def __toKML(self):
"""
Public subscribers' geography information,
if it's available in his foaf files,
into KML file
"""
from kml import KML
kml = KML()
count = 0
for mail, subscriber in self.subscribers.items():
lat, lon = subscriber.getGeo()
pic = subscriber.getPic()
if ((lat != None) and (lon != None)):
count += 1
kml.addPlace(lat, lon, name=subscriber.getName(), description=pic)
#and dump to disk
try:
kml_file = open(self.config.get('dir') + 'subscribers.kml', 'w+')
kml.write(kml_file)
kml_file.flush()
kml_file.close()
print count, 'subcribers\' coordinates exported in KML'
except IOError, detail:
print 'Error exporting coordinates to KML: ' + str(detail)
def make_KML_average_columns(averages_dict):
kml = KML()
aves = {}
for point, bucket in averages_dict.items():
aves[point] = {"vel": [], "azm": []}
vel = Mean() + point.velocity
azm = Mean() + point.azimuth
for en in ens:
vel += en.velocity
azm += en.azimuth
aves[point]["vel"] = vel
aves[point]["azm"] = azm
f = open("../data/column_averages.xml",'w')
f.write("latitude, longitude, velocity_mean, v_std, v_n, azimuth_mean, a_std, a_n\n")
mkstr = lambda x: ("%s" % x).replace(", ","<br/>").replace("=",": ")
for point, ave in aves.items():
vel = ave["vel"]
azm = ave["azm"]
text = "<h2>Velocity:</h2><p>%s</p>" % mkstr(vel)
text += "<h2>Azimuth:</h2><p>%s</p>" % mkstr(azm)
desc = description_from_text(text)
pt = Placemark(int(azm), point.point, desc)
kml.addPlacemark(pt)
line = list(point.point)
line.append(vel())
line.append(azm())
f.write(",".join(line) + "\n")
f.close()
kml.output("../data/column_averages.kml")
def write_kml_output(self, ships, out_name):
"""
saves a summary of all selected ships in KML format
(or KMZ if gzip option selected)
out_name is used to compute the output filename
returns filename
"""
# create an instance of the KML class
kml = KML()
# send it the `contents` method to retrieve the text
# to be written in the kml file
contents = kml.contents(
ships,
kml_name=out_name,
description=f"Positions for ship(s) {out_name}")
# compute suffix based on self.args.gzip
# - whether the --gzip option was passed or not
suffix = "kmz" if self.args.gzip else "kml"
# compute full filename
kml_filename = f"{out_name}.{suffix}"
# message
print(f"Opening {kml_filename} for ship {out_name}")
# open a plain file or compressed file as requested
with gzip.open(kml_filename, 'w', newline="\n") if self.args.gzip \
else open(kml_filename, 'w', newline="\n") as out:
out.write(contents)
# return filename
return kml_filename
def outputData(name, collection, atDepth=None):
kml = KML(name)
file = open("../data/%s.csv" % name.replace(" ", "_"), "w")
file.write(
"number, latitude, longitude, v_mean, v_dev, v_n, v_err, v_min, v_max, a_mean, a_dev, a_n, a_err, a_min, a_max, d_mean, d_dev, d_n, d_err, d_min, d_max\n"
)
for lst in collection.values():
for col in lst:
col.calcAverages()
point = col.point
if atDepth:
velocity, azimuth = col.averageAtDepth(atDepth)
else:
velocity, azimuth = col.velocity, col.azimuth
name = int(degrees(azimuth)) # Cast to a Python int b/c MeanAzimuth has a long string representation
depth = col.depth
style = int(velocity)
if style == 0:
style = "O"
elif (name < 0) or (style < 0):
style = "red-diamond"
name = ""
PL = Placemark(name, point, velocity, azimuth, depth, style)
kml.addPlacemark(PL)
file.write("%i, %f, %f," % (PL.id, point[0], point[1]))
for val in [velocity, azimuth, depth]:
for v in val():
file.write(" %0.3f," % v)
file.write("\n")
# Kludge to zero out the ID number, so that we have a new zero point for each depth.
PL.zero()
kml.output()
file.close()
def write_kml_output(self, ships, out_name):
"""
saves a summary of all selected ships in KML format
(or KMZ if gzip option selected)
out_name is used to compute the output filename
returns filename
"""
# create an instance of the KML class
kml = KML()
# send it the `contents` method to retrieve the text
# to be written in the kml file
contents = kml.contents(ships, kml_name=out_name,
description = "Positions for ship(s) {}".\
format(out_name)
)
# compute suffix based on self.args.gzip
# - whether the --gzip option was passed or not
suffix = "kmz" if self.args.gzip else "kml"
# compute full filename
kml_filename = "{}.{}".format(out_name, suffix)
# message
print ("Opening {kml_filename} for ship {out_name}".\
format(**locals()))
# open a plain file or compressed file as requested
with gzip.open(kml_filename, 'w') if self.args.gzip \
else open(kml_filename, 'w') as out:
out.write(contents)
# return filename
return kml_filename
def geocode_cust_addresses(self, caddresses):
"""Geocode all addresses from a customer dict."""
kml = KML()
xmlroot = kml.xmlroot
# geocode addresses
for key, value in caddresses.items():
logging.info('Geocoding address..')
gcaddr = geocode(value)
logging.info('Appending row to kml..')
xmlroot[0].append(kml.placemark(key, value, gcaddr))
self.wait(10)
self.notifysubswrite(
kml.serialize(xmlroot), '*.kml', 'Google Earth KML')
def geocode_cust_addresses(self, caddresses):
"""Geocode all addresses from a customer dict."""
kml = KML()
xmlroot = kml.xmlroot
# geocode addresses
for key, value in caddresses.items():
logging.info('Geocoding address..')
gcaddr = geocode(value)
logging.info('Appending row to kml..')
xmlroot[0].append(kml.placemark(key, value, gcaddr))
self.wait(10)
self.notifysubswrite(kml.serialize(xmlroot), '*.kml',
'Google Earth KML')
def make_KML_average_columns(averages_dict):
kml = KML()
aves = {}
for point, bucket in averages_dict.items():
aves[point] = {"vel": [], "azm": []}
vel = Mean() + point.velocity
azm = Mean() + point.azimuth
for en in ens:
vel += en.velocity
azm += en.azimuth
aves[point]["vel"] = vel
aves[point]["azm"] = azm
f = open("../data/column_averages.xml", 'w')
f.write(
"latitude, longitude, velocity_mean, v_std, v_n, azimuth_mean, a_std, a_n\n"
)
mkstr = lambda x: ("%s" % x).replace(", ", "<br/>").replace("=", ": ")
for point, ave in aves.items():
vel = ave["vel"]
azm = ave["azm"]
text = "<h2>Velocity:</h2><p>%s</p>" % mkstr(vel)
text += "<h2>Azimuth:</h2><p>%s</p>" % mkstr(azm)
desc = description_from_text(text)
pt = Placemark(int(azm), point.point, desc)
kml.addPlacemark(pt)
line = list(point.point)
line.append(vel())
line.append(azm())
f.write(",".join(line) + "\n")
f.close()
kml.output("../data/column_averages.kml")
def __toKML(self):
"""
Public subscribers' geography information,
if it's available in his foaf files,
into KML file
"""
from kml import KML
kml = KML()
for mail, subscriber in self.subscribers.items():
lat, lon = subscriber.getGeo()
pic = subscriber.getPic()
if ((lat != None) and (lon != None)):
kml.addPlace(lat,
lon,
name=subscriber.getName(),
description=pic)
#and dump to disk
try:
kml_file = open(self.config.get('dir') + 'subscribers.kml', 'w+')
kml.write(kml_file)
kml_file.flush()
kml_file.close()
except IOError, detail:
print 'Error exporting coordinates to KML: ' + str(detail)
def outputData(name, collection, atDepth=None):
kml = KML(name)
file = open("../data/%s.csv" % name.replace(" ", "_"), "w")
file.write(
"number, latitude, longitude, v_mean, v_dev, v_n, v_err, v_min, v_max, a_mean, a_dev, a_n, a_err, a_min, a_max, d_mean, d_dev, d_n, d_err, d_min, d_max\n"
)
for lst in collection.values():
for col in lst:
col.calcAverages()
point = col.point
if atDepth:
velocity, azimuth = col.averageAtDepth(atDepth)
else:
velocity, azimuth = col.velocity, col.azimuth
name = int(
degrees(azimuth)
) # Cast to a Python int b/c MeanAzimuth has a long string representation
depth = col.depth
style = int(velocity)
if style == 0: style = "O"
elif ((name < 0) or (style < 0)):
style = "red-diamond"
name = ""
PL = Placemark(name, point, velocity, azimuth, depth, style)
kml.addPlacemark(PL)
file.write("%i, %f, %f," % (PL.id, point[0], point[1]))
for val in [velocity, azimuth, depth]:
for v in val():
file.write(" %0.3f," % v)
file.write("\n")
# Kludge to zero out the ID number, so that we have a new zero point for each depth.
PL.zero()
kml.output()
file.close()
def make_KML_at_depths(averages_dict, depths=(3, 6, 9)):
kmls = {}
for depth in depths:
kmls[depth] = KML()
for point, aves in averages_dict.items():
vel = aves[depth]["vel"]
azimuth = aves[depth]["azm"]
desc = description_from_text("Velocity: %0.3f<br/>Azimuth: %0.3f" %
(velocity, azimuth))
pt = Placemark(int(azimuth), point.point, desc)
kmls[depth].addPlacemark(pt)
for key in kmls.keys():
kmls[key].output("../data/depth%i.kml" % key)
def map(orbit_data, output_file, colour, width, indices):
"""Maps GMAT data from the file orbit_data as a KMZ file"""
print "Creating map for orbit file", orbit_data
coords = []
if not os.path.exists(orbit_data):
raise IOError('File "%s" does not exist' % orbit_data)
with open(orbit_data, 'r') as orbit:
for i, row in enumerate(orbit):
if indices[0] <= i <= indices[1] and i % 2 == 0:
try:
lat, lon = [float(x) for x in row.split()[:2]]
except:
print row
print i
raise
coords.append((lon, lat))
else:
pass
line_style = KML.LineStyle(colour=colour, width=width, id='GroundTrack')
print "Making KML"
coord = KML.Coord(coords)
track = KML.LineString(
coord,
style=line_style,
name='GMAT Orbit Track',
description='Ground track for GMAT orbit from file %s' %
os.path.split(orbit_data)[-1])
map = KML.KML(name='GMAT Orbit')
map.add_object(track)
if output_file is None:
output_file = os.path.join(os.path.splitext(orbit_data)[0], '.kmz')
map.write(output_file)
print "File saved as", os.path.realpath(output_file)
def run_format(self,formatcls):
if formatcls in self.results:
return
prereq = RunManager.prereqs[formatcls]
if prereq and prereq not in self.results:
self.run_format(prereq)
if formatcls == OSM_XML:
task = OSM_XML(self.aoi_geom, self.dir + 'export.osm',url=self.overpass_api_url)
if formatcls == OSM_PBF:
task = OSM_PBF(self.dir + 'export.osm',self.dir+'export.pbf')
if formatcls == Geopackage:
task = Geopackage(
self.dir+'export.pbf',
self.dir+'export.gpkg',
self.dir,
self.feature_selection,
self.aoi_geom,
per_theme=self.per_theme
)
if formatcls == GarminIMG:
assert self.garmin_splitter and self.garmin_mkgmap
task = GarminIMG(
self.dir+'export.pbf',
self.dir,
self.garmin_splitter,
self.garmin_mkgmap,
self.aoi_geom)
if formatcls == OsmAndOBF:
assert self.map_creator_dir
task = OsmAndOBF(self.dir+'export.pbf',self.dir,self.map_creator_dir)
if formatcls == KML:
task = KML(self.dir + 'export.gpkg',self.dir,self.feature_selection)
if formatcls == Shapefile:
task = Shapefile(self.dir + 'export.gpkg',self.dir,self.feature_selection)
self.on_task_start(formatcls)
task.run()
self.on_task_success(formatcls,task.results)
self.results[formatcls] = task
#!/usr/bin/env python
import argparse
from parse import parse_listing_file
from kml import KML
parser = argparse.ArgumentParser()
parser.add_argument('-t', '--test', action='store_true', help='If flag is '
'present, does not run geocode lookup.')
parser.add_argument('file')
params = parser.parse_args()
file = open(params.file)
listings = parse_listing_file(file)
kml_generator = KML(test=params.test)
kml_generator.generate_from_listings(listings)
def make_KML_from_ensemble_list(ensemble_list, designator=None):
kml = KML()
for en in ensemble_list:
kml.addPlacemark(make_Placemark(ensemble))
des = str(designator) if designator else ""
kml.output("../data/transects%s.kml" % des)
def make_KML_from_ensemble_list(ensemble_list, designator=None):
kml = KML()
for en in ensemble_list:
kml.addPlacemark(make_Placemark(ensemble))
des = str(designator) if designator else ""
kml.output("../data/transects%s.kml" % des)
