From b496d68e104142e5b72088f07dc26695496560b3 Mon Sep 17 00:00:00 2001 From: Ahnaf Tahmid Chowdhury Date: Sat, 5 Aug 2023 20:25:25 +0600 Subject: [PATCH 1/5] fix error by a factor of 100 --- src/material.cpp | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/src/material.cpp b/src/material.cpp index ee51e6c01e..a4d11dda5e 100644 --- a/src/material.cpp +++ b/src/material.cpp @@ -1957,7 +1957,7 @@ std::vector > pyne::Material::gammas() { std::vector > raw_gammas = pyne::gammas(state_id); for (int i = 0; i < raw_gammas.size(); ++i) { result.push_back(std::make_pair(raw_gammas[i].first, - atom_fracs[ci->first]*raw_gammas[i].second)); + atom_fracs[ci->first]*raw_gammas[i].second/100)); } } return result; From a70ae7c85432a06003f659f27726686532f915cb Mon Sep 17 00:00:00 2001 From: Ahnaf Tahmid Chowdhury Date: Sat, 5 Aug 2023 20:43:47 +0600 Subject: [PATCH 2/5] Fix gamma intensity calculation --- CHANGELOG.rst | 1 + 1 file changed, 1 insertion(+) diff --git a/CHANGELOG.rst b/CHANGELOG.rst index 134f5c7477..eb15e09d3f 100644 --- a/CHANGELOG.rst +++ b/CHANGELOG.rst @@ -22,6 +22,7 @@ Next Version * avoid use of deprecated numpy.bool alias (#1485) * Review Tutorial and Bug Fixes (#1486) * add composite action for BuildTest job in workflows (#1489) + * Fix gamma intensity calculation (#1496) v0.7.7 From 96b031fe46710343a9dbccc54926ec2a1a29a881 Mon Sep 17 00:00:00 2001 From: Ahnaf Tahmid Chowdhury Date: Sat, 5 Aug 2023 21:47:27 +0600 Subject: [PATCH 3/5] mat photons and gammas value update --- tests/test_material.py | 392 ++++++++++++++++++++--------------------- 1 file changed, 190 insertions(+), 202 deletions(-) diff --git a/tests/test_material.py b/tests/test_material.py index 777a11f80b..6f9050f223 100644 --- a/tests/test_material.py +++ b/tests/test_material.py @@ -47,10 +47,12 @@ leu = {922380000: 0.96, 922350000: 0.04} -def assert_mat_almost_equal(first, second, places=1E-7): +def assert_mat_almost_equal(first, second, places=1e-7): assert first.mass == pytest.approx(second.mass, rel=places) assert first.density == pytest.approx(second.density, rel=places) - assert first.atoms_per_molecule == pytest.approx(second.atoms_per_molecule, rel=places) + assert first.atoms_per_molecule == pytest.approx( + second.atoms_per_molecule, rel=places + ) assert first.metadata == second.metadata nucs = set(second.comp) assert set(first.comp) == nucs @@ -374,9 +376,9 @@ def test_molecular_mass(self): mat_mixed = Material({922350000: 0.5, 922380000: 0.5}) mw_mixed = mat_mixed.molecular_mass() try: - assert mw_mixed / 236.547360417 == pytest.approx(1.0, rel=1E-4) + assert mw_mixed / 236.547360417 == pytest.approx(1.0, rel=1e-4) except AssertionError: - assert mw_mixed / 236.5 == pytest.approx(1.0, rel=1E-4) + assert mw_mixed / 236.5 == pytest.approx(1.0, rel=1e-4) def test_expand_elements1(): @@ -445,14 +447,14 @@ def test_mass_density(): atom_density_ethanol = 9.282542841e22 # atom density not molecule density mass_density = ethanol.mass_density(atom_density_ethanol) expected_mass_density = 0.78900 - assert mass_density == pytest.approx(expected_mass_density, rel=1E-4) + assert mass_density == pytest.approx(expected_mass_density, rel=1e-4) def test_number_density(): ethanol = from_atom_frac({"C": 2, "H": 6, "O": 1}, density=0.78900) obs = ethanol.number_density() exp = 9.2825e22 - assert obs / exp == pytest.approx(1.0, rel=1E-4) + assert obs / exp == pytest.approx(1.0, rel=1e-4) def test_set_mat_int_1(): @@ -718,10 +720,10 @@ def test_from_atom_frac_meth(): mat = Material() mat.from_atom_frac(uox) assert mat.atoms_per_molecule == 3.0 - assert mat.comp[80160000] == pytest.approx(0.11912625441775175, rel=1E-16) - assert mat.comp[922350000] == pytest.approx(0.4376375781743612, rel=1E-15) - assert mat.comp[922380000] == pytest.approx(0.4432361674078869, rel=1E-15) - assert mat.molecular_mass() / 268.53718683220006 == pytest.approx(1.0, rel=1E-15) + assert mat.comp[80160000] == pytest.approx(0.11912625441775175, rel=1e-16) + assert mat.comp[922350000] == pytest.approx(0.4376375781743612, rel=1e-15) + assert mat.comp[922380000] == pytest.approx(0.4432361674078869, rel=1e-15) + assert mat.molecular_mass() / 268.53718683220006 == pytest.approx(1.0, rel=1e-15) def test_to_atom_dens(): @@ -1085,10 +1087,10 @@ def test_from_atom_frac_func(): uox = {ihm: 1.0, "O16": 2.0} mat = from_atom_frac(uox) assert mat.atoms_per_molecule == 3.0 - assert mat.comp[80160000] == pytest.approx(0.11912625441775175, rel=1E-16) - assert mat.comp[922350000] == pytest.approx(0.4376375781743612, rel=1E-15) - assert mat.comp[922380000] == pytest.approx(0.4432361674078869, rel=1E-15) - assert mat.molecular_mass() / 268.53718683220006 == pytest.approx(1.0, rel=1E-15) + assert mat.comp[80160000] == pytest.approx(0.11912625441775175, rel=1e-16) + assert mat.comp[922350000] == pytest.approx(0.4376375781743612, rel=1e-15) + assert mat.comp[922380000] == pytest.approx(0.4432361674078869, rel=1e-15) + assert mat.molecular_mass() / 268.53718683220006 == pytest.approx(1.0, rel=1e-15) def test_from_activity_func(): @@ -1258,19 +1260,16 @@ def test_deepcopy(): y.mass = 48.0 y.metadata["name"] = "odin" assert x != y - assert ( - x == - Material( - {"H1": 1.0}, - mass=2.0, - density=3.0, - atoms_per_molecule=4.0, - metadata={"name": "loki"}, - )) + assert x == Material( + {"H1": 1.0}, + mass=2.0, + density=3.0, + atoms_per_molecule=4.0, + metadata={"name": "loki"}, + ) def test_openmc(): - leu = Material( nucvec={"U235": 0.04, "U238": 0.96}, metadata={ @@ -1320,7 +1319,6 @@ def test_openmc(): def test_openmc_mat0(): - leu = Material( nucvec={"U235": 0.04, "U236": 0.0, "U238M": 0.96}, metadata={ @@ -1348,7 +1346,6 @@ def test_openmc_mat0(): def test_openmc_sab(): - leu = Material( nucvec={"H1": 0.66, "O16": 0.33}, metadata={ @@ -1377,7 +1374,6 @@ def test_openmc_sab(): def test_openmc_c(): - csi = Material() csi.from_atom_frac({"C": 0.5, "Si": 0.5}) csi.metadata = {"mat_number": 2, "name": "silicon carbide"} @@ -1496,7 +1492,6 @@ def test_phits(): def test_mcnp(): - leu = Material( nucvec={"U235": 0.04, "U238": 0.96}, metadata={ @@ -1566,7 +1561,6 @@ def test_mcnp(): def test_mcnp_mat0(): - leu = Material( nucvec={"U235": 0.04, "U236": 0.0, "U238": 0.96}, metadata={ @@ -1652,7 +1646,6 @@ def test_uwuw(): def test_alara(): - leu = Material( nucvec={"U235": 0.04, "U238": 0.96}, metadata={ @@ -1981,64 +1974,64 @@ def test_material_gammas(): mat.gammas(), [ (19.55, np.nan), - (31.6, 2.1476136537854347e-20), - (34.7, 4.674217952356534e-20), - (41.4, 3.7899064478566483e-20), - (41.96, 7.579812895713297e-20), - (51.21, 4.2952273075708694e-20), - (54.1, 1.2633021492855498e-21), - (54.25, 3.7899064478566483e-20), + (31.6, 2.147613653785435e-22), + (34.7, 4.674217952356534e-22), + (41.4, 3.7899064478566484e-22), + (41.96, 7.579812895713297e-22), + (51.21, 4.29522730757087e-22), + (54.1, 1.2633021492855498e-23), + (54.25, 3.7899064478566484e-22), (60.5, np.nan), (64.45, np.nan), - (72.7, 1.5159625791426593e-19), - (74.94, 6.442840961356302e-20), + (72.7, 1.5159625791426594e-21), + (74.94, 6.442840961356303e-22), (76.2, np.nan), (94.0, np.nan), (95.7, np.nan), - (96.09, 1.1496049558498502e-19), - (109.19, 2.0970815678140125e-18), - (115.45, 3.7899064478566483e-20), - (120.35, 3.284585588142429e-20), - (136.55, 1.5159625791426598e-20), - (140.76, 2.5266042985710997e-19), - (142.4, 6.3165107464277484e-21), - (143.76, 1.3845791556169626e-17), + (96.09, 1.1496049558498501e-21), + (109.19, 2.0970815678140124e-20), + (115.45, 3.7899064478566484e-22), + (120.35, 3.284585588142429e-22), + (136.55, 1.5159625791426599e-22), + (140.76, 2.5266042985710997e-21), + (142.4, 6.316510746427748e-23), + (143.76, 1.3845791556169625e-19), (147.0, np.nan), - (150.93, 1.1369719343569947e-19), - (163.356, 6.417574918370592e-18), - (173.3, 7.579812895713299e-21), + (150.93, 1.1369719343569947e-21), + (163.356, 6.417574918370591e-20), + (173.3, 7.579812895713299e-23), (182.1, np.nan), - (182.62, 4.9268783822136435e-19), - (185.715, 7.200822250927634e-17), - (194.94, 7.958803540498963e-19), - (198.9, 4.547887737427979e-20), - (202.12, 1.3643663212283937e-18), - (205.316, 6.341776789413459e-18), - (215.28, 3.6635762329280945e-20), - (221.386, 1.4906965361569484e-19), - (228.78, 8.843115044998849e-21), - (233.5, 4.800548167285089e-20), - (240.88, 9.348435904713068e-20), - (246.83, 6.948161821070523e-20), - (266.45, 7.579812895713299e-21), - (275.35, 6.442840961356302e-20), - (275.49, 4.0425668777137595e-20), - (281.42, 7.579812895713299e-21), - (282.92, 7.579812895713299e-21), - (289.56, 8.843115044998849e-21), + (182.62, 4.9268783822136435e-21), + (185.715, 7.200822250927634e-19), + (194.94, 7.958803540498964e-21), + (198.9, 4.547887737427978e-22), + (202.12, 1.3643663212283936e-20), + (205.316, 6.341776789413459e-20), + (215.28, 3.6635762329280945e-22), + (221.386, 1.4906965361569485e-21), + (228.78, 8.843115044998849e-23), + (233.5, 4.800548167285089e-22), + (240.88, 9.348435904713068e-22), + (246.83, 6.948161821070524e-22), + (266.45, 7.579812895713299e-23), + (275.35, 6.442840961356303e-22), + (275.49, 4.0425668777137595e-22), + (281.42, 7.579812895713299e-23), + (282.92, 7.579812895713299e-23), + (289.56, 8.843115044998849e-23), (291.2, np.nan), - (291.65, 5.053208597142199e-20), - (301.7, 6.3165107464277484e-21), - (317.1, 1.2633021492855498e-21), - (343.5, 3.7899064478566495e-21), - (345.92, 5.053208597142199e-20), - (356.03, 6.3165107464277484e-21), - (387.84, 5.053208597142199e-20), - (410.29, 3.7899064478566495e-21), + (291.65, 5.053208597142199e-22), + (301.7, 6.316510746427748e-23), + (317.1, 1.2633021492855498e-23), + (343.5, 3.7899064478566497e-23), + (345.92, 5.053208597142199e-22), + (356.03, 6.316510746427748e-23), + (387.84, 5.053208597142199e-22), + (410.29, 3.7899064478566497e-23), (428.7, np.nan), - (448.4, 1.2633021492855498e-21), - (49.55, 3.018820986575914e-19), - (113.5, 4.811245947355363e-20), + (448.4, 1.2633021492855498e-23), + (49.55, 3.018820986575914e-21), + (113.5, 4.811245947355363e-22), ], ) @@ -2046,18 +2039,16 @@ def test_material_gammas(): def test_material_xrays(): leu = {"U238": 0.96, "U235": 0.04} mat = Material(leu) - assert ( - mat.xrays() == - [ - (93.35, 7.135646069465136e-18), - (89.953, 4.4112564001433475e-18), - (105.0, 3.394789326064896e-18), - (13.0, 2.9652250902501514e-17), - (93.35, 5.2767097753586244e-21), - (89.953, 3.2620619831267015e-21), - (105.0, 2.510398896994686e-21), - (13.0, 3.4433858446293e-17), - ]) + assert mat.xrays() == [ + (93.35, 7.135646069465136e-18), + (89.953, 4.4112564001433475e-18), + (105.0, 3.394789326064896e-18), + (13.0, 2.9652250902501514e-17), + (93.35, 5.2767097753586244e-21), + (89.953, 3.2620619831267015e-21), + (105.0, 2.510398896994686e-21), + (13.0, 3.4433858446293e-17), + ] def test_material_photons(): @@ -2067,64 +2058,64 @@ def test_material_photons(): mat.photons(), [ (19.55, np.nan), - (31.6, 2.1476136537854347e-20), - (34.7, 4.674217952356534e-20), - (41.4, 3.7899064478566483e-20), - (41.96, 7.579812895713297e-20), - (51.21, 4.2952273075708694e-20), - (54.1, 1.2633021492855498e-21), - (54.25, 3.7899064478566483e-20), + (31.6, 2.147613653785435e-22), + (34.7, 4.674217952356534e-22), + (41.4, 3.7899064478566484e-22), + (41.96, 7.579812895713297e-22), + (51.21, 4.29522730757087e-22), + (54.1, 1.2633021492855498e-23), + (54.25, 3.7899064478566484e-22), (60.5, np.nan), (64.45, np.nan), - (72.7, 1.5159625791426593e-19), - (74.94, 6.442840961356302e-20), + (72.7, 1.5159625791426594e-21), + (74.94, 6.442840961356303e-22), (76.2, np.nan), (94.0, np.nan), (95.7, np.nan), - (96.09, 1.1496049558498502e-19), - (109.19, 2.0970815678140125e-18), - (115.45, 3.7899064478566483e-20), - (120.35, 3.284585588142429e-20), - (136.55, 1.5159625791426598e-20), - (140.76, 2.5266042985710997e-19), - (142.4, 6.3165107464277484e-21), - (143.76, 1.3845791556169626e-17), + (96.09, 1.1496049558498501e-21), + (109.19, 2.0970815678140124e-20), + (115.45, 3.7899064478566484e-22), + (120.35, 3.284585588142429e-22), + (136.55, 1.5159625791426599e-22), + (140.76, 2.5266042985710997e-21), + (142.4, 6.316510746427748e-23), + (143.76, 1.3845791556169625e-19), (147.0, np.nan), - (150.93, 1.1369719343569947e-19), - (163.356, 6.417574918370592e-18), - (173.3, 7.579812895713299e-21), + (150.93, 1.1369719343569947e-21), + (163.356, 6.417574918370591e-20), + (173.3, 7.579812895713299e-23), (182.1, np.nan), - (182.62, 4.9268783822136435e-19), - (185.715, 7.200822250927634e-17), - (194.94, 7.958803540498963e-19), - (198.9, 4.547887737427979e-20), - (202.12, 1.3643663212283937e-18), - (205.316, 6.341776789413459e-18), - (215.28, 3.6635762329280945e-20), - (221.386, 1.4906965361569484e-19), - (228.78, 8.843115044998849e-21), - (233.5, 4.800548167285089e-20), - (240.88, 9.348435904713068e-20), - (246.83, 6.948161821070523e-20), - (266.45, 7.579812895713299e-21), - (275.35, 6.442840961356302e-20), - (275.49, 4.0425668777137595e-20), - (281.42, 7.579812895713299e-21), - (282.92, 7.579812895713299e-21), - (289.56, 8.843115044998849e-21), + (182.62, 4.9268783822136435e-21), + (185.715, 7.200822250927634e-19), + (194.94, 7.958803540498964e-21), + (198.9, 4.547887737427978e-22), + (202.12, 1.3643663212283936e-20), + (205.316, 6.341776789413459e-20), + (215.28, 3.6635762329280945e-22), + (221.386, 1.4906965361569485e-21), + (228.78, 8.843115044998849e-23), + (233.5, 4.800548167285089e-22), + (240.88, 9.348435904713068e-22), + (246.83, 6.948161821070524e-22), + (266.45, 7.579812895713299e-23), + (275.35, 6.442840961356303e-22), + (275.49, 4.0425668777137595e-22), + (281.42, 7.579812895713299e-23), + (282.92, 7.579812895713299e-23), + (289.56, 8.843115044998849e-23), (291.2, np.nan), - (291.65, 5.053208597142199e-20), - (301.7, 6.3165107464277484e-21), - (317.1, 1.2633021492855498e-21), - (343.5, 3.7899064478566495e-21), - (345.92, 5.053208597142199e-20), - (356.03, 6.3165107464277484e-21), - (387.84, 5.053208597142199e-20), - (410.29, 3.7899064478566495e-21), + (291.65, 5.053208597142199e-22), + (301.7, 6.316510746427748e-23), + (317.1, 1.2633021492855498e-23), + (343.5, 3.7899064478566497e-23), + (345.92, 5.053208597142199e-22), + (356.03, 6.316510746427748e-23), + (387.84, 5.053208597142199e-22), + (410.29, 3.7899064478566497e-23), (428.7, np.nan), - (448.4, 1.2633021492855498e-21), - (49.55, 3.018820986575914e-19), - (113.5, 4.811245947355363e-20), + (448.4, 1.2633021492855498e-23), + (49.55, 3.018820986575914e-21), + (113.5, 4.811245947355363e-22), (93.35, 7.135646069465136e-18), (89.953, 4.4112564001433475e-18), (105.0, 3.394789326064896e-18), @@ -2135,67 +2126,65 @@ def test_material_photons(): (13.0, 3.4433858446293e-17), ], ) - assert ( - mat.photons(True) == - [ - (31.6, 0.00011635441720927184), - (34.7, 0.0002532419668672387), - (41.4, 0.00020533132448695022), - (41.96, 0.00041066264897390045), - (51.21, 0.00023270883441854368), - (54.1, 6.844377482898343e-06), - (54.25, 0.00020533132448695022), - (72.7, 0.0008213252979478009), - (74.94, 0.0003490632516278154), - (96.09, 0.0006228383509437491), - (109.19, 0.011361666621611248), - (115.45, 0.00020533132448695022), - (120.35, 0.0001779538145553569), - (136.55, 8.213252979478011e-05), - (140.76, 0.0013688754965796687), - (142.4, 3.422188741449171e-05), - (143.76, 0.07501437721256585), - (150.93, 0.0006159939734608508), - (163.356, 0.03476943761312358), - (173.3, 4.106626489739006e-05), - (182.62, 0.0026693072183303535), - (185.715, 0.39012951652520556), - (194.94, 0.004311957814225956), - (198.9, 0.0002463975893843403), - (202.12, 0.00739192768153021), - (205.316, 0.03435877496414968), - (215.28, 0.00019848694700405194), - (221.386, 0.0008076365429820043), - (228.78, 4.79106423802884e-05), - (233.5, 0.00026008634435013703), - (240.88, 0.0005064839337344774), - (246.83, 0.00037644076155940887), - (266.45, 4.106626489739006e-05), - (275.35, 0.0003490632516278154), - (275.49, 0.00021902007945274698), - (281.42, 4.106626489739006e-05), - (282.92, 4.106626489739006e-05), - (289.56, 4.79106423802884e-05), - (291.65, 0.0002737750993159337), - (301.7, 3.422188741449171e-05), - (317.1, 6.844377482898343e-06), - (343.5, 2.053313244869503e-05), - (345.92, 0.0002737750993159337), - (356.03, 3.422188741449171e-05), - (387.84, 0.0002737750993159337), - (410.29, 2.053313244869503e-05), - (448.4, 6.844377482898343e-06), - (49.55, 0.0016355509564442952), - (113.5, 0.0002606659336833095), - (93.35, 0.03865983708758809), - (89.953, 0.02389951128754696), - (105.0, 0.018392448422289712), - (13.0, 0.16065135210061254), - (93.35, 2.8588405070536082e-05), - (89.953, 1.7673352014605407e-05), - (105.0, 1.3600956583031599e-05), - (13.0, 0.1865573691396019), - ]) + assert mat.photons(True) == [ + (31.6, 2.681359313180288e-06), + (34.7, 5.835899681627685e-06), + (41.4, 4.731810552671095e-06), + (41.96, 9.46362110534219e-06), + (51.21, 5.362718626360576e-06), + (54.1, 1.577270184223699e-07), + (54.25, 4.731810552671095e-06), + (72.7, 1.892724221068438e-05), + (74.94, 8.044077939540861e-06), + (96.09, 1.4353158676435657e-05), + (109.19, 0.00026182685058113395), + (115.45, 4.731810552671095e-06), + (120.35, 4.100902478981616e-06), + (136.55, 1.8927242210684386e-06), + (140.76, 3.1545403684473975e-05), + (142.4, 7.886350921118493e-07), + (143.76, 0.0017286881219091737), + (150.93, 1.4195431658013287e-05), + (163.356, 0.0008012532535856387), + (173.3, 9.463621105342193e-07), + (182.62, 6.151353718472424e-05), + (185.715, 0.008990440050075084), + (194.94, 9.936802160609301e-05), + (198.9, 5.678172663205315e-06), + (202.12, 0.00017034517989615943), + (205.316, 0.0007917896324802966), + (215.28, 4.574083534248726e-06), + (221.386, 1.8611788173839642e-05), + (228.78, 1.1040891289565891e-06), + (233.5, 5.993626700050055e-06), + (240.88, 1.167179936325537e-05), + (246.83, 8.674986013230342e-06), + (266.45, 9.463621105342193e-07), + (275.35, 8.044077939540861e-06), + (275.49, 5.047264589515836e-06), + (281.42, 9.463621105342193e-07), + (282.92, 9.463621105342193e-07), + (289.56, 1.1040891289565891e-06), + (291.65, 6.3090807368947945e-06), + (301.7, 7.886350921118493e-07), + (317.1, 1.577270184223699e-07), + (343.5, 4.7318105526710964e-07), + (345.92, 6.3090807368947945e-06), + (356.03, 7.886350921118493e-07), + (387.84, 6.3090807368947945e-06), + (410.29, 4.7318105526710964e-07), + (448.4, 1.577270184223699e-07), + (49.55, 3.7690874952819364e-05), + (113.5, 6.006983195605586e-06), + (93.35, 0.08909065655358435), + (89.953, 0.055075843881425855), + (105.0, 0.04238495112789303), + (13.0, 0.37021714298583336), + (93.35, 6.58812858363439e-05), + (89.953, 4.0727810904027796e-05), + (105.0, 3.134307444166928e-05), + (13.0, 0.42991693068703124), + ] def test_decay_h3(): @@ -2356,4 +2345,3 @@ def test_cram_h3(): assert 2 == len(obs) assert 0.5 == pytest.approx(obs[nucname.id("H3")]) assert 0.5 == pytest.approx(obs[nucname.id("He3")]) - From fb433e55cff2f34ab42bcfdb4c76b192016d45ac Mon Sep 17 00:00:00 2001 From: Ahnaf Tahmid Chowdhury Date: Sat, 5 Aug 2023 21:48:39 +0600 Subject: [PATCH 4/5] SkipTest changed with pytest.skip --- tests/test_material.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/tests/test_material.py b/tests/test_material.py index 6f9050f223..75dd4014f0 100644 --- a/tests/test_material.py +++ b/tests/test_material.py @@ -2201,7 +2201,7 @@ def test_decay_u235_h3(): obs = mat.decay(365.25 * 24.0 * 3600.0) if len(obs) < 4: # full decay is not installed - raise SkipTest + raise pytest.skip("full decay is not installed") exp = Material( { 10030000: 0.472645829730143, From 187866a1f459013c674a16de27e79d9f06f088a4 Mon Sep 17 00:00:00 2001 From: Ahnaf Tahmid Chowdhury Date: Sat, 19 Aug 2023 18:31:40 +0600 Subject: [PATCH 5/5] Update tests/test_material.py Co-authored-by: Paul Romano --- tests/test_material.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/tests/test_material.py b/tests/test_material.py index 75dd4014f0..1922971047 100644 --- a/tests/test_material.py +++ b/tests/test_material.py @@ -2201,7 +2201,7 @@ def test_decay_u235_h3(): obs = mat.decay(365.25 * 24.0 * 3600.0) if len(obs) < 4: # full decay is not installed - raise pytest.skip("full decay is not installed") + pytest.skip("full decay is not installed") exp = Material( { 10030000: 0.472645829730143,