"""This module implements the dantro PlotHelper class, which aims to abstract
matplotlib plot operations such that they can be made accessible for a
configuration-based declaration."""
import copy
import logging
import os
from collections import defaultdict
from itertools import product
from typing import Callable, Dict, Generator, Sequence, Tuple, Union
import numpy as np
from paramspace.tools import recursive_replace
from .._import_tools import LazyLoader
from .._import_tools import resolve_lazy_imports as _resolve_lazy_imports
from ..exceptions import *
from ..tools import make_columns, recursive_update
from .utils.mpl import *
# Local constants and lazy loading modules that take a long time to import
log = logging.getLogger(__name__)
mpl = LazyLoader("matplotlib")
sns = LazyLoader("seaborn")
# NOTE matplotlib.pyplot is included on demand because lazy-loading is
# somewhat unreliable for that module
# -----------------------------------------------------------------------------
[docs]class temporarily_changed_axis:
"""Context manager to temporarily change an axis in the
:py:class:`.PlotHelper`.
"""
[docs] def __init__(
self, hlpr: "PlotHelper", tmp_ax_coords: Tuple[int, int] = None
):
"""Initialize the context manager.
Args:
hlpr (PlotHelper): The plot helper of which to select a temporary
axis
tmp_ax_coords (Tuple[int], optional): The coordinates of the
temporary axis. If not given, will **not** change the axis.
"""
self._hlpr = hlpr
self._tmp_ax_coords = tmp_ax_coords
self._old_ax_coords = None
[docs] def __enter__(self):
"""Enter the context, selecting a temporary axis"""
# Store the current axis' coordinates
self._old_ax_coords = self._hlpr.ax_coords
# If it needs to be changed, do it.
if (
self._tmp_ax_coords is not None
and self._tmp_ax_coords != self._old_ax_coords
):
log.debug(
"Temporarily changing from axis %s to %s ...",
self._old_ax_coords,
self._tmp_ax_coords,
)
self._hlpr.select_axis(*self._tmp_ax_coords)
else:
log.trace("No need to change current axis.")
[docs] def __exit__(self, *args):
"""Change back to the initial axis. Errors are not handled."""
if self._old_ax_coords != self._hlpr.ax_coords:
log.debug("Changing back to axis %s ...", self._old_ax_coords)
self._hlpr.select_axis(*self._old_ax_coords)
[docs]def _coords_match(
coords: Tuple[int], *, match: Union[tuple, str], full_shape: Tuple[int]
) -> bool:
"""Whether a coordinate is matched by a coordinate match tuple.
Allowed values in the coordinate match tuple are:
* integers: regarded as coordinates. If negative or exceeding the full
shape, these are wrapped around.
* Ellipsis: matches all coordinates
* None: alias for Ellipsis
Args:
coords (Tuple[int]): The coordinate to match
match (Union[tuple, str]): The match tuple, where None is
interpreted as an Ellipsis and negative values are wrapped around
by ``full_shape``. Can also be 'all', which is equivalent to a
(None, None) tuple. Can also be a list, which is then converted to
a tuple.
full_shape (Tuple[int]): The full shape of the axes; needed to wrap
around negative values in ``match``.
Returns:
bool: Whether ``coords`` matches ``match``
Raises:
TypeError: ``match`` not being a tuple or a list
ValueError: Any of the arguments not being 2-tuples.
"""
# Convert the 'all argument'
match = match if match != "all" else (Ellipsis, Ellipsis)
# Make sure it is a tuple, allowing conversion from lists
if isinstance(match, list):
match = tuple(match)
elif not isinstance(match, tuple):
raise TypeError(
"Argument `match` needs to be a 2-tuple, list, or a "
f"string, but was {type(match)} with value '{match}'!"
)
# Convert any Nones to Ellipsis
match = tuple(m if m is not None else Ellipsis for m in match)
# Check length and values, not allowing values exceeding the shape
if any([len(t) != 2 for t in (coords, match, full_shape)]):
raise ValueError(
"Need 2-tuples for arguments, got {}, {}, and {}!".format(
coords, match, full_shape
)
)
elif not all([m is Ellipsis or m < s for m, s in zip(match, full_shape)]):
raise ValueError(
f"Got match values {match} exceeding the shape {full_shape}! Take "
"care that all values are strictly smaller than the "
"maximum value. Negative values are allowed and will "
"be evaluated via a modulo operation."
)
for c, m, s in zip(coords, match, full_shape):
if m is Ellipsis:
# Always matches
continue
if (m % s) != c:
# No match
return False
# Went through -> have a match
return True
# -----------------------------------------------------------------------------
# -----------------------------------------------------------------------------
# -----------------------------------------------------------------------------
[docs]class PlotHelper:
"""The PlotHelper takes care of the figure setup and saving and allows
accessing matplotlib utilities through the plot configuration.
"""
_SPECIAL_CFG_KEYS: Tuple[str] = ("setup_figure", "save_figure")
"""Configuration keys with special meaning"""
_FIGURE_HELPERS: Tuple[str] = (
"align_labels",
"set_suptitle",
"set_figlegend",
"subplots_adjust",
"figcall",
)
"""Names of those helpers that are applied on the figure level"""
[docs] def __init__(
self,
*,
out_path: str,
helper_defaults: dict = None,
update_helper_cfg: dict = None,
raise_on_error: bool = True,
animation_enabled: bool = False,
):
"""Initialize a PlotHelper with a certain configuration.
This configuration is the so-called "base" configuration and is not
axis-specific. There is the possibility to specify axis-specific
configuration entries.
All entries in the helper configuration are deemed 'enabled' unless
they explicitly specify ``enabled: false`` in their configuration.
Args:
out_path (str): path to store the created figure. This may be an
absolute path or a relative path; the latter is regarded as
relative to the current working directory. The home directory
indicator ``~`` is expanded.
helper_defaults (dict, optional): The basic configuration of the
helpers.
update_helper_cfg (dict, optional): A configuration used to update
the existing helper defaults
raise_on_error (bool, optional): Whether to raise on an exception
created on helper invocation or just log the error
animation_enabled (bool, optional): Whether animation mode is
enabled.
"""
# Determine available helper methods, store it as tuple
self._AVAILABLE_HELPERS = [
attr_name[6:]
for attr_name in dir(self)
if attr_name.startswith("_hlpr_")
and callable(getattr(self, attr_name))
]
self._AVAILABLE_HELPERS = tuple(self._AVAILABLE_HELPERS)
# Store (a copy of) the base configuration
self._base_cfg = (
copy.deepcopy(helper_defaults) if helper_defaults else {}
)
# Update the defaults
if update_helper_cfg:
self._base_cfg = recursive_update(
self._base_cfg, copy.deepcopy(update_helper_cfg)
)
# Extract the axis-specific update list
self._axis_specific_updates = self._base_cfg.pop("axis_specific", {})
# Check that all remaining entries are valid keys
self._raise_on_invalid_helper_name(
*self._base_cfg.keys(), special_cfg_keys_allowed=True
)
# Initialize the actual axis-specific configuration empty; it can only
# be compiled once the figure is created.
self._cfg = None
# Store the other attributes
self._out_path = os.path.expanduser(out_path)
self._raise_on_error = raise_on_error
self._animation_enabled = animation_enabled
# Initialize attributes that are set at a later point
self._fig = None
self._axes = None
self._current_ax_coords = None
self._animation_update = None
self._invoke_before_grab = False
# Storage of figure-level and axis-level objects or attributes
self._additional_axes = None
self._handles_labels = defaultdict(dict)
self._figlegend = None
self._attrs = dict()
self._ax_attrs = dict()
log.debug("PlotHelper initialized.")
# .. Properties ...........................................................
@property
def _axis_cfg(self) -> dict:
"""Return the configuration for the current axis; not a deep copy!"""
try:
return self._cfg[self.ax_coords]
except RuntimeError as err:
raise RuntimeError(
"The axis-specific configuration is only available while a "
"figure is associated with the PlotHelper!"
) from err
@property
def axis_cfg(self) -> dict:
"""Returns a deepcopy of the current axis' configuration."""
return copy.deepcopy(self._axis_cfg)
@property
def base_cfg(self) -> dict:
"""Returns a deepcopy of the base configuration, i.e. the configuration
that is *not* axis-specific.
"""
return copy.deepcopy(self._base_cfg)
@property
def fig(self) -> "matplotlib.figure.Figure":
"""Returns the current figure"""
if self._fig is None:
raise ValueError(
"No figure initialized or already closed! Use "
"the `setup_figure` method to create a figure "
"instance."
)
return self._fig
@property
def ax(self) -> "matplotlib.axis.Axis":
"""Returns the current axis of the associated figure"""
return self.fig.gca()
@property
def ax_coords(self) -> Tuple[int]:
"""Returns the current axis coordinates within a subfigure in shape
``(col, row)``.
For example, the ``(0, 0)`` coordinate refers to the top left subplot
of the figure. ``(1, 2)`` is the axis object in the second column,
third row.
"""
if self._current_ax_coords is None:
raise RuntimeError(
"The current axis coordinate is only defined "
"while a figure is associated with the "
"PlotHelper!"
)
return self._current_ax_coords
# NOTE There _would_ be the possiblity to use the matplotlib axis
# properties self.ax.numCol and .numRow, which store the column
# and row the axis was created in via plt.subplots. However, that
# that information gets lost as soon as an additional axis is
# added to the figure, e.g. when adding a color bar. Thus, the
# current axis coordinates need to be stored in an attribute.
@property
def axes(self) -> np.ndarray:
"""Returns the axes array, which is of shape ``(#cols, #rows)``.
The (0, 0) axis refers to the top left subplot of the figure.
"""
return self._axes
@property
def available_helpers(self) -> Tuple[str]:
"""List of available helper names"""
return self._AVAILABLE_HELPERS
@property
def enabled_helpers(self) -> list:
"""Returns a list of enabled helpers *for the current axis*"""
return [
helper_name
for helper_name in self._axis_cfg
if self._axis_cfg[helper_name].get("enabled", True)
and helper_name
not in (self._SPECIAL_CFG_KEYS + self._FIGURE_HELPERS)
]
@property
def enabled_figure_helpers(self) -> list:
"""Returns a list of enabled figure-level helpers"""
return [
helper_name
for helper_name in self._base_cfg
if self._base_cfg[helper_name].get("enabled", True)
and helper_name in self._FIGURE_HELPERS
]
@property
def out_path(self) -> str:
"""Returns the output path of the plot"""
return self._out_path
@property
def animation_enabled(self) -> bool:
"""Whether animation mode is currently enabled or not"""
return self._animation_enabled
@property
def animation_update(self) -> Callable:
"""Returns the animation update generator callable"""
if self._animation_update is None:
raise ValueError(
"No animation update generator was registered "
"with the PlotHelper! Cannot perform animation "
"update."
)
return self._animation_update
@property
def invoke_before_grab(self) -> bool:
"""Whether the helpers are to be invoked before grabbing each frame of
an animation.
"""
return self._invoke_before_grab
@property
def raise_on_error(self) -> bool:
"""Whether the PlotHelper was configured to raise exceptions"""
return self._raise_on_error
@property
def axis_handles_labels(self) -> Tuple[list, list]:
"""Returns the tracked axis handles and labels for the current axis"""
return (
self._handles_labels[self.ax_coords].get("handles", []),
self._handles_labels[self.ax_coords].get("labels", []),
)
@property
def all_handles_labels(self) -> Tuple[list, list]:
"""Returns all associated handles and labels"""
handles, labels = [], []
for hl in self._handles_labels.values():
handles += hl.get("handles", [])
labels += hl.get("labels", [])
return handles, labels
@property
def axis_is_empty(self) -> bool:
"""Returns true if the current axis is empty, i.e. has no artists added
to it: Basically, negation of :py:meth:`matplotlib.axes.Axes.has_data`.
"""
return not self.ax.has_data()
# .. Figure setup and axis control ........................................
[docs] def select_axis(self, col: int = None, row: int = None, *, ax=None):
"""Sets the current axis.
Setting the axis can happen in three ways, depending on the arguments:
- The axis object at the given ``col`` and ``row`` coordinates.
- An explicitly given axis object (if ``ax`` is given)
- The current axis (if all arguments are None)
This method can be used to change to a different associated axis to
continue plotting on that axis.
Calling this method may also become necessary if the current axis is
changed in a part of the program where the plot helper is not
involved; in such a case, the currently selected axis may have been
changed directly via the matplotlib interface.
This method can then be used to synchronize the two again.
.. note::
The ``col`` and ``row`` values are wrapped around according to the
shape of the associated ``axes`` array, thereby allowing to specify
them as negative values for indexing from the back.
Args:
col (int, optional): The column to select, i.e. the x-coordinate.
Can be negative, in which case it indexes backwards from the
last column.
row (int, optional): The row to select, i.e. the y-coordinate. Can
be negative, in which case it indexes backwards from the last
row.
ax (optional): If given this axis object, tries to look it up from
the associated axes array.
Raises:
ValueError: On failing to set the current axis or if the given axis
object or the result of :py:func:`matplotlib.pyplot.gca` was
not part of the associated axes array.
To associate the correct figure and axes, use the
:py:meth:`.attach_figure_and_axes` method.
"""
import matplotlib.pyplot as plt
# Column and row need either both be given or both NOT be given. (XOR)
if (col is None) != (row is None):
raise ValueError(
"Need both `col` and `row` arguments to select the current "
f"axis via its coordinates! Got col: {col}, row: {row}"
)
# Without any arguments, use the current axis for the lookup
if col is None and row is None and ax is None:
ax = plt.gca()
# With an axis argument now given, it means that we need to retrieve
# the col and row values via the axis object
if ax is not None:
# ... and we require that `col` and `row` are not given.
if col is not None or row is not None:
raise ValueError(
"Cannot specify arguments `col` and/or `row` if also "
"setting the `ax` argument for `select_axis`!"
)
# Look up column and row
col, row = self._find_axis_coords(ax)
# Wrap around negative values
col = col if col >= 0 else col % self.axes.shape[0]
row = row if row >= 0 else row % self.axes.shape[1]
# Now ready to select
log.debug("Selecting axis (%d, %d) ...", col, row)
try:
self.fig.sca(self.axes[col, row])
except IndexError as exc:
raise ValueError(
f"Could not select axis ({col}, {row}) from figure with "
f"associated axes array of shape {self.axes.shape}!"
) from exc
else:
self._current_ax_coords = (
col % self.axes.shape[0],
row % self.axes.shape[1],
)
log.debug(
"Axis (%d, %d) selected. Enabled helpers: %s",
self.ax_coords[0],
self.ax_coords[1],
", ".join(self.enabled_helpers),
)
[docs] def coords_iter(
self,
*,
match: Union[tuple, str] = None,
) -> Generator[Tuple[int], None, None]:
"""Returns a generator to iterate over all coordinates that match
``match``.
Args:
match (Union[tuple, str]): The coordinates to match; those that do
not match this pattern (evaluated by :py:func:`._coords_match`)
will not be yielded. If not given, will iterate only over the
currently selected axis.
Yields:
Generator[Tuple[int], None, None]: The axis coordinates generator
"""
# If no match argument is given, match only current coordinates
match = match if match is not None else self.ax_coords
# Go over the cartesian product ranges specified by the subplots shape
for coords in product(
range(self.axes.shape[0]), range(self.axes.shape[1])
):
if _coords_match(coords, match=match, full_shape=self.axes.shape):
yield coords
# .........................................................................
# Helper invocation and configuration
[docs] def _invoke_helper(
self,
helper_name: str,
*,
axes: Union[tuple, str] = None,
mark_disabled_after_use: bool = True,
raise_on_error: bool = None,
**update_kwargs,
) -> None:
"""Invokes a single helper on the specified axes, if it is enabled, and
marks it disabled afterwards. The given update parameters are used to
update the existing configuration.
Unlike the public invoke_helper method, this method checks for whether
the helper is enabled, while the public method automatically assumes
it is meant to be enabled.
Args:
helper_name (str): helper which is invoked
axes (Union[tuple, str], optional): A coordinate match tuple of
the axes to invoke this helper on. If not given, will invoke
only on the current axes.
mark_disabled_after_use (bool, optional): If True, the helper is
marked as disabled after invoking it
raise_on_error (bool, optional): If given, overwrites the default
controlled via the ``raise_on_error`` attribute.
**update_kwargs: Update parameters for this specific plot helper.
Note that these do not persist, but are only used for this
invocation.
Raises:
PlotHelperErrors: On failing plot helper invocations
ValueError: No matching helper function defined
"""
is_figure_helper = helper_name in self._FIGURE_HELPERS
def invoke_now(
helper_name: str, errors: list, *, ax_coords: tuple = None
):
"""Invokes a single helper and keeps track of errors by mutably
appending to the given ``errors`` list.
"""
# Prepare the helper params, always working on a copy.
# Depending on the helper, these can be either axis-specific or
# figure-specific configurations.
if not is_figure_helper:
helper_params = self.axis_cfg.get(helper_name, {})
else:
helper_params = self.base_cfg.get(helper_name, {})
if update_kwargs:
recursive_update(helper_params, copy.deepcopy(update_kwargs))
# If it was disabled, have nothing else to do here
if not helper_params.pop("enabled", True):
log.debug(
"Helper '%s' is not enabled for axis %s.",
helper_name,
self.ax_coords,
)
return
# Also skip it if it is an axis-level helper and the axis is empty
if (
not is_figure_helper
and helper_params.pop("skip_empty_axes", True)
and self.axis_is_empty
):
log.debug(
"Helper '%s' skipped for empty axis %s.",
helper_name,
self.ax_coords,
)
return
# Invoke helper
log.debug(
"Invoking helper function '%s' on axis %s ...",
helper_name,
self.ax_coords,
)
try:
helper(**helper_params)
except Exception as exc:
errors.append(
PlotHelperError(
exc,
name=helper_name,
ax_coords=ax_coords,
params=helper_params,
)
)
if mark_disabled_after_use:
self.mark_disabled(helper_name)
# Initial checks
try:
helper = getattr(self, "_hlpr_" + helper_name)
except AttributeError as err:
_available = ", ".join(self.available_helpers)
raise PlotConfigError(
f"No helper with name '{helper_name}' available! "
f"Available helpers: {_available}"
) from err
# A list to collect error messages in; is updated mutably.
errors = []
# If this is a figure-level helper, handle separately:
if is_figure_helper:
invoke_now(helper_name, errors)
self._handle_errors(*errors, raise_on_error=raise_on_error)
return
# Go over all matching axis coordinates, temporarily change to an axis
# and invoke the helper there. Keeps track of
for ax_coords in self.coords_iter(match=axes):
with temporarily_changed_axis(self, tmp_ax_coords=ax_coords):
invoke_now(helper_name, errors)
# Finally, handle the gathered errors
self._handle_errors(*errors, raise_on_error=raise_on_error)
[docs] def invoke_helper(
self,
helper_name: str,
*,
axes: Union[tuple, str] = None,
mark_disabled_after_use: bool = True,
raise_on_error: bool = None,
**update_kwargs,
):
"""Invokes a single helper on the specified axes.
Args:
helper_name (str): The name of the helper to invoke
axes (Union[tuple, str], optional): A coordinate match tuple of
the axes to invoke this helper on. If not given, will invoke
only on the current axes.
mark_disabled_after_use (bool, optional): If True, the helper is
marked as disabled after the invocation.
raise_on_error (bool, optional): If given, overwrites the default
controlled via the ``raise_on_error`` attribute.
**update_kwargs: Update parameters for this specific plot helper.
Note that these do not persist, but are only used for this
invocation.
Raises:
PlotHelperErrors: On failing plot helper invocation
"""
self._invoke_helper(
helper_name,
axes=axes,
enabled=True,
mark_disabled_after_use=mark_disabled_after_use,
raise_on_error=raise_on_error,
**update_kwargs,
)
[docs] def invoke_helpers(
self,
*helper_names,
axes: Union[tuple, str] = None,
mark_disabled_after_use: bool = True,
raise_on_error: bool = None,
**update_helpers,
):
"""Invoke all specified helpers on the specified axes.
Args:
*helper_names: The helper names to invoke
axes (Union[tuple, str], optional): A coordinate match tuple of
the axes to invoke this helper on. If not given, will invoke
only on the current axes.
mark_disabled_after_use (bool, optional): Whether to mark helpers
disabled after they were used.
raise_on_error (bool, optional): If given, overwrites the default
controlled via the ``raise_on_error`` attribute.
**update_helpers: Update parameters for all plot helpers.
These have to be grouped under the name of the helper in order
to be correctly associated. Note that these do not persist,
but are only used for this invocation.
Raises:
PlotHelperErrors: On failing plot helper invocations
"""
errors = []
for helper_name in helper_names:
try:
self.invoke_helper(
helper_name,
axes=axes,
mark_disabled_after_use=mark_disabled_after_use,
raise_on_error=True,
**update_helpers.get(helper_name, {}),
)
except PlotHelperErrors as pherrs:
errors += pherrs.errors
self._handle_errors(*errors, raise_on_error=raise_on_error)
[docs] def invoke_enabled(
self,
*,
axes: Union[tuple, str] = None,
mark_disabled_after_use: bool = True,
raise_on_error: bool = None,
**update_helpers,
):
"""Invokes all enabled helpers with their current configuration on the
matching axes and all enabled figure-level helpers on the figure.
Internally, this first invokes all figure-level helpers and then calls
:py:meth:`~dantro.plot.plot_helper.PlotHelper.invoke_helpers`
with all enabled helpers for all axes matching the ``axes`` argument.
.. note::
When setting ``mark_disabled_after_use = False``, this will lead to
figure-level helpers being invoked multiple times. As some of these
helpers do not allow multiple invocation, invoking this method a
second time *might* fail if not disabling them as part of the first
call to this method.
Args:
axes (Union[tuple, str], optional): A coordinate match tuple of
the axes to invoke this helper on. If not given, will invoke
only on the current axes.
mark_disabled_after_use (bool, optional): If True, the helper is
marked as disabled after the invocation.
raise_on_error (bool, optional): If given, overwrites the default
controlled via the ``raise_on_error`` attribute.
**update_helpers: Update parameters for all plot helpers.
These have to be grouped under the name of the helper in order
to be correctly associated. Note that these do not persist,
but are only used for this invocation.
Raises:
PlotHelperErrors: On failing plot helper invocations
"""
def invoke(*helper_names, errors: list):
"""Small helper to invoke the given helpers and keep track of
errors via the given ``errors`` list (mutably changed)
"""
try:
self.invoke_helpers(
*helper_names,
mark_disabled_after_use=mark_disabled_after_use,
raise_on_error=True,
**update_helpers,
)
except PlotHelperErrors as pherrs:
errors += pherrs.errors
# Mutably extended list of errors
errors = []
# Handle figure-level helpers first ...
invoke(*self.enabled_figure_helpers, errors=errors)
# ... and then axis-level helpers, each on their own axis
for ax_coords in self.coords_iter(match=axes):
with temporarily_changed_axis(self, tmp_ax_coords=ax_coords):
invoke(*self.enabled_helpers, errors=errors)
self._handle_errors(*errors, raise_on_error=raise_on_error)
[docs] def provide_defaults(
self,
helper_name: str,
*,
axes: Union[tuple, str] = None,
mark_enabled: bool = True,
**update_kwargs,
):
"""Update or add a single entry to a helper's configuration.
Args:
helper_name (str): The name of the helper whose config is to change
axes (Union[tuple, str], optional): A coordinate match tuple of
the axes to invoke this helper on. If not given, will invoke
only on the current axes.
mark_enabled (bool, optional): Whether to mark the helper enabled
by providing defaults
**update_kwargs: dict containing the helper parameters with
which the config is updated recursively
"""
self._raise_on_invalid_helper_name(
helper_name, special_cfg_keys_allowed=True
)
# Special configuration keys and figure-level helpers are updating the
# base configuration
if helper_name in (self._SPECIAL_CFG_KEYS + self._FIGURE_HELPERS):
if helper_name not in self._base_cfg:
self._base_cfg[helper_name] = dict()
# Do an in-place recursive update; can return afterwards
recursive_update(
self._base_cfg[helper_name], copy.deepcopy(update_kwargs)
)
log.debug(
"Updated defaults for special configuration entry '%s'.",
helper_name,
)
return
# Go over all selected axes
for ax_coords in self.coords_iter(match=axes):
# Update or create the configuration entry, manually passing the
# coordinates. Using the _axis_cfg property would require to enter
# the temporary axis context, which is overkill at this point.
if helper_name not in self._cfg[ax_coords]:
# Create a new empty entry
self._cfg[ax_coords][helper_name] = dict()
# Can do an in-place recursive update now
recursive_update(
self._cfg[ax_coords][helper_name], copy.deepcopy(update_kwargs)
)
log.debug(
"Updated axis-specific defaults for helper '%s' and axis %s.",
helper_name,
ax_coords,
)
if mark_enabled and helper_name not in self._SPECIAL_CFG_KEYS:
self.mark_enabled(helper_name, axes=ax_coords)
[docs] def mark_enabled(self, *helper_names, axes: Union[tuple, str] = None):
"""Marks the specified helpers as enabled for the specified axes.
Args:
*helper_names: Helpers to be enabled
axes (Union[tuple, str], optional): A coordinate match tuple of
the axes to invoke this helper on. If not given, will invoke
only on the current axes.
"""
# Check the helper names
self._raise_on_invalid_helper_name(*helper_names)
# Handle the figure-level helpers separately
fig_helpers = [hn for hn in helper_names if hn in self._FIGURE_HELPERS]
helper_names = [hn for hn in helper_names if hn not in fig_helpers]
for helper_name in fig_helpers:
if helper_name not in self._base_cfg:
self._base_cfg[helper_name] = dict()
self._base_cfg[helper_name]["enabled"] = True
log.debug(
"Marked figure-level helper '%s' as enabled.", helper_name
)
# Go over all selected axes
for ax_coords in self.coords_iter(match=axes):
# Go over the specified helper names
for helper_name in helper_names:
# Create the empty dict, if necessary
if helper_name not in self._cfg[ax_coords]:
self._cfg[ax_coords][helper_name] = dict()
self._cfg[ax_coords][helper_name]["enabled"] = True
log.debug(
"Marked helper '%s' enabled for axis %s.",
helper_name,
ax_coords,
)
[docs] def mark_disabled(self, *helper_names, axes: Union[tuple, str] = None):
"""Marks the specified helpers as disabled for the specified axes.
Args:
*helper_names: Helpers to be disabled
axes (Union[tuple, str], optional): A coordinate match tuple of
the axes to invoke this helper on. If not given, will invoke
only on the current axes.
"""
# Check the helper names
self._raise_on_invalid_helper_name(*helper_names)
# Handle the figure-level helpers separately
fig_helpers = [hn for hn in helper_names if hn in self._FIGURE_HELPERS]
helper_names = [hn for hn in helper_names if hn not in fig_helpers]
for helper_name in fig_helpers:
if helper_name not in self._base_cfg:
self._base_cfg[helper_name] = dict()
self._base_cfg[helper_name]["enabled"] = False
log.debug(
"Marked figure-level helper '%s' as disabled.", helper_name
)
# Go over all selected axes
for ax_coords in self.coords_iter(match=axes):
# Go over the specified helper names
for helper_name in helper_names:
# Create the empty dict, if necessary
if helper_name not in self._cfg[ax_coords]:
self._cfg[ax_coords][helper_name] = dict()
self._cfg[ax_coords][helper_name]["enabled"] = False
log.debug(
"Marked helper '%s' disabled for axis %s.",
helper_name,
ax_coords,
)
# .........................................................................
# Methods to track artists (e.g. legend handles and labels)
[docs] def track_handles_labels(self, handles: list, labels):
"""Keep track of legend handles and/or labels for the current axis.
Args:
handles (list): The handles to keep track of
labels (list): The associated labels
"""
if len(handles) != len(labels):
raise ValueError(
"Lists of handles and labels need to be of the same size but "
f"were {len(handles)} != {len(labels)}, respectively."
)
if self.ax_coords not in self._handles_labels:
self._handles_labels[self.ax_coords] = defaultdict(list)
self._handles_labels[self.ax_coords]["handles"] += handles
self._handles_labels[self.ax_coords]["labels"] += labels
log.debug(
"Axis %s: now tracking %d handles and labels (%d new).",
self.ax_coords,
len(self._handles_labels[self.ax_coords]["handles"]),
len(handles),
)
# .........................................................................
# Animation interface
[docs] def register_animation_update(
self,
update_func: Callable,
*,
invoke_helpers_before_grab: bool = False,
):
"""Registers a generator used for animations.
Args:
update_func (Callable): Generator object over which is iterated
over to create an animation. This needs
invoke_helpers_before_grab (bool, optional): Whether to invoke all
enabled plot helpers before grabbing a frame. This should be
set to ``True`` if the animation update function overwrites the
effects of the previously applied helpers.
"""
self._animation_update = update_func
self._invoke_before_grab = invoke_helpers_before_grab
log.debug("Registered animation update function.")
[docs] def enable_animation(self):
"""Can be invoked to enter animation mode. An action is only performed
if the helper is **not** currently in animation mode.
Raises:
EnterAnimationMode: Conveys to the plot creator that animation
mode is to be entered.
"""
if not self.animation_enabled:
log.debug("Enabling animation mode ...")
self._animation_enabled = True
raise EnterAnimationMode()
log.debug("Animation mode is already enabled.")
[docs] def disable_animation(self):
"""Can be invoked to exit animation mode. An action is only performed
if the helper **is** currently in animation mode.
Raises:
ExitAnimationMode: Conveys to the plot creator that animation mode
should be left.
"""
if self.animation_enabled:
log.debug("Disabling animation mode ...")
self._animation_enabled = False
raise ExitAnimationMode()
log.debug("Animation mode is already disabled.")
# .........................................................................
# Private support methods
[docs] def _compile_axis_specific_cfg(self) -> Dict[tuple, dict]:
"""With a figure set up, compiles the axis-specific helper config."""
# The target dict of axis coordinates to fully resolved dicts
cfg = dict()
# Compile a base configuration dict that does not contain special keys
base_cfg = {
k: v
for k, v in self._base_cfg.items()
if k not in self._SPECIAL_CFG_KEYS
}
# NOTE setup_figure and save_figure are handled separately
# Go over all possible coordinates
for ax_coords in self.coords_iter(match="all"):
# Store a copy of the base configuration for these coordinates
cfg[ax_coords] = copy.deepcopy(self._base_cfg)
# Go over the list of updates and apply them
for ax_key, update_params in self._axis_specific_updates.items():
if any(k in self._FIGURE_HELPERS for k in update_params):
raise PlotConfigError(
"Cannot set axis-specific configuration for figure-"
"level helpers. Remove any keys that refer to figure-"
f"level helpers ({', '.join(self._FIGURE_HELPERS)})\n"
f"Given parameters were:\n {update_params}."
)
# Work on a copy
update_params = copy.deepcopy(update_params)
# Determine which axis or axes to update
if "axis" in update_params:
axis = update_params.pop("axis")
elif isinstance(ax_key, tuple) and len(ax_key) == 2:
axis = ax_key
else:
raise PlotConfigError(
"No axis could be determined for axis-specific update "
f"'{ax_key}'! Need either a 2-tuple for the update "
"key itself or an explicit `axis` key that specifies "
"which axes to match the update to."
)
# Check if there is a match
if not _coords_match(
ax_coords, match=axis, full_shape=self.axes.shape
):
# Nothing to update for this coordinate
continue
# In-place update the parameter dict. Copies have been created
# above already, so no need to do this here again.
recursive_update(cfg[ax_coords], update_params)
# Now created configurations for all axes and applied all updates
return cfg
[docs] def _raise_on_invalid_helper_name(
self, *helper_names: str, special_cfg_keys_allowed: bool = False
):
"""Makes sure the given helper names are valid.
Args:
*helper_names (str): Names of the helpers to check
special_cfg_keys_allowed (bool, optional): Whether to regard the
special configuration keys as valid or not.
Raises:
ValueError: On invalid helper name
"""
valid_names = self.available_helpers
if special_cfg_keys_allowed:
valid_names += self._SPECIAL_CFG_KEYS
for helper_name in helper_names:
if helper_name in valid_names:
# Is valid
continue
# Not valid!
raise ValueError(
"No helper with name '{}' available! "
"Available helpers: {}. "
"Special configuration keys ({}) {} allowed for "
"this operation."
"".format(
helper_name,
", ".join(self.available_helpers),
", ".join(self._SPECIAL_CFG_KEYS),
("are also" if special_cfg_keys_allowed else "are NOT"),
)
)
[docs] def _handle_errors(self, *errors, raise_on_error: bool = None):
"""Helper method to handle errors"""
if not errors:
return
phe = PlotHelperErrors(*errors)
if self._raise_on_error or raise_on_error:
raise phe
log.warning(phe)
[docs] def _find_axis_coords(self, ax) -> Tuple[int, int]:
"""Find the coordinates of the given axis object in the axes array"""
try:
col, row = np.where(self.axes == ax)
col, row = col[0], row[0]
except Exception as exc:
raise ValueError(
"Could not find the given axis within the associated axes "
"array! Is the correct figure associated?"
) from exc
return col, row
# -------------------------------------------------------------------------
# -- Helper methods -------------------------------------------------------
# -------------------------------------------------------------------------
# .........................................................................
# ... acting on the figure
[docs] def _hlpr_align_labels(self, *, x: bool = True, y: bool = True):
"""Aligns axis labels in the whole figure by calling
:py:meth:`matplotlib.figure.Figure.align_xlabels` and/or
:py:meth:`matplotlib.figure.Figure.align_ylabels`.
"""
if x:
self.fig.align_xlabels()
if y:
self.fig.align_ylabels()
[docs] def _hlpr_set_suptitle(
self,
*,
title: str = None,
margin: float = 0.025,
**title_kwargs,
):
"""Set the figure title using
:py:meth:`matplotlib.figure.Figure.suptitle`.
This figure-level helper automatically vertically adjusts the subplot
sizes to fit the suptitle into the figure without overlapping. This is
*not* done if the ``title`` string is empty or if the y-position is
specified via the ``y`` argument. When repetitively invoking this
helper on the same figure, the subplot sizes are re-adjusted each time.
Args:
title (str, optional): The title to be set
margin (float, optional): An additional vertical margin between
the figure and the suptitle.
**title_kwargs: Passed on to ``fig.suptitle``
"""
st = self.fig.suptitle(title, **title_kwargs)
if title is not None and not "y" in title_kwargs:
# Make some figure adjustments such that it does not overlap with
# the already existing parts.
_, space_needed = calculate_space_needed_hv(self.fig, st)
self.fig.subplots_adjust(top=(1.0 - (space_needed + margin)))
[docs] def _hlpr_set_figlegend(
self,
*,
gather_from_fig: bool = False,
custom_labels: Sequence[str] = (),
hiding_threshold: int = None,
loc="center right",
margin: float = 0.015,
**legend_kwargs,
):
"""Sets a figure legend.
As a source of handles and labels, uses all those tracked via
:py:meth:`.track_handles_labels`.
Furthermore, ``gather_from_fig`` controls whether to additionally
retrieve already existing handles and labels from any legend used
within the figure, e.g. on all of the axes.
For legend locations on the **right** side of the figure, this will
additionally adjust the subplot shape to accomodate for the figure
legend without overlapping. This is not done for other ``loc`` values.
If no handles could be retrieved by the above procedure, no figure
legend will be added.
Args:
gather_from_fig (bool, optional): Whether to extract figure handles
and labels from already existing legends used in the figure.
custom_labels (Sequence[str], optional): Custom labels to assign
for the given handles.
hiding_threshold (int, optional): If there are more handles or
labels available than the threshold, no figure legend will be
added.
loc (str, optional): The location of the figure legend. Note that
figure adjustments are done for a figure legend on the right
side of the figure; these are not done if the figure is located
somewhere else, which might lead to it overlapping with other
axes.
margin (float, optional): An additional horizontal margin between
the figure legend and the axes.
**legend_kwargs: Passed on to
:py:meth:`matplotlib.figure.Figure.legend`.
Raises:
RuntimeError: If a figure legend was already set via the helper.
"""
# Ensure that this is not called multiple times, because it's quite
# costly to do all of the below (and can really mess up the figure
# if applied multiple times).
if self._figlegend:
raise RuntimeError(
"A figure legend was already set for this figure! "
"Will not set another one."
)
# Now get the handles and labels . . . . . . . . . . . . . . . . . . .
h, l = self.all_handles_labels
if gather_from_fig:
_h, _l = gather_handles_labels(self.fig)
log.debug(
"Gathered %d handles and labels from the whole figure.",
len(_h),
)
h += _h
l += _l
h, l = remove_duplicate_handles_labels(h, l)
# Evaluate custom labels and hiding threshold
h, l, past_thresh = prepare_legend_args(
h,
l,
custom_labels=custom_labels,
hiding_threshold=hiding_threshold,
)
if not h or past_thresh:
return
# Construct the legend and keep track of it
figlegend = self.fig.legend(h, l, loc=loc, **legend_kwargs)
self._figlegend = figlegend
# Figure adjustments . . . . . . . . . . . . . . . . . . . . . . . . .
# TODO Extend to all locs
if "right" in loc:
# These are necessary to have enough space for the legend.
space_needed, _ = calculate_space_needed_hv(self.fig, figlegend)
self.fig.subplots_adjust(right=(1.0 - (space_needed + margin)))
[docs] def _hlpr_subplots_adjust(self, **kwargs):
"""Invokes :py:meth:`matplotlib.figure.Figure.subplots_adjust` on the
whole figure.
"""
self.fig.subplots_adjust(**kwargs)
[docs] def _hlpr_figcall(self, *, functions: Sequence[dict], **shared_kwargs):
"""Figure-level helper that can be used to call multiple functions.
This helper is invoked *before* the axis-level helper.
See :py:meth:`._hlpr_call` for more information and examples.
Args:
functions (Sequence[dict]): A sequence of function call
specifications. Each dict needs to contain at least the key
``function`` which determines which function to invoke. Further
arguments are parsed into the positional and keyword arguments
of the to-be-invoked function.
**shared_kwargs: Passed on as keyword arguments to *all* function
calls in ``functions``.
"""
self._hlpr_call(functions=functions, **shared_kwargs)
[docs] def _hlpr_autofmt_xdate(self, **kwargs):
"""Invokes :py:meth:`~matplotlib.figure.Figure.autofmt_xdate` on the
figure, passing all arguments along. This can be useful when x-labels
are overlapping (e.g. because they are dates).
"""
self.fig.autofmt_xdate(**kwargs)
# .........................................................................
# ... acting on a single axis
[docs] def _hlpr_set_title(self, *, title: str = None, **title_kwargs):
"""Sets the title of the current axes.
Args:
title (str, optional): The title to be set
**title_kwargs: Passed on to
:py:meth:`matplotlib.axes.Axes.set_title`
"""
self.ax.set_title(title, **title_kwargs)
[docs] def _hlpr_set_labels(
self,
*,
x: Union[str, dict] = None,
y: Union[str, dict] = None,
z: Union[str, dict] = None,
only_label_outer: bool = False,
rotate_z_label: bool = None,
):
"""Sets the x, y, and z label of the current axis.
Args:
x (Union[str, dict], optional): Either the label as a string or
a dict with key ``label``, where all further keys are passed on
to :py:meth:`matplotlib.axes.Axes.set_xlabel`
y (Union[str, dict], optional): Either the label as a string or
a dict with key ``label``, where all further keys are passed on
to :py:meth:`matplotlib.axes.Axes.set_ylabel`
z (Union[str, dict], optional): Either the label as a string or
a dict with key ``label``, where all further keys are passed on
to :py:meth:`mpl_toolkits.mplot3d.axes3d.Axes3D.set_zlabel`.
If there is no z-axis, this will be silently ignored.
only_label_outer (bool, optional): If True, call
:py:meth:`matplotlib.axes.Axes.label_outer` such that
only tick labels on "outer" axes are visible:
x-labels are only kept for subplots on the last row; y-labels
only for subplots on the first column. Note that this applies
to both axes and may lead to existing axes being hidden.
rotate_z_label (bool, optional): If given, sets
:py:meth:`mpl_toolkits.mplot3d.axis3d.Axis.set_rotate_label`.
If there is no z-axis, this will be silently ignored.
"""
def set_label(func: Callable, *, label: str = None, **label_kwargs):
return func(label, **label_kwargs)
if x is not None:
x = x if not isinstance(x, str) else dict(label=x)
set_label(self.ax.set_xlabel, **x)
if y is not None:
y = y if not isinstance(y, str) else dict(label=y)
set_label(self.ax.set_ylabel, **y)
if hasattr(self.ax, "zaxis"):
if z is not None:
z = z if not isinstance(z, str) else dict(label=z)
set_label(self.ax.set_zlabel, **z)
if rotate_z_label is not None:
self.ax.zaxis.set_rotate_label(rotate_z_label)
if only_label_outer:
self.ax.label_outer()
[docs] def _hlpr_set_limits(
self,
*,
x: Union[Sequence[Union[float, str]], dict] = None,
y: Union[Sequence[Union[float, str]], dict] = None,
z: Union[Sequence[Union[float, str]], dict] = None,
):
"""Sets the x, y, and z limits for the current axis. Allows some
convenience definitions for the arguments and then calls
:py:meth:`matplotlib.axes.Axes.set_xlim` and/or
:py:meth:`matplotlib.axes.Axes.set_ylim`.
:py:meth:`mpl_toolkits.mplot3d.axes3d.Axes3D.set_zlim`.
The ``x``, ``y``, and ``z`` arguments can have the following form:
- None: Limits are not set
- sequence: Specify lower and upper values
- dict: Expecting keys ``lower`` and/or ``upper``
The sequence or dict values can be:
- None Set automatically / do not set
- numeric Set to this value explicitly
- ``min`` Set to the data minimum value on that axis
- ``max`` Set to the data maximum value on that axis
Args:
x (Union[Sequence[Union[float, str]], dict], optional): The limits
to set on the x-axis
y (Union[Sequence[Union[float, str]], dict], optional): The limits
to set on the y-axis
z (Union[Sequence[Union[float, str]], dict], optional): The limits
to set on the z-axis
If there is no z-axis, this will be silently ignored.
"""
def parse_args(
args: Union[Sequence[Union[float, str]], dict], *, ax
) -> Tuple[float, float]:
"""Parses the limit arguments."""
def parse_arg(arg: Union[float, str]) -> Union[float, None]:
"""Parses a single limit argument to either be float or None"""
if not isinstance(arg, str):
# Nothing to parse
return arg
if arg == "min":
arg = ax.get_data_interval()[0]
elif arg == "max":
arg = ax.get_data_interval()[1]
else:
raise PlotConfigError(
f"Got an invalid str-type argument '{arg}' to the "
"set_limits helper. Allowed: 'min', 'max', None, or a "
"numerical value specifying the lower or upper limit."
)
# Check that it is finite
if not np.isfinite(arg):
raise PlotConfigError(
"Could not get a finite value from the axis data to "
"use for setting axis limits to 'min' or 'max', "
"presumably because the axis is still empty."
)
return arg
# Special case: dict
if isinstance(args, dict):
# Make sure there are only allowed keys
if [k for k in args.keys() if k not in ("lower", "upper")]:
raise PlotConfigError(
"There are invalid keys present in a dict-type "
"argument to set_limits! Only accepting keys 'lower' "
f"and 'upper', but got: {args}"
)
lower = args.get("lower", None)
upper = args.get("upper", None)
else:
lower, upper = args # ... assuming sequence of length 2
# Parse individually, then return
return (parse_arg(lower), parse_arg(upper))
# Now set the limits, using the helper functions defined above
if x is not None:
self.ax.set_xlim(*parse_args(x, ax=self.ax.xaxis))
if y is not None:
self.ax.set_ylim(*parse_args(y, ax=self.ax.yaxis))
if hasattr(self.ax, "zaxis"):
if z is not None:
self.ax.set_zlim(*parse_args(z, ax=self.ax.zaxis))
[docs] def _hlpr_set_margins(
self,
*,
margins: Union[float, Tuple[float, float]] = None,
x: float = None,
y: float = None,
tight: bool = True,
):
"""Sets the axes' margins via :py:meth:`matplotlib.axes.Axes.margins`.
The padding added to each limit of the Axes is the margin times the
data interval.
All input parameters must be floats within the range [0, 1].
Specifying any margin changes only the autoscaling; for example, if
``xmargin`` is not None, then ``xmargin`` times the X data interval
will be added to each end of that interval before it is used in
autoscaling.
Args:
margins (Union[float, Tuple[float, float]], optional): If a scalar
argument is provided, it specifies both margins of the x-axis
and y-axis limits. If a list- or tuple-like positional
argument is provided, they will be interpreted as ``xmargin``,
and ``ymargin``. If setting the margin on a single axis is
desired, use the keyword arguments described below.
x, y (float, optional): Specific margin values for the x-axis and
y-axis, respectively. These cannot be used in combination with
the ``margins`` argument, but can be used individually to
alter on e.g., only the y-axis.
tight (bool, optional): The tight parameter is passed to
:py:meth:`matplotlib.axes.Axes.autoscale_view`, which is
executed after a margin is changed; the default here is True,
on the assumption that when margins are specified, no
additional padding to match tick marks is usually desired. Set
tight to None will preserve the previous setting.
"""
kwargs = dict(x=x, y=y, tight=tight)
if margins is not None:
if x is not None or y is not None:
raise TypeError(
"Cannot pass both `margins` and `x`/`y` arguments!"
)
if isinstance(margins, (float, int)):
self.ax.margins(margins, **kwargs)
else:
self.ax.margins(*margins, **kwargs)
else:
self.ax.margins(**kwargs)
[docs] def _hlpr_set_legend(
self,
*,
use_legend: bool = True,
gather_from_fig: bool = False,
custom_labels: Sequence[str] = (),
hiding_threshold: int = None,
**legend_kwargs,
):
"""Sets a legend for the current axis.
As a first step, this helper tries to extract all relevant legend
handles and labels. If a legend was set previously and *no* handles and
labels could be extracted in the typical way (i.e., using the
``ax.get_legend_handles_labels`` method) it will be attempted to
retrieve them from existing :py:class:`matplotlib.legend.Legend`
objects on the current axis.
If ``gather_from_fig`` is given, the *whole* figure will be inspected,
regardless of whether handles were found previously.
Additionally, all axis-specific handles and labels tracked via
:py:meth:`.track_handles_labels` will always be added.
.. note::
- If no handles can be found, the legend is hidden, also meaning
that the ``legend_kwargs`` will not be passed on.
- During gathering of handles and labels from the current axis or
the figure, duplicates will be removed; duplicates are detected
via their label strings, *not* via their handle.
.. hint::
To set a figure-level legend, use the ``set_figlegend`` helper.
Args:
use_legend (bool, optional): Whether to set a legend or not. If
False, the legend will be removed.
gather_from_fig (bool, optional): If set, will gather legend
handles and labels from the whole figure. This can be useful to
set if the relevant information is found on another axis or in
a figure legend.
custom_labels (Sequence[str], optional): If given, use these labels
and associate them with existing labels. Note that if fewer
labels are given than handles are available, those without a
label will not be drawn.
hiding_threshold (int, optional): If given, will hide legends
that have more than this number of handles registered.
**legend_kwargs: Passed on to ``ax.legend``
"""
def hide_legend():
legend = self.ax.legend((), fancybox=False, frameon=False)
legend.set_visible(False)
# Warn about usage of the old interface.
# TODO Remove in Version 1.0
if legend_kwargs.pop("use_figlegend", None):
log.warning(
"The `use_figlegend` argument is no longer supported "
"for the `set_legend` helper. Use `set_figlegend` instead."
)
# Do explicit hiding first, don't need to do all the rest in this case
if not use_legend:
log.remark("Hiding legend ...")
hide_legend()
return
# Try to get (dangling) handles and labels from the axis
h, l = self.ax.get_legend_handles_labels()
# NOTE Will be empty if ax.legend() was called already
# Add those that have been tracked explicitly
_h, _l = self.axis_handles_labels
h += _h
l += _l
# If there were no handles available in this way, try to gather the
# information from the current axis or the whole figure
if not h or gather_from_fig:
_h, _l = gather_handles_labels(
self.fig if gather_from_fig else self.ax
)
log.debug(
"Gathered %d handles and labels from %s.",
len(_h),
"the whole figure"
if (not h and gather_from_fig)
else "current axis",
)
h += _h
l += _l
# Remove potential duplicate handles (identified by the labels)
h, l = remove_duplicate_handles_labels(h, l)
# ... and evaluate the custom labels and hiding threshold
h, l, past_thresh = prepare_legend_args(
h,
l,
custom_labels=custom_labels,
hiding_threshold=hiding_threshold,
)
# Hide or draw the legend
if past_thresh or not h:
hide_legend()
else:
self.ax.legend(h, l, **legend_kwargs)
[docs] def _hlpr_set_texts(self, *, texts: Sequence[dict]):
"""Sets multiple text elements for the current axis.
Example configuration:
.. code-block:: yaml
set_texts:
texts:
- x: 0
y: 1
s: some text
# ... more arguments to plt.text
Args:
texts (Sequence[dict]): A sequence of text specifications, that are
passed to :py:func:`matplotlib.pyplot.text`
"""
for kwargs in texts:
self.ax.text(**kwargs)
[docs] def _hlpr_annotate(self, *, annotations: Sequence[dict]):
"""Sets multiple annotations for the current axis.
Example configuration:
.. code-block:: yaml
annotate:
annotations:
- xy: [1, 3.14159]
text: this is π
xycoords: data
# ... more arguments to plt.annotate
- xy: [0, 0]
xycoords: data
text: this is zero
xytext: [0.1, 0.1]
arrowprops:
facecolor: black
shrink: 0.05
Args:
annotations (Sequence[dict]): A sequence of annotation parameters
which will be passed to :py:func:`matplotlib.pyplot.annotate`
"""
for kwargs in annotations:
self.ax.annotate(**kwargs)
[docs] def _hlpr_set_hv_lines(self, *, hlines: list = None, vlines: list = None):
"""Sets one or multiple horizontal or vertical lines using
:py:meth:`matplotlib.axes.Axes.axhline` and / or
:py:meth:`matplotlib.axes.Axes.axvline`.
Args:
hlines (list, optional): list of numeric positions of the lines or
or list of dicts with key ``pos`` determining the position, key
``limits`` determining the relative limits of the line, and all
additional arguments being passed on to the matplotlib
function.
vlines (list, optional): list of numeric positions of the lines or
or list of dicts with key ``pos`` determining the position, key
``limits`` determining the relative limits of the line, and all
additional arguments being passed on to the matplotlib
function.
"""
def set_line(
func: Callable,
*,
pos: float,
limits: tuple = (0.0, 1.0),
**line_kwargs,
):
try:
pos = float(pos)
except Exception as err:
raise PlotConfigError(
f"Got non-numeric value '{pos}' for `pos` argument in "
"set_hv_lines helper!"
)
func(pos, *limits, **line_kwargs)
if hlines is not None:
for line_spec in hlines:
if isinstance(line_spec, dict):
set_line(self.ax.axhline, **line_spec)
else:
set_line(self.ax.axhline, pos=line_spec)
if vlines is not None:
for line_spec in vlines:
if isinstance(line_spec, dict):
set_line(self.ax.axvline, **line_spec)
else:
set_line(self.ax.axvline, pos=line_spec)
[docs] def _hlpr_set_scales(
self,
*,
x: Union[str, dict] = None,
y: Union[str, dict] = None,
z: Union[str, dict] = None,
):
"""Sets the scales for the current axis
The arguments are used to call
:py:meth:`matplotlib.axes.Axes.set_xscale` and/or
:py:meth:`matplotlib.axes.Axes.set_yscale` and
:py:meth:`mpl_toolkits.mplot3d.axes3d.Axes3D.set_zscale`, respectively.
For string-like arguments, the value is directly used to set the scale
for that axis, e.g. ``linear``, ``log``, ``symlog``.
Otherwise, dict-like arguments are expected where a ``scale`` key is
present and defines which type of scale to use. All further arguments
are passed on; these are relevant for the symmetrical logarithmic
scale, for example.
Args:
x (Union[str, dict], optional): The scales to use on the x-axis
y (Union[str, dict], optional): The scales to use on the y-axis
z (Union[str, dict], optional): The scales to use on the z-axis.
If there is no z-axis, this will be silently ignored.
"""
def set_scale(func: Callable, *, scale: str = None, **scale_kwargs):
func(scale, **scale_kwargs)
if x:
x = x if not isinstance(x, str) else dict(scale=x)
set_scale(self.ax.set_xscale, **x)
if y:
y = y if not isinstance(y, str) else dict(scale=y)
set_scale(self.ax.set_yscale, **y)
if hasattr(self.ax, "zaxis"):
if z:
z = z if not isinstance(z, str) else dict(scale=z)
set_scale(self.ax.set_zscale, **z)
[docs] def _hlpr_set_ticks(
self,
*,
x: Union[list, dict] = None,
y: Union[list, dict] = None,
z: Union[list, dict] = None,
):
"""Sets the ticks for the current axis
The arguments are used to call
:py:meth:`matplotlib.axes.Axes.set_xticks` or
:py:meth:`matplotlib.axes.Axes.set_yticks` or
:py:meth:`mpl_toolkits.mplot3d.axes3d.Axes3D.set_zticks`,
and :py:meth:`matplotlib.axes.Axes.set_xticklabels` or
:py:meth:`matplotlib.axes.Axes.set_yticklabels` or
:py:meth:`mpl_toolkits.mplot3d.axes3d.Axes3D.set_zticklabels`,
respectively.
The dict-like arguments may contain the keys ``major`` and/or
``minor``, referring to major or minor tick locations and labels,
respectively.
They should either be list-like, directly specifying the ticks'
locations, or dict-like requiring a ``locs`` key that contains the
ticks' locations and is passed on to the ``set_<x/y/z>ticks`` call.
as ``ticks`` argument. Further kwargs such as ``labels`` can be given
and are passed on to the ``set_<x/y/z>ticklabels`` call.
Example:
.. code-block:: yaml
set_ticks:
x:
major: [2, 4, 6, 8]
minor:
locs: [1, 3, 5, 7, 9]
y:
major:
locs: [0, 1000, 2000, 3000]
labels: [0, 1k, 2k, 3k]
# ... further kwargs here specify label aesthetics
z: [-1, 0, +1] # same as z: {major: {locs: [-1, 0, +1]}}
Args:
x (Union[list, dict], optional): The ticks and optionally their
labels to set on the x-axis
y (Union[list, dict], optional): The ticks and optionally their
labels to set on the y-axis
z (Union[list, dict], optional): The ticks and optionally their
labels to set on the z-axis.
If there is no z-axis, this will be silently ignored.
"""
def set_ticks(
func: Callable,
*,
ticks: list,
minor: bool,
):
func(ticks, minor=minor)
def set_ticklabels(
func: Callable, *, labels: list, **ticklabels_kwargs
):
func(labels, **ticklabels_kwargs)
def set_ticks_and_labels(
*, axis: str, minor: bool, axis_cfg: Union[dict, list, tuple]
):
axis_cfg = (
axis_cfg
if not isinstance(axis_cfg, (list, tuple))
else dict(locs=axis_cfg)
)
if axis_cfg.get("labels") and not axis_cfg.get("locs"):
raise PlotConfigError(
"Labels can only be set through the `labels` argument "
"if their location is also given through the `locs` "
"argument. However, `locs` is not given."
)
# Get the axis specific
if axis == "x":
ticks_func = self.ax.set_xticks
tickslabel_func = self.ax.set_xticklabels
elif axis == "y":
ticks_func = self.ax.set_yticks
tickslabel_func = self.ax.set_yticklabels
elif axis == "z":
ticks_func = self.ax.set_zticks
tickslabel_func = self.ax.set_zticklabels
# Set the ticks
set_ticks(ticks_func, ticks=axis_cfg.pop("locs"), minor=minor)
# Set the tick labels, passing on the additional kwargs
if axis_cfg.get("labels"):
set_ticklabels(tickslabel_func, minor=minor, **axis_cfg)
if x:
if isinstance(x, (list, tuple)):
x = dict(major=dict(locs=x))
if x.get("major") is not None:
set_ticks_and_labels(
axis="x", minor=False, axis_cfg=x["major"]
)
if x.get("minor") is not None:
set_ticks_and_labels(axis="x", minor=True, axis_cfg=x["minor"])
if y:
if isinstance(y, (list, tuple)):
y = dict(major=dict(locs=y))
if y.get("major") is not None:
set_ticks_and_labels(
axis="y", minor=False, axis_cfg=y["major"]
)
if y.get("minor") is not None:
set_ticks_and_labels(axis="y", minor=True, axis_cfg=y["minor"])
if hasattr(self.ax, "zaxis"):
if z:
if isinstance(z, (list, tuple)):
z = dict(major=dict(locs=z))
if z.get("major") is not None:
set_ticks_and_labels(
axis="z", minor=False, axis_cfg=z["major"]
)
if z.get("minor") is not None:
set_ticks_and_labels(
axis="z", minor=True, axis_cfg=z["minor"]
)
[docs] def _hlpr_set_tick_locators(
self, *, x: dict = None, y: dict = None, z: dict = None
):
"""Sets the tick locators for the current axis
The arguments are used to call
``ax.{x,y, z}axis.set_{major/minor}_locator``, respectively.
The dict-like arguments must contain the keys ``major`` and/or
``minor``, referring to major or minor tick locators. These need to
specify a name that is looked up in :py:mod:`matplotlib.ticker`.
They can contain a list-like ``args`` keyword argument that defines
the arguments to pass on as positional args to the called function.
Further kwargs are passed on to
``ax.{x,y, z}axis.set_{major/minor}_locator``.
Example:
.. code-block:: yaml
set_tick_locators:
x:
major:
name: MaxNLocator # looked up from matplotlib.ticker
nbins: 6
integer: true
min_n_ticks: 3
y:
major:
name: MultipleLocator
args: [2]
For more information, see:
- https://matplotlib.org/gallery/ticks_and_spines/tick-locators.html
- https://matplotlib.org/api/_as_gen/matplotlib.axis.Axis.set_major_locator.html
- https://matplotlib.org/api/_as_gen/matplotlib.axis.Axis.set_minor_locator.html
Args:
x (dict, optional): The configuration of the x-axis tick locator
y (dict, optional): The configuration of the y-axis tick locator
z (dict, optional): The configuration of the z-axis tick locator.
If there is no z-axis, this will be silently ignored.
"""
set_tick_locators_or_formatters(
ax=self.ax, kind="locator", x=x, y=y, z=z
)
[docs] def _hlpr_call(
self,
*,
functions: Sequence[dict],
funcs_lookup_dict: Dict[str, Callable] = None,
**shared_kwargs,
):
"""Axis-level helper that can be used to call multiple functions.
Functions can be specified in three ways:
- as string, being looked up from a pre-defined dict
- as 2-tuple ``(module, name)`` which will be imported on the fly
- as callable, which will be used directly
The implementation of this is shared with the plot function
:py:func:`~dantro.plot.funcs.multiplot.multiplot`. See
there for more information.
The figure-level helper ``figcall`` is identical to this helper, but is
invoked *before* the axis-specific helpers are invoked.
.. hint::
To pass custom callables, use the data transformation framework and
the ``!dag_result`` placeholder, see :ref:`dag_result_placeholder`.
.. note::
While most matplotlib-based functions will automatically operate on
the current axis, some function calls may require an axis object.
If so, use the ``pass_axis_object_as`` argument, which specifies
the name of the keyword argument as which the current axis is
passed to the function call.
Example:
.. code-block:: yaml
call:
functions:
# Look up function from dict, containing common seaborn and
# pyplot plotting functions (see multiplot for more info)
- function: sns.lineplot
data: !dag_result my_custom_data
# Import function via `(module, name)` specification
- function: [matplotlib, pyplot.subplots_adjust]
left: 0.1
right: 0.9
# Pass a custom callable, selected via DAG framework
- function: !dag_result my_callable
args: [foo, bar]
# ... keyword arguments here
# Pass current axis object as keyword argument
- function: !dag_result my_callable_operating_on_ax
pass_axis_object_as: ax
# Pass helper object itself as keyword argument
- function: !dag_result my_callable_operating_on_helper
pass_helper: true
Args:
functions (Sequence[dict]): A sequence of function call
specifications. Each dict needs to contain at least the key
``function`` which determines which function to invoke. Further
arguments are parsed into the positional and keyword arguments
of the to-be-invoked function.
funcs_lookup_dict (Dict[str, Callable], optional): If given, will
look up the function names from this dict instead of the
default dict.
**shared_kwargs: Passed on as keyword arguments to *all* function
calls in ``functions``.
"""
from .funcs._multiplot import parse_and_invoke_function
for call_num, func_kwargs in enumerate(functions):
parse_and_invoke_function(
hlpr=self,
funcs=funcs_lookup_dict,
shared_kwargs=shared_kwargs,
func_kwargs=func_kwargs,
show_hints=False,
call_num=call_num,
)
# .........................................................................
# ... using seaborn
[docs] def _hlpr_despine(self, **kwargs):
"""Despines the current *axis* using :py:func:`seaborn.despine`.
To despine the whole *figure*, apply this helper to all axes.
Refer to the seaborn documentation for available arguments:
https://seaborn.pydata.org/generated/seaborn.despine.html
Args:
**kwargs: Passed on to ``seaborn.despine``.
"""
if "fig" in kwargs:
raise ValueError(
"Got unexpected `fig` argument! To apply the `despine` helper "
"to all axes, invoke the helper on each axis separately."
)
sns.despine(ax=self.ax, **kwargs)