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QUESTDB_website/tools/lib/data.py

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from collections import OrderedDict
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from TexSoup import TexSoup
from .LaTeX import newCommand
from .utils import getValFromCell,checkFloat
from TexSoup import TexNode
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from enum import IntEnum,auto,unique,IntFlag
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from .Format import Format
import re
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import numpy as np
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class state:
def __init__(self,number, multiplicity, symetry):
self.number = number
self.multiplicity = multiplicity
self.symetry = symetry
@unique
class dataType(IntEnum):
ABS=auto()
FLUO=auto()
class dataFileBase(object):
def __init__(self):
self.molecule = ''
self.comment = ''
self.code = None
self.method = None
self.excitations = []
self.DOI = ''
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@property
def IsTBE(self):
return self.method.name=="TBE"
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@staticmethod
def GetFileType():
pass
@staticmethod
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def convertState(StateTablelist,default=dataType.ABS,firstState=state(1,1,"A_1"),commands=[]):
tmplst=[]
for TexState in StateTablelist:
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math=TexState.find("$")
lst=list(math.contents)
mystr=str(lst[0])
mathsoup=None
try:
mathsoup=TexSoup(mystr)
except:
print(f"Error when parsing latex state: {mystr}")
exit(-1)
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newCommand.runAll(mathsoup,commands)
st=str(mathsoup)
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m=re.match(r"^\^(?P<multiplicity>\d)(?P<symm>[^\s\[(]*)\s*(?:\[(?:\\mathrm{)?(?P<special>\w)(?:})\])?\s*(:?\((?P<type>[^\)]*)\))?",st)
seq=m.group("multiplicity","symm")
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mul=int(m.group("multiplicity"))
symm=m.group("symm")
spgrp=m.group("special")
if spgrp is not None and spgrp=="F":
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trsp=dataType.FLUO
else:
trsp=default
tygrp=m.group("type")
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tmplst.append((mul,symm,trsp,tygrp))
lst=[]
for index,item in enumerate(tmplst):
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unformfirststate=(firstState.multiplicity,firstState.symetry)
countlst=[unformfirststate]+[(it[0],it[1]) for it in tmplst[:index+1]]
countitem=(item[0],item[1])
count=countlst.count(countitem)
lst.append((state(count,item[0],item[1]),item[2],item[3]))
return lst
@staticmethod
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def readFromTable(table,format=Format.LINE,default=dataType.ABS ,firstState=state(1,1,"A_1"),commands=[]):
def getSubtableIndex(table):
subtablesindex=list()
firstindex=2
for i in range(3,np.size(table,0)):
if str(table[i,0])!="":
subtablesindex.append((firstindex,i-1))
firstindex=i
subtablesindex.append((firstindex,np.size(table,0)))
return subtablesindex
datalist=list()
switcher={
dataType.ABS:AbsDataFile,
dataType.FLUO:FluoDataFile,
}
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if format==Format.LINE:
for col in range(1,np.size(table,1)):
col=table[:,col]
mymolecule=str(col[0])
mymethod=method(str(col[2]),str(col[1]))
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finsts=dataFileBase.convertState(table[3:,0],default=default,firstState=firstState,commands=commands)
datacls=dict()
for index,cell in enumerate(col[3:]):
if str(cell)!="":
val,unsafe=getValFromCell(cell)
finst=finsts[index]
dt=finst[1]
if dt in datacls:
data=datacls[dt]
else:
cl=switcher[dt]
data=cl()
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datacls[dt]=data
data.molecule=mymolecule
data.method=mymethod
data.excitations.append(excitationValue(firstState,finst[0],val,type=finst[2],isUnsafe=unsafe))
for value in datacls.values():
datalist.append(value)
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return datalist
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elif format==Format.COLUMN:
subtablesindex=getSubtableIndex(table)
for first, last in subtablesindex:
for col in range(2,np.size(table,1)):
datacls=dict()
col=table[:,col]
mymolecule=str(table[first,0])
mymethod=method(str(col[1]),str(col[0]))
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finsts=dataFileBase.convertState(table[first:last+1,1],default=default,firstState=firstState,commands=commands)
for index,cell in enumerate(col[first:last+1]):
if str(cell)!="":
val,unsafe=getValFromCell(cell)
finst=finsts[index]
dt=finst[1]
if dt in datacls:
data=datacls[dt]
else:
cl=switcher[dt]
data=cl()
data.molecule=mymolecule
data.method=mymethod
datacls[dt]=data
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data.excitations.append(excitationValue(firstState,finst[0],val,type=finst[2]))
for value in datacls.values():
datalist.append(value)
return datalist
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elif format==Format.TBE:
subtablesindex=getSubtableIndex(table)
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for first, last in subtablesindex:
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datacls=dict()
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mymolecule=str(table[first,0])
mymethod=(method("TBE(FC)"),method("TBE"))
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finsts=dataFileBase.convertState(table[first:last+1,1],default=default,firstState=firstState,commands=commands)
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for index,row in enumerate(table[first:last+1,]):
oscilatorForces=checkFloat(str(row[2]))
T1 = checkFloat(str(row[3]))
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val,unsafe = getValFromCell(row[4])
corr,unsafecorr = getValFromCell(row[7])
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finst=finsts[index]
dt=finst[1]
if dt in datacls:
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datamtbe = datacls[dt]
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else:
cl=switcher[dt]
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datamtbe=[]
for met in mymethod:
data=cl()
data.molecule=mymolecule
data.method=met
datamtbe.append(data)
datacls[dt]=datamtbe
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vs=[val,corr]
uns=[unsafe,unsafecorr]
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for i in range(2):
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datamtbe[i].excitations.append(excitationValue(firstState,finst[0],vs[i],type=finst[2],T1=T1,forces=oscilatorForces,isUnsafe=uns[i]))
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for value in datacls.values():
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for dat in value:
datalist.append(dat)
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return datalist
def getMetadata(self):
dic=OrderedDict()
dic["Molecule"]=self.molecule
dic["Comment"]=self.comment
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dic["code"]="" if self.code is None else self.code.toDataString()
dic["method"]="" if self.method is None else self.method.toDataString()
dic["DOI"]="" if self.DOI is None else self.DOI
return dic
def toFile(self,datadir):
subpath=datadir/self.GetFileType().name.lower()
if not subpath.exists():
subpath.mkdir()
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fileName="{}_{}.dat".format(self.molecule.lower().replace(" ","_"),self.method.name) if self.method.basis==None else "{}_{}_{}.dat".format(self.molecule.lower().replace(" ","_"),self.method.name,self.method.basis)
file=subpath/fileName
if not file.exists():
with file.open("w") as f:
for key,value in self.getMetadata().items():
if value is not None:
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f.write("# {:9s}: {}\n".format(key,value))
f.write("""
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# Initial state Final state Transition Energies (eV) %T1 Oscilator forces unsafe
####################### ####################### ######################################## ############# ####### ################### ##############
# Number Spin Symm Number Spin Symm type E_{:5s} %T1 f is unsafe\n""".format(self.GetFileType().name.lower()))
for ex in self.excitations:
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mystr=" {:7s} {:6s} {:9s} {:7s} {:5s} {:12s} {:39s} {:13s} {:14s} {:13s}{}\n".format(
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str(ex.initial.number),
str(ex.initial.multiplicity),
ex.initial.symetry,
str(ex.final.number),
str(ex.final.multiplicity),
ex.final.symetry,"("+str(ex.type)+")" if ex.type is not None else "_",
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str(ex.value) if ex.value is not None else "_",
str(ex.T1) if ex.T1 is not None else "_",
str(ex.oscilatorForces) if ex.oscilatorForces is not None else "_",
str(ex.isUnsafe).lower())
f.write(mystr)
class method:
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def __init__(self,name, *args):
self.name = name
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self.basis=args[0] if len(args)>0 else None
@staticmethod
def fromString(string):
vals = string.split(",")
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return method(*vals)
def __str__(self):
string = self.name
if (self.basis):
string+= '/' + self.basis
return string
def toDataString(self):
string=self.name
if (self.basis):
string+=","+self.basis
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return string
class code:
def __init__(self,name, version):
self.name = name
self.version = version
def toDataString(self):
string=self.name
if (self.version):
string+=","+self.version
return string
class oneStateDataFileBase(dataFileBase):
def __init__(self):
super(oneStateDataFileBase,self).__init__()
self.geometry = None
def getMetadata(self):
dic=super(oneStateDataFileBase,self).getMetadata()
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dic["geom"]= "" if self.geometry is None else self.geometry.toDataString()
dic.move_to_end("DOI")
return dic
class AbsDataFile(oneStateDataFileBase):
def __init__(self):
super(AbsDataFile,self).__init__()
@staticmethod
def GetFileType():
return dataType.ABS
class FluoDataFile(oneStateDataFileBase):
def __init__(self):
super(FluoDataFile,self).__init__()
@staticmethod
def GetFileType():
return dataType.FLUO
class excitationBase:
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def __init__(self,initial, final, **kwargs):
self.initial = initial
self.final = final
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self.type = kwargs["type"] if "type" in kwargs else None
self.T1 = kwargs["T1"] if "T1" in kwargs else None
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self.isUnsafe = kwargs["isUnsafe"] if "isUnsafe" in kwargs else False
class excitationValue(excitationBase):
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def __init__(self,initial, final, value,**kwarg):
supkwarg=kwarg.copy()
for item in ["forces","corrected"]:
if item in supkwarg:
supkwarg.pop(item)
super(excitationValue,self).__init__(initial, final,**supkwarg)
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self.value = value
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self.oscilatorForces=kwarg["forces"] if "forces" in kwarg else None