Exemplo n.º 1
0
 def _extract_results_if_not_present(myinput, resultdir):
     resultshelf = os.path.join(resultdir, ssc.DENSCOMP_RESULT_FILE)
     if sc.shelf_exists(resultshelf):
         return
     calculator = AtomCompressionResult(myinput.calculator)
     output = calculator.get_output(resultdir)
     result = {
         'potentials': output.get_potentials(),
         'density': output.get_density012()
     }
     sc.store_as_shelf(resultshelf, result)
Exemplo n.º 2
0
 def _extract_results_if_not_present(myinput, shells, resultdir):
     resultshelf = os.path.join(resultdir, ssc.WAVECOMP_RESULT_FILE)
     if sc.shelf_exists(resultshelf):
         return
     calculator = AtomCompressionResult(myinput.calculator)
     output = calculator.get_output(resultdir)
     resultdict = {}
     for nn, ll in shells:
         # Needs name as shelf allows only strings as keys
         shellname = sc.shell_ind_to_name(nn, ll)
         resultdict[shellname] = output.get_wavefunction012(0, nn, ll)
     sc.store_as_shelf(resultshelf, resultdict)
Exemplo n.º 3
0
 def _extract_results_if_not_present(myinput, occshells, resultdir):
     resultshelf = os.path.join(resultdir, ssc.DENSCOMP_RESULT_FILE)
     if sc.shelf_exists(resultshelf):
         return
     calculator = AtomCompressionResult(myinput.calculator)
     output = calculator.get_output(resultdir)
     result = {
         'potentials': output.get_potentials(),
         'density': output.get_density012()
     }
     for qn, _ in occshells:
         nn = qn[0]
         ll = qn[1]
         # needs name as shelf allows only strings as keys
         shellname = sc.shell_ind_to_name(nn, ll)
         result[shellname] = output.get_wavefunction012(0, nn, ll)
     sc.store_as_shelf(resultshelf, result)