python source code of parasite

matplotlib-4-abaqus-master
- pyparsing.pyc
- test_link_mpl_toolkits.py
- six.py
- matplotlib
  - quiver.py
  - ttconv.pyd
  - collections.pyo
  - legend.pyc
  - textpath.py
  - _windowing.pyd
  - cm.pyc
  - colorbar.pyc
  - units.pyc
  - mlab.pyo
  - container.py
  - lines.py
  - rcsetup.py
  - hatch.py
  - scale.py
  - lines.pyc
  - colorbar.pyo
  - markers.py
  - backend_bases.py
  - legend_handler.pyc
  - patches.pyc
  - blocking_input.py
  - artist.pyc
  - mpl.pyo
  - streamplot.pyo
  - _pylab_helpers.py
  - text.py
  - figure.pyc
  - sankey.pyc
  - pyplot.pyo
  - transforms.pyo
  - backends
    - backend_pdf.pyc
    - backend_pgf.pyo
    - backend_qt4.pyo
    - backend_svg.py
    - backend_webagg.py
    - backend_agg.pyo
    - backend_ps.pyo
    - backend_gtk3.py
    - backend_pgf.pyc
    - backend_gtk3.pyc
    - _backend_gdk.pyd
    - backend_wx.pyo
    - backend_webagg.pyc
    - backend_qt4agg.pyc
    - backend_gtk3cairo.pyo
    - backend_qt4agg.py
    - backend_template.pyc
    - windowing.pyo
    - backend_cairo.pyo
    - backend_qt4.py
    - backend_gtk3.pyo
    - backend_gdk.py
    - _tkagg.pyd
    - backend_gtkcairo.py
    - backend_wxagg.pyc
    - backend_cocoaagg.pyc
    - tkagg.pyo
    - backend_cairo.py
    - backend_ps.pyc
    - backend_tkagg.py
    - backend_macosx.py
    - backend_gtk.pyo
    - backend_gtk3cairo.pyc
    - backend_agg.py
    - backend_gdk.pyo
    - backend_template.py
    - windowing.pyc
    - backend_svg.pyc
    - backend_wxagg.pyo
    - qt4_compat.pyo
    - backend_mixed.pyo
    - backend_ps.py
    - __init__.pyc
    - qt4_compat.pyc
    - backend_qt4agg.pyo
    - backend_tkagg.pyc
    - backend_gtk.pyc
    - backend_wx.py
    - backend_mixed.pyc
    - backend_gtk3cairo.py
    - backend_gtk3agg.pyo
    - backend_pgf.py
    - backend_gtk3agg.py
    - backend_gtkcairo.pyc
    - backend_mixed.py
    - backend_gtkagg.py
    - backend_wxagg.py
    - qt4_compat.py
    - backend_pdf.py
    - backend_gtkagg.pyc
    - backend_pdf.pyo
    - backend_cocoaagg.py
    - backend_cocoaagg.pyo
    - __init__.py
    - backend_qt4.pyc
    - backend_svg.pyo
    - web_backend
      - single_figure.html
      - mpl_interface.js
      - mpl.js
      - jquery
        js
        jquery-1.7.1.min.js
        jquery.autogrow.js
        css
        themes
        base
        jquery-ui.min.css
        images
      - all_figures.html
      - css
        fbm.css
        boilerplate.css
        page.css
    - backend_gtkcairo.pyo
    - Matplotlib.nib
      - keyedobjects.nib
      - classes.nib
      - info.nib
    - backend_cairo.pyc
    - backend_gtkagg.pyo
    - backend_template.pyo
    - _gtkagg.pyd
    - qt4_editor
      - formlayout.pyc
      - formlayout.pyo
      - __init__.pyc
      - figureoptions.pyo
      - __init__.py
      - figureoptions.pyc
      - formlayout.py
      - figureoptions.py
      - __init__.pyo
    - backend_gtk3agg.pyc
    - tkagg.py
    - tkagg.pyc
    - windowing.py
    - backend_gdk.pyc
    - backend_macosx.pyc
    - backend_tkagg.pyo
    - __init__.pyo
    - backend_wx.pyc
    - backend_gtk.py
    - backend_webagg.pyo
    - backend_agg.pyc
    - backend_macosx.pyo
  - widgets.pyc
  - hatch.pyc
  - image.py
  - fontconfig_pattern.pyc
  - container.pyo
  - contour.pyc
  - mathtext.pyc
  - _mathtext_data.pyc
  - textpath.pyc
  - blocking_input.pyc
  - pylab.py
  - cm.py
  - _pylab_helpers.pyc
  - type1font.py
  - cbook.pyo
  - docstring.pyo
  - legend_handler.py
  - texmanager.pyo
  - path.py
  - image.pyo
  - legend.pyo
  - dates.pyo
  - animation.py
  - contour.pyo
  - dates.pyc
  - gridspec.pyo
  - pyplot.py
  - path.pyc
  - axis.py
  - units.py
  - font_manager.py
  - sphinxext
    - mathmpl.pyc
    - mathmpl.pyo
    - only_directives.pyc
    - ipython_console_highlighting.pyc
    - __init__.pyc
    - ipython_console_highlighting.pyo
    - only_directives.py
    - plot_directive.pyo
    - ipython_console_highlighting.py
    - ipython_directive.pyc
    - __init__.py
    - only_directives.pyo
    - mathmpl.py
    - plot_directive.py
    - ipython_directive.pyo
    - plot_directive.pyc
    - __init__.pyo
    - ipython_directive.py
  - patheffects.pyo
  - tight_bbox.pyc
  - table.py
  - mathtext.py
  - cbook.py
  - compat
    - subprocess.pyc
    - subprocess.pyo
    - __init__.pyc
    - subprocess.py
    - __init__.py
    - __init__.pyo
  - font_manager.pyo
  - mpl.pyc
  - docstring.pyc
  - colorbar.py
  - collections.py
  - tight_layout.py
  - _cm.py
  - __init__.pyc
  - mlab.pyc
  - axis.pyo
  - spines.pyc
  - pylab.pyc
  - path.pyo
  - patheffects.py
  - patheffects.pyc
  - _pylab_helpers.pyo
  - lines.pyo
  - afm.py
  - _mathtext_data.py
  - units.pyo
  - artist.py
  - _delaunay.pyd
  - legend.py
  - bezier.py
  - font_manager.pyc
  - dviread.py
  - cm.pyo
  - docstring.py
  - colors.pyc
  - type1font.pyc
  - sankey.pyo
  - stackplot.pyo
  - mlab.py
  - tight_bbox.py
  - pyplot.pyc
  - text.pyc
  - afm.pyo
  - mpl.py
  - hatch.pyo
  - scale.pyc
  - scale.pyo
  - afm.pyc
  - cbook.pyc
  - dates.py
  - finance.py
  - widgets.py
  - gridspec.py
  - texmanager.pyc
  - offsetbox.pyc
  - rcsetup.pyo
  - tight_layout.pyo
  - projections
    - __init__.pyc
    - polar.pyc
    - geo.pyc
    - polar.pyo
    - __init__.py
    - geo.pyo
    - __init__.pyo
    - geo.py
    - polar.py
  - bezier.pyc
  - stackplot.pyc
  - collections.pyc
  - texmanager.py
  - axis.pyc
  - __init__.py
  - spines.py
  - artist.pyo
  - mpl-data
    - lineprops.glade
    - images
      - forward.xpm
      - subplots.ppm
      - back.xpm
      - back.ppm
      - move.ppm
      - qt4_editor_options.svg
      - home.ppm
      - hand.xpm
      - hand.svg
      - move.svg
      - stock_right.ppm
      - matplotlib.svg
      - matplotlib.gif
      - stock_right.xpm
      - stock_up.xpm
      - stock_zoom-in.ppm
      - stock_save_as.xpm
      - stock_refresh.ppm
      - stock_left.ppm
      - stock_left.xpm
      - stock_close.xpm
      - home.xpm
      - zoom_to_rect.svg
      - zoom_to_rect.xpm
      - back.svg
      - stock_down.xpm
      - forward.ppm
      - forward.svg
      - hand.ppm
      - stock_up.ppm
      - filesave.ppm
      - zoom_to_rect.ppm
      - stock_zoom-in.xpm
      - filesave.svg
      - move.xpm
      - subplots.xpm
      - home.svg
      - stock_zoom-out.xpm
      - stock_close.ppm
      - stock_zoom-out.ppm
      - filesave.xpm
      - stock_down.ppm
      - stock_refresh.xpm
      - stock_save_as.ppm
    - sample_data
      - data_x_x2_x3.csv
      - eeg.dat
      - README.txt
      - embedding_in_wx3.xrc
      - membrane.dat
      - goog.npy
      - s1045.ima.gz
      - demodata.csv
      - AAPL.dat.gz
      - msft.csv
      - INTC.dat.gz
      - aapl.npy.gz
      - axes_grid
        bivariate_normal.npy
    - fonts
      - ttf
        cmex10.ttf
        README.TXT
        VeraSeBd.ttf
        cmmi10.ttf
        cmr10.ttf
        VeraMoBd.ttf
        STIXSizOneSymBol.ttf
        VeraBd.ttf
        cmss10.ttf
        VeraSe.ttf
        STIXNonUniBolIta.ttf
        STIXSizTwoSymReg.ttf
        STIXSizFourSymBol.ttf
        VeraMoBI.ttf
        VeraBI.ttf
        COPYRIGHT.TXT
        STIXSizThreeSymReg.ttf
        RELEASENOTES.TXT
        STIXGeneralBolIta.ttf
        VeraMoIt.ttf
        STIXNonUniBol.ttf
        STIXNonUni.ttf
        STIXNonUniIta.ttf
        STIXSizOneSymReg.ttf
        STIXSizFourSymReg.ttf
        cmsy10.ttf
        STIXSizFiveSymReg.ttf
        STIXGeneralItalic.ttf
        cmb10.ttf
        cmtt10.ttf
        LICENSE_STIX
        VeraMono.ttf
        VeraIt.ttf
        STIXSizTwoSymBol.ttf
        Vera.ttf
        STIXSizThreeSymBol.ttf
      - pdfcorefonts
        Helvetica-BoldOblique.afm
        Times-Roman.afm
        Courier-BoldOblique.afm
        Helvetica.afm
        Times-Italic.afm
        Helvetica-Bold.afm
        readme.txt
        Times-BoldItalic.afm
        Symbol.afm
        Courier.afm
        Helvetica-Oblique.afm
        Courier-Bold.afm
        ZapfDingbats.afm
        Courier-Oblique.afm
        Times-Bold.afm
      - afm
        putbi8a.afm
        ptmb8a.afm
        pplb8a.afm
        pzcmi8a.afm
        putb8a.afm
        phvbo8an.afm
        cmmi10.afm
        pbkli8a.afm
        phvr8an.afm
        psyr.afm
        pncb8a.afm
        pcrb8a.afm
        pplbi8a.afm
        cmr10.afm
        pplr8a.afm
        phvb8a.afm
        pagko8a.afm
        pncbi8a.afm
        phvro8a.afm
        pncri8a.afm
        phvro8an.afm
        ptmri8a.afm
        cmex10.afm
        pagd8a.afm
        pagk8a.afm
        phvr8a.afm
        cmtt10.afm
        phvlo8a.afm
        ptmbi8a.afm
        cmsy10.afm
        phvl8a.afm
        phvb8an.afm
        putri8a.afm
        pbkdi8a.afm
        pbkl8a.afm
        ptmr8a.afm
        pncr8a.afm
        pcrr8a.afm
        pcrbo8a.afm
        pplri8a.afm
        phvbo8a.afm
        pbkd8a.afm
        pagdo8a.afm
        putr8a.afm
        pzdr.afm
        pcrro8a.afm
    - matplotlibrc
  - streamplot.py
  - mathtext.pyo
  - patches.py
  - stackplot.py
  - spines.pyo
  - ticker.pyc
  - pylab.pyo
  - type1font.pyo
  - rcsetup.pyc
  - markers.pyo
  - textpath.pyo
  - _cm.pyc
  - ticker.pyo
  - backend_bases.pyc
  - fontconfig_pattern.pyo
  - figure.pyo
  - streamplot.pyc
  - _mathtext_data.pyo
  - animation.pyo
  - quiver.pyc
  - delaunay
    - interpolate.pyo
    - testfuncs.py
    - interpolate.pyc
    - triangulate.py
    - __init__.pyc
    - testfuncs.pyo
    - testfuncs.pyc
    - __init__.py
    - interpolate.py
    - triangulate.pyc
    - triangulate.pyo
    - __init__.pyo
  - legend_handler.pyo
  - contour.py
  - colors.pyo
  - _cntr.pyd
  - gridspec.pyc
  - quiver.pyo
  - text.pyo
  - tight_layout.pyc
  - ticker.py
  - table.pyo
  - sankey.py
  - container.pyc
  - bezier.pyo
  - tri
    - tripcolor.pyc
    - tripcolor.py
    - triangulation.pyc
    - triangulation.py
    - triinterpolate.pyc
    - trirefine.pyo
    - tritools.pyo
    - tricontour.pyc
    - trifinder.pyo
    - triinterpolate.pyo
    - triangulation.pyo
    - triplot.pyo
    - __init__.pyc
    - tritools.pyc
    - triplot.py
    - tritools.py
    - tricontour.py
    - __init__.py
    - trifinder.py
    - trifinder.pyc
    - triplot.pyc
    - triinterpolate.py
    - tripcolor.pyo
    - trirefine.py
    - __init__.pyo
    - tricontour.pyo
    - trirefine.pyc
  - finance.pyc
  - dviread.pyo
  - backend_bases.pyo
  - transforms.py
  - fontconfig_pattern.py
  - tight_bbox.pyo
  - blocking_input.pyo
  - offsetbox.pyo
  - transforms.pyc
  - dviread.pyc
  - animation.pyc
  - widgets.pyo
  - __init__.pyo
  - colors.py
  - figure.py
  - offsetbox.py
  - table.pyc
  - patches.pyo
  - markers.pyc
  - finance.pyo
  - image.pyc
  - testing
    - compare.pyo
    - image_util.pyo
    - image_util.pyc
    - decorators.py
    - noseclasses.py
    - decorators.pyc
    - compare.pyc
    - decorators.pyo
    - __init__.pyc
    - image_util.py
    - noseclasses.pyo
    - __init__.py
    - noseclasses.pyc
    - __init__.pyo
    - compare.py
    - jpl_units
      - Epoch.pyc
      - EpochConverter.py
      - UnitDbl.py
      - StrConverter.py
      - Duration.py
      - Duration.pyc
      - Epoch.pyo
      - __init__.pyc
      - UnitDbl.pyc
      - UnitDblFormatter.pyc
      - StrConverter.pyc
      - UnitDblConverter.py
      - Duration.pyo
      - UnitDblFormatter.py
      - __init__.py
      - EpochConverter.pyc
      - UnitDblConverter.pyo
      - StrConverter.pyo
      - UnitDbl.pyo
      - EpochConverter.pyo
      - UnitDblFormatter.pyo
      - UnitDblConverter.pyc
      - Epoch.py
      - __init__.pyo
  - _cm.pyo
- six.pyc
- matplotlib_test.py
- LICENSE.md
- dateutil
  - easter.pyc
  - relativedelta.pyc
  - tzwin.pyc
  - __init__.pyc
  - rrule.py
  - rrule.pyc
  - tz.py
  - __init__.py
  - tz.pyc
  - parser.py
  - easter.py
  - parser.pyc
  - tzwin.py
  - zoneinfo
    - __init__.pyc
    - dateutil-zoneinfo.tar.gz
    - __init__.py
  - relativedelta.py
- mpl_toolkits
  - exceltools.pyo
  - gtktools.py
  - exceltools.py
  - gtktools.pyo
  - axisartist
    - angle_helper.py
    - grid_helper_curvelinear.py
    - axis_artist.pyc
    - axisline_style.py
    - floating_axes.pyc
    - axis_artist.py
    - grid_finder.pyo
    - grid_helper_curvelinear.pyc
    - grid_helper_curvelinear.pyo
    - axislines.pyc
    - clip_path.py
    - grid_finder.py
    - angle_helper.pyo
    - __init__.pyc
    - floating_axes.pyo
    - clip_path.pyo
    - clip_path.pyc
    - axisline_style.pyc
    - axislines.pyo
    - __init__.py
    - axis_artist.pyo
    - angle_helper.pyc
    - axisline_style.pyo
    - floating_axes.py
    - axislines.py
    - __init__.pyo
    - grid_finder.pyc
  - __init__.py
  - exceltools.pyc
  - axes_grid1
    - colorbar.pyc
    - inset_locator.py
    - parasite_axes.py
    - anchored_artists.pyc
    - axes_rgb.pyo
    - colorbar.pyo
    - mpl_axes.py
    - axes_grid.py
    - axes_size.py
    - axes_rgb.py
    - inset_locator.pyc
    - axes_rgb.pyc
    - axes_divider.py
    - axes_size.pyc
    - colorbar.py
    - axes_grid.pyc
    - __init__.pyc
    - parasite_axes.pyo
    - parasite_axes.pyc
    - anchored_artists.pyo
    - axes_divider.pyc
    - axes_grid.pyo
    - __init__.py
    - mpl_axes.pyc
    - mpl_axes.pyo
    - anchored_artists.py
    - axes_divider.pyo
    - __init__.pyo
    - axes_size.pyo
    - inset_locator.pyo
  - mplot3d
    - axis3d.pyo
    - proj3d.py
    - proj3d.pyc
    - axis3d.pyc
    - art3d.pyc
    - art3d.py
    - __init__.pyc
    - art3d.pyo
    - axes3d.pyc
    - axis3d.py
    - __init__.py
    - axes3d.py
    - axes3d.pyo
    - proj3d.pyo
    - __init__.pyo
  - gtktools.pyc
  - axes_grid
    - angle_helper.py
    - colorbar.pyc
    - inset_locator.py
    - parasite_axes.py
    - anchored_artists.pyc
    - axes_rgb.pyo
    - grid_helper_curvelinear.py
    - axis_artist.pyc
    - axisline_style.py
    - floating_axes.pyc
    - axis_artist.py
    - colorbar.pyo
    - grid_finder.pyo
    - axes_grid.py
    - axes_size.py
    - grid_helper_curvelinear.pyc
    - axes_rgb.py
    - inset_locator.pyc
    - grid_helper_curvelinear.pyo
    - axislines.pyc
    - axes_rgb.pyc
    - clip_path.py
    - axes_divider.py
    - grid_finder.py
    - axes_size.pyc
    - colorbar.py
    - angle_helper.pyo
    - axes_grid.pyc
    - __init__.pyc
    - parasite_axes.pyo
    - parasite_axes.pyc
    - floating_axes.pyo
    - anchored_artists.pyo
    - clip_path.pyo
    - axes_divider.pyc
    - clip_path.pyc
    - axisline_style.pyc
    - axes_grid.pyo
    - axislines.pyo
    - __init__.py
    - axis_artist.pyo
    - angle_helper.pyc
    - axisline_style.pyo
    - floating_axes.py
    - anchored_artists.py
    - axislines.py
    - axes_divider.pyo
    - __init__.pyo
    - axes_size.pyo
    - inset_locator.pyo
    - grid_finder.pyc
- README.md
- pyparsing.py

import warnings

import matplotlib
rcParams = matplotlib.rcParams
import matplotlib.artist as martist
import matplotlib.transforms as mtransforms
import matplotlib.collections as mcoll
import matplotlib.legend as mlegend

from matplotlib.axes import subplot_class_factory
from mpl_axes import Axes

from matplotlib.transforms import Bbox

import numpy as np

import matplotlib.cbook as cbook
is_string_like = cbook.is_string_like


class ParasiteAxesBase:

    def get_images_artists(self):
        artists = set([a for a in self.get_children() if a.get_visible()])
        images = set([a for a in self.images if a.get_visible()])

        return list(images), list(artists - images)

    def __init__(self, parent_axes, **kargs):

        self._parent_axes = parent_axes
        kargs.update(dict(frameon=False))
        self._get_base_axes_attr("__init__")(self, parent_axes.figure,
                                        parent_axes._position, **kargs)

    def cla(self):
        self._get_base_axes_attr("cla")(self)

        martist.setp(self.get_children(), visible=False)
        self._get_lines = self._parent_axes._get_lines

        # In mpl's Axes, zorders of x- and y-axis are originally set
        # within Axes.draw().
        if self._axisbelow:
            self.xaxis.set_zorder(0.5)
            self.yaxis.set_zorder(0.5)
        else:
            self.xaxis.set_zorder(2.5)
            self.yaxis.set_zorder(2.5)


_parasite_axes_classes = {}
def parasite_axes_class_factory(axes_class=None):
    if axes_class is None:
        axes_class = Axes

    new_class = _parasite_axes_classes.get(axes_class)
    if new_class is None:
        def _get_base_axes_attr(self, attrname):
            return getattr(axes_class, attrname)

        new_class = type("%sParasite" % (axes_class.__name__),
                         (ParasiteAxesBase, axes_class),
                         {'_get_base_axes_attr': _get_base_axes_attr})
        _parasite_axes_classes[axes_class] = new_class

    return new_class

ParasiteAxes = parasite_axes_class_factory()

# #class ParasiteAxes(ParasiteAxesBase, Axes):

#     @classmethod
#     def _get_base_axes_attr(cls, attrname):
#         return getattr(Axes, attrname)



class ParasiteAxesAuxTransBase:
    def __init__(self, parent_axes, aux_transform, viewlim_mode=None,
                 **kwargs):

        self.transAux = aux_transform
        self.set_viewlim_mode(viewlim_mode)

        self._parasite_axes_class.__init__(self, parent_axes, **kwargs)

    def _set_lim_and_transforms(self):

        self.transAxes = self._parent_axes.transAxes

        self.transData = \
            self.transAux + \
            self._parent_axes.transData

        self._xaxis_transform = mtransforms.blended_transform_factory(
                self.transData, self.transAxes)
        self._yaxis_transform = mtransforms.blended_transform_factory(
                self.transAxes, self.transData)

    def set_viewlim_mode(self, mode):
        if mode not in [None, "equal", "transform"]:
            raise ValueError("Unknown mode : %s" % (mode,))
        else:
            self._viewlim_mode = mode

    def get_viewlim_mode(self):
        return self._viewlim_mode


    def update_viewlim(self):
        viewlim = self._parent_axes.viewLim.frozen()
        mode = self.get_viewlim_mode()
        if mode is None:
            pass
        elif mode == "equal":
            self.axes.viewLim.set(viewlim)
        elif mode == "transform":
            self.axes.viewLim.set(viewlim.transformed(self.transAux.inverted()))
        else:
            raise ValueError("Unknown mode : %s" % (self._viewlim_mode,))


    def _pcolor(self, method_name, *XYC, **kwargs):
        if len(XYC) == 1:
            C = XYC[0]
            ny, nx = C.shape

            gx = np.arange(-0.5, nx, 1.)
            gy = np.arange(-0.5, ny, 1.)

            X, Y = np.meshgrid(gx, gy)
        else:
            X, Y, C = XYC

        pcolor_routine = self._get_base_axes_attr(method_name)

        if kwargs.has_key("transform"):
            mesh = pcolor_routine(self, X, Y, C, **kwargs)
        else:
            orig_shape = X.shape
            xy = np.vstack([X.flat, Y.flat])
            xyt=xy.transpose()
            wxy = self.transAux.transform(xyt)
            gx, gy = wxy[:,0].reshape(orig_shape), wxy[:,1].reshape(orig_shape)
            mesh = pcolor_routine(self, gx, gy, C, **kwargs)
            mesh.set_transform(self._parent_axes.transData)

        return mesh

    def pcolormesh(self, *XYC, **kwargs):
        return self._pcolor("pcolormesh", *XYC, **kwargs)

    def pcolor(self, *XYC, **kwargs):
        return self._pcolor("pcolor", *XYC, **kwargs)


    def _contour(self, method_name, *XYCL, **kwargs):

        if len(XYCL) <= 2:
            C = XYCL[0]
            ny, nx = C.shape

            gx = np.arange(0., nx, 1.)
            gy = np.arange(0., ny, 1.)

            X,Y = np.meshgrid(gx, gy)
            CL = XYCL
        else:
            X, Y = XYCL[:2]
            CL = XYCL[2:]

        contour_routine = self._get_base_axes_attr(method_name)

        if kwargs.has_key("transform"):
            cont = contour_routine(self, X, Y, *CL, **kwargs)
        else:
            orig_shape = X.shape
            xy = np.vstack([X.flat, Y.flat])
            xyt=xy.transpose()
            wxy = self.transAux.transform(xyt)
            gx, gy = wxy[:,0].reshape(orig_shape), wxy[:,1].reshape(orig_shape)
            cont = contour_routine(self, gx, gy, *CL, **kwargs)
            for c in cont.collections:
                c.set_transform(self._parent_axes.transData)

        return cont

    def contour(self, *XYCL, **kwargs):
        return self._contour("contour", *XYCL, **kwargs)

    def contourf(self, *XYCL, **kwargs):
        return self._contour("contourf", *XYCL, **kwargs)

    def apply_aspect(self, position=None):
        self.update_viewlim()
        self._get_base_axes_attr("apply_aspect")(self)
        #ParasiteAxes.apply_aspect()



_parasite_axes_auxtrans_classes = {}
def parasite_axes_auxtrans_class_factory(axes_class=None):
    if axes_class is None:
        parasite_axes_class = ParasiteAxes
    elif not issubclass(axes_class, ParasiteAxesBase):
        parasite_axes_class = parasite_axes_class_factory(axes_class)
    else:
        parasite_axes_class = axes_class

    new_class = _parasite_axes_auxtrans_classes.get(parasite_axes_class)
    if new_class is None:
        new_class = type("%sParasiteAuxTrans" % (parasite_axes_class.__name__),
                         (ParasiteAxesAuxTransBase, parasite_axes_class),
                         {'_parasite_axes_class': parasite_axes_class,
                         'name': 'parasite_axes'})
        _parasite_axes_auxtrans_classes[parasite_axes_class] = new_class

    return new_class


ParasiteAxesAuxTrans = parasite_axes_auxtrans_class_factory(axes_class=ParasiteAxes)




def _get_handles(ax):
    handles = ax.lines[:]
    handles.extend(ax.patches)
    handles.extend([c for c in ax.collections
                    if isinstance(c, mcoll.LineCollection)])
    handles.extend([c for c in ax.collections
                    if isinstance(c, mcoll.RegularPolyCollection)])
    handles.extend([c for c in ax.collections
                    if isinstance(c, mcoll.CircleCollection)])

    return handles


class HostAxesBase:
    def __init__(self, *args, **kwargs):

        self.parasites = []
        self._get_base_axes_attr("__init__")(self, *args, **kwargs)


    def get_aux_axes(self, tr, viewlim_mode="equal", axes_class=None):
        parasite_axes_class = parasite_axes_auxtrans_class_factory(axes_class)
        ax2 = parasite_axes_class(self, tr, viewlim_mode)
        # note that ax2.transData == tr + ax1.transData
        # Anthing you draw in ax2 will match the ticks and grids of ax1.
        self.parasites.append(ax2)
        return ax2


    def _get_legend_handles(self, legend_handler_map=None):
        Axes_get_legend_handles = self._get_base_axes_attr("_get_legend_handles")
        all_handles = Axes_get_legend_handles(self, legend_handler_map)

        for ax in self.parasites:
            all_handles.extend(ax._get_legend_handles(legend_handler_map))

        return all_handles


    def draw(self, renderer):

        orig_artists = list(self.artists)
        orig_images = list(self.images)

        if hasattr(self, "get_axes_locator"):
            locator = self.get_axes_locator()
            if locator:
                pos = locator(self, renderer)
                self.set_position(pos, which="active")
                self.apply_aspect(pos)
            else:
                self.apply_aspect()
        else:
            self.apply_aspect()

        rect = self.get_position()

        for ax in self.parasites:
            ax.apply_aspect(rect)
            images, artists = ax.get_images_artists()
            self.images.extend(images)
            self.artists.extend(artists)

        self._get_base_axes_attr("draw")(self, renderer)
        self.artists = orig_artists
        self.images = orig_images


    def cla(self):

        for ax in self.parasites:
            ax.cla()

        self._get_base_axes_attr("cla")(self)
        #super(HostAxes, self).cla()


    def twinx(self, axes_class=None):
        """
        call signature::

          ax2 = ax.twinx()

        create a twin of Axes for generating a plot with a sharex
        x-axis but independent y axis.  The y-axis of self will have
        ticks on left and the returned axes will have ticks on the
        right
        """

        if axes_class is None:
            axes_class = self._get_base_axes()

        parasite_axes_class = parasite_axes_class_factory(axes_class)

        ax2 = parasite_axes_class(self, sharex=self, frameon=False)
        self.parasites.append(ax2)

        # for normal axes

        self.axis["right"].toggle(all=False)
        self.axis["right"].line.set_visible(True)

        ax2.axis["right"].set_visible(True)
        ax2.axis["left","top", "bottom"].toggle(all=False)
        ax2.axis["left","top", "bottom"].line.set_visible(False)

        ax2.axis["right"].toggle(all=True)
        ax2.axis["right"].line.set_visible(False)

        return ax2

    def twiny(self, axes_class=None):
        """
        call signature::

          ax2 = ax.twiny()

        create a twin of Axes for generating a plot with a shared
        y-axis but independent x axis.  The x-axis of self will have
        ticks on bottom and the returned axes will have ticks on the
        top
        """

        if axes_class is None:
            axes_class = self._get_base_axes()

        parasite_axes_class = parasite_axes_class_factory(axes_class)

        ax2 = parasite_axes_class(self, sharey=self, frameon=False)
        self.parasites.append(ax2)

        self.axis["top"].toggle(all=False)
        self.axis["top"].line.set_visible(True)

        ax2.axis["top"].set_visible(True)
        ax2.axis["left","right", "bottom"].toggle(all=False)
        ax2.axis["left","right", "bottom"].line.set_visible(False)

        ax2.axis["top"].toggle(all=True)
        ax2.axis["top"].line.set_visible(False)

        return ax2


    def twin(self, aux_trans=None, axes_class=None):
        """
        call signature::

          ax2 = ax.twin()

        create a twin of Axes for generating a plot with a sharex
        x-axis but independent y axis.  The y-axis of self will have
        ticks on left and the returned axes will have ticks on the
        right
        """

        if axes_class is None:
            axes_class = self._get_base_axes()

        parasite_axes_auxtrans_class = parasite_axes_auxtrans_class_factory(axes_class)

        if aux_trans is None:
            ax2 = parasite_axes_auxtrans_class(self, mtransforms.IdentityTransform(),
                                               viewlim_mode="equal",
                                               )
        else:
            ax2 = parasite_axes_auxtrans_class(self, aux_trans,
                                               viewlim_mode="transform",
                                               )
        self.parasites.append(ax2)


        # for normal axes
        #self.yaxis.tick_left()
        #self.xaxis.tick_bottom()
        #ax2.yaxis.tick_right()
        #ax2.xaxis.set_visible(True)
        #ax2.yaxis.set_visible(True)

        #ax2.yaxis.set_label_position('right')
        ##ax2.xaxis.tick_top()
        #ax2.xaxis.set_label_position('top')


        self.axis["top","right"].toggle(all=False)
        self.axis["top","right"].line.set_visible(False)
        #self.axis["left","bottom"].toggle(label=True)

        ax2.axis["top","right"].set_visible(True)

        ax2.axis["bottom","left"].toggle(all=False)
        ax2.axis["bottom","left"].line.set_visible(False)

        ax2.axis["top","right"].toggle(all=True)
        ax2.axis["top","right"].line.set_visible(True)


        # # for axisline axes
        # self._axislines["right"].set_visible(False)
        # self._axislines["top"].set_visible(False)
        # ax2._axislines["left"].set_visible(False)
        # ax2._axislines["bottom"].set_visible(False)

        # ax2._axislines["right"].set_visible(True)
        # ax2._axislines["top"].set_visible(True)
        # ax2._axislines["right"].major_ticklabels.set_visible(True)
        # ax2._axislines["top"].major_ticklabels.set_visible(True)

        return ax2

    def get_tightbbox(self, renderer, call_axes_locator=True):

        bbs = [ax.get_tightbbox(renderer, call_axes_locator) \
               for ax in self.parasites]
        get_tightbbox = self._get_base_axes_attr("get_tightbbox")
        bbs.append(get_tightbbox(self, renderer, call_axes_locator))

        _bbox = Bbox.union([b for b in bbs if b.width!=0 or b.height!=0])

        return _bbox



_host_axes_classes = {}
def host_axes_class_factory(axes_class=None):
    if axes_class is None:
        axes_class = Axes

    new_class = _host_axes_classes.get(axes_class)
    if new_class is None:
        def _get_base_axes(self):
            return axes_class

        def _get_base_axes_attr(self, attrname):
            return getattr(axes_class, attrname)

        new_class = type("%sHostAxes" % (axes_class.__name__),
                         (HostAxesBase, axes_class),
                         {'_get_base_axes_attr': _get_base_axes_attr,
                          '_get_base_axes': _get_base_axes})

        _host_axes_classes[axes_class] = new_class

    return new_class

def host_subplot_class_factory(axes_class):
    host_axes_class = host_axes_class_factory(axes_class=axes_class)
    subplot_host_class = subplot_class_factory(host_axes_class)
    return subplot_host_class

HostAxes = host_axes_class_factory(axes_class=Axes)
SubplotHost = subplot_class_factory(HostAxes)


def host_axes(*args, **kwargs):
    import matplotlib.pyplot as plt
    axes_class = kwargs.pop("axes_class", None)
    host_axes_class = host_axes_class_factory(axes_class)
    fig = plt.gcf()
    ax = host_axes_class(fig, *args, **kwargs)
    fig.add_axes(ax)
    plt.draw_if_interactive()
    return ax

def host_subplot(*args, **kwargs):
    import matplotlib.pyplot as plt
    axes_class = kwargs.pop("axes_class", None)
    host_subplot_class = host_subplot_class_factory(axes_class)
    fig = plt.gcf()
    ax = host_subplot_class(fig, *args, **kwargs)
    fig.add_subplot(ax)
    plt.draw_if_interactive()
    return ax