From c3175e27224ec825cb32253a86ec7cdeaaac2ce4 Mon Sep 17 00:00:00 2001
From: Arno Kaimbacher <arno.kaimbacher@hotmail.de>
Date: Thu, 14 Apr 2022 14:10:19 +0200
Subject: [PATCH] - add sensors and observations for ampflwang KB2

---
 .../import_observations_ampfwang_kb1.py       |  12 +-
 .../import_observations_ampfwang_kb2.py       | 325 ++++++++++++++++++
 .../import_sensors_ampflwang_kb2.py           | 209 +++++++++++
 3 files changed, 545 insertions(+), 1 deletion(-)
 create mode 100644 automatic_inclinometer/import_observations_ampfwang_kb2.py
 create mode 100644 automatic_inclinometer/insert_sensors/import_sensors_ampflwang_kb2.py

diff --git a/automatic_inclinometer/import_observations_ampfwang_kb1.py b/automatic_inclinometer/import_observations_ampfwang_kb1.py
index da24603..76fcabc 100644
--- a/automatic_inclinometer/import_observations_ampfwang_kb1.py
+++ b/automatic_inclinometer/import_observations_ampfwang_kb1.py
@@ -1,4 +1,14 @@
-""" import firebird, export to postgresql """
+""" import firebird, export to postgresql:
+SELECT dataset_id, dataset_type, observation_type, value_type, fk_procedure_id, fk_phenomenon_id,
+fk_offering_id, fk_category_id, fk_feature_id, fk_platform_id, fk_format_id, fk_unit_id,
+is_deleted, is_disabled, is_published, is_mobile, is_insitu, is_hidden, origin_timezone,
+first_time, last_time, first_value, last_value, fk_first_observation_id, fk_last_observation_id,
+decimals, identifier, fk_identifier_codespace_id, name, fk_name_codespace_id, description,
+fk_value_profile_id
+	FROM gba.dataset
+	where fk_platform_id = 6 and fk_feature_id = 43
+	ORDER BY dataset_id ASC;
+ """
 #!/usr/bin/python# -*- coding: utf-8 -*-
 
 import os
diff --git a/automatic_inclinometer/import_observations_ampfwang_kb2.py b/automatic_inclinometer/import_observations_ampfwang_kb2.py
new file mode 100644
index 0000000..c25f7c8
--- /dev/null
+++ b/automatic_inclinometer/import_observations_ampfwang_kb2.py
@@ -0,0 +1,325 @@
+""" import firebird, export to postgresql;
+SELECT dataset_id, dataset_type, observation_type, value_type, fk_procedure_id, fk_phenomenon_id,
+fk_offering_id, fk_category_id, fk_feature_id, fk_platform_id, fk_format_id, fk_unit_id,
+is_deleted, is_disabled, is_published, is_mobile, is_insitu, is_hidden, origin_timezone,
+first_time, last_time, first_value, last_value, fk_first_observation_id, fk_last_observation_id,
+decimals, identifier, fk_identifier_codespace_id, name, fk_name_codespace_id, description,
+fk_value_profile_id
+	FROM gba.dataset
+	where fk_platform_id = 6 and fk_feature_id = 43
+	ORDER BY dataset_id ASC;
+ """
+#!/usr/bin/python# -*- coding: utf-8 -*-
+
+import os
+import time
+from typing import List
+from itertools import chain
+import uuid
+import json
+from dotenv import load_dotenv, find_dotenv
+from sqlalchemy.orm import session
+from sqlalchemy import asc, desc
+# from sqlalchemy.dialects import firebird
+from sqlalchemy.sql import or_
+from db.fb_models import (create_session, FbObservation, Catena)
+from db.models import (create_pg_session, Dataset,
+                       Observation, Procedure, Phenomenon, Platform, Format)
+
+
+def main():
+    """
+    Main function.
+    """
+
+    #sensor_id = 0
+    # name of project area in firebird db
+    feature_of_interest = 'GSA02B-007-1210' # KB2
+    #'GSA02A-010-1210' # Ampflwang KB1
+    # sensor name in postgis db
+    # sensor = 'wolfsegg_kb1_0'
+    platform = 'ampflwang_inclinometer'
+
+    sensor_env_list = os.getenv('AMPFLWANG_KB2_SENSORS').replace('\n', '')
+    sensor_list = json.loads(sensor_env_list)
+    # print(sensor_list)
+    firebird_session: session = create_session()
+    # this will print elements along with their index value
+    for sensor_id, sensor in enumerate(sensor_list):
+
+        # db_observation = session.query(Observation) \
+        # .filter_by(name='John Snow').first()
+        query_count = firebird_session.query(FbObservation).join(FbObservation.catena) \
+            .filter(FbObservation.sensore == sensor_id) \
+            .filter(Catena.name == feature_of_interest) \
+            .filter(
+                or_(
+                    FbObservation.temperature != None,
+                    FbObservation.pitch != None  # this is used to check NULL values
+                )) \
+            .count()
+        # if query_count == 0:
+        #     print(f"sensor {sensor} "
+        #           f"doesn't have any observations with measured values in firebird database!")
+        #     # hop to next for iteration, next sensor in list
+        #     continue
+        # test = query_count.statement.compile(dialect=firebird.dialect())
+
+        firebird_observations: List[FbObservation] = []
+        if query_count > 0:
+            query = firebird_session.query(FbObservation).join(FbObservation.catena) \
+                .filter(FbObservation.sensore == sensor_id) \
+                .filter(Catena.name == feature_of_interest)
+            # print (query.statement.compile(dialect=firebird.dialect()))
+            firebird_observations: List[FbObservation] = query.all()
+        firebird_session.close()
+
+        pg_session: session = create_pg_session()
+        # pg_datasets: List[Dataset] = pg_query.all()
+        pg_query = pg_session.query(Dataset) \
+            .join(Procedure) \
+            .join(Phenomenon) \
+            .filter(Procedure.sta_identifier == sensor.lower())
+        # .join(Platform).all() \
+
+        roll_dataset: Dataset = pg_query.filter(
+            Phenomenon.sta_identifier == "Roll").first()
+
+        slope_dataset: Dataset = pg_query.filter(
+            Phenomenon.sta_identifier == "Slope").first()
+
+        temperature_dataset: Dataset = pg_query.filter(
+            Phenomenon.sta_identifier == "InSystemTemperature").first()
+
+        platform_exists = pg_session.query(Platform.id).filter_by(
+            name=platform.lower()).scalar() is not None
+        if not platform_exists:
+            sensor_platform = Platform()
+            sensor_platform.sta_identifier = platform.lower()
+            sensor_platform.identifier = platform.lower()
+            sensor_platform.name = platform.lower()
+            slope_dataset.platform = sensor_platform
+            roll_dataset.platform = sensor_platform
+            temperature_dataset.platform = sensor_platform
+        else:
+            sensor_platform = pg_session.query(Platform.id) \
+                .filter(Platform.name == platform.lower()) \
+                .first()
+            slope_dataset.fk_platform_id = sensor_platform.id
+            roll_dataset.fk_platform_id = sensor_platform.id
+            temperature_dataset.fk_platform_id = sensor_platform.id
+
+        # commit dataset changes:
+        pg_session.commit()
+
+        format_exists: bool = pg_session.query(Format.id).filter_by(
+            definition="http://www.opengis.net/def/observationType/OGC-OM/2.0/OM_Measurement"
+        ).scalar() is not None
+        if format_exists:
+            sensor_format = pg_session.query(Format.id) \
+                .filter(Format.definition ==
+                        "http://www.opengis.net/def/observationType/OGC-OM/2.0/OM_Measurement") \
+                .first()
+            slope_dataset.fk_format_id = sensor_format.id
+            roll_dataset.fk_format_id = sensor_format.id
+            temperature_dataset.fk_format_id = sensor_format.id
+        pg_session.commit()
+
+        if query_count == 0:
+            print(f"sensor {sensor} "
+                  f"doesn't have any observations with measured values in firebird database!")
+            # hop to next for iteration, next sensor in list, don't insert any observations
+            continue
+
+        create_db_observations(firebird_observations, roll_dataset,
+                               slope_dataset, temperature_dataset, pg_session)
+
+        # commit new observations:
+        pg_session.commit()
+
+        if len(roll_dataset.observations) > 0:
+            # if not published yet, publish the roll dataset
+            if not roll_dataset.is_published:
+                roll_dataset.is_published = 1
+                roll_dataset.is_hidden = 0
+                roll_dataset.dataset_type = "timeseries"
+                roll_dataset.observation_type = "simple"
+                roll_dataset.value_type = "quantity"
+
+        if len(slope_dataset.observations) > 0:
+            # if not published yet, publish the roll dataset
+            if not slope_dataset.is_published:
+                slope_dataset.is_published = 1
+                slope_dataset.is_hidden = 0
+                slope_dataset.dataset_type = "timeseries"
+                slope_dataset.observation_type = "simple"
+                slope_dataset.value_type = "quantity"
+
+        if len(temperature_dataset.observations) > 0:
+            # if not published yet, publish the temperature dataset
+            if not temperature_dataset.is_published:
+                temperature_dataset.is_published = 1
+                temperature_dataset.is_hidden = 0
+                temperature_dataset.dataset_type = "timeseries"
+                temperature_dataset.observation_type = "simple"
+                temperature_dataset.value_type = "quantity"
+        pg_session.commit()
+
+        last_roll_observation = pg_session.query(Observation) \
+            .filter(Observation.fk_dataset_id == roll_dataset.id) \
+            .order_by(desc('sampling_time_start')) \
+            .first()
+        if last_roll_observation is not None:
+            roll_dataset.last_time = last_roll_observation.sampling_time_start
+            roll_dataset.last_value = last_roll_observation.value_quantity
+            roll_dataset.fk_last_observation_id = last_roll_observation.id
+
+        last_slope_observation = pg_session.query(Observation) \
+            .filter(Observation.fk_dataset_id == slope_dataset.id) \
+            .order_by(desc('sampling_time_start')) \
+            .first()
+        if last_slope_observation is not None:
+            slope_dataset.last_time = last_slope_observation.sampling_time_start
+            slope_dataset.last_value = last_slope_observation.value_quantity
+            slope_dataset.fk_last_observation_id = last_slope_observation.id
+
+        last_temperature_observation = pg_session.query(Observation) \
+            .filter(Observation.fk_dataset_id == temperature_dataset.id) \
+            .order_by(desc('sampling_time_start')) \
+            .first()
+        if last_temperature_observation is not None:
+            temperature_dataset.last_time = last_temperature_observation.sampling_time_start
+            temperature_dataset.last_value = last_temperature_observation.value_quantity
+            temperature_dataset.fk_last_observation_id = last_temperature_observation.id
+
+        first_roll_observation = pg_session.query(Observation) \
+            .filter(Observation.fk_dataset_id == roll_dataset.id) \
+            .order_by(asc('sampling_time_start')) \
+            .first()
+        if first_roll_observation is not None:
+            roll_dataset.first_time = first_roll_observation.sampling_time_start
+            roll_dataset.first_value = first_roll_observation.value_quantity
+            roll_dataset.fk_first_observation_id = first_roll_observation.id
+
+        first_slope_observation = pg_session.query(Observation) \
+            .filter(Observation.fk_dataset_id == slope_dataset.id) \
+            .order_by(asc('sampling_time_start')) \
+            .first()
+        if first_slope_observation is not None:
+            slope_dataset.first_time = first_slope_observation.sampling_time_start
+            slope_dataset.first_value = first_slope_observation.value_quantity
+            slope_dataset.fk_first_observation_id = first_slope_observation.id
+
+        first_temperature_observation = pg_session.query(Observation) \
+            .filter(Observation.fk_dataset_id == temperature_dataset.id) \
+            .order_by(asc('sampling_time_start')) \
+            .first()
+        if first_temperature_observation is not None:
+            temperature_dataset.first_time = first_temperature_observation.sampling_time_start
+            temperature_dataset.first_value = first_temperature_observation.value_quantity
+            temperature_dataset.fk_first_observation_id = first_temperature_observation.id
+        pg_session.commit()
+
+    # for loop sensors end
+    pg_session.close()
+    # firebird_session.close()
+
+
+def create_db_observations(firebird_observations: List[FbObservation],
+                           roll_dataset: Dataset,
+                           slope_dataset: Dataset,
+                           temperature_dataset: Dataset,
+                           pg_session: session):
+    ''' insert new observations ito db '''
+    roll_result = (
+        pg_session.query(Observation.result_time)
+        .filter(Observation.fk_dataset_id == roll_dataset.id)
+        .all()
+    )
+    roll_result_time_db_list1: List[str] = list(chain(*roll_result))
+    roll_result_time_db_list: List[float] = [time.mktime(
+        date_obj.timetuple()) for date_obj in roll_result_time_db_list1]
+
+    slope_result = (
+        pg_session.query(Observation.result_time)
+        .filter(Observation.fk_dataset_id == slope_dataset.id)
+        .all()
+    )
+    slope_result_time_db_list1: List[str] = list(chain(*slope_result))
+    slope_result_time_db_list: List[float] = [time.mktime(
+        date_obj.timetuple()) for date_obj in slope_result_time_db_list1]
+
+    temperature_result = (
+        pg_session.query(Observation.result_time)
+        .filter(Observation.fk_dataset_id == temperature_dataset.id)
+        .all()
+    )
+    temperature_result_time_db_list1: List[str] = list(
+        chain(*temperature_result))
+    temperature_result_time_db_list: List[float] = [time.mktime(
+        date_obj.timetuple()) for date_obj in temperature_result_time_db_list1]
+
+    for fb_observation in firebird_observations:
+        # print(fb_observation.catena.name)
+        if(fb_observation.roll is not None and roll_dataset is not None):
+            value = fb_observation.roll
+            add_observation(roll_dataset, fb_observation,
+                            value, roll_result_time_db_list)
+
+        if(fb_observation.pitch is not None and slope_dataset is not None):
+            # max_id = max_id + 1
+            value = fb_observation.pitch
+            add_observation(slope_dataset, fb_observation,
+                            value, slope_result_time_db_list)
+
+        if(fb_observation.temperature is not None and temperature_dataset is not None):
+            # max_id = max_id + 1
+            value = fb_observation.temperature
+            add_observation(temperature_dataset, fb_observation,
+                            value, temperature_result_time_db_list)
+
+
+def add_observation(
+        dataset: Dataset,
+        fb_observation: FbObservation,
+        value: str,
+        value_identifier_db_list: List[float]):
+    ''' check if observation still extists in db,
+    otherwise add it to fb'''
+    # ob_id: str = str(observation_json.get('id'))
+
+    # existing_observation: bool = (
+    #     db_session.query(Observation)
+    #     .filter(Observation.result_time == fb_observation.result_time,
+    #     Observation.fk_dataset_id == dataset.id)
+    #     .one_or_none()
+    # )
+    existing_observation: bool = time.mktime(
+        fb_observation.result_time.timetuple()) in value_identifier_db_list
+    # Can we insert this observation?
+    if existing_observation is False:
+        # insert bew observation
+        new_observation: Observation = Observation()
+        new_observation = Observation(
+            # id=max_id,
+            value_type='quantity',
+            sampling_time_start=fb_observation.result_time,
+            sampling_time_end=fb_observation.result_time,
+            result_time=fb_observation.result_time,
+            sta_identifier=str(uuid.uuid4()),
+            value_identifier=str(time.mktime(
+                fb_observation.result_time.timetuple())),
+            value_quantity=value
+        )
+        dataset.observations.append(new_observation)
+        print(f"new observation with result time {new_observation.result_time} "
+              f"for inclinometer {dataset.procedure.name} succesfully imported!")
+    else:
+        print(f"observation with result time {fb_observation.result_time} "
+              f"for inclinometer {dataset.procedure.name} already exists!")
+
+
+# -----------------------------------------------------------------------------
+if __name__ == "__main__":
+    load_dotenv(find_dotenv())
+    main()
diff --git a/automatic_inclinometer/insert_sensors/import_sensors_ampflwang_kb2.py b/automatic_inclinometer/insert_sensors/import_sensors_ampflwang_kb2.py
new file mode 100644
index 0000000..23fe461
--- /dev/null
+++ b/automatic_inclinometer/insert_sensors/import_sensors_ampflwang_kb2.py
@@ -0,0 +1,209 @@
+# -*- coding: utf-8 -*-
+"""This module does blah blah."""
+
+from ast import List
+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")
+
+# Python3 code here creating class
+
+
+class Sensor:
+    """
+    A class to represent an input sensor.
+    ...
+
+    Attributes
+    ----------
+    name : str
+        first name of the person
+    x : float
+        token to access soso service
+    y : float
+        token to access soso service
+    """
+
+    def __init__(self, name: str, x_coord: float, y_coord: float):
+        self.name = name
+        self.x_coord = x_coord
+        self.y_coord = y_coord
+
+
+def main():
+    """
+    main function
+    """
+    sos_url = 'https://geomon.geologie.ac.at/52n-sos-webapp/service'
+
+    # creating list
+    sensor_list: List[Sensor] = []
+
+    # appending instances to list 	48.088,13.5583
+    sensor_list.append(
+        Sensor('ampflwang_kb2_0', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_1', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_2', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_3', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_4', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_5', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_6', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_7', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_8',13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_9', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_10', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_11', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_12', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_13', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_14', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_15', 13.5583, 48.088))
+    sensor_list.append(
+        Sensor('ampflwang_kb2_16', 13.5583, 48.088))
+
+    sensor: Sensor
+    for sensor in sensor_list:
+        # platform ampflwang_kb1_inclinometer
+        offering = Offering(
+            "https://geomon.geologie.ac.at/52n-sos-webapp/api/offerings/",
+            sensor.name,
+            "Bohrloch, Ampflwang Inklinometer"
+        )
+        procedure = Procedure(sensor.name, sensor.name)
+        foi = FoI("degree", "m", (sensor.x_coord, sensor.y_coord, 0.0),
+                "GSA02B-007-1210", "Ampflwang KB2")
+        # now insert sensor via rest service:
+        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)
+
+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
+    gml_id='\"' + str(procedure.id) + '\"'  # 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 = ""
+    # check if feature of interest should be declare
+    if foi is not None:
+        # 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={gml_id} 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:longName\"><sml:label>longName</sml:label><sml:value>{procedure_name}</sml:value></sml:Term></sml:identifier><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:capabilities name=\"metadata\"><sml:CapabilityList><!-- status indicates, whether sensor is insitu (true) or remote (false) --><sml:capability name=\"insitu\"><swe:Boolean definition=\"insitu\"><swe:value>true</swe:value></swe:Boolean></sml:capability><!-- status indicates, whether sensor is mobile (true) or fixed/stationary (false) --><sml:capability name=\"mobile\"><swe:Boolean definition=\"mobile\"><swe:value>false</swe:value></swe:Boolean></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:output name=\"Roll\"><swe:Quantity definition=\"Roll\"><swe:label>Roll</swe:label><swe:uom code=\"deg\"/></swe:Quantity></sml:output><sml:output name=\"InSystemTemperature\"><swe:Quantity definition=\"InSystemTemperature\"><swe:label>InSystemTemperature</swe:label><swe:uom code=\"degC\"/></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()