def __init__(self): """Constructor""" super(ClassifiedRHContinuousRE, self).__init__() # check constraint valid = check_layer_constraint(self.metadata(), layer_mode_classified, [layer_geometry_raster], layer_mode_continuous, [layer_geometry_raster]) if not valid: raise MetadataLayerConstraintError()
def __init__(self): super(ClassifiedVHContinuousRE, self).__init__() # checks the metadata valid = check_layer_constraint( self.metadata(), layer_mode_classified, [ layer_geometry_point, layer_geometry_line, layer_geometry_polygon ], layer_mode_continuous, [layer_geometry_raster]) if not valid: raise MetadataLayerConstraintError()
def __init__(self): """Constructor""" super(ContinuousRHContinuousRE, self).__init__() # check constraint valid = check_layer_constraint( self.metadata(), layer_mode_continuous, [layer_geometry_raster], layer_mode_continuous, [layer_geometry_raster], ) if not valid: raise MetadataLayerConstraintError()
def __init__(self): """Constructor""" super(ContinuousRHContinuousVE, self).__init__() # check constraint valid = check_layer_constraint( self.metadata(), layer_mode_continuous, [layer_geometry_raster], layer_mode_continuous, [ layer_geometry_point, layer_geometry_line, layer_geometry_polygon ]) if not valid: raise MetadataLayerConstraintError()
def __init__(self): super(ClassifiedVHContinuousRE, self).__init__() # checks the metadata valid = check_layer_constraint( self.metadata(), layer_mode_classified, [layer_geometry_point, layer_geometry_line, layer_geometry_polygon], layer_mode_continuous, [layer_geometry_raster]) if not valid: raise MetadataLayerConstraintError()
def __init__(self): """Constructor""" super(ClassifiedRHContinuousVE, self).__init__() # check constraint valid = check_layer_constraint( self.metadata(), layer_mode_classified, [layer_geometry_raster], layer_mode_continuous, [layer_geometry_point, layer_geometry_line, layer_geometry_polygon]) if not valid: raise MetadataLayerConstraintError()