From 72c578fd4b0b4a5a43e18594339ac4ff26c376dc Mon Sep 17 00:00:00 2001 From: Luca Falavigna Date: Sat, 2 Jan 2010 20:56:27 +0100 Subject: Imported Upstream version 1.2.0.d20091224 --- bin/sconsoutput.py | 827 +++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 827 insertions(+) create mode 100644 bin/sconsoutput.py (limited to 'bin/sconsoutput.py') diff --git a/bin/sconsoutput.py b/bin/sconsoutput.py new file mode 100644 index 0000000..f99ec5a --- /dev/null +++ b/bin/sconsoutput.py @@ -0,0 +1,827 @@ +#!/usr/bin/env python2 + +# +# Copyright (c) 2003 Steven Knight +# +# Permission is hereby granted, free of charge, to any person obtaining +# a copy of this software and associated documentation files (the +# "Software"), to deal in the Software without restriction, including +# without limitation the rights to use, copy, modify, merge, publish, +# distribute, sublicense, and/or sell copies of the Software, and to +# permit persons to whom the Software is furnished to do so, subject to +# the following conditions: +# +# The above copyright notice and this permission notice shall be included +# in all copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY +# KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE +# WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +# LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +# OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +# WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +# + +__revision__ = "/home/scons/sconsoutput/branch.0/baseline/src/sconsoutput.py 0.4.D001 2004/11/27 18:44:37 knight" + +# +# sconsoutput.py - an SGML preprocessor for capturing SCons output +# and inserting it into examples in our DocBook +# documentation +# +# This script looks for some SGML tags that describe SCons example +# configurations and commands to execute in those configurations, and +# uses TestCmd.py to execute the commands and insert the output from +# those commands into the SGML that we output. This way, we can run a +# script and update all of our example documentation output without +# a lot of laborious by-hand checking. +# +# An "SCons example" looks like this, and essentially describes a set of +# input files (program source files as well as SConscript files): +# +# +# +# env = Environment() +# env.Program('foo') +# +# +# int main() { printf("foo.c\n"); } +# +# +# +# The contents within the tag will get written +# into a temporary directory whenever example output needs to be +# generated. By default, the contents are not inserted into text +# directly, unless you set the "printme" attribute on one or more files, +# in which case they will get inserted within a tag. +# This makes it easy to define the example at the appropriate +# point in the text where you intend to show the SConstruct file. +# +# Note that you should usually give the a "name" +# attribute so that you can refer to the example configuration later to +# run SCons and generate output. +# +# If you just want to show a file's contents without worry about running +# SCons, there's a shorter tag: +# +# +# env = Environment() +# env.Program('foo') +# +# +# This is essentially equivalent to , +# but it's more straightforward. +# +# SCons output is generated from the following sort of tag: +# +# +# scons -Q foo +# scons -Q foo +# +# +# You tell it which example to use with the "example" attribute, and then +# give it a list of tags to execute. You can also +# supply an "os" tag, which specifies the type of operating system this +# example is intended to show; if you omit this, default value is "posix". +# +# The generated SGML will show the command line (with the appropriate +# command-line prompt for the operating system), execute the command in +# a temporary directory with the example files, capture the standard +# output from SCons, and insert it into the text as appropriate. +# Error output gets passed through to your error output so you +# can see if there are any problems executing the command. +# + +import os +import os.path +import re +import sgmllib +import string +import sys +import time + +sys.path.append(os.path.join(os.getcwd(), 'QMTest')) +sys.path.append(os.path.join(os.getcwd(), 'build', 'QMTest')) + +scons_py = os.path.join('bootstrap', 'src', 'script', 'scons.py') +if not os.path.exists(scons_py): + scons_py = os.path.join('src', 'script', 'scons.py') + +scons_lib_dir = os.path.join(os.getcwd(), 'bootstrap', 'src', 'engine') +if not os.path.exists(scons_lib_dir): + scons_lib_dir = os.path.join(os.getcwd(), 'src', 'engine') + +os.environ['SCONS_LIB_DIR'] = scons_lib_dir + +import TestCmd + +# The regular expression that identifies entity references in the +# standard sgmllib omits the underscore from the legal characters. +# Override it with our own regular expression that adds underscore. +sgmllib.entityref = re.compile('&([a-zA-Z][-_.a-zA-Z0-9]*)[^-_a-zA-Z0-9]') + +# Classes for collecting different types of data we're interested in. +class DataCollector: + """Generic class for collecting data between a start tag and end + tag. We subclass for various types of tags we care about.""" + def __init__(self): + self.data = "" + def afunc(self, data): + self.data = self.data + data + +class Example(DataCollector): + """An SCons example. This is essentially a list of files that + will get written to a temporary directory to collect output + from one or more SCons runs.""" + def __init__(self): + DataCollector.__init__(self) + self.files = [] + self.dirs = [] + +class File(DataCollector): + """A file, that will get written out to a temporary directory + for one or more SCons runs.""" + def __init__(self, name): + DataCollector.__init__(self) + self.name = name + +class Directory(DataCollector): + """A directory, that will get created in a temporary directory + for one or more SCons runs.""" + def __init__(self, name): + DataCollector.__init__(self) + self.name = name + +class Output(DataCollector): + """Where the command output goes. This is essentially + a list of commands that will get executed.""" + def __init__(self): + DataCollector.__init__(self) + self.commandlist = [] + +class Command(DataCollector): + """A tag for where the command output goes. This is essentially + a list of commands that will get executed.""" + def __init__(self): + DataCollector.__init__(self) + self.output = None + +Prompt = { + 'posix' : '% ', + 'win32' : 'C:\\>' +} + +# The magick SCons hackery that makes this work. +# +# So that our examples can still use the default SConstruct file, we +# actually feed the following into SCons via stdin and then have it +# SConscript() the SConstruct file. This stdin wrapper creates a set +# of ToolSurrogates for the tools for the appropriate platform. These +# Surrogates print output like the real tools and behave like them +# without actually having to be on the right platform or have the right +# tool installed. +# +# The upshot: The wrapper transparently changes the world out from +# under the top-level SConstruct file in an example just so we can get +# the command output. + +Stdin = """\ +import os +import re +import string +import SCons.Action +import SCons.Defaults +import SCons.Node.FS + +platform = '%(osname)s' + +Sep = { + 'posix' : '/', + 'win32' : '\\\\', +}[platform] + + +# Slip our own __str__() method into the EntryProxy class used to expand +# $TARGET{S} and $SOURCE{S} to translate the path-name separators from +# what's appropriate for the system we're running on to what's appropriate +# for the example system. +orig = SCons.Node.FS.EntryProxy +class MyEntryProxy(orig): + def __str__(self): + return string.replace(str(self._Proxy__subject), os.sep, Sep) +SCons.Node.FS.EntryProxy = MyEntryProxy + +# Slip our own RDirs() method into the Node.FS.File class so that the +# expansions of $_{CPPINC,F77INC,LIBDIR}FLAGS will have the path-name +# separators translated from what's appropriate for the system we're +# running on to what's appropriate for the example system. +orig_RDirs = SCons.Node.FS.File.RDirs +def my_RDirs(self, pathlist, orig_RDirs=orig_RDirs): + return map(lambda x: string.replace(str(x), os.sep, Sep), + orig_RDirs(self, pathlist)) +SCons.Node.FS.File.RDirs = my_RDirs + +class Curry: + def __init__(self, fun, *args, **kwargs): + self.fun = fun + self.pending = args[:] + self.kwargs = kwargs.copy() + + def __call__(self, *args, **kwargs): + if kwargs and self.kwargs: + kw = self.kwargs.copy() + kw.update(kwargs) + else: + kw = kwargs or self.kwargs + + return apply(self.fun, self.pending + args, kw) + +def Str(target, source, env, cmd=""): + result = [] + for cmd in env.subst_list(cmd, target=target, source=source): + result.append(string.join(map(str, cmd))) + return string.join(result, '\\n') + +class ToolSurrogate: + def __init__(self, tool, variable, func, varlist): + self.tool = tool + if not type(variable) is type([]): + variable = [variable] + self.variable = variable + self.func = func + self.varlist = varlist + def __call__(self, env): + t = Tool(self.tool) + t.generate(env) + for v in self.variable: + orig = env[v] + try: + strfunction = orig.strfunction + except AttributeError: + strfunction = Curry(Str, cmd=orig) + # Don't call Action() through its global function name, because + # that leads to infinite recursion in trying to initialize the + # Default Environment. + env[v] = SCons.Action.Action(self.func, + strfunction=strfunction, + varlist=self.varlist) + def __repr__(self): + # This is for the benefit of printing the 'TOOLS' + # variable through env.Dump(). + return repr(self.tool) + +def Null(target, source, env): + pass + +def Cat(target, source, env): + target = str(target[0]) + f = open(target, "wb") + for src in map(str, source): + f.write(open(src, "rb").read()) + f.close() + +def CCCom(target, source, env): + target = str(target[0]) + fp = open(target, "wb") + def process(source_file, fp=fp): + for line in open(source_file, "rb").readlines(): + m = re.match(r'#include\s[<"]([^<"]+)[>"]', line) + if m: + include = m.group(1) + for d in [str(env.Dir('$CPPPATH')), '.']: + f = os.path.join(d, include) + if os.path.exists(f): + process(f) + break + elif line[:11] != "STRIP CCCOM": + fp.write(line) + for src in map(str, source): + process(src) + fp.write('debug = ' + ARGUMENTS.get('debug', '0') + '\\n') + fp.close() + +public_class_re = re.compile('^public class (\S+)', re.MULTILINE) + +def JavaCCom(target, source, env): + # This is a fake Java compiler that just looks for + # public class FooBar + # lines in the source file(s) and spits those out + # to .class files named after the class. + tlist = map(str, target) + not_copied = {} + for t in tlist: + not_copied[t] = 1 + for src in map(str, source): + contents = open(src, "rb").read() + classes = public_class_re.findall(contents) + for c in classes: + for t in filter(lambda x: string.find(x, c) != -1, tlist): + open(t, "wb").write(contents) + del not_copied[t] + for t in not_copied.keys(): + open(t, "wb").write("\\n") + +def JavaHCom(target, source, env): + tlist = map(str, target) + slist = map(str, source) + for t, s in zip(tlist, slist): + open(t, "wb").write(open(s, "rb").read()) + +def find_class_files(arg, dirname, names): + class_files = filter(lambda n: n[-6:] == '.class', names) + paths = map(lambda n, d=dirname: os.path.join(d, n), class_files) + arg.extend(paths) + +def JarCom(target, source, env): + target = str(target[0]) + class_files = [] + for src in map(str, source): + os.path.walk(src, find_class_files, class_files) + f = open(target, "wb") + for cf in class_files: + f.write(open(cf, "rb").read()) + f.close() + +# XXX Adding COLOR, COLORS and PACKAGE to the 'cc' varlist(s) by hand +# here is bogus. It's for the benefit of doc/user/command-line.in, which +# uses examples that want to rebuild based on changes to these variables. +# It would be better to figure out a way to do it based on the content of +# the generated command-line, or else find a way to let the example markup +# language in doc/user/command-line.in tell this script what variables to +# add, but that's more difficult than I want to figure out how to do right +# now, so let's just use the simple brute force approach for the moment. + +ToolList = { + 'posix' : [('cc', ['CCCOM', 'SHCCCOM'], CCCom, ['CCFLAGS', 'CPPDEFINES', 'COLOR', 'COLORS', 'PACKAGE']), + ('link', ['LINKCOM', 'SHLINKCOM'], Cat, []), + ('ar', ['ARCOM', 'RANLIBCOM'], Cat, []), + ('tar', 'TARCOM', Null, []), + ('zip', 'ZIPCOM', Null, []), + ('BitKeeper', 'BITKEEPERCOM', Cat, []), + ('CVS', 'CVSCOM', Cat, []), + ('RCS', 'RCS_COCOM', Cat, []), + ('SCCS', 'SCCSCOM', Cat, []), + ('javac', 'JAVACCOM', JavaCCom, []), + ('javah', 'JAVAHCOM', JavaHCom, []), + ('jar', 'JARCOM', JarCom, []), + ('rmic', 'RMICCOM', Cat, []), + ], + 'win32' : [('msvc', ['CCCOM', 'SHCCCOM', 'RCCOM'], CCCom, ['CCFLAGS', 'CPPDEFINES', 'COLOR', 'COLORS', 'PACKAGE']), + ('mslink', ['LINKCOM', 'SHLINKCOM'], Cat, []), + ('mslib', 'ARCOM', Cat, []), + ('tar', 'TARCOM', Null, []), + ('zip', 'ZIPCOM', Null, []), + ('BitKeeper', 'BITKEEPERCOM', Cat, []), + ('CVS', 'CVSCOM', Cat, []), + ('RCS', 'RCS_COCOM', Cat, []), + ('SCCS', 'SCCSCOM', Cat, []), + ('javac', 'JAVACCOM', JavaCCom, []), + ('javah', 'JAVAHCOM', JavaHCom, []), + ('jar', 'JARCOM', JarCom, []), + ('rmic', 'RMICCOM', Cat, []), + ], +} + +toollist = ToolList[platform] +filter_tools = string.split('%(tools)s') +if filter_tools: + toollist = filter(lambda x, ft=filter_tools: x[0] in ft, toollist) + +toollist = map(lambda t: apply(ToolSurrogate, t), toollist) + +toollist.append('install') + +def surrogate_spawn(sh, escape, cmd, args, env): + pass + +def surrogate_pspawn(sh, escape, cmd, args, env, stdout, stderr): + pass + +SCons.Defaults.ConstructionEnvironment.update({ + 'PLATFORM' : platform, + 'TOOLS' : toollist, + 'SPAWN' : surrogate_spawn, + 'PSPAWN' : surrogate_pspawn, +}) + +SConscript('SConstruct') +""" + +# "Commands" that we will execute in our examples. +def command_scons(args, c, test, dict): + save_vals = {} + delete_keys = [] + try: + ce = c.environment + except AttributeError: + pass + else: + for arg in string.split(c.environment): + key, val = string.split(arg, '=') + try: + save_vals[key] = os.environ[key] + except KeyError: + delete_keys.append(key) + os.environ[key] = val + test.run(interpreter = sys.executable, + program = scons_py, + arguments = '-f - ' + string.join(args), + chdir = test.workpath('WORK'), + stdin = Stdin % dict) + os.environ.update(save_vals) + for key in delete_keys: + del(os.environ[key]) + out = test.stdout() + out = string.replace(out, test.workpath('ROOT'), '') + out = string.replace(out, test.workpath('WORK/SConstruct'), + '/home/my/project/SConstruct') + lines = string.split(out, '\n') + if lines: + while lines[-1] == '': + lines = lines[:-1] + #err = test.stderr() + #if err: + # sys.stderr.write(err) + return lines + +def command_touch(args, c, test, dict): + if args[0] == '-t': + t = int(time.mktime(time.strptime(args[1], '%Y%m%d%H%M'))) + times = (t, t) + args = args[2:] + else: + time.sleep(1) + times = None + for file in args: + if not os.path.isabs(file): + file = os.path.join(test.workpath('WORK'), file) + if not os.path.exists(file): + open(file, 'wb') + os.utime(file, times) + return [] + +def command_edit(args, c, test, dict): + try: + add_string = c.edit[:] + except AttributeError: + add_string = 'void edit(void) { ; }\n' + if add_string[-1] != '\n': + add_string = add_string + '\n' + for file in args: + if not os.path.isabs(file): + file = os.path.join(test.workpath('WORK'), file) + contents = open(file, 'rb').read() + open(file, 'wb').write(contents + add_string) + return [] + +def command_ls(args, c, test, dict): + def ls(a): + files = os.listdir(a) + files = filter(lambda x: x[0] != '.', files) + files.sort() + return [string.join(files, ' ')] + if args: + l = [] + for a in args: + l.extend(ls(test.workpath('WORK', a))) + return l + else: + return ls(test.workpath('WORK')) + +CommandDict = { + 'scons' : command_scons, + 'touch' : command_touch, + 'edit' : command_edit, + 'ls' : command_ls, +} + +def ExecuteCommand(args, c, t, dict): + try: + func = CommandDict[args[0]] + except KeyError: + func = lambda args, c, t, dict: [] + return func(args[1:], c, t, dict) + +class MySGML(sgmllib.SGMLParser): + """A subclass of the standard Python 2.2 sgmllib SGML parser. + + This extends the standard sgmllib parser to recognize, and do cool + stuff with, the added tags that describe our SCons examples, + commands, and other stuff. + + Note that this doesn't work with the 1.5.2 sgmllib module, because + that didn't have the ability to work with ENTITY declarations. + """ + def __init__(self): + sgmllib.SGMLParser.__init__(self) + self.examples = {} + self.afunclist = [] + + # The first set of methods here essentially implement pass-through + # handling of most of the stuff in an SGML file. We're really + # only concerned with the tags specific to SCons example processing, + # the methods for which get defined below. + + def handle_data(self, data): + try: + f = self.afunclist[-1] + except IndexError: + sys.stdout.write(data) + else: + f(data) + + def handle_comment(self, data): + sys.stdout.write('') + + def handle_decl(self, data): + sys.stdout.write('') + + def unknown_starttag(self, tag, attrs): + try: + f = self.example.afunc + except AttributeError: + f = sys.stdout.write + if not attrs: + f('<' + tag + '>') + else: + f('<' + tag) + for name, value in attrs: + f(' ' + name + '=' + '"' + value + '"') + f('>') + + def unknown_endtag(self, tag): + sys.stdout.write('') + + def unknown_entityref(self, ref): + sys.stdout.write('&' + ref + ';') + + def unknown_charref(self, ref): + sys.stdout.write('&#' + ref + ';') + + # Here is where the heavy lifting begins. The following methods + # handle the begin-end tags of our SCons examples. + + def start_scons_example(self, attrs): + t = filter(lambda t: t[0] == 'name', attrs) + if t: + name = t[0][1] + try: + e = self.examples[name] + except KeyError: + e = self.examples[name] = Example() + else: + e = Example() + for name, value in attrs: + setattr(e, name, value) + self.e = e + self.afunclist.append(e.afunc) + + def end_scons_example(self): + e = self.e + files = filter(lambda f: f.printme, e.files) + if files: + sys.stdout.write('') + for f in files: + if f.printme: + i = len(f.data) - 1 + while f.data[i] == ' ': + i = i - 1 + output = string.replace(f.data[:i+1], '__ROOT__', '') + output = string.replace(output, '<', '<') + output = string.replace(output, '>', '>') + sys.stdout.write(output) + if e.data and e.data[0] == '\n': + e.data = e.data[1:] + sys.stdout.write(e.data + '') + delattr(self, 'e') + self.afunclist = self.afunclist[:-1] + + def start_file(self, attrs): + try: + e = self.e + except AttributeError: + self.error(" tag outside of ") + t = filter(lambda t: t[0] == 'name', attrs) + if not t: + self.error("no name attribute found") + try: + e.prefix + except AttributeError: + e.prefix = e.data + e.data = "" + f = File(t[0][1]) + f.printme = None + for name, value in attrs: + setattr(f, name, value) + e.files.append(f) + self.afunclist.append(f.afunc) + + def end_file(self): + self.e.data = "" + self.afunclist = self.afunclist[:-1] + + def start_directory(self, attrs): + try: + e = self.e + except AttributeError: + self.error(" tag outside of ") + t = filter(lambda t: t[0] == 'name', attrs) + if not t: + self.error("no name attribute found") + try: + e.prefix + except AttributeError: + e.prefix = e.data + e.data = "" + d = Directory(t[0][1]) + for name, value in attrs: + setattr(d, name, value) + e.dirs.append(d) + self.afunclist.append(d.afunc) + + def end_directory(self): + self.e.data = "" + self.afunclist = self.afunclist[:-1] + + def start_scons_example_file(self, attrs): + t = filter(lambda t: t[0] == 'example', attrs) + if not t: + self.error("no example attribute found") + exname = t[0][1] + try: + e = self.examples[exname] + except KeyError: + self.error("unknown example name '%s'" % exname) + fattrs = filter(lambda t: t[0] == 'name', attrs) + if not fattrs: + self.error("no name attribute found") + fname = fattrs[0][1] + f = filter(lambda f, fname=fname: f.name == fname, e.files) + if not f: + self.error("example '%s' does not have a file named '%s'" % (exname, fname)) + self.f = f[0] + + def end_scons_example_file(self): + f = self.f + sys.stdout.write('') + sys.stdout.write(f.data + '') + delattr(self, 'f') + + def start_scons_output(self, attrs): + t = filter(lambda t: t[0] == 'example', attrs) + if not t: + self.error("no example attribute found") + exname = t[0][1] + try: + e = self.examples[exname] + except KeyError: + self.error("unknown example name '%s'" % exname) + # Default values for an example. + o = Output() + o.preserve = None + o.os = 'posix' + o.tools = '' + o.e = e + # Locally-set. + for name, value in attrs: + setattr(o, name, value) + self.o = o + self.afunclist.append(o.afunc) + + def end_scons_output(self): + # The real raison d'etre for this script, this is where we + # actually execute SCons to fetch the output. + o = self.o + e = o.e + t = TestCmd.TestCmd(workdir='', combine=1) + if o.preserve: + t.preserve() + t.subdir('ROOT', 'WORK') + t.rootpath = string.replace(t.workpath('ROOT'), '\\', '\\\\') + + for d in e.dirs: + dir = t.workpath('WORK', d.name) + if not os.path.exists(dir): + os.makedirs(dir) + + for f in e.files: + i = 0 + while f.data[i] == '\n': + i = i + 1 + lines = string.split(f.data[i:], '\n') + i = 0 + while lines[0][i] == ' ': + i = i + 1 + lines = map(lambda l, i=i: l[i:], lines) + path = string.replace(f.name, '__ROOT__', t.rootpath) + if not os.path.isabs(path): + path = t.workpath('WORK', path) + dir, name = os.path.split(path) + if dir and not os.path.exists(dir): + os.makedirs(dir) + content = string.join(lines, '\n') + content = string.replace(content, '__ROOT__', t.rootpath) + path = t.workpath('WORK', path) + t.write(path, content) + if hasattr(f, 'chmod'): + os.chmod(path, int(f.chmod, 0)) + + i = len(o.prefix) + while o.prefix[i-1] != '\n': + i = i - 1 + + sys.stdout.write('' + o.prefix[:i]) + p = o.prefix[i:] + + for c in o.commandlist: + sys.stdout.write(p + Prompt[o.os]) + d = string.replace(c.data, '__ROOT__', '') + sys.stdout.write('' + d + '\n') + + e = string.replace(c.data, '__ROOT__', t.workpath('ROOT')) + args = string.split(e) + lines = ExecuteCommand(args, c, t, {'osname':o.os, 'tools':o.tools}) + content = None + if c.output: + content = c.output + elif lines: + content = string.join(lines, '\n' + p) + if content: + content = re.sub(' at 0x[0-9a-fA-F]*\>', ' at 0x700000>', content) + content = string.replace(content, '<', '<') + content = string.replace(content, '>', '>') + sys.stdout.write(p + content + '\n') + + if o.data[0] == '\n': + o.data = o.data[1:] + sys.stdout.write(o.data + '') + delattr(self, 'o') + self.afunclist = self.afunclist[:-1] + + def start_scons_output_command(self, attrs): + try: + o = self.o + except AttributeError: + self.error(" tag outside of ") + try: + o.prefix + except AttributeError: + o.prefix = o.data + o.data = "" + c = Command() + for name, value in attrs: + setattr(c, name, value) + o.commandlist.append(c) + self.afunclist.append(c.afunc) + + def end_scons_output_command(self): + self.o.data = "" + self.afunclist = self.afunclist[:-1] + + def start_sconstruct(self, attrs): + f = File('') + self.f = f + self.afunclist.append(f.afunc) + + def end_sconstruct(self): + f = self.f + sys.stdout.write('') + output = string.replace(f.data, '__ROOT__', '') + sys.stdout.write(output + '') + delattr(self, 'f') + self.afunclist = self.afunclist[:-1] + +# The main portion of the program itself, short and simple. +try: + file = sys.argv[1] +except IndexError: + file = '-' + +if file == '-': + f = sys.stdin +else: + try: + f = open(file, 'r') + except IOError, msg: + print file, ":", msg + sys.exit(1) + +data = f.read() +if f is not sys.stdin: + f.close() + +if data.startswith('