view mercurial/utils/dateutil.py @ 47589:f5c24c124e07

dirstate: introduce an internal `_add` method We want to split current user of `dirstate.add` between `hg add`-like cases and update of the dirstate coming from update/merge. To do this we will introduce new API. The first step is to introduces an internal function that these new API migh use (or not use) to distinct between the migrated users and the others. Differential Revision: https://phab.mercurial-scm.org/D11010
author Pierre-Yves David <pierre-yves.david@octobus.net>
date Wed, 07 Jul 2021 19:31:52 +0200
parents 15c2f9220ae8
children 6000f5b25c9b
line wrap: on
line source

# util.py - Mercurial utility functions relative to dates
#
#  Copyright 2018 Boris Feld <boris.feld@octobus.net>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.

from __future__ import absolute_import, print_function

import calendar
import datetime
import time

from ..i18n import _
from .. import (
    encoding,
    error,
    pycompat,
)

if pycompat.TYPE_CHECKING:
    from typing import (
        Callable,
        Dict,
        Iterable,
        Optional,
        Tuple,
        Union,
    )

    hgdate = Tuple[float, int]  # (unixtime, offset)

# used by parsedate
defaultdateformats = (
    b'%Y-%m-%dT%H:%M:%S',  # the 'real' ISO8601
    b'%Y-%m-%dT%H:%M',  #   without seconds
    b'%Y-%m-%dT%H%M%S',  # another awful but legal variant without :
    b'%Y-%m-%dT%H%M',  #   without seconds
    b'%Y-%m-%d %H:%M:%S',  # our common legal variant
    b'%Y-%m-%d %H:%M',  #   without seconds
    b'%Y-%m-%d %H%M%S',  # without :
    b'%Y-%m-%d %H%M',  #   without seconds
    b'%Y-%m-%d %I:%M:%S%p',
    b'%Y-%m-%d %H:%M',
    b'%Y-%m-%d %I:%M%p',
    b'%Y-%m-%d',
    b'%m-%d',
    b'%m/%d',
    b'%m/%d/%y',
    b'%m/%d/%Y',
    b'%a %b %d %H:%M:%S %Y',
    b'%a %b %d %I:%M:%S%p %Y',
    b'%a, %d %b %Y %H:%M:%S',  #  GNU coreutils "/bin/date --rfc-2822"
    b'%b %d %H:%M:%S %Y',
    b'%b %d %I:%M:%S%p %Y',
    b'%b %d %H:%M:%S',
    b'%b %d %I:%M:%S%p',
    b'%b %d %H:%M',
    b'%b %d %I:%M%p',
    b'%b %d %Y',
    b'%b %d',
    b'%H:%M:%S',
    b'%I:%M:%S%p',
    b'%H:%M',
    b'%I:%M%p',
)

extendeddateformats = defaultdateformats + (
    b"%Y",
    b"%Y-%m",
    b"%b",
    b"%b %Y",
)


def makedate(timestamp=None):
    # type: (Optional[float]) -> hgdate
    """Return a unix timestamp (or the current time) as a (unixtime,
    offset) tuple based off the local timezone."""
    if timestamp is None:
        timestamp = time.time()
    if timestamp < 0:
        hint = _(b"check your clock")
        raise error.InputError(
            _(b"negative timestamp: %d") % timestamp, hint=hint
        )
    delta = datetime.datetime.utcfromtimestamp(
        timestamp
    ) - datetime.datetime.fromtimestamp(timestamp)
    tz = delta.days * 86400 + delta.seconds
    return timestamp, tz


def datestr(date=None, format=b'%a %b %d %H:%M:%S %Y %1%2'):
    # type: (Optional[hgdate], bytes) -> bytes
    """represent a (unixtime, offset) tuple as a localized time.
    unixtime is seconds since the epoch, and offset is the time zone's
    number of seconds away from UTC.

    >>> datestr((0, 0))
    'Thu Jan 01 00:00:00 1970 +0000'
    >>> datestr((42, 0))
    'Thu Jan 01 00:00:42 1970 +0000'
    >>> datestr((-42, 0))
    'Wed Dec 31 23:59:18 1969 +0000'
    >>> datestr((0x7fffffff, 0))
    'Tue Jan 19 03:14:07 2038 +0000'
    >>> datestr((-0x80000000, 0))
    'Fri Dec 13 20:45:52 1901 +0000'
    """
    t, tz = date or makedate()
    if b"%1" in format or b"%2" in format or b"%z" in format:
        sign = (tz > 0) and b"-" or b"+"
        minutes = abs(tz) // 60
        q, r = divmod(minutes, 60)
        format = format.replace(b"%z", b"%1%2")
        format = format.replace(b"%1", b"%c%02d" % (sign, q))
        format = format.replace(b"%2", b"%02d" % r)
    d = t - tz
    if d > 0x7FFFFFFF:
        d = 0x7FFFFFFF
    elif d < -0x80000000:
        d = -0x80000000
    # Never use time.gmtime() and datetime.datetime.fromtimestamp()
    # because they use the gmtime() system call which is buggy on Windows
    # for negative values.
    t = datetime.datetime(1970, 1, 1) + datetime.timedelta(seconds=d)
    s = encoding.strtolocal(t.strftime(encoding.strfromlocal(format)))
    return s


def shortdate(date=None):
    # type: (Optional[hgdate]) -> bytes
    """turn (timestamp, tzoff) tuple into iso 8631 date."""
    return datestr(date, format=b'%Y-%m-%d')


def parsetimezone(s):
    # type: (bytes) -> Tuple[Optional[int], bytes]
    """find a trailing timezone, if any, in string, and return a
    (offset, remainder) pair"""
    s = pycompat.bytestr(s)

    if s.endswith(b"GMT") or s.endswith(b"UTC"):
        return 0, s[:-3].rstrip()

    # Unix-style timezones [+-]hhmm
    if len(s) >= 5 and s[-5] in b"+-" and s[-4:].isdigit():
        sign = (s[-5] == b"+") and 1 or -1
        hours = int(s[-4:-2])
        minutes = int(s[-2:])
        return -sign * (hours * 60 + minutes) * 60, s[:-5].rstrip()

    # ISO8601 trailing Z
    if s.endswith(b"Z") and s[-2:-1].isdigit():
        return 0, s[:-1]

    # ISO8601-style [+-]hh:mm
    if (
        len(s) >= 6
        and s[-6] in b"+-"
        and s[-3] == b":"
        and s[-5:-3].isdigit()
        and s[-2:].isdigit()
    ):
        sign = (s[-6] == b"+") and 1 or -1
        hours = int(s[-5:-3])
        minutes = int(s[-2:])
        return -sign * (hours * 60 + minutes) * 60, s[:-6]

    return None, s


def strdate(string, format, defaults=None):
    # type: (bytes, bytes, Optional[Dict[bytes, Tuple[bytes, bytes]]]) -> hgdate
    """parse a localized time string and return a (unixtime, offset) tuple.
    if the string cannot be parsed, ValueError is raised."""
    if defaults is None:
        defaults = {}

    # NOTE: unixtime = localunixtime + offset
    offset, date = parsetimezone(string)

    # add missing elements from defaults
    usenow = False  # default to using biased defaults
    for part in (
        b"S",
        b"M",
        b"HI",
        b"d",
        b"mb",
        b"yY",
    ):  # decreasing specificity
        part = pycompat.bytestr(part)
        found = [True for p in part if (b"%" + p) in format]
        if not found:
            date += b"@" + defaults[part][usenow]
            format += b"@%" + part[0]
        else:
            # We've found a specific time element, less specific time
            # elements are relative to today
            usenow = True

    timetuple = time.strptime(
        encoding.strfromlocal(date), encoding.strfromlocal(format)
    )
    localunixtime = int(calendar.timegm(timetuple))
    if offset is None:
        # local timezone
        unixtime = int(time.mktime(timetuple))
        offset = unixtime - localunixtime
    else:
        unixtime = localunixtime + offset
    return unixtime, offset


def parsedate(date, formats=None, bias=None):
    # type: (Union[bytes, hgdate], Optional[Iterable[bytes]], Optional[Dict[bytes, bytes]]) -> hgdate
    """parse a localized date/time and return a (unixtime, offset) tuple.

    The date may be a "unixtime offset" string or in one of the specified
    formats. If the date already is a (unixtime, offset) tuple, it is returned.

    >>> parsedate(b' today ') == parsedate(
    ...     datetime.date.today().strftime('%b %d').encode('ascii'))
    True
    >>> parsedate(b'yesterday ') == parsedate(
    ...     (datetime.date.today() - datetime.timedelta(days=1)
    ...      ).strftime('%b %d').encode('ascii'))
    True
    >>> now, tz = makedate()
    >>> strnow, strtz = parsedate(b'now')
    >>> (strnow - now) < 1
    True
    >>> tz == strtz
    True
    >>> parsedate(b'2000 UTC', formats=extendeddateformats)
    (946684800, 0)
    """
    if bias is None:
        bias = {}
    if not date:
        return 0, 0
    if isinstance(date, tuple):
        if len(date) == 2:
            return date
        else:
            raise error.ProgrammingError(b"invalid date format")
    if not formats:
        formats = defaultdateformats
    date = date.strip()

    if date == b'now' or date == _(b'now'):
        return makedate()
    if date == b'today' or date == _(b'today'):
        date = datetime.date.today().strftime('%b %d')
        date = encoding.strtolocal(date)
    elif date == b'yesterday' or date == _(b'yesterday'):
        date = (datetime.date.today() - datetime.timedelta(days=1)).strftime(
            r'%b %d'
        )
        date = encoding.strtolocal(date)

    try:
        when, offset = map(int, date.split(b' '))
    except ValueError:
        # fill out defaults
        now = makedate()
        defaults = {}
        for part in (b"d", b"mb", b"yY", b"HI", b"M", b"S"):
            # this piece is for rounding the specific end of unknowns
            b = bias.get(part)
            if b is None:
                if part[0:1] in b"HMS":
                    b = b"00"
                else:
                    # year, month, and day start from 1
                    b = b"1"

            # this piece is for matching the generic end to today's date
            n = datestr(now, b"%" + part[0:1])

            defaults[part] = (b, n)

        for format in formats:
            try:
                when, offset = strdate(date, format, defaults)
            except (ValueError, OverflowError):
                pass
            else:
                break
        else:
            raise error.ParseError(
                _(b'invalid date: %r') % pycompat.bytestr(date)
            )
    # validate explicit (probably user-specified) date and
    # time zone offset. values must fit in signed 32 bits for
    # current 32-bit linux runtimes. timezones go from UTC-12
    # to UTC+14
    if when < -0x80000000 or when > 0x7FFFFFFF:
        raise error.ParseError(_(b'date exceeds 32 bits: %d') % when)
    if offset < -50400 or offset > 43200:
        raise error.ParseError(_(b'impossible time zone offset: %d') % offset)
    return when, offset


def matchdate(date):
    # type: (bytes) -> Callable[[float], bool]
    """Return a function that matches a given date match specifier

    Formats include:

    '{date}' match a given date to the accuracy provided

    '<{date}' on or before a given date

    '>{date}' on or after a given date

    >>> p1 = parsedate(b"10:29:59")
    >>> p2 = parsedate(b"10:30:00")
    >>> p3 = parsedate(b"10:30:59")
    >>> p4 = parsedate(b"10:31:00")
    >>> p5 = parsedate(b"Sep 15 10:30:00 1999")
    >>> f = matchdate(b"10:30")
    >>> f(p1[0])
    False
    >>> f(p2[0])
    True
    >>> f(p3[0])
    True
    >>> f(p4[0])
    False
    >>> f(p5[0])
    False
    """

    def lower(date):
        # type: (bytes) -> float
        d = {b'mb': b"1", b'd': b"1"}
        return parsedate(date, extendeddateformats, d)[0]

    def upper(date):
        # type: (bytes) -> float
        d = {b'mb': b"12", b'HI': b"23", b'M': b"59", b'S': b"59"}
        for days in (b"31", b"30", b"29"):
            try:
                d[b"d"] = days
                return parsedate(date, extendeddateformats, d)[0]
            except error.ParseError:
                pass
        d[b"d"] = b"28"
        return parsedate(date, extendeddateformats, d)[0]

    date = date.strip()

    if not date:
        raise error.InputError(
            _(b"dates cannot consist entirely of whitespace")
        )
    elif date[0:1] == b"<":
        if not date[1:]:
            raise error.InputError(_(b"invalid day spec, use '<DATE'"))
        when = upper(date[1:])
        return lambda x: x <= when
    elif date[0:1] == b">":
        if not date[1:]:
            raise error.InputError(_(b"invalid day spec, use '>DATE'"))
        when = lower(date[1:])
        return lambda x: x >= when
    elif date[0:1] == b"-":
        try:
            days = int(date[1:])
        except ValueError:
            raise error.InputError(_(b"invalid day spec: %s") % date[1:])
        if days < 0:
            raise error.InputError(
                _(b"%s must be nonnegative (see 'hg help dates')") % date[1:]
            )
        when = makedate()[0] - days * 3600 * 24
        return lambda x: x >= when
    elif b" to " in date:
        a, b = date.split(b" to ")
        start, stop = lower(a), upper(b)
        return lambda x: x >= start and x <= stop
    else:
        start, stop = lower(date), upper(date)
        return lambda x: x >= start and x <= stop