/usr/lib/python2.7/dist-packages/zonal/zone.py is in python-pycalendar 1:2.1~git20161130.0.e68e150-1.
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# Copyright (c) 2007-2013 Cyrus Daboo. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
##
from pycalendar.datetime import DateTime
from pycalendar.icalendar import definitions
from pycalendar.icalendar.property import Property
from pycalendar.icalendar.vtimezone import VTimezone
from pycalendar.icalendar.vtimezonestandard import Standard
from pycalendar.utcoffsetvalue import UTCOffsetValue
import rule
import utils
"""
Class that maintains a TZ data Zone.
"""
__all__ = (
"Zone",
"ZoneRule",
)
class Zone(object):
"""
A tzdata Zone object containing a set of ZoneRules
"""
def __init__(self):
self.name = ""
self.rules = []
def __str__(self):
return self.generate()
def __eq__(self, other):
return other and (
self.name == other.name and
self.rules == other.rules
)
def __ne__(self, other):
return not self.__eq__(other)
def parse(self, lines):
"""
Parse the Zone lines from tzdata.
@param lines: the lines to parse.
@type lines: C{str}
"""
# Parse one line at a time
splitlines = lines.split("\n")
# First line is special
line = splitlines[0]
splits = [x for x in line.expandtabs(1).split(" ") if len(x) > 0]
self.name = splits[1]
rule = ZoneRule(self)
rule.parse(line, 0)
self.rules.append(rule)
for line in splitlines[1:]:
if len(line) == 0:
continue
rule = ZoneRule(self)
rule.parse(line, 2)
if rule.gmtoff != "#":
self.rules.append(rule)
def generate(self):
"""
Generate a partial Zone line.
@return: a C{str} with the Rule.
"""
lines = []
for count, tzrule in enumerate(self.rules):
if count == 0:
items = (
"Zone " + self.name,
tzrule.generate(),
)
else:
items = (
"",
"",
"",
tzrule.generate(),
)
lines.append("\t".join(items))
return "\n".join(lines)
def expand(self, rules, minYear, maxYear):
"""
Expand this zone into a set of transitions.
@param rules: parsed Rules for the tzdb
@type rules: C{dict}
@param minYear: starting year
@type minYear: C{int}
@param maxYear: ending year
@type maxYear: C{int}
@return: C{list} of C{tuple} for (
transition date-time,
offset to,
offset from,
associated rule,
)
"""
# Start at 1/1/1800 with the offset from the initial zone rule
start = DateTime(year=1800, month=1, day=1, hours=0, minutes=0, seconds=0)
start_offset = self.rules[0].getUTCOffset()
start_stdoffset = self.rules[0].getUTCOffset()
startdt = start.duplicate()
# Now add each zone rules dates
transitions = []
lastUntilDateUTC = start.duplicate()
last_offset = start_offset
last_stdoffset = start_stdoffset
first = True
for zonerule in self.rules:
last_offset, last_stdoffset = zonerule.expand(rules, transitions, lastUntilDateUTC, last_offset, last_stdoffset, maxYear)
lastUntilDate = zonerule.getUntilDate()
lastUntilDateUTC = lastUntilDate.getUTC(last_offset, last_stdoffset)
# We typically don't care about the initial one
if first and len(self.rules) > 1:
transitions = []
first = False
# Sort the results by date
transitions.sort(cmp=lambda x, y: x[0].compareDateTime(y[0]))
# Now scan transitions looking for real changes and note those
results = []
last_transition = (startdt, start_offset, start_offset)
for transition in transitions:
dtutc, to_offset, zonerule, rule = transition
dt = dtutc.duplicate()
dt.offsetSeconds(last_transition[1])
if dtutc.getYear() >= minYear:
if dt > last_transition[0]:
results.append((dt, last_transition[1], to_offset, zonerule, rule))
elif dt <= last_transition[0]:
if len(results):
results[-1] = ((results[-1][0], results[-1][1], to_offset, zonerule, None))
else:
results.append((last_transition[0], last_transition[1], last_transition[2], zonerule, None))
last_transition = (dt, to_offset, last_transition[2], rule)
return results
def vtimezone(self, calendar, rules, minYear, maxYear):
"""
Generate a VTIMEZONE for this Zone.
@param calendar: the L{Calendar} object for the VCALENDAR in which the VTIMEZONE
will be created.
@param rules: the C{dict} containing the set of Rules currently defined.
@param startYear: a C{int} containing the first year that should be present
in the VTIMEZONE.
@return: C{vtimezone} component.
"""
# Get a VTIMEZONE component
vtz = VTimezone(parent=calendar)
# Add TZID property
vtz.addProperty(Property(definitions.cICalProperty_TZID, self.name))
vtz.addProperty(Property("X-LIC-LOCATION", self.name))
transitions = self.expand(rules, minYear, maxYear)
# Group rules
lastZoneRule = None
ruleorder = []
rulemap = {}
def _generateRuleData():
# Generate VTIMEZONE component for last set of rules
for tzrule in ruleorder:
if tzrule:
# Accumulate tzrule portions with the same offset pairs
lastOffsetPair = (rulemap[tzrule][0][1], rulemap[tzrule][0][2],)
startIndex = 0
for index in xrange(len(rulemap[tzrule])):
offsetPair = (rulemap[tzrule][index][1], rulemap[tzrule][index][2],)
if offsetPair != lastOffsetPair:
tzrule.vtimezone(
vtz,
lastZoneRule,
rulemap[tzrule][startIndex][0],
rulemap[tzrule][index - 1][0],
rulemap[tzrule][startIndex][1],
rulemap[tzrule][startIndex][2],
index - startIndex,
)
lastOffsetPair = (rulemap[tzrule][index][1], rulemap[tzrule][index][2],)
startIndex = index
tzrule.vtimezone(
vtz,
lastZoneRule,
rulemap[tzrule][startIndex][0],
rulemap[tzrule][index][0],
rulemap[tzrule][startIndex][1],
rulemap[tzrule][startIndex][2],
len(rulemap[tzrule]),
)
else:
lastZoneRule.vtimezone(
vtz,
lastZoneRule,
rulemap[tzrule][0][0],
rulemap[tzrule][-1][0],
rulemap[tzrule][0][1],
rulemap[tzrule][0][2],
)
del ruleorder[:]
rulemap.clear()
for dt, offsetfrom, offsetto, zonerule, tzrule in transitions:
# Check for change of rule - we ignore LMT's
if zonerule.format != "LMT":
if lastZoneRule and lastZoneRule != zonerule:
_generateRuleData()
if tzrule not in ruleorder:
ruleorder.append(tzrule)
rulemap.setdefault(tzrule, []).append((dt, offsetfrom, offsetto,))
lastZoneRule = zonerule
# Do left overs
_generateRuleData()
self._compressRDateComponents(vtz)
vtz.finalise()
return vtz
def _compressRDateComponents(self, vtz):
"""
Compress sub-components with RDATEs into a single component with multiple
RDATEs assuming all other properties are the same.
@param vtz: the VTIMEZONE object to compress
@type vtz: L{VTimezone}
"""
# Map the similar sub-components together
similarMap = {}
for item in vtz.mComponents:
item.finalise()
key = (
item.getType(),
item.getTZName(),
item.getUTCOffset(),
item.getUTCOffsetFrom(),
)
if item.hasProperty(definitions.cICalProperty_RDATE):
similarMap.setdefault(key, []).append(item)
# Merge similar
for values in similarMap.itervalues():
if len(values) > 1:
mergeTo = values[0]
for mergeFrom in values[1:]:
# Copy RDATE from to and remove from actual timezone
prop = mergeFrom.getProperties()[definitions.cICalProperty_RDATE][0]
mergeTo.addProperty(prop)
vtz.mComponents.remove(mergeFrom)
class ZoneRule(object):
"""
A specific rule for a portion of a Zone
"""
def __init__(self, zone):
self.zone = zone
self.gmtoff = 0
self.rule = ""
self.format = ""
self.until = None
def __str__(self):
return self.generate()
def __eq__(self, other):
return other and (
self.gmtoff == other.gmtoff and
self.rule == other.rule and
self.format == other.format and
self.until == other.until
)
def __ne__(self, other):
return not self.__eq__(other)
def parse(self, line, offset):
"""
Parse the Zone line from tzdata.
@param line: a C{str} containing the line to parse.
"""
splits = [x for x in line.expandtabs(1).split(" ") if len(x) > 0]
assert len(splits) + offset >= 5, "Help: %s" % (line,)
self.gmtoff = splits[2 - offset]
self.rule = splits[3 - offset]
self.format = splits[4 - offset]
if len(splits) >= 6 - offset:
self.until = " ".join(splits[5 - offset:])
def generate(self):
"""
Generate a partial Zone line.
@return: a C{str} with the Rule.
"""
items = (
self.gmtoff,
self.rule,
self.format,
)
if self.until:
items = items + (self.until,)
return "\t".join(items)
def getUntilDate(self):
if hasattr(self, "_cached_until"):
return self._cached_until
year = 9999
month = 12
day = 1
hours = 0
minutes = 0
seconds = 0
mode = None
if self.until and not self.until.startswith("#"):
splits = self.until.split(" ")
year = int(splits[0])
month = 1
day = 1
hours = 0
minutes = 0
seconds = 0
mode = None
if len(splits) > 1 and not splits[1].startswith("#"):
month = int(rule.Rule.MONTH_NAME_TO_POS[splits[1]])
if len(splits) > 2 and not splits[2].startswith("#"):
if splits[2] == "lastSun":
dt = DateTime(year=year, month=month, day=1)
dt.setDayOfWeekInMonth(-1, DateTime.SUNDAY)
splits[2] = dt.getDay()
elif splits[2] == "lastSat":
dt = DateTime(year=year, month=month, day=1)
dt.setDayOfWeekInMonth(-1, DateTime.SATURDAY)
splits[2] = dt.getDay()
elif splits[2] == "Sun>=1":
dt = DateTime(year=year, month=month, day=1)
dt.setDayOfWeekInMonth(1, DateTime.SUNDAY)
splits[2] = dt.getDay()
day = int(splits[2])
if len(splits) > 3 and not splits[3].startswith("#"):
splits = splits[3].split(":")
hours = int(splits[0])
minutes = int(splits[1][:2])
if len(splits[1]) > 2:
mode = splits[1][2:]
else:
mode = None
if len(splits) > 2:
seconds = int(splits[2])
dt = DateTime(year=year, month=month, day=day, hours=hours, minutes=minutes, seconds=seconds)
self._cached_until = utils.DateTime(dt, mode)
return self._cached_until
def getUTCOffset(self):
if hasattr(self, "_cached_utc_offset"):
return self._cached_uutc_offset
splits = self.gmtoff.split(":")
hours = int(splits[0] if splits[0][0] != "-" else splits[0][1:])
minutes = int(splits[1]) if len(splits) > 1 else 0
seconds = int(splits[2]) if len(splits) > 2 else 0
negative = splits[0][0] == "-"
self._cached_uutc_offset = ((hours * 60) + minutes) * 60 + seconds
if negative:
self._cached_uutc_offset = -self._cached_uutc_offset
return self._cached_uutc_offset
def expand(self, rules, results, lastUntilUTC, lastOffset, lastStdOffset, maxYear):
# Expand the rule
assert self.rule == "-" or self.rule[0].isdigit() or self.rule in rules, "No rule '%s' found in cache. %s for %s" % (self.rule, self, self.zone,)
if self.rule == "-" or self.rule[0].isdigit():
return self.expand_norule(results, lastUntilUTC, maxYear)
else:
tempresults = []
ruleset = rules[self.rule]
ruleset.expand(tempresults, self, maxYear)
# Sort the results by date
tempresults.sort(cmp=lambda x, y: x[0].compareDateTime(y[0]))
found_one = False
found_start = False
last_offset = lastOffset
last_stdoffset = lastStdOffset
finalUntil = self.getUntilDate()
for dt, to_offset, tzrule in tempresults:
dtutc = dt.getUTC(last_offset, last_stdoffset)
if dtutc >= lastUntilUTC:
if not found_start and dtutc != lastUntilUTC:
# Insert a start item
if not found_one:
last_offset = self.getUTCOffset()
last_stdoffset = self.getUTCOffset()
dtutc = dt.getUTC(last_offset, last_stdoffset)
results.append((lastUntilUTC, last_offset, self, None))
found_start = True
if dtutc >= finalUntil.getUTC(last_offset, last_stdoffset):
break
results.append((dtutc, to_offset, self, tzrule))
last_offset = to_offset
last_stdoffset = self.getUTCOffset()
found_one = True
if found_start == 0:
results.append((lastUntilUTC, last_offset, self, None))
return last_offset, last_stdoffset
def expand_norule(self, results, lastUntil, maxYear):
to_offset = 0
if self.rule[0].isdigit():
splits = self.rule.split(":")
to_offset = 60 * 60 * int(splits[0])
if len(splits) > 1:
to_offset += 60 * int(splits[1])
# Always add a transition for the start of this rule
results.append((lastUntil, self.getUTCOffset() + to_offset, self, None))
return (self.getUTCOffset() + to_offset, self.getUTCOffset())
def vtimezone(self, vtz, zonerule, start, end, offsetfrom, offsetto):
# Determine type of component based on offset
comp = Standard(parent=vtz)
# Do offsets
tzoffsetfrom = UTCOffsetValue(offsetfrom)
tzoffsetto = UTCOffsetValue(offsetto)
comp.addProperty(Property(definitions.cICalProperty_TZOFFSETFROM, tzoffsetfrom))
comp.addProperty(Property(definitions.cICalProperty_TZOFFSETTO, tzoffsetto))
# Do TZNAME
if self.format.find("%") != -1:
tzname = self.format % ("S",)
else:
tzname = self.format
comp.addProperty(Property(definitions.cICalProperty_TZNAME, tzname))
# Do DTSTART
comp.addProperty(Property(definitions.cICalProperty_DTSTART, start))
# Recurrence
comp.addProperty(Property(definitions.cICalProperty_RDATE, start))
comp.finalise()
vtz.addComponent(comp)
if __name__ == '__main__':
rulesdef = """Rule\tUS\t1918\t1919\t-\tMar\tlastSun\t2:00\t1:00\tD
Rule\tUS\t1918\t1919\t-\tOct\tlastSun\t2:00\t0\tS
Rule\tUS\t1942\tonly\t-\tFeb\t9\t2:00\t1:00\tW # War
Rule\tUS\t1945\tonly\t-\tAug\t14\t23:00u\t1:00\tP # Peace
Rule\tUS\t1945\tonly\t-\tSep\t30\t2:00\t0\tS
Rule\tUS\t1967\t2006\t-\tOct\tlastSun\t2:00\t0\tS
Rule\tUS\t1967\t1973\t-\tApr\tlastSun\t2:00\t1:00\tD
Rule\tUS\t1974\tonly\t-\tJan\t6\t2:00\t1:00\tD
Rule\tUS\t1975\tonly\t-\tFeb\t23\t2:00\t1:00\tD
Rule\tUS\t1976\t1986\t-\tApr\tlastSun\t2:00\t1:00\tD
Rule\tUS\t1987\t2006\t-\tApr\tSun>=1\t2:00\t1:00\tD
Rule\tUS\t2007\tmax\t-\tMar\tSun>=8\t2:00\t1:00\tD
Rule\tUS\t2007\tmax\t-\tNov\tSun>=1\t2:00\t0\tS"""
rules = {}
ruleset = rule.RuleSet()
ruleset.parse(rulesdef)
rules[ruleset.name] = ruleset
zonedef = """Zone America/New_York -4:56:02\t-\tLMT\t1883 Nov 18 12:03:58
\t\t\t-5:00\tUS\tE%sT\t1920
\t\t\t-5:00\tNYC\tE%sT\t1942
\t\t\t-5:00\tUS\tE%sT\t1946
\t\t\t-5:00\tNYC\tE%sT\t1967
\t\t\t-5:00\tUS\tE%sT"""
zone = Zone()
zone.parse(zonedef)
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