matplotlib.cbook
A collection of utility functions and classes. Originally, many (but not all) were from the Python Cookbook -- hence the name cbook.
This module is safe to import from anywhere within Matplotlib; it imports Matplotlib only at runtime.
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class matplotlib.cbook.CallbackRegistry(exception_handler=<function _exception_printer>)
[source] -
Bases:
object
Handle registering and disconnecting for a set of signals and callbacks:
>>> def oneat(x): ... print('eat', x) >>> def ondrink(x): ... print('drink', x)
>>> from matplotlib.cbook import CallbackRegistry >>> callbacks = CallbackRegistry()
>>> id_eat = callbacks.connect('eat', oneat) >>> id_drink = callbacks.connect('drink', ondrink)
>>> callbacks.process('drink', 123) drink 123 >>> callbacks.process('eat', 456) eat 456 >>> callbacks.process('be merry', 456) # nothing will be called >>> callbacks.disconnect(id_eat) >>> callbacks.process('eat', 456) # nothing will be called
In practice, one should always disconnect all callbacks when they are no longer needed to avoid dangling references (and thus memory leaks). However, real code in Matplotlib rarely does so, and due to its design, it is rather difficult to place this kind of code. To get around this, and prevent this class of memory leaks, we instead store weak references to bound methods only, so when the destination object needs to die, the CallbackRegistry won't keep it alive.
Parameters: -
exception_handlercallable, optional
-
If provided must have signature
def handler(exc: Exception) -> None:
If not None this function will be called with any
Exception
subclass raised by the callbacks inCallbackRegistry.process
. The handler may either consume the exception or re-raise.The callable must be pickle-able.
The default handler is
def h(exc): traceback.print_exc()
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connect(self, s, func)
[source] -
Register func to be called when signal s is generated.
-
disconnect(self, cid)
[source] -
Disconnect the callback registered with callback id cid.
-
process(self, s, *args, **kwargs)
[source] -
Process signal s.
All of the functions registered to receive callbacks on s will be called with
*args
and**kwargs
.
-
-
class matplotlib.cbook.Grouper(init=())
[source] -
Bases:
object
A disjoint-set data structure.
Objects can be joined using
join()
, tested for connectedness usingjoined()
, and all disjoint sets can be retrieved by using the object as an iterator.The objects being joined must be hashable and weak-referenceable.
Examples
>>> from matplotlib.cbook import Grouper >>> class Foo: ... def __init__(self, s): ... self.s = s ... def __repr__(self): ... return self.s ... >>> a, b, c, d, e, f = [Foo(x) for x in 'abcdef'] >>> grp = Grouper() >>> grp.join(a, b) >>> grp.join(b, c) >>> grp.join(d, e) >>> sorted(map(tuple, grp)) [(a, b, c), (d, e)] >>> grp.joined(a, b) True >>> grp.joined(a, c) True >>> grp.joined(a, d) False
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clean(self)
[source] -
Clean dead weak references from the dictionary.
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get_siblings(self, a)
[source] -
Return all of the items joined with a, including itself.
-
join(self, a, *args)
[source] -
Join given arguments into the same set. Accepts one or more arguments.
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joined(self, a, b)
[source] -
Return whether a and b are members of the same set.
-
remove(self, a)
[source]
-
-
exception matplotlib.cbook.IgnoredKeywordWarning(*args, **kwargs)
[source] -
Bases:
UserWarning
[Deprecated] A class for issuing warnings about keyword arguments that will be ignored by Matplotlib.
Notes
Deprecated since version 3.3.
-
class matplotlib.cbook.Stack(default=None)
[source] -
Bases:
object
Stack of elements with a movable cursor.
Mimics home/back/forward in a web browser.
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back(self)
[source] -
Move the position back and return the current element.
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bubble(self, o)
[source] -
Raise all references of o to the top of the stack, and return it.
Raises: - ValueError
-
If o is not in the stack.
-
clear(self)
[source] -
Empty the stack.
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empty(self)
[source] -
Return whether the stack is empty.
-
forward(self)
[source] -
Move the position forward and return the current element.
-
home(self)
[source] -
Push the first element onto the top of the stack.
The first element is returned.
-
push(self, o)
[source] -
Push o to the stack at current position. Discard all later elements.
o is returned.
-
remove(self, o)
[source] -
Remove o from the stack.
Raises: - ValueError
-
If o is not in the stack.
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matplotlib.cbook.boxplot_stats(X, whis=1.5, bootstrap=None, labels=None, autorange=False)
[source] -
Return a list of dictionaries of statistics used to draw a series of box and whisker plots using
bxp
.Parameters: -
Xarray-like
-
Data that will be represented in the boxplots. Should have 2 or fewer dimensions.
-
whisfloat or (float, float), default: 1.5
-
The position of the whiskers.
If a float, the lower whisker is at the lowest datum above
Q1 - whis*(Q3-Q1)
, and the upper whisker at the highest datum belowQ3 + whis*(Q3-Q1)
, where Q1 and Q3 are the first and third quartiles. The default value ofwhis = 1.5
corresponds to Tukey's original definition of boxplots.If a pair of floats, they indicate the percentiles at which to draw the whiskers (e.g., (5, 95)). In particular, setting this to (0, 100) results in whiskers covering the whole range of the data. "range" is a deprecated synonym for (0, 100).
In the edge case where
Q1 == Q3
, whis is automatically set to (0, 100) (cover the whole range of the data) if autorange is True.Beyond the whiskers, data are considered outliers and are plotted as individual points.
-
bootstrapint, optional
-
Number of times the confidence intervals around the median should be bootstrapped (percentile method).
-
labelsarray-like, optional
-
Labels for each dataset. Length must be compatible with dimensions of X.
-
autorangebool, optional (False)
-
When
True
and the data are distributed such that the 25th and 75th percentiles are equal,whis
is set to (0, 100) such that the whisker ends are at the minimum and maximum of the data.
Returns: - list of dict
-
A list of dictionaries containing the results for each column of data. Keys of each dictionary are the following:
Key Value Description label tick label for the boxplot mean arithmetic mean value med 50th percentile q1 first quartile (25th percentile) q3 third quartile (75th percentile) cilo lower notch around the median cihi upper notch around the median whislo end of the lower whisker whishi end of the upper whisker fliers outliers
Notes
Non-bootstrapping approach to confidence interval uses Gaussian-based asymptotic approximation:
\[\mathrm{med} \pm 1.57 \times \frac{\mathrm{iqr}}{\sqrt{N}}\]General approach from: McGill, R., Tukey, J.W., and Larsen, W.A. (1978) "Variations of Boxplots", The American Statistician, 32:12-16.
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-
matplotlib.cbook.contiguous_regions(mask)
[source] -
Return a list of (ind0, ind1) such that
mask[ind0:ind1].all()
is True and we cover all such regions.
-
matplotlib.cbook.delete_masked_points(*args)
[source] -
Find all masked and/or non-finite points in a set of arguments, and return the arguments with only the unmasked points remaining.
Arguments can be in any of 5 categories:
- 1-D masked arrays
- 1-D ndarrays
- ndarrays with more than one dimension
- other non-string iterables
- anything else
The first argument must be in one of the first four categories; any argument with a length differing from that of the first argument (and hence anything in category 5) then will be passed through unchanged.
Masks are obtained from all arguments of the correct length in categories 1, 2, and 4; a point is bad if masked in a masked array or if it is a nan or inf. No attempt is made to extract a mask from categories 2, 3, and 4 if
numpy.isfinite
does not yield a Boolean array.All input arguments that are not passed unchanged are returned as ndarrays after removing the points or rows corresponding to masks in any of the arguments.
A vastly simpler version of this function was originally written as a helper for Axes.scatter().
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matplotlib.cbook.file_requires_unicode(x)
[source] -
Return whether the given writable file-like object requires Unicode to be written to it.
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matplotlib.cbook.flatten(seq, scalarp=<function is_scalar_or_string at 0x7fba597fc1f0>)
[source] -
Return a generator of flattened nested containers.
For example:
>>> from matplotlib.cbook import flatten >>> l = (('John', ['Hunter']), (1, 23), [[([42, (5, 23)], )]]) >>> print(list(flatten(l))) ['John', 'Hunter', 1, 23, 42, 5, 23]
By: Composite of Holger Krekel and Luther Blissett From: https://code.activestate.com/recipes/121294/ and Recipe 1.12 in cookbook
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matplotlib.cbook.get_realpath_and_stat(path)
[source] -
[Deprecated]
Notes
Deprecated since version 3.3:
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matplotlib.cbook.get_sample_data(fname, asfileobj=True, *, np_load=False)
[source] -
Return a sample data file. fname is a path relative to the
mpl-data/sample_data
directory. If asfileobj isTrue
return a file object, otherwise just a file path.Sample data files are stored in the 'mpl-data/sample_data' directory within the Matplotlib package.
If the filename ends in .gz, the file is implicitly ungzipped. If the filename ends with .npy or .npz, asfileobj is True, and np_load is True, the file is loaded with
numpy.load
. np_load currently defaults to False but will default to True in a future release.
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matplotlib.cbook.index_of(y)
[source] -
A helper function to create reasonable x values for the given y.
This is used for plotting (x, y) if x values are not explicitly given.
First try
y.index
(assuming y is apandas.Series
), if that fails, userange(len(y))
.This will be extended in the future to deal with more types of labeled data.
Parameters: -
yfloat or array-like
Returns: -
x, yndarray
-
The x and y values to plot.
-
-
matplotlib.cbook.is_math_text(s)
[source] -
Return whether the string s contains math expressions.
This is done by checking whether s contains an even number of non-escaped dollar signs.
-
matplotlib.cbook.is_scalar_or_string(val)
[source] -
Return whether the given object is a scalar or string like.
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matplotlib.cbook.is_writable_file_like(obj)
[source] -
Return whether obj looks like a file object with a write method.
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matplotlib.cbook.local_over_kwdict(local_var, kwargs, *keys)
[source] -
[Deprecated] Enforces the priority of a local variable over potentially conflicting argument(s) from a kwargs dict. The following possible output values are considered in order of priority:
local_var > kwargs[keys[0]] > ... > kwargs[keys[-1]]
The first of these whose value is not None will be returned. If all are None then None will be returned. Each key in keys will be removed from the kwargs dict in place.
Parameters: -
local_varany object
-
The local variable (highest priority).
-
kwargsdict
-
Dictionary of keyword arguments; modified in place.
-
keysstr(s)
-
Name(s) of keyword arguments to process, in descending order of priority.
Returns: - any object
-
Either local_var or one of kwargs[key] for key in keys.
Raises: - IgnoredKeywordWarning
-
For each key in keys that is removed from kwargs but not used as the output value.
Notes
Deprecated since version 3.3.
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-
class matplotlib.cbook.maxdict(maxsize)
[source] -
Bases:
dict
A dictionary with a maximum size.
Notes
This doesn't override all the relevant methods to constrain the size, just
__setitem__
, so use with caution.
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matplotlib.cbook.normalize_kwargs(kw, alias_mapping=None, required=<deprecated parameter>, forbidden=<deprecated parameter>, allowed=<deprecated parameter>)
[source] -
Helper function to normalize kwarg inputs.
The order they are resolved are:
- aliasing
- required
- forbidden
- allowed
This order means that only the canonical names need appear in allowed, forbidden, required.
Parameters: -
kwdict
-
A dict of keyword arguments.
-
alias_mappingdict or Artist subclass or Artist instance, optional
-
A mapping between a canonical name to a list of aliases, in order of precedence from lowest to highest.
If the canonical value is not in the list it is assumed to have the highest priority.
If an Artist subclass or instance is passed, use its properties alias mapping.
-
requiredlist of str, optional
-
A list of keys that must be in kws. This parameter is deprecated.
-
forbiddenlist of str, optional
-
A list of keys which may not be in kw. This parameter is deprecated.
-
allowedlist of str, optional
-
A list of allowed fields. If this not None, then raise if kw contains any keys not in the union of required and allowed. To allow only the required fields pass in an empty tuple
allowed=()
. This parameter is deprecated.
Raises: - TypeError
-
To match what python raises if invalid args/kwargs are passed to a callable.
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matplotlib.cbook.open_file_cm(path_or_file, mode='r', encoding=None)
[source] -
Pass through file objects and context-manage path-likes.
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matplotlib.cbook.print_cycles(objects, outstream=<_io.TextIOWrapper name='<stdout>' mode='w' encoding='utf-8'>, show_progress=False)
[source] -
Print loops of cyclic references in the given objects.
It is often useful to pass in
gc.garbage
to find the cycles that are preventing some objects from being garbage collected.Parameters: - objects
-
A list of objects to find cycles in.
- outstream
-
The stream for output.
-
show_progressbool
-
If True, print the number of objects reached as they are found.
-
matplotlib.cbook.pts_to_midstep(x, *args)
[source] -
Convert continuous line to mid-steps.
Given a set of
N
points convert to2N
points which when connected linearly give a step function which changes values at the middle of the intervals.Parameters: -
xarray
-
The x location of the steps. May be empty.
-
y1, ..., yparray
-
y arrays to be turned into steps; all must be the same length as
x
.
Returns: - array
-
The x and y values converted to steps in the same order as the input; can be unpacked as
x_out, y1_out, ..., yp_out
. If the input is lengthN
, each of these arrays will be length2N
.
Examples
>>> x_s, y1_s, y2_s = pts_to_midstep(x, y1, y2)
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-
matplotlib.cbook.pts_to_poststep(x, *args)
[source] -
Convert continuous line to post-steps.
Given a set of
N
points convert to2N + 1
points, which when connected linearly give a step function which changes values at the end of the intervals.Parameters: -
xarray
-
The x location of the steps. May be empty.
-
y1, ..., yparray
-
y arrays to be turned into steps; all must be the same length as
x
.
Returns: - array
-
The x and y values converted to steps in the same order as the input; can be unpacked as
x_out, y1_out, ..., yp_out
. If the input is lengthN
, each of these arrays will be length2N + 1
. ForN=0
, the length will be 0.
Examples
>>> x_s, y1_s, y2_s = pts_to_poststep(x, y1, y2)
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-
matplotlib.cbook.pts_to_prestep(x, *args)
[source] -
Convert continuous line to pre-steps.
Given a set of
N
points, convert to2N - 1
points, which when connected linearly give a step function which changes values at the beginning of the intervals.Parameters: -
xarray
-
The x location of the steps. May be empty.
-
y1, ..., yparray
-
y arrays to be turned into steps; all must be the same length as
x
.
Returns: - array
-
The x and y values converted to steps in the same order as the input; can be unpacked as
x_out, y1_out, ..., yp_out
. If the input is lengthN
, each of these arrays will be length2N + 1
. ForN=0
, the length will be 0.
Examples
>>> x_s, y1_s, y2_s = pts_to_prestep(x, y1, y2)
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-
matplotlib.cbook.report_memory(i=0)
[source] -
Return the memory consumed by the process.
-
matplotlib.cbook.safe_first_element(obj)
[source] -
Return the first element in obj.
This is an type-independent way of obtaining the first element, supporting both index access and the iterator protocol.
-
matplotlib.cbook.safe_masked_invalid(x, copy=False)
[source]
-
matplotlib.cbook.sanitize_sequence(data)
[source] -
Convert dictview objects to list. Other inputs are returned unchanged.
-
class matplotlib.cbook.silent_list(type, seq=None)
[source] -
Bases:
list
A list with a short
repr()
.This is meant to be used for a homogeneous list of artists, so that they don't cause long, meaningless output.
Instead of
[<matplotlib.lines.Line2D object at 0x7f5749fed3c8>, <matplotlib.lines.Line2D object at 0x7f5749fed4e0>, <matplotlib.lines.Line2D object at 0x7f5758016550>]
one will get
<a list of 3 Line2D objects>
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matplotlib.cbook.simple_linear_interpolation(a, steps)
[source] -
Resample an array with
steps - 1
points between original point pairs.Along each column of a,
(steps - 1)
points are introduced between each original values; the values are linearly interpolated.Parameters: -
aarray, shape (n, ...)
-
stepsint
Returns: - array
-
shape
((n - 1) * steps + 1, ...)
-
-
matplotlib.cbook.strip_math(s)
[source] -
Remove latex formatting from mathtext.
Only handles fully math and fully non-math strings.
-
matplotlib.cbook.to_filehandle(fname, flag='r', return_opened=False, encoding=None)
[source] -
Convert a path to an open file handle or pass-through a file-like object.
Consider using
open_file_cm
instead, as it allows one to properly close newly created file objects more easily.Parameters: -
fnamestr or path-like or file-like
-
If
str
oros.PathLike
, the file is opened using the flags specified by flag and encoding. If a file-like object, it is passed through. -
flagstr, default 'r'
-
Passed as the mode argument to
open
when fname isstr
oros.PathLike
; ignored if fname is file-like. -
return_openedbool, default False
-
If True, return both the file object and a boolean indicating whether this was a new file (that the caller needs to close). If False, return only the new file.
-
encodingstr or None, default None
-
Passed as the mode argument to
open
when fname isstr
oros.PathLike
; ignored if fname is file-like.
Returns: -
fhfile-like
-
openedbool
-
opened is only returned if return_opened is True.
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-
matplotlib.cbook.violin_stats(X, method, points=100, quantiles=None)
[source] -
Return a list of dictionaries of data which can be used to draw a series of violin plots.
See the
Returns
section below to view the required keys of the dictionary.Users can skip this function and pass a user-defined set of dictionaries with the same keys to
violinplot
instead of using Matplotlib to do the calculations. See the Returns section below for the keys that must be present in the dictionaries.Parameters: -
Xarray-like
-
Sample data that will be used to produce the gaussian kernel density estimates. Must have 2 or fewer dimensions.
-
methodcallable
-
The method used to calculate the kernel density estimate for each column of data. When called via
method(v, coords)
, it should return a vector of the values of the KDE evaluated at the values specified in coords. -
pointsint, default: 100
-
Defines the number of points to evaluate each of the gaussian kernel density estimates at.
-
quantilesarray-like, default: None
-
Defines (if not None) a list of floats in interval [0, 1] for each column of data, which represents the quantiles that will be rendered for that column of data. Must have 2 or fewer dimensions. 1D array will be treated as a singleton list containing them.
Returns: - list of dict
-
A list of dictionaries containing the results for each column of data. The dictionaries contain at least the following:
- coords: A list of scalars containing the coordinates this particular kernel density estimate was evaluated at.
- vals: A list of scalars containing the values of the kernel density estimate at each of the coordinates given in coords.
- mean: The mean value for this column of data.
- median: The median value for this column of data.
- min: The minimum value for this column of data.
- max: The maximum value for this column of data.
- quantiles: The quantile values for this column of data.
-
-
exception matplotlib.cbook.deprecation.MatplotlibDeprecationWarning
[source] -
Bases:
UserWarning
A class for issuing deprecation warnings for Matplotlib users.
In light of the fact that Python builtin DeprecationWarnings are ignored by default as of Python 2.7 (see link below), this class was put in to allow for the signaling of deprecation, but via UserWarnings which are not ignored by default.
https://docs.python.org/dev/whatsnew/2.7.html#the-future-for-python-2-x
-
matplotlib.cbook.deprecation.deprecated(since, *, message='', name='', alternative='', pending=False, obj_type=None, addendum='', removal='')
[source] -
Decorator to mark a function, a class, or a property as deprecated.
When deprecating a classmethod, a staticmethod, or a property, the
@deprecated
decorator should go under@classmethod
and@staticmethod
(i.e.,deprecated
should directly decorate the underlying callable), but over@property
.Parameters: -
sincestr
-
The release at which this API became deprecated.
-
messagestr, optional
-
Override the default deprecation message. The
%(since)s
,%(name)s
,%(alternative)s
,%(obj_type)s
,%(addendum)s
, and%(removal)s
format specifiers will be replaced by the values of the respective arguments passed to this function. -
namestr, optional
-
The name used in the deprecation message; if not provided, the name is automatically determined from the deprecated object.
-
alternativestr, optional
-
An alternative API that the user may use in place of the deprecated API. The deprecation warning will tell the user about this alternative if provided.
-
pendingbool, optional
-
If True, uses a PendingDeprecationWarning instead of a DeprecationWarning. Cannot be used together with removal.
-
obj_typestr, optional
-
The object type being deprecated; by default, 'class' if decorating a class, 'attribute' if decorating a property, 'function' otherwise.
-
addendumstr, optional
-
Additional text appended directly to the final message.
-
removalstr, optional
-
The expected removal version. With the default (an empty string), a removal version is automatically computed from since. Set to other Falsy values to not schedule a removal date. Cannot be used together with pending.
Examples
Basic example:
@deprecated('1.4.0') def the_function_to_deprecate(): pass
-
-
matplotlib.cbook.deprecation.mplDeprecation
-
alias of
matplotlib.cbook.deprecation.MatplotlibDeprecationWarning
-
matplotlib.cbook.deprecation.warn_deprecated(since, *, message='', name='', alternative='', pending=False, obj_type='', addendum='', removal='')
[source] -
Display a standardized deprecation.
Parameters: -
sincestr
-
The release at which this API became deprecated.
-
messagestr, optional
-
Override the default deprecation message. The
%(since)s
,%(name)s
,%(alternative)s
,%(obj_type)s
,%(addendum)s
, and%(removal)s
format specifiers will be replaced by the values of the respective arguments passed to this function. -
namestr, optional
-
The name of the deprecated object.
-
alternativestr, optional
-
An alternative API that the user may use in place of the deprecated API. The deprecation warning will tell the user about this alternative if provided.
-
pendingbool, optional
-
If True, uses a PendingDeprecationWarning instead of a DeprecationWarning. Cannot be used together with removal.
-
obj_typestr, optional
-
The object type being deprecated.
-
addendumstr, optional
-
Additional text appended directly to the final message.
-
removalstr, optional
-
The expected removal version. With the default (an empty string), a removal version is automatically computed from since. Set to other Falsy values to not schedule a removal date. Cannot be used together with pending.
Examples
Basic example:
# To warn of the deprecation of "matplotlib.name_of_module" warn_deprecated('1.4.0', name='matplotlib.name_of_module', obj_type='module')
-
© 2012–2018 Matplotlib Development Team. All rights reserved.
Licensed under the Matplotlib License Agreement.
https://matplotlib.org/3.3.3/api/cbook_api.html