PEP: 495 Title: Local Time Disambiguation Version: $Revision$ Last-Modified: $Date$ Author: Alexander Belopolsky , Tim Peters Discussions-To: datetime-sig@python.org Status: Final Type: Standards Track Content-Type: text/x-rst Created: 02-Aug-2015 Python-Version: 3.6 Resolution: https://mail.python.org/pipermail/datetime-sig/2015-September/000900.html Abstract ======== This PEP adds a new attribute ``fold`` to instances of the ``datetime.time`` and ``datetime.datetime`` classes that can be used to differentiate between two moments in time for which local times are the same. The allowed values for the ``fold`` attribute will be 0 and 1 with 0 corresponding to the earlier and 1 to the later of the two possible readings of an ambiguous local time. Rationale ========= In most world locations, there have been and will be times when local clocks are moved back. [#]_ In those times, intervals are introduced in which local clocks show the same time twice in the same day. In these situations, the information displayed on a local clock (or stored in a Python datetime instance) is insufficient to identify a particular moment in time. The proposed solution is to add an attribute to the ``datetime`` instances taking values of 0 and 1 that will enumerate the two ambiguous times. .. image:: pep-0495-daylightsavings.png :align: center :width: 30% .. [#] People who live in locations observing the Daylight Saving Time (DST) move their clocks back (usually one hour) every Fall. It is less common, but occasionally clocks can be moved back for other reasons. For example, Ukraine skipped the spring-forward transition in March 1990 and instead, moved their clocks back on July 1, 1990, switching from Moscow Time to Eastern European Time. In that case, standard (winter) time was in effect before and after the transition. Both DST and standard time changes may result in time shifts other than an hour. Terminology =========== When clocks are moved back, we say that a *fold* [#]_ is created in time. When the clocks are moved forward, a *gap* is created. A local time that falls in the fold is called *ambiguous*. A local time that falls in the gap is called *missing*. .. [#] The term "fall-backward fold" was invented in 1990s by Paul Eggert of UCLA who used it in various Internet discussions related to the C language standard that culminated in a `Defect Report #139`_. .. _Defect Report #139: http://www.open-std.org/jtc1/sc22/wg14/docs/rr/dr_136.html Proposal ======== The "fold" attribute -------------------- We propose adding an attribute called ``fold`` to instances of the ``datetime.time`` and ``datetime.datetime`` classes. This attribute should have the value 0 for all instances except those that represent the second (chronologically) moment in time in an ambiguous case. For those instances, the value will be 1. [#]_ .. [#] An instance that has ``fold=1`` in a non-ambiguous case is said to represent an invalid time (or is invalid for short), but users are not prevented from creating invalid instances by passing ``fold=1`` to a constructor or to a ``replace()`` method. This is similar to the current situation with the instances that fall in the spring-forward gap. Such instances don't represent any valid time, but neither the constructors nor the ``replace()`` methods check whether the instances that they produce are valid. Moreover, this PEP specifies how various functions should behave when given an invalid instance. Affected APIs ------------- Attributes .......... Instances of ``datetime.time`` and ``datetime.datetime`` classes will get a new attribute ``fold`` with two possible values: 0 and 1. Constructors ............ The ``__new__`` methods of the ``datetime.time`` and ``datetime.datetime`` classes will get a new keyword-only argument called ``fold`` with the default value 0. The value of the ``fold`` argument will be used to initialize the value of the ``fold`` attribute in the returned instance. Methods ....... The ``replace()`` methods of the ``datetime.time`` and ``datetime.datetime`` classes will get a new keyword-only argument called ``fold``. It will behave similarly to the other ``replace()`` arguments: if the ``fold`` argument is specified and given a value 0 or 1, the new instance returned by ``replace()`` will have its ``fold`` attribute set to that value. In CPython, any non-integer value of ``fold`` will raise a ``TypeError``, but other implementations may allow the value ``None`` to behave the same as when ``fold`` is not given. [#]_ (This is a nod to the existing difference in treatment of ``None`` arguments in other positions of this method across Python implementations; it is not intended to leave the door open for future alternative interpretation of ``fold=None``.) If the ``fold`` argument is not specified, the original value of the ``fold`` attribute is copied to the result. .. [#] PyPy and pure Python implementation distributed with CPython already allow ``None`` to mean "no change to existing attribute" for all other attributes in ``replace()``. C-API ..... Access macros will be defined to extract the value of ``fold`` from ``PyDateTime_DateTime`` and ``PyDateTime_Time`` objects. .. code:: int PyDateTime_GET_FOLD(PyDateTime_DateTime *o) Return the value of ``fold`` as a C ``int``. .. code:: int PyDateTime_TIME_GET_FOLD(PyDateTime_Time *o) Return the value of ``fold`` as a C ``int``. New constructors will be defined that will take an additional argument to specify the value of ``fold`` in the created instance: .. code:: PyObject* PyDateTime_FromDateAndTimeAndFold( int year, int month, int day, int hour, int minute, int second, int usecond, int fold) Return a ``datetime.datetime`` object with the specified year, month, day, hour, minute, second, microsecond and fold. .. code:: PyObject* PyTime_FromTimeAndFold( int hour, int minute, int second, int usecond, int fold) Return a ``datetime.time`` object with the specified hour, minute, second, microsecond and fold. Affected Behaviors ------------------ What time is it? ................ The ``datetime.now()`` method called without arguments will set ``fold=1`` when returning the second of the two ambiguous times in a system local time fold. When called with a ``tzinfo`` argument, the value of the ``fold`` will be determined by the ``tzinfo.fromutc()`` implementation. When an instance of the ``datetime.timezone`` class (the stdlib's fixed-offset ``tzinfo`` subclass, *e.g.* ``datetime.timezone.utc``) is passed as ``tzinfo``, the returned datetime instance will always have ``fold=0``. The ``datetime.utcnow()`` method is unaffected. Conversion from naive to aware .............................. A new feature is proposed to facilitate conversion from naive datetime instances to aware. The ``astimezone()`` method will now work for naive ``self``. The system local timezone will be assumed in this case and the ``fold`` flag will be used to determine which local timezone is in effect in the ambiguous case. For example, on a system set to US/Eastern timezone:: >>> dt = datetime(2014, 11, 2, 1, 30) >>> dt.astimezone().strftime('%D %T %Z%z') '11/02/14 01:30:00 EDT-0400' >>> dt.replace(fold=1).astimezone().strftime('%D %T %Z%z') '11/02/14 01:30:00 EST-0500' An implication is that ``datetime.now(tz)`` is fully equivalent to ``datetime.now().astimezone(tz)`` (assuming ``tz`` is an instance of a post-PEP ``tzinfo`` implementation, i.e. one that correctly handles and sets ``fold``). Conversion from POSIX seconds from EPOCH ........................................ The ``fromtimestamp()`` static method of ``datetime.datetime`` will set the ``fold`` attribute appropriately in the returned object. For example, on a system set to US/Eastern timezone:: >>> datetime.fromtimestamp(1414906200) datetime.datetime(2014, 11, 2, 1, 30) >>> datetime.fromtimestamp(1414906200 + 3600) datetime.datetime(2014, 11, 2, 1, 30, fold=1) Conversion to POSIX seconds from EPOCH ...................................... The ``timestamp()`` method of ``datetime.datetime`` will return different values for ``datetime.datetime`` instances that differ only by the value of their ``fold`` attribute if and only if these instances represent an ambiguous or a missing time. When a ``datetime.datetime`` instance ``dt`` represents an ambiguous time, there are two values ``s0`` and ``s1`` such that:: datetime.fromtimestamp(s0) == datetime.fromtimestamp(s1) == dt (This is because ``==`` disregards the value of fold -- see below.) In this case, ``dt.timestamp()`` will return the smaller of ``s0`` and ``s1`` values if ``dt.fold == 0`` and the larger otherwise. For example, on a system set to US/Eastern timezone:: >>> datetime(2014, 11, 2, 1, 30, fold=0).timestamp() 1414906200.0 >>> datetime(2014, 11, 2, 1, 30, fold=1).timestamp() 1414909800.0 When a ``datetime.datetime`` instance ``dt`` represents a missing time, there is no value ``s`` for which:: datetime.fromtimestamp(s) == dt but we can form two "nice to know" values of ``s`` that differ by the size of the gap in seconds. One is the value of ``s`` that would correspond to ``dt`` in a timezone where the UTC offset is always the same as the offset right before the gap and the other is the similar value but in a timezone the UTC offset is always the same as the offset right after the gap. The value returned by ``dt.timestamp()`` given a missing ``dt`` will be the greater of the two "nice to know" values if ``dt.fold == 0`` and the smaller otherwise. (This is not a typo -- it's intentionally backwards from the rule for ambiguous times.) For example, on a system set to US/Eastern timezone:: >>> datetime(2015, 3, 8, 2, 30, fold=0).timestamp() 1425799800.0 >>> datetime(2015, 3, 8, 2, 30, fold=1).timestamp() 1425796200.0 Aware datetime instances ........................ Users of pre-PEP implementations of ``tzinfo`` will not see any changes in the behavior of their aware datetime instances. Two such instances that differ only by the value of the ``fold`` attribute will not be distinguishable by any means other than an explicit access to the ``fold`` value. (This is because these pre-PEP implementations are not using the ``fold`` attribute.) On the other hand, if an object's ``tzinfo`` is set to a fold-aware implementation, then in a fold or gap the value of ``fold`` will affect the result of several methods: ``utcoffset()``, ``dst()``, ``tzname()``, ``astimezone()``, ``strftime()`` (if the "%Z" or "%z" directive is used in the format specification), ``isoformat()``, and ``timetuple()``. Combining and splitting date and time ..................................... The ``datetime.datetime.combine()`` method will copy the value of the ``fold`` attribute to the resulting ``datetime.datetime`` instance. The ``datetime.datetime.time()`` method will copy the value of the ``fold`` attribute to the resulting ``datetime.time`` instance. Pickles ....... The value of the fold attribute will only be saved in pickles created with protocol version 4 (introduced in Python 3.4) or greater. Pickle sizes for the ``datetime.datetime`` and ``datetime.time`` objects will not change. The ``fold`` value will be encoded in the first bit of the 3rd byte of the ``datetime.datetime`` pickle payload; and in the first bit of the 1st byte of the ``datetime.time`` payload. In the `current implementation`_ these bytes are used to store the month (1-12) and hour (0-23) values and the first bit is always 0. We picked these bytes because they are the only bytes that are checked by the current unpickle code. Thus loading post-PEP ``fold=1`` pickles in a pre-PEP Python will result in an exception rather than an instance with out of range components. .. _current implementation: https://hg.python.org/cpython/file/v3.5.0/Include/datetime.h#l10 Implementations of tzinfo in the Standard Library ================================================= No new implementations of ``datetime.tzinfo`` abstract class are proposed in this PEP. The existing (fixed offset) timezones do not introduce ambiguous local times and their ``utcoffset()`` implementation will return the same constant value as they do now regardless of the value of ``fold``. The basic implementation of ``fromutc()`` in the abstract ``datetime.tzinfo`` class will not change. It is currently not used anywhere in the stdlib because the only included ``tzinfo`` implementation (the ``datetime.timezone`` class implementing fixed offset timezones) overrides ``fromutc()``. Keeping the default implementation unchanged has the benefit that pre-PEP 3rd party implementations that inherit the default ``fromutc()`` are not accidentally affected. Guidelines for New tzinfo Implementations ========================================= Implementors of concrete ``datetime.tzinfo`` subclasses who want to support variable UTC offsets (due to DST and other causes) should follow these guidelines. Ignorance is Bliss ------------------ New implementations of ``utcoffset()``, ``tzname()`` and ``dst()`` methods should ignore the value of ``fold`` unless they are called on the ambiguous or missing times. In the Fold ----------- New subclasses should override the base-class ``fromutc()`` method and implement it so that in all cases where two different UTC times ``u0`` and ``u1`` (``u0`` <``u1``) correspond to the same local time ``t``, ``fromutc(u0)`` will return an instance with ``fold=0`` and ``fromutc(u1)`` will return an instance with ``fold=1``. In all other cases the returned instance should have ``fold=0``. The ``utcoffset()``, ``tzname()`` and ``dst()`` methods should use the value of the fold attribute to determine whether an otherwise ambiguous time ``t`` corresponds to the time before or after the transition. By definition, ``utcoffset()`` is greater before and smaller after any transition that creates a fold. The values returned by ``tzname()`` and ``dst()`` may or may not depend on the value of the ``fold`` attribute depending on the kind of the transition. .. image:: pep-0495-fold-2.png :align: center :width: 60% :class: invert-in-dark-mode The sketch above illustrates the relationship between the UTC and local time around a fall-back transition. The zig-zag line is a graph of the function implemented by ``fromutc()``. Two intervals on the UTC axis adjacent to the transition point and having the size of the time shift at the transition are mapped to the same interval on the local axis. New implementations of ``fromutc()`` method should set the fold attribute to 1 when ``self`` is in the region marked in yellow on the UTC axis. (All intervals should be treated as closed on the left and open on the right.) Mind the Gap ------------ The ``fromutc()`` method should never produce a time in the gap. If the ``utcoffset()``, ``tzname()`` or ``dst()`` method is called on a local time that falls in a gap, the rules in effect before the transition should be used if ``fold=0``. Otherwise, the rules in effect after the transition should be used. .. image:: pep-0495-gap.png :align: center :width: 60% :class: invert-in-dark-mode The sketch above illustrates the relationship between the UTC and local time around a spring-forward transition. At the transition, the local clock is advanced skipping the times in the gap. For the purposes of determining the values of ``utcoffset()``, ``tzname()`` and ``dst()``, the line before the transition is extended forward to find the UTC time corresponding to the time in the gap with ``fold=0`` and for instances with ``fold=1``, the line after the transition is extended back. Summary of Rules at a Transition -------------------------------- On ambiguous/missing times ``utcoffset()`` should return values according to the following table: +-----------------+----------------+-----------------------------+ | | fold=0 | fold=1 | +=================+================+=============================+ | Fold | oldoff | newoff = oldoff - delta | +-----------------+----------------+-----------------------------+ | Gap | oldoff | newoff = oldoff + delta | +-----------------+----------------+-----------------------------+ where ``oldoff`` (``newoff``) is the UTC offset before (after) the transition and ``delta`` is the absolute size of the fold or the gap. Note that the interpretation of the fold attribute is consistent in the fold and gap cases. In both cases, ``fold=0`` (``fold=1``) means use ``fromutc()`` line before (after) the transition to find the UTC time. Only in the "Fold" case, the UTC times ``u0`` and ``u1`` are "real" solutions for the equation ``fromutc(u) == t``, while in the "Gap" case they are "imaginary" solutions. The DST Transitions ------------------- On a missing time introduced at the start of DST, the values returned by ``utcoffset()`` and ``dst()`` methods should be as follows +-----------------+----------------+------------------+ | | fold=0 | fold=1 | +=================+================+==================+ | utcoffset() | stdoff | stdoff + dstoff | +-----------------+----------------+------------------+ | dst() | zero | dstoff | +-----------------+----------------+------------------+ On an ambiguous time introduced at the end of DST, the values returned by ``utcoffset()`` and ``dst()`` methods should be as follows +-----------------+----------------+------------------+ | | fold=0 | fold=1 | +=================+================+==================+ | utcoffset() | stdoff + dstoff| stdoff | +-----------------+----------------+------------------+ | dst() | dstoff | zero | +-----------------+----------------+------------------+ where ``stdoff`` is the standard (non-DST) offset, ``dstoff`` is the DST correction (typically ``dstoff = timedelta(hours=1)``) and ``zero = timedelta(0)``. Temporal Arithmetic and Comparison Operators ============================================ .. epigraph:: | In *mathematicks* he was greater | Than Tycho Brahe, or Erra Pater: | For he, by geometric scale, | Could take the size of pots of ale; | Resolve, by sines and tangents straight, | If bread or butter wanted weight, | And wisely tell what hour o' th' day | The clock does strike by algebra. -- "Hudibras" by Samuel Butler The value of the ``fold`` attribute will be ignored in all operations with naive datetime instances. As a consequence, naive ``datetime.datetime`` or ``datetime.time`` instances that differ only by the value of ``fold`` will compare as equal. Applications that need to differentiate between such instances should check the value of ``fold`` explicitly or convert those instances to a timezone that does not have ambiguous times (such as UTC). The value of ``fold`` will also be ignored whenever a timedelta is added to or subtracted from a datetime instance which may be either aware or naive. The result of addition (subtraction) of a timedelta to (from) a datetime will always have ``fold`` set to 0 even if the original datetime instance had ``fold=1``. No changes are proposed to the way the difference ``t - s`` is computed for datetime instances ``t`` and ``s``. If both instances are naive or ``t.tzinfo`` is the same instance as ``s.tzinfo`` (``t.tzinfo is s.tzinfo`` evaluates to ``True``) then ``t - s`` is a timedelta ``d`` such that ``s + d == t``. As explained in the previous paragraph, timedelta addition ignores both ``fold`` and ``tzinfo`` attributes and so does intra-zone or naive datetime subtraction. Naive and intra-zone comparisons will ignore the value of ``fold`` and return the same results as they do now. (This is the only way to preserve backward compatibility. If you need an aware intra-zone comparison that uses the fold, convert both sides to UTC first.) The inter-zone subtraction will be defined as it is now: ``t - s`` is computed as ``(t - t.utcoffset()) - (s - s.utcoffset()).replace(tzinfo=t.tzinfo)``, but the result will depend on the values of ``t.fold`` and ``s.fold`` when either ``t.tzinfo`` or ``s.tzinfo`` is post-PEP. [#]_ .. [#] Note that the new rules may result in a paradoxical situation when ``s == t`` but ``s - u != t - u``. Such paradoxes are not really new and are inherent in the overloading of the minus operator differently for intra- and inter-zone operations. For example, one can easily construct datetime instances ``t`` and ``s`` with some variable offset ``tzinfo`` and a datetime ``u`` with ``tzinfo=timezone.utc`` such that ``(t - u) - (s - u) != t - s``. The explanation for this paradox is that the minuses inside the parentheses and the two other minuses are really three different operations: inter-zone datetime subtraction, timedelta subtraction, and intra-zone datetime subtraction, which each have the mathematical properties of subtraction separately, but not when combined in a single expression. Aware datetime Equality Comparison ---------------------------------- The aware datetime comparison operators will work the same as they do now, with results indirectly affected by the value of ``fold`` whenever the ``utcoffset()`` value of one of the operands depends on it, with one exception. Whenever one or both of the operands in inter-zone comparison is such that its ``utcoffset()`` depends on the value of its ``fold`` fold attribute, the result is ``False``. [#]_ .. [#] This exception is designed to preserve the hash and equivalence invariants in the face of paradoxes of inter-zone arithmetic. Formally, ``t == s`` when ``t.tzinfo is s.tzinfo`` evaluates to ``False`` can be defined as follows. Let ``toutc(t, fold)`` be a function that takes an aware datetime instance ``t`` and returns a naive instance representing the same time in UTC assuming a given value of ``fold``: .. code:: def toutc(t, fold): u = t - t.replace(fold=fold).utcoffset() return u.replace(tzinfo=None) Then ``t == s`` is equivalent to .. code:: toutc(t, fold=0) == toutc(t, fold=1) == toutc(s, fold=0) == toutc(s, fold=1) Backward and Forward Compatibility ================================== This proposal will have little effect on the programs that do not read the ``fold`` flag explicitly or use tzinfo implementations that do. The only visible change for such programs will be that conversions to and from POSIX timestamps will now round-trip correctly (up to floating point rounding). Programs that implemented a work-around to the old incorrect behavior may need to be modified. Pickles produced by older programs will remain fully forward compatible. Only datetime/time instances with ``fold=1`` pickled in the new versions will become unreadable by the older Python versions. Pickles of instances with ``fold=0`` (which is the default) will remain unchanged. Questions and Answers ===================== Why not call the new flag "isdst"? ---------------------------------- A non-technical answer ...................... * Alice: Bob - let's have a stargazing party at 01:30 AM tomorrow! * Bob: Should I presume initially that Daylight Saving Time is or is not in effect for the specified time? * Alice: Huh? ------- * Bob: Alice - let's have a stargazing party at 01:30 AM tomorrow! * Alice: You know, Bob, 01:30 AM will happen twice tomorrow. Which time do you have in mind? * Bob: I did not think about it, but let's pick the first. ------- (same characters, an hour later) ------- * Bob: Alice - this Py-O-Clock gadget of mine asks me to choose between fold=0 and fold=1 when I set it for tomorrow 01:30 AM. What should I do? * Alice: I've never hear of a Py-O-Clock, but I guess fold=0 is the first 01:30 AM and fold=1 is the second. A technical reason .................. While the ``tm_isdst`` field of the ``time.struct_time`` object can be used to disambiguate local times in the fold, the semantics of such disambiguation are completely different from the proposal in this PEP. The main problem with the ``tm_isdst`` field is that it is impossible to know what value is appropriate for ``tm_isdst`` without knowing the details about the time zone that are only available to the ``tzinfo`` implementation. Thus while ``tm_isdst`` is useful in the *output* of methods such as ``time.localtime``, it is cumbersome as an *input* of methods such as ``time.mktime``. If the programmer misspecified a non-negative value of ``tm_isdst`` to ``time.mktime``, the result will be time that is 1 hour off and since there is rarely a way to know anything about DST *before* a call to ``time.mktime`` is made, the only sane choice is usually ``tm_isdst=-1``. Unlike ``tm_isdst``, the proposed ``fold`` attribute has no effect on the interpretation of the datetime instance unless without that attribute two (or no) interpretations are possible. Since it would be very confusing to have something called ``isdst`` that does not have the same semantics as ``tm_isdst``, we need a different name. Moreover, the ``datetime.datetime`` class already has a method called ``dst()`` and if we called ``fold`` "isdst", we would necessarily have situations when "isdst" is zero but ``dst()`` is not or the other way around. Why "fold"? ----------- Suggested by Guido van Rossum and favored by one (but initially disfavored by another) author. A consensus was reached after the allowed values for the attribute were changed from False/True to 0/1. The noun "fold" has correct connotations and easy mnemonic rules, but at the same time does not invite unbased assumptions. What is "first"? ---------------- This was a working name of the attribute chosen initially because the obvious alternative ("second") conflicts with the existing attribute. It was rejected mostly on the grounds that it would make True a default value. The following alternative names have also been considered: **later** A close contender to "fold". One author dislikes it because it is confusable with equally fitting "latter," but in the age of auto-completion everywhere this is a small consideration. A stronger objection may be that in the case of missing time, we will have ``later=True`` instance converted to an earlier time by ``.astimezone(timezone.utc)`` that that with ``later=False``. Yet again, this can be interpreted as a desirable indication that the original time is invalid. **which** The `original`_ placeholder name for the `localtime` function branch index was `independently proposed`_ for the name of the disambiguation attribute and received `some support`_. **repeated** Did not receive any support on the mailing list. **ltdf** (Local Time Disambiguation Flag) - short and no-one will attempt to guess what it means without reading the docs. (This abbreviation was used in PEP discussions with the meaning ``ltdf=False`` is the earlier by those who didn't want to endorse any of the alternatives.) .. _original: https://mail.python.org/pipermail/python-dev/2015-April/139099.html .. _independently proposed: https://mail.python.org/pipermail/datetime-sig/2015-August/000479.html .. _some support: https://mail.python.org/pipermail/datetime-sig/2015-August/000483.html Are two values enough? ---------------------- Several reasons have been raised to allow a ``None`` or -1 value for the ``fold`` attribute: backward compatibility, analogy with ``tm_isdst`` and strict checking for invalid times. Backward Compatibility ...................... It has been suggested that backward compatibility can be improved if the default value of the ``fold`` flag was ``None`` which would signal that pre-PEP behavior is requested. Based on the analysis below, we believe that the proposed changes with the ``fold=0`` default are sufficiently backward compatible. This PEP provides only three ways for a program to discover that two otherwise identical datetime instances have different values of ``fold``: (1) an explicit check of the ``fold`` attribute; (2) if the instances are naive - conversion to another timezone using the ``astimezone()`` method; and (3) conversion to ``float`` using the ``timestamp()`` method. Since ``fold`` is a new attribute, the first option is not available to the existing programs. Note that option (2) only works for naive datetimes that happen to be in a fold or a gap in the system time zone. In all other cases, the value of ``fold`` will be ignored in the conversion unless the instances use a ``fold``-aware ``tzinfo`` which would not be available in a pre-PEP program. Similarly, the ``astimezone()`` called on a naive instance will not be available in such program because ``astimezone()`` does not currently work with naive datetimes. This leaves us with only one situation where an existing program can start producing different results after the implementation of this PEP: when a ``datetime.timestamp()`` method is called on a naive datetime instance that happen to be in the fold or the gap. In the current implementation, the result is undefined. Depending on the system ``mktime`` implementation, the programs can see different results or errors in those cases. With this PEP in place, the value of timestamp will be well-defined in those cases but will depend on the value of the ``fold`` flag. We consider the change in ``datetime.timestamp()`` method behavior a bug fix enabled by this PEP. The old behavior can still be emulated by the users who depend on it by writing ``time.mktime(dt.timetuple()) + 1e-6*dt.microsecond`` instead of ``dt.timestamp()``. Analogy with tm_isdst ..................... The ``time.mktime`` interface allows three values for the ``tm_isdst`` flag: -1, 0, and 1. As we explained above, -1 (asking ``mktime`` to determine whether DST is in effect for the given time from the rest of the fields) is the only choice that is useful in practice. With the ``fold`` flag, however, ``datetime.timestamp()`` will return the same value as ``mktime`` with ``tm_isdst=-1`` in 99.98% of the time for most time zones with DST transitions. Moreover, ``tm_isdst=-1``-like behavior is specified *regardless* of the value of ``fold``. It is only in the 0.02% cases (2 hours per year) that the ``datetime.timestamp()`` and ``mktime`` with ``tm_isdst=-1`` may disagree. However, even in this case, most of the ``mktime`` implementations will return the ``fold=0`` or the ``fold=1`` value even though relevant standards allow ``mktime`` to return -1 and set an error code in those cases. In other words, ``tm_isdst=-1`` behavior is not missing from this PEP. To the contrary, it is the only behavior provided in two different well-defined flavors. The behavior that is missing is when a given local hour is interpreted as a different local hour because of the misspecified ``tm_isdst``. For example, in the DST-observing time zones in the Northern hemisphere (where DST is in effect in June) one can get .. code:: >>> from time import mktime, localtime >>> t = mktime((2015, 6, 1, 12, 0, 0, -1, -1, 0)) >>> localtime(t)[:] (2015, 6, 1, 13, 0, 0, 0, 152, 1) Note that 12:00 was interpreted as 13:00 by ``mktime``. With the ``datetime.timestamp``, ``datetime.fromtimestamp``, it is currently guaranteed that .. code:: >>> t = datetime.datetime(2015, 6, 1, 12).timestamp() >>> datetime.datetime.fromtimestamp(t) datetime.datetime(2015, 6, 1, 12, 0) This PEP extends the same guarantee to both values of ``fold``: .. code:: >>> t = datetime.datetime(2015, 6, 1, 12, fold=0).timestamp() >>> datetime.datetime.fromtimestamp(t) datetime.datetime(2015, 6, 1, 12, 0) .. code:: >>> t = datetime.datetime(2015, 6, 1, 12, fold=1).timestamp() >>> datetime.datetime.fromtimestamp(t) datetime.datetime(2015, 6, 1, 12, 0) Thus one of the suggested uses for ``fold=-1`` -- to match the legacy behavior -- is not needed. Either choice of ``fold`` will match the old behavior except in the few cases where the old behavior was undefined. Strict Invalid Time Checking ............................ Another suggestion was to use ``fold=-1`` or ``fold=None`` to indicate that the program truly has no means to deal with the folds and gaps and ``dt.utcoffset()`` should raise an error whenever ``dt`` represents an ambiguous or missing local time. The main problem with this proposal, is that ``dt.utcoffset()`` is used internally in situations where raising an error is not an option: for example, in dictionary lookups or list/set membership checks. So strict gap/fold checking behavior would need to be controlled by a separate flag, say ``dt.utcoffset(raise_on_gap=True, raise_on_fold=False)``. However, this functionality can be easily implemented in user code: .. code:: def utcoffset(dt, raise_on_gap=True, raise_on_fold=False): u = dt.utcoffset() v = dt.replace(fold=not dt.fold).utcoffset() if u == v: return u if (u < v) == dt.fold: if raise_on_fold: raise AmbiguousTimeError else: if raise_on_gap: raise MissingTimeError return u Moreover, raising an error in the problem cases is only one of many possible solutions. An interactive program can ask the user for additional input, while a server process may log a warning and take an appropriate default action. We cannot possibly provide functions for all possible user requirements, but this PEP provides the means to implement any desired behavior in a few lines of code. Implementation ============== * Github fork: https://github.com/abalkin/cpython/tree/issue24773-s3 * Tracker issue: http://bugs.python.org/issue24773 Copyright ========= This document has been placed in the public domain. Picture Credit ============== This image is a work of a U.S. military or Department of Defense employee, taken or made as part of that person's official duties. As a work of the U.S. federal government, the image is in the public domain.