From 282b18b819b25ad74a9517027dca9e1c7ae9ac55 Mon Sep 17 00:00:00 2001 From: Uriziel Date: Wed, 2 Jan 2013 12:51:10 +0100 Subject: [PATCH] Removed nsis from py2exe script --- buildPy2exe.py | 104 +------------------------------------------------ 1 file changed, 1 insertion(+), 103 deletions(-) diff --git a/buildPy2exe.py b/buildPy2exe.py index 9e01907..4a7f256 100644 --- a/buildPy2exe.py +++ b/buildPy2exe.py @@ -5,108 +5,6 @@ from py2exe.build_exe import py2exe import syncplay import sys -import os.path -import subprocess -# -#NSIS_SCRIPT_TEMPLATE = r""" -#!define py2exeOutputDirectory '{output_dir}\' -#!define exe '{program_name}.exe' -# -#; Uses solid LZMA compression. Can be slow, use discretion. -#SetCompressor /SOLID lzma -# -#; Sets the title bar text (although NSIS seems to append "Installer") -#Caption "{program_desc}" -# -#Name '{program_name}' -#OutFile ${{exe}} -#Icon '{icon_location}' -#; Use XPs styles where appropriate -#XPStyle on -# -#; You can opt for a silent install, but if your packaged app takes a long time -#; to extract, users might get confused. The method used here is to show a dialog -#; box with a progress bar as the installer unpacks the data. -#;SilentInstall silent -#AutoCloseWindow true -#ShowInstDetails nevershow -# -#Section -# DetailPrint "Extracting application..." -# SetDetailsPrint none -# -# InitPluginsDir -# SetOutPath '$PLUGINSDIR' -# File /r '${{py2exeOutputDirectory}}\*' -# -# GetTempFileName $0 -# ;DetailPrint $0 -# Delete $0 -# StrCpy $0 '$0.bat' -# FileOpen $1 $0 'w' -# FileWrite $1 '@echo off$\r$\n' -# StrCpy $2 $TEMP 2 -# FileWrite $1 '$2$\r$\n' -# FileWrite $1 'cd $PLUGINSDIR$\r$\n' -# FileWrite $1 '${{exe}}$\r$\n' -# FileClose $1 -# ; Hide the window just before the real app launches. Otherwise you have two -# ; programs with the same icon hanging around, and it's confusing. -# HideWindow -# nsExec::Exec $0 -# Delete $0 -#SectionEnd -#""" -# -#class NSISScript(object): -# -# NSIS_COMPILE = "C:\\Program Files (x86)\\NSIS\\makensis.exe" -# -# def __init__(self, program_name, program_desc, dist_dir, icon_loc): -# self.program_name = program_name -# self.program_desc = program_desc -# self.dist_dir = dist_dir -# self.icon_loc = icon_loc -# self.pathname = "setup_%s.nsi" % self.program_name -# -# def create(self): -# contents = NSIS_SCRIPT_TEMPLATE.format( -# program_name = self.program_name, -# program_desc = self.program_desc, -# output_dir = self.dist_dir, -# icon_location = os.path.join(os.path.dirname(self.dist_dir), self.icon_loc)) -# with open(self.pathname, "w") as outfile: -# outfile.write(contents) -# -# def compile(self): -# print os.stat(self.NSIS_COMPILE) -# subproc = subprocess.Popen( -# # "/P5" uses realtime priority for the LZMA compression stage. -# # This can get annoying though. -# [self.NSIS_COMPILE, self.pathname, "/P5"], env=os.environ) -# return -# subproc.communicate() -# -# retcode = subproc.returncode -# -# if retcode: -# raise RuntimeError("NSIS compilation return code: %d" % retcode) -# -#class build_installer(py2exe): -# # This class first builds the exe file(s), then creates an NSIS installer -# # that runs your program from a temporary directory. -# def run(self): -# # First, let py2exe do it's work. -# py2exe.run(self) -# # Create the installer, using the files py2exe has created. -# script = NSISScript('Syncplay', -# 'Syncplay', -# self.dist_dir, -# "resources\\icon.ico") -# print "*** creating the NSIS setup script***" -# script.create() -# print "*** compiling the NSIS setup script***" -# script.compile() sys.argv.extend(['py2exe', '-p win32com ', '-i twisted.web.resource']) common_info = dict( @@ -130,7 +28,7 @@ info = dict( } }, zipfile = "lib/libsync", -# cmdclass = {"py2exe": build_installer}, + ) setup(**info)