226 lines
7.9 KiB
Python
226 lines
7.9 KiB
Python
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import sys as _sys
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from keyword import iskeyword as _iskeyword
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def _validate_names(typename, field_names, extra_field_names):
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"""
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Ensure that all the given names are valid Python identifiers that
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do not start with '_'. Also check that there are no duplicates
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among field_names + extra_field_names.
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"""
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for name in [typename] + field_names + extra_field_names:
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if not isinstance(name, str):
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raise TypeError('typename and all field names must be strings')
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if not name.isidentifier():
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raise ValueError('typename and all field names must be valid '
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f'identifiers: {name!r}')
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if _iskeyword(name):
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raise ValueError('typename and all field names cannot be a '
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f'keyword: {name!r}')
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seen = set()
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for name in field_names + extra_field_names:
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if name.startswith('_'):
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raise ValueError('Field names cannot start with an underscore: '
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f'{name!r}')
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if name in seen:
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raise ValueError(f'Duplicate field name: {name!r}')
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seen.add(name)
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# Note: This code is adapted from CPython:Lib/collections/__init__.py
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def _make_tuple_bunch(typename, field_names, extra_field_names=None,
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module=None):
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"""
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Create a namedtuple-like class with additional attributes.
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This function creates a subclass of tuple that acts like a namedtuple
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and that has additional attributes.
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The additional attributes are listed in `extra_field_names`. The
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values assigned to these attributes are not part of the tuple.
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The reason this function exists is to allow functions in SciPy
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that currently return a tuple or a namedtuple to returned objects
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that have additional attributes, while maintaining backwards
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compatibility.
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This should only be used to enhance *existing* functions in SciPy.
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New functions are free to create objects as return values without
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having to maintain backwards compatibility with an old tuple or
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namedtuple return value.
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Parameters
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----------
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typename : str
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The name of the type.
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field_names : list of str
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List of names of the values to be stored in the tuple. These names
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will also be attributes of instances, so the values in the tuple
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can be accessed by indexing or as attributes. At least one name
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is required. See the Notes for additional restrictions.
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extra_field_names : list of str, optional
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List of names of values that will be stored as attributes of the
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object. See the notes for additional restrictions.
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Returns
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-------
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cls : type
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The new class.
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Notes
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-----
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There are restrictions on the names that may be used in `field_names`
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and `extra_field_names`:
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* The names must be unique--no duplicates allowed.
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* The names must be valid Python identifiers, and must not begin with
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an underscore.
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* The names must not be Python keywords (e.g. 'def', 'and', etc., are
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not allowed).
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Examples
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--------
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>>> from scipy._lib._bunch import _make_tuple_bunch
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Create a class that acts like a namedtuple with length 2 (with field
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names `x` and `y`) that will also have the attributes `w` and `beta`:
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>>> Result = _make_tuple_bunch('Result', ['x', 'y'], ['w', 'beta'])
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`Result` is the new class. We call it with keyword arguments to create
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a new instance with given values.
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>>> result1 = Result(x=1, y=2, w=99, beta=0.5)
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>>> result1
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Result(x=1, y=2, w=99, beta=0.5)
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`result1` acts like a tuple of length 2:
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>>> len(result1)
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2
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>>> result1[:]
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(1, 2)
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The values assigned when the instance was created are available as
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attributes:
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>>> result1.y
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2
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>>> result1.beta
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0.5
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"""
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if len(field_names) == 0:
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raise ValueError('field_names must contain at least one name')
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if extra_field_names is None:
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extra_field_names = []
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_validate_names(typename, field_names, extra_field_names)
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typename = _sys.intern(str(typename))
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field_names = tuple(map(_sys.intern, field_names))
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extra_field_names = tuple(map(_sys.intern, extra_field_names))
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all_names = field_names + extra_field_names
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arg_list = ', '.join(field_names)
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full_list = ', '.join(all_names)
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repr_fmt = ''.join(('(',
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', '.join(f'{name}=%({name})r' for name in all_names),
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')'))
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tuple_new = tuple.__new__
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_dict, _tuple, _zip = dict, tuple, zip
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# Create all the named tuple methods to be added to the class namespace
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s = f"""\
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def __new__(_cls, {arg_list}, **extra_fields):
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return _tuple_new(_cls, ({arg_list},))
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def __init__(self, {arg_list}, **extra_fields):
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for key in self._extra_fields:
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if key not in extra_fields:
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raise TypeError("missing keyword argument '%s'" % (key,))
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for key, val in extra_fields.items():
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if key not in self._extra_fields:
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raise TypeError("unexpected keyword argument '%s'" % (key,))
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self.__dict__[key] = val
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def __setattr__(self, key, val):
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if key in {repr(field_names)}:
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raise AttributeError("can't set attribute %r of class %r"
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% (key, self.__class__.__name__))
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else:
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self.__dict__[key] = val
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"""
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del arg_list
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namespace = {'_tuple_new': tuple_new,
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'__builtins__': dict(TypeError=TypeError,
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AttributeError=AttributeError),
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'__name__': f'namedtuple_{typename}'}
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exec(s, namespace)
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__new__ = namespace['__new__']
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__new__.__doc__ = f'Create new instance of {typename}({full_list})'
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__init__ = namespace['__init__']
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__init__.__doc__ = f'Instantiate instance of {typename}({full_list})'
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__setattr__ = namespace['__setattr__']
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def __repr__(self):
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'Return a nicely formatted representation string'
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return self.__class__.__name__ + repr_fmt % self._asdict()
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def _asdict(self):
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'Return a new dict which maps field names to their values.'
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out = _dict(_zip(self._fields, self))
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out.update(self.__dict__)
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return out
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def __getnewargs_ex__(self):
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'Return self as a plain tuple. Used by copy and pickle.'
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return _tuple(self), self.__dict__
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# Modify function metadata to help with introspection and debugging
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for method in (__new__, __repr__, _asdict, __getnewargs_ex__):
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method.__qualname__ = f'{typename}.{method.__name__}'
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# Build-up the class namespace dictionary
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# and use type() to build the result class
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class_namespace = {
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'__doc__': f'{typename}({full_list})',
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'_fields': field_names,
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'__new__': __new__,
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'__init__': __init__,
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'__repr__': __repr__,
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'__setattr__': __setattr__,
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'_asdict': _asdict,
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'_extra_fields': extra_field_names,
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'__getnewargs_ex__': __getnewargs_ex__,
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}
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for index, name in enumerate(field_names):
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def _get(self, index=index):
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return self[index]
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class_namespace[name] = property(_get)
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for name in extra_field_names:
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def _get(self, name=name):
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return self.__dict__[name]
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class_namespace[name] = property(_get)
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result = type(typename, (tuple,), class_namespace)
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# For pickling to work, the __module__ variable needs to be set to the
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# frame where the named tuple is created. Bypass this step in environments
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# where sys._getframe is not defined (Jython for example) or sys._getframe
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# is not defined for arguments greater than 0 (IronPython), or where the
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# user has specified a particular module.
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if module is None:
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try:
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module = _sys._getframe(1).f_globals.get('__name__', '__main__')
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except (AttributeError, ValueError):
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pass
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if module is not None:
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result.__module__ = module
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__new__.__module__ = module
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return result
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