Beispiel #1
0
    def create_domain_crs(self) -> CRS:
        proj = self.get_proj_kwargs()
        if proj is None:
            raise UserError('Incomplete projection definition')

        map_proj = proj['map_proj']

        if map_proj == 'lambert':
            if self.center_lat.is_valid():
                origin_lat = self.center_lat.value()
            else:
                origin_lat = 0
            crs = CRS.create_lambert(proj['truelat1'], proj['truelat2'], LonLat(proj['stand_lon'], origin_lat))
        elif map_proj == 'polar':
            crs = CRS.create_polar(proj['truelat1'], proj['stand_lon'])
        elif map_proj == 'mercator':
            if self.center_lon.is_valid():
                origin_lon = self.center_lon.value()
            else:
                origin_lon = 0
            crs = CRS.create_mercator(proj['truelat1'], origin_lon)
        elif map_proj == 'lat-lon':
            crs = CRS.create_lonlat()
        else:
            assert False, 'unknown proj: ' + map_proj
        return crs
Beispiel #2
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    def set_domain_to_extent(self, crs: QgsCoordinateReferenceSystem,
                             extent: QgsRectangle) -> None:
        resolution = self.resolution.value()

        bbox = rect_to_bbox(extent)

        extent_crs = CRS(crs.toProj4())
        domain_crs = self.create_domain_crs()
        domain_srs = domain_crs.srs

        domain_bbox = domain_crs.transform_bbox(bbox, domain_srs)

        # TODO disallow creation of bounding box outside projection range (e.g. for lat-lon 360-180)

        xmin, xmax, ymin, ymax = domain_bbox.minx, domain_bbox.maxx, domain_bbox.miny, domain_bbox.maxy

        center_x = xmin + (xmax - xmin) / 2
        center_y = ymin + (ymax - ymin) / 2
        center_lonlat = domain_crs.to_lonlat(Coordinate2D(center_x, center_y))
        self.center_lat.set_value(center_lonlat.lat)
        self.center_lon.set_value(center_lonlat.lon)
        self.resolution.set_value(resolution)
        cols = ceil((xmax - xmin) / resolution)
        rows = ceil((ymax - ymin) / resolution)
        self.cols.set_value(cols)
        self.rows.set_value(rows)

        self.on_change_any_field(zoom_out=True)
Beispiel #3
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def test_projection_origin(crs_name: str):
    origin_lonlat = LonLat(lon=4, lat=0)
    if crs_name == 'lambert':
        crs = CRS.create_lambert(truelat1=3.5,
                                 truelat2=7,
                                 origin=origin_lonlat)
    elif crs_name == 'mercator':
        crs = CRS.create_mercator(truelat1=3.5, origin_lon=origin_lonlat.lon)
    elif crs_name == 'polar':
        origin_lonlat = LonLat(lon=origin_lonlat.lon, lat=90)
        crs = CRS.create_polar(truelat1=3.5, origin_lon=origin_lonlat.lon)
    elif crs_name == 'albers_nad83':
        crs = CRS.create_albers_nad83(truelat1=3.5,
                                      truelat2=7,
                                      origin=origin_lonlat)
    origin_xy = crs.to_xy(origin_lonlat)
    assert origin_xy.x == pytest.approx(0)
    assert origin_xy.y == pytest.approx(0, abs=1e-9)
Beispiel #4
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 def on_extent_from_active_layer_button_clicked(self):
     layer = self.iface.activeLayer()  # type: Optional[QgsMapLayer]
     if layer is None:
         return
     layer_crs = CRS(layer.crs().toProj4())
     target_crs = CRS('+proj=latlong +datum=WGS84')
     extent = layer.extent()  # type: QgsRectangle
     bbox = rect_to_bbox(extent)
     bbox_geo = layer_crs.transform_bbox(bbox, target_crs.srs)
     padding = 5  # degrees
     lat_south = max(bbox_geo.miny - 5, -90)
     lat_north = min(bbox_geo.maxy + 5, 90)
     lon_west = max(bbox_geo.minx - 5, -180)
     lon_east = min(bbox_geo.maxx + 5, 180)
     self.bottom.set_value(lat_south)
     self.top.set_value(lat_north)
     self.left.set_value(lon_west)
     self.right.set_value(lon_east)
Beispiel #5
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    def create_domain_crs(self) -> CRS:
        proj = self.get_proj_kwargs()
        if proj is None:
            raise ValueError('Incomplete projection definition')

        origin_valid = all(
            map(lambda w: w.is_valid(), [self.center_lat, self.center_lon]))
        if origin_valid:
            origin = LonLat(self.center_lon.value(), self.center_lat.value())
        else:
            origin = LonLat(0, 0)

        if proj['map_proj'] == 'lambert':
            crs = CRS.create_lambert(proj['truelat1'], proj['truelat2'],
                                     origin)
        elif proj['map_proj'] == 'lat-lon':
            crs = CRS.create_lonlat()
        else:
            raise NotImplementedError('unknown proj: ' + proj['map_proj'])
        return crs
Beispiel #6
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def test_geo_roundtrip(crs_name: str):
    if crs_name == 'lonlat':
        crs = CRS.create_lonlat()
    elif crs_name == 'lambert':
        crs = CRS.create_lambert(truelat1=3.5,
                                 truelat2=7,
                                 origin=LonLat(lon=4, lat=0))
    elif crs_name == 'mercator':
        crs = CRS.create_mercator(truelat1=3.5, origin_lon=4)
    elif crs_name == 'polar':
        crs = CRS.create_polar(truelat1=3.5, origin_lon=4)
    elif crs_name == 'albers_nad83':
        crs = CRS.create_albers_nad83(truelat1=3.5,
                                      truelat2=7,
                                      origin=LonLat(lon=4, lat=0))
    lonlat = LonLat(lon=10, lat=30)
    xy = crs.to_xy(lonlat)
    lonlat2 = crs.to_lonlat(xy)
    assert lonlat.lon == pytest.approx(lonlat2.lon)
    assert lonlat.lat == pytest.approx(lonlat2.lat)