RUNS = args.r tn = args.DT JMPS = args.j SEED = args.seed m1 = args.probability1 m2 = args.probability2 m3 = args.probability3 m4 = args.probability4 m5 = args.probability5 m6 = args.probability6 m7 = args.probability7 m8 = args.probability8 rxclr = [] crinckler = [] tes = [] rxclr = Lffit.loaddata(pth + 'rxclr.dat') crinckler = Lffit.loaddata(pth + 'crinckler.dat') tes = Lffit.loaddata(pth + 'tes.dat') print len(rxclr), len(crinckler), len(tes) RXCLRPTS = [len(rxclr), min(rxclr), max(rxclr)] CRKPTS = [len(crinckler), min(crinckler), max(crinckler)] TES = [len(tes), min(tes), max(tes)] tes = None rxclr = None crinckler = None print RXCLRPTS, CRKPTS, TES av1 = 0.5 * (RXCLRPTS[2] - RXCLRPTS[1]) av2 = 0.5 * (CRKPTS[2] - CRKPTS[1]) av3 = 0.5 * (TES[2] - TES[1])
from math import floor from pygsl import rng as rn import gc import sys #pth='../' #sys.path.append(pth) import Lffit import os rxclr=[] crinckler=[] tes=[] pth='../../' rxclr=Lffit.loaddata(pth+'rxclr.dat') crinckler=Lffit.loaddata(pth+'crinckler.dat') tes=Lffit.loaddata(pth+'tes.dat') print len(rxclr), len(crinckler), len(tes) #raw_input() RXCLRPTS=[len(rxclr),min(rxclr),max(rxclr)] CRKPTS=[len(crinckler),min(crinckler),max(crinckler)] TES=[len(tes),min(tes),max(tes)] print RXCLRPTS print CRKPTS print TES import lmainjumps import pdt SEED=987654320 nte=5