PEP: 584 Title: Add Union Operators To dict Version: $Revision$ Last-Modified: $Date$ Author: Steven D'Aprano , Brandt Bucher BDFL-Delegate: Guido van Rossum Status: Final Type: Standards Track Content-Type: text/x-rst Created: 01-Mar-2019 Python-Version: 3.9 Post-History: 01-Mar-2019, 16-Oct-2019, 02-Dec-2019, 04-Feb-2020, 17-Feb-2020 Resolution: https://mail.python.org/archives/list/python-dev@python.org/thread/6KT2KIOTYXMDCD2CCAOLOI7LUGTN6MBS ======== Abstract ======== This PEP proposes adding merge (``|``) and update (``|=``) operators to the built-in ``dict`` class. .. note:: After this PEP was accepted, the decision was made to also implement the new operators for `several other standard library mappings `_. ========== Motivation ========== The current ways to merge two dicts have several disadvantages: --------------- ``dict.update`` --------------- ``d1.update(d2)`` modifies ``d1`` in-place. ``e = d1.copy(); e.update(d2)`` is not an expression and needs a temporary variable. ---------------- ``{**d1, **d2}`` ---------------- Dict unpacking looks ugly and is not easily discoverable. Few people would be able to guess what it means the first time they see it, or think of it as the "obvious way" to merge two dicts. `As Guido said `_: I'm sorry for PEP 448, but even if you know about ``**d`` in simpler contexts, if you were to ask a typical Python user how to combine two dicts into a new one, I doubt many people would think of ``{**d1, **d2}``. I know I myself had forgotten about it when this thread started! ``{**d1, **d2}`` ignores the types of the mappings and always returns a ``dict``. ``type(d1)({**d1, **d2})`` fails for dict subclasses such as ``defaultdict`` that have an incompatible ``__init__`` method. ------------------------ ``collections.ChainMap`` ------------------------ ``ChainMap`` is unfortunately poorly-known and doesn't qualify as "obvious". It also resolves duplicate keys in the opposite order to that expected ("first seen wins" instead of "last seen wins"). Like dict unpacking, it is tricky to get it to honor the desired subclass. For the same reason, ``type(d1)(ChainMap(d2, d1))`` fails for some subclasses of dict. Further, ChainMaps wrap their underlying dicts, so writes to the ChainMap will modify the original dict:: >>> d1 = {'spam': 1} >>> d2 = {'eggs': 2} >>> merged = ChainMap(d2, d1) >>> merged['eggs'] = 999 >>> d2 {'eggs': 999} ------------------ ``dict(d1, **d2)`` ------------------ This "neat trick" is not well-known, and only works when ``d2`` is entirely string-keyed:: >>> d1 = {"spam": 1} >>> d2 = {3665: 2} >>> dict(d1, **d2) Traceback (most recent call last): ... TypeError: keywords must be strings ========= Rationale ========= The new operators will have the same relationship to the ``dict.update`` method as the list concatenate (``+``) and extend (``+=``) operators have to ``list.extend``. Note that this is somewhat different from the relationship that ``|``/``|=`` have with ``set.update``; the authors have determined that allowing the in-place operator to accept a wider range of types (as ``list`` does) is a more useful design, and that restricting the types of the binary operator's operands (again, as ``list`` does) will help avoid silent errors caused by complicated implicit type casting on both sides. Key conflicts will be resolved by keeping the rightmost value. This matches the existing behavior of similar ``dict`` operations, where the last seen value always wins:: {'a': 1, 'a': 2} {**d, **e} d.update(e) d[k] = v {k: v for x in (d, e) for (k, v) in x.items()} All of the above follow the same rule. This PEP takes the position that this behavior is simple, obvious, usually the behavior we want, and should be the default behavior for dicts. This means that dict union is not commutative; in general ``d | e != e | d``. Similarly, the *iteration order* of the key-value pairs in the dictionary will follow the same semantics as the examples above, with each newly added key (and its value) being appended to the current sequence. ============= Specification ============= Dict union will return a new ``dict`` consisting of the left operand merged with the right operand, each of which must be a ``dict`` (or an instance of a ``dict`` subclass). If a key appears in both operands, the last-seen value (i.e. that from the right-hand operand) wins:: >>> d = {'spam': 1, 'eggs': 2, 'cheese': 3} >>> e = {'cheese': 'cheddar', 'aardvark': 'Ethel'} >>> d | e {'spam': 1, 'eggs': 2, 'cheese': 'cheddar', 'aardvark': 'Ethel'} >>> e | d {'cheese': 3, 'aardvark': 'Ethel', 'spam': 1, 'eggs': 2} The augmented assignment version operates in-place:: >>> d |= e >>> d {'spam': 1, 'eggs': 2, 'cheese': 'cheddar', 'aardvark': 'Ethel'} Augmented assignment behaves identically to the ``update`` method called with a single positional argument, so it also accepts anything implementing the Mapping protocol (more specifically, anything with the ``keys`` and ``__getitem__`` methods) or iterables of key-value pairs. This is analogous to ``list +=`` and ``list.extend``, which accept any iterable, not just lists. Continued from above:: >>> d | [('spam', 999)] Traceback (most recent call last): ... TypeError: can only merge dict (not "list") to dict >>> d |= [('spam', 999)] >>> d {'spam': 999, 'eggs': 2, 'cheese': 'cheddar', 'aardvark': 'Ethel'} When new keys are added, their order matches their order within the right-hand mapping, if any exists for its type. ======================== Reference Implementation ======================== One of the authors has `written a C implementation `_. An *approximate* pure-Python implementation is:: def __or__(self, other): if not isinstance(other, dict): return NotImplemented new = dict(self) new.update(other) return new def __ror__(self, other): if not isinstance(other, dict): return NotImplemented new = dict(other) new.update(self) return new def __ior__(self, other): dict.update(self, other) return self ================ Major Objections ================ ----------------------------- Dict Union Is Not Commutative ----------------------------- Union is commutative, but dict union will not be (``d | e != e | d``). '''''''' Response '''''''' There is precedent for non-commutative unions in Python:: >>> {0} | {False} {0} >>> {False} | {0} {False} While the results may be equal, they are distinctly different. In general, ``a | b`` is not the same operation as ``b | a``. ------------------------------ Dict Union Will Be Inefficient ------------------------------ Giving a pipe operator to mappings is an invitation to writing code that doesn't scale well. Repeated dict union is inefficient: ``d | e | f | g | h`` creates and destroys three temporary mappings. '''''''' Response '''''''' The same argument applies to sequence concatenation. Sequence concatenation grows with the total number of items in the sequences, leading to O(N**2) (quadratic) performance. Dict union is likely to involve duplicate keys, so the temporary mappings will not grow as fast. Just as it is rare for people to concatenate large numbers of lists or tuples, the authors of this PEP believe that it will be rare for people to merge large numbers of dicts. ``collections.Counter`` is a dict subclass that supports many operators, and there are no known examples of people having performance issues due to combining large numbers of Counters. Further, a survey of the standard library by the authors found no examples of merging more than two dicts, so this is unlikely to be a performance problem in practice... "Everything is fast for small enough N". If one expects to be merging a large number of dicts where performance is an issue, it may be better to use an explicit loop and in-place merging:: new = {} for d in many_dicts: new |= d ------------------- Dict Union Is Lossy ------------------- Dict union can lose data (values may disappear); no other form of union is lossy. '''''''' Response '''''''' It isn't clear why the first part of this argument is a problem. ``dict.update()`` may throw away values, but not keys; that is expected behavior, and will remain expected behavior regardless of whether it is spelled as ``update()`` or ``|``. Other types of union are also lossy, in the sense of not being reversible; you cannot get back the two operands given only the union. ``a | b == 365``... what are ``a`` and ``b``? --------------------- Only One Way To Do It --------------------- Dict union will violate the Only One Way koan from the Zen. '''''''' Response '''''''' There is no such koan. "Only One Way" is a calumny about Python originating long ago from the Perl community. -------------------------- More Than One Way To Do It -------------------------- Okay, the Zen doesn't say that there should be Only One Way To Do It. But it does have a prohibition against allowing "more than one way to do it". '''''''' Response '''''''' There is no such prohibition. The "Zen of Python" merely expresses a *preference* for "only one *obvious* way":: There should be one-- and preferably only one --obvious way to do it. The emphasis here is that there should be an obvious way to do "it". In the case of dict update operations, there are at least two different operations that we might wish to do: - *Update a dict in place*: The Obvious Way is to use the ``update()`` method. If this proposal is accepted, the ``|=`` augmented assignment operator will also work, but that is a side-effect of how augmented assignments are defined. Which you choose is a matter of taste. - *Merge two existing dicts into a third, new dict*: This PEP proposes that the Obvious Way is to use the ``|`` merge operator. In practice, this preference for "only one way" is frequently violated in Python. For example, every ``for`` loop could be re-written as a ``while`` loop; every ``if`` block could be written as an ``if``/ ``else`` block. List, set and dict comprehensions could all be replaced by generator expressions. Lists offer no fewer than five ways to implement concatenation: - Concatenation operator: ``a + b`` - In-place concatenation operator: ``a += b`` - Slice assignment: ``a[len(a):] = b`` - Sequence unpacking: ``[*a, *b]`` - Extend method: ``a.extend(b)`` We should not be too strict about rejecting useful functionality because it violates "only one way". ------------------------------------------ Dict Union Makes Code Harder To Understand ------------------------------------------ Dict union makes it harder to tell what code means. To paraphrase the objection rather than quote anyone in specific: "If I see ``spam | eggs``, I can't tell what it does unless I know what ``spam`` and ``eggs`` are". '''''''' Response '''''''' This is very true. But it is equally true today, where the use of the ``|`` operator could mean any of: - ``int``/``bool`` bitwise-or - ``set``/``frozenset`` union - any other overloaded operation Adding dict union to the set of possibilities doesn't seem to make it *harder* to understand the code. No more work is required to determine that ``spam`` and ``eggs`` are mappings than it would take to determine that they are sets, or integers. And good naming conventions will help:: flags |= WRITEABLE # Probably numeric bitwise-or. DO_NOT_RUN = WEEKENDS | HOLIDAYS # Probably set union. settings = DEFAULT_SETTINGS | user_settings | workspace_settings # Probably dict union. -------------------------------- What About The Full ``set`` API? -------------------------------- dicts are "set like", and should support the full collection of set operators: ``|``, ``&``, ``^``, and ``-``. '''''''' Response '''''''' This PEP does not take a position on whether dicts should support the full collection of set operators, and would prefer to leave that for a later PEP (one of the authors is interested in drafting such a PEP). For the benefit of any later PEP, a brief summary follows. Set symmetric difference (``^``) is obvious and natural. For example, given two dicts:: d1 = {"spam": 1, "eggs": 2} d2 = {"ham": 3, "eggs": 4} the symmetric difference ``d1 ^ d2`` would be ``{"spam": 1, "ham": 3}``. Set difference (``-``) is also obvious and natural, and an earlier version of this PEP included it in the proposal. Given the dicts above, we would have ``d1 - d2`` be ``{"spam": 1}`` and ``d2 - d1`` be ``{"ham": 3}``. Set intersection (``&``) is a bit more problematic. While it is easy to determine the intersection of *keys* in two dicts, it is not clear what to do with the *values*. Given the two dicts above, it is obvious that the only key of ``d1 & d2`` must be ``"eggs"``. "Last seen wins", however, has the advantage of consistency with other dict operations (and the proposed union operators). ---------------------------------------------- What About ``Mapping`` And ``MutableMapping``? ---------------------------------------------- ``collections.abc.Mapping`` and ``collections.abc.MutableMapping`` should define ``|`` and ``|=``, so subclasses could just inherit the new operators instead of having to define them. '''''''' Response '''''''' There are two primary reasons why adding the new operators to these classes would be problematic: - Currently, neither defines a ``copy`` method, which would be necessary for ``|`` to create a new instance. - Adding ``|=`` to ``MutableMapping`` (or a ``copy`` method to ``Mapping``) would create compatibility issues for virtual subclasses. ============== Rejected Ideas ============== ------------------ Rejected Semantics ------------------ There were at least four other proposed solutions for handling conflicting keys. These alternatives are left to subclasses of dict. ''''' Raise ''''' It isn't clear that this behavior has many use-cases or will be often useful, but it will likely be annoying as any use of the dict union operator would have to be guarded with a ``try``/``except`` clause. '''''''''''''''''''''''''''''''''''''''''''' Add The Values (As Counter Does, with ``+``) '''''''''''''''''''''''''''''''''''''''''''' Too specialised to be used as the default behavior. '''''''''''''''''''''''''''''''' Leftmost Value (First-Seen) Wins '''''''''''''''''''''''''''''''' It isn't clear that this behavior has many use-cases. In fact, one can simply reverse the order of the arguments:: d2 | d1 # d1 merged with d2, keeping existing values in d1 '''''''''''''''''''''''''''' Concatenate Values In A List '''''''''''''''''''''''''''' This is likely to be too specialised to be the default. It is not clear what to do if the values are already lists:: {'a': [1, 2]} | {'a': [3, 4]} Should this give ``{'a': [1, 2, 3, 4]}`` or ``{'a': [[1, 2], [3, 4]]}``? --------------------- Rejected Alternatives --------------------- ''''''''''''''''''''''''' Use The Addition Operator ''''''''''''''''''''''''' This PEP originally started life as a proposal for dict addition, using the ``+`` and ``+=`` operator. That choice proved to be exceedingly controversial, with many people having serious objections to the choice of operator. For details, see `previous versions `_ of the PEP and the mailing list discussions_. ''''''''''''''''''''''''''' Use The Left Shift Operator ''''''''''''''''''''''''''' The ``<<`` operator didn't seem to get much support on Python-Ideas, but no major objections either. Perhaps the strongest objection was Chris Angelico's comment The "cuteness" value of abusing the operator to indicate information flow got old shortly after C++ did it. ''''''''''''''''''''''''''''' Use A New Left Arrow Operator ''''''''''''''''''''''''''''' Another suggestion was to create a new operator ``<-``. Unfortunately this would be ambiguous, ``d <- e`` could mean ``d merge e`` or ``d less-than minus e``. '''''''''''' Use A Method '''''''''''' A ``dict.merged()`` method would avoid the need for an operator at all. One subtlety is that it would likely need slightly different implementations when called as an unbound method versus as a bound method. As an unbound method, the behavior could be similar to:: def merged(cls, *mappings, **kw): new = cls() # Will this work for defaultdict? for m in mappings: new.update(m) new.update(kw) return new As a bound method, the behavior could be similar to:: def merged(self, *mappings, **kw): new = self.copy() for m in mappings: new.update(m) new.update(kw) return new Advantages ========== * Arguably, methods are more discoverable than operators. * The method could accept any number of positional and keyword arguments, avoiding the inefficiency of creating temporary dicts. * Accepts sequences of ``(key, value)`` pairs like the ``update`` method. * Being a method, it is easy to override in a subclass if you need alternative behaviors such as "first wins", "unique keys", etc. Disadvantages ============= * Would likely require a new kind of method decorator which combined the behavior of regular instance methods and ``classmethod``. It would need to be public (but not necessarily a builtin) for those needing to override the method. There is a `proof of concept `_. * It isn't an operator. Guido discusses `why operators are useful `_. For another viewpoint, see `Alyssa Coghlan's blog post `_. '''''''''''''' Use a Function '''''''''''''' Instead of a method, use a new built-in function ``merged()``. One possible implementation could be something like this:: def merged(*mappings, **kw): if mappings and isinstance(mappings[0], dict): # If the first argument is a dict, use its type. new = mappings[0].copy() mappings = mappings[1:] else: # No positional arguments, or the first argument is a # sequence of (key, value) pairs. new = dict() for m in mappings: new.update(m) new.update(kw) return new An alternative might be to forgo the arbitrary keywords, and take a single keyword parameter that specifies the behavior on collisions:: def merged(*mappings, on_collision=lambda k, v1, v2: v2): # implementation left as an exercise to the reader Advantages ========== * Most of the same advantages of the method solutions above. * Doesn't require a subclass to implement alternative behavior on collisions, just a function. Disadvantages ============= * May not be important enough to be a builtin. * Hard to override behavior if you need something like "first wins", without losing the ability to process arbitrary keyword arguments. ======== Examples ======== The authors of this PEP did a survey of third party libraries for dictionary merging which might be candidates for dict union. This is a cursory list based on a subset of whatever arbitrary third-party packages happened to be installed on one of the authors' computers, and may not reflect the current state of any package. Also note that, while further (unrelated) refactoring may be possible, the rewritten version only adds usage of the new operators for an apples-to-apples comparison. It also reduces the result to an expression when it is efficient to do so. ----------------------- IPython/zmq/ipkernel.py ----------------------- Before:: aliases = dict(kernel_aliases) aliases.update(shell_aliases) After:: aliases = kernel_aliases | shell_aliases ------------------------ IPython/zmq/kernelapp.py ------------------------ Before:: kernel_aliases = dict(base_aliases) kernel_aliases.update({ 'ip' : 'KernelApp.ip', 'hb' : 'KernelApp.hb_port', 'shell' : 'KernelApp.shell_port', 'iopub' : 'KernelApp.iopub_port', 'stdin' : 'KernelApp.stdin_port', 'parent': 'KernelApp.parent', }) if sys.platform.startswith('win'): kernel_aliases['interrupt'] = 'KernelApp.interrupt' kernel_flags = dict(base_flags) kernel_flags.update({ 'no-stdout' : ( {'KernelApp' : {'no_stdout' : True}}, "redirect stdout to the null device"), 'no-stderr' : ( {'KernelApp' : {'no_stderr' : True}}, "redirect stderr to the null device"), }) After:: kernel_aliases = base_aliases | { 'ip' : 'KernelApp.ip', 'hb' : 'KernelApp.hb_port', 'shell' : 'KernelApp.shell_port', 'iopub' : 'KernelApp.iopub_port', 'stdin' : 'KernelApp.stdin_port', 'parent': 'KernelApp.parent', } if sys.platform.startswith('win'): kernel_aliases['interrupt'] = 'KernelApp.interrupt' kernel_flags = base_flags | { 'no-stdout' : ( {'KernelApp' : {'no_stdout' : True}}, "redirect stdout to the null device"), 'no-stderr' : ( {'KernelApp' : {'no_stderr' : True}}, "redirect stderr to the null device"), } ---------------------------------- matplotlib/backends/backend_svg.py ---------------------------------- Before:: attrib = attrib.copy() attrib.update(extra) attrib = attrib.items() After:: attrib = (attrib | extra).items() ---------------------------------- matplotlib/delaunay/triangulate.py ---------------------------------- Before:: edges = {} edges.update(dict(zip(self.triangle_nodes[border[:,0]][:,1], self.triangle_nodes[border[:,0]][:,2]))) edges.update(dict(zip(self.triangle_nodes[border[:,1]][:,2], self.triangle_nodes[border[:,1]][:,0]))) edges.update(dict(zip(self.triangle_nodes[border[:,2]][:,0], self.triangle_nodes[border[:,2]][:,1]))) Rewrite as:: edges = {} edges |= zip(self.triangle_nodes[border[:,0]][:,1], self.triangle_nodes[border[:,0]][:,2]) edges |= zip(self.triangle_nodes[border[:,1]][:,2], self.triangle_nodes[border[:,1]][:,0]) edges |= zip(self.triangle_nodes[border[:,2]][:,0], self.triangle_nodes[border[:,2]][:,1]) -------------------- matplotlib/legend.py -------------------- Before:: hm = default_handler_map.copy() hm.update(self._handler_map) return hm After:: return default_handler_map | self._handler_map ---------------- numpy/ma/core.py ---------------- Before:: _optinfo = {} _optinfo.update(getattr(obj, '_optinfo', {})) _optinfo.update(getattr(obj, '_basedict', {})) if not isinstance(obj, MaskedArray): _optinfo.update(getattr(obj, '__dict__', {})) After:: _optinfo = {} _optinfo |= getattr(obj, '_optinfo', {}) _optinfo |= getattr(obj, '_basedict', {}) if not isinstance(obj, MaskedArray): _optinfo |= getattr(obj, '__dict__', {}) ---------------- praw/internal.py ---------------- Before:: data = {'name': six.text_type(user), 'type': relationship} data.update(kwargs) After:: data = {'name': six.text_type(user), 'type': relationship} | kwargs ----------------- pygments/lexer.py ----------------- Before:: kwargs.update(lexer.options) lx = lexer.__class__(**kwargs) After:: lx = lexer.__class__(**(kwargs | lexer.options)) -------------------- requests/sessions.py -------------------- Before:: merged_setting = dict_class(to_key_val_list(session_setting)) merged_setting.update(to_key_val_list(request_setting)) After:: merged_setting = dict_class(to_key_val_list(session_setting)) | to_key_val_list(request_setting) -------------------------- sphinx/domains/__init__.py -------------------------- Before:: self.attrs = self.known_attrs.copy() self.attrs.update(attrs) After:: self.attrs = self.known_attrs | attrs --------------------- sphinx/ext/doctest.py --------------------- Before:: new_opt = code[0].options.copy() new_opt.update(example.options) example.options = new_opt After:: example.options = code[0].options | example.options --------------------------------- sphinx/ext/inheritance_diagram.py --------------------------------- Before:: n_attrs = self.default_node_attrs.copy() e_attrs = self.default_edge_attrs.copy() g_attrs.update(graph_attrs) n_attrs.update(node_attrs) e_attrs.update(edge_attrs) After:: g_attrs |= graph_attrs n_attrs = self.default_node_attrs | node_attrs e_attrs = self.default_edge_attrs | edge_attrs ---------------------- sphinx/highlighting.py ---------------------- Before:: kwargs.update(self.formatter_args) return self.formatter(**kwargs) After:: return self.formatter(**(kwargs | self.formatter_args)) -------------------- sphinx/quickstart.py -------------------- Before:: d2 = DEFAULT_VALUE.copy() d2.update(dict(("ext_"+ext, False) for ext in EXTENSIONS)) d2.update(d) d = d2 After:: d = DEFAULT_VALUE | dict(("ext_"+ext, False) for ext in EXTENSIONS) | d ------------ sympy/abc.py ------------ Before:: clash = {} clash.update(clash1) clash.update(clash2) return clash1, clash2, clash After:: return clash1, clash2, clash1 | clash2 ----------------------- sympy/parsing/maxima.py ----------------------- Before:: dct = MaximaHelpers.__dict__.copy() dct.update(name_dict) obj = sympify(str, locals=dct) After:: obj = sympify(str, locals=MaximaHelpers.__dict__|name_dict) --------------------------------------------------- sympy/printing/ccode.py and sympy/printing/fcode.py --------------------------------------------------- Before:: self.known_functions = dict(known_functions) userfuncs = settings.get('user_functions', {}) self.known_functions.update(userfuncs) After:: self.known_functions = known_functions | settings.get('user_functions', {}) --------------------------- sympy/utilities/runtests.py --------------------------- Before:: globs = globs.copy() if extraglobs is not None: globs.update(extraglobs) After:: globs = globs | (extraglobs if extraglobs is not None else {}) The above examples show that sometimes the ``|`` operator leads to a clear increase in readability, reducing the number of lines of code and improving clarity. However other examples using the ``|`` operator lead to long, complex single expressions, possibly well over the :pep:`8` maximum line length of 80 columns. As with any other language feature, the programmer should use their own judgement about whether ``|`` improves their code. =================== Related Discussions =================== .. _discussions: Mailing list threads (this is by no means an exhaustive list): * `Dict joining using + and += `_ * `PEP: Dict addition and subtraction `_ * `PEP 584: Add + and += operators to the built-in dict class. `_ * `Moving PEP 584 forward (dict + and += operators) `_ * `PEP 584: Add Union Operators To dict `_ * `Accepting PEP 584: Add Union Operators To dict `_ `Ticket on the bug tracker `_ Merging two dictionaries in an expression is a frequently requested feature. For example: https://stackoverflow.com/questions/38987/how-to-merge-two-dictionaries-in-a-single-expression https://stackoverflow.com/questions/1781571/how-to-concatenate-two-dictionaries-to-create-a-new-one-in-python https://stackoverflow.com/questions/6005066/adding-dictionaries-together-python Occasionally people request alternative behavior for the merge: https://stackoverflow.com/questions/1031199/adding-dictionaries-in-python https://stackoverflow.com/questions/877295/python-dict-add-by-valuedict-2 ...including one proposal to treat dicts as `sets of keys `_. `Ian Lee's proto-PEP `_, and `discussion `_ in 2015. Further discussion took place on `Python-Ideas `_. (Observant readers will notice that one of the authors of this PEP was more skeptical of the idea in 2015.) Adding `a full complement of operators to dicts `_. `Discussion on Y-Combinator `_. https://treyhunner.com/2016/02/how-to-merge-dictionaries-in-python/ https://code.tutsplus.com/tutorials/how-to-merge-two-python-dictionaries--cms-26230 In direct response to an earlier draft of this PEP, Serhiy Storchaka raised `a ticket in the bug tracker `_ to replace the ``copy(); update()`` idiom with dict unpacking. ========= Copyright ========= This document is placed in the public domain or under the CC0-1.0-Universal license, whichever is more permissive. .. Local Variables: mode: indented-text indent-tabs-mode: nil sentence-end-double-space: t fill-column: 70 coding: utf-8 End: