imip-agent

Annotated vRecurrence.py

1061:5f9f96eb4f8f
2016-02-09 Paul Boddie Updated the administration page, removing obsolete settings references.
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#!/usr/bin/env python
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"""
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Recurrence rule calculation.
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Copyright (C) 2014, 2015 Paul Boddie <paul@boddie.org.uk>
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This program is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free Software
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Foundation; either version 3 of the License, or (at your option) any later
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version.
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This program is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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FOR A PARTICULAR PURPOSE.  See the GNU General Public License for more
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details.
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You should have received a copy of the GNU General Public License along with
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this program.  If not, see <http://www.gnu.org/licenses/>.
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----
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References:
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RFC 5545: Internet Calendaring and Scheduling Core Object Specification
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          (iCalendar)
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          http://tools.ietf.org/html/rfc5545
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----
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FREQ defines the selection resolution.
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DTSTART defines the start of the selection.
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INTERVAL defines the step of the selection.
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COUNT defines a number of instances
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UNTIL defines a limit to the selection.
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BY... qualifiers select instances within each outer selection instance according
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to the recurrence of instances of the next highest resolution. For example,
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BYDAY selects days in weeks. Thus, if no explicit week recurrence is indicated,
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all weeks are selected within the selection of the next highest explicitly
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specified resolution, whether this is months or years.
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BYSETPOS in conjunction with BY... qualifiers permit the selection of specific
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instances.
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Within the FREQ resolution, BY... qualifiers refine selected instances.
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Outside the FREQ resolution, BY... qualifiers select instances at the resolution
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concerned.
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Thus, FREQ and BY... qualifiers need to be ordered in terms of increasing
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resolution (or decreasing scope).
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"""
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from calendar import monthrange
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from datetime import date, datetime, timedelta
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import operator
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# Frequency levels, specified by FREQ in iCalendar.
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freq_levels = (
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    "YEARLY",
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    "MONTHLY",
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    "WEEKLY",
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    None,
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    None,
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    "DAILY",
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    "HOURLY",
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    "MINUTELY",
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    "SECONDLY"
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    )
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# Enumeration levels, employed by BY... qualifiers.
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enum_levels = (
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    None,
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    "BYMONTH",
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    "BYWEEKNO",
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    "BYYEARDAY",
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    "BYMONTHDAY",
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    "BYDAY",
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    "BYHOUR",
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    "BYMINUTE",
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    "BYSECOND"
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    )
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# Map from levels to lengths of datetime tuples.
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lengths = [1, 2, 3, 3, 3, 3, 4, 5, 6]
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positions = [l-1 for l in lengths]
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# Map from qualifiers to interval units. Here, weeks are defined as 7 days.
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units = {"WEEKLY" : 7}
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# Make dictionaries mapping qualifiers to levels.
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freq = dict([(level, i) for (i, level) in enumerate(freq_levels) if level])
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enum = dict([(level, i) for (i, level) in enumerate(enum_levels) if level])
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weekdays = dict([(weekday, i+1) for (i, weekday) in enumerate(["MO", "TU", "WE", "TH", "FR", "SA", "SU"])])
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# Functions for structuring the recurrences.
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def get_next(it):
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    try:
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        return it.next()
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    except StopIteration:
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        return None
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def get_parameters(values):
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    "Return parameters from the given list of 'values'."
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    d = {}
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    for value in values:
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        parts = value.split("=", 1)
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        if len(parts) < 2:
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            continue
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        key, value = parts
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        if key in ("COUNT", "BYSETPOS"):
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            d[key] = int(value)
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        else:
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            d[key] = value
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    return d
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def get_qualifiers(values):
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    """
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    Process the list of 'values' of the form "key=value", returning a list of
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    qualifiers of the form (qualifier name, args).
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    """
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    qualifiers = []
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    frequency = None
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    interval = 1
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    for value in values:
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        parts = value.split("=", 1)
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        if len(parts) < 2:
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            continue
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        key, value = parts
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        if key == "FREQ" and freq.has_key(value):
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            qualifier = frequency = (value, {})
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        elif key == "INTERVAL":
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            interval = int(value)
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            continue
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        elif enum.has_key(key):
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            qualifier = (key, {"values" : get_qualifier_values(key, value)})
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        else:
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            continue
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        qualifiers.append(qualifier)
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    if frequency:
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        frequency[1]["interval"] = interval
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    return qualifiers
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def get_qualifier_values(qualifier, value):
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    """
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    For the given 'qualifier', process the 'value' string, returning a list of
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    suitable values.
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    """
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    if qualifier != "BYDAY":
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        return map(int, value.split(","))
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    values = []
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    for part in value.split(","):
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        weekday = weekdays.get(part[-2:])
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        if not weekday:
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            continue
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        index = part[:-2]
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        if index:
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            index = int(index)
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        else:
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            index = None
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        values.append((weekday, index))
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    return values
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def order_qualifiers(qualifiers):
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    "Return the 'qualifiers' in order of increasing resolution."
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    l = []
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    for qualifier, args in qualifiers:
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        if enum.has_key(qualifier):
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            level = enum[qualifier]
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            if special_enum_levels.has_key(qualifier):
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                args["interval"] = 1
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                selector = special_enum_levels[qualifier]
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            else:
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                selector = Enum
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        else:
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            level = freq[qualifier]
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            selector = Pattern
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        l.append(selector(level, args, qualifier))
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    l.sort(key=lambda x: x.level)
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    return l
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def get_datetime_structure(datetime):
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    "Return the structure of 'datetime' for recurrence production."
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    l = []
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    offset = 0
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    for level, value in enumerate(datetime):
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        if level == 2:
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            offset = 3
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        l.append(Enum(level + offset, {"values" : [value]}, "DT"))
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    return l
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def combine_datetime_with_qualifiers(datetime, qualifiers):
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    """
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    Combine 'datetime' with 'qualifiers' to produce a structure for recurrence
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    production.
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    """
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    iter_dt = iter(get_datetime_structure(datetime))
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    iter_q = iter(order_qualifiers(qualifiers))
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    l = []
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    from_dt = get_next(iter_dt)
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    from_q = get_next(iter_q)
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    have_q = False
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    context = []
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    context.append(from_dt.args["values"][0])
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    # Consume from both lists, merging entries.
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    while from_dt and from_q:
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        _level = from_dt.level
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        level = from_q.level
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        # Datetime value at wider resolution.
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        if _level < level:
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            from_dt = get_next(iter_dt)
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            context.append(from_dt.args["values"][0])
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        # Qualifier at wider or same resolution as datetime value.
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        else:
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            if not have_q:
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                if isinstance(from_q, Enum) and level > 0:
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                    repeat = Pattern(level - 1, {"interval" : 1}, None)
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                    repeat.context = tuple(context)
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                    l.append(repeat)
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                have_q = True
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            from_q.context = tuple(context)
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            l.append(from_q)
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            from_q = get_next(iter_q)
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            if _level == level:
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                context.append(from_dt.args["values"][0])
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                from_dt = get_next(iter_dt)
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    # Complete the list.
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    while from_dt:
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        l.append(from_dt)
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        from_dt = get_next(iter_dt)
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    while from_q:
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        if not have_q:
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            if isinstance(from_q, Enum) and level > 0:
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                repeat = Pattern(level - 1, {"interval" : 1}, None)
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                repeat.context = tuple(context)
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                l.append(repeat)
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            have_q = True
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        from_q.context = tuple(context)
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        l.append(from_q)
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        from_q = get_next(iter_q)
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    return l
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# Datetime arithmetic.
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def combine(t1, t2):
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    """
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    Combine tuples 't1' and 't2', returning a copy of 't1' filled with values
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    from 't2' in positions where 0 appeared in 't1'.
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    """
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    return tuple(map(lambda x, y: x or y, t1, t2))
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def scale(interval, pos):
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    """
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    Scale the given 'interval' value to the indicated position 'pos', returning
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    a tuple with leading zero elements and 'interval' at the stated position.
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    """
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    return (0,) * pos + (interval,)
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def get_seconds(t):
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    "Convert the sub-day part of 't' into seconds."
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    t = t + (0,) * (6 - len(t))
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    return (t[3] * 60 + t[4]) * 60 + t[5]
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def update(t, step):
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    "Update 't' by 'step' at the resolution of 'step'."
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    i = len(step)
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    # Years only.
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    if i == 1:
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        return (t[0] + step[0],) + tuple(t[1:])
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    # Years and months.
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    elif i == 2:
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        month = t[1] + step[1]
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        return (t[0] + step[0] + (month - 1) / 12, (month - 1) % 12 + 1) + tuple(t[2:])
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    # Dates and datetimes.
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    else:
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        updated_for_months = update(t, step[:2])
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        # Dates only.
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        if i == 3:
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            d = datetime(*updated_for_months)
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            s = timedelta(step[2])
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        # Datetimes.
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        else:
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            d = datetime(*updated_for_months)
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            s = timedelta(step[2], get_seconds(step))
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        return to_tuple(d + s, len(t))
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def to_tuple(d, n=None):
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    "Return 'd' as a tuple, optionally trimming the result to 'n' positions."
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    if not isinstance(d, date):
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        return d
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    if n is None:
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        if isinstance(d, datetime):
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            n = 6
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        else:
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            n = 3
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    return d.timetuple()[:n]
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def get_first_day(first_day, weekday):
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    "Return the first occurrence at or after 'first_day' of 'weekday'."
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    first_day = date(*first_day)
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    first_weekday = first_day.isoweekday()
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    if first_weekday > weekday:
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        return first_day + timedelta(7 - first_weekday + weekday)
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    else:
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        return first_day + timedelta(weekday - first_weekday)
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def get_last_day(last_day, weekday):
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    "Return the last occurrence at or before 'last_day' of 'weekday'."
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    last_day = date(*last_day)
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    last_weekday = last_day.isoweekday()
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    if last_weekday < weekday:
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        return last_day - timedelta(last_weekday + 7 - weekday)
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    else:
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        return last_day - timedelta(last_weekday - weekday)
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# Classes for producing instances from recurrence structures.
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class Selector:
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    "A generic selector."
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    def __init__(self, level, args, qualifier, selecting=None):
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        """
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        Initialise at the given 'level' a selector employing the given 'args'
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        defined in the interpretation of recurrence rule qualifiers, with the
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        'qualifier' being the name of the rule qualifier, and 'selecting' being
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        an optional selector used to find more specific instances from those
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        found by this selector.
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        """
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        self.level = level
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        self.pos = positions[level]
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        self.args = args
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        self.qualifier = qualifier
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        self.context = ()
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        self.selecting = selecting
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    def __repr__(self):
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        return "%s(%r, %r, %r, %r)" % (self.__class__.__name__, self.level, self.args, self.qualifier, self.context)
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    def materialise(self, start, end, count=None, setpos=None, inclusive=False):
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        """
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        Starting at 'start', materialise instances up to but not including any
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        at 'end' or later, returning at most 'count' if specified, and returning
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        only the occurrences indicated by 'setpos' if specified. A list of
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        instances is returned.
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        If 'inclusive' is specified, the selection of instances will include the
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        end of the search period if present in the results.
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        """
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        start = to_tuple(start)
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        end = to_tuple(end)
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        counter = count and [0, count]
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        results = self.materialise_items(self.context, start, end, counter, setpos, inclusive)
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        results.sort()
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        return results[:count]
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    def materialise_item(self, current, earliest, next, counter, setpos=None, inclusive=False):
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        """
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        Given the 'current' instance, the 'earliest' acceptable instance, the
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        'next' instance, an instance 'counter', and the optional 'setpos'
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        criteria, return a list of result items. Where no selection within the
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        current instance occurs, the current instance will be returned as a
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        result if the same or later than the earliest acceptable instance.
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        """
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        if self.selecting:
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            return self.selecting.materialise_items(current, earliest, next, counter, setpos, inclusive)
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        elif earliest <= current:
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            return [current]
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        else:
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            return []
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    def convert_positions(self, setpos):
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        "Convert 'setpos' to 0-based indexes."
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        l = []
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        for pos in setpos:
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            lower = pos < 0 and pos or pos - 1
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            upper = pos > 0 and pos or pos < -1 and pos + 1 or None
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            l.append((lower, upper))
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        return l
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    def select_positions(self, results, setpos):
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        "Select in 'results' the 1-based positions given by 'setpos'."
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        results.sort()
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        l = []
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        for lower, upper in self.convert_positions(setpos):
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            l += results[lower:upper]
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        return l
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    def filter_by_period(self, results, start, end, inclusive):
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        """
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        Filter 'results' so that only those at or after 'start' and before 'end'
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        are returned.
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        If 'inclusive' is specified, the selection of instances will include the
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        end of the search period if present in the results.
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        """
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        l = []
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        for result in results:
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            if start <= result and (inclusive and result <= end or result < end):
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                l.append(result)
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        return l
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class Pattern(Selector):
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    "A selector of instances according to a repeating pattern."
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    def materialise_items(self, context, start, end, counter, setpos=None, inclusive=False):
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        first = scale(self.context[self.pos], self.pos)
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        # Define the step between items.
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        interval = self.args.get("interval", 1) * units.get(self.qualifier, 1)
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        step = scale(interval, self.pos)
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        # Define the scale of a single item.
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        unit_interval = units.get(self.qualifier, 1)
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        unit_step = scale(unit_interval, self.pos)
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        current = combine(context, first)
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        results = []
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        while (inclusive and current <= end or current < end) and (counter is None or counter[0] < counter[1]):
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            next = update(current, step)
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            current_end = update(current, unit_step)
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            interval_results = self.materialise_item(current, max(current, start), min(current_end, end), counter, setpos, inclusive)
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            if counter is not None:
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                counter[0] += len(interval_results)
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            results += interval_results
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            current = next
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        return results
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class WeekDayFilter(Selector):
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    "A selector of instances specified in terms of day numbers."
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    def materialise_items(self, context, start, end, counter, setpos=None, inclusive=False):
paul@39 520
        step = scale(1, 2)
paul@33 521
        results = []
paul@34 522
paul@39 523
        # Get weekdays in the year.
paul@39 524
paul@39 525
        if len(context) == 1:
paul@39 526
            first_day = (context[0], 1, 1)
paul@39 527
            last_day = (context[0], 12, 31)
paul@39 528
paul@39 529
        # Get weekdays in the month.
paul@39 530
paul@39 531
        elif len(context) == 2:
paul@39 532
            first_day = (context[0], context[1], 1)
paul@39 533
            last_day = update((context[0], context[1], 1), (0, 1, 0))
paul@39 534
            last_day = update(last_day, (0, 0, -1))
paul@39 535
paul@39 536
        # Get weekdays in the week.
paul@39 537
paul@39 538
        else:
paul@39 539
            current = context
paul@39 540
            values = [value for (value, index) in self.args["values"]]
paul@39 541
paul@359 542
            while (inclusive and current <= end or current < end):
paul@39 543
                next = update(current, step)
paul@39 544
                if date(*current).isoweekday() in values:
paul@359 545
                    results += self.materialise_item(current, max(current, start), min(next, end), counter, inclusive=inclusive)
paul@39 546
                current = next
paul@45 547
paul@45 548
            if setpos:
paul@45 549
                return self.select_positions(results, setpos)
paul@45 550
            else:
paul@45 551
                return results
paul@39 552
paul@39 553
        # Find each of the given days.
paul@39 554
paul@39 555
        for value, index in self.args["values"]:
paul@39 556
            if index is not None:
paul@39 557
                offset = timedelta(7 * (abs(index) - 1))
paul@39 558
paul@39 559
                if index < 0:
paul@39 560
                    current = to_tuple(get_last_day(last_day, value) - offset, 3)
paul@39 561
                else:
paul@39 562
                    current = to_tuple(get_first_day(first_day, value) + offset, 3)
paul@39 563
paul@45 564
                next = update(current, step)
paul@45 565
paul@45 566
                # To support setpos, only current and next bound the search, not
paul@45 567
                # the period in addition.
paul@45 568
paul@359 569
                results += self.materialise_item(current, current, next, counter, inclusive=inclusive)
paul@39 570
paul@39 571
            else:
paul@39 572
                if index < 0:
paul@39 573
                    current = to_tuple(get_last_day(last_day, value), 3)
paul@39 574
                    direction = operator.sub
paul@39 575
                else:
paul@39 576
                    current = to_tuple(get_first_day(first_day, value), 3)
paul@39 577
                    direction = operator.add
paul@39 578
paul@39 579
                while first_day <= current <= last_day:
paul@45 580
                    next = update(current, step)
paul@45 581
paul@45 582
                    # To support setpos, only current and next bound the search, not
paul@45 583
                    # the period in addition.
paul@45 584
paul@359 585
                    results += self.materialise_item(current, current, next, counter, inclusive=inclusive)
paul@39 586
                    current = to_tuple(direction(date(*current), timedelta(7)), 3)
paul@34 587
paul@45 588
        # Extract selected positions and remove out-of-period instances.
paul@45 589
paul@45 590
        if setpos:
paul@45 591
            results = self.select_positions(results, setpos)
paul@45 592
paul@359 593
        return self.filter_by_period(results, start, end, inclusive)
paul@33 594
paul@33 595
class Enum(Selector):
paul@359 596
    def materialise_items(self, context, start, end, counter, setpos=None, inclusive=False):
paul@33 597
        step = scale(1, self.pos)
paul@33 598
        results = []
paul@33 599
        for value in self.args["values"]:
paul@33 600
            current = combine(context, scale(value, self.pos))
paul@45 601
            next = update(current, step)
paul@45 602
paul@45 603
            # To support setpos, only current and next bound the search, not
paul@45 604
            # the period in addition.
paul@45 605
paul@359 606
            results += self.materialise_item(current, current, next, counter, setpos, inclusive)
paul@45 607
paul@45 608
        # Extract selected positions and remove out-of-period instances.
paul@45 609
paul@45 610
        if setpos:
paul@45 611
            results = self.select_positions(results, setpos)
paul@45 612
paul@359 613
        return self.filter_by_period(results, start, end, inclusive)
paul@35 614
paul@35 615
class MonthDayFilter(Enum):
paul@359 616
    def materialise_items(self, context, start, end, counter, setpos=None, inclusive=False):
paul@35 617
        last_day = monthrange(context[0], context[1])[1]
paul@35 618
        step = scale(1, self.pos)
paul@35 619
        results = []
paul@35 620
        for value in self.args["values"]:
paul@35 621
            if value < 0:
paul@35 622
                value = last_day + 1 + value
paul@35 623
            current = combine(context, scale(value, self.pos))
paul@45 624
            next = update(current, step)
paul@45 625
paul@45 626
            # To support setpos, only current and next bound the search, not
paul@45 627
            # the period in addition.
paul@45 628
paul@359 629
            results += self.materialise_item(current, current, next, counter, inclusive=inclusive)
paul@45 630
paul@45 631
        # Extract selected positions and remove out-of-period instances.
paul@45 632
paul@45 633
        if setpos:
paul@45 634
            results = self.select_positions(results, setpos)
paul@45 635
paul@359 636
        return self.filter_by_period(results, start, end, inclusive)
paul@33 637
paul@37 638
class YearDayFilter(Enum):
paul@359 639
    def materialise_items(self, context, start, end, counter, setpos=None, inclusive=False):
paul@37 640
        first_day = date(context[0], 1, 1)
paul@37 641
        next_first_day = date(context[0] + 1, 1, 1)
paul@37 642
        year_length = (next_first_day - first_day).days
paul@37 643
        step = scale(1, self.pos)
paul@37 644
        results = []
paul@37 645
        for value in self.args["values"]:
paul@37 646
            if value < 0:
paul@37 647
                value = year_length + 1 + value
paul@39 648
            current = to_tuple(first_day + timedelta(value - 1), 3)
paul@45 649
            next = update(current, step)
paul@45 650
paul@45 651
            # To support setpos, only current and next bound the search, not
paul@45 652
            # the period in addition.
paul@45 653
paul@359 654
            results += self.materialise_item(current, current, next, counter, inclusive=inclusive)
paul@45 655
paul@45 656
        # Extract selected positions and remove out-of-period instances.
paul@45 657
paul@45 658
        if setpos:
paul@45 659
            results = self.select_positions(results, setpos)
paul@45 660
paul@359 661
        return self.filter_by_period(results, start, end, inclusive)
paul@37 662
paul@46 663
special_enum_levels = {
paul@46 664
    "BYDAY" : WeekDayFilter,
paul@46 665
    "BYMONTHDAY" : MonthDayFilter,
paul@46 666
    "BYYEARDAY" : YearDayFilter,
paul@46 667
    }
paul@46 668
paul@46 669
# Public functions.
paul@46 670
paul@46 671
def connect_selectors(selectors):
paul@358 672
paul@358 673
    """
paul@358 674
    Make the 'selectors' reference each other in a hierarchy so that
paul@358 675
    materialising the principal selector causes the more specific ones to be
paul@358 676
    employed in the operation.
paul@358 677
    """
paul@358 678
paul@33 679
    current = selectors[0]
paul@33 680
    for selector in selectors[1:]:
paul@33 681
        current.selecting = selector
paul@33 682
        current = selector
paul@33 683
    return selectors[0]
paul@33 684
paul@46 685
def get_selector(dt, qualifiers):
paul@322 686
paul@322 687
    """
paul@322 688
    Combine the initial datetime 'dt' with the given 'qualifiers', returning an
paul@322 689
    object that can be used to select recurrences described by the 'qualifiers'.
paul@322 690
    """
paul@322 691
paul@46 692
    dt = to_tuple(dt)
paul@46 693
    return connect_selectors(combine_datetime_with_qualifiers(dt, qualifiers))
paul@46 694
paul@46 695
def get_rule(dt, rule):
paul@317 696
paul@317 697
    """
paul@317 698
    Using the given initial datetime 'dt', interpret the 'rule' (a semicolon-
paul@317 699
    separated collection of "key=value" strings), and return the resulting
paul@317 700
    selector object.
paul@317 701
    """
paul@317 702
paul@351 703
    if not isinstance(rule, tuple):
paul@351 704
        rule = rule.split(";")
paul@351 705
    qualifiers = get_qualifiers(rule)
paul@46 706
    return get_selector(dt, qualifiers)
paul@35 707
paul@33 708
# vim: tabstop=4 expandtab shiftwidth=4