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- """This module contains the expressions applicable for CronTrigger's fields."""
- from calendar import monthrange
- import re
- from apscheduler.util import asint
- __all__ = ('AllExpression', 'RangeExpression', 'WeekdayRangeExpression',
- 'WeekdayPositionExpression', 'LastDayOfMonthExpression')
- WEEKDAYS = ['mon', 'tue', 'wed', 'thu', 'fri', 'sat', 'sun']
- class AllExpression(object):
- value_re = re.compile(r'\*(?:/(?P<step>\d+))?$')
- def __init__(self, step=None):
- self.step = asint(step)
- if self.step == 0:
- raise ValueError('Increment must be higher than 0')
- def get_next_value(self, date, field):
- start = field.get_value(date)
- minval = field.get_min(date)
- maxval = field.get_max(date)
- start = max(start, minval)
- if not self.step:
- next = start
- else:
- distance_to_next = (self.step - (start - minval)) % self.step
- next = start + distance_to_next
- if next <= maxval:
- return next
- def __eq__(self, other):
- return isinstance(other, self.__class__) and self.step == other.step
- def __str__(self):
- if self.step:
- return '*/%d' % self.step
- return '*'
- def __repr__(self):
- return "%s(%s)" % (self.__class__.__name__, self.step)
- class RangeExpression(AllExpression):
- value_re = re.compile(
- r'(?P<first>\d+)(?:-(?P<last>\d+))?(?:/(?P<step>\d+))?$')
- def __init__(self, first, last=None, step=None):
- AllExpression.__init__(self, step)
- first = asint(first)
- last = asint(last)
- if last is None and step is None:
- last = first
- if last is not None and first > last:
- raise ValueError('The minimum value in a range must not be higher than the maximum')
- self.first = first
- self.last = last
- def get_next_value(self, date, field):
- start = field.get_value(date)
- minval = field.get_min(date)
- maxval = field.get_max(date)
- # Apply range limits
- minval = min(maxval, max(minval, self.first))
- if self.last is not None:
- maxval = min(maxval, self.last)
- start = max(start, minval)
- if not self.step:
- next = start
- else:
- distance_to_next = (self.step - (start - minval)) % self.step
- next = start + distance_to_next
- if next <= maxval:
- return next
- def __eq__(self, other):
- return (isinstance(other, self.__class__) and self.first == other.first and
- self.last == other.last)
- def __str__(self):
- if self.last != self.first and self.last is not None:
- range = '%d-%d' % (self.first, self.last)
- else:
- range = str(self.first)
- if self.step:
- return '%s/%d' % (range, self.step)
- return range
- def __repr__(self):
- args = [str(self.first)]
- if self.last != self.first and self.last is not None or self.step:
- args.append(str(self.last))
- if self.step:
- args.append(str(self.step))
- return "%s(%s)" % (self.__class__.__name__, ', '.join(args))
- class WeekdayRangeExpression(RangeExpression):
- value_re = re.compile(r'(?P<first>[a-z]+)(?:-(?P<last>[a-z]+))?', re.IGNORECASE)
- def __init__(self, first, last=None):
- try:
- first_num = WEEKDAYS.index(first.lower())
- except ValueError:
- raise ValueError('Invalid weekday name "%s"' % first)
- if last:
- try:
- last_num = WEEKDAYS.index(last.lower())
- except ValueError:
- raise ValueError('Invalid weekday name "%s"' % last)
- else:
- last_num = None
- RangeExpression.__init__(self, first_num, last_num)
- def __str__(self):
- if self.last != self.first and self.last is not None:
- return '%s-%s' % (WEEKDAYS[self.first], WEEKDAYS[self.last])
- return WEEKDAYS[self.first]
- def __repr__(self):
- args = ["'%s'" % WEEKDAYS[self.first]]
- if self.last != self.first and self.last is not None:
- args.append("'%s'" % WEEKDAYS[self.last])
- return "%s(%s)" % (self.__class__.__name__, ', '.join(args))
- class WeekdayPositionExpression(AllExpression):
- options = ['1st', '2nd', '3rd', '4th', '5th', 'last']
- value_re = re.compile(r'(?P<option_name>%s) +(?P<weekday_name>(?:\d+|\w+))' %
- '|'.join(options), re.IGNORECASE)
- def __init__(self, option_name, weekday_name):
- try:
- self.option_num = self.options.index(option_name.lower())
- except ValueError:
- raise ValueError('Invalid weekday position "%s"' % option_name)
- try:
- self.weekday = WEEKDAYS.index(weekday_name.lower())
- except ValueError:
- raise ValueError('Invalid weekday name "%s"' % weekday_name)
- def get_next_value(self, date, field):
- # Figure out the weekday of the month's first day and the number of days in that month
- first_day_wday, last_day = monthrange(date.year, date.month)
- # Calculate which day of the month is the first of the target weekdays
- first_hit_day = self.weekday - first_day_wday + 1
- if first_hit_day <= 0:
- first_hit_day += 7
- # Calculate what day of the month the target weekday would be
- if self.option_num < 5:
- target_day = first_hit_day + self.option_num * 7
- else:
- target_day = first_hit_day + ((last_day - first_hit_day) / 7) * 7
- if target_day <= last_day and target_day >= date.day:
- return target_day
- def __eq__(self, other):
- return (super(WeekdayPositionExpression, self).__eq__(other) and
- self.option_num == other.option_num and self.weekday == other.weekday)
- def __str__(self):
- return '%s %s' % (self.options[self.option_num], WEEKDAYS[self.weekday])
- def __repr__(self):
- return "%s('%s', '%s')" % (self.__class__.__name__, self.options[self.option_num],
- WEEKDAYS[self.weekday])
- class LastDayOfMonthExpression(AllExpression):
- value_re = re.compile(r'last', re.IGNORECASE)
- def __init__(self):
- pass
- def get_next_value(self, date, field):
- return monthrange(date.year, date.month)[1]
- def __str__(self):
- return 'last'
- def __repr__(self):
- return "%s()" % self.__class__.__name__
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