""" Helper functions for managing the Matplotlib API. This documentation is only relevant for Matplotlib developers, not for users. .. warning:: This module and its submodules are for internal use only. Do not use them in your own code. We may change the API at any time with no warning. """ import functools import itertools import re import sys import warnings from .deprecation import ( deprecated, warn_deprecated, rename_parameter, delete_parameter, make_keyword_only, deprecate_method_override, deprecate_privatize_attribute, suppress_matplotlib_deprecation_warning, MatplotlibDeprecationWarning) class classproperty: """ Like `property`, but also triggers on access via the class, and it is the *class* that's passed as argument. Examples -------- :: class C: @classproperty def foo(cls): return cls.__name__ assert C.foo == "C" """ def __init__(self, fget, fset=None, fdel=None, doc=None): self._fget = fget if fset is not None or fdel is not None: raise ValueError('classproperty only implements fget.') self.fset = fset self.fdel = fdel # docs are ignored for now self._doc = doc def __get__(self, instance, owner): return self._fget(owner) @property def fget(self): return self._fget # In the following check_foo() functions, the first parameter starts with an # underscore because it is intended to be positional-only (e.g., so that # `_api.check_isinstance([...], types=foo)` doesn't fail. def check_isinstance(_types, **kwargs): """ For each *key, value* pair in *kwargs*, check that *value* is an instance of one of *_types*; if not, raise an appropriate TypeError. As a special case, a ``None`` entry in *_types* is treated as NoneType. Examples -------- >>> _api.check_isinstance((SomeClass, None), arg=arg) """ types = _types none_type = type(None) types = ((types,) if isinstance(types, type) else (none_type,) if types is None else tuple(none_type if tp is None else tp for tp in types)) def type_name(tp): return ("None" if tp is none_type else tp.__qualname__ if tp.__module__ == "builtins" else f"{tp.__module__}.{tp.__qualname__}") for k, v in kwargs.items(): if not isinstance(v, types): names = [*map(type_name, types)] if "None" in names: # Move it to the end for better wording. names.remove("None") names.append("None") raise TypeError( "{!r} must be an instance of {}, not a {}".format( k, ", ".join(names[:-1]) + " or " + names[-1] if len(names) > 1 else names[0], type_name(type(v)))) def check_in_list(_values, *, _print_supported_values=True, **kwargs): """ For each *key, value* pair in *kwargs*, check that *value* is in *_values*. Parameters ---------- _values : iterable Sequence of values to check on. _print_supported_values : bool, default: True Whether to print *_values* when raising ValueError. **kwargs : dict *key, value* pairs as keyword arguments to find in *_values*. Raises ------ ValueError If any *value* in *kwargs* is not found in *_values*. Examples -------- >>> _api.check_in_list(["foo", "bar"], arg=arg, other_arg=other_arg) """ values = _values for key, val in kwargs.items(): if val not in values: msg = f"{val!r} is not a valid value for {key}" if _print_supported_values: msg += f"; supported values are {', '.join(map(repr, values))}" raise ValueError(msg) def check_shape(_shape, **kwargs): """ For each *key, value* pair in *kwargs*, check that *value* has the shape *_shape*, if not, raise an appropriate ValueError. *None* in the shape is treated as a "free" size that can have any length. e.g. (None, 2) -> (N, 2) The values checked must be numpy arrays. Examples -------- To check for (N, 2) shaped arrays >>> _api.check_shape((None, 2), arg=arg, other_arg=other_arg) """ target_shape = _shape for k, v in kwargs.items(): data_shape = v.shape if len(target_shape) != len(data_shape) or any( t not in [s, None] for t, s in zip(target_shape, data_shape) ): dim_labels = iter(itertools.chain( 'MNLIJKLH', (f"D{i}" for i in itertools.count()))) text_shape = ", ".join((str(n) if n is not None else next(dim_labels) for n in target_shape)) raise ValueError( f"{k!r} must be {len(target_shape)}D " f"with shape ({text_shape}). " f"Your input has shape {v.shape}." ) def check_getitem(_mapping, **kwargs): """ *kwargs* must consist of a single *key, value* pair. If *key* is in *_mapping*, return ``_mapping[value]``; else, raise an appropriate ValueError. Examples -------- >>> _api.check_getitem({"foo": "bar"}, arg=arg) """ mapping = _mapping if len(kwargs) != 1: raise ValueError("check_getitem takes a single keyword argument") (k, v), = kwargs.items() try: return mapping[v] except KeyError: raise ValueError( "{!r} is not a valid value for {}; supported values are {}" .format(v, k, ', '.join(map(repr, mapping)))) from None def caching_module_getattr(cls): """ Helper decorator for implementing module-level ``__getattr__`` as a class. This decorator must be used at the module toplevel as follows:: @caching_module_getattr class __getattr__: # The class *must* be named ``__getattr__``. @property # Only properties are taken into account. def name(self): ... The ``__getattr__`` class will be replaced by a ``__getattr__`` function such that trying to access ``name`` on the module will resolve the corresponding property (which may be decorated e.g. with ``_api.deprecated`` for deprecating module globals). The properties are all implicitly cached. Moreover, a suitable AttributeError is generated and raised if no property with the given name exists. """ assert cls.__name__ == "__getattr__" # Don't accidentally export cls dunders. props = {name: prop for name, prop in vars(cls).items() if isinstance(prop, property)} instance = cls() @functools.lru_cache(None) def __getattr__(name): if name in props: return props[name].__get__(instance) raise AttributeError( f"module {cls.__module__!r} has no attribute {name!r}") return __getattr__ def select_matching_signature(funcs, *args, **kwargs): """ Select and call the function that accepts ``*args, **kwargs``. *funcs* is a list of functions which should not raise any exception (other than `TypeError` if the arguments passed do not match their signature). `select_matching_signature` tries to call each of the functions in *funcs* with ``*args, **kwargs`` (in the order in which they are given). Calls that fail with a `TypeError` are silently skipped. As soon as a call succeeds, `select_matching_signature` returns its return value. If no function accepts ``*args, **kwargs``, then the `TypeError` raised by the last failing call is re-raised. Callers should normally make sure that any ``*args, **kwargs`` can only bind a single *func* (to avoid any ambiguity), although this is not checked by `select_matching_signature`. Notes ----- `select_matching_signature` is intended to help implementing signature-overloaded functions. In general, such functions should be avoided, except for back-compatibility concerns. A typical use pattern is :: def my_func(*args, **kwargs): params = select_matching_signature( [lambda old1, old2: locals(), lambda new: locals()], *args, **kwargs) if "old1" in params: warn_deprecated(...) old1, old2 = params.values() # note that locals() is ordered. else: new, = params.values() # do things with params which allows *my_func* to be called either with two parameters (*old1* and *old2*) or a single one (*new*). Note that the new signature is given last, so that callers get a `TypeError` corresponding to the new signature if the arguments they passed in do not match any signature. """ # Rather than relying on locals() ordering, one could have just used func's # signature (``bound = inspect.signature(func).bind(*args, **kwargs); # bound.apply_defaults(); return bound``) but that is significantly slower. for i, func in enumerate(funcs): try: return func(*args, **kwargs) except TypeError: if i == len(funcs) - 1: raise def warn_external(message, category=None): """ `warnings.warn` wrapper that sets *stacklevel* to "outside Matplotlib". The original emitter of the warning can be obtained by patching this function back to `warnings.warn`, i.e. ``_api.warn_external = warnings.warn`` (or ``functools.partial(warnings.warn, stacklevel=2)``, etc.). """ frame = sys._getframe() for stacklevel in itertools.count(1): # lgtm[py/unused-loop-variable] if frame is None: # when called in embedded context may hit frame is None break if not re.match(r"\A(matplotlib|mpl_toolkits)(\Z|\.(?!tests\.))", # Work around sphinx-gallery not setting __name__. frame.f_globals.get("__name__", "")): break frame = frame.f_back warnings.warn(message, category, stacklevel)