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from django.db import models, IntegrityError
from django.core.urlresolvers import reverse
from model_utils.managers import InheritanceManager
from django.contrib.auth.models import User as DjangoUser
#from django.contrib.auth.models import Group
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from django.contrib.contenttypes.models import ContentType
from guardian.models import GroupObjectPermission
import glue
import glue.ligolw
import glue.ligolw.utils
import glue.ligolw.table
import glue.ligolw.lsctables
from glue.ligolw.ligolw import LIGOLWContentHandler
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import json
# XXX ER2.utils. utils is in project directory. ugh.
from utils import posixToGpsTime
from django.conf import settings
import pytz, time
from cStringIO import StringIO
from hashlib import sha1
SERVER_TZ = pytz.timezone(settings.TIME_ZONE)
# Let's say we start here on schema versions
#
# 1.0 -> 1.1 changed EventLog.comment from CharField(length=200) -> TextField
#
schema_version = "1.1"
#class User(models.Model):
#name = models.CharField(max_length=100)
#email = models.EmailField()
#principal = models.CharField(max_length=100)
#dn = models.CharField(max_length=100)
#unixid = models.CharField(max_length=25)
#class Meta:
#ordering = ["name"]
#def __unicode__(self):
#return self.name
class Group(models.Model):
name = models.CharField(max_length=20)
def __unicode__(self):
return self.name
class Pipeline(models.Model):
name = models.CharField(max_length=100)
# XXX Need any additional fields? Like a librarian email? Or perhaps even fk?
def __unicode__(self):
return self.name
class Search(models.Model):
name = models.CharField(max_length=100)
description = models.TextField(blank=True)
# XXX Need any additional fields? Like a PI email? Or perhaps even fk?
def __unicode__(self):
return self.name
name = models.CharField(max_length=20, unique=True)
# XXX really, does this belong here? probably not.
defaultColor = models.CharField(max_length=20, unique=False, default="black")
DEFAULT_PIPELINE_ID = 1
objects = InheritanceManager() # Queries can return subclasses, if available.
# ANALYSIS_TYPE_CHOICES = (
# ("LM", "LowMass"),
# ("HM", "HighMass"),
# ("GRB", "GRB"),
# ("RD", "Ringdown"),
# ("OM", "Omega"),
# ("Q", "Q"),
# ("X", "X"),
# ("CWB", "CWB"),
# ("MBTA", "MBTAOnline"),
# ("HWINJ", "HardwareInjection"),
# )
DEFAULT_EVENT_NEIGHBORHOOD = (-5,5)
submitter = models.ForeignKey(DjangoUser)
created = models.DateTimeField(auto_now_add=True)
group = models.ForeignKey(Group)
#uid = models.CharField(max_length=20, default="") # XXX deprecated. should be removed.
#analysisType = models.CharField(max_length=20, choices=ANALYSIS_TYPE_CHOICES)
# Note: a default value is needed only during the schema migration
# that creates this column. After that, we can safely remove it.
# The presence or absence of the default value has no effect on the DB
# tables, so removing it does not necessitate a migration.
#pipeline = models.ForeignKey(Pipeline, default=DEFAULT_PIPELINE_ID)
pipeline = models.ForeignKey(Pipeline)
search = models.ForeignKey(Search, null=True)
instruments = models.CharField(max_length=20, default="")
nevents = models.PositiveIntegerField(null=True)
likelihood = models.FloatField(null=True)
# NOT from coinc_event, but so, so common.
# Note that the semantics for this is different depending
# on search type, so in some sense, querying on this may
# be considered, umm, wrong? But it is a starting point.
#gpstime = models.PositiveIntegerField(null=True)
gpstime = models.DecimalField(max_digits=16, decimal_places=6, null=True)
labels = models.ManyToManyField(Label, through="Labelling")
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# This field will store a JSON-serialized list of permissions, of the
# form <group name>_can_<permission codename>
# This obviously duplicates information that is already in the database
# in the form of GroupObjectPermission objects. Such duplication is
# normally a bad thing, as it can lead to divergence. But we're going
# to try really hard to avoid that. And it may help speed up the
# searches quite considerably.
perms = models.TextField(null=True)
class Meta:
ordering = ["-id"]
def graceid(self):
if self.group.name == "Test":
elif str(self.search) == str("MDC"):
return "M%04d" % self.id
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elif self.pipeline.name == "HardwareInjection":
return "H%04d" % self.id
elif self.group.name == "External":
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return "E%04d" % self.id
return "G%04d" % self.id
# XXX Not good. But then, it never was.
return reverse('file_list', args=[self.graceid()])
def datadir(self):
# Create a file-like object which is the SHA-1 hexdigest of the Event's primary key
hdf = StringIO(sha1(str(self.id)).hexdigest())
# Build up the nodes of the directory structure
nodes = [hdf.read(i) for i in settings.GRACEDB_DIR_DIGITS]
# Read whatever is left over. This is the 'leaf' directory.
nodes.append(hdf.read())
return os.path.join(settings.GRACEDB_DATA_DIR, *nodes)
def ligoApproved(self):
return self.approval_set.filter(approvingCollaboration='L').count()
def virgoApproved(self):
return self.approval_set.filter(approvingCollaboration='V').count()
def reportingLatency(self):
if self.gpstime:
dt = self.created
if not dt.tzinfo:
dt = SERVER_TZ.localize(dt)
posix_time = time.mktime(dt.timetuple())
gps_time = int(posixToGpsTime(posix_time))
return gps_time - self.gpstime
def neighbors(self, neighborhood=None):
if not self.gpstime:
return []
if self.group.name == 'Test':
nearby = Event.objects.filter(group__name='Test')
else:
nearby = Event.objects.exclude(group__name='Test')
delta1, delta2 = neighborhood or self.DEFAULT_EVENT_NEIGHBORHOOD
nearby = nearby.filter(gpstime__range=(self.gpstime+delta1, self.gpstime+delta2))
nearby = nearby.exclude(id=self.id)
nearby = nearby.distinct()
nearby = nearby.order_by('gpstime')
return nearby
@classmethod
def getTypeLabel(cls, code):
for key, label in cls.ANALYSIS_TYPE_CHOICES:
if (key == code) or (code == label):
return label
raise KeyError("Unknown analysis type code: %s" % code)
try:
e = cls.objects.filter(id=int(id[1:])).select_subclasses()[0]
except IndexError:
raise cls.DoesNotExist("Event matching query does not exist")
if (id[0] == "T") and (e.group.name == "Test"):
return e
if (id[0] == "H") and (e.pipeline.name == "HardwareInjection"):
if (id[0] == "E") and (e.group.name == "External"):
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return e
if (id[0] == "M") and (e.search.name == "MDC"):
return e
if (id[0] == "G"):
return e
raise cls.DoesNotExist("Event matching query does not exist")
def __unicode__(self):
return self.graceid()
# Return a list of distinct tags associated with the log messages of this
# event.
def getAvailableTags(self):
tagset_list = [log.tag_set.all() for log in self.eventlog_set.all()]
taglist = []
for tagset in tagset_list:
for tag in tagset:
taglist.append(tag)
# Eliminate duplicates
taglist = list(set(taglist))
# Ordering should match the ordering of blessed tags list.
# XXX Possibly, there are smarter ways of doing this.
if settings.BLESSED_TAGS:
availableTags = []
for blessed_tag in settings.BLESSED_TAGS:
for tag in taglist:
if tag.name == blessed_tag:
taglist.remove(tag)
availableTags.append(tag)
# Append any remaining tags at the end of the list
if len(taglist)>0:
for tag in taglist:
availableTags.append(tag)
else:
availableTags = taglist
return availableTags
def getLogsForTag(self,tagname):
loglist = []
for log in self.eventlog_set.all():
for tag in log.tag_set.all():
if tag.name==tagname:
loglist.append(log)
return loglist
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# A method to update the permissions according to the permission objects in
# the database.
def refresh_perms(self):
# Content type is 'Event', obvs.
content_type = ContentType.objects.get(app_label='gracedb', model='event')
# Get all of the GroupObjectPermissions for this object id and content type
group_object_perms = GroupObjectPermission.objects.filter(object_pk=self.id,
content_type=content_type)
perm_strings = []
# Make a list of permission strings
for obj in group_object_perms:
perm_strings.append('%s_can_%s' % (obj.group.name, obj.permission.codename.split('_')[0]))
# Serialize as json.
self.perms = json.dumps(perm_strings)
# Fool! Save yourself!
self.save()
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ordering = ['-created','-N']
unique_together = ("event","N")
event = models.ForeignKey(Event, null=False)
created = models.DateTimeField(auto_now_add=True)
issuer = models.ForeignKey(DjangoUser)
comment = models.TextField(null=False)
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#XXX Does this need to be indexed for better performance?
N = models.IntegerField(null=False)
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file_version = models.IntegerField(null=True)
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actual_filename = self.filename
if self.file_version >= 0:
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actual_filename += ',%d' % self.file_version
return reverse('file', args=[self.event.graceid(), actual_filename])
def hasImage(self):
# XXX hacky
return self.filename and self.filename[-3:].lower() in ['png','gif','jpg']
def save(self, *args, **kwargs):
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success = False
# XXX filename must not be 'None' because null=False for the filename
# field above.
self.filename = self.filename or ""
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attempts = 0
while (not success and attempts < 5):
attempts = attempts + 1
if self.event.eventlog_set.count():
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self.N = int(self.event.eventlog_set.aggregate(models.Max('N'))['N__max']) + 1
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else:
self.N = 1
try:
super(EventLog, self).save(*args, **kwargs)
success = True
except IntegrityError:
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# IntegrityError means an attempt to insert a duplicate
# key or to violate a foreignkey constraint.
# We are under race conditions. Let's try again.
pass
if not success:
# XXX Should this be a custom exception? That way we could catch it
# in the views that use it and give an informative error message.
raise Exception("Too many attempts to save log message. Something is wrong.")
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class EMGroup(models.Model):
name = models.CharField(max_length=20, unique=True)
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# XXX what else? Possibly the liasons. These can be populated
# automatically from the gw-astronomy COManage-provisioned LDAP.
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# Let's leave this out for now. The submitter will be stored in
# the EMBB log record, and that should be enough for audit/blame
# purposes.
#liasons = models.ManyToManyField(DjangoUser)
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# XXX Characteristics needed to produce pointings?
def __unicode__(self):
return self.name
EMSPECTRUM = (
('em.gamma', 'Gamma rays part of the spectrum'),
('em.gamma.soft', 'Soft gamma ray (120 - 500 keV)'),
('em.gamma.hard', 'Hard gamma ray (>500 keV)'),
('em.X-ray', 'X-ray part of the spectrum'),
('em.X-ray.soft', 'Soft X-ray (0.12 - 2 keV)'),
('em.X-ray.medium', 'Medium X-ray (2 - 12 keV)'),
('em.X-ray.hard', 'Hard X-ray (12 - 120 keV)'),
('em.UV', 'Ultraviolet part of the spectrum'),
('em.UV.10-50nm', 'Ultraviolet between 10 and 50 nm'),
('em.UV.50-100nm', 'Ultraviolet between 50 and 100 nm'),
('em.UV.100-200nm', 'Ultraviolet between 100 and 200 nm'),
('em.UV.200-300nm', 'Ultraviolet between 200 and 300 nm'),
('em.UV.FUV', 'Far-Infrared, 30-100 microns'),
('em.opt', 'Optical part of the spectrum'),
('em.opt.U', 'Optical band between 300 and 400 nm'),
('em.opt.B', 'Optical band between 400 and 500 nm'),
('em.opt.V', 'Optical band between 500 and 600 nm'),
('em.opt.R', 'Optical band between 600 and 750 nm'),
('em.opt.I', 'Optical band between 750 and 1000 nm'),
('em.IR', 'Infrared part of the spectrum'),
('em.IR.NIR', 'Near-Infrared, 1-5 microns'),
('em.IR.J', 'Infrared between 1.0 and 1.5 micron'),
('em.IR.H', 'Infrared between 1.5 and 2 micron'),
('em.IR.K', 'Infrared between 2 and 3 micron'),
('em.IR.MIR', 'Medium-Infrared, 5-30 microns'),
('em.IR.3-4um', 'Infrared between 3 and 4 micron'),
('em.IR.4-8um', 'Infrared between 4 and 8 micron'),
('em.IR.8-15um', 'Infrared between 8 and 15 micron'),
('em.IR.15-30um', 'Infrared between 15 and 30 micron'),
('em.IR.30-60um', 'Infrared between 30 and 60 micron'),
('em.IR.60-100um', 'Infrared between 60 and 100 micron'),
('em.IR.FIR', 'Far-Infrared, 30-100 microns'),
('em.mm', 'Millimetric part of the spectrum'),
('em.mm.1500-3000GHz', 'Millimetric between 1500 and 3000 GHz'),
('em.mm.750-1500GHz', 'Millimetric between 750 and 1500 GHz'),
('em.mm.400-750GHz', 'Millimetric between 400 and 750 GHz'),
('em.mm.200-400GHz', 'Millimetric between 200 and 400 GHz'),
('em.mm.100-200GHz', 'Millimetric between 100 and 200 GHz'),
('em.mm.50-100GHz', 'Millimetric between 50 and 100 GHz'),
('em.mm.30-50GHz', 'Millimetric between 30 and 50 GHz'),
('em.radio', 'Radio part of the spectrum'),
('em.radio.12-30GHz', 'Radio between 12 and 30 GHz'),
('em.radio.6-12GHz', 'Radio between 6 and 12 GHz'),
('em.radio.3-6GHz', 'Radio between 3 and 6 GHz'),
('em.radio.1500-3000MHz','Radio between 1500 and 3000 MHz'),
('em.radio.750-1500MHz','Radio between 750 and 1500 MHz'),
('em.radio.400-750MHz', 'Radio between 400 and 750 MHz'),
('em.radio.200-400MHz', 'Radio between 200 and 400 MHz'),
('em.radio.100-200MHz', 'Radio between 100 and 200 MHz'),
('em.radio.20-100MHz', 'Radio between 20 and 100 MHz'),
)
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class EMObservation(models.Model):
"""
EMObservation: An observation record for EM followup.
"""
class Meta:
ordering = ['-created', '-N']
unique_together = ("event","N")
def __unicode__(self):
return "%s-%s-%d" % (self.event.graceid(), self.group.name, self.N)
N = models.IntegerField(null=False)
created = models.DateTimeField(auto_now_add=True)
event = models.ForeignKey(Event)
submitter = models.ForeignKey(DjangoUser)
# The MOU group responsible
group = models.ForeignKey(EMGroup) # from a table of facilities
# The following fields should be calculated from the footprint info provided
# by the user. These fields are just for convenience and fast searching
# The center of the bounding box of the rectangular footprints ra,dec
# in J2000 in decimal degrees
ra = models.FloatField(null=True)
dec = models.FloatField(null=True)
# The width and height (RA range and Dec range) in decimal degrees
raWidth = models.FloatField(null=True)
decWidth = models.FloatField(null=True)
comment = models.TextField(blank=True)
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# We overload the 'save' method to avoid race conditions, since the Eels are numbered.
def save(self, *args, **kwargs):
success = False
attempts = 0
while (not success and attempts < 5):
attempts = attempts + 1
# If I've already got an N assigned, let's not assign another.
if not self.N:
if self.event.emobservation_set.count():
self.N = int(self.event.emobservation_set.aggregate(models.Max('N'))['N__max']) + 1
else:
self.N = 1
try:
super(EMObservation, self).save(*args, **kwargs)
success = True
except IntegrityError:
# IntegrityError means an attempt to insert a duplicate
# key or to violate a foreignkey constraint.
# We are under race conditions. Let's try again.
pass
if not success:
# XXX Should this be a custom exception? That way we could catch it
# in the views that use it and give an informative error message.
raise Exception("Too many attempts to save EMObservation entry. Something is wrong.")
def calculateCoveringRegion(self):
# How to access the related footprint objects?
footprints = self.emfootprint_set.all()
if not footprints:
return
ramin = 360.0
ramax = 0.0
decmin = 90.0
decmax = -90.0
for f in footprints:
# evaluate bounding box
w = float(f.raWidth)/2
if f.ra-w < ramin: ramin = f.ra-w
if f.ra+w > ramax: ramax = f.ra+w
w = float(f.decWidth)/2
if f.dec-w < decmin: decmin = f.dec-w
if f.dec+w > decmax: decmax = f.dec+w
# Make sure the min/max ra and dec are within bounds:
ramin = max(0.0, ramin)
ramax = min(360.0, ramax)
decmin = max(-90.0, decmin)
decmax = min(90.0, decmax)
# Calculate sky rectangle bounds
self.ra = (ramin + ramax)/2
self.dec = (decmin + decmax)/2
self.raWidth = ramax-ramin
self.decWidth = decmax-decmin
class EMFootprint(models.Model):
"""
A single footprint associated with an observation.
Each EMObservation can have many footprints underneath.
None of the fields are optional here.
"""
class Meta:
ordering = ['-N']
unique_together = ("observation","N")
N = models.IntegerField(null=False)
observation = models.ForeignKey(EMObservation, null = False)
# The center of the rectangular footprint, right ascension and declination
# in J2000 in decimal degrees
ra = models.FloatField()
dec = models.FloatField()
# The width and height (RA range and Dec range) in decimal degrees
raWidth = models.FloatField()
decWidth = models.FloatField()
# The start time of the observation for this footprint
start_time = models.DateTimeField()
# The exposure time in seconds for this footprint
exposure_time = models.PositiveIntegerField()
# We overload the 'save' method to avoid race conditions, since the Eels are numbered.
def save(self, *args, **kwargs):
success = False
attempts = 0
while (not success and attempts < 5):
attempts = attempts + 1
# If I've already got an N assigned, let's not assign another.
if not self.N:
if self.observation.emfootprint_set.count():
self.N = int(self.observation.emfootprint_set.aggregate(models.Max('N'))['N__max']) + 1
else:
self.N = 1
try:
super(EMFootprint, self).save(*args, **kwargs)
success = True
except IntegrityError:
# IntegrityError means an attempt to insert a duplicate
# key or to violate a foreignkey constraint.
# We are under race conditions. Let's try again.
pass
if not success:
# XXX Should this be a custom exception? That way we could catch it
# in the views that use it and give an informative error message.
raise Exception("Too many attempts to save Footprint. Something is wrong.")
class EMBBEventLog(models.Model):
"""EMBB EventLog: A multi-purpose annotation for EM followup.
A rectangle on the sky, equatorially aligned,
that has or will be imaged that is related to an event"""
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class Meta:
ordering = ['-created', '-N']
unique_together = ("event","N")
def __unicode__(self):
return "%s-%s-%d" % (self.event.graceid(), self.group.name, self.N)
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# A counter for Eels associated with a given event. This is
# important for addressibility.
N = models.IntegerField(null=False)
# The time at which this Eel was created. Important for event auditing.
created = models.DateTimeField(auto_now_add=True)
# The gracedb event that this Eel relates to
event = models.ForeignKey(Event)
# The responsible author of this communication
submitter = models.ForeignKey(DjangoUser) # from a table of people
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# The MOU group responsible
group = models.ForeignKey(EMGroup) # from a table of facilities
# The instrument used or intended for the imaging implied by this footprint
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instrument = models.CharField(max_length=200, blank=True)
footprintID= models.TextField(blank=True)
# Now the global ID is a concatenation: facilityName#footprintID
# the EM waveband used for the imaging as below
waveband = models.CharField(max_length=25, choices=EMSPECTRUM)
# The center of the bounding box of the rectangular footprints, right ascension and declination
# in J2000 in decimal degrees
ra = models.FloatField(null=True)
dec = models.FloatField(null=True)
# The width and height (RA range and Dec range) in decimal degrees of each image
raWidth = models.FloatField(null=True)
decWidth = models.FloatField(null=True)
# The GPS time of the middle of the bounding box of the imaging time
gpstime = models.PositiveIntegerField(null=True)
# The duration of each image in seconds
duration = models.PositiveIntegerField(null=True)
# The lists of RA and Dec of the centers of the images
raList = models.TextField(blank=True)
decList = models.TextField(blank=True)
# The width and height of each individual image
raWidthList = models.TextField(blank=True)
decWidthList = models.TextField(blank=True)
# The list of GPS times of the images
gpstimeList = models.TextField(blank=True)
# The duration of each individual image
durationList = models.TextField(blank=True)
# Event Log status
EEL_STATUS_CHOICES = (('FO','FOOTPRINT'), ('SO','SOURCE'), ('CO','COMMENT'), ('CI','CIRCULAR'))
eel_status = models.CharField(max_length=2, choices=EEL_STATUS_CHOICES)
# Observation status. If OBSERVATION, then there is a good chance of good image
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OBS_STATUS_CHOICES = (('NA', 'NOT APPLICABLE'), ('OB','OBSERVATION'), ('TE','TEST'), ('PR','PREDICTION'))
obs_status = models.CharField(max_length=2, choices=OBS_STATUS_CHOICES)
# This field is natural language for human
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comment = models.TextField(blank=True)
# This field is formal struct by a syntax TBD
# for example {"phot.mag.limit": 22.3}
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extra_info_dict = models.TextField(blank=True)
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# Validates the input and builds bounding box in RA/Dec/GPS
def validateMakeRects(self):
# get all the list based position and times and their widths
raRealList = []
rawRealList = []
# add a [ and ] to convert the input csv list to a json parsable text
if self.raList: raRealList = json.loads('['+self.raList+']')
if self.raWidthList: rawRealList = json.loads('['+self.raWidthList+']')
if self.decList: decRealList = json.loads('['+self.decList+']')
if self.decWidthList: decwRealList = json.loads('['+self.decWidthList+']')
if self.gpstimeList: gpstimeRealList = json.loads('['+self.gpstimeList+']')
if self.durationList: durationRealList = json.loads('['+self.durationList+']')
# is there anything in the ra list?
nList = len(raRealList)
if nList > 0:
if decRealList and len(decRealList) != nList:
raise ValueError('RA and Dec lists are different lengths.')
if gpstimeRealList and len(gpstimeRealList) != nList:
raise ValueError('RA and GPS lists are different lengths.')
# is there anything in the raWidth list?
mList = len(rawRealList)
if mList > 0:
if decwRealList and len(decwRealList) != mList:
raise ValueError('RAwidth and Decwidth lists are different lengths.')
if durationRealList and len(durationRealList) != mList:
raise ValueError('RAwidth and Duration lists are different lengths.')
# There can be 1 width for the whole list, or one for each ra/dec/gps
if mList != 1 and mList != nList:
raise ValueError('Width and duration lists must be length 1 or same length as coordinate lists')
else:
mList = 0
ramin = 360.0
ramax = 0.0
decmin = 90.0
decmax = -90.0
gpsmin = 100000000000
gpsmax = 0
for i in range(nList):
try:
ra = float(raRealList[i])
except:
raise ValueError('Cannot read RA list element %d of %s'%(i, self.raList))
try:
dec = float(decRealList[i])
except:
raise ValueError('Cannot read Dec list element %d of %s'%(i, self.decList))
try:
gps = int(gpstimeRealList[i])
except:
raise ValueError('Cannot read GPStime list element %d of %s'%(i, self.gpstimeList))
# the widths list can have 1 member to cover all, or one for each
if mList==1: j=0
else : j=i
try:
w = float(rawRealList[j])/2
except:
raise ValueError('Cannot read raWidth list element %d of %s'%(i, self.raWidthList))
# evaluate bounding box
if ra-w < ramin: ramin = ra-w
if ra+w > ramax: ramax = ra+w
try:
w = float(decwRealList[j])/2
except:
raise ValueError('Cannot read raWidth list element %d of %s'%(i, self.decWidthList))
# evaluate bounding box
if dec-w < decmin: decmin = dec-w
if dec+w > decmax: decmax = dec+w
try:
w = int(durationRealList[j])/2
except:
raise ValueError('Cannot read duration list element %d of %s'%(i, self.durationList))
# evaluate bounding box
if gps-w < gpsmin: gpsmin = gps-w
if gps+w > gpsmax: gpsmax = gps+w
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# Make sure the min/max ra and dec are within bounds:
ramin = max(0.0, ramin)
ramax = min(360.0, ramax)
decmin = max(-90.0, decmin)
decmax = min(90.0, decmax)
if nList>0:
self.ra = (ramin + ramax)/2
self.dec = (decmin + decmax)/2
self.gpstime = (gpsmin+gpsmax)/2
if mList>0:
self.raWidth = ramax-ramin
self.decWidth = decmax-decmin
self.duration = gpsmax-gpsmin
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# We overload the 'save' method to avoid race conditions, since the Eels are numbered.
def save(self, *args, **kwargs):
success = False
attempts = 0
while (not success and attempts < 5):
attempts = attempts + 1
if self.event.embbeventlog_set.count():
self.N = int(self.event.embbeventlog_set.aggregate(models.Max('N'))['N__max']) + 1
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else:
self.N = 1
try:
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success = True
except IntegrityError:
# IntegrityError means an attempt to insert a duplicate
# key or to violate a foreignkey constraint.
# We are under race conditions. Let's try again.
pass
if not success:
# XXX Should this be a custom exception? That way we could catch it
# in the views that use it and give an informative error message.
raise Exception("Too many attempts to save EMBB entry. Something is wrong.")
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class Labelling(models.Model):
event = models.ForeignKey(Event)
label = models.ForeignKey(Label)
creator = models.ForeignKey(DjangoUser)
created = models.DateTimeField(auto_now_add=True)
# XXX Deprecated? Is this used *anywhere*?
# Appears to only be used in models.py. Here and Event class as approval_set
class Approval(models.Model):
COLLABORATION_CHOICES = ( ('L','LIGO'), ('V','Virgo'), )
approver = models.ForeignKey(DjangoUser)
created = models.DateTimeField(auto_now_add=True)
approvedEvent = models.ForeignKey(Event, null=False)
approvingCollaboration = models.CharField(max_length=1, choices=COLLABORATION_CHOICES)
## Analysis Specific Attributes.
class GrbEvent(Event):
ivorn = models.CharField(max_length=200, null=True)
author_ivorn = models.CharField(max_length=200, null=True)
author_shortname = models.CharField(max_length=200, null=True)
observatory_location_id = models.CharField(max_length=200, null=True)
coord_system = models.CharField(max_length=200, null=True)
ra = models.FloatField(null=True)
dec = models.FloatField(null=True)
error_radius = models.FloatField(null=True)
how_description = models.CharField(max_length=200, null=True)
how_reference_url = models.URLField(null=True)
trigger_duration = models.FloatField(null=True)
t90 = models.FloatField(null=True)
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designation = models.CharField(max_length=20, null=True)
redshift = models.FloatField(null=True)
trigger_id = models.CharField(max_length=25, null=True)
ifos = models.CharField(max_length=20, default="")
end_time = models.PositiveIntegerField(null=True)
end_time_ns = models.PositiveIntegerField(null=True)
mass = models.FloatField(null=True)
mchirp = models.FloatField(null=True)
minimum_duration = models.FloatField(null=True)
snr = models.FloatField(null=True)
false_alarm_rate = models.FloatField(null=True)
combined_far = models.FloatField(null=True)
ifos = models.CharField(max_length=20, default="")
start_time = models.PositiveIntegerField(null=True)
start_time_ns = models.PositiveIntegerField(null=True)
duration = models.FloatField(null=True)
peak_time = models.PositiveIntegerField(null=True)
peak_time_ns = models.PositiveIntegerField(null=True)
central_freq = models.FloatField(null=True)
bandwidth = models.FloatField(null=True)
amplitude = models.FloatField(null=True)
snr = models.FloatField(null=True)
confidence = models.FloatField(null=True)
false_alarm_rate = models.FloatField(null=True)
ligo_axis_ra = models.FloatField(null=True)
ligo_axis_dec = models.FloatField(null=True)
ligo_angle = models.FloatField(null=True)
ligo_angle_sig = models.FloatField(null=True)
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class SingleInspiral(models.Model):
event = models.ForeignKey(Event, null=False)
ifo = models.CharField(max_length=20, null=True)
search = models.CharField(max_length=20, null=True)
channel = models.CharField(max_length=20)
end_time = models.IntegerField(null=True)
end_time_ns = models.IntegerField(null=True)
end_time_gmst = models.FloatField(null=True)
impulse_time = models.IntegerField(null=True)
impulse_time_ns = models.IntegerField(null=True)
template_duration = models.FloatField(null=True)
event_duration = models.FloatField(null=True)
amplitude = models.FloatField(null=True)
eff_distance = models.FloatField(null=True)
coa_phase = models.FloatField(null=True)
mass1 = models.FloatField(null=True)
mass2 = models.FloatField(null=True)
mchirp = models.FloatField(null=True)
mtotal = models.FloatField(null=True)
eta = models.FloatField(null=True)
kappa = models.FloatField(null=True)
chi = models.FloatField(null=True)
tau0 = models.FloatField(null=True)
tau2 = models.FloatField(null=True)
tau3 = models.FloatField(null=True)
tau4 = models.FloatField(null=True)
tau5 = models.FloatField(null=True)
ttotal = models.FloatField(null=True)
psi0 = models.FloatField(null=True)
psi3 = models.FloatField(null=True)
alpha = models.FloatField(null=True)
alpha1 = models.FloatField(null=True)
alpha2 = models.FloatField(null=True)
alpha3 = models.FloatField(null=True)
alpha4 = models.FloatField(null=True)
alpha5 = models.FloatField(null=True)
alpha6 = models.FloatField(null=True)
beta = models.FloatField(null=True)
f_final = models.FloatField(null=True)
snr = models.FloatField(null=True)
chisq = models.FloatField(null=True)
chisq_dof = models.IntegerField(null=True)
bank_chisq = models.FloatField(null=True)
bank_chisq_dof = models.IntegerField(null=True)
cont_chisq = models.FloatField(null=True)
cont_chisq_dof = models.IntegerField(null=True)
sigmasq = models.FloatField(null=True)
rsqveto_duration = models.FloatField(null=True)
Gamma0 = models.FloatField(null=True)
Gamma1 = models.FloatField(null=True)
Gamma2 = models.FloatField(null=True)
Gamma3 = models.FloatField(null=True)
Gamma4 = models.FloatField(null=True)
Gamma5 = models.FloatField(null=True)
Gamma6 = models.FloatField(null=True)
Gamma7 = models.FloatField(null=True)
Gamma8 = models.FloatField(null=True)
Gamma9 = models.FloatField(null=True)
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spin1x = models.FloatField(null=True)
spin1y = models.FloatField(null=True)
spin1z = models.FloatField(null=True)
spin2x = models.FloatField(null=True)
spin2y = models.FloatField(null=True)
spin2z = models.FloatField(null=True)
def end_time_full(self):
return LIGOTimeGPS(self.end_time, self.end_time_ns)
def impulse_time_full(self):
return LIGOTimeGPS(self.impulse_time, self.impulse_time_ns)
@classmethod
def create_events_from_ligolw_table(cls, table, event):
"""For an Event, given a table (loaded by ligolw.utils.load_filename or similar) create SingleEvent tables for the event"""
field_names = cls.field_names()
created_events = []
#log.debug("Single/create from table/fields: " + str(field_names))
#log.debug("Single/creating event")
try:
value = getattr(row, column)
except:
# We don't want to fail if the value is not present.
value = None
#log.debug("Setting column '%s' with value '%s'" % (column, value))
setattr(e, column, value)
e.save()
created_events.append(e)
return created_events
@classmethod
def update_event(cls, event, datafile=None):
"""Given an Event (and optional location of coinc.xml) update SingleInspiral data"""
# XXX Need a better way to find original data.
if datafile is None:
datafile = os.path.join(event.datadir(), 'coinc.xml')
try:
xmldoc = glue.ligolw.utils.load_filename(datafile, contenthandler=LIGOLWContentHandler)
except IOError:
return None
# Extract Single Inspiral Information
s_inspiral_tables = glue.ligolw.lsctables.SnglInspiralTable.get_table(xmldoc)
# Concatentate the tables' rows into a single table
table = sum(s_inspiral_tables, [])
event.singleinspiral_set.all().delete()
return cls.create_events_from_ligolw_table(table, event)
@classmethod
def field_names(cls):
try:
return cls._field_names
except AttributeError: pass
model_field_names = set([ x.name for x in cls._meta.get_fields(include_parents=False) ])
ligolw_field_names = set(
glue.ligolw.lsctables.SnglInspiralTable.validcolumns.keys())
cls._field_names = model_field_names.intersection(ligolw_field_names)
return cls._field_names
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# Event subclass for injections
class SimInspiralEvent(Event):
mass1 = models.FloatField(null=True)
mass2 = models.FloatField(null=True)
eta = models.FloatField(null=True)
amp_order = models.IntegerField(null=True)
coa_phase = models.FloatField(null=True)
mchirp = models.FloatField(null=True)
spin1y = models.FloatField(null=True)
spin1x = models.FloatField(null=True)
spin1z = models.FloatField(null=True)
spin2x = models.FloatField(null=True)
spin2y = models.FloatField(null=True)
spin2z = models.FloatField(null=True)
geocent_end_time = models.IntegerField(null=True)
geocent_end_time_ns = models.IntegerField(null=True)
end_time_gmst = models.FloatField(null=True)
f_lower = models.FloatField(null=True)
f_final = models.FloatField(null=True)
distance = models.FloatField(null=True)
latitude = models.FloatField(null=True)
longitude = models.FloatField(null=True)
polarization = models.FloatField(null=True)
inclination = models.FloatField(null=True)
theta0 = models.FloatField(null=True)
phi0 = models.FloatField(null=True)
waveform = models.CharField(max_length=50, blank=True, default="")
numrel_mode_min = models.IntegerField(null=True)
numrel_mode_max = models.IntegerField(null=True)
numrel_data = models.CharField(max_length=50, blank=True, default="")
source = models.CharField(max_length=50, blank=True, default="")
taper = models.CharField(max_length=50, blank=True, default="")
bandpass = models.IntegerField(null=True)
alpha = models.FloatField(null=True)
beta = models.FloatField(null=True)
psi0 = models.FloatField(null=True)
psi3 = models.FloatField(null=True)
alpha1 = models.FloatField(null=True)
alpha2 = models.FloatField(null=True)
alpha3 = models.FloatField(null=True)
alpha4 = models.FloatField(null=True)
alpha5 = models.FloatField(null=True)
alpha6 = models.FloatField(null=True)
g_end_time = models.IntegerField(null=True)
g_end_time_ns = models.IntegerField(null=True)
h_end_time = models.IntegerField(null=True)
h_end_time_ns = models.IntegerField(null=True)