def execute(self): """Execute the request using the selected backend. :rtype: Path to an output file/folder or :class:`ocgis.OcgCollection` """ interp = OcgInterpreter(self) return (interp.execute())
def execute(self): """Execute the request using the selected backend. :rtype: Path to an output file/folder or dictionary composed of :class:`ocgis.api.collection.AbstractCollection` objects. """ interp = OcgInterpreter(self) return(interp.execute())
def execute(self): """Execute the request using the selected backend. :rtype: Path to an output file/folder or dictionary composed of :class:`ocgis.api.collection.AbstractCollection` objects. """ interp = OcgInterpreter(self) return (interp.execute())
def execute(self): """Execute the request using the selected backend. :rtype: Path to an output file/folder or :class:`ocgis.OcgCollection` """ interp = OcgInterpreter(self) return(interp.execute())
def _get_interpreter_return_(ops): try: interp = Interpreter.get_interpreter(ops) except InterpreterNotRecognized: interp = OcgInterpreter(ops) ret = interp.execute() return (ret)
def _get_interpreter_return_(ops): try: interp = Interpreter.get_interpreter(ops) except InterpreterNotRecognized: interp = OcgInterpreter(ops) ret = interp.execute() return(ret)
def test_get_progress_and_configure_logging(self): env.VERBOSE = True rd = self.test_data.get_rd('cancm4_tas') ops = OcgOperations(dataset=rd) outdir = self.current_dir_output prefix = 'foo' interp = OcgInterpreter(ops) self.assertIsNone(logging._warnings_showwarning) self.assertTrue(ocgis_lh.null) env.SUPPRESS_WARNINGS = False progress = interp._get_progress_and_configure_logging_(outdir, prefix) self.assertIsInstance(progress, ProgressOcgOperations) self.assertFalse(ocgis_lh.null) self.assertFalse(logging._warnings_showwarning)
def test_get_converter(self): rd = self.test_data.get_rd('cancm4_tas') ops = OcgOperations(dataset=rd) outdir = self.current_dir_output prefix = 'foo' interp = OcgInterpreter(ops) so = SubsetOperation(ops) ret = interp._get_converter_(NumpyConverter, outdir, prefix, so) self.assertIsInstance(ret, NumpyConverter) ops = OcgOperations(dataset=rd, melted=True, output_format=constants.OUTPUT_FORMAT_SHAPEFILE) interp = OcgInterpreter(ops) ret = interp._get_converter_(ShpConverter, outdir, prefix, so) self.assertIsInstance(ret, ShpConverter) self.assertTrue(ret.melted)
def test_get_data(self): start = 0 for ii,ops in self.iter_operations(start=start): print(ii) ret = None try: ret = OcgInterpreter(ops).execute() import ipdb;ipdb.set_trace() except Exception as e: if self._allowed_exception_(ops,e) is False: print traceback.format_exc() finally: if ret is not None and ret.startswith(tempfile.gettempdir()): print(ret) if any([ret.endswith(ext) for ext in ['shp','csv','nc']]): ret = os.path.split(ret)[0] shutil.rmtree(ret)
def get_ret(self, ops=None, kwds={}, shp=False, time_range=None, level_range=None): if ops is None: ops = self.get_ops(kwds, time_range=time_range, level_range=level_range) self.ops = ops ret = OcgInterpreter(ops).execute() if shp or self.return_shp: kwds2 = kwds.copy() kwds2.update({'output_format': 'shp'}) ops2 = OcgOperations(**kwds2) OcgInterpreter(ops2).execute() return (ret)
def test_get_data(self): start = 0 for ii, ops in self.iter_operations(start=start): print(ii) ret = None try: ret = OcgInterpreter(ops).execute() import ipdb ipdb.set_trace() except Exception as e: if self._allowed_exception_(ops, e) is False: print traceback.format_exc() finally: if ret is not None and ret.startswith(tempfile.gettempdir()): print(ret) if any([ret.endswith(ext) for ext in ['shp', 'csv', 'nc']]): ret = os.path.split(ret)[0] shutil.rmtree(ret)
def test_high_res(self): ocgis.env.OVERWRITE = True nc_spatial = NcSpatial(0.5,(-90.0,90.0),(0.0,360.0)) path = self.make_data(nc_spatial) dataset = {'uri':path,'variable':'foo'} output_format = 'nc' snippet = True geom = self.nebraska for s_abstraction in ['point','polygon']: interface = {'s_abstraction':s_abstraction} ops = OcgOperations(dataset=dataset,output_format=output_format, geom=geom,snippet=snippet,abstraction=s_abstraction) ret = OcgInterpreter(ops).execute()
def test_low_res(self): ocgis.env.OVERWRITE = True nc_spatial = NcSpatial(5.0,(-90.0,90.0),(0.0,360.0)) path = self.make_data(nc_spatial) dataset = {'uri':path,'variable':'foo'} output_format = 'shp' geom = self.nebraska ip = Inspect(dataset['uri'],dataset['variable']) for s_abstraction in ['point','polygon']: interface = {'s_abstraction':s_abstraction} ops = OcgOperations(dataset=dataset, output_format=output_format, geom=geom, abstraction=s_abstraction) ret = OcgInterpreter(ops).execute()
def test_profile(self): raise (SkipTest) prev = sys.stdout with open('/tmp/out.txt', 'w') as f: sys.stdout = f start = 0 for ii, ops in self.iter_operations(start=start): t1 = time.time() OcgInterpreter(ops).execute() t2 = time.time() if int(ops.geom[0]['geom'].area) == 1096: geom = 'states' else: geom = 'bb' prnt = [ geom, ops.dataset[0]['uri'], ops.output_format, t2 - t1 ] print ','.join(map(str, prnt)) time.sleep(5) # break sys.stdout = prev
def make_shp(self): ops = OcgOperations(dataset=self.dataset, output_format='shp') OcgInterpreter(ops).execute()