projektAI/venv/Lib/site-packages/mpl_toolkits/axes_grid1/axes_size.py

"""
Provides classes of simple units that will be used with AxesDivider
class (or others) to determine the size of each axes. The unit
classes define `get_size` method that returns a tuple of two floats,
meaning relative and absolute sizes, respectively.

Note that this class is nothing more than a simple tuple of two
floats. Take a look at the Divider class to see how these two
values are used.
"""

from numbers import Number

from matplotlib import _api
from matplotlib.axes import Axes


class _Base:

    def __rmul__(self, other):
        return Fraction(other, self)

    def __add__(self, other):
        if isinstance(other, _Base):
            return Add(self, other)
        else:
            return Add(self, Fixed(other))


class Add(_Base):
    def __init__(self, a, b):
        self._a = a
        self._b = b

    def get_size(self, renderer):
        a_rel_size, a_abs_size = self._a.get_size(renderer)
        b_rel_size, b_abs_size = self._b.get_size(renderer)
        return a_rel_size + b_rel_size, a_abs_size + b_abs_size


class AddList(_Base):
    def __init__(self, add_list):
        self._list = add_list

    def get_size(self, renderer):
        sum_rel_size = sum([a.get_size(renderer)[0] for a in self._list])
        sum_abs_size = sum([a.get_size(renderer)[1] for a in self._list])
        return sum_rel_size, sum_abs_size


class Fixed(_Base):
    """
    Simple fixed size with absolute part = *fixed_size* and relative part = 0.
    """

    def __init__(self, fixed_size):
        _api.check_isinstance(Number, fixed_size=fixed_size)
        self.fixed_size = fixed_size

    def get_size(self, renderer):
        rel_size = 0.
        abs_size = self.fixed_size
        return rel_size, abs_size


class Scaled(_Base):
    """
    Simple scaled(?) size with absolute part = 0 and
    relative part = *scalable_size*.
    """

    def __init__(self, scalable_size):
        self._scalable_size = scalable_size

    def get_size(self, renderer):
        rel_size = self._scalable_size
        abs_size = 0.
        return rel_size, abs_size

Scalable = Scaled


def _get_axes_aspect(ax):
    aspect = ax.get_aspect()
    if aspect == "auto":
        aspect = 1.
    return aspect


class AxesX(_Base):
    """
    Scaled size whose relative part corresponds to the data width
    of the *axes* multiplied by the *aspect*.
    """

    def __init__(self, axes, aspect=1., ref_ax=None):
        self._axes = axes
        self._aspect = aspect
        if aspect == "axes" and ref_ax is None:
            raise ValueError("ref_ax must be set when aspect='axes'")
        self._ref_ax = ref_ax

    def get_size(self, renderer):
        l1, l2 = self._axes.get_xlim()
        if self._aspect == "axes":
            ref_aspect = _get_axes_aspect(self._ref_ax)
            aspect = ref_aspect / _get_axes_aspect(self._axes)
        else:
            aspect = self._aspect

        rel_size = abs(l2-l1)*aspect
        abs_size = 0.
        return rel_size, abs_size


class AxesY(_Base):
    """
    Scaled size whose relative part corresponds to the data height
    of the *axes* multiplied by the *aspect*.
    """

    def __init__(self, axes, aspect=1., ref_ax=None):
        self._axes = axes
        self._aspect = aspect
        if aspect == "axes" and ref_ax is None:
            raise ValueError("ref_ax must be set when aspect='axes'")
        self._ref_ax = ref_ax

    def get_size(self, renderer):
        l1, l2 = self._axes.get_ylim()

        if self._aspect == "axes":
            ref_aspect = _get_axes_aspect(self._ref_ax)
            aspect = _get_axes_aspect(self._axes)
        else:
            aspect = self._aspect

        rel_size = abs(l2-l1)*aspect
        abs_size = 0.
        return rel_size, abs_size


class MaxExtent(_Base):
    """
    Size whose absolute part is either the largest width or the largest height
    of the given *artist_list*.
    """

    def __init__(self, artist_list, w_or_h):
        self._artist_list = artist_list
        _api.check_in_list(["width", "height"], w_or_h=w_or_h)
        self._w_or_h = w_or_h

    def add_artist(self, a):
        self._artist_list.append(a)

    def get_size(self, renderer):
        rel_size = 0.
        extent_list = [
            getattr(a.get_window_extent(renderer), self._w_or_h) / a.figure.dpi
            for a in self._artist_list]
        abs_size = max(extent_list, default=0)
        return rel_size, abs_size


class MaxWidth(MaxExtent):
    """
    Size whose absolute part is the largest width of the given *artist_list*.
    """

    def __init__(self, artist_list):
        super().__init__(artist_list, "width")


class MaxHeight(MaxExtent):
    """
    Size whose absolute part is the largest height of the given *artist_list*.
    """

    def __init__(self, artist_list):
        super().__init__(artist_list, "height")


class Fraction(_Base):
    """
    An instance whose size is a *fraction* of the *ref_size*.

    >>> s = Fraction(0.3, AxesX(ax))
    """

    def __init__(self, fraction, ref_size):
        _api.check_isinstance(Number, fraction=fraction)
        self._fraction_ref = ref_size
        self._fraction = fraction

    def get_size(self, renderer):
        if self._fraction_ref is None:
            return self._fraction, 0.
        else:
            r, a = self._fraction_ref.get_size(renderer)
            rel_size = r*self._fraction
            abs_size = a*self._fraction
            return rel_size, abs_size


class Padded(_Base):
    """
    Return a instance where the absolute part of *size* is
    increase by the amount of *pad*.
    """

    def __init__(self, size, pad):
        self._size = size
        self._pad = pad

    def get_size(self, renderer):
        r, a = self._size.get_size(renderer)
        rel_size = r
        abs_size = a + self._pad
        return rel_size, abs_size


def from_any(size, fraction_ref=None):
    """
    Create a Fixed unit when the first argument is a float, or a
    Fraction unit if that is a string that ends with %. The second
    argument is only meaningful when Fraction unit is created.

    >>> a = Size.from_any(1.2) # => Size.Fixed(1.2)
    >>> Size.from_any("50%", a) # => Size.Fraction(0.5, a)
    """
    if isinstance(size, Number):
        return Fixed(size)
    elif isinstance(size, str):
        if size[-1] == "%":
            return Fraction(float(size[:-1]) / 100, fraction_ref)
    raise ValueError("Unknown format")


class SizeFromFunc(_Base):
    def __init__(self, func):
        self._func = func

    def get_size(self, renderer):
        rel_size = 0.

        bb = self._func(renderer)
        dpi = renderer.points_to_pixels(72.)
        abs_size = bb/dpi

        return rel_size, abs_size


class GetExtentHelper:
    _get_func_map = {
        "left":   lambda self, axes_bbox: axes_bbox.xmin - self.xmin,
        "right":  lambda self, axes_bbox: self.xmax - axes_bbox.xmax,
        "bottom": lambda self, axes_bbox: axes_bbox.ymin - self.ymin,
        "top":    lambda self, axes_bbox: self.ymax - axes_bbox.ymax,
    }

    def __init__(self, ax, direction):
        _api.check_in_list(self._get_func_map, direction=direction)
        self._ax_list = [ax] if isinstance(ax, Axes) else ax
        self._direction = direction

    def __call__(self, renderer):
        get_func = self._get_func_map[self._direction]
        vl = [get_func(ax.get_tightbbox(renderer, call_axes_locator=False),
                       ax.bbox)
              for ax in self._ax_list]
        return max(vl)
Działa 2021-06-06 22:13:05 +02:00			`"""`
			`Provides classes of simple units that will be used with AxesDivider`
			`class (or others) to determine the size of each axes. The unit`
			classes define `get_size` method that returns a tuple of two floats,
			`meaning relative and absolute sizes, respectively.`

			`Note that this class is nothing more than a simple tuple of two`
			`floats. Take a look at the Divider class to see how these two`
			`values are used.`
			`"""`

			`from numbers import Number`

			`from matplotlib import _api`
			`from matplotlib.axes import Axes`


			`class _Base:`

			`def __rmul__(self, other):`
			`return Fraction(other, self)`

			`def __add__(self, other):`
			`if isinstance(other, _Base):`
			`return Add(self, other)`
			`else:`
			`return Add(self, Fixed(other))`


			`class Add(_Base):`
			`def __init__(self, a, b):`
			`self._a = a`
			`self._b = b`

			`def get_size(self, renderer):`
			`a_rel_size, a_abs_size = self._a.get_size(renderer)`
			`b_rel_size, b_abs_size = self._b.get_size(renderer)`
			`return a_rel_size + b_rel_size, a_abs_size + b_abs_size`


			`class AddList(_Base):`
			`def __init__(self, add_list):`
			`self._list = add_list`

			`def get_size(self, renderer):`
			`sum_rel_size = sum([a.get_size(renderer)[0] for a in self._list])`
			`sum_abs_size = sum([a.get_size(renderer)[1] for a in self._list])`
			`return sum_rel_size, sum_abs_size`


			`class Fixed(_Base):`
			`"""`
			`Simple fixed size with absolute part = fixed_size and relative part = 0.`
			`"""`

			`def __init__(self, fixed_size):`
			`_api.check_isinstance(Number, fixed_size=fixed_size)`
			`self.fixed_size = fixed_size`

			`def get_size(self, renderer):`
			`rel_size = 0.`
			`abs_size = self.fixed_size`
			`return rel_size, abs_size`


			`class Scaled(_Base):`
			`"""`
			`Simple scaled(?) size with absolute part = 0 and`
			`relative part = scalable_size.`
			`"""`

			`def __init__(self, scalable_size):`
			`self._scalable_size = scalable_size`

			`def get_size(self, renderer):`
			`rel_size = self._scalable_size`
			`abs_size = 0.`
			`return rel_size, abs_size`

			`Scalable = Scaled`


			`def _get_axes_aspect(ax):`
			`aspect = ax.get_aspect()`
			`if aspect == "auto":`
			`aspect = 1.`
			`return aspect`


			`class AxesX(_Base):`
			`"""`
			`Scaled size whose relative part corresponds to the data width`
			`of the axes multiplied by the aspect.`
			`"""`

			`def __init__(self, axes, aspect=1., ref_ax=None):`
			`self._axes = axes`
			`self._aspect = aspect`
			`if aspect == "axes" and ref_ax is None:`
			`raise ValueError("ref_ax must be set when aspect='axes'")`
			`self._ref_ax = ref_ax`

			`def get_size(self, renderer):`
			`l1, l2 = self._axes.get_xlim()`
			`if self._aspect == "axes":`
			`ref_aspect = _get_axes_aspect(self._ref_ax)`
			`aspect = ref_aspect / _get_axes_aspect(self._axes)`
			`else:`
			`aspect = self._aspect`

			`rel_size = abs(l2-l1)*aspect`
			`abs_size = 0.`
			`return rel_size, abs_size`


			`class AxesY(_Base):`
			`"""`
			`Scaled size whose relative part corresponds to the data height`
			`of the axes multiplied by the aspect.`
			`"""`

			`def __init__(self, axes, aspect=1., ref_ax=None):`
			`self._axes = axes`
			`self._aspect = aspect`
			`if aspect == "axes" and ref_ax is None:`
			`raise ValueError("ref_ax must be set when aspect='axes'")`
			`self._ref_ax = ref_ax`

			`def get_size(self, renderer):`
			`l1, l2 = self._axes.get_ylim()`

			`if self._aspect == "axes":`
			`ref_aspect = _get_axes_aspect(self._ref_ax)`
			`aspect = _get_axes_aspect(self._axes)`
			`else:`
			`aspect = self._aspect`

			`rel_size = abs(l2-l1)*aspect`
			`abs_size = 0.`
			`return rel_size, abs_size`


			`class MaxExtent(_Base):`
			`"""`
			`Size whose absolute part is either the largest width or the largest height`
			`of the given artist_list.`
			`"""`

			`def __init__(self, artist_list, w_or_h):`
			`self._artist_list = artist_list`
			`_api.check_in_list(["width", "height"], w_or_h=w_or_h)`
			`self._w_or_h = w_or_h`

			`def add_artist(self, a):`
			`self._artist_list.append(a)`

			`def get_size(self, renderer):`
			`rel_size = 0.`
			`extent_list = [`
			`getattr(a.get_window_extent(renderer), self._w_or_h) / a.figure.dpi`
			`for a in self._artist_list]`
			`abs_size = max(extent_list, default=0)`
			`return rel_size, abs_size`


			`class MaxWidth(MaxExtent):`
			`"""`
			`Size whose absolute part is the largest width of the given artist_list.`
			`"""`

			`def __init__(self, artist_list):`
			`super().__init__(artist_list, "width")`


			`class MaxHeight(MaxExtent):`
			`"""`
			`Size whose absolute part is the largest height of the given artist_list.`
			`"""`

			`def __init__(self, artist_list):`
			`super().__init__(artist_list, "height")`


			`class Fraction(_Base):`
			`"""`
			`An instance whose size is a fraction of the ref_size.`

			`>>> s = Fraction(0.3, AxesX(ax))`
			`"""`

			`def __init__(self, fraction, ref_size):`
			`_api.check_isinstance(Number, fraction=fraction)`
			`self._fraction_ref = ref_size`
			`self._fraction = fraction`

			`def get_size(self, renderer):`
			`if self._fraction_ref is None:`
			`return self._fraction, 0.`
			`else:`
			`r, a = self._fraction_ref.get_size(renderer)`
			`rel_size = r*self._fraction`
			`abs_size = a*self._fraction`
			`return rel_size, abs_size`


			`class Padded(_Base):`
			`"""`
			`Return a instance where the absolute part of size is`
			`increase by the amount of pad.`
			`"""`

			`def __init__(self, size, pad):`
			`self._size = size`
			`self._pad = pad`

			`def get_size(self, renderer):`
			`r, a = self._size.get_size(renderer)`
			`rel_size = r`
			`abs_size = a + self._pad`
			`return rel_size, abs_size`


			`def from_any(size, fraction_ref=None):`
			`"""`
			`Create a Fixed unit when the first argument is a float, or a`
			`Fraction unit if that is a string that ends with %. The second`
			`argument is only meaningful when Fraction unit is created.`

			`>>> a = Size.from_any(1.2) # => Size.Fixed(1.2)`
			`>>> Size.from_any("50%", a) # => Size.Fraction(0.5, a)`
			`"""`
			`if isinstance(size, Number):`
			`return Fixed(size)`
			`elif isinstance(size, str):`
			`if size[-1] == "%":`
			`return Fraction(float(size[:-1]) / 100, fraction_ref)`
			`raise ValueError("Unknown format")`


			`class SizeFromFunc(_Base):`
			`def __init__(self, func):`
			`self._func = func`

			`def get_size(self, renderer):`
			`rel_size = 0.`

			`bb = self._func(renderer)`
			`dpi = renderer.points_to_pixels(72.)`
			`abs_size = bb/dpi`

			`return rel_size, abs_size`


			`class GetExtentHelper:`
			`_get_func_map = {`
			`"left": lambda self, axes_bbox: axes_bbox.xmin - self.xmin,`
			`"right": lambda self, axes_bbox: self.xmax - axes_bbox.xmax,`
			`"bottom": lambda self, axes_bbox: axes_bbox.ymin - self.ymin,`
			`"top": lambda self, axes_bbox: self.ymax - axes_bbox.ymax,`
			`}`

			`def __init__(self, ax, direction):`
			`_api.check_in_list(self._get_func_map, direction=direction)`
			`self._ax_list = [ax] if isinstance(ax, Axes) else ax`
			`self._direction = direction`

			`def __call__(self, renderer):`
			`get_func = self._get_func_map[self._direction]`
			`vl = [get_func(ax.get_tightbbox(renderer, call_axes_locator=False),`
			`ax.bbox)`
			`for ax in self._ax_list]`
			`return max(vl)`