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404 lines
16 KiB
Python
404 lines
16 KiB
Python
from unittest import skipIf
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from django.contrib.gis.gdal import (
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GDAL_VERSION,
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AxisOrder,
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CoordTransform,
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GDALException,
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SpatialReference,
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SRSException,
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)
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from django.contrib.gis.geos import GEOSGeometry
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from django.test import SimpleTestCase
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class TestSRS:
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def __init__(self, wkt, **kwargs):
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self.wkt = wkt
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for key, value in kwargs.items():
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setattr(self, key, value)
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# Some Spatial Reference examples
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srlist = (
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TestSRS(
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'GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,'
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'AUTHORITY["EPSG","7030"]],TOWGS84[0,0,0,0,0,0,0],AUTHORITY["EPSG","6326"]],'
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'PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],UNIT["degree",'
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'0.0174532925199433,AUTHORITY["EPSG","9122"]],AXIS["Latitude",NORTH],'
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'AXIS["Longitude",EAST],AUTHORITY["EPSG","4326"]]',
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epsg=4326,
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projected=False,
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geographic=True,
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local=False,
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lin_name="unknown",
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ang_name="degree",
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lin_units=1.0,
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ang_units=0.0174532925199,
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auth={
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None: ("EPSG", "4326"), # Top-level authority.
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"GEOGCS": ("EPSG", "4326"),
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"spheroid": ("EPSG", "7030"),
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},
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attr=(
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("DATUM", "WGS_1984"),
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(("SPHEROID", 1), "6378137"),
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("primem|authority", "EPSG"),
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),
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),
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TestSRS(
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'PROJCS["NAD83 / Texas South Central",'
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'GEOGCS["NAD83",DATUM["North_American_Datum_1983",'
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'SPHEROID["GRS 1980",6378137,298.257222101,AUTHORITY["EPSG","7019"]],'
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'AUTHORITY["EPSG","6269"]],PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],'
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'UNIT["degree",0.0174532925199433,AUTHORITY["EPSG","9122"]],'
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'AUTHORITY["EPSG","4269"]],PROJECTION["Lambert_Conformal_Conic_2SP"],'
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'PARAMETER["standard_parallel_1",30.2833333333333],'
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'PARAMETER["standard_parallel_2",28.3833333333333],'
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'PARAMETER["latitude_of_origin",27.8333333333333],'
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'PARAMETER["central_meridian",-99],PARAMETER["false_easting",600000],'
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'PARAMETER["false_northing",4000000],UNIT["metre",1,AUTHORITY["EPSG","9001"]],'
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'AXIS["Easting",EAST],AXIS["Northing",NORTH],AUTHORITY["EPSG","32140"]]',
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epsg=32140,
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projected=True,
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geographic=False,
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local=False,
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lin_name="metre",
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ang_name="degree",
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lin_units=1.0,
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ang_units=0.0174532925199,
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auth={
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None: ("EPSG", "32140"), # Top-level authority.
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"PROJCS": ("EPSG", "32140"),
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"spheroid": ("EPSG", "7019"),
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"unit": ("EPSG", "9001"),
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},
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attr=(
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("DATUM", "North_American_Datum_1983"),
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(("SPHEROID", 2), "298.257222101"),
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("PROJECTION", "Lambert_Conformal_Conic_2SP"),
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),
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),
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TestSRS(
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'PROJCS["NAD83 / Texas South Central (ftUS)",'
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'GEOGCS["NAD83",DATUM["North_American_Datum_1983",'
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'SPHEROID["GRS 1980",6378137,298.257222101,AUTHORITY["EPSG","7019"]],'
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'AUTHORITY["EPSG","6269"]],'
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'PRIMEM["Greenwich",0],'
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'UNIT["Degree",0.0174532925199433]],PROJECTION["Lambert_Conformal_Conic_2SP"],'
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'PARAMETER["false_easting",1968500],'
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'PARAMETER["false_northing",13123333.3333333],'
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'PARAMETER["central_meridian",-99],'
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'PARAMETER["standard_parallel_1",28.3833333333333],'
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'PARAMETER["standard_parallel_2",30.2833333333333],'
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'PARAMETER["latitude_of_origin",27.8333333333333],'
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'UNIT["US survey foot",0.304800609601219],AXIS["Easting",EAST],'
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'AXIS["Northing",NORTH]]',
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epsg=None,
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projected=True,
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geographic=False,
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local=False,
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lin_name="US survey foot",
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ang_name="Degree",
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lin_units=0.3048006096012192,
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ang_units=0.0174532925199,
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auth={
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None: (None, None), # Top-level authority.
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"PROJCS": (None, None),
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},
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attr=(
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("PROJCS|GeOgCs|spheroid", "GRS 1980"),
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(("projcs", 9), "UNIT"),
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(("projcs", 11), "AXIS"),
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),
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),
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# This is really ESRI format, not WKT -- but the import should work the same
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TestSRS(
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'LOCAL_CS["Non-Earth (Meter)",LOCAL_DATUM["Local Datum",32767],'
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'UNIT["Meter",1],AXIS["X",EAST],AXIS["Y",NORTH]]',
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esri=True,
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epsg=None,
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projected=False,
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geographic=False,
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local=True,
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lin_name="Meter",
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ang_name="degree",
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lin_units=1.0,
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ang_units=0.0174532925199,
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attr=(("LOCAL_DATUM", "Local Datum"),),
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),
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)
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# Well-Known Names
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well_known = (
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TestSRS(
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'GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,'
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'AUTHORITY["EPSG","7030"]],TOWGS84[0,0,0,0,0,0,0],AUTHORITY["EPSG","6326"]],'
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'PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],'
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'UNIT["degree",0.01745329251994328,'
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'AUTHORITY["EPSG","9122"]],AUTHORITY["EPSG","4326"]]',
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wk="WGS84",
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name="WGS 84",
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attrs=(("GEOGCS|AUTHORITY", 1, "4326"), ("SPHEROID", "WGS 84")),
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),
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TestSRS(
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'GEOGCS["WGS 72",DATUM["WGS_1972",SPHEROID["WGS 72",6378135,298.26,'
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'AUTHORITY["EPSG","7043"]],AUTHORITY["EPSG","6322"]],'
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'PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],'
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'UNIT["degree",0.01745329251994328,AUTHORITY["EPSG","9122"]],'
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'AUTHORITY["EPSG","4322"]]',
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wk="WGS72",
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name="WGS 72",
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attrs=(("GEOGCS|AUTHORITY", 1, "4322"), ("SPHEROID", "WGS 72")),
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),
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TestSRS(
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'GEOGCS["NAD27",DATUM["North_American_Datum_1927",'
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'SPHEROID["Clarke 1866",6378206.4,294.9786982138982,'
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'AUTHORITY["EPSG","7008"]],AUTHORITY["EPSG","6267"]],'
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'PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],'
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'UNIT["degree",0.01745329251994328,AUTHORITY["EPSG","9122"]],'
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'AUTHORITY["EPSG","4267"]]',
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wk="NAD27",
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name="NAD27",
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attrs=(("GEOGCS|AUTHORITY", 1, "4267"), ("SPHEROID", "Clarke 1866")),
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),
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TestSRS(
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'GEOGCS["NAD83",DATUM["North_American_Datum_1983",'
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'SPHEROID["GRS 1980",6378137,298.257222101,'
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'AUTHORITY["EPSG","7019"]],AUTHORITY["EPSG","6269"]],'
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'PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],'
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'UNIT["degree",0.01745329251994328,AUTHORITY["EPSG","9122"]],'
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'AUTHORITY["EPSG","4269"]]',
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wk="NAD83",
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name="NAD83",
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attrs=(("GEOGCS|AUTHORITY", 1, "4269"), ("SPHEROID", "GRS 1980")),
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),
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TestSRS(
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'PROJCS["NZGD49 / Karamea Circuit",GEOGCS["NZGD49",'
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'DATUM["New_Zealand_Geodetic_Datum_1949",'
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'SPHEROID["International 1924",6378388,297,'
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'AUTHORITY["EPSG","7022"]],'
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"TOWGS84[59.47,-5.04,187.44,0.47,-0.1,1.024,-4.5993],"
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'AUTHORITY["EPSG","6272"]],PRIMEM["Greenwich",0,'
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'AUTHORITY["EPSG","8901"]],UNIT["degree",0.01745329251994328,'
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'AUTHORITY["EPSG","9122"]],AUTHORITY["EPSG","4272"]],'
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'PROJECTION["Transverse_Mercator"],'
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'PARAMETER["latitude_of_origin",-41.28991152777778],'
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'PARAMETER["central_meridian",172.1090281944444],'
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'PARAMETER["scale_factor",1],PARAMETER["false_easting",300000],'
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'PARAMETER["false_northing",700000],'
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'UNIT["metre",1,AUTHORITY["EPSG","9001"]],AUTHORITY["EPSG","27216"]]',
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wk="EPSG:27216",
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name="NZGD49 / Karamea Circuit",
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attrs=(
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("PROJECTION", "Transverse_Mercator"),
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("SPHEROID", "International 1924"),
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),
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),
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)
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bad_srlist = (
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"Foobar",
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'OOJCS["NAD83 / Texas South Central",GEOGCS["NAD83",'
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'DATUM["North_American_Datum_1983",'
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'SPHEROID["GRS 1980",6378137,298.257222101,AUTHORITY["EPSG","7019"]],'
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'AUTHORITY["EPSG","6269"]],PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],'
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'UNIT["degree",0.01745329251994328,AUTHORITY["EPSG","9122"]],'
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'AUTHORITY["EPSG","4269"]],PROJECTION["Lambert_Conformal_Conic_2SP"],'
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'PARAMETER["standard_parallel_1",30.28333333333333],'
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'PARAMETER["standard_parallel_2",28.38333333333333],'
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'PARAMETER["latitude_of_origin",27.83333333333333],'
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'PARAMETER["central_meridian",-99],PARAMETER["false_easting",600000],'
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'PARAMETER["false_northing",4000000],UNIT["metre",1,'
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'AUTHORITY["EPSG","9001"]],AUTHORITY["EPSG","32140"]]',
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)
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class SpatialRefTest(SimpleTestCase):
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def test01_wkt(self):
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"Testing initialization on valid OGC WKT."
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for s in srlist:
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SpatialReference(s.wkt)
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def test02_bad_wkt(self):
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"Testing initialization on invalid WKT."
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for bad in bad_srlist:
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try:
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srs = SpatialReference(bad)
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srs.validate()
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except (SRSException, GDALException):
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pass
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else:
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self.fail('Should not have initialized on bad WKT "%s"!')
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def test03_get_wkt(self):
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"Testing getting the WKT."
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for s in srlist:
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srs = SpatialReference(s.wkt)
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# GDAL 3 strips UNIT part in the last occurrence.
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self.assertEqual(
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s.wkt.replace(',UNIT["Meter",1]', ""),
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srs.wkt.replace(',UNIT["Meter",1]', ""),
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)
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def test04_proj(self):
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"""PROJ import and export."""
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proj_parts = [
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"+proj=longlat",
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"+ellps=WGS84",
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"+towgs84=0,0,0,0,0,0,0",
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"+datum=WGS84",
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"+no_defs",
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]
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srs1 = SpatialReference(srlist[0].wkt)
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srs2 = SpatialReference("+proj=longlat +datum=WGS84 +no_defs")
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self.assertTrue(all(part in proj_parts for part in srs1.proj.split()))
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self.assertTrue(all(part in proj_parts for part in srs2.proj.split()))
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def test05_epsg(self):
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"Test EPSG import."
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for s in srlist:
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if s.epsg:
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srs1 = SpatialReference(s.wkt)
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srs2 = SpatialReference(s.epsg)
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srs3 = SpatialReference(str(s.epsg))
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srs4 = SpatialReference("EPSG:%d" % s.epsg)
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for srs in (srs1, srs2, srs3, srs4):
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for attr, expected in s.attr:
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self.assertEqual(expected, srs[attr])
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def test07_boolean_props(self):
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"Testing the boolean properties."
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for s in srlist:
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srs = SpatialReference(s.wkt)
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self.assertEqual(s.projected, srs.projected)
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self.assertEqual(s.geographic, srs.geographic)
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def test08_angular_linear(self):
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"Testing the linear and angular units routines."
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for s in srlist:
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srs = SpatialReference(s.wkt)
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self.assertEqual(s.ang_name, srs.angular_name)
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self.assertEqual(s.lin_name, srs.linear_name)
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self.assertAlmostEqual(s.ang_units, srs.angular_units, 9)
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self.assertAlmostEqual(s.lin_units, srs.linear_units, 9)
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def test09_authority(self):
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"Testing the authority name & code routines."
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for s in srlist:
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if hasattr(s, "auth"):
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srs = SpatialReference(s.wkt)
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for target, tup in s.auth.items():
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self.assertEqual(tup[0], srs.auth_name(target))
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self.assertEqual(tup[1], srs.auth_code(target))
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def test10_attributes(self):
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"Testing the attribute retrieval routines."
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for s in srlist:
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srs = SpatialReference(s.wkt)
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for tup in s.attr:
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att = tup[0] # Attribute to test
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exp = tup[1] # Expected result
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self.assertEqual(exp, srs[att])
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def test11_wellknown(self):
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"Testing Well Known Names of Spatial References."
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for s in well_known:
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srs = SpatialReference(s.wk)
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self.assertEqual(s.name, srs.name)
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for tup in s.attrs:
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if len(tup) == 2:
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key = tup[0]
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exp = tup[1]
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elif len(tup) == 3:
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key = tup[:2]
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exp = tup[2]
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self.assertEqual(srs[key], exp)
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def test12_coordtransform(self):
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"Testing initialization of a CoordTransform."
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target = SpatialReference("WGS84")
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CoordTransform(SpatialReference(srlist[0].wkt), target)
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def test13_attr_value(self):
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"Testing the attr_value() method."
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s1 = SpatialReference("WGS84")
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with self.assertRaises(TypeError):
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s1.__getitem__(0)
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with self.assertRaises(TypeError):
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s1.__getitem__(("GEOGCS", "foo"))
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self.assertEqual("WGS 84", s1["GEOGCS"])
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self.assertEqual("WGS_1984", s1["DATUM"])
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self.assertEqual("EPSG", s1["AUTHORITY"])
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self.assertEqual(4326, int(s1["AUTHORITY", 1]))
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self.assertIsNone(s1["FOOBAR"])
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def test_unicode(self):
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wkt = (
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'PROJCS["DHDN / Soldner 39 Langschoß",'
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'GEOGCS["DHDN",DATUM["Deutsches_Hauptdreiecksnetz",'
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'SPHEROID["Bessel 1841",6377397.155,299.1528128,AUTHORITY["EPSG","7004"]],'
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'AUTHORITY["EPSG","6314"]],'
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'PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],'
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'UNIT["degree",0.0174532925199433,AUTHORITY["EPSG","9122"]],'
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'AUTHORITY["EPSG","4314"]],PROJECTION["Cassini_Soldner"],'
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'PARAMETER["latitude_of_origin",50.66738711],'
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'PARAMETER["central_meridian",6.28935703],'
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'PARAMETER["false_easting",0],PARAMETER["false_northing",0],'
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'UNIT["metre",1,AUTHORITY["EPSG","9001"]],AXIS["X",NORTH],AXIS["Y",EAST],'
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'AUTHORITY["mj10777.de","187939"]]'
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)
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srs = SpatialReference(wkt)
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srs_list = [srs, srs.clone()]
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srs.import_wkt(wkt)
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for srs in srs_list:
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self.assertEqual(srs.name, "DHDN / Soldner 39 Langschoß")
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self.assertEqual(srs.wkt, wkt)
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self.assertIn("Langschoß", srs.pretty_wkt)
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self.assertIn("Langschoß", srs.xml)
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@skipIf(GDAL_VERSION < (3, 0), "GDAL >= 3.0 is required")
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def test_axis_order(self):
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wgs84_trad = SpatialReference(4326, axis_order=AxisOrder.TRADITIONAL)
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wgs84_auth = SpatialReference(4326, axis_order=AxisOrder.AUTHORITY)
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# Coordinate interpretation may depend on the srs axis predicate.
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pt = GEOSGeometry("POINT (992385.4472045 481455.4944650)", 2774)
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pt_trad = pt.transform(wgs84_trad, clone=True)
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self.assertAlmostEqual(pt_trad.x, -104.609, 3)
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self.assertAlmostEqual(pt_trad.y, 38.255, 3)
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pt_auth = pt.transform(wgs84_auth, clone=True)
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self.assertAlmostEqual(pt_auth.x, 38.255, 3)
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self.assertAlmostEqual(pt_auth.y, -104.609, 3)
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# clone() preserves the axis order.
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pt_auth = pt.transform(wgs84_auth.clone(), clone=True)
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self.assertAlmostEqual(pt_auth.x, 38.255, 3)
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self.assertAlmostEqual(pt_auth.y, -104.609, 3)
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def test_axis_order_invalid(self):
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msg = "SpatialReference.axis_order must be an AxisOrder instance."
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with self.assertRaisesMessage(ValueError, msg):
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SpatialReference(4326, axis_order="other")
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@skipIf(GDAL_VERSION > (3, 0), "GDAL < 3.0 doesn't support authority.")
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def test_axis_order_non_traditional_invalid(self):
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msg = "AxisOrder.AUTHORITY is not supported in GDAL < 3.0."
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with self.assertRaisesMessage(ValueError, msg):
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SpatialReference(4326, axis_order=AxisOrder.AUTHORITY)
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def test_esri(self):
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srs = SpatialReference("NAD83")
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pre_esri_wkt = srs.wkt
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srs.to_esri()
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self.assertNotEqual(srs.wkt, pre_esri_wkt)
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self.assertIn('DATUM["D_North_American_1983"', srs.wkt)
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srs.from_esri()
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self.assertIn('DATUM["North_American_Datum_1983"', srs.wkt)
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def test_srid(self):
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"""The srid property returns top-level authority code."""
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for s in srlist:
|
|
if hasattr(s, "epsg"):
|
|
srs = SpatialReference(s.wkt)
|
|
self.assertEqual(srs.srid, s.epsg)
|