def test_deserialize(self): """Hazard map is read back correctly""" def _normalize(data): result = [] key = "investigationTimeSpan" for pt, val in data: new = val.copy() new[key] = float(new[key]) result.append((pt, new)) return result outputs = [] for idx, hcd in enumerate(HAZARD_CURVE_DATA()): output_path = self.generate_output_path(self.job, output_type="hazard_curve") writer = HazardCurveDBWriter(output_path, self.job.id) # Call the function under test. writer.serialize(hcd) outputs.append((idx, writer.output)) for idx, output in outputs: reader = HazardCurveDBReader() data = reader.deserialize(output.id) self.assertEquals(self.sort(_normalize(HAZARD_CURVE_DATA()[idx])), self.sort(_normalize(data)))
def test_deserialize_small(self): data = HAZARD_CURVE_DATA(["1_1", "1_2", "2_2", "2"], 20, 4) self.job = self.setup_classic_job() output_path = self.generate_output_path(self.job) hcw = HazardCurveDBWriter(output_path, self.job.id) hcw.serialize(data) # deserialize hcr = HazardCurveDBReader() for i in xrange(0, 10): # Call the function under test. hcr.deserialize(hcw.output.id)
def test_deserialize_small(self): data = HAZARD_CURVE_DATA(['1_1', '1_2', '2_2', '2'], 20, 4) self.job = self.setup_classic_job() output_path = self.generate_output_path(self.job) hcw = HazardCurveDBWriter(output_path, self.job.id) hcw.serialize(data) # deserialize hcr = HazardCurveDBReader() for i in xrange(0, 10): # Call the function under test. hcr.deserialize(hcw.output.id)
def setUp(self): self.job = self.setup_classic_job() output_path = self.generate_output_path(self.job) self.display_name = os.path.basename(output_path) self.writer = HazardCurveDBWriter(output_path, self.job.id) self.reader = HazardCurveDBReader()