def requestMonitorId(self,monitorTag):
xml = self._apiRequestXml(str('{0}/?apikey={1}&output={2}'+\
'&version={3}&action=getMonitors&tag={4}')\
.format(self.url,self.apiKey,self.output,self.version,monitorTag))
root = ElementTree(file=StringIO.StringIO(xml)).getroot()
monitor = root.find('./monitor/id') # Just the first matching monitor
# TODO handle multiple monitors with the same tag
# Dependent code assumes that exactly one is returned
if monitor is None:
raise Exception("No monitors matching " + monitorTag)
return root.find('./monitor/id').text
def __init__(self, f):
self._artifacts = []
root = ElementTree().parse(f)
for artifact in root.find('artifacts'):
self._artifacts.append(Artifact(artifact))
def __init__(self, f):
self._artifacts = []
root = ElementTree().parse(f)
for artifact in root.find('artifacts'):
self._artifacts.append(Artifact(artifact))
def get_authoreds(researcher_object):
"""
Asks Symplectic API for info about specified researcher
Receives XML File as response
Parses XML File to find all publications for that researcher & notes
preferences they have for each publication
"""
# checking
# if not(researcher_object) or (researcher_object.symplectic_int_id is
# None): # int_id version
if not(researcher_object) or (researcher_object.symplectic_id is None):
# guid version
return
# symplectic api url and local file path
# url = SYMPLECTIC_API_URL + 'users/' +
# str(researcher_object.symplectic_int_id) # int_id version
url = "".join([
SYMPLECTIC_API_URL,
'users/',
str(researcher_object.symplectic_id)
])
# # tmp_filename = SYMPLECTIC_LOCAL_XML_FOLDER +
# SYMPLECTIC_LOCAL_AUTH_FOLDER +
# str(researcher_object.symplectic_int_id)
# + '.xml' # int_id version
tmp_filename = "".join([
SYMPLECTIC_LOCAL_XML_FOLDER,
SYMPLECTIC_LOCAL_AUTH_FOLDER,
str(researcher_object.symplectic_id),
'.xml'
])
# get xml document from symplectic api and store on hd
(tmp_filename, http_headers) = urllib.urlretrieve(url, tmp_filename)
# parse xml file
publications_etree = ElementTree(file=tmp_filename)
#delete local file from hd
#try:
os.remove(tmp_filename)
#except:
#pass
#publication elements are held in a subtree
publications_subtree = publications_etree.find(
SYMPLECTIC_NAMESPACE + 'publications'
)
# check if any publication elements in subtree
if publications_subtree is None or len(publications_subtree) < 1:
return
# now that we have their newest "i authored that pub" info, we can
# delete their old "i authored that pub" info
researcher_object.remove_all_authored()
# for each publication element in subtree
for publication_element in publications_subtree.getchildren():
_create_authored(publication_element, researcher_object)
def requestMonitorId(self,monitorTag):
req = urllib2.Request(str('{0}/?apikey={1}&output={2}'+\
'&version={3}&action=getMonitors&tag={4}')\
.format(self.url,self.apiKey,self.output,self.version,monitorTag))
res = urllib2.urlopen(req)
xml = res.read()
root = ElementTree(file=StringIO.StringIO(xml)).getroot()
return root.find('./monitor/id').text
def requestMonitorId(self,monitorTag):
req = urllib2.Request(str('{0}/?apikey={1}&output={2}'+\
'&version={3}&action=getMonitors&tag={4}')\
.format(self.url,self.apiKey,self.output,self.version,monitorTag))
res = urllib2.urlopen(req)
xml = res.read()
root = ElementTree(file=StringIO.StringIO(xml)).getroot()
return root.find('./monitor/id').text
def install_xpi(self, filename):
extract_path = os.path.join(self.profiledir, 'extensions', os.path.basename(filename))
os.makedirs(extract_path)
z = zipfile.ZipFile(filename, 'r')
z.extractall(extract_path)
doc = ElementTree(file = os.path.join(extract_path, 'install.rdf'))
eid = doc.find('.//{http://www.mozilla.org/2004/em-rdf#}id').text
os.rename(extract_path, os.path.join(os.path.dirname(extract_path), eid))
def parse_file(self):
self.laps = []
self.position_start = None
self.date = None
self.time_start = None
self.time_end = None
self.track.trackfile.open()
xmltree = ElementTree(file=self.track.trackfile)
self.track.trackfile.close()
# take only first activity from file
xmlactivity = xmltree.find(self.TCX_NS + "Activities")[0]
lap_date = None
for xmllap in xmlactivity.findall(self.TCX_NS + "Lap"):
lap_date = dateutil.parser.parse(xmllap.get("StartTime"))
if self.date is None:
self.date = lap_date
time = int(float(xmllap.find(self.TCX_NS + "TotalTimeSeconds").text))
if xmllap.find(self.TCX_NS + "DistanceMeters") is None:
logging.debug("DistanceMeters not present in Lap data")
distance = None
else:
distance = str(float(xmllap.find(self.TCX_NS + "DistanceMeters").text) / 1000)
if xmllap.find(self.TCX_NS + "MaximumSpeed") is None:
logging.debug("MaximumSpeed is None")
speed_max = None
else:
logging.debug("MaximumSpeed xml is %r" % xmllap.find(self.TCX_NS + "MaximumSpeed"))
speed_max = str(float(xmllap.find(self.TCX_NS + "MaximumSpeed").text) * 3.6) # Given as meters per second in tcx file
logging.debug("speed_max is %s" % speed_max)
if xmllap.find(self.TCX_NS + "Calories") is not None:
calories = int(xmllap.find(self.TCX_NS + "Calories").text)
else:
calories = None
try:
hf_avg = int(xmllap.find(self.TCX_NS + "AverageHeartRateBpm").find(self.TCX_NS + "Value").text)
logging.debug("Found hf_avg: %s" % hf_avg)
except AttributeError:
hf_avg = None
logging.debug("Not found hf_avg")
try:
hf_max = int(xmllap.find(self.TCX_NS + "MaximumHeartRateBpm").find(self.TCX_NS + "Value").text)
logging.debug("Found hf_max: %s" % hf_max)
except AttributeError:
hf_max = None
logging.debug("Not found hf_max")
try:
cadence_avg = int(xmllap.find(self.TCX_NS + "Cadence").text)
logging.debug("Found average cadence: %s" % cadence_avg)
except AttributeError:
cadence_avg = None
logging.debug("Not found average cadence")
if time != 0 and distance is not None:
speed_avg = str(float(distance) * 3600 / time)
else:
speed_avg = None
cadence_max = None
elev_min = None
elev_max = None
elev_gain = None
elev_loss = None
last_elev = None
for xmltrack in xmllap.findall(self.TCX_NS + "Track"):
for xmltp in xmltrack.findall(self.TCX_NS + "Trackpoint"):
if not self.position_start:
xmlpos = xmltp.find(self.TCX_NS + "Position")
if xmlpos is not None:
if xmlpos.find(self.TCX_NS + "LatitudeDegrees") is not None and xmlpos.find(self.TCX_NS + "LongitudeDegrees") is not None:
lat = float(xmlpos.find(self.TCX_NS + "LatitudeDegrees").text)
lon = float(xmlpos.find(self.TCX_NS + "LongitudeDegrees").text)
self.position_start = (lat, lon)
if not self.time_start and xmltp.find(self.TCX_NS + "Time") is not None:
self.time_start = dateutil.parser.parse(xmltp.find(self.TCX_NS + "Time").text)
if xmltp.find(self.TCX_NS + "AltitudeMeters") is not None:
elev = int(round(float(xmltp.find(self.TCX_NS + "AltitudeMeters").text)))
else:
elev = last_elev
if elev != last_elev:
if elev_max is not None:
if elev > elev_max:
elev_max = elev
else:
elev_max = elev
if elev_min is not None:
if elev < elev_min:
elev_min = elev
else:
elev_min = elev
if last_elev:
if elev > last_elev:
if elev_gain is None:
elev_gain = elev - last_elev
else:
elev_gain += elev - last_elev
else:
if elev_loss is None:
elev_loss = last_elev - elev
else:
elev_loss += last_elev - elev
last_elev = elev
if xmltp.find(self.TCX_NS + "Cadence") is not None:
cadence = int(xmltp.find(self.TCX_NS + "Cadence").text)
if cadence > cadence_max:
cadence_max = cadence
# Get timestamp from last trackpoint in this track
xmltp = xmltrack.findall(self.TCX_NS + "Trackpoint")[-1]
if xmltp.find(self.TCX_NS + "Time") is not None:
self.time_end = dateutil.parser.parse(xmltp.find(self.TCX_NS + "Time").text)
lap = Lap(
date=lap_date,
time=time,
distance=distance,
elevation_gain=elev_gain,
elevation_loss=elev_loss,
elevation_min=elev_min,
elevation_max=elev_max,
speed_max=speed_max,
speed_avg=speed_avg,
cadence_avg=cadence_avg,
cadence_max=cadence_max,
calories=calories,
hf_max=hf_max,
hf_avg=hf_avg)
self.laps.append(lap)
class TCXFile(ActivityFile):
filetypes = ["tcx"]
# TCX_NS="http://www.garmin.com/xmlschemas/TrainingCenterDatabase/v2"
TCX_NS = "{http://www.garmin.com/xmlschemas/TrainingCenterDatabase/v2}"
xmlns = "{http://www.garmin.com/xmlschemas/TrainingCenterDatabase/v2}"
xmlactextns = "{http://www.garmin.com/xmlschemas/ActivityExtension/v2}"
xml_instance = "{http://www.w3.org/2001/XMLSchema-instance}"
def __init__(self, track, request=None):
ActivityFile.__init__(self, track, request)
track.trackfile.open()
self.xmltree = ElementTree(file=track.trackfile)
track.trackfile.close()
# logging.debug("Trackfile %r closed" % tcxfile.trackfile)
self.parse_trackpoints()
def parse_file(self):
self.laps = []
self.position_start = None
self.date = None
self.time_start = None
self.time_end = None
self.track.trackfile.open()
xmltree = ElementTree(file=self.track.trackfile)
self.track.trackfile.close()
# take only first activity from file
xmlactivity = xmltree.find(self.TCX_NS + "Activities")[0]
lap_date = None
for xmllap in xmlactivity.findall(self.TCX_NS + "Lap"):
lap_date = dateutil.parser.parse(xmllap.get("StartTime"))
if self.date is None:
self.date = lap_date
time = int(float(xmllap.find(self.TCX_NS + "TotalTimeSeconds").text))
if xmllap.find(self.TCX_NS + "DistanceMeters") is None:
logging.debug("DistanceMeters not present in Lap data")
distance = None
else:
distance = str(float(xmllap.find(self.TCX_NS + "DistanceMeters").text) / 1000)
if xmllap.find(self.TCX_NS + "MaximumSpeed") is None:
logging.debug("MaximumSpeed is None")
speed_max = None
else:
logging.debug("MaximumSpeed xml is %r" % xmllap.find(self.TCX_NS + "MaximumSpeed"))
speed_max = str(float(xmllap.find(self.TCX_NS + "MaximumSpeed").text) * 3.6) # Given as meters per second in tcx file
logging.debug("speed_max is %s" % speed_max)
if xmllap.find(self.TCX_NS + "Calories") is not None:
calories = int(xmllap.find(self.TCX_NS + "Calories").text)
else:
calories = None
try:
hf_avg = int(xmllap.find(self.TCX_NS + "AverageHeartRateBpm").find(self.TCX_NS + "Value").text)
logging.debug("Found hf_avg: %s" % hf_avg)
except AttributeError:
hf_avg = None
logging.debug("Not found hf_avg")
try:
hf_max = int(xmllap.find(self.TCX_NS + "MaximumHeartRateBpm").find(self.TCX_NS + "Value").text)
logging.debug("Found hf_max: %s" % hf_max)
except AttributeError:
hf_max = None
logging.debug("Not found hf_max")
try:
cadence_avg = int(xmllap.find(self.TCX_NS + "Cadence").text)
logging.debug("Found average cadence: %s" % cadence_avg)
except AttributeError:
cadence_avg = None
logging.debug("Not found average cadence")
if time != 0 and distance is not None:
speed_avg = str(float(distance) * 3600 / time)
else:
speed_avg = None
cadence_max = None
elev_min = None
elev_max = None
elev_gain = None
elev_loss = None
last_elev = None
for xmltrack in xmllap.findall(self.TCX_NS + "Track"):
for xmltp in xmltrack.findall(self.TCX_NS + "Trackpoint"):
if not self.position_start:
xmlpos = xmltp.find(self.TCX_NS + "Position")
if xmlpos is not None:
if xmlpos.find(self.TCX_NS + "LatitudeDegrees") is not None and xmlpos.find(self.TCX_NS + "LongitudeDegrees") is not None:
lat = float(xmlpos.find(self.TCX_NS + "LatitudeDegrees").text)
lon = float(xmlpos.find(self.TCX_NS + "LongitudeDegrees").text)
self.position_start = (lat, lon)
if not self.time_start and xmltp.find(self.TCX_NS + "Time") is not None:
self.time_start = dateutil.parser.parse(xmltp.find(self.TCX_NS + "Time").text)
if xmltp.find(self.TCX_NS + "AltitudeMeters") is not None:
elev = int(round(float(xmltp.find(self.TCX_NS + "AltitudeMeters").text)))
else:
elev = last_elev
if elev != last_elev:
if elev_max is not None:
if elev > elev_max:
elev_max = elev
else:
elev_max = elev
if elev_min is not None:
if elev < elev_min:
elev_min = elev
else:
elev_min = elev
if last_elev:
if elev > last_elev:
if elev_gain is None:
elev_gain = elev - last_elev
else:
elev_gain += elev - last_elev
else:
if elev_loss is None:
elev_loss = last_elev - elev
else:
elev_loss += last_elev - elev
last_elev = elev
if xmltp.find(self.TCX_NS + "Cadence") is not None:
cadence = int(xmltp.find(self.TCX_NS + "Cadence").text)
if cadence > cadence_max:
cadence_max = cadence
# Get timestamp from last trackpoint in this track
xmltp = xmltrack.findall(self.TCX_NS + "Trackpoint")[-1]
if xmltp.find(self.TCX_NS + "Time") is not None:
self.time_end = dateutil.parser.parse(xmltp.find(self.TCX_NS + "Time").text)
lap = Lap(
date=lap_date,
time=time,
distance=distance,
elevation_gain=elev_gain,
elevation_loss=elev_loss,
elevation_min=elev_min,
elevation_max=elev_max,
speed_max=speed_max,
speed_avg=speed_avg,
cadence_avg=cadence_avg,
cadence_max=cadence_max,
calories=calories,
hf_max=hf_max,
hf_avg=hf_avg)
self.laps.append(lap)
def parse_trackpoints(self):
# take only first activity from file
xmlactivity = self.xmltree.find(self.xmlns + "Activities")[0]
alt_data = []
cad_data = []
hf_data = []
pos_data = []
speed_gps_data = []
speed_foot_data = []
# logging.debug("Parsing TCX Track file in first activity")
first_lap = xmlactivity.find(self.xmlns + "Lap")
start_time = dateutil.parser.parse(first_lap.get("StartTime"))
offset_time = 0 # used to remove track sequences from plot where no movement has occured
last_lap_distance = 0 # used to add distance to laps starting with distance 0
last_distance = None
last_lat_lon = None
for xmllap in xmlactivity.findall(self.xmlns + "Lap"):
distance_offset = 0
# check if lap starts with distance 0
if len(xmllap.findall(self.xmlns + "Track/" + self.xmlns + "Trackpoint")) == 0:
continue # skip empty laps
xmltp = xmllap.findall(self.xmlns + "Track/" + self.xmlns + "Trackpoint")[0]
if hasattr(xmltp.find(self.xmlns + "DistanceMeters"), "text"):
distance = float(xmltp.find(self.xmlns + "DistanceMeters").text)
if distance < last_lap_distance:
distance_offset = last_lap_distance
for xmltp in xmllap.findall(self.xmlns + "Track/" + self.xmlns + "Trackpoint"):
distance = alt = cad = hf = trackpoint_time = None
if hasattr(xmltp.find(self.xmlns + "DistanceMeters"), "text"):
distance = float(xmltp.find(self.xmlns + "DistanceMeters").text)
distance = distance + distance_offset
elif xmltp.find(self.xmlns + "Position"):
xmltp_pos = xmltp.find(self.xmlns + "Position")
lat = float(xmltp_pos.find(self.xmlns + "LatitudeDegrees").text)
lon = float(xmltp_pos.find(self.xmlns + "LongitudeDegrees").text)
if last_lat_lon is None:
last_lat_lon = (lat, lon)
last_distance = 0
continue
else:
distance = last_distance + activities.utils.latlon_distance(last_lat_lon, (lat, lon))
last_lat_lon = (lat, lon)
else:
continue
if not hasattr(xmltp.find(self.xmlns + "Time"), "text"):
continue
delta = dateutil.parser.parse(xmltp.find(self.xmlns + "Time").text) - start_time
trackpoint_time = ((delta.seconds + 86400 * delta.days) - offset_time) * 1000
# Find sections with speed < 0.5m/s (no real movement, remove duration of this section from timeline)
if last_distance:
delta_dist = distance - last_distance
delta_time = (trackpoint_time - self.track_by_distance[last_distance]["trackpoint_time"]) / 1000
if delta_time > 0 and (delta_dist / delta_time) < 0.5:
offset_time += delta_time
trackpoint_time = ((delta.seconds + 86400 * delta.days) - offset_time) * 1000
last_distance = distance
if distance not in self.track_by_distance:
self.track_by_distance[distance] = {}
self.track_by_distance[distance]["trackpoint_time"] = trackpoint_time
# Get altitude
if hasattr(xmltp.find(self.xmlns + "AltitudeMeters"), "text"):
alt = float(xmltp.find(self.xmlns + "AltitudeMeters").text)
self.track_by_distance[distance]["alt"] = alt
# alt_data.append((trackpoint_time,alt))
alt_data.append((distance, trackpoint_time, alt))
# Get Cadence data (from Bike cadence sensor)
if hasattr(xmltp.find(self.xmlns + "Cadence"), "text"):
cad = int(xmltp.find(self.xmlns + "Cadence").text)
self.track_by_distance[distance]["cad"] = cad
# cad_data.append((trackpoint_time,cad))
cad_data.append((distance, trackpoint_time, cad))
# Locate heart rate in beats per minute
hrt = xmltp.find(self.xmlns + "HeartRateBpm")
if hrt is not None:
if hasattr(xmltp.find(self.xmlns + "HeartRateBpm/" + self.xmlns + "Value"), "text"):
hf = int(xmltp.find(self.xmlns + "HeartRateBpm/" + self.xmlns + "Value").text)
self.track_by_distance[distance]["hf"] = hf
# hf_data.append((trackpoint_time,hf))
hf_data.append((distance, trackpoint_time, hf))
# Locate time stamps for speed calculation based on GPS
if hasattr(xmltp.find(self.xmlns + "Time"), "text"):
track_time = dateutil.parser.parse(xmltp.find(self.xmlns + "Time").text)
self.track_by_distance[distance]["gps"] = track_time
speed_gps_data.append((distance, track_time))
# Get position coordinates
pos = xmltp.find(self.xmlns + "Position")
if pos is not None:
if hasattr(pos.find(self.xmlns + "LatitudeDegrees"), "text") and hasattr(pos.find(self.xmlns + "LongitudeDegrees"), "text"):
lat = float(pos.find(self.xmlns + "LatitudeDegrees").text)
lon = float(pos.find(self.xmlns + "LongitudeDegrees").text)
pos_data.append((lat, lon))
# Search for Garmin Trackpoint Extensions TPX, carrying RunCadence data from Footpods
ext = xmltp.find(self.xmlns + "Extensions")
# logging.debug("Found Activity Extensions")
if ext is not None:
xmltpx = ext.find(self.xmlactextns + "TPX")
# currenlty supported Footpod sensor
if xmltpx is not None and xmltpx.get("CadenceSensor") == "Footpod":
if hasattr(xmltpx.find(self.xmlactextns + "Speed"), "text"):
speed = float(xmltpx.find(self.xmlactextns + "Speed").text)
self.track_by_distance[distance]["speed_footpod"] = speed
speed_foot_data.append((distance, trackpoint_time, speed))
if hasattr(xmltpx.find(self.xmlactextns + "RunCadence"), "text"):
# Only copy cadence data if no other Cadence data (from bike) is present
if cad is None:
cad = int(xmltpx.find(self.xmlactextns + "RunCadence").text)
self.track_by_distance[distance]["cad"] = cad
cad_data.append((distance, trackpoint_time, cad))
# TODO: Watts sensors ???
last_lap_distance = distance
# logging.debug("Found a total time of %s seconds without movement (speed < 0.5m/s)" % offset_time)
self.track_data["alt"] = alt_data
self.track_data["cad"] = cad_data
self.track_data["hf"] = hf_data
self.track_data["pos"] = pos_data
self.track_data["speed_gps"] = speed_gps_data
self.track_data["speed_foot"] = speed_foot_data
if type == "float": type = "double"
if type == "": type = "int"
f.write("\t%s %s;\t// FlightGear property: %s\n" % (type,
chunk["name"], chunk["node"]))
f.write("\n\tunsigned int magic;\n};\n")
if __name__ == "__main__":
if len(sys.argv) != 3:
print "Usage: fgXMLtoHeader.py FG_OpenGC.xml output.h"
print "Copy output.h over ../Source/DataSources/FlightGear_Protocol.h"
sys.exit(1)
# Open the file, check it has the "PropertyList/generic/output"
root = ElementTree(file=sys.argv[1]).getroot()
if root == None or root.tag != "PropertyList":
print "File is not a property list"
sys.exit(1)
# Get the output section
output_sec = root.find("generic/output")
if output_sec == None:
print "File has no generic/output section"
sys.exit(1)
# Parse the file and write the result to a file
parse_tree = parse_file(output_sec, output_sec)
write_output(sys.argv[2], parse_tree)
if type == "float": type = "double"
if type == "": type = "int"
f.write("\t%s %s;\t// FlightGear property: %s\n" %
(type, chunk["name"], chunk["node"]))
f.write("\n\tunsigned int magic;\n};\n")
if __name__ == "__main__":
if len(sys.argv) != 3:
print "Usage: fgXMLtoHeader.py FG_OpenGC.xml output.h"
print "Copy output.h over ../Source/DataSources/FlightGear_Protocol.h"
sys.exit(1)
# Open the file, check it has the "PropertyList/generic/output"
root = ElementTree(file=sys.argv[1]).getroot()
if root == None or root.tag != "PropertyList":
print "File is not a property list"
sys.exit(1)
# Get the output section
output_sec = root.find("generic/output")
if output_sec == None:
print "File has no generic/output section"
sys.exit(1)
# Parse the file and write the result to a file
parse_tree = parse_file(output_sec, output_sec)
write_output(sys.argv[2], parse_tree)
print "INVALID PROJECT DIRECTORY"
exit(0)
et = ElementTree()
#transform categories
print "Transforming Categories..."
for cat_fname in os.listdir(cat_path):
fpath = os.path.join(cat_path, cat_fname)
et.parse(fpath)
version = et.getroot().get("version")
if not version:
print "\tTransforming %s..." % cat_fname
root = Element("category",
{"version": "1.1",
"name": et.find("name").text.strip(),
"description": et.find("description").text.strip()})
et = ElementTree(root)
et.write(fpath, indent=True)
elif version == "1.0":
print "\tTransforming %s..." % cat_fname
root = Element("category",
{"version": "1.1",
"name": et.getroot().get("name"),
"description": et.getroot().get("description")})
et = ElementTree(root)
et.write(fpath, indent=True)
else:
print "\tSkipping %s - Not the version this script was written to transform." % cat_fname
#transform components
exit(0)
et = ElementTree()
#transform categories
print "Transforming Categories..."
for cat_fname in os.listdir(cat_path):
fpath = os.path.join(cat_path, cat_fname)
et.parse(fpath)
version = et.getroot().get("version")
if not version:
print "\tTransforming %s..." % cat_fname
root = Element(
"category", {
"version": "1.1",
"name": et.find("name").text.strip(),
"description": et.find("description").text.strip()
})
et = ElementTree(root)
et.write(fpath, indent=True)
elif version == "1.0":
print "\tTransforming %s..." % cat_fname
root = Element(
"category", {
"version": "1.1",
"name": et.getroot().get("name"),
"description": et.getroot().get("description")
})
et = ElementTree(root)
et.write(fpath, indent=True)
else:
def update_publication(publication_object):
"""
Asks Symplectic API for info about specified publication based upon
its guid
Receives XML File as response
Parses XML File to find publication info & all biblio-records for that
publication
"""
# checking
# print " update_publication", publication_object
if not(publication_object) or (publication_object.guid == ''):
return
# symplectic api url and local file path
url = SYMPLECTIC_API_URL + 'publications/' + publication_object.guid
tmp_filename = "".join([
SYMPLECTIC_LOCAL_XML_FOLDER,
SYMPLECTIC_LOCAL_PUBS_FOLDER,
str(publication_object.guid),
'.xml'
])
# get xml document from symplectic api and store on hd
(tmp_filename, http_headers) = urllib.urlretrieve(url, tmp_filename)
# parse xml file
pub_etree = ElementTree(file=tmp_filename)
#d elete local file from hd
# try:
os.remove(tmp_filename)
# except:
# pass
#++++++PUBLICATION++++++
# publication element
pub_element = pub_etree.getroot()
# no loading-of/blank publication object required as updating the one
# passed in
# check returned xml element is valid and for correct publication
if pub_element is None:
return
elif publication_object.guid != pub_element.get('id', ''):
return
# publication attributes
if pub_element is not None:
publication_object.new_id = pub_element.get('new-id')
if pub_element.get('is-deleted', 'false') == 'true':
publication_object.is_deleted = True
else:
publication_object.is_deleted = False
attr_names = ["type", "created-when", "last-modified-when"]
for attr_name in attr_names:
attr_value = pub_element.get(attr_name, "")
setattr(
publication_object,
attr_name.replace("-", "_"),
attr_value
)
# just fetched latest version from symplectic
publication_object.needs_refetch = False
# save updated publication object
publication_object.save()
# ++++++BIBLIOGRAPHIC-RECORD++++++
# bibliographic-record elements are held in a subtree
biblio_subtree = pub_etree.find(
SYMPLECTIC_NAMESPACE + 'bibliographic-records'
)
# check if any bibliographic-record elements in subtree
if biblio_subtree is None or len(biblio_subtree) < 1:
return
# for each bibliographic-record element in subtree
for biblio_element in biblio_subtree.getchildren():
_create_biblio_object(biblio_element, publication_object)