I have written a script for a coworker which extracts specific information from each .xlsx file in a directory and does some basic statistics on it. He in turn has a client who will ultimately be using this. I want to package this up so whomever can use it easily without needing to install Python and see scary code. Traditionally I would have done this in R but there's no way to package up R code.
I have tried using py2exe but had issues and moved to PyInstaller which has the nice --onefile option. The executable builds fine, but when I execute it I get an error message:
%1 is not a valid win32 application
Based on googling it seems this is related to a need to bundle the C runtime dlls. The guide at the py2exe site references VC90.CRT but all I have on my machine is VC110.CRT and in any case, the directions for bundling the dlls are specific to py2exe and I would rather use PyInstaller (although my attempts at including the VC110.CRT files and using py2exe resulted in a .exe that crashed with a fancy window asking if I wanted to debug rather than a line in the CMD window).
How can I bundle the appropriate .dlls using PyInstaller?
I am using WinPython 184.108.40.206 on a Virtual Machine running Win 7 Enterprise. The script is below. I was originally using Tkinter to prompt the user to select the directory where the files are stored, I changed to the current directory in case the issues were related to Tkinter. Apparently they weren't.
from os import listdir, getcwd, remove from os.path import isfile, join #import Tkinter,tkFileDialog from xlrd import open_workbook import xlwt import numpy as np from itertools import product def mrange(n): return max(n)-min(n) #i=0 #root = Tkinter.Tk() #root.withdraw() #mypath = tkFileDialog.askdirectory(title=u'Directory of Files?') mypath = getcwd() onlyfiles = [f for f in listdir(mypath) if isfile(join(mypath,f)) and f.endswith('xlsx') and not f.startswith('~$')] filename =  c2rl =  c2ml =  Rsrl =  Rsml =  c3rl =  c3ml =  for i in xrange(len(onlyfiles)): if onlyfiles[i] <> 'values.xls': wb = open_workbook(join(mypath,onlyfiles[i])) filename.insert(len(filename),onlyfiles[i]) print onlyfiles[i] sh = wb.sheet_by_index(0) Rsc = -1 c2c = -1 c3c = -1 for c in xrange(sh.ncols): cn = sh.cell_value(8,c) if cn == u'Rs [Ohm/sq]': Rsc = c elif cn == u'C2 P [kW]': c2c = c elif cn == u'C3 P [kW]': c3c = c Rs = sh.col_values(Rsc,10) c2 = sh.col_values(c2c,10) c3 = sh.col_values(c3c,10) c2a = np.asarray(c2) c2ac = c2a[c2a > 2.0] c2r = mrange(c2ac) c2rl.insert(len(c2rl),c2r) c2m = np.mean(c2ac) c2ml.insert(len(c2ml),c2m) Rsa = np.asarray(Rs) Rsac = Rsa[c2a > 2.0] if type(Rsac) is np.unicode_: Rsac = np.genfromtxt(Rsac[Rsac > u'1.01']) Rsr = np.std(Rsac,ddof=1) Rsrl.insert(len(Rsrl),Rsr) Rsm = np.mean(Rsac) Rsml.insert(len(Rsml),Rsm) c3a = np.asarray(c3) c3ac = c3a[c2a > 2.0] c3r = mrange(c3ac) c3rl.insert(len(c3rl),c3r) c3m = np.mean(c3ac) c3ml.insert(len(c3ml),c3m) try: remove(join(mypath,'values.xls')) except OSError: pass workbook = xlwt.Workbook() worksheet = workbook.add_sheet('Values') titles = ['File','Mean Rs [Ohm/sq]','SD Rs [Ohm/sq]','Mean C2 P [kW]','Range C2 P [kW]','Mean C3 P [kW]','Range C3 P [kW]'] for t in xrange(7): worksheet.write(0,t,titles[t]) res = [onlyfiles,Rsml,Rsrl,c2ml,c2rl,c3ml,c3rl] for row_index, col_index in product(xrange(len(onlyfiles)),xrange(7)): worksheet.write(row_index+1,col_index,res[col_index][row_index]) workbook.save(join(mypath,'values.xls'))