mpl_toolkits.axes_grid1.axes_divider.Divider

class mpl_toolkits.axes_grid1.axes_divider.Divider(fig, pos, horizontal, vertical, aspect=None, anchor='C')[source]

Bases: object

An Axes positioning class.

The divider is initialized with lists of horizontal and vertical sizes (mpl_toolkits.axes_grid1.axes_size) based on which a given rectangular area will be divided.

The new_locator method then creates a callable object that can be used as the axes_locator of the axes.

Parameters:
figFigure
postuple of 4 floats

Position of the rectangle that will be divided.

horizontallist of axes_size

Sizes for horizontal division.

verticallist of axes_size

Sizes for vertical division.

aspectbool

Whether overall rectangular area is reduced so that the relative part of the horizontal and vertical scales have the same scale.

anchor{'C', 'SW', 'S', 'SE', 'E', 'NE', 'N', 'NW', 'W'}

Placement of the reduced rectangle, when aspect is True.

__dict__ = mappingproxy({'__module__': 'mpl_toolkits.axes_grid1.axes_divider', '__doc__': '\n An Axes positioning class.\n\n The divider is initialized with lists of horizontal and vertical sizes\n (:mod:`mpl_toolkits.axes_grid1.axes_size`) based on which a given\n rectangular area will be divided.\n\n The `new_locator` method then creates a callable object\n that can be used as the *axes_locator* of the axes.\n ', '__init__': <function Divider.__init__>, 'get_horizontal_sizes': <function Divider.get_horizontal_sizes>, 'get_vertical_sizes': <function Divider.get_vertical_sizes>, 'get_vsize_hsize': <function Divider.get_vsize_hsize>, '_calc_k': <staticmethod object>, '_calc_offsets': <staticmethod object>, 'set_position': <function Divider.set_position>, 'get_position': <function Divider.get_position>, 'set_anchor': <function Divider.set_anchor>, 'get_anchor': <function Divider.get_anchor>, 'set_horizontal': <function Divider.set_horizontal>, 'get_horizontal': <function Divider.get_horizontal>, 'set_vertical': <function Divider.set_vertical>, 'get_vertical': <function Divider.get_vertical>, 'set_aspect': <function Divider.set_aspect>, 'get_aspect': <function Divider.get_aspect>, 'set_locator': <function Divider.set_locator>, 'get_locator': <function Divider.get_locator>, 'get_position_runtime': <function Divider.get_position_runtime>, 'locate': <function Divider.locate>, 'new_locator': <function Divider.new_locator>, 'append_size': <function Divider.append_size>, 'add_auto_adjustable_area': <function Divider.add_auto_adjustable_area>, '__dict__': <attribute '__dict__' of 'Divider' objects>, '__weakref__': <attribute '__weakref__' of 'Divider' objects>})
__init__(self, fig, pos, horizontal, vertical, aspect=None, anchor='C')[source]
Parameters:
figFigure
postuple of 4 floats

Position of the rectangle that will be divided.

horizontallist of axes_size

Sizes for horizontal division.

verticallist of axes_size

Sizes for vertical division.

aspectbool

Whether overall rectangular area is reduced so that the relative part of the horizontal and vertical scales have the same scale.

anchor{'C', 'SW', 'S', 'SE', 'E', 'NE', 'N', 'NW', 'W'}

Placement of the reduced rectangle, when aspect is True.

__module__ = 'mpl_toolkits.axes_grid1.axes_divider'
__weakref__

list of weak references to the object (if defined)

add_auto_adjustable_area(self, use_axes, pad=0.1, adjust_dirs=None)[source]
append_size(self, position, size)[source]
get_anchor(self)[source]

Return the anchor.

get_aspect(self)[source]

Return aspect.

get_horizontal(self)[source]

Return horizontal sizes.

get_horizontal_sizes(self, renderer)[source]
get_locator(self)[source]
get_position(self)[source]

Return the position of the rectangle.

get_position_runtime(self, ax, renderer)[source]
get_vertical(self)[source]

Return vertical sizes.

get_vertical_sizes(self, renderer)[source]
get_vsize_hsize(self)[source]
locate(self, nx, ny, nx1=None, ny1=None, axes=None, renderer=None)[source]
Parameters:
nx, nx1int

Integers specifying the column-position of the cell. When nx1 is None, a single nx-th column is specified. Otherwise location of columns spanning between nx to nx1 (but excluding nx1-th column) is specified.

ny, ny1int

Same as nx and nx1, but for row positions.

axes
renderer
new_locator(self, nx, ny, nx1=None, ny1=None)[source]

Return a new AxesLocator for the specified cell.

Parameters:
nx, nx1int

Integers specifying the column-position of the cell. When nx1 is None, a single nx-th column is specified. Otherwise location of columns spanning between nx to nx1 (but excluding nx1-th column) is specified.

ny, ny1int

Same as nx and nx1, but for row positions.

set_anchor(self, anchor)[source]
Parameters:
anchor{'C', 'SW', 'S', 'SE', 'E', 'NE', 'N', 'NW', 'W'}

anchor position

value description
'C' Center
'SW' bottom left
'S' bottom
'SE' bottom right
'E' right
'NE' top right
'N' top
'NW' top left
'W' left
set_aspect(self, aspect=False)[source]
Parameters:
aspectbool
set_horizontal(self, h)[source]
Parameters:
hlist of axes_size

sizes for horizontal division

set_locator(self, _locator)[source]
set_position(self, pos)[source]

Set the position of the rectangle.

Parameters:
postuple of 4 floats

position of the rectangle that will be divided

set_vertical(self, v)[source]
Parameters:
vlist of axes_size

sizes for vertical division

Examples using mpl_toolkits.axes_grid1.axes_divider.Divider