Exemplo n.º 1
0
def test_hent_observationer_naer_geometri(firedb: FireDb):
    go = firedb.hent_geometri_objekt(
        punktid="67e3987a-dc6b-49ee-8857-417ef35777af")
    os = firedb.hent_observationer_naer_geometri(go.geometri, 10000)
    assert len(os) == 68
    point = Geometry("POINT (10.2112609352788 56.1567354902778)")
    os = firedb.hent_observationer_naer_geometri(point, 100)
    assert len(os) == 6
    polygon = Geometry(("POLYGON ((10.209 56.155, "
                        "10.209 56.158, "
                        "10.215 56.158, "
                        "10.215 56.155, "
                        "10.209 56.155))"))
    os = firedb.hent_observationer_naer_geometri(polygon, 100)
    assert len(os) == 10
Exemplo n.º 2
0
def test_geometry():
    g_wkt = Geometry(WKT_POINT)

    assert g_wkt.wkt == WKT_POINT
    assert str(g_wkt) == WKT_POINT
    assert g_wkt.__geo_interface__ == DICT_POINT

    g_dict = Geometry(DICT_POINT)

    assert g_dict.wkt == WKT_POINT
    assert str(g_dict) == WKT_POINT
    assert g_dict.__geo_interface__ == DICT_POINT

    with pytest.raises(TypeError):
        Geometry([])
Exemplo n.º 3
0
def klargør_geometrifiler(geometrifiler: Iterable[str]) -> List[Geometry]:
    """
    Returnerer samlet liste med hvert lag i hver fil.

    Hver geometrifil kan have flere features eller lag.

    Åbn og konvertér indhold af geometrifiler.

    """
    klargjorte_geometrier: List[Geometry] = []
    for filnavn in geometrifiler:
        geometri_data = fiona.open(filnavn)

        # Validér
        crs = geometri_data.crs.get("init")
        if crs.upper() != SRID.WGS84:
            continue

        # Konvertér indhold til shapely-objekter
        delgeometrier = [
            geometry.shape(delgeometri.get("geometry"))
            for delgeometri in geometri_data
        ]
        # Opret Geometry-instanser
        klargjorte_geometrier.extend(
            [Geometry(dgb.wkt) for dgb in delgeometrier])
        geometri_data.close()

    return klargjorte_geometrier
Exemplo n.º 4
0
Arquivo: gama.py Projeto: TanyaPS/FIRE
def write(
    output,
    geometri,
    geometrifil,
    buffer,
    fra,
    til,
    fixpunkter,
    fixpunkterfil,
    parameterfil,
):
    """Create a gama input file"""
    writer = GamaWriter(firedb, output)

    g = None

    if geometrifil is None and geometri is None:
        writer.take_all_points()
    else:
        if geometri is not None:
            g = Geometry(geometri)
        else:
            wkt = geometrifil.read()
            g = Geometry(wkt)

        if fra is not None and til is not None:
            observations = firedb.hent_observationer_naer_geometri(
                g, buffer, fra, til)
        else:
            observations = firedb.hent_observationer_naer_geometri(g, buffer)
        writer.take_observations(observations)

    if fixpunkter is not None or fixpunkterfil is not None:
        if fixpunkter is not None:
            fixpunkter_literal = fixpunkter
        else:
            fixpunkter_literal = fixpunkterfil.read()

        fixpunkter_list = [
            pkt.strip() for pkt in fixpunkter_literal.split(",")
        ]
        writer.set_fixed_point_ids(fixpunkter_list)

    parameters = configparser.ConfigParser()
    parameters.read(parameterfil)
    writer.write(True, False, "Created by fire-gama", parameters)
Exemplo n.º 5
0
def test_naer_geometry(firedb: FireDb, tmp_path: Path):
    outfile = tmp_path / "near_geometry.xml"
    with open(outfile, "w") as output:
        writer = GamaWriter(firedb, output)

        g = Geometry("POINT (10.200000 56.100000)")
        observations = firedb.hent_observationer_naer_geometri(g, 10000)

        writer.take_observations(observations)

        parameters = configparser.ConfigParser()
        parameters.read("fire-gama.ini")
        writer.write(True, False, "test_near_geometry", parameters)
    os.remove(outfile)
Exemplo n.º 6
0
def polygoner(punkter: Iterable[Punkt], buffer: int) -> Iterator[Geometry]:
    """Returnerer en søgeklar liste med Geometry-instanser til søgning i databasen."""
    # Hent punkternes WGS84-koordinater:
    # Geometri-koordinaterne er altid i WGS84.
    koordinatsæt = (punkt.geometri.koordinater for punkt in punkter)

    # Opbyg geometri for punkt-koordinater til søgning.
    shapely_punkter = (geometry.Point(*koordinater)
                       for koordinater in koordinatsæt)

    # Lav den endelige søge-geometri ved at bruge den angivne buffer som
    # radius i en forsimplet cirkel (polygon) omkring koordinaterne.
    shapely_polygoner = (punkt.buffer(buffer) for punkt in shapely_punkter)

    # Tilføj polygonerne for de enkelte identer til geometrier, der skal søges i nærheden af.
    # Opret samtidig et geometri-objekt med hver søge-geometris Well-Known Text (WKT).
    return (Geometry(polygon.wkt) for polygon in shapely_polygoner)
Exemplo n.º 7
0
def test_naer_geometry_time_interval(firedb: FireDb, tmp_path: Path):
    outfile = tmp_path / "near_geometry_time_interval.xml"
    output = open(outfile, "w")
    writer = GamaWriter(firedb, output)

    g = Geometry("POINT (10.200000 56.100000)")
    observations = firedb.hent_observationer_naer_geometri(
        g, 10000, datetime.datetime(2015, 10, 8),
        datetime.datetime(2018, 10, 9))

    writer.take_observations(observations)

    parameters = configparser.ConfigParser()
    parameters.read("fire-gama.ini")
    writer.write(True, False, "test_near_geometry_time_interval", parameters)
    output.close
    os.remove(outfile)
Exemplo n.º 8
0
def test_in_polygon(firedb: FireDb, tmp_path: Path):
    outfile = tmp_path / "in_polygon.xml"
    with open(outfile, "w") as output:
        writer = GamaWriter(firedb, output)

        geometry = Geometry(("POLYGON ((10.209 56.155, "
                             "10.209 56.158, "
                             "10.215 56.158, "
                             "10.215 56.155, "
                             "10.209 56.155))"))
        observations = firedb.hent_observationer_naer_geometri(geometry, 5000)
        writer.take_observations(observations)

        writer.set_fixed_point_ids(["K-63-09946"])

        parameters = configparser.ConfigParser()
        parameters.read("fire-gama.ini")
        writer.write(True, False, "test_in_polygon", parameters)
    os.remove(outfile)
Exemplo n.º 9
0
def test_in_polygon(firedb: FireDb, tmp_path: Path):
    outfile = tmp_path / "in_polygon.xml"
    output = open(outfile, "w")
    writer = GamaWriter(firedb, output)

    geometry = Geometry(("POLYGON ((10.209 56.155, "
                         "10.209 56.158, "
                         "10.215 56.158, "
                         "10.215 56.155, "
                         "10.209 56.155))"))
    observations = firedb.hent_observationer_naer_geometri(geometry, 5000)
    writer.take_observations(observations)

    writer.set_fixed_point_ids(["67e3987a-dc6b-49ee-8857-417ef35777af"])

    parameters = configparser.ConfigParser()
    parameters.read("fire-gama.ini")
    writer.write(True, False, "test_in_polygon", parameters)
    output.close
    os.remove(outfile)
Exemplo n.º 10
0
    def processAlgorithm(self, parameters, context,
                         feedback: QgsProcessingFeedback):
        # Input / Output
        source = self.parameterAsSource(parameters, self.INPUT, context)
        (sink, dest_id) = self.create_output_sink(parameters, context,
                                                  source.sourceCrs())

        # Filter parameters
        observation_type_indices = self.parameterAsEnums(
            parameters, self.OBSERVATION_TYPE, context)
        observation_types = list(
            map(lambda i: self.OBSERVATION_TYPES[i][0],
                observation_type_indices))

        from_date = None
        from_date_string = self.parameterAsString(parameters, self.FROM_DATE,
                                                  context)
        if from_date_string:
            from_date = datetime.fromisoformat(from_date_string)

        to_date = None
        to_date_string = self.parameterAsString(parameters, self.TO_DATE,
                                                context)
        if to_date_string:
            to_date = datetime.fromisoformat(to_date_string)

        fire_connection_string = self.settings.value("fire_connection_string")
        fireDb = FireDb(fire_connection_string, debug=True)

        features = list(source.getFeatures())
        total_num_features = len(features)
        total_num_features_processed = 0
        # for current, feature in enumerate(features):
        for feature in features:
            if feedback.isCanceled():
                return {}
            wkt = feature.geometry().asWkt().upper()
            geometry = Geometry(wkt)
            observations = fireDb.hent_observationer_naer_geometri(
                geometri=geometry, afstand=0, tidfra=from_date, tidtil=to_date)

            pid_list = self.get_pids_from_observations(observations)
            geometriobjekter = self.get_geometriobjekter_from_pids(
                fireDb, pid_list)
            idents = self.get_idents_from_pids(fireDb, pid_list)

            feedback.setProgressText(
                "Fandt {antal} observationer".format(antal=len(observations)))
            feedback.setProgressText("Fandt {antal} geometriobjekter".format(
                antal=len(geometriobjekter)))
            feedback.setProgressText(
                "Fandt {antal} idents".format(antal=len(idents)))
            for current, observation in enumerate(observations):
                observation_type_id = observation.observationstypeid
                if observation_type_id in observation_types:
                    feature = self.create_feature_from_observation(
                        observation, geometriobjekter, idents, feedback)
                    if feature:
                        sink.addFeature(feature, QgsFeatureSink.FastInsert)
            total_num_features_processed = total_num_features_processed + 1
            feedback.setProgress(total_num_features_processed /
                                 total_num_features)
            if feedback.isCanceled():
                return {}

        apply_theme = self.parameterAsBool(parameters, self.APPLY_THEME,
                                           context)
        if apply_theme:
            style_file = os.path.join(os.path.dirname(__file__), "..",
                                      "styles", "observation.qml")
            alg_params = {"INPUT": dest_id, "STYLE": style_file}
            processing.run(
                "qgis:setstyleforvectorlayer",
                alg_params,
                context=context,
                feedback=feedback,
                is_child_algorithm=True,
            )

        return {self.OUTPUT: dest_id}
Exemplo n.º 11
0
istedet med dette script.
"""
from pathlib import Path

from sqlalchemy.sql import text
import fiona

from fire.api import FireDb
from fire.api.model import Geometry

firedb = FireDb(db="ci")

with fiona.open(Path(__file__).parent /
                "../data/herredsogn.shp") as herredsogn:
    for feature in herredsogn:
        g = Geometry(feature["geometry"])
        kode = feature["properties"]["kode"]

        # Fjollet hack for at omgå begrænsninger i Oracle.
        # Tilsyneladende må strenge ikke være længere end 4000 tegn, så her omgår vi begrænsningen
        # ved at splitte wkt-strengen i to dele og sammensætte den med ||-operatoren i SQL udtrykket.
        # Idioti, men det virker.
        wkt1, wkt2 = g.wkt[:len(g.wkt) // 2], g.wkt[len(g.wkt) // 2:]
        statement = text(f"""INSERT INTO herredsogn (kode, geometri)
                VALUES ('{kode}', SDO_GEOMETRY(TO_CLOB('{wkt1}') || TO_CLOB('{wkt2}'), 4326)
            )""")
        firedb.session.execute(statement)

firedb.session.commit()

print("Herred- og sognegrænser tilføjet databasen")