def run_reserve(
self, data, approve_manually, dates=None, group=None, quota=1,
rrule=None, description=None
):
assert dates or group
assert not (dates and group)
email = self.email(data)
session_id = self.session_id()
additional_data = self.additional_data(data, add_manager_defaults=True)
# only store forms defined in the formsets list
additional_data = dict(
(
form, additional_data[form]
) for form in self.context.formsets if form in additional_data
)
if dates:
for start, end in utils.pairs(dates):
run_pre_reserve_script(
self.context, start, end, additional_data
)
else:
run_pre_reserve_script(self.context, None, None, additional_data)
def run():
if dates:
return self.scheduler.reserve(
email, dates, data=additional_data,
session_id=session_id, quota=quota, rrule=rrule,
description=description
)
else:
return self.scheduler.reserve(
email, group=group,
data=additional_data, session_id=session_id, quota=quota,
description=description
)
token = throttled(run, 'reserve')()
if approve_manually:
self.flash(_(u'Added to waitinglist'))
else:
self.scheduler.approve_reservation(token)
self.flash(_(u'Reservation successful'))
def reserve(self, email, dates=None, group=None, data=None,
session_id=None, quota=1):
""" First step of the reservation.
Seantis.reservation uses a two-step reservation process. The first
step is reserving what is either an open spot or a place on the
waiting list.
The second step is to actually write out the reserved slots, which
is done by approving an existing reservation.
Most checks are done in the reserve functions. The approval step
only fails if there's no open spot.
This function returns a reservation token which can be used to
approve the reservation in approve_reservation.
"""
assert (dates or group) and not (dates and group)
validate_email(email)
if group:
dates = self.dates_by_group(group)
dates = utils.pairs(dates)
# First, the request is checked for saneness. If any requested
# date cannot be reserved the request as a whole fails.
for start, end in dates:
# are the parameters valid?
if abs((end - start).days) >= 1:
raise ReservationTooLong
if start > end or (end - start).seconds < 5 * 60:
raise ReservationParametersInvalid
# can all allocations be reserved?
for allocation in self.allocations_in_range(start, end):
# start and end are not rasterized, so we need this check
if not allocation.overlaps(start, end):
continue
assert allocation.is_master
# with manual approval the reservation ends up on the
# waitinglist and does not yet need a spot
if not allocation.approve_manually:
if not self.find_spot(allocation, start, end):
raise AlreadyReservedError
free = self.free_allocations_count(allocation, start, end)
if free < quota:
raise AlreadyReservedError
if allocation.reservation_quota_limit > 0:
if allocation.reservation_quota_limit < quota:
raise QuotaOverLimit
if allocation.quota < quota:
raise QuotaImpossible
if quota < 1:
raise InvalidQuota
# ok, we're good to go
token = new_uuid()
found = 0
# groups are reserved by group-identifier - so all members of a group
# or none of them. As such there's no start / end date which is defined
# implicitly by the allocation
if group:
found = 1
reservation = Reservation()
reservation.token = token
reservation.target = group
reservation.status = u'pending'
reservation.target_type = u'group'
reservation.resource = self.uuid
reservation.data = data
reservation.session_id = session_id
reservation.email = email
reservation.quota = quota
Session.add(reservation)
else:
groups = []
for start, end in dates:
for allocation in self.allocations_in_range(start, end):
if not allocation.overlaps(start, end):
continue
found += 1
reservation = Reservation()
reservation.token = token
reservation.start, reservation.end = rasterize_span(
start, end, allocation.raster
)
reservation.target = allocation.group
reservation.status = u'pending'
reservation.target_type = u'allocation'
reservation.resource = self.uuid
reservation.data = data
reservation.session_id = session_id
reservation.email = email
reservation.quota = quota
Session.add(reservation)
groups.append(allocation.group)
# check if no group reservation is made with this request.
# reserve by group in this case (or make this function
# do that automatically)
assert len(groups) == len(set(groups)), \
'wrongly trying to reserve a group'
if found:
notify(ReservationMadeEvent(reservation, self.language))
else:
raise InvalidReservationError
return token
def allocate(self, dates, raster=15, quota=None, partly_available=False,
grouped=False, approve_manually=True,
reservation_quota_limit=0, whole_day=False
):
"""Allocates a spot in the calendar.
An allocation defines a timerange which can be reserved. No
reservations can exist outside of existing allocations. In fact any
reserved slot will link to an allocation.
An allocation may be available as a whole (to reserve all or nothing).
It may also be partly available which means reservations can be made
for parts of the allocation.
If an allocation is partly available a raster defines the granularity
with which a reservation can be made (e.g. a raster of 15min will
ensure that reservations are at least 15 minutes long and start either
at :00, :15, :30 or :45)
The reason for the raster is mainly to ensure that different
reservations trying to reserve overlapping times need the same keys in
the reserved_slots table, ensuring integrity at the database level.
Allocations may have a quota, which determines how many times an
allocation may be reserved. Quotas are enabled using a master-mirrors
relationship.
The master is the first allocation to be created. The mirrors copies of
that allocation. See Scheduler.__doc__
"""
dates = utils.pairs(dates)
group = new_uuid()
quota = quota or 1
# if the allocation is not partly available the raster is set to lowest
# possible raster value
raster = partly_available and raster or MIN_RASTER_VALUE
# the whole day option results in the dates being aligned to
# the beginning of the day / end of it -> not timezone aware!
if whole_day:
for ix, (start, end) in enumerate(dates):
dates[ix] = utils.align_range_to_day(start, end)
# Ensure that the list of dates contains no overlaps inside
for start, end in dates:
if utils.count_overlaps(dates, start, end) > 1:
raise InvalidAllocationError
# Make sure that this span does not overlap another master
for start, end in dates:
start, end = rasterize_span(start, end, raster)
existing = self.allocations_in_range(start, end).first()
if existing:
raise OverlappingAllocationError(start, end, existing)
# Write the master allocations
allocations = []
for start, end in dates:
allocation = Allocation(raster=raster)
allocation.start = start
allocation.end = end
allocation.resource = self.uuid
allocation.quota = quota
allocation.mirror_of = self.uuid
allocation.partly_available = partly_available
allocation.approve_manually = approve_manually
allocation.reservation_quota_limit = reservation_quota_limit
if grouped:
allocation.group = group
else:
allocation.group = new_uuid()
allocations.append(allocation)
Session.add_all(allocations)
return allocations
def test_pairs(self):
one = ('aa', 'bb', 'cc', 'dd')
two = (('aa', 'bb'), ('cc', 'dd'))
self.assertEqual(utils.pairs(one), utils.pairs(two))
def test_pairs(self):
one = ('aa', 'bb', 'cc', 'dd')
two = (('aa', 'bb'), ('cc', 'dd'))
self.assertEqual(utils.pairs(one), utils.pairs(two))
def test_pairs(self):
one = ("aa", "bb", "cc", "dd")
two = (("aa", "bb"), ("cc", "dd"))
self.assertEqual(utils.pairs(one), utils.pairs(two))
