python-matplotlib 1.4.2-3.1 / usr / lib / python2.7 / dist-packages / mpl_toolkits / axes_grid1 / inset_locator.py

from __future__ import (absolute_import, division, print_function,
                        unicode_literals)

import six

from matplotlib.offsetbox import AnchoredOffsetbox
 #from matplotlib.transforms import IdentityTransform

import matplotlib.transforms as mtrans
from .parasite_axes import HostAxes  # subclasses mpl_axes

from matplotlib.transforms import Bbox, TransformedBbox, IdentityTransform

from matplotlib.patches import Patch
from matplotlib.path import Path

from matplotlib.patches import Rectangle


class InsetPosition(object):
    def __init__(self, parent, lbwh):
        self.parent = parent
        self.lbwh = lbwh  # position of the inset axes in
                          # the normalized coordinate of the parent axes

    def __call__(self, ax, renderer):
        bbox_parent = self.parent.get_position(original=False)
        trans = mtrans.BboxTransformTo(bbox_parent)
        bbox_inset = mtrans.Bbox.from_bounds(*self.lbwh)
        bb = mtrans.TransformedBbox(bbox_inset, trans)
        return bb


class AnchoredLocatorBase(AnchoredOffsetbox):
    def __init__(self, bbox_to_anchor, offsetbox, loc,
                 borderpad=0.5, bbox_transform=None):

        super(AnchoredLocatorBase, self).__init__(loc,
                                                  pad=0., child=None,
                                                  borderpad=borderpad,
                                                 bbox_to_anchor=bbox_to_anchor,
                                                 bbox_transform=bbox_transform)

    def draw(self, renderer):
        raise RuntimeError("No draw method should be called")

    def __call__(self, ax, renderer):

        fontsize = renderer.points_to_pixels(self.prop.get_size_in_points())
        self._update_offset_func(renderer, fontsize)

        width, height, xdescent, ydescent = self.get_extent(renderer)

        px, py = self.get_offset(width, height, 0, 0, renderer)
        bbox_canvas = mtrans.Bbox.from_bounds(px, py, width, height)
        tr = ax.figure.transFigure.inverted()
        bb = mtrans.TransformedBbox(bbox_canvas, tr)

        return bb

from . import axes_size as Size


class AnchoredSizeLocator(AnchoredLocatorBase):
    def __init__(self, bbox_to_anchor, x_size, y_size, loc,
                 borderpad=0.5, bbox_transform=None):
        self.axes = None
        self.x_size = Size.from_any(x_size)
        self.y_size = Size.from_any(y_size)

        super(AnchoredSizeLocator, self).__init__(bbox_to_anchor, None, loc,
                                                 borderpad=borderpad,
                                                 bbox_transform=bbox_transform)

    def get_extent(self, renderer):

        x, y, w, h = self.get_bbox_to_anchor().bounds

        dpi = renderer.points_to_pixels(72.)

        r, a = self.x_size.get_size(renderer)
        width = w*r + a*dpi

        r, a = self.y_size.get_size(renderer)
        height = h*r + a*dpi
        xd, yd = 0, 0

        fontsize = renderer.points_to_pixels(self.prop.get_size_in_points())
        pad = self.pad * fontsize

        return width+2*pad, height+2*pad, xd+pad, yd+pad

    def __call__(self, ax, renderer):

        self.axes = ax
        return super(AnchoredSizeLocator, self).__call__(ax, renderer)


class AnchoredZoomLocator(AnchoredLocatorBase):
    def __init__(self, parent_axes, zoom, loc,
                  borderpad=0.5,
                 bbox_to_anchor=None,
                 bbox_transform=None):

        self.parent_axes = parent_axes
        self.zoom = zoom

        if bbox_to_anchor is None:
            bbox_to_anchor = parent_axes.bbox

        super(AnchoredZoomLocator, self).__init__(bbox_to_anchor, None, loc,
                                                 borderpad=borderpad,
                                                 bbox_transform=bbox_transform)

        self.axes = None

    def get_extent(self, renderer):

        bb = mtrans.TransformedBbox(self.axes.viewLim,
                                    self.parent_axes.transData)

        x, y, w, h = bb.bounds

        xd, yd = 0, 0

        fontsize = renderer.points_to_pixels(self.prop.get_size_in_points())
        pad = self.pad * fontsize

        return w*self.zoom+2*pad, h*self.zoom+2*pad, xd+pad, yd+pad

    def __call__(self, ax, renderer):
        self.axes = ax
        return super(AnchoredZoomLocator, self).__call__(ax, renderer)


class BboxPatch(Patch):
    def __init__(self, bbox, **kwargs):
        if "transform" in kwargs:
            raise ValueError("transform should not be set")

        kwargs["transform"] = IdentityTransform()
        Patch.__init__(self, **kwargs)
        self.bbox = bbox

    def get_path(self):
        x0, y0, x1, y1 = self.bbox.extents

        verts = [(x0, y0),
                 (x1, y0),
                 (x1, y1),
                 (x0, y1),
                 (x0, y0),
                 (0, 0)]

        codes = [Path.MOVETO,
                 Path.LINETO,
                 Path.LINETO,
                 Path.LINETO,
                 Path.LINETO,
                 Path.CLOSEPOLY]

        return Path(verts, codes)


class BboxConnector(Patch):

    @staticmethod
    def get_bbox_edge_pos(bbox, loc):
        x0, y0, x1, y1 = bbox.extents
        if loc == 1:
            return x1, y1
        elif loc == 2:
            return x0, y1
        elif loc == 3:
            return x0, y0
        elif loc == 4:
            return x1, y0

    @staticmethod
    def connect_bbox(bbox1, bbox2, loc1, loc2=None):
        if isinstance(bbox1, Rectangle):
            transform = bbox1.get_transfrom()
            bbox1 = Bbox.from_bounds(0, 0, 1, 1)
            bbox1 = TransformedBbox(bbox1, transform)

        if isinstance(bbox2, Rectangle):
            transform = bbox2.get_transform()
            bbox2 = Bbox.from_bounds(0, 0, 1, 1)
            bbox2 = TransformedBbox(bbox2, transform)

        if loc2 is None:
            loc2 = loc1

        x1, y1 = BboxConnector.get_bbox_edge_pos(bbox1, loc1)
        x2, y2 = BboxConnector.get_bbox_edge_pos(bbox2, loc2)

        verts = [[x1, y1], [x2, y2]]
        #Path()

        codes = [Path.MOVETO, Path.LINETO]

        return Path(verts, codes)

    def __init__(self, bbox1, bbox2, loc1, loc2=None, **kwargs):
        """
        *path* is a :class:`matplotlib.path.Path` object.

        Valid kwargs are:
        %(Patch)s

        .. seealso::

            :class:`Patch`
                For additional kwargs

        """
        if "transform" in kwargs:
            raise ValueError("transform should not be set")

        kwargs["transform"] = IdentityTransform()
        Patch.__init__(self, **kwargs)
        self.bbox1 = bbox1
        self.bbox2 = bbox2
        self.loc1 = loc1
        self.loc2 = loc2

    def get_path(self):
        return self.connect_bbox(self.bbox1, self.bbox2,
                                 self.loc1, self.loc2)


class BboxConnectorPatch(BboxConnector):

    def __init__(self, bbox1, bbox2, loc1a, loc2a, loc1b, loc2b, **kwargs):
        if "transform" in kwargs:
            raise ValueError("transform should not be set")
        BboxConnector.__init__(self, bbox1, bbox2, loc1a, loc2a, **kwargs)
        self.loc1b = loc1b
        self.loc2b = loc2b

    def get_path(self):
        path1 = self.connect_bbox(self.bbox1, self.bbox2, self.loc1, self.loc2)
        path2 = self.connect_bbox(self.bbox2, self.bbox1,
                                  self.loc2b, self.loc1b)
        path_merged = (list(path1.vertices) +
                       list(path2.vertices) +
                       [path1.vertices[0]])
        return Path(path_merged)


def _add_inset_axes(parent_axes, inset_axes):
    parent_axes.figure.add_axes(inset_axes)
    inset_axes.set_navigate(False)


def inset_axes(parent_axes, width, height, loc=1,
                bbox_to_anchor=None, bbox_transform=None,
                axes_class=None,
                axes_kwargs=None,
                **kwargs):

    if axes_class is None:
        axes_class = HostAxes

    if axes_kwargs is None:
        inset_axes = axes_class(parent_axes.figure, parent_axes.get_position())
    else:
        inset_axes = axes_class(parent_axes.figure, parent_axes.get_position(),
                               **axes_kwargs)

    if bbox_to_anchor is None:
        bbox_to_anchor = parent_axes.bbox

    axes_locator = AnchoredSizeLocator(bbox_to_anchor,
                                       width, height,
                                       loc=loc,
                                       bbox_transform=bbox_transform,
                                       **kwargs)

    inset_axes.set_axes_locator(axes_locator)

    _add_inset_axes(parent_axes, inset_axes)

    return inset_axes


def zoomed_inset_axes(parent_axes, zoom, loc=1,
                       bbox_to_anchor=None, bbox_transform=None,
                       axes_class=None,
                       axes_kwargs=None,
                       **kwargs):

    if axes_class is None:
        axes_class = HostAxes

    if axes_kwargs is None:
        inset_axes = axes_class(parent_axes.figure, parent_axes.get_position())
    else:
        inset_axes = axes_class(parent_axes.figure, parent_axes.get_position(),
                               **axes_kwargs)

    axes_locator = AnchoredZoomLocator(parent_axes, zoom=zoom, loc=loc,
                                       bbox_to_anchor=bbox_to_anchor,
                                       bbox_transform=bbox_transform,
                                       **kwargs)
    inset_axes.set_axes_locator(axes_locator)

    _add_inset_axes(parent_axes, inset_axes)

    return inset_axes


def mark_inset(parent_axes, inset_axes, loc1, loc2, **kwargs):
    rect = TransformedBbox(inset_axes.viewLim, parent_axes.transData)

    pp = BboxPatch(rect, **kwargs)
    parent_axes.add_patch(pp)

    p1 = BboxConnector(inset_axes.bbox, rect, loc1=loc1, **kwargs)
    inset_axes.add_patch(p1)
    p1.set_clip_on(False)
    p2 = BboxConnector(inset_axes.bbox, rect, loc1=loc2, **kwargs)
    inset_axes.add_patch(p2)
    p2.set_clip_on(False)

    return pp, p1, p2