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DP4.py
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DP4.py
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# -*- coding: utf-8 -*-
"""
Created on Wed May 27 14:18:37 2015
Updated on July 30 14:18:37 2015
@author: ke291
Equivalent and compact port of DP4.jar to python. The results
produced are essentially equivalent, but not identical due to different
floating point precision used in the Python (53 bits) and Java (32 bits)
implementation.
"""
from scipy import stats
import bisect
import os
import numpy as np
# Standard DP4 parameters
meanC = 0.0
meanH = 0.0
stdevC = 2.269372270818724
stdevH = 0.18731058105269952
class DP4data:
def __init__(self):
self.Cshifts = [] # Carbon shifts used in DP4 calculation
self.Cexp = [] # Carbon experimental shifts used in DP4 calculation
self.Clabels = [] # Carbon atom labels
self.Hshifts = [] # Proton shifts used in DP4 calculation
self.Hexp = [] # Proton experimental shifts used in DP4 calculation
self.Hlabels = [] # Proton atom labels
self.Cscaled = [] # Internally scaled carbon shifts
self.Hscaled = [] # Internally scaled proton shifts
self.Cerrors = [] # Scaled Carbon prediction errors
self.Herrors = [] # Scaled Proton prediction errors
self.Cprobs = [] # Scaled carbon prediction error probabilities
self.Hprobs = [] # Scaled proton prediction error probabilities
self.CDP4probs = [] # Carbon DP4 probabilities
self.HDP4probs = [] # Proton DP4 probabilities
self.DP4probs = [] # combined Carbon and Proton DP4 probabilities
self.output = str() # final DP4 output
def ProcessIsomers(DP4data, Isomers):
# extract calculated and experimental shifts and add to DP4data instance
# Carbon
# make sure any shifts with missing peaks are removed from all isomers
removedC = []
removedH = []
for iso in Isomers:
DP4data.Cshifts.append([])
DP4data.Cexp.append([])
DP4data.Clabels.append([])
for shift, exp, label in zip(iso.Cshifts, iso.Cexp, iso.Clabels):
if exp != '':
DP4data.Cshifts[-1].append(shift)
DP4data.Cexp[-1].append(exp)
DP4data.Clabels[-1].append(label)
'''
elif label not in removedC:
removedC.append(label)
for l in removedC:
for j, Clabel in enumerate(DP4data.Clabels):
if l in Clabel:
i = Clabel.index(l)
DP4data.Cshifts[j].pop(i)
DP4data.Cexp[j].pop(i)
DP4data.Clabels[j].pop(i)
'''
# proton
for iso in Isomers:
DP4data.Hshifts.append([])
DP4data.Hexp.append([])
DP4data.Hlabels.append([])
for shift, exp, label in zip(iso.Hshifts, iso.Hexp, iso.Hlabels):
if exp != '':
DP4data.Hshifts[-1].append(shift)
DP4data.Hexp[-1].append(exp)
DP4data.Hlabels[-1].append(label)
'''
elif label not in removedH:
removedH.append(label)
for l in removedH:
for j, Hlabel in enumerate(DP4data.Hlabels):
if l in Hlabel:
i = Hlabel.index(l)
DP4data.Hshifts[j].pop(i)
DP4data.Hexp[j].pop(i)
DP4data.Hlabels[j].pop(i)
'''
return DP4data
def InternalScaling(DP4data):
# perform internal scaling process
# calculate prediction errors
if len(DP4data.Cexp[0]) > 1:
for Cshifts, Cexp in zip(DP4data.Cshifts, DP4data.Cexp):
DP4data.Cscaled.append(ScaleNMR(Cshifts, Cexp))
else:
DP4data.Cscaled = DP4data.Cshifts
for Cscaled, Cexp in zip(DP4data.Cscaled, DP4data.Cexp):
DP4data.Cerrors.append([Cscaled[i] - Cexp[i] for i in range(0, len(Cscaled))])
if len(DP4data.Hexp[0]) > 1:
for Hshifts, Hexp in zip(DP4data.Hshifts, DP4data.Hexp):
DP4data.Hscaled.append(ScaleNMR(Hshifts, Hexp))
else:
DP4data.Hscaled = DP4data.Hshifts
for Hscaled, Hexp in zip(DP4data.Hscaled, DP4data.Hexp):
DP4data.Herrors.append([Hscaled[i] - Hexp[i] for i in range(0, len(Hscaled))])
return DP4data
def ScaleNMR(calcShifts, expShifts):
slope, intercept, r_value, p_value, std_err = stats.linregress(expShifts,
calcShifts)
scaled = [(x - intercept) / slope for x in calcShifts]
return scaled
def CalcProbs(DP4data, Settings):
# calculates probability values for each scaled prediction error value using the chosen statistical model
if Settings.StatsModel == 'g' or 'm':
print(Settings.StatsParamFile)
if Settings.StatsParamFile == 'none':
print('No stats model provided, using default')
for errors in DP4data.Cerrors:
DP4data.Cprobs.append([SingleGausProbability(e, meanC, stdevC) for e in errors])
for errors in DP4data.Herrors:
DP4data.Hprobs.append([SingleGausProbability(e, meanH, stdevH) for e in errors])
else:
print('Using stats model provided')
Cmeans, Cstdevs, Hmeans, Hstdevs = ReadParamFile(Settings.StatsParamFile, Settings.StatsModel)
for errors in DP4data.Cerrors:
DP4data.Cprobs.append([MultiGausProbability(e, Cmeans, Cstdevs) for e in errors])
for errors in DP4data.Herrors:
DP4data.Hprobs.append([MultiGausProbability(e, Hmeans, Hstdevs) for e in errors])
return DP4data
def SingleGausProbability(error, mean, stdev):
z = abs((error - mean) / stdev)
cdp4 = 2 * stats.norm.cdf(-z)
return cdp4
def MultiGausProbability(error, means, stdevs):
res = 0
for mean, stdev in zip(means, stdevs):
res += stats.norm(mean, stdev).pdf(error)
return res / len(means)
def ReadParamFile(f, t):
infile = open(f, 'r')
inp = infile.readlines()
infile.close()
if t not in inp[0]:
print("Wrong parameter file type, exiting...")
quit()
if t == 'm':
Cmeans = [float(x) for x in inp[1].split(',')]
Cstdevs = [float(x) for x in inp[2].split(',')]
Hmeans = [float(x) for x in inp[3].split(',')]
Hstdevs = [float(x) for x in inp[4].split(',')]
return Cmeans, Cstdevs, Hmeans, Hstdevs
def CalcDP4(DP4data):
# Calculate Carbon DP4 probabilities
for probs in DP4data.Cprobs:
DP4data.CDP4probs.append(1)
for p in probs:
DP4data.CDP4probs[-1] *= p
# Calculate Proton DP4 probabilities
for probs in DP4data.Hprobs:
DP4data.HDP4probs.append(1)
for p in probs:
DP4data.HDP4probs[-1] *= p
# Calculate Combined DP4 probabilities
for Hp, Cp in zip(DP4data.HDP4probs, DP4data.CDP4probs):
DP4data.DP4probs.append(Hp * Cp)
Cs = sum(DP4data.CDP4probs)
Hs = sum(DP4data.HDP4probs)
Ts = sum(DP4data.DP4probs)
DP4data.CDP4probs = [i / Cs for i in DP4data.CDP4probs]
DP4data.HDP4probs = [i / Hs for i in DP4data.HDP4probs]
DP4data.DP4probs = [i / Ts for i in DP4data.DP4probs]
return DP4data
def PrintAssignment(DP4Data):
isomer = 0
for Clabels, Cshifts, Cexp, Cscaled in zip(DP4Data.Clabels, DP4Data.Cshifts, DP4Data.Cexp, DP4Data.Cscaled):
DP4Data.output += ("\n\nAssigned C shifts for isomer " + str(isomer + 1) + ": ")
PrintNMR(Clabels, Cshifts, Cscaled, Cexp, DP4Data)
isomer += 1
isomer = 0
for Hlabels, Hshifts, Hexp, Hscaled in zip(DP4Data.Hlabels, DP4Data.Hshifts, DP4Data.Hexp, DP4Data.Hscaled):
DP4Data.output += ("\n\nAssigned H shifts for isomer " + str(isomer + 1) + ": ")
PrintNMR(Hlabels, Hshifts, Hscaled, Hexp, DP4Data)
isomer += 1
def PrintNMR(labels, values, scaled, exp, DP4Data):
s = np.argsort(values)
svalues = np.array(values)[s]
slabels = np.array(labels)[s]
sscaled = np.array(scaled)[s]
sexp = np.array(exp)[s]
DP4Data.output += ("\nlabel, calc, corrected, exp, error")
for i in range(len(labels)):
DP4Data.output += ("\n" + format(slabels[i], "6s") + ' ' + format(svalues[i], "6.2f") + ' '
+ format(sscaled[i], "6.2f") + ' ' + format(sexp[i], "6.2f") + ' ' +
format(sexp[i] - sscaled[i], "6.2f"))
def MakeOutput(DP4Data, Isomers, Settings):
# add some info about the calculation
DP4Data.output += Settings.InputFiles[0] + "\n"
DP4Data.output += "\n" + "Solvent = " + Settings.Solvent
DP4Data.output += "\n" + "Force Field = " + Settings.ForceField + "\n"
if 'o' in Settings.Workflow:
DP4Data.output += "\n" + "DFT optimisation Functional = " + Settings.oFunctional
DP4Data.output += "\n" + "DFT optimisation Basis = " + Settings.oBasisSet
if 'e' in Settings.Workflow:
DP4Data.output += "\n" + "DFT energy Functional = " + Settings.eFunctional
DP4Data.output += "\n" + "DFT energy Basis = " + Settings.eBasisSet
if 'n' in Settings.Workflow:
DP4Data.output += "\n" + "DFT NMR Functional = " + Settings.nFunctional
DP4Data.output += "\n" + "DFT NMR Basis = " + Settings.nBasisSet
if Settings.StatsParamFile != "none":
DP4Data.output += "\n\nStats model = " + Settings.StatsParamFile
DP4Data.output += "\n\nNumber of isomers = " + str(len(Isomers))
c = 1
for i in Isomers:
DP4Data.output += "\nNumber of conformers for isomer " + str(c) + " = " + str(len(i.Conformers))
c += 1
PrintAssignment(DP4Data)
DP4Data.output += ("\n\nResults of DP4 using Proton: ")
for i, p in enumerate(DP4Data.HDP4probs):
DP4Data.output += ("\nIsomer " + str(i + 1) + ": " + format(p * 100, "4.1f") + "%")
DP4Data.output += ("\n\nResults of DP4 using Carbon: ")
for i, p in enumerate(DP4Data.CDP4probs):
DP4Data.output += ("\nIsomer " + str(i + 1) + ": " + format(p * 100, "4.1f") + "%")
DP4Data.output += ("\n\nResults of DP4: ")
for i, p in enumerate(DP4Data.DP4probs):
DP4Data.output += ("\nIsomer " + str(i + 1) + ": " + format(p * 100, "4.1f") + "%")
print("number of c protons = " + str(len(Isomers[0].Hlabels)))
print("number of c carbons = " + str(len(Isomers[0].Clabels)))
print("number of e protons = " + str(len(DP4Data.Hexp[0])))
print("number of e carbons = " + str(len(DP4Data.Cexp[0])))
print(DP4Data.output)
if Settings.OutputFolder == '':
out = open(str(os.getcwd()) + "/" + str(Settings.InputFiles[0] + "NMR.dp4"), "w+")
else:
out = open(os.path.join(Settings.OutputFolder, str(Settings.InputFiles[0] + "NMR.dp4")), "w+")
out.write(DP4Data.output)
out.close()
return DP4Data