587 lines
18 KiB
Python
Executable file
587 lines
18 KiB
Python
Executable file
#!/usr/bin/python
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import sys
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import os.path
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import re
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import time
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import numpy as np
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import FormFactor
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###########################################################################################
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###########################################################################################
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###########################################################################################
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###########################################################################################
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###############
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############### Miscellaneous
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def file_exists(arg, name):
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if os.path.exists(arg):
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print(name,":\t",arg)
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else:
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raise IOError(arg,"The file does not exist")
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###############
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def check_int(strg, name):
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try:
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return int(strg)
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except ValueError:
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raise ValueError(name," must be an int number")
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###############
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def check_binary(arg, name):
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if arg ==0 or arg == 1:
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pass
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else:
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raise Exception(name," must be 0 or 1")
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###############
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def check_float_positive(strg, name):
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try:
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float(strg)
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except ValueError:
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raise ValueError(name," must be a float number")
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if float(strg) >= 0:
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return float(strg)
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else:
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raise Exception(name," must be a positive number")
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###########################################################################################
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###########################################################################################
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###########################################################################################
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###########################################################################################
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class Reading:
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'Read the Options & Parameters file'
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EMPTY=[]
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def __init__ ( self , ARGV ):
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if len(ARGV)>3:
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sys.exit("--- Too many arguments")
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elif len(ARGV)==1:
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sys.exit("--- Specify the parameters file")
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file_exists(ARGV[1], "Parameters File")
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with open(ARGV[1], 'r') as f:
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LINES = f.read().splitlines()
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TEMP=[]
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OPT=[]
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PARA=[]
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for i in range(len(LINES)):
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if not LINES[i]=='':
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TEMP.append(LINES[i])
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else:
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TEMP.append("#")
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Reading.EMPTY.append(i)
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line = 0
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while line < Reading.EMPTY[0]:
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OPT.append(TEMP[line].split())
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line += 1
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line = Reading.EMPTY[1]+1
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while line <= len(TEMP)-1:
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PARA.append(TEMP[line].split())
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line += 1
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self.OPT=OPT
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self.PARA=PARA
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###########################################################################################
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###########################################################################################
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def Options ( self ):
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'Read Options'
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err_str = "\n--- Something missing or wrong.\n--- You need:\n"
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err_str += "DATA_FILE: <filename>\n"
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err_str += "TITLE: string\n"
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err_str += "SAVE_FOLDER: string\n"
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err_str += "q_MIN(nm^-1): float\n"
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err_str += "q_MAX(nm^-1): float\n"
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err_str += "MODEL: string\n"
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err_str += "TEMPERATURE(none=0): float or 0\n"
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err_str += "BINNING: 4\n"
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err_str += "ERROR(0..1): float\n"
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err_str += "PLOT(0-1): int 0/1"
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options={}
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for i in range(len(self.OPT)):
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if re.match( r"^DATA_FILE:$", self.OPT[i][0] ):
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options['datafile'] = str(self.OPT[i][1])
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file_exists(options['datafile'], "Data File")
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elif re.match( r"^TITLE:$", self.OPT[i][0] ):
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options['title'] = str(self.OPT[i][1])
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print("Title:\t\t", options['title'])
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elif re.match( r"^SAVE_FOLDER:$", self.OPT[i][0] ):
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options['folder'] = str(self.OPT[i][1])
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if os.path.exists(options['folder'])==0:
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os.makedirs(options['folder'])
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print("--- Creating new folder: ", options['folder'])
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print("Saving Folder:\t", options['folder'])
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elif os.path.exists(options['folder'])==1:
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print("Saving Folder:\t", options['folder'])
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elif re.match( r"^q_MIN\(nm\^-1\):$", self.OPT[i][0] ):
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options['qmin'] = check_float_positive(self.OPT[i][1], "qmin")
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print("q range:\t(%s .." %options['qmin'], )
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elif re.match( r"^q_MAX\(nm\^-1\):$", self.OPT[i][0] ):
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options['qmax'] = check_float_positive(self.OPT[i][1], "qmax")
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print("%s) nm^-1\n" %options['qmax'], )
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elif re.match( r"^MODEL:$", self.OPT[i][0] ):
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options['function'] = str(self.OPT[i][1])
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print("Function:\t", options['function'])
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elif re.match( r"^TEMPERATURE\(none=0\):$", self.OPT[i][0] ):
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options['temp'] = check_float_positive(self.OPT[i][1], "Temperarure")
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if options['temp'] != 0:
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print("Temperarure:\t", options['temp'])
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else:
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print("Temperarure:\tNo Simulated Annealing")
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elif re.match( r"^BINNING:$", self.OPT[i][0] ):
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options['bing'] = check_int(self.OPT[i][1], "Binning")
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print("Binning:\t", options['bing'])
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elif re.match( r"^ERROR\(0\.\.1\):$", self.OPT[i][0] ):
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options['err_mul'] = check_float_positive(self.OPT[i][1], "Error Mult.")
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print("Error Mult.:\t", options['err_mul'])
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elif re.match( r"^PLOT\(0-1\):$", self.OPT[i][0] ):
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options['plot'] = check_int(self.OPT[i][1], "Plot")
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check_binary(options['plot'], "Plot")
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print("Plot:\t\t", options['plot'])
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else:
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raise Exception(err_str)
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if len(options)!=10:
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raise Exception(err_str)
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return options
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###########################################################################################
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###########################################################################################
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def Parameters ( self ):
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'Read Parameters'
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############### Define parameters arrays
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NAME=[]
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PAR=[]
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FIX=[]
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PRIOR=[]
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L_LIM=[]
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H_LIM=[]
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for i in range(len(self.PARA)):
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if not re.match( r"^#" , self.PARA[i][0] ):
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NAME.append(self.PARA[i][0])
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PAR.append(float(self.PARA[i][1]))
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FIX.append(self.PARA[i][2])
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PRIOR.append(self.PARA[i][3])
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L_LIM.append(float(self.PARA[i][4]))
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H_LIM.append(float(self.PARA[i][5]))
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############### Check if there are free parameters
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n=0
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for i in range(len(FIX)):
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if FIX[i]=="f":
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n += 1
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if n==len(PAR):
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sys.exit("--- All the parameters are fixed; Choose the \"Plot\" option")
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############### Check & Print parameters features
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for i in range(len(NAME)):
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if FIX[i]=="f":
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f="Fixed"
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print(i,"\t%4s\t%.3e\t%s" %(NAME[i],PAR[i],f))
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else:
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if PAR[i]==0:
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sys.exit("--- 0 value as free parameter is not allowed")
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if FIX[i]=="-" and PRIOR[i]=="-":
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f="Free"
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print(i,"\t%4s\t%.3e\t%s\t\thard boundaries (%.3e, %.3e)" %(NAME[i],PAR[i],f,L_LIM[i],H_LIM[i]))
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elif FIX[i]=="-" and PRIOR[i]!="-":
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f="Prior"
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print(i,"\t%4s\t%.3e\t%s %.5s\thard boundaries (%.3e, %.3e)" %(NAME[i],PAR[i],f,PRIOR[i],L_LIM[i],H_LIM[i]))
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else:
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sys.exit("--- Free/Fixed -> -/f")
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if H_LIM[i]-L_LIM[i]<=0:
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sys.exit("--- Check low & high parameter boundary")
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if PAR[i]<L_LIM[i]:
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sys.exit("--- Check low & high parameter boundary")
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if PAR[i]>H_LIM[i]:
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sys.exit("--- Check low & high parameter boundary")
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return ( NAME , PAR , FIX, PRIOR, L_LIM , H_LIM )
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###########################################################################################
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def Parameters_refresh ( self ):
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'Read Parameters'
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############### Define parameters arrays
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NAME=[]
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PAR=[]
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FIX=[]
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PRIOR=[]
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L_LIM=[]
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H_LIM=[]
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for i in range(len(self.PARA)):
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if not re.match( r"^#" , self.PARA[i][0] ):
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NAME.append(self.PARA[i][0])
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PAR.append(float(self.PARA[i][1]))
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FIX.append(self.PARA[i][2])
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PRIOR.append(self.PARA[i][3])
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L_LIM.append(float(self.PARA[i][4]))
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H_LIM.append(float(self.PARA[i][5]))
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return ( NAME , PAR , FIX, PRIOR, L_LIM , H_LIM )
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###########################################################################################
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###########################################################################################
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###########################################################################################
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###########################################################################################
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class ReadData:
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"""Read raw data from file. Format:
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1st column: q value
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2nd column: I value
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3rd column: error
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"""
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def __init__ ( self , datafile ):
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DATA = []
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with open(datafile, 'r') as d:
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DLINES = d.read().splitlines()
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for row in DLINES:
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DATA.append(row.split())
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DATA.pop(0)
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for i in range(len(DATA)):
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for j in range(len(DATA[i])):
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DATA[i][j] = float(DATA[i][j])
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self.DATA = DATA
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###########################################################################################
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###########################################################################################
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def SelectColumns ( self , qmin , qmax , bing , err_mul ):
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'Select q / I(q) / err(q) data - Change I(q) value from mm^-1 to nm^-1'
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Q = []
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IDATA = []
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ERR = []
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for i in range(len(self.DATA)):
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if ( self.DATA[i][0] >= qmin and self.DATA[i][0] <= qmax ) :
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if i%bing == 0 :
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Q.append(self.DATA[i][0])
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if self.DATA[i][1] > 0 :
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IDATA.append(1e-6*self.DATA[i][1])
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if err_mul == 0 :
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ERR.append(0.01*1e-6*self.DATA[i][1])
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elif self.DATA[i][2]*err_mul > 0.01*self.DATA[i][1] :
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ERR.append(1e-6*self.DATA[i][2]*err_mul)
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else:
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ERR.append(0.01*1e-6*self.DATA[i][1])
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else:
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Q.pop()
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return ( np.array(Q), np.array(IDATA), np.array(ERR) )
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###########################################################################################
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###########################################################################################
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###########################################################################################
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###########################################################################################
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class PlotData:
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'Plot Results'
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def __init__ ( self , title , folder , qmin , qmax ):
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self.fitFile="./"+folder+"/"+title+".fit"
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self.gnuFile="./"+folder+"/"+title+".gp"
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self.intensityFile="./"+folder+"/"+title+"_I.pdf"
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self.structureFile="./"+folder+"/"+title+"_Sq.pdf"
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self.errorFile="./"+folder+"/"+title+"_err.pdf"
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self.qmin=str(qmin)
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self.qmax=str(qmax)
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self.gnuStr0= str( "set term pdfcairo enhanced solid color font \"Helvetica,14\" \
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lw 2 rounded size 5 inch, 3.5 inch\n \
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set encoding iso_8859_1\n \
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set grid\n \
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set key box\n \
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set bars small\n \
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set xtics add ("+str(qmin)+","+str(qmax)+")\n \
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set ytics format \"10^\{%T\}\"\n \
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set mytics 10\n \
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set title \""+title+"\"\n" )
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###########################################################################################
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###########################################################################################
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def Form ( self, Q, IDATA, ERR, I, PAR, pltOptions ):
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'Plot the best fit of a Form Factor'
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############### Check Cluster Structure Factor
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if pltOptions['debyeCtr'] != 0:
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############### Save constant value
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if conv == 0:
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C = str(1e6*PAR[-1])
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else:
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C = str(1e6*PAR[-2])
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############### Prepare Form Factor
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PAR_FORM=list(PAR)
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for i in range(pltOptions['parDiff']):
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PAR_FORM.pop(-1)
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PAR_FORM.append(0.0)
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if conv == 1:
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PAR_FORM.append(PAR[-1])
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FORM = [ pltOptions['Form'](q, PAR_FORM) for q in Q ]
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############### Prepare Cluster Structure Factor
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if conv == 0:
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Io = PAR[-4]
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Rg = PAR[-3]
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D = PAR[-2]
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else:
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Io = PAR[-5]
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Rg = PAR[-4]
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D = PAR[-3]
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DEBYE = [ pltOptions['debyeCtr'](q,Io,Rg,D) for q in Q ]
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############### Write raw data file
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fit = open ( self.fitFile, "w" )
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if pltOptions['debyeCtr'] == 0:
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for i in range(len(Q)):
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fit.write( "%f\t%f\t%f\t%f\n" %( Q[i], 1e6*IDATA[i], 1e6*ERR[i], 1e6*I[i] ) )
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else:
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for i in range(len(Q)):
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fit.write( "%f\t%f\t%f\t%f\t%f\t%f\n" %( Q[i], 1e6*IDATA[i], 1e6*ERR[i], 1e6*I[i], 1e6*FORM[i], DEBYE[i] ) )
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fit.close()
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############### Write GNUPLOT script
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gnu = open ( self.gnuFile, "w" )
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gnu.write( self.gnuStr0 )
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gnu.write( "set logscale\n" )
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gnu.write( "set xlabel \"q (nm^{-1})\"\n" )
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gnu.write( "set ylabel \"I (mm^{-1})\"\n" )
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gnu.write( "set out '"+self.intensityFile+"'\n" )
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gnu.write( "p ["+self.qmin+":"+self.qmax+"][] '"+self.fitFile+"' \
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u 1:2 w p pt 6 ps 0.5 lt -1 t '', '' u 1:2:3 w errorbars pt 7 ps 0.3 lt 1 t 'data', \
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'' u 1:4 w l lt 3 lw 2.5 t 'Fit'\n" )
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gnu.write( "set ylabel \"| I^{data}-I^{fit} |/I^{data} (mm^{-1})\"\n" )
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gnu.write( "set out '"+self.errorFile+"'\n" )
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gnu.write( "p ["+self.qmin+":"+self.qmax+"][] '"+self.fitFile+"' \
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u 1:($3/$2) w l lt rgb \"web-green\" lw 2.5 t 'err.', \
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'' u 1:(abs($2-$4)/$2) w p pt 7 ps 0.6 lt 3 t '', \
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'' u 1:(abs($2-$4)/$2) w p pt 6 ps 0.6 lt -1 t ''\n" )
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if pltOptions['debyeCtr'] != 0:
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gnu.write( "unset logscale y\n" )
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gnu.write( "set xtics auto\n" )
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gnu.write( "set xtics add ("+self.qmax+")\n" )
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gnu.write( "set ylabel \"S(q)\"\n" )
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gnu.write( "set out '"+self.structureFile+"'\n" )
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gnu.write( "p ["+self.qmin+":"+self.qmax+"][] '"+self.fitFile+"' \
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u 1:(($2-"+C+")/$5) w p pt 6 ps 0.5 lt -1 t '', \
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'' u 1:(($2-"+C+")/$5) w p pt 7 ps 0.3 lt 1 t 'data', \
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'' u 1:(1+$6) w l lt rgb \"purple\" lw 2.5 t '1+D(q)'\n" )
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gnu.close()
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############### Run GNUPLOT script
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os.system("gnuplot "+self.gnuFile)
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############### Remove GNUPLOT script
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os.remove(self.gnuFile)
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############### Print saved files
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print(self.fitFile)
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print(self.intensityFile)
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print(self.errorFile)
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return
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###########################################################################################
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###########################################################################################
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def Form_Porod ( self , Q , IDATA , ERR , I , PAR ):
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'Plot the best fit of a Form Factor'
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############### Porod function values
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if conv==0:
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Pval = PAR[-3]
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Pexp = -PAR[-2]
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else:
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Pval = PAR[-4]
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Pexp = -PAR[-3]
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############### Write raw data file
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fit = open ( self.fitFile, "w" )
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for i in range(len(Q)):
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fit.write( "%f\t%f\t%f\t%f\t%f\n" %( Q[i], 1e6*IDATA[i], 1e6*ERR[i], 1e6*I[i], 1e6*Pval*Q[i]**Pexp ) )
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fit.close()
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############### Write GNUPLOT script
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gnu = open ( self.gnuFile, "w" )
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gnu.write( self.gnuStr0 )
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gnu.write( "set logscale\n" )
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gnu.write( "set xlabel \"q (nm^{-1})\"\n" )
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gnu.write( "set ylabel \"I (mm^{-1})\"\n" )
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gnu.write( "set out '"+self.intensityFile+"'\n" )
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gnu.write( "p ["+self.qmin+":"+self.qmax+"][] '"+self.fitFile+"' \
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u 1:2 w p pt 7 ps 0.6 lt -1 t '', '' u 1:2:3 w errorbars pt 7 ps 0.5 lt 1 t 'data', \
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'' u 1:4 w l lt 3 lw 2.5 t 'Fit', \
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'' u 1:5 w l lt rgb \"web-green\" lw 2 t 'Porod', \
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'' u 1:($4-$5) w l lt 0 lw 3 t ''\n" )
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gnu.write( "set ylabel \"| I^{data}-I^{fit} |/I^{data} (mm^{-1})\"\n" )
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gnu.write( "set out '"+self.errorFile+"'\n" )
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gnu.write( "p ["+self.qmin+":"+self.qmax+"][] '"+self.fitFile+"' \
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u 1:($3/$2) w l lt -1 lw 2.5 t 'err.', \
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'' u 1:(abs($2-$4)/$2) w p pt 6 ps 0.6 lt 1 t ''\n" )
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gnu.close()
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############### Run GNUPLOT script
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os.system("gnuplot "+self.gnuFile)
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############### Remove GNUPLOT script
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os.remove(self.gnuFile)
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############### Print saved files
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print(self.fitFile)
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print(self.intensityFile)
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|
print(self.errorFile)
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|
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return
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###########################################################################################
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###########################################################################################
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|
|
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def Structure (self, Q, IDATA, ERR, I, PAR, pltOptions):
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'Plot the best fit of a Form Factor'
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|
|
|
############### Save constant value
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if conv == 0:
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|
C = str(1e6*PAR[-1])
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|
else:
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|
C = str(1e6*PAR[-2])
|
|
|
|
############### Prepare Form Factor
|
|
PAR_FORM=list(PAR)
|
|
for i in range(pltOptions['parDiff']):
|
|
PAR_FORM.pop(-1)
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PAR_FORM.append(0.0)
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|
if conv == 1:
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|
PAR_FORM.append(PAR[-1])
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|
FORM = [ pltOptions['Form'](q, PAR_FORM) for q in Q ]
|
|
|
|
############### Check Cluster Structure Factor
|
|
if pltOptions['debyeCtr'] != 0:
|
|
############### Prepare Cluster Structure Factor
|
|
if conv == 0:
|
|
Io = PAR[-4]
|
|
Rg = PAR[-3]
|
|
D = PAR[-2]
|
|
else:
|
|
Io = PAR[-5]
|
|
Rg = PAR[-4]
|
|
D = PAR[-3]
|
|
DEBYE = [ pltOptions['debyeCtr'](q,Io,Rg,D) for q in Q ]
|
|
|
|
############### Write raw data file
|
|
fit = open ( self.fitFile, "w" )
|
|
if pltOptions['debyeCtr'] == 0:
|
|
for i in range(len(Q)):
|
|
fit.write( "%f\t%f\t%f\t%f\t%f\n" %( Q[i], 1e6*IDATA[i], 1e6*ERR[i], 1e6*I[i], 1e6*FORM[i] ) )
|
|
else:
|
|
for i in range(len(Q)):
|
|
fit.write( "%f\t%f\t%f\t%f\t%f\t%f\n" %( Q[i], 1e6*IDATA[i], 1e6*ERR[i], 1e6*I[i], 1e6*FORM[i], DEBYE[i] ) )
|
|
fit.close()
|
|
|
|
############### Write GNUPLOT script
|
|
gnu = open ( self.gnuFile, "w" )
|
|
gnu.write( self.gnuStr0 )
|
|
|
|
gnu.write( "set logscale\n" )
|
|
gnu.write( "set xlabel \"q (nm^{-1})\"\n" )
|
|
gnu.write( "set ylabel \"I (mm^{-1})\"\n" )
|
|
gnu.write( "set out '"+self.intensityFile+"'\n" )
|
|
gnu.write( "p ["+self.qmin+":"+self.qmax+"][] '"+self.fitFile+"' \
|
|
u 1:2 w p pt 6 ps 0.5 lt -1 t '', '' u 1:2:3 w errorbars pt 7 ps 0.3 lt 1 t 'data', \
|
|
'' u 1:5 w l lt rgb \"web-green\" lw 2.5 t 'FormFactor', \
|
|
'' u 1:4 w l lt 3 lw 2.5 t 'Fit'\n" )
|
|
|
|
gnu.write( "set ylabel \"| I^{data}-I^{fit} |/I^{data} (mm^{-1})\"\n" )
|
|
gnu.write( "set out '"+self.errorFile+"'\n" )
|
|
gnu.write( "p ["+self.qmin+":"+self.qmax+"][] '"+self.fitFile+"' \
|
|
u 1:($3/$2) w l lt rgb \"web-green\" lw 2.5 t 'err.', \
|
|
'' u 1:(abs($2-$4)/$2) w p pt 7 ps 0.6 lt 3 t '', \
|
|
'' u 1:(abs($2-$4)/$2) w p pt 6 ps 0.6 lt -1 t ''\n" )
|
|
|
|
gnu.write( "unset logscale\n" )
|
|
gnu.write( "set xtics auto\n" )
|
|
gnu.write( "set xtics add ("+self.qmax+")\n" )
|
|
gnu.write( "set ylabel \"S(q)\"\n" )
|
|
gnu.write( "set out '"+self.structureFile+"'\n" )
|
|
if pltOptions['debyeCtr'] == 0:
|
|
gnu.write( "p ["+self.qmin+":"+self.qmax+"][] '"+self.fitFile+"' \
|
|
u 1:(($2-"+C+")/$5) w p pt 6 ps 0.5 lt -1 t '', \
|
|
'' u 1:(($2-"+C+")/$5) w p pt 7 ps 0.3 lt 1 t 'data', \
|
|
'' u 1:(($4-"+C+")/$5) w l lt 3 lw 2.5 t 'S(q)'\n" )
|
|
else:
|
|
gnu.write( "p ["+self.qmin+":"+self.qmax+"][] '"+self.fitFile+"' \
|
|
u 1:(($2-"+C+")/$5) w p pt 6 ps 0.5 lt -1 t '', \
|
|
'' u 1:(($2-"+C+")/$5) w p pt 7 ps 0.3 lt 1 t 'data', \
|
|
'' u 1:(1+$6) w l lt rgb \"purple\" lw 2.5 t '1+D(q)', \
|
|
'' u 1:(($4-"+C+")/$5-$6) w l lt rgb \"dark-green\" lw 2.5 t 'S(q)', \
|
|
'' u 1:(($4-"+C+")/$5) w l lt 3 lw 2.5 t 'S(q)+D(q)'\n" )
|
|
|
|
gnu.close()
|
|
|
|
############### Run GNUPLOT script
|
|
os.system("gnuplot "+self.gnuFile)
|
|
############### Remove GNUPLOT script
|
|
os.remove(self.gnuFile)
|
|
############### Print saved files
|
|
print(self.fitFile)
|
|
print(self.intensityFile)
|
|
print(self.errorFile)
|
|
print(self.structureFile)
|
|
|
|
return
|
|
|
|
|
|
|
|
|
|
|
|
###########################################################################################
|
|
###########################################################################################
|
|
###########################################################################################
|
|
###########################################################################################
|
|
|
|
|
|
|