mirror of
https://github.com/LCPQ/quantum_package
synced 2024-12-24 13:23:41 +01:00
135 lines
3.4 KiB
Python
Executable File
135 lines
3.4 KiB
Python
Executable File
#!/usr/bin/env python
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# -*- coding: utf-8 -*-
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import unittest
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import subprocess
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import os
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import sys
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qpackage_root = os.environ['QPACKAGE_ROOT']
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EZFIO = "{0}/EZFIO".format(qpackage_root)
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sys.path = [EZFIO + "/Python"] + sys.path
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from ezfio import ezfio
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from collections import defaultdict
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# ~#~#~ #
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# O p t #
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# ~#~#~ #
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precision = 1.e-8
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# A test get a geo file and a basis file.
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# A global dict containt the result for this test
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# A test return True or Raise a error !
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# More ezfio condition you set, beter it is
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# You cannot order the test flow.
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# So if you dont whant to remarque on test (for example the HF), set
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# a global variable and check for it
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global has_hf_alredy
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has_hf_alredy = False
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def init_folder(geo, basis, mult=1):
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'''
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Take a geo in arg (aka a existing geo.xyz in test/)
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And create the geo.ezfio with the adeguate basis and multipliciti
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DO NOT CHECK IS THE EZFIO FOLDER ALREADY EXIST
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'''
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cmd = "cp {0}/tests/{1}.xyz .".format(qpackage_root, geo)
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subprocess.check_call([cmd], shell=True)
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cmd = "qp_create_ezfio_from_xyz -b {0} -m {1} {2}.xyz".format(basis,
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mult,
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geo)
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subprocess.check_call([cmd], shell=True)
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def get_error_message(l_exepected, l_cur):
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l_msg = ["Need {0} get {1}".format(i,j) for i,j in zip(l_exepected,l_cur)]
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return "\n".join(l_msg)
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def run_hf(geo, basis):
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"""
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Run a simle by default hf
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EZFIO path = geo.ezfio
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"""
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global has_hf_alredy
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has_hf_alredy = True
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ref_energy = defaultdict(dict)
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ref_energy["sto-3g"]["methane"] = -39.7267433402
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init_folder(geo, basis)
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cmd = "qp_run SCF {0}.ezfio/".format(geo)
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subprocess.check_call([cmd], shell=True)
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ezfio.set_file("{0}.ezfio".format(geo))
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cur_e = ezfio.get_hartree_fock_energy()
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ref_e = ref_energy[basis][geo]
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if abs(cur_e - ref_e) <= precision:
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return True
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else:
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raise ValueError(get_error_message([ref_e], [cur_e]))
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def run_full_ci_10k_pt2_end(geo, basis):
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"""
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Run a Full_ci with 10k with the TruePT2
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EZFIO path = geo.ezfio
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"""
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ref_energy_var = defaultdict(dict)
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ref_energy_pt2 = defaultdict(dict)
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ref_energy_var["sto-3g"]["methane"] = -0.398058753535695E+02
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ref_energy_pt2["sto-3g"]["methane"] = -0.398059182483741E+02
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ezfio.set_file("{0}.ezfio".format(geo))
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ezfio.full_ci_do_pt2_end = True
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ezfio.full_ci_n_det_max_fci = 10000
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ezfio.full_ci_pt2_max = 1.e-8
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cmd = "qp_run full_ci {0}.ezfio/".format(geo)
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subprocess.check_call([cmd], shell=True)
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cur_var = ezfio.get_full_ci_energy()
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cur_pt2 = ezfio.get_full_ci_energy_pt2()
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ref_var = ref_energy_var[basis][geo]
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ref_pt2 = ref_energy_pt2[basis][geo]
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t = [abs(cur_var - ref_var) <= precision,
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abs(cur_pt2 - ref_pt2) <= precision]
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if all(t):
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return True
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else:
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raise ValueError(get_error_message([ref_var, ref_pt2],
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[cur_var, cur_pt2]))
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def run_big_test(geo, basis):
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if not has_hf_alredy:
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run_hf(geo, basis)
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run_full_ci_10k_pt2_end(geo, basis)
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return True
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class SimplisticTest(unittest.TestCase):
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def test_full_ci_10k_pt2_end(self):
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self.assertTrue(run_big_test("methane", "sto-3g"))
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if __name__ == '__main__':
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unittest.main()
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