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- Ausbesserungen Gschliefgraben Glasfaser

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Arno Kaimbacher 2022-03-07 15:37:28 +01:00
parent 87cb78af65
commit 675dd2f641
8 changed files with 335 additions and 57 deletions
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81
gschliefgraben_glasfaser/InsertGschliefgraben.xml Normal file
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@ -0,0 +1,81 @@
<sml:PhysicalSystem gml:id={off_name} xmlns:swes=\"http://www.opengis.net/swes/2.0\"
xmlns:sos=\"http://www.opengis.net/sos/2.0\"
xmlns:swe=\"http://www.opengis.net/swe/2.0\"
xmlns:sml=\"http://www.opengis.net/sensorml/2.0\"
xmlns:gml=\"http://www.opengis.net/gml/3.2\"
xmlns:xlink=\"http://www.w3.org/1999/xlink\"
xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\"
xmlns:gco=\"http://www.isotc211.org/2005/gco\"
xmlns:gmd=\"http://www.isotc211.org/2005/gmd\">
<gml:identifier codeSpace=\"uniqueID\">{procedure_identifier}</gml:identifier>
<sml:identification>
<sml:IdentifierList>
<sml:identifier>
<sml:Term definition=\"urn:ogc:def:identifier:OGC:1.0:shortName\">
<sml:label>shortName</sml:label>
<sml:value>{procedure_name}</sml:value>
</sml:Term>
</sml:identifier>
</sml:IdentifierList>
</sml:identification>
<sml:capabilities name=\"offerings\">
<sml:CapabilityList>
<sml:capability name=\"offeringID\">
<swe:Text definition=\"urn:ogc:def:identifier:OGC:offeringID\">
<swe:label>{offering_label}</swe:label>
<swe:value>{offering_name}</swe:value>
</swe:Text>
</sml:capability>
</sml:CapabilityList>
</sml:capabilities>
<sml:featuresOfInterest>
<sml:FeatureList definition=\"http://www.opengis.net/def/featureOfInterest/identifier\">
<swe:label>featuresOfInterest</swe:label>
<sml:feature>
<sams:SF_SpatialSamplingFeature xmlns:sams=\"http://www.opengis.net/samplingSpatial/2.0\" gml:id=\"ssf_b3a826dd44012201b01323232323041f7a92e0cc47260eb9888f6a4e9f747\">
<gml:identifier codeSpace=\"http://www.opengis.net/def/nil/OGC/0/unknown\">{feature_id}</gml:identifier>
<gml:name codeSpace=\"http://www.opengis.net/def/nil/OGC/0/unknown\">{feature_name}</gml:name>
<sf:type xmlns:sf=\"http://www.opengis.net/sampling/2.0\" xlink:href=\"http://www.opengis.net/def/samplingFeatureType/OGC-OM/2.0/SF_SamplingPoint\"/>
<sf:sampledFeature xmlns:sf=\"http://www.opengis.net/sampling/2.0\" xlink:href=\"http://www.opengis.net/def/nil/OGC/0/unknown\"/>
<sams:shape>
<ns:Point xmlns:ns=\"http://www.opengis.net/gml/3.2\" ns:id=\"Point_ssf_b3a826dd44012201b013c90c51da28c041f7a92e0cc47260eb9888f6a4e9f747\">
<ns:pos srsName=\"http://www.opengis.net/def/crs/EPSG/0/4326\">{coordinates}</ns:pos>
</ns:Point>
</sams:shape>
</sams:SF_SpatialSamplingFeature>
</sml:feature>
</sml:FeatureList>
</sml:featuresOfInterest>
<sml:outputs>
<sml:OutputList>
<sml:output name=\"Slope\">
<swe:Quantity definition=\"Slope\">
<swe:label>Slope</swe:label>
<swe:uom code=\"deg\"/>
</swe:Quantity>
</sml:output>
</sml:OutputList>
</sml:outputs>
<sml:position>
<swe:Vector referenceFrame=\"urn:ogc:def:crs:EPSG::4326\">
<swe:coordinate name=\"easting\">
<swe:Quantity axisID=\"x\">
<swe:uom code=\"degree\" />
<swe:value>{cord_x}</swe:value>
</swe:Quantity>
</swe:coordinate>
<swe:coordinate name=\"northing\">
<swe:Quantity axisID=\"y\">
<swe:uom code=\"degree\" />
<swe:value>{cord_y}</swe:value>
</swe:Quantity>
</swe:coordinate>
<swe:coordinate name=\"altitude\">
<swe:Quantity axisID=\"z\">
<swe:uom code=\"m\" />
<swe:value>{height}</swe:value>
</swe:Quantity>
</swe:coordinate>
</swe:Vector>
</sml:position>
</sml:PhysicalSystem>

167
gschliefgraben_glasfaser/import_feature_sensor.py Normal file
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@ -0,0 +1,167 @@
# -*- coding: utf-8 -*-
"""This module does blah blah."""
import requests
# from insert_sensor.transactional import insert_sensor
from insert_sensor.wrapper import (Offering, FoI, Procedure, SensorType)
# import json
class Sos():
"""
A class to represent a sos service.
...
Attributes
----------
sosurl : str
first name of the person
token : str
token to access soso service
"""
def __init__(self, url, token=''):
self.sosurl = str(url) # url to access the SOS
self.token = str(token) # security token, optional
# Test if URL exists
try:
test = requests.get(self.sosurl)
test.raise_for_status()
except requests.HTTPError:
print("The URL is not valid")
def main():
"""
main function
"""
sos_url = 'https://geomon.geologie.ac.at/52n-sos-webapp/service'
# Gschliefgraben Glasfaser
# offering = Offering(
# "https://geomon.geologie.ac.at/52n-sos-webapp/api/offerings/",
# "inclino1_02",
# "Inklinometer inclino1_02, Gschliefgraben Glasfaser"
# )
# procedure = Procedure( "inclino1_02","inclino1_02")
# offering = Offering(
# "https://geomon.geologie.ac.at/52n-sos-webapp/api/offerings/",
# "inclino1_05",
# "Inklinometer inclino1_05, Gschliefgraben Glasfaser"
# )
# procedure = Procedure("inclino1_05", "inclino1_05")
offering = Offering(
"https://geomon.geologie.ac.at/52n-sos-webapp/api/offerings/",
"inclino1_06",
"Inklinometer inclino1_06, Gschliefgraben Glasfaser"
)
procedure = Procedure("inclino1_06", "inclino1_06")
foi = FoI("degree", "m", (47.910849, 13.774966, 0.0),
"FBGuard23", "Glasfaser Untersuchungen am Gschliefgraben (Gmunden)")
sensor_type = SensorType("inclinometer")
post_data = insert_sensor(offering, procedure, foi, sensor_type)
print(post_data)
headers = {'Accept': 'application/json'}
request = requests.post(sos_url, headers=headers, json=post_data)
print(request.text)
# {
# "request" : "InsertSensor",
# "version" : "2.0.0",
# "service" : "SOS",
# "assignedProcedure" : "inclino1_14",
# "assignedOffering" : "inclino1_14"
# }
def insert_sensor(offering, procedure, foi, sensor_type):
"""
Prepares the body of a InsertSensor request for JSON biding.
:param offering: an instance of class Offering.Type object.
:param Procedure: instance of class Procedure. type object.
:param foi: feature of interest. Instance of FoI
:param sensor_type: SensorType object
:return: valid body for an InsertSensor request.
"""
# shortName = offering.name # string
# longName = 'Sibratsgfall test' # string
# Offering values
off_name = '\"' + str(offering.name) + '\"' # Offering name, double quoted
offering_name = offering.name
offering_label = offering.label
# offID = offering.fullId # URL format of full id
# featureName = featureID = cordX = cordY = height = h_unit = z_unit = coordinates = ""
if foi is not None: # check if feature of interest should be declare
# feature_id = 'https://geomon.geologie.ac.at/52n-sos-webapp/api/features/' + \
# str(foi.fid) # URL format
cord_x = str(foi.x) # longitude degrees, float
cord_y = str(foi.y) # latitude degrees, float
coordinates = cord_x + " " + cord_y
height = str(foi.z) # altitude in meters, float
# h_unit = foi.Hunit # units for horizontal coordinates
# z_unit = foi.Vunit # units for altitude
feature_id = foi.fid # "feature location"
feature_name = foi.name # "feature location"
else:
pass
procedure_name = procedure.name
procedure_identifier = procedure.id # URL,
obs_types = []
output_list = '' # output list element for describe procedure
properties_list = []
for attr in sensor_type.pattern["attributes"]:
obs_prop_name = '\"' + attr[0] + '\"' # attribute name
# print(obs_prop_name)
unit_name = sensor_type.om_types[attr[1]] # om type
# magnitud = a # ??
obs_name = obs_prop_name.replace('\"', '')
obs_name = "".join(obs_name.split()) # observable property name
output = '<sml:output name=' + obs_prop_name + '><swe:Quantity definition=' + \
'\"' + (obs_name) + '\"' + \
'></swe:Quantity></sml:output>'
output_list = output_list + output
# add property identifier to the list.
properties_list.append(obs_name)
# prepare list of measurement types
# A sensor can not registry duplicated sensor types.
this_type = "http://www.opengis.net/def/observationType/OGC-OM/2.0/"+unit_name
if this_type not in obs_types: # when new type appears
obs_types.append(this_type)
else:
continue
# Unit of measurement:
unit_name = '\"' + procedure.name + '\"' # double quoted string
# unit = omType # one of the MO measurement types
body = {
"request": "InsertSensor",
"service": "SOS",
"version": "2.0.0",
"procedureDescriptionFormat": "http://www.opengis.net/sensorml/2.0",
"procedureDescription": f'<sml:PhysicalSystem gml:id={off_name} xmlns:swes=\"http://www.opengis.net/swes/2.0\" xmlns:sos=\"http://www.opengis.net/sos/2.0\" xmlns:swe=\"http://www.opengis.net/swe/2.0\" xmlns:sml=\"http://www.opengis.net/sensorml/2.0\" xmlns:gml=\"http://www.opengis.net/gml/3.2\" xmlns:xlink=\"http://www.w3.org/1999/xlink\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" xmlns:gco=\"http://www.isotc211.org/2005/gco\" xmlns:gmd=\"http://www.isotc211.org/2005/gmd\"><gml:identifier codeSpace=\"uniqueID\">{procedure_identifier}</gml:identifier><sml:identification><sml:IdentifierList><sml:identifier><sml:Term definition=\"urn:ogc:def:identifier:OGC:1.0:shortName\"><sml:label>shortName</sml:label><sml:value>{procedure_name}</sml:value></sml:Term></sml:identifier></sml:IdentifierList></sml:identification><sml:capabilities name=\"offerings\"><sml:CapabilityList><sml:capability name=\"offeringID\"><swe:Text definition=\"urn:ogc:def:identifier:OGC:offeringID\"><swe:label>{offering_label}</swe:label><swe:value>{offering_name}</swe:value></swe:Text></sml:capability></sml:CapabilityList></sml:capabilities><sml:featuresOfInterest><sml:FeatureList definition=\"http://www.opengis.net/def/featureOfInterest/identifier\"><swe:label>featuresOfInterest</swe:label><sml:feature><sams:SF_SpatialSamplingFeature xmlns:sams=\"http://www.opengis.net/samplingSpatial/2.0\" gml:id=\"ssf_b3a826dd44012201b01323232323041f7a92e0cc47260eb9888f6a4e9f747\"><gml:identifier codeSpace=\"http://www.opengis.net/def/nil/OGC/0/unknown\">{feature_id}</gml:identifier><gml:name codeSpace=\"http://www.opengis.net/def/nil/OGC/0/unknown\">{feature_name}</gml:name><sf:type xmlns:sf=\"http://www.opengis.net/sampling/2.0\" xlink:href=\"http://www.opengis.net/def/samplingFeatureType/OGC-OM/2.0/SF_SamplingPoint\"/><sf:sampledFeature xmlns:sf=\"http://www.opengis.net/sampling/2.0\" xlink:href=\"http://www.opengis.net/def/nil/OGC/0/unknown\"/><sams:shape><ns:Point xmlns:ns=\"http://www.opengis.net/gml/3.2\" ns:id=\"Point_ssf_b3a826dd44012201b013c90c51da28c041f7a92e0cc47260eb9888f6a4e9f747\"><ns:pos srsName=\"http://www.opengis.net/def/crs/EPSG/0/4326\">{coordinates}</ns:pos></ns:Point></sams:shape></sams:SF_SpatialSamplingFeature></sml:feature></sml:FeatureList></sml:featuresOfInterest><sml:outputs><sml:OutputList><sml:output name=\"Slope\"><swe:Quantity definition=\"Slope\"><swe:label>Slope</swe:label><swe:uom code=\"deg\"/></swe:Quantity></sml:output></sml:OutputList></sml:outputs><sml:position><swe:Vector referenceFrame=\"urn:ogc:def:crs:EPSG::4326\"><swe:coordinate name=\"easting\"><swe:Quantity axisID=\"x\"><swe:uom code=\"degree\" /><swe:value>{cord_x}</swe:value></swe:Quantity></swe:coordinate><swe:coordinate name=\"northing\"><swe:Quantity axisID=\"y\"><swe:uom code=\"degree\" /><swe:value>{cord_y}</swe:value></swe:Quantity></swe:coordinate><swe:coordinate name=\"altitude\"><swe:Quantity axisID=\"z\"><swe:uom code=\"m\" /><swe:value>{height}</swe:value></swe:Quantity></swe:coordinate></swe:Vector></sml:position></sml:PhysicalSystem>',
"observableProperty": [
"Slope",
# "Roll",
# "InSystemTemperature"
],
"observationType": [
"http://www.opengis.net/def/observationType/OGC-OM/2.0/OM_Measurement"
],
"featureOfInterestType": "http://www.opengis.net/def/samplingFeatureType/OGC-OM/2.0/SF_SamplingPoint"
}
return body
if __name__ == '__main__':
main()

30
gschliefgraben_glasfaser/main.py
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@ -15,12 +15,16 @@ import json
# parentdir = os.path.dirname(currentdir) # parentdir = os.path.dirname(currentdir)
# sys.path.insert(0, parentdir) # sys.path.insert(0, parentdir)
# import requests # import requests
from datetime import datetime, date, timedelta
from dotenv import load_dotenv, find_dotenv
from sqlalchemy.orm import session from sqlalchemy.orm import session
from sqlalchemy import func, asc, desc from sqlalchemy import func, asc, desc
# from db.pg_models import Platform # from db.pg_models import Platform
from gschliefgraben_glasfaser.models import ObservationSchema, Person, PersonSchema, Observation, create_pg_session, Dataset, Procedure, Phenomenon, Platform from gschliefgraben_glasfaser.models import (
ObservationSchema, Person, PersonSchema, Observation,
create_pg_session, Dataset, Procedure, Phenomenon, Platform)
from gschliefgraben_glasfaser.my_api import MyApi from gschliefgraben_glasfaser.my_api import MyApi
from datetime import datetime, date, timedelta
def main(): def main():
''' main method ''' ''' main method '''
@ -51,7 +55,7 @@ def main():
pg_session.commit() pg_session.commit()
platform_exists: bool = pg_session.query(Platform.id).filter_by( platform_exists: bool = pg_session.query(Platform.id).filter_by(
sta_identifier = platform_sta_identifier).scalar() is not None sta_identifier=platform_sta_identifier).scalar() is not None
if platform_exists: if platform_exists:
sensor_platform = pg_session.query(Platform.id) \ sensor_platform = pg_session.query(Platform.id) \
.filter(Platform.sta_identifier == platform_sta_identifier) \ .filter(Platform.sta_identifier == platform_sta_identifier) \
@ -84,6 +88,7 @@ def main():
pg_session.commit() pg_session.commit()
pg_session.close() pg_session.close()
def create_observations(sensor: str, slope_dataset: Dataset): def create_observations(sensor: str, slope_dataset: Dataset):
''' create_observations method for given sensor ''' ''' create_observations method for given sensor '''
@ -93,7 +98,7 @@ def create_observations(sensor: str, slope_dataset: Dataset):
# consider the start date as 2021-february 1 st # consider the start date as 2021-february 1 st
start_date = date(2022, 1, 1) start_date = date(2022, 1, 1)
# consider the end date as 2021-march 1 st # consider the end date as 2021-march 1 st
end_date = date(2022, 3, 3) end_date = date(2022, 3, 6)
# delta time # delta time
delta = timedelta(days=7) delta = timedelta(days=7)
@ -108,7 +113,8 @@ def create_observations(sensor: str, slope_dataset: Dataset):
if end_date_temp > end_date: if end_date_temp > end_date:
end_date_temp = end_date end_date_temp = end_date
query_date_end: str = end_date_temp.strftime('%Y-%m-%d') query_date_end: str = end_date_temp.strftime('%Y-%m-%d')
create_db_observations(sensor, query_date_start, query_date_end, test_api, pg_session, slope_dataset) create_db_observations(
sensor, query_date_start, query_date_end, test_api, pg_session, slope_dataset)
# for next loop step set new start_date (1 day greate then last end_date) # for next loop step set new start_date (1 day greate then last end_date)
start_date = end_date_temp + timedelta(days=1) start_date = end_date_temp + timedelta(days=1)
pg_session.commit() pg_session.commit()
@ -136,7 +142,8 @@ def create_observations(sensor: str, slope_dataset: Dataset):
# pg_session.commit() # pg_session.commit()
def create_db_observations(sensor, query_date_start, query_date_end, test_api, pg_session, dataset: Dataset): def create_db_observations(sensor, query_date_start, query_date_end, test_api,
pg_session, dataset: Dataset):
''' to do ''' ''' to do '''
query_date_start_obj = datetime.strptime(query_date_start, "%Y-%m-%d") query_date_start_obj = datetime.strptime(query_date_start, "%Y-%m-%d")
query_date_end_obj = datetime.strptime(query_date_end, "%Y-%m-%d") query_date_end_obj = datetime.strptime(query_date_end, "%Y-%m-%d")
@ -169,14 +176,16 @@ def create_db_observations(sensor, query_date_start, query_date_end, test_api,
max_id = create_observation( max_id = create_observation(
observation_json, pg_session, max_id, dataset, value_identifier_db_list) observation_json, pg_session, max_id, dataset, value_identifier_db_list)
# pg_session.commit() # pg_session.commit()
print("observations for date " + query_date_start + " to " + query_date_end + " succesfully imported \n") print("observations for date " + query_date_start +
" to " + query_date_end + " for sensor " + sensor + " succesfully imported \n")
def create_observation(observation_json: ObservationSchema, db_session, max_id, dataset: Dataset, value_identifier_db_list): def create_observation(observation_json: ObservationSchema, db_session,
max_id, dataset: Dataset, value_identifier_db_list):
""" """
This function creates a new observation in the people structure This function creates a new observation in the people structure
based on the passed-in observation data based on the passed-in observation data
:param observation: person to create in people structure :param observation: observation to create in people structure
:return: 201 on success, observation on person exists :return: 201 on success, observation on person exists
""" """
@ -259,4 +268,7 @@ def create(person_json: PersonSchema):
if __name__ == "__main__": if __name__ == "__main__":
load_dotenv(find_dotenv())
print('sensors: {}'.format(os.environ.get(
'GLASFASER_GSCHLIEFGRABEN_SENSORS', [])))
main() main()

5
gschliefgraben_glasfaser/models.py
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@ -10,12 +10,13 @@ from datetime import datetime
import os import os
from sqlalchemy import (Column, Integer, from sqlalchemy import (Column, Integer,
String, DateTime, ForeignKey, Numeric, SmallInteger, create_engine, func) String, DateTime, ForeignKey, Numeric, SmallInteger, create_engine)
from sqlalchemy.ext.declarative import declarative_base from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy.orm import session, relationship, sessionmaker from sqlalchemy.orm import session, relationship, sessionmaker
#from marshmallow import Schema #from marshmallow import Schema
from marshmallow_sqlalchemy import SQLAlchemySchema, SQLAlchemyAutoSchema from marshmallow_sqlalchemy import SQLAlchemySchema, SQLAlchemyAutoSchema
from marshmallow import fields from marshmallow import fields
from dotenv import load_dotenv, find_dotenv
# from db.pg_models import create_pg_session # from db.pg_models import create_pg_session
# import sqlalchemy.orm.session # import sqlalchemy.orm.session
@ -24,6 +25,7 @@ Base = declarative_base()
def create_pg_session() -> sessionmaker: def create_pg_session() -> sessionmaker:
""" create postgres db session """ """ create postgres db session """
load_dotenv(find_dotenv())
dbschema = '' dbschema = ''
db_user = os.environ.get("POSTGIS_DBUSER") db_user = os.environ.get("POSTGIS_DBUSER")
db_password = os.environ.get("POSTGIS_DBPASSWORD") db_password = os.environ.get("POSTGIS_DBPASSWORD")
@ -226,6 +228,7 @@ def create_db():
# Base.metadata.drop_all(bind=engine) # Base.metadata.drop_all(bind=engine)
# Base.metadata.create_all(engine) # Base.metadata.create_all(engine)
""" create postgres db session """ """ create postgres db session """
load_dotenv("D:\\Software\\geomon\\.env")
dbschema = '' dbschema = ''
db_user = os.environ.get("POSTGIS_DBUSER") db_user = os.environ.get("POSTGIS_DBUSER")
db_password = os.environ.get("POSTGIS_DBPASSWORD") db_password = os.environ.get("POSTGIS_DBPASSWORD")

31
gschliefgraben_glasfaser/update_daily_cron.py
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@ -5,14 +5,19 @@ Sqlalchemy version: 1.2.15
Python version: 3.10 Python version: 3.10
''' '''
import os, json import os
import json
import uuid import uuid
from datetime import datetime
from dotenv import load_dotenv, find_dotenv
from sqlalchemy.orm import session from sqlalchemy.orm import session
from sqlalchemy import func, asc, desc from sqlalchemy import func, asc, desc
# from db.pg_models import Platform # from db.pg_models import Platform
from gschliefgraben_glasfaser.models import ObservationSchema, Observation, create_pg_session, Dataset, Procedure, Phenomenon, Platform from gschliefgraben_glasfaser.models import (
ObservationSchema, Observation, create_pg_session,
Dataset, Procedure, Phenomenon, Platform)
from gschliefgraben_glasfaser.my_api import MyApi from gschliefgraben_glasfaser.my_api import MyApi
from datetime import datetime
def main(): def main():
''' main method ''' ''' main method '''
@ -32,7 +37,8 @@ def main():
Phenomenon.sta_identifier == "Slope").first() Phenomenon.sta_identifier == "Slope").first()
if not slope_dataset: if not slope_dataset:
print("Sensor " + sensor + " ist noch nicht angelegt!") print("Sensor " + sensor + " ist noch nicht angelegt!")
exit() # exit()
continue
if not slope_dataset.is_published: if not slope_dataset.is_published:
slope_dataset.is_published = 1 slope_dataset.is_published = 1
slope_dataset.is_hidden = 0 slope_dataset.is_hidden = 0
@ -42,7 +48,7 @@ def main():
pg_session.commit() pg_session.commit()
platform_exists: bool = pg_session.query(Platform.id).filter_by( platform_exists: bool = pg_session.query(Platform.id).filter_by(
sta_identifier = platform_sta_identifier).scalar() is not None sta_identifier=platform_sta_identifier).scalar() is not None
if platform_exists: if platform_exists:
sensor_platform = pg_session.query(Platform.id) \ sensor_platform = pg_session.query(Platform.id) \
.filter(Platform.sta_identifier == platform_sta_identifier) \ .filter(Platform.sta_identifier == platform_sta_identifier) \
@ -86,9 +92,11 @@ def create_observations(sensor: str, slope_dataset: Dataset):
# consider the start date as 2021-february 1 st # consider the start date as 2021-february 1 st
start_date = datetime.today() start_date = datetime.today()
query_date = start_date.strftime('%Y-%m-%d') query_date = start_date.strftime('%Y-%m-%d')
create_db_observations(sensor, query_date, test_api, pg_session, slope_dataset) create_db_observations(sensor, query_date, test_api,
pg_session, slope_dataset)
pg_session.commit() pg_session.commit()
def create_db_observations(sensor: str, query_date, test_api, pg_session, dataset: Dataset): def create_db_observations(sensor: str, query_date, test_api, pg_session, dataset: Dataset):
''' to do ''' ''' to do '''
query_date_obj = datetime.strptime(query_date, "%Y-%m-%d") query_date_obj = datetime.strptime(query_date, "%Y-%m-%d")
@ -113,7 +121,8 @@ def create_db_observations(sensor: str, query_date, test_api, pg_session, datase
max_id = create_observation( max_id = create_observation(
observation_json, pg_session, max_id, dataset) observation_json, pg_session, max_id, dataset)
# pg_session.commit() # pg_session.commit()
print("observations for date " + query_date + " succesfully imported \n") print("observations for date " + query_date + " and sensor " + sensor +
" succesfully imported \n")
def create_observation(observation_json: ObservationSchema, db_session, max_id, dataset: Dataset): def create_observation(observation_json: ObservationSchema, db_session, max_id, dataset: Dataset):
@ -142,8 +151,8 @@ def create_observation(observation_json: ObservationSchema, db_session, max_id,
new_observation: Observation = schema.load(observation_json) new_observation: Observation = schema.load(observation_json)
new_observation.id = max_id new_observation.id = max_id
new_observation.sta_identifier = str(uuid.uuid4()) new_observation.sta_identifier = str(uuid.uuid4())
new_observation.sampling_time_start=new_observation.result_time new_observation.sampling_time_start = new_observation.result_time
new_observation.sampling_time_end=new_observation.result_time new_observation.sampling_time_end = new_observation.result_time
new_observation.fk_dataset_id = dataset.id new_observation.fk_dataset_id = dataset.id
# Add the person to the database # Add the person to the database
@ -160,5 +169,9 @@ def create_observation(observation_json: ObservationSchema, db_session, max_id,
print(409, f'Observation {ob_id} exists already') print(409, f'Observation {ob_id} exists already')
return max_id return max_id
if __name__ == "__main__": if __name__ == "__main__":
load_dotenv(find_dotenv())
print('sensors: {}'.format(os.environ.get(
'GLASFASER_GSCHLIEFGRABEN_SENSORS', [])))
main() main()

6
insert_sensor/__init__.py
View File

@ -1,2 +1,4 @@
# For relative imports to work in Python 3.6 ''' For relative imports to work in Python 3.6 '''
import os, sys; sys.path.append(os.path.dirname(os.path.realpath(__file__))) import os
import sys
sys.path.append(os.path.dirname(os.path.realpath(__file__)))

16
insert_sensor/transactional.py
View File

@ -32,9 +32,9 @@ def insert_sensor(offering, procedure, foi, sensor_type):
if foi is not None: # check if feature of interest should be declare if foi is not None: # check if feature of interest should be declare
# feature_id = 'https://geomon.geologie.ac.at/52n-sos-webapp/api/features/' + \ # feature_id = 'https://geomon.geologie.ac.at/52n-sos-webapp/api/features/' + \
# str(foi.fid) # URL format # str(foi.fid) # URL format
cordX = str(foi.x) # longitude degrees, float cord_x = str(foi.x) # longitude degrees, float
cordY = str(foi.y) # latitude degrees, float cord_y = str(foi.y) # latitude degrees, float
coordinates = cordX + " " + cordY coordinates = cord_x + " " + cord_y
height = str(foi.z) # altitude in meters, float height = str(foi.z) # altitude in meters, float
# h_unit = foi.Hunit # units for horizontal coordinates # h_unit = foi.Hunit # units for horizontal coordinates
# z_unit = foi.Vunit # units for altitude # z_unit = foi.Vunit # units for altitude
@ -49,14 +49,14 @@ def insert_sensor(offering, procedure, foi, sensor_type):
output_list = '' # output list element for describe procedure output_list = '' # output list element for describe procedure
properties_list = [] properties_list = []
for a in sensor_type.pattern["attributes"]: for a in sensor_type.pattern["attributes"]:
ObsPropName = '\"' + a[0] + '\"' # attribute name obs_prop_name = '\"' + a[0] + '\"' # attribute name
# print(ObsPropName) # print(obs_prop_name)
unit_name = sensor_type.om_types[a[1]] # om type unit_name = sensor_type.om_types[a[1]] # om type
# magnitud = a # ?? # magnitud = a # ??
obs_name = ObsPropName.replace('\"', '') obs_name = obs_prop_name.replace('\"', '')
obs_name = "".join(obs_name.split()) # observable property name obs_name = "".join(obs_name.split()) # observable property name
output = '<sml:output name=' + ObsPropName + '><swe:Quantity definition=' + \ output = '<sml:output name=' + obs_prop_name + '><swe:Quantity definition=' + \
'\"' + (obs_name) + '\"' + \ '\"' + (obs_name) + '\"' + \
'></swe:Quantity></sml:output>' '></swe:Quantity></sml:output>'
output_list = output_list + output output_list = output_list + output
@ -79,7 +79,7 @@ def insert_sensor(offering, procedure, foi, sensor_type):
"service": "SOS", "service": "SOS",
"version": "2.0.0", "version": "2.0.0",
"procedureDescriptionFormat": "http://www.opengis.net/sensorml/2.0", "procedureDescriptionFormat": "http://www.opengis.net/sensorml/2.0",
"procedureDescription": f'<sml:PhysicalSystem gml:id={off_name} xmlns:swes=\"http://www.opengis.net/swes/2.0\" xmlns:sos=\"http://www.opengis.net/sos/2.0\" xmlns:swe=\"http://www.opengis.net/swe/2.0\" xmlns:sml=\"http://www.opengis.net/sensorml/2.0\" xmlns:gml=\"http://www.opengis.net/gml/3.2\" xmlns:xlink=\"http://www.w3.org/1999/xlink\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" xmlns:gco=\"http://www.isotc211.org/2005/gco\" xmlns:gmd=\"http://www.isotc211.org/2005/gmd\"><gml:identifier codeSpace=\"uniqueID\">{procedure_identifier}</gml:identifier><sml:identification><sml:IdentifierList><sml:identifier><sml:Term definition=\"urn:ogc:def:identifier:OGC:1.0:shortName\"><sml:label>shortName</sml:label><sml:value>{procedure_name}</sml:value></sml:Term></sml:identifier></sml:IdentifierList></sml:identification><sml:capabilities name=\"offerings\"><sml:CapabilityList><sml:capability name=\"offeringID\"><swe:Text definition=\"urn:ogc:def:identifier:OGC:offeringID\"><swe:label>{offering_label}</swe:label><swe:value>{offering_name}</swe:value></swe:Text></sml:capability></sml:CapabilityList></sml:capabilities><sml:featuresOfInterest><sml:FeatureList definition=\"http://www.opengis.net/def/featureOfInterest/identifier\"><swe:label>featuresOfInterest</swe:label><sml:feature><sams:SF_SpatialSamplingFeature xmlns:sams=\"http://www.opengis.net/samplingSpatial/2.0\" gml:id=\"ssf_b3a826dd44012201b01323232323041f7a92e0cc47260eb9888f6a4e9f747\"><gml:identifier codeSpace=\"http://www.opengis.net/def/nil/OGC/0/unknown\">{feature_id}</gml:identifier><gml:name codeSpace=\"http://www.opengis.net/def/nil/OGC/0/unknown\">{feature_name}</gml:name><sf:type xmlns:sf=\"http://www.opengis.net/sampling/2.0\" xlink:href=\"http://www.opengis.net/def/samplingFeatureType/OGC-OM/2.0/SF_SamplingPoint\"/><sf:sampledFeature xmlns:sf=\"http://www.opengis.net/sampling/2.0\" xlink:href=\"http://www.opengis.net/def/nil/OGC/0/unknown\"/><sams:shape><ns:Point xmlns:ns=\"http://www.opengis.net/gml/3.2\" ns:id=\"Point_ssf_b3a826dd44012201b013c90c51da28c041f7a92e0cc47260eb9888f6a4e9f747\"><ns:pos srsName=\"http://www.opengis.net/def/crs/EPSG/0/4326\">{coordinates}</ns:pos></ns:Point></sams:shape></sams:SF_SpatialSamplingFeature></sml:feature></sml:FeatureList></sml:featuresOfInterest><sml:outputs><sml:OutputList><sml:output name=\"Slope\"><swe:Quantity definition=\"Slope\"><swe:label>Slope</swe:label><swe:uom code=\"deg\"/></swe:Quantity></sml:output></sml:OutputList></sml:outputs><sml:position><swe:Vector referenceFrame=\"urn:ogc:def:crs:EPSG::4326\"><swe:coordinate name=\"easting\"><swe:Quantity axisID=\"x\"><swe:uom code=\"degree\" /><swe:value>{cordX}</swe:value></swe:Quantity></swe:coordinate><swe:coordinate name=\"northing\"><swe:Quantity axisID=\"y\"><swe:uom code=\"degree\" /><swe:value>{cordY}</swe:value></swe:Quantity></swe:coordinate><swe:coordinate name=\"altitude\"><swe:Quantity axisID=\"z\"><swe:uom code=\"m\" /><swe:value>{height}</swe:value></swe:Quantity></swe:coordinate></swe:Vector></sml:position></sml:PhysicalSystem>', "procedureDescription": f'<sml:PhysicalSystem gml:id={off_name} xmlns:swes=\"http://www.opengis.net/swes/2.0\" xmlns:sos=\"http://www.opengis.net/sos/2.0\" xmlns:swe=\"http://www.opengis.net/swe/2.0\" xmlns:sml=\"http://www.opengis.net/sensorml/2.0\" xmlns:gml=\"http://www.opengis.net/gml/3.2\" xmlns:xlink=\"http://www.w3.org/1999/xlink\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" xmlns:gco=\"http://www.isotc211.org/2005/gco\" xmlns:gmd=\"http://www.isotc211.org/2005/gmd\"><gml:identifier codeSpace=\"uniqueID\">{procedure_identifier}</gml:identifier><sml:identification><sml:IdentifierList><sml:identifier><sml:Term definition=\"urn:ogc:def:identifier:OGC:1.0:shortName\"><sml:label>shortName</sml:label><sml:value>{procedure_name}</sml:value></sml:Term></sml:identifier></sml:IdentifierList></sml:identification><sml:capabilities name=\"offerings\"><sml:CapabilityList><sml:capability name=\"offeringID\"><swe:Text definition=\"urn:ogc:def:identifier:OGC:offeringID\"><swe:label>{offering_label}</swe:label><swe:value>{offering_name}</swe:value></swe:Text></sml:capability></sml:CapabilityList></sml:capabilities><sml:featuresOfInterest><sml:FeatureList definition=\"http://www.opengis.net/def/featureOfInterest/identifier\"><swe:label>featuresOfInterest</swe:label><sml:feature><sams:SF_SpatialSamplingFeature xmlns:sams=\"http://www.opengis.net/samplingSpatial/2.0\" gml:id=\"ssf_b3a826dd44012201b01323232323041f7a92e0cc47260eb9888f6a4e9f747\"><gml:identifier codeSpace=\"http://www.opengis.net/def/nil/OGC/0/unknown\">{feature_id}</gml:identifier><gml:name codeSpace=\"http://www.opengis.net/def/nil/OGC/0/unknown\">{feature_name}</gml:name><sf:type xmlns:sf=\"http://www.opengis.net/sampling/2.0\" xlink:href=\"http://www.opengis.net/def/samplingFeatureType/OGC-OM/2.0/SF_SamplingPoint\"/><sf:sampledFeature xmlns:sf=\"http://www.opengis.net/sampling/2.0\" xlink:href=\"http://www.opengis.net/def/nil/OGC/0/unknown\"/><sams:shape><ns:Point xmlns:ns=\"http://www.opengis.net/gml/3.2\" ns:id=\"Point_ssf_b3a826dd44012201b013c90c51da28c041f7a92e0cc47260eb9888f6a4e9f747\"><ns:pos srsName=\"http://www.opengis.net/def/crs/EPSG/0/4326\">{coordinates}</ns:pos></ns:Point></sams:shape></sams:SF_SpatialSamplingFeature></sml:feature></sml:FeatureList></sml:featuresOfInterest><sml:outputs><sml:OutputList><sml:output name=\"Slope\"><swe:Quantity definition=\"Slope\"><swe:label>Slope</swe:label><swe:uom code=\"deg\"/></swe:Quantity></sml:output></sml:OutputList></sml:outputs><sml:position><swe:Vector referenceFrame=\"urn:ogc:def:crs:EPSG::4326\"><swe:coordinate name=\"easting\"><swe:Quantity axisID=\"x\"><swe:uom code=\"degree\" /><swe:value>{cord_x}</swe:value></swe:Quantity></swe:coordinate><swe:coordinate name=\"northing\"><swe:Quantity axisID=\"y\"><swe:uom code=\"degree\" /><swe:value>{cord_y}</swe:value></swe:Quantity></swe:coordinate><swe:coordinate name=\"altitude\"><swe:Quantity axisID=\"z\"><swe:uom code=\"m\" /><swe:value>{height}</swe:value></swe:Quantity></swe:coordinate></swe:Vector></sml:position></sml:PhysicalSystem>',
"observableProperty": [ "observableProperty": [
"Slope", "Slope",
"Roll", "Roll",

BIN
requirements.txt
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