmin, xmax, ymin, ymax, xlabel='', ylabel='', title='', legendlabels=None,
ticksize=9, xtick_visible=True, ytick_visible=True,
nxticks=4, nyticks=10,
grid=None):
"""
Input:
grid : None, 'both', 'x', 'y'
"""
matplotlib.pyplot.ioff()
lines = ax.plot(x.T, y)
leg = ax.legend(lines, legendlabels, loc='upper right')
leg.get_frame().set_alpha(0.5)
ax.set_xlim([xmin,xmax])
ax.set_ylim([ymin,ymax])
printLabels(ax, xlabel, ylabel, title)
xtickspos = numpy.arange(nxticks)*int((xmax-xmin)/(nxticks)) + int(xmin)
ax.set_xticks(xtickspos)
for tick in ax.get_xticklabels():
tick.set_visible(xtick_visible)
for tick in ax.xaxis.get_major_ticks():
tick.label.set_fontsize(ticksize)
for tick in ax.get_yticklabels():
tick.set_visible(ytick_visible)
for tick in ax.yaxis.get_major_ticks():
tick.label.set_fontsize(ticksize)
iplot = ax.lines[-1]
if '0.' in matplotlib.__version__[0:2]:
print "The matplotlib version has to be updated to 1.1 or newer"
return iplot
if '1.0.' in matplotlib.__version__[0:4]:
print "The matplotlib version has to be updated to 1.1 or newer"
return iplot
if grid != None:
ax.grid(b=True, which='major', axis=grid)
matplotlib.pyplot.tight_layout()
matplotlib.pyplot.ion()
return iplot
def pmultiline(iplot, x, y, xlabel='', ylabel='', title=''):
ax = iplot.get_axes()
printLabels(ax, xlabel, ylabel, title)
for i in range(len(ax.lines)):
line = ax.lines[i]
line.set_data(x[i,:],y)
def createPmultilineYAxis(ax, x, y, xmin, xmax, ymin, ymax, xlabel='', ylabel='', title='', legendlabels=None,
ticksize=9, xtick_visible=True, ytick_visible=True,
nxticks=4, nyticks=10, marker='.', markersize=10, linestyle="None",
grid=None, XAxisAsTime=False):
"""
Input:
grid : None, 'both', 'x', 'y'
"""
matplotlib.pyplot.ioff()
# lines = ax.plot(x, y.T, marker=marker,markersize=markersize,linestyle=linestyle)
lines = ax.plot(x, y.T, linestyle=linestyle, marker=marker, markersize=markersize)
leg = ax.legend(lines, legendlabels, loc='upper left', bbox_to_anchor=(1.01, 1.00), numpoints=1, handlelength=1.5, \
handletextpad=0.5, borderpad=0.5, labelspacing=0.5, borderaxespad=0.)
for label in leg.get_texts(): label.set_fontsize(9)
ax.set_xlim([xmin,xmax])
ax.set_ylim([ymin,ymax])
printLabels(ax, xlabel, ylabel, title)
# xtickspos = numpy.arange(nxticks)*int((xmax-xmin)/(nxticks)) + int(xmin)
# ax.set_xticks(xtickspos)
for tick in ax.get_xticklabels():
tick.set_visible(xtick_visible)
for tick in ax.xaxis.get_major_ticks():
tick.label.set_fontsize(ticksize)
for tick in ax.get_yticklabels():
tick.set_visible(ytick_visible)
for tick in ax.yaxis.get_major_ticks():
tick.label.set_fontsize(ticksize)
iplot = ax.lines[-1]
if '0.' in matplotlib.__version__[0:2]:
print "The matplotlib version has to be updated to 1.1 or newer"
return iplot
if '1.0.' in matplotlib.__version__[0:4]:
print "The matplotlib version has to be updated to 1.1 or newer"
return iplot
if grid != None:
ax.grid(b=True, which='major', axis=grid)
matplotlib.pyplot.tight_layout()
if XAxisAsTime:
func = lambda x, pos: ('%s') %(datetime.datetime.utcfromtimestamp(x).strftime("%H:%M:%S"))
ax.xaxis.set_major_formatter(FuncFormatter(func))
ax.xaxis.set_major_locator(LinearLocator(7))
matplotlib.pyplot.ion()
return iplot
def pmultilineyaxis(iplot, x, y, xlabel='', ylabel='', title=''):
ax = iplot.get_axes()
printLabels(ax, xlabel, ylabel, title)
for i in range(len(ax.lines)):
line = ax.lines[i]
line.set_data(x,y[i,:])
def createPolar(ax, x, y,
xlabel='', ylabel='', title='', ticksize = 9,
colormap='jet',cblabel='', cbsize="5%",
XAxisAsTime=False):
matplotlib.pyplot.ioff()
ax.plot(x,y,'bo', markersize=5)
# ax.set_rmax(90)
ax.set_ylim(0,90)
ax.set_yticks(numpy.arange(0,90,20))
ax.text(0, -110, ylabel, rotation='vertical', va ='center', ha = 'center' ,size='11')
# ax.text(100, 100, 'example', ha='left', va='center', rotation='vertical')
printLabels(ax, xlabel, '', title)
iplot = ax.lines[-1]
if '0.' in matplotlib.__version__[0:2]:
print "The matplotlib version has to be updated to 1.1 or newer"
return iplot
if '1.0.' in matplotlib.__version__[0:4]:
print "The matplotlib version has to be updated to 1.1 or newer"
return iplot
# if grid != None:
# ax.grid(b=True, which='major', axis=grid)
matplotlib.pyplot.tight_layout()
matplotlib.pyplot.ion()
return iplot
def polar(iplot, x, y, xlabel='', ylabel='', title=''):
ax = iplot.get_axes()
# ax.text(0, -110, ylabel, rotation='vertical', va ='center', ha = 'center',size='11')
printLabels(ax, xlabel, '', title)
set_linedata(ax, x, y, idline=0)
def draw(fig):
if type(fig) == 'int':
raise ValueError, "This parameter should be of tpye matplotlib figure"
fig.canvas.draw()