def test_root_scalefactors(): extractor = lookup_tools.extractor() extractor.add_weight_sets([ "testSF2d scalefactors_Tight_Electron tests/samples/testSF2d.histo.root" ]) extractor.finalize(reduce_list=["testSF2d"]) evaluator = extractor.make_evaluator() counts, test_eta, test_pt = dummy_jagged_eta_pt() # test flat eval test_out = evaluator["testSF2d"](test_eta, test_pt) # print it print(evaluator["testSF2d"]) # test structured eval test_eta_jagged = ak.unflatten(test_eta, counts) test_pt_jagged = ak.unflatten(test_pt, counts) test_out_jagged = evaluator["testSF2d"](test_eta_jagged, test_pt_jagged) assert ak.all(ak.num(test_out_jagged) == counts) assert ak.all(ak.flatten(test_out_jagged) == test_out) print(test_out) diff = np.abs(test_out - _testSF2d_expected_output) print("Max diff: %.16f" % diff.max()) print("Median diff: %.16f" % np.median(diff)) print("Diff over threshold rate: %.1f %%" % (100 * (diff >= 1.0e-8).sum() / diff.size)) assert (diff < 1.0e-8).all()
def test_root_scalefactors(): extractor = lookup_tools.extractor() extractor.add_weight_sets([ "testSF2d scalefactors_Tight_Electron tests/samples/testSF2d.histo.root" ]) extractor.finalize(reduce_list=['testSF2d']) evaluator = extractor.make_evaluator() counts, test_eta, test_pt = dummy_jagged_eta_pt() # test flat eval test_out = evaluator["testSF2d"](test_eta, test_pt) # print it print(evaluator["testSF2d"]) # test structured eval test_eta_jagged = ak.unflatten(test_eta, counts) test_pt_jagged = ak.unflatten(test_pt, counts) test_out_jagged = evaluator["testSF2d"](test_eta_jagged, test_pt_jagged) assert ak.all(ak.num(test_out_jagged) == counts) assert ak.all(ak.flatten(test_out_jagged) == test_out) # From make_expected_lookup.py expected_output = np.array([ 0.90780139, 0.82748538, 0.86332178, 0.86332178, 0.97981155, 0.79701495, 0.88245934, 0.82857144, 0.91884059, 0.97466666, 0.94072163, 1.00775194, 0.82748538, 1.00775194, 0.97203946, 0.98199672, 0.80655736, 0.90893763, 0.88245934, 0.79701495, 0.82748538, 0.82857144, 0.91884059, 0.90893763, 0.97520661, 0.97520661, 0.82748538, 0.91884059, 0.97203946, 0.88245934, 0.79701495, 0.9458763, 1.00775194, 0.80655736, 1.00775194, 1.00775194, 0.98976982, 0.98976982, 0.86332178, 0.94072163, 0.80655736, 0.98976982, 0.96638656, 0.9458763, 0.90893763, 0.9529984, 0.9458763, 0.9529984, 0.80655736, 0.80655736, 0.80655736, 0.98976982, 0.97466666, 0.98199672, 0.86332178, 1.03286386, 0.94072163, 1.03398061, 0.82857144, 0.80655736, 1.00775194, 0.80655736 ]) print(test_out) diff = np.abs(test_out - expected_output) print("Max diff: %.16f" % diff.max()) print("Median diff: %.16f" % np.median(diff)) print("Diff over threshold rate: %.1f %%" % (100 * (diff >= 1.e-8).sum() / diff.size)) assert (diff < 1.e-8).all()