schain Files · schainpy/model/graphics/mpldriver.py

-Se modificó el atributo nChannels de la clase JROData y derivadas por la propiedad nChannels (llamada a la funcion self.getNChannels)...

-Se modificó el atributo nChannels de la clase JROData y derivadas por la propiedad nChannels (llamada a la funcion self.getNChannels) -Se modificó el atributo channelIndexList de la clase JROData y derivadas por la propiedad channelIndexList (llamada a la funcion self.getChannelIndexList) -Se eliminó todas las asignaciones de valor de 'nChannels' y 'channelIndexList' de los obejtos del tipo JROData y derivados (ahora no son atributos sino que se modifican dinamicante a partir de 'channelList') -Se modificó el metodo selectChannels de la clase VoltageProc y SpectraProc para que acepte como atributo la lista de canales y no la lista de indices de canales. -Se modificó el test del controlador para probar estas modificaciones

Miguel Valdez - - Load All Authors

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             mpldriver.py
        
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      import matplotlib

      matplotlib.use("TKAgg")

      import matplotlib.pyplot

      #import scitools.numpyutils

      from mpl_toolkits.axes_grid1 import make_axes_locatable

      def init(idfigure, wintitle, width, height):

          matplotlib.pyplot.ioff()

          fig = matplotlib.pyplot.matplotlib.pyplot.figure(num=idfigure, facecolor="w")

          fig.canvas.manager.set_window_title(wintitle)

          fig.canvas.manager.resize(width,height)

          matplotlib.pyplot.ion()

          return fig

      def setWinTitle(fig, title):

          fig.canvas.manager.set_window_title(title)

      def setTextFromAxes(idfigure, ax, title):

          fig = matplotlib.pyplot.figure(idfigure)

          ax.annotate(title, xy=(.1, .99),

                      xycoords='figure fraction',

                      horizontalalignment='left', verticalalignment='top',

                      fontsize=10)

      def setTitle(idfigure, title):

          fig = matplotlib.pyplot.figure(idfigure)

          fig.suptitle(title)

      def makeAxes(idfigure, nrow, ncol, xpos, ypos, colspan, rowspan):

          fig = matplotlib.pyplot.figure(idfigure)

          ax = matplotlib.pyplot.subplot2grid((nrow, ncol), (xpos, ypos), colspan=colspan, rowspan=rowspan)

          return ax

      def pline(ax, x, y, xmin, xmax, ymin, ymax, xlabel, ylabel, title, firsttime):

          if firsttime:

              ax.plot(x, y)

              ax.set_xlim([xmin,xmax])

              ax.set_ylim([ymin,ymax])

              ax.set_xlabel(xlabel, size=8)

              ax.set_ylabel(ylabel, size=8)

              ax.set_title(title, size=10)

              matplotlib.pyplot.tight_layout()

          else:

              ax.lines[0].set_data(x,y)

      def draw(idfigure):

          fig = matplotlib.pyplot.figure(idfigure)

          fig.canvas.draw()

      def pcolor(ax, x, y, z, xmin, xmax, ymin, ymax, zmin, zmax, xlabel, ylabel, title, firsttime, mesh):

          if firsttime:

              divider = make_axes_locatable(ax)

              ax_cb = divider.new_horizontal(size="5%", pad=0.05)

              fig1 = ax.get_figure()

              fig1.add_axes(ax_cb)

              ax.set_xlim([xmin,xmax])

              ax.set_ylim([ymin,ymax])

              ax.set_xlabel(xlabel)

              ax.set_ylabel(ylabel)

              ax.set_title(title)

              imesh=ax.pcolormesh(x,y,z.T,vmin=zmin,vmax=zmax)

              matplotlib.pyplot.colorbar(imesh, cax=ax_cb)

              ax_cb.yaxis.tick_right()

              for tl in ax_cb.get_yticklabels():

                  tl.set_visible(True)

              ax_cb.yaxis.tick_right()

              matplotlib.pyplot.tight_layout()

              return imesh

          else:

              ax.set_xlim([xmin,xmax])

              ax.set_ylim([ymin,ymax])

              ax.set_xlabel(xlabel)

              ax.set_ylabel(ylabel)

              ax.set_title(title)

              z = z.T

              z = z[0:-1,0:-1]

              mesh.set_array(z.ravel())

              return mesh

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				import matplotlib
				matplotlib.use("TKAgg")
				import matplotlib.pyplot
				#import scitools.numpyutils
				from mpl_toolkits.axes_grid1 import make_axes_locatable

				def init(idfigure, wintitle, width, height):
				matplotlib.pyplot.ioff()
				fig = matplotlib.pyplot.matplotlib.pyplot.figure(num=idfigure, facecolor="w")
				fig.canvas.manager.set_window_title(wintitle)
				fig.canvas.manager.resize(width,height)
				matplotlib.pyplot.ion()
				return fig

				def setWinTitle(fig, title):
				fig.canvas.manager.set_window_title(title)

				def setTextFromAxes(idfigure, ax, title):
				fig = matplotlib.pyplot.figure(idfigure)
				ax.annotate(title, xy=(.1, .99),
				xycoords='figure fraction',
				horizontalalignment='left', verticalalignment='top',
				fontsize=10)

				def setTitle(idfigure, title):
				fig = matplotlib.pyplot.figure(idfigure)
				fig.suptitle(title)

				def makeAxes(idfigure, nrow, ncol, xpos, ypos, colspan, rowspan):
				fig = matplotlib.pyplot.figure(idfigure)
				ax = matplotlib.pyplot.subplot2grid((nrow, ncol), (xpos, ypos), colspan=colspan, rowspan=rowspan)
				return ax

				def pline(ax, x, y, xmin, xmax, ymin, ymax, xlabel, ylabel, title, firsttime):
				if firsttime:
				ax.plot(x, y)
				ax.set_xlim([xmin,xmax])
				ax.set_ylim([ymin,ymax])
				ax.set_xlabel(xlabel, size=8)
				ax.set_ylabel(ylabel, size=8)
				ax.set_title(title, size=10)
				matplotlib.pyplot.tight_layout()
				else:
				ax.lines[0].set_data(x,y)

				def draw(idfigure):
				fig = matplotlib.pyplot.figure(idfigure)
				fig.canvas.draw()

				def pcolor(ax, x, y, z, xmin, xmax, ymin, ymax, zmin, zmax, xlabel, ylabel, title, firsttime, mesh):
				if firsttime:
				divider = make_axes_locatable(ax)
				ax_cb = divider.new_horizontal(size="5%", pad=0.05)
				fig1 = ax.get_figure()
				fig1.add_axes(ax_cb)

				ax.set_xlim([xmin,xmax])
				ax.set_ylim([ymin,ymax])
				ax.set_xlabel(xlabel)
				ax.set_ylabel(ylabel)
				ax.set_title(title)

				imesh=ax.pcolormesh(x,y,z.T,vmin=zmin,vmax=zmax)
				matplotlib.pyplot.colorbar(imesh, cax=ax_cb)
				ax_cb.yaxis.tick_right()
				for tl in ax_cb.get_yticklabels():
				tl.set_visible(True)
				ax_cb.yaxis.tick_right()
				matplotlib.pyplot.tight_layout()
				return imesh
				else:
				ax.set_xlim([xmin,xmax])
				ax.set_ylim([ymin,ymax])
				ax.set_xlabel(xlabel)
				ax.set_ylabel(ylabel)
				ax.set_title(title)

				z = z.T
				z = z[0:-1,0:-1]
				mesh.set_array(z.ravel())

				return mesh