Source code for cycler

"""
Cycler
======

Cycling through combinations of values, producing dictionaries.

You can add cyclers::

    from cycler import cycler
    cc = (cycler(color=list('rgb')) +
          cycler(linestyle=['-', '--', '-.']))
    for d in cc:
        print(d)

Results in::

    {'color': 'r', 'linestyle': '-'}
    {'color': 'g', 'linestyle': '--'}
    {'color': 'b', 'linestyle': '-.'}


You can multiply cyclers::

    from cycler import cycler
    cc = (cycler(color=list('rgb')) *
          cycler(linestyle=['-', '--', '-.']))
    for d in cc:
        print(d)

Results in::

    {'color': 'r', 'linestyle': '-'}
    {'color': 'r', 'linestyle': '--'}
    {'color': 'r', 'linestyle': '-.'}
    {'color': 'g', 'linestyle': '-'}
    {'color': 'g', 'linestyle': '--'}
    {'color': 'g', 'linestyle': '-.'}
    {'color': 'b', 'linestyle': '-'}
    {'color': 'b', 'linestyle': '--'}
    {'color': 'b', 'linestyle': '-.'}
"""


import copy
from functools import reduce
from itertools import product, cycle
from operator import mul, add

__version__ = '0.10.0'


def _process_keys(left, right):
    """
    Helper function to compose cycler keys.

    Parameters
    ----------
    left, right : iterable of dictionaries or None
        The cyclers to be composed.

    Returns
    -------
    keys : set
        The keys in the composition of the two cyclers.
    """
    l_peek = next(iter(left)) if left is not None else {}
    r_peek = next(iter(right)) if right is not None else {}
    l_key = set(l_peek.keys())
    r_key = set(r_peek.keys())
    if l_key & r_key:
        raise ValueError("Can not compose overlapping cycles")
    return l_key | r_key


[docs]def concat(left, right): r""" Concatenate `Cycler`\s, as if chained using `itertools.chain`. The keys must match exactly. Examples -------- >>> num = cycler('a', range(3)) >>> let = cycler('a', 'abc') >>> num.concat(let) cycler('a', [0, 1, 2, 'a', 'b', 'c']) Returns ------- `Cycler` The concatenated cycler. """ if left.keys != right.keys: raise ValueError("Keys do not match:\n" "\tIntersection: {both!r}\n" "\tDisjoint: {just_one!r}".format( both=left.keys & right.keys, just_one=left.keys ^ right.keys)) _l = left.by_key() _r = right.by_key() return reduce(add, (_cycler(k, _l[k] + _r[k]) for k in left.keys))
[docs]class Cycler: """ Composable cycles. This class has compositions methods: ``+`` for 'inner' products (zip) ``+=`` in-place ``+`` ``*`` for outer products (`itertools.product`) and integer multiplication ``*=`` in-place ``*`` and supports basic slicing via ``[]``. Parameters ---------- left, right : Cycler or None The 'left' and 'right' cyclers. op : func or None Function which composes the 'left' and 'right' cyclers. """ def __call__(self): return cycle(self)
[docs] def __init__(self, left, right=None, op=None): """ Semi-private init. Do not use this directly, use `cycler` function instead. """ if isinstance(left, Cycler): self._left = Cycler(left._left, left._right, left._op) elif left is not None: # Need to copy the dictionary or else that will be a residual # mutable that could lead to strange errors self._left = [copy.copy(v) for v in left] else: self._left = None if isinstance(right, Cycler): self._right = Cycler(right._left, right._right, right._op) elif right is not None: # Need to copy the dictionary or else that will be a residual # mutable that could lead to strange errors self._right = [copy.copy(v) for v in right] else: self._right = None self._keys = _process_keys(self._left, self._right) self._op = op
def __contains__(self, k): return k in self._keys @property def keys(self): """The keys this Cycler knows about.""" return set(self._keys)
[docs] def change_key(self, old, new): """ Change a key in this cycler to a new name. Modification is performed in-place. Does nothing if the old key is the same as the new key. Raises a ValueError if the new key is already a key. Raises a KeyError if the old key isn't a key. """ if old == new: return if new in self._keys: raise ValueError( "Can't replace {old} with {new}, {new} is already a key" .format(old=old, new=new) ) if old not in self._keys: raise KeyError("Can't replace {old} with {new}, {old} is not a key" .format(old=old, new=new)) self._keys.remove(old) self._keys.add(new) if self._right is not None and old in self._right.keys: self._right.change_key(old, new) # self._left should always be non-None # if self._keys is non-empty. elif isinstance(self._left, Cycler): self._left.change_key(old, new) else: # It should be completely safe at this point to # assume that the old key can be found in each # iteration. self._left = [{new: entry[old]} for entry in self._left]
@classmethod def _from_iter(cls, label, itr): """ Class method to create 'base' Cycler objects that do not have a 'right' or 'op' and for which the 'left' object is not another Cycler. Parameters ---------- label : str The property key. itr : iterable Finite length iterable of the property values. Returns ------- `Cycler` New 'base' cycler. """ ret = cls(None) ret._left = list({label: v} for v in itr) ret._keys = {label} return ret def __getitem__(self, key): # TODO : maybe add numpy style fancy slicing if isinstance(key, slice): trans = self.by_key() return reduce(add, (_cycler(k, v[key]) for k, v in trans.items())) else: raise ValueError("Can only use slices with Cycler.__getitem__") def __iter__(self): if self._right is None: for left in self._left: yield dict(left) else: for a, b in self._op(self._left, self._right): out = {} out.update(a) out.update(b) yield out def __add__(self, other): """ Pair-wise combine two equal length cyclers (zip). Parameters ---------- other : Cycler """ if len(self) != len(other): raise ValueError("Can only add equal length cycles, " f"not {len(self)} and {len(other)}") return Cycler(self, other, zip) def __mul__(self, other): """ Outer product of two cyclers (`itertools.product`) or integer multiplication. Parameters ---------- other : Cycler or int """ if isinstance(other, Cycler): return Cycler(self, other, product) elif isinstance(other, int): trans = self.by_key() return reduce(add, (_cycler(k, v*other) for k, v in trans.items())) else: return NotImplemented def __rmul__(self, other): return self * other def __len__(self): op_dict = {zip: min, product: mul} if self._right is None: return len(self._left) l_len = len(self._left) r_len = len(self._right) return op_dict[self._op](l_len, r_len) def __iadd__(self, other): """ In-place pair-wise combine two equal length cyclers (zip). Parameters ---------- other : Cycler """ if not isinstance(other, Cycler): raise TypeError("Cannot += with a non-Cycler object") # True shallow copy of self is fine since this is in-place old_self = copy.copy(self) self._keys = _process_keys(old_self, other) self._left = old_self self._op = zip self._right = Cycler(other._left, other._right, other._op) return self def __imul__(self, other): """ In-place outer product of two cyclers (`itertools.product`). Parameters ---------- other : Cycler """ if not isinstance(other, Cycler): raise TypeError("Cannot *= with a non-Cycler object") # True shallow copy of self is fine since this is in-place old_self = copy.copy(self) self._keys = _process_keys(old_self, other) self._left = old_self self._op = product self._right = Cycler(other._left, other._right, other._op) return self def __eq__(self, other): if len(self) != len(other): return False if self.keys ^ other.keys: return False return all(a == b for a, b in zip(self, other)) def __ne__(self, other): return not (self == other) __hash__ = None def __repr__(self): op_map = {zip: '+', product: '*'} if self._right is None: lab = self.keys.pop() itr = list(v[lab] for v in self) return f"cycler({lab!r}, {itr!r})" else: op = op_map.get(self._op, '?') msg = "({left!r} {op} {right!r})" return msg.format(left=self._left, op=op, right=self._right) def _repr_html_(self): # an table showing the value of each key through a full cycle output = "<table>" sorted_keys = sorted(self.keys, key=repr) for key in sorted_keys: output += f"<th>{key!r}</th>" for d in iter(self): output += "<tr>" for k in sorted_keys: output += f"<td>{d[k]!r}</td>" output += "</tr>" output += "</table>" return output
[docs] def by_key(self): """ Values by key. This returns the transposed values of the cycler. Iterating over a `Cycler` yields dicts with a single value for each key, this method returns a `dict` of `list` which are the values for the given key. The returned value can be used to create an equivalent `Cycler` using only `+`. Returns ------- transpose : dict dict of lists of the values for each key. """ # TODO : sort out if this is a bottle neck, if there is a better way # and if we care. keys = self.keys out = {k: list() for k in keys} for d in self: for k in keys: out[k].append(d[k]) return out
# for back compatibility _transpose = by_key
[docs] def simplify(self): """ Simplify the cycler into a sum (but no products) of cyclers. Returns ------- simple : Cycler """ # TODO: sort out if it is worth the effort to make sure this is # balanced. Currently it is is # (((a + b) + c) + d) vs # ((a + b) + (c + d)) # I would believe that there is some performance implications trans = self.by_key() return reduce(add, (_cycler(k, v) for k, v in trans.items()))
concat = concat
[docs]def cycler(*args, **kwargs): """ Create a new `Cycler` object from a single positional argument, a pair of positional arguments, or the combination of keyword arguments. cycler(arg) cycler(label1=itr1[, label2=iter2[, ...]]) cycler(label, itr) Form 1 simply copies a given `Cycler` object. Form 2 composes a `Cycler` as an inner product of the pairs of keyword arguments. In other words, all of the iterables are cycled simultaneously, as if through zip(). Form 3 creates a `Cycler` from a label and an iterable. This is useful for when the label cannot be a keyword argument (e.g., an integer or a name that has a space in it). Parameters ---------- arg : Cycler Copy constructor for Cycler (does a shallow copy of iterables). label : name The property key. In the 2-arg form of the function, the label can be any hashable object. In the keyword argument form of the function, it must be a valid python identifier. itr : iterable Finite length iterable of the property values. Can be a single-property `Cycler` that would be like a key change, but as a shallow copy. Returns ------- cycler : Cycler New `Cycler` for the given property """ if args and kwargs: raise TypeError("cyl() can only accept positional OR keyword " "arguments -- not both.") if len(args) == 1: if not isinstance(args[0], Cycler): raise TypeError("If only one positional argument given, it must " "be a Cycler instance.") return Cycler(args[0]) elif len(args) == 2: return _cycler(*args) elif len(args) > 2: raise TypeError("Only a single Cycler can be accepted as the lone " "positional argument. Use keyword arguments instead.") if kwargs: return reduce(add, (_cycler(k, v) for k, v in kwargs.items())) raise TypeError("Must have at least a positional OR keyword arguments")
def _cycler(label, itr): """ Create a new `Cycler` object from a property name and iterable of values. Parameters ---------- label : hashable The property key. itr : iterable Finite length iterable of the property values. Returns ------- cycler : Cycler New `Cycler` for the given property """ if isinstance(itr, Cycler): keys = itr.keys if len(keys) != 1: msg = "Can not create Cycler from a multi-property Cycler" raise ValueError(msg) lab = keys.pop() # Doesn't need to be a new list because # _from_iter() will be creating that new list anyway. itr = (v[lab] for v in itr) return Cycler._from_iter(label, itr)