def getSolventList():
    """
    Return list of solvent molecules for initializing solvation search form.
    """
    database.load('solvation','')
    SolventList = [(entry.label, index) for index,entry in database.solvation.libraries['solvent'].entries.iteritems()]
    return SolventList
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def getSolventList():
    """
    Return list of solvent molecules for initializing solvation search form.
    """
    database.load('solvation', '')
    SolventList = [(entry.label, index) for index, entry in
                   database.solvation.libraries['solvent'].entries.iteritems()]
    return SolventList
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def getSolventList():
    """
    Return list of solvent molecules for initializing solvation search form.
    If any of the Mintz parameters are None, that solvent is not shown in the list since it will cause error.
    """
    database.load('solvation', '')
    solvent_list = []
    for index, entry in database.solvation.libraries['solvent'].entries.items():
        mintz_parameter_list = [entry.data.s_h, entry.data.b_h, entry.data.e_h, entry.data.l_h, entry.data.a_h,
                                entry.data.c_h]
        if not any(h is None for h in mintz_parameter_list):
            solvent_list.append((entry.label, index))
    return solvent_list
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def get_solvent_temp_list():
    """
    Return list of solvent molecules for initializing solvation temperature-dependent search form
    and its correct temperature range. e.g. "water: 280 K - 647.10 K"
    """
    database.load('solvation', '')
    solvent_temp_list = []
    solvent_list = getSolventList()
    for label, index in solvent_list:
        solvent_data = database.solvation.get_solvent_data(label)
        if solvent_data.name_in_coolprop != None:
            Tc = "%.2f" % (solvent_data.get_solvent_critical_temperature() - 0.01) # 0.01 is subtracted because Tc is not inclusive
            solvent_temp_list.append((label, index + ": 280 K - " + str(Tc) + " K"))
    return solvent_temp_list
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 def clean_temp(self):
     """
     Custom validation for the temperature field to ensure that a valid temperature has been provided
     """
     temp = self.cleaned_data['temp']
     try:
         temp = float(temp)
     except:
         raise forms.ValidationError(
             'Only non-empty numeric input is allowed')
     database.load('solvation')
     db = database.get_solvation_database('', '')
     solvent_temp = self.cleaned_data['solvent_temp']
     if not solvent_temp == '':
         Tc = db.get_solvent_data(
             solvent_temp).get_solvent_critical_temperature()
         if temp < 280 or temp >= Tc:
             raise forms.ValidationError(
                 'Temperature is out of the valid range')
     return temp
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                method=form.cleaned_data['method'].encode(),
                fileStore=form.cleaned_data['fileStore'].encode(),
                scratchDirectory=form.cleaned_data['scratchDirectory'].encode(
                ),
                onlyCyclics=form.cleaned_data['onlyCyclics'],
                maxRadicalNumber=form.cleaned_data['maxRadicalNumber'],
            )

        # Save the input.py file
        self.rmg.saveInput(self.savepath)


################################################################################
# DATABASE MODELS
################################################################################
database.load('thermo', 'libraries')
database.load('kinetics', 'libraries')
ThermoLibraries = [(label, label)
                   for label, library in database.thermo.libraries.iteritems()]
ThermoLibraries.sort()
KineticsLibraries = [
    (label, label)
    for label, library in database.kinetics.libraries.iteritems()
]
KineticsLibraries.sort()


class ThermoLibrary(models.Model):
    input = models.ForeignKey(Input, related_name='thermo_libraries')
    thermolib = models.CharField(choices=ThermoLibraries,
                                 max_length=200,
            from rmgpy.qm.main import QMCalculator
            self.rmg.quantumMechanics = QMCalculator(software = form.cleaned_data['software'].encode(),
                                                     method = form.cleaned_data['method'].encode(),
                                                     fileStore = form.cleaned_data['fileStore'].encode(),
                                                     scratchDirectory = form.cleaned_data['scratchDirectory'].encode(),
                                                     onlyCyclics = form.cleaned_data['onlyCyclics'],
                                                     maxRadicalNumber = form.cleaned_data['maxRadicalNumber'],
                                                     )
        
        # Save the input.py file        
        self.rmg.saveInput(self.savepath)

################################################################################
# DATABASE MODELS
################################################################################
database.load('thermo', 'libraries')
database.load('kinetics', 'libraries')
ThermoLibraries = [(label, label) for label, library in database.thermo.libraries.iteritems()]
ThermoLibraries.sort()
KineticsLibraries = [(label, label) for label, library in database.kinetics.libraries.iteritems()]
KineticsLibraries.sort()

class ThermoLibrary(models.Model):
    input = models.ForeignKey(Input, related_name = 'thermo_libraries')
    thermolib = models.CharField(choices = ThermoLibraries, max_length=200, blank=True)
    def __unicode__(self):
        return self.thermolib

class ReactionLibrary(models.Model):
    input = models.ForeignKey(Input, related_name = 'reaction_libraries')
    reactionlib = models.CharField(choices = KineticsLibraries, max_length=200, blank=True)