def setUp(self):
super(PeriodsTestCase, self).setUp()
# setup some periods
self.start = datetime(2000, 1, 1, 0)
self.end = self.start + timedelta(hours = 12)
times = [(datetime(2000, 1, 1, 0), 5.0, "one", "S")
, (datetime(2000, 1, 1, 5), 3.0, "two", "P")
, (datetime(2000, 1, 1, 8), 4.0, "three", "S")
]
self.ps = []
for start, dur, name, st in times:
s = create_sesshun()
s.name = name
s.save()
scheduled = dur if st == "S" else 0.0
pa = Period_Accounting(scheduled = scheduled)
pa.save()
state = Period_State.objects.get(abbreviation = st)
p = Period( session = s
, start = start
, duration = dur
, state = state
, accounting = pa
)
p.save()
self.ps.append(p)
def setUp(self):
super(TestProposal, self).setUp()
# this project has no allotments!
self.project = DSSProject.objects.order_by('pcode').all()[0]
# setup some periods
self.start = datetime(2000, 1, 1, 0)
self.end = self.start + timedelta(hours = 12)
times = [(datetime(2000, 1, 1, 0), 5.0, "one")
, (datetime(2000, 1, 1, 5), 3.0, "two")
, (datetime(2000, 1, 1, 8), 4.0, "three")
]
self.ps = []
state = DSSPeriod_State.objects.get(abbreviation = 'P')
for start, dur, name in times:
# each session has grade 4, time = 3
s = create_sesshun()
s.name = name
s.save()
pa = DSSPeriod_Accounting(scheduled = dur)
pa.save()
p = DSSPeriod( session = s
, start = start
, duration = dur
, state = state
, accounting = pa
)
p.save()
self.ps.append(p)
# Okay, now set up the corresponding proposal
now = datetime.now().strftime("%Y-%m-%d %H:%M:%S")
sqlResult = { 'PROP_ID' : self.project.pcode
, 'PROPOSAL_TYPE' : 'Regular'
, 'STATUS' : 'Draft'
, 'SUBMITTED_DATE' : now
, 'CREATED_DATE' : now
, 'MODIFIED_DATE' : now
, 'TITLE' : 'Lynrd Sknyrd'
, 'ABSTRACT' : 'What song do you wanna hear?'
, 'proposal_id' : 0
, 'JOINT_PROPOSAL_TYPE' : 'Not a joint Proposal'
}
proposal = Proposal.createFromSqlResult(sqlResult)
proposal.dss_project = self.project
proposal.setSemester(self.project.semester.semester)
proposal.save()
self.proposal = proposal
self.ta = TimeAccounting()
def from_post(self, fdata, tz):
# only update the score if something in the period has changed
update_score = False
if not update_score:
update_score = self.period.id is None
# if newly created then start with a default
if update_score:
self.period.reinit_score()
handle = fdata.get("handle", "")
if handle:
new_session = Sesshun.handle2session(handle)
if not update_score:
update_score = self.period.session != new_session
self.period.session = new_session
else:
try:
maintenance = Project.objects.get(pcode='Maintenance')
self.period.session = Sesshun.objects.get(project=maintenance)
except:
self.period.session = Sesshun.objects.get(id=fdata.get("session", 1))
now = TimeAgent.quarter(datetime.utcnow())
date = fdata.get("date", None)
time = fdata.get("time", "00:00")
if date is None:
self.period.start = now
else:
new_start = TimeAgent.quarter(strStr2dt(date, time + ':00'))
if tz == 'ET':
new_start = TimeAgent.est2utc(self.period.start)
if not update_score:
update_score = self.period.start != new_start
self.period.start = new_start
new_duration = TimeAgent.rndHr2Qtr(float(fdata.get("duration", "1.0")))
if not update_score:
update_score = self.period.duration != new_duration
self.period.duration = new_duration
# if the score needs to be updated, then prepare it for this
if update_score and now < self.period.start:
self.period.reinit_score()
self.period.backup = True if fdata.get("backup", None) == 'true' else False
stateAbbr = fdata.get("state", "P")
self.period.state = Period_State.objects.get(abbreviation=stateAbbr)
self.period.moc_ack = fdata.get("moc_ack", self.period.moc_ack)
# elective?
eId = fdata.get("elective_id", None)
if eId is not None:
self.period.elective_id = eId
# window?
wId = fdata.get("window_id", None)
if wId is not None:
self.period.window_id = wId
try:
win = Window.objects.get(id = wId)
except Window.DoesNotExist:
pass
else:
end = win.last_date()
if end and date is None:
self.period.start = datetime(end.year, end.month, end.day)
self.period.duration = 1
elif self.period.session.isWindowed() and self.period.window_id is None:
# just because the window id wasn't specified doesn't mean
# we don't want to assign this a window:
# for instance, if this period was created outside of the
# Windowed Period Explorer, we'll have to assign a window
self.period.assign_a_window()
# is this period a default period for a window?
default = fdata.get("wdefault", None)
if default is not None: #
if default == "true" and self.period.window is not None:
# assign this period as a default
self.period.window.default_period = self.period
self.period.window.save()
elif default == "false" and self.period.window is not None:
# unassign this period as a default
self.period.window.default_period = None
self.period.window.save()
# how to initialize scheduled time? when they get published!
# so, only create an accounting object if it needs it.
if self.period.accounting is None:
schd = self.period.duration if self.period.isScheduled() else 0.0
pa = Period_Accounting(scheduled = schd)
pa.save()
self.period.accounting = pa
self.period.accounting.update_from_post(fdata)
self.period.save()
# now that we have an id (from saving), we can specify the relation
# between this period and assocaited rcvrs
self.update_rcvrs_from_post(fdata)
def test_update_from_post(self):
# all zero times
pa = Period_Accounting(scheduled = 0.0)
pa.save()
fields = pa.getFloatFields()
for f in fields:
self.assertEquals(0.0, pa.get_time(f))
fdata = {}
pa.update_from_post(fdata)
for f in fields:
self.assertEquals(0.0, pa.get_time(f))
fdata = {"scheduled" : 4.0
, "lost_time_weather" : 1.0
, "lost_time_bill_project" : 1.0
, "not_billable" : 1.0
}
pa.update_from_post(fdata)
nonzero = fdata.keys()
nonzero.extend(["observed"
, "lost_time"
, "time_billed"])
for f in fields:
if f not in nonzero:
self.assertEquals(0.0, pa.get_time(f))
self.assertEquals(pa.get_time("scheduled"), 4.0)
self.assertEquals(pa.get_time("observed"), 3.0)
self.assertEquals(pa.get_time("time_billed"), 2.0)
self.assertEquals(pa.get_time("lost_time_weather"), 1.0)
self.assertEquals(pa.get_time("lost_time"), 1.0)
def test_1(self):
# all zero times
pa = Period_Accounting(scheduled = 0.0)
pa.save()
fields = pa.getFloatFields()
for f in fields:
self.assertEquals(0.0, pa.get_time(f))
# just scheduled time
pa.set_changed_time("scheduled", 4.0)
pa.save()
nonzero = ["scheduled", "observed", "time_billed"]
for f in fields:
if f not in nonzero:
self.assertEquals(0.0, pa.get_time(f))
for f in nonzero:
self.assertEquals(4.0, pa.get_time(f))
# now lose some time
pa.set_changed_time("lost_time_weather", 1.0)
self.assertEquals((True, None), pa.validate())
pa.save()
nonzero.extend(["lost_time_weather", "lost_time"])
for f in fields:
if f not in nonzero:
self.assertEquals(0.0, pa.get_time(f))
self.assertEquals(pa.get_time("scheduled"), 4.0)
self.assertEquals(pa.get_time("observed"), 3.0)
self.assertEquals(pa.get_time("time_billed"), 3.0)
self.assertEquals(pa.get_time("lost_time_weather"), 1.0)
self.assertEquals(pa.get_time("lost_time"), 1.0)
# loss too much time
pa.set_changed_time("lost_time_weather", 100.0)
msg = (False, 'time_billed cannot be negative. Please check times.')
self.assertEquals(msg, pa.validate())
pa.set_changed_time("lost_time_weather", 1.0)
# misc
pa.lost_time_bill_project = 1.0
pa.not_billable = 1.0
self.assertEquals((True, None), pa.validate())
pa.save()
nonzero.extend(["lost_time_bill_project", "not_billable"])
for f in fields:
if f not in nonzero:
self.assertEquals(0.0, pa.get_time(f))
self.assertEquals(pa.get_time("scheduled"), 4.0)
self.assertEquals(pa.get_time("observed"), 3.0)
self.assertEquals(pa.get_time("time_billed"), 2.0)
self.assertEquals(pa.get_time("lost_time_weather"), 1.0)
self.assertEquals(pa.get_time("lost_time"), 1.0)
