tools/telemetry/third_party/gsutil/third_party/python-gflags/gflags.py - Issue 1260493004: Revert "Add gsutil 4.13 to telemetry/third_party"

Unified Diff: tools/telemetry/third_party/gsutil/third_party/python-gflags/gflags.py

Issue 1260493004: Revert "Add gsutil 4.13 to telemetry/third_party" (Closed) Base URL: https://chromium.googlesource.com/chromium/src.git@master

Patch Set: Created 5 years, 5 months ago

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Index: tools/telemetry/third_party/gsutil/third_party/python-gflags/gflags.py

diff --git a/tools/telemetry/third_party/gsutil/third_party/python-gflags/gflags.py b/tools/telemetry/third_party/gsutil/third_party/python-gflags/gflags.py

deleted file mode 100644

index 822256a6f8a1ecdb6ff66085bea7a35dc1638256..0000000000000000000000000000000000000000

--- a/tools/telemetry/third_party/gsutil/third_party/python-gflags/gflags.py

+++ /dev/null

@@ -1,2862 +0,0 @@

-#!/usr/bin/env python

-# Redistribution and use in source and binary forms, with or without

-# modification, are permitted provided that the following conditions are

-# met:

-# * Redistributions of source code must retain the above copyright

-# notice, this list of conditions and the following disclaimer.

-# * Redistributions in binary form must reproduce the above

-# copyright notice, this list of conditions and the following disclaimer

-# in the documentation and/or other materials provided with the

-# distribution.

-# * Neither the name of Google Inc. nor the names of its

-# contributors may be used to endorse or promote products derived from

-# this software without specific prior written permission.

-# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS

-# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT

-# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR

-# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT

-# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,

-# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT

-# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,

-# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY

-# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT

-# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE

-# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

-# ---

-# Author: Chad Lester

-# Design and style contributions by:

-# Amit Patel, Bogdan Cocosel, Daniel Dulitz, Eric Tiedemann,

-# Eric Veach, Laurence Gonsalves, Matthew Springer

-# Code reorganized a bit by Craig Silverstein

-"""This module is used to define and parse command line flags.

-This module defines a *distributed* flag-definition policy: rather than

-an application having to define all flags in or near main(), each python

-module defines flags that are useful to it. When one python module

-imports another, it gains access to the other's flags. (This is

-implemented by having all modules share a common, global registry object

-containing all the flag information.)

-Flags are defined through the use of one of the DEFINE_xxx functions.

-The specific function used determines how the flag is parsed, checked,

-and optionally type-converted, when it's seen on the command line.

-IMPLEMENTATION: DEFINE_* creates a 'Flag' object and registers it with a

-'FlagValues' object (typically the global FlagValues FLAGS, defined

-here). The 'FlagValues' object can scan the command line arguments and

-pass flag arguments to the corresponding 'Flag' objects for

-value-checking and type conversion. The converted flag values are

-available as attributes of the 'FlagValues' object.

-Code can access the flag through a FlagValues object, for instance

-gflags.FLAGS.myflag. Typically, the __main__ module passes the command

-line arguments to gflags.FLAGS for parsing.

-At bottom, this module calls getopt(), so getopt functionality is

-supported, including short- and long-style flags, and the use of -- to

-terminate flags.

-Methods defined by the flag module will throw 'FlagsError' exceptions.

-The exception argument will be a human-readable string.

-FLAG TYPES: This is a list of the DEFINE_*'s that you can do. All flags

-take a name, default value, help-string, and optional 'short' name

-(one-letter name). Some flags have other arguments, which are described

-with the flag.

-DEFINE_string: takes any input, and interprets it as a string.

-DEFINE_bool or

-DEFINE_boolean: typically does not take an argument: say --myflag to

- set FLAGS.myflag to true, or --nomyflag to set

- FLAGS.myflag to false. Alternately, you can say

- --myflag=true or --myflag=t or --myflag=1 or

- --myflag=false or --myflag=f or --myflag=0

-DEFINE_float: takes an input and interprets it as a floating point

- number. Takes optional args lower_bound and upper_bound;

- if the number specified on the command line is out of

- range, it will raise a FlagError.

-DEFINE_integer: takes an input and interprets it as an integer. Takes

- optional args lower_bound and upper_bound as for floats.

-DEFINE_enum: takes a list of strings which represents legal values. If

- the command-line value is not in this list, raise a flag

- error. Otherwise, assign to FLAGS.flag as a string.

-DEFINE_list: Takes a comma-separated list of strings on the commandline.

- Stores them in a python list object.

-DEFINE_spaceseplist: Takes a space-separated list of strings on the

- commandline. Stores them in a python list object.

- Example: --myspacesepflag "foo bar baz"

-DEFINE_multistring: The same as DEFINE_string, except the flag can be

- specified more than once on the commandline. The

- result is a python list object (list of strings),

- even if the flag is only on the command line once.

-DEFINE_multi_int: The same as DEFINE_integer, except the flag can be

- specified more than once on the commandline. The

- result is a python list object (list of ints), even if

- the flag is only on the command line once.

-SPECIAL FLAGS: There are a few flags that have special meaning:

- --help prints a list of all the flags in a human-readable fashion

- --helpshort prints a list of all key flags (see below).

- --helpxml prints a list of all flags, in XML format. DO NOT parse

- the output of --help and --helpshort. Instead, parse

- the output of --helpxml. For more info, see

- "OUTPUT FOR --helpxml" below.

- --flagfile=foo read flags from file foo.

- --undefok=f1,f2 ignore unrecognized option errors for f1,f2.

- For boolean flags, you should use --undefok=boolflag, and

- --boolflag and --noboolflag will be accepted. Do not use

- --undefok=noboolflag.

- -- as in getopt(), terminates flag-processing

-FLAGS VALIDATORS: If your program:

- - requires flag X to be specified

- - needs flag Y to match a regular expression

- - or requires any more general constraint to be satisfied

-then validators are for you!

-Each validator represents a constraint over one flag, which is enforced

-starting from the initial parsing of the flags and until the program

-terminates.

-Also, lower_bound and upper_bound for numerical flags are enforced using flag

-validators.

-Howto:

-If you want to enforce a constraint over one flag, use

-gflags.RegisterValidator(flag_name,

- checker,

- message='Flag validation failed',

- flag_values=FLAGS)

-After flag values are initially parsed, and after any change to the specified

-flag, method checker(flag_value) will be executed. If constraint is not

-satisfied, an IllegalFlagValue exception will be raised. See

-RegisterValidator's docstring for a detailed explanation on how to construct

-your own checker.

-EXAMPLE USAGE:

-FLAGS = gflags.FLAGS

-gflags.DEFINE_integer('my_version', 0, 'Version number.')

-gflags.DEFINE_string('filename', None, 'Input file name', short_name='f')

-gflags.RegisterValidator('my_version',

- lambda value: value % 2 == 0,

- message='--my_version must be divisible by 2')

-gflags.MarkFlagAsRequired('filename')

-NOTE ON --flagfile:

-Flags may be loaded from text files in addition to being specified on

-the commandline.

-Any flags you don't feel like typing, throw them in a file, one flag per

-line, for instance:

- --myflag=myvalue

- --nomyboolean_flag

-You then specify your file with the special flag '--flagfile=somefile'.

-You CAN recursively nest flagfile= tokens OR use multiple files on the

-command line. Lines beginning with a single hash '#' or a double slash

-'//' are comments in your flagfile.

-Any flagfile=<file> will be interpreted as having a relative path from

-the current working directory rather than from the place the file was

-included from:

- myPythonScript.py --flagfile=config/somefile.cfg

-If somefile.cfg includes further --flagfile= directives, these will be

-referenced relative to the original CWD, not from the directory the

-including flagfile was found in!

-The caveat applies to people who are including a series of nested files

-in a different dir than they are executing out of. Relative path names

-are always from CWD, not from the directory of the parent include

-flagfile. We do now support '~' expanded directory names.

-Absolute path names ALWAYS work!

-EXAMPLE USAGE:

- FLAGS = gflags.FLAGS

- # Flag names are globally defined! So in general, we need to be

- # careful to pick names that are unlikely to be used by other libraries.

- # If there is a conflict, we'll get an error at import time.

- gflags.DEFINE_string('name', 'Mr. President', 'your name')

- gflags.DEFINE_integer('age', None, 'your age in years', lower_bound=0)

- gflags.DEFINE_boolean('debug', False, 'produces debugging output')

- gflags.DEFINE_enum('gender', 'male', ['male', 'female'], 'your gender')

- def main(argv):

- try:

- argv = FLAGS(argv) # parse flags

- except gflags.FlagsError, e:

- print '%s\\nUsage: %s ARGS\\n%s' % (e, sys.argv[0], FLAGS)

- sys.exit(1)

- if FLAGS.debug: print 'non-flag arguments:', argv

- print 'Happy Birthday', FLAGS.name

- if FLAGS.age is not None:

- print 'You are a %d year old %s' % (FLAGS.age, FLAGS.gender)

- if __name__ == '__main__':

- main(sys.argv)

-KEY FLAGS:

-As we already explained, each module gains access to all flags defined

-by all the other modules it transitively imports. In the case of

-non-trivial scripts, this means a lot of flags ... For documentation

-purposes, it is good to identify the flags that are key (i.e., really

-important) to a module. Clearly, the concept of "key flag" is a

-subjective one. When trying to determine whether a flag is key to a

-module or not, assume that you are trying to explain your module to a

-potential user: which flags would you really like to mention first?

-We'll describe shortly how to declare which flags are key to a module.

-For the moment, assume we know the set of key flags for each module.

-Then, if you use the app.py module, you can use the --helpshort flag to

-print only the help for the flags that are key to the main module, in a

-human-readable format.

-NOTE: If you need to parse the flag help, do NOT use the output of

---help / --helpshort. That output is meant for human consumption, and

-may be changed in the future. Instead, use --helpxml; flags that are

-key for the main module are marked there with a <key>yes</key> element.

-The set of key flags for a module M is composed of:

-1. Flags defined by module M by calling a DEFINE_* function.

-2. Flags that module M explictly declares as key by using the function

- DECLARE_key_flag(<flag_name>)

-3. Key flags of other modules that M specifies by using the function

- ADOPT_module_key_flags(<other_module>)

- This is a "bulk" declaration of key flags: each flag that is key for

- <other_module> becomes key for the current module too.

-Notice that if you do not use the functions described at points 2 and 3

-above, then --helpshort prints information only about the flags defined

-by the main module of our script. In many cases, this behavior is good

-enough. But if you move part of the main module code (together with the

-related flags) into a different module, then it is nice to use

-DECLARE_key_flag / ADOPT_module_key_flags and make sure --helpshort

-lists all relevant flags (otherwise, your code refactoring may confuse

-your users).

-Note: each of DECLARE_key_flag / ADOPT_module_key_flags has its own

-pluses and minuses: DECLARE_key_flag is more targeted and may lead a

-more focused --helpshort documentation. ADOPT_module_key_flags is good

-for cases when an entire module is considered key to the current script.

-Also, it does not require updates to client scripts when a new flag is

-added to the module.

-EXAMPLE USAGE 2 (WITH KEY FLAGS):

-Consider an application that contains the following three files (two

-auxiliary modules and a main module)

-File libfoo.py:

- import gflags

- gflags.DEFINE_integer('num_replicas', 3, 'Number of replicas to start')

- gflags.DEFINE_boolean('rpc2', True, 'Turn on the usage of RPC2.')

- ... some code ...

-File libbar.py:

- import gflags

- gflags.DEFINE_string('bar_gfs_path', '/gfs/path',

- 'Path to the GFS files for libbar.')

- gflags.DEFINE_string('email_for_bar_errors', 'bar-team@google.com',

- 'Email address for bug reports about module libbar.')

- gflags.DEFINE_boolean('bar_risky_hack', False,

- 'Turn on an experimental and buggy optimization.')

- ... some code ...

-File myscript.py:

- import gflags

- import libfoo

- import libbar

- gflags.DEFINE_integer('num_iterations', 0, 'Number of iterations.')

- # Declare that all flags that are key for libfoo are

- # key for this module too.

- gflags.ADOPT_module_key_flags(libfoo)

- # Declare that the flag --bar_gfs_path (defined in libbar) is key

- # for this module.

- gflags.DECLARE_key_flag('bar_gfs_path')

- ... some code ...

-When myscript is invoked with the flag --helpshort, the resulted help

-message lists information about all the key flags for myscript:

---num_iterations, --num_replicas, --rpc2, and --bar_gfs_path.

-Of course, myscript uses all the flags declared by it (in this case,

-just --num_replicas) or by any of the modules it transitively imports

-(e.g., the modules libfoo, libbar). E.g., it can access the value of

-FLAGS.bar_risky_hack, even if --bar_risky_hack is not declared as a key

-flag for myscript.

-OUTPUT FOR --helpxml:

-The --helpxml flag generates output with the following structure:

-<?xml version="1.0"?>

-<AllFlags>

- <program>PROGRAM_BASENAME</program>

- <usage>MAIN_MODULE_DOCSTRING</usage>

- (<flag>

- [<key>yes</key>]

- <file>DECLARING_MODULE</file>

- <name>FLAG_NAME</name>

- <meaning>FLAG_HELP_MESSAGE</meaning>

- <default>DEFAULT_FLAG_VALUE</default>

- <current>CURRENT_FLAG_VALUE</current>

- <type>FLAG_TYPE</type>

- [OPTIONAL_ELEMENTS]

- </flag>)*

-</AllFlags>

-Notes:

-1. The output is intentionally similar to the output generated by the

-C++ command-line flag library. The few differences are due to the

-Python flags that do not have a C++ equivalent (at least not yet),

-e.g., DEFINE_list.

-2. New XML elements may be added in the future.

-3. DEFAULT_FLAG_VALUE is in serialized form, i.e., the string you can

-pass for this flag on the command-line. E.g., for a flag defined

-using DEFINE_list, this field may be foo,bar, not ['foo', 'bar'].

-4. CURRENT_FLAG_VALUE is produced using str(). This means that the

-string 'false' will be represented in the same way as the boolean

-False. Using repr() would have removed this ambiguity and simplified

-parsing, but would have broken the compatibility with the C++

-command-line flags.

-5. OPTIONAL_ELEMENTS describe elements relevant for certain kinds of

-flags: lower_bound, upper_bound (for flags that specify bounds),

-enum_value (for enum flags), list_separator (for flags that consist of

-a list of values, separated by a special token).

-6. We do not provide any example here: please use --helpxml instead.

-This module requires at least python 2.2.1 to run.

-"""

-import cgi

-import getopt

-import os

-import re

-import string

-import struct

-import sys

-# pylint: disable-msg=C6204

-try:

- import fcntl

-except ImportError:

- fcntl = None

-try:

- # Importing termios will fail on non-unix platforms.

- import termios

-except ImportError:

- termios = None

-import gflags_validators

-# pylint: enable-msg=C6204

-# Are we running under pychecker?

-_RUNNING_PYCHECKER = 'pychecker.python' in sys.modules

-def _GetCallingModuleObjectAndName():

- """Returns the module that's calling into this module.

- We generally use this function to get the name of the module calling a

- DEFINE_foo... function.

- """

- # Walk down the stack to find the first globals dict that's not ours.

- for depth in range(1, sys.getrecursionlimit()):

- if not sys._getframe(depth).f_globals is globals():

- globals_for_frame = sys._getframe(depth).f_globals

- module, module_name = _GetModuleObjectAndName(globals_for_frame)

- if module_name is not None:

- return module, module_name

- raise AssertionError("No module was found")

-def _GetCallingModule():

- """Returns the name of the module that's calling into this module."""

- return _GetCallingModuleObjectAndName()[1]

-def _GetThisModuleObjectAndName():

- """Returns: (module object, module name) for this module."""

- return _GetModuleObjectAndName(globals())

-# module exceptions:

-class FlagsError(Exception):

- """The base class for all flags errors."""

- pass

-class DuplicateFlag(FlagsError):

- """Raised if there is a flag naming conflict."""

- pass

-class CantOpenFlagFileError(FlagsError):

- """Raised if flagfile fails to open: doesn't exist, wrong permissions, etc."""

- pass

-class DuplicateFlagCannotPropagateNoneToSwig(DuplicateFlag):

- """Special case of DuplicateFlag -- SWIG flag value can't be set to None.

- This can be raised when a duplicate flag is created. Even if allow_override is

- True, we still abort if the new value is None, because it's currently

- impossible to pass None default value back to SWIG. See FlagValues.SetDefault

- for details.

- """

- pass

-class DuplicateFlagError(DuplicateFlag):

- """A DuplicateFlag whose message cites the conflicting definitions.

- A DuplicateFlagError conveys more information than a DuplicateFlag,

- namely the modules where the conflicting definitions occur. This

- class was created to avoid breaking external modules which depend on

- the existing DuplicateFlags interface.

- """

- def __init__(self, flagname, flag_values, other_flag_values=None):

- """Create a DuplicateFlagError.

- Args:

- flagname: Name of the flag being redefined.

- flag_values: FlagValues object containing the first definition of

- flagname.

- other_flag_values: If this argument is not None, it should be the

- FlagValues object where the second definition of flagname occurs.

- If it is None, we assume that we're being called when attempting

- to create the flag a second time, and we use the module calling

- this one as the source of the second definition.

- """

- self.flagname = flagname

- first_module = flag_values.FindModuleDefiningFlag(

- flagname, default='<unknown>')

- if other_flag_values is None:

- second_module = _GetCallingModule()

- else:

- second_module = other_flag_values.FindModuleDefiningFlag(

- flagname, default='<unknown>')

- msg = "The flag '%s' is defined twice. First from %s, Second from %s" % (

- self.flagname, first_module, second_module)

- DuplicateFlag.__init__(self, msg)

-class IllegalFlagValue(FlagsError):

- """The flag command line argument is illegal."""

- pass

-class UnrecognizedFlag(FlagsError):

- """Raised if a flag is unrecognized."""

- pass

-# An UnrecognizedFlagError conveys more information than an UnrecognizedFlag.

-# Since there are external modules that create DuplicateFlags, the interface to

-# DuplicateFlag shouldn't change. The flagvalue will be assigned the full value

-# of the flag and its argument, if any, allowing handling of unrecognized flags

-# in an exception handler.

-# If flagvalue is the empty string, then this exception is an due to a

-# reference to a flag that was not already defined.

-class UnrecognizedFlagError(UnrecognizedFlag):

- def __init__(self, flagname, flagvalue=''):

- self.flagname = flagname

- self.flagvalue = flagvalue

- UnrecognizedFlag.__init__(

- self, "Unknown command line flag '%s'" % flagname)

-# Global variable used by expvar

-_exported_flags = {}

-_help_width = 80 # width of help output

-def GetHelpWidth():

- """Returns: an integer, the width of help lines that is used in TextWrap."""

- if (not sys.stdout.isatty()) or (termios is None) or (fcntl is None):

- return _help_width

- try:

- data = fcntl.ioctl(sys.stdout, termios.TIOCGWINSZ, '1234')

- columns = struct.unpack('hh', data)[1]

- # Emacs mode returns 0.

- # Here we assume that any value below 40 is unreasonable

- if columns >= 40:

- return columns

- # Returning an int as default is fine, int(int) just return the int.

- return int(os.getenv('COLUMNS', _help_width))

- except (TypeError, IOError, struct.error):

- return _help_width

-def CutCommonSpacePrefix(text):

- """Removes a common space prefix from the lines of a multiline text.

- If the first line does not start with a space, it is left as it is and

- only in the remaining lines a common space prefix is being searched

- for. That means the first line will stay untouched. This is especially

- useful to turn doc strings into help texts. This is because some

- people prefer to have the doc comment start already after the

- apostrophe and then align the following lines while others have the

- apostrophes on a separate line.

- The function also drops trailing empty lines and ignores empty lines

- following the initial content line while calculating the initial

- common whitespace.

- Args:

- text: text to work on

- Returns:

- the resulting text

- """

- text_lines = text.splitlines()

- # Drop trailing empty lines

- while text_lines and not text_lines[-1]:

- text_lines = text_lines[:-1]

- if text_lines:

- # We got some content, is the first line starting with a space?

- if text_lines[0] and text_lines[0][0].isspace():

- text_first_line = []

- else:

- text_first_line = [text_lines.pop(0)]

- # Calculate length of common leading whitespace (only over content lines)

- common_prefix = os.path.commonprefix([line for line in text_lines if line])

- space_prefix_len = len(common_prefix) - len(common_prefix.lstrip())

- # If we have a common space prefix, drop it from all lines

- if space_prefix_len:

- for index in xrange(len(text_lines)):

- if text_lines[index]:

- text_lines[index] = text_lines[index][space_prefix_len:]

- return '\n'.join(text_first_line + text_lines)

- return ''

-def TextWrap(text, length=None, indent='', firstline_indent=None, tabs=' '):

- """Wraps a given text to a maximum line length and returns it.

- We turn lines that only contain whitespace into empty lines. We keep

- new lines and tabs (e.g., we do not treat tabs as spaces).

- Args:

- text: text to wrap

- length: maximum length of a line, includes indentation

- if this is None then use GetHelpWidth()

- indent: indent for all but first line

- firstline_indent: indent for first line; if None, fall back to indent

- tabs: replacement for tabs

- Returns:

- wrapped text

- Raises:

- FlagsError: if indent not shorter than length

- FlagsError: if firstline_indent not shorter than length

- """

- # Get defaults where callee used None

- if length is None:

- length = GetHelpWidth()

- if indent is None:

- indent = ''

- if len(indent) >= length:

- raise FlagsError('Indent must be shorter than length')

- # In line we will be holding the current line which is to be started

- # with indent (or firstline_indent if available) and then appended

- # with words.

- if firstline_indent is None:

- firstline_indent = ''

- line = indent

- else:

- line = firstline_indent

- if len(firstline_indent) >= length:

- raise FlagsError('First line indent must be shorter than length')

- # If the callee does not care about tabs we simply convert them to

- # spaces If callee wanted tabs to be single space then we do that

- # already here.

- if not tabs or tabs == ' ':

- text = text.replace('\t', ' ')

- else:

- tabs_are_whitespace = not tabs.strip()

- line_regex = re.compile('([ ]*)(\t*)([^ \t]+)', re.MULTILINE)

- # Split the text into lines and the lines with the regex above. The

- # resulting lines are collected in result[]. For each split we get the

- # spaces, the tabs and the next non white space (e.g. next word).

- result = []

- for text_line in text.splitlines():

- # Store result length so we can find out whether processing the next

- # line gave any new content

- old_result_len = len(result)

- # Process next line with line_regex. For optimization we do an rstrip().

- # - process tabs (changes either line or word, see below)

- # - process word (first try to squeeze on line, then wrap or force wrap)

- # Spaces found on the line are ignored, they get added while wrapping as

- # needed.

- for spaces, current_tabs, word in line_regex.findall(text_line.rstrip()):

- # If tabs weren't converted to spaces, handle them now

- if current_tabs:

- # If the last thing we added was a space anyway then drop

- # it. But let's not get rid of the indentation.

- if (((result and line != indent) or

- (not result and line != firstline_indent)) and line[-1] == ' '):

- line = line[:-1]

- # Add the tabs, if that means adding whitespace, just add it at

- # the line, the rstrip() code while shorten the line down if

- # necessary

- if tabs_are_whitespace:

- line += tabs * len(current_tabs)

- else:

- # if not all tab replacement is whitespace we prepend it to the word

- word = tabs * len(current_tabs) + word

- # Handle the case where word cannot be squeezed onto current last line

- if len(line) + len(word) > length and len(indent) + len(word) <= length:

- result.append(line.rstrip())

- line = indent + word

- word = ''

- # No space left on line or can we append a space?

- if len(line) + 1 >= length:

- result.append(line.rstrip())

- line = indent

- else:

- line += ' '

- # Add word and shorten it up to allowed line length. Restart next

- # line with indent and repeat, or add a space if we're done (word

- # finished) This deals with words that cannot fit on one line

- # (e.g. indent + word longer than allowed line length).

- while len(line) + len(word) >= length:

- line += word

- result.append(line[:length])

- word = line[length:]

- line = indent

- # Default case, simply append the word and a space

- if word:

- line += word + ' '

- # End of input line. If we have content we finish the line. If the

- # current line is just the indent but we had content in during this

- # original line then we need to add an empty line.

- if (result and line != indent) or (not result and line != firstline_indent):

- result.append(line.rstrip())

- elif len(result) == old_result_len:

- result.append('')

- line = indent

- return '\n'.join(result)

-def DocToHelp(doc):

- """Takes a __doc__ string and reformats it as help."""

- # Get rid of starting and ending white space. Using lstrip() or even

- # strip() could drop more than maximum of first line and right space

- # of last line.

- doc = doc.strip()

- # Get rid of all empty lines

- whitespace_only_line = re.compile('^[ \t]+$', re.M)

- doc = whitespace_only_line.sub('', doc)

- # Cut out common space at line beginnings

- doc = CutCommonSpacePrefix(doc)

- # Just like this module's comment, comments tend to be aligned somehow.

- # In other words they all start with the same amount of white space

- # 1) keep double new lines

- # 2) keep ws after new lines if not empty line

- # 3) all other new lines shall be changed to a space

- # Solution: Match new lines between non white space and replace with space.

- doc = re.sub('(?<=\S)\n(?=\S)', ' ', doc, re.M)

- return doc

-def _GetModuleObjectAndName(globals_dict):

- """Returns the module that defines a global environment, and its name.

- Args:

- globals_dict: A dictionary that should correspond to an environment

- providing the values of the globals.

- Returns:

- A pair consisting of (1) module object and (2) module name (a

- string). Returns (None, None) if the module could not be

- identified.

- """

- # The use of .items() (instead of .iteritems()) is NOT a mistake: if

- # a parallel thread imports a module while we iterate over

- # .iteritems() (not nice, but possible), we get a RuntimeError ...

- # Hence, we use the slightly slower but safer .items().

- for name, module in sys.modules.items():

- if getattr(module, '__dict__', None) is globals_dict:

- if name == '__main__':

- # Pick a more informative name for the main module.

- name = sys.argv[0]

- return (module, name)

- return (None, None)

-def _GetMainModule():

- """Returns: string, name of the module from which execution started."""

- # First, try to use the same logic used by _GetCallingModuleObjectAndName(),

- # i.e., call _GetModuleObjectAndName(). For that we first need to

- # find the dictionary that the main module uses to store the

- # globals.

- #

- # That's (normally) the same dictionary object that the deepest

- # (oldest) stack frame is using for globals.

- deepest_frame = sys._getframe(0)

- while deepest_frame.f_back is not None:

- deepest_frame = deepest_frame.f_back

- globals_for_main_module = deepest_frame.f_globals

- main_module_name = _GetModuleObjectAndName(globals_for_main_module)[1]

- # The above strategy fails in some cases (e.g., tools that compute

- # code coverage by redefining, among other things, the main module).

- # If so, just use sys.argv[0]. We can probably always do this, but

- # it's safest to try to use the same logic as _GetCallingModuleObjectAndName()

- if main_module_name is None:

- main_module_name = sys.argv[0]

- return main_module_name

-class FlagValues:

- """Registry of 'Flag' objects.

- A 'FlagValues' can then scan command line arguments, passing flag

- arguments through to the 'Flag' objects that it owns. It also

- provides easy access to the flag values. Typically only one

- 'FlagValues' object is needed by an application: gflags.FLAGS

- This class is heavily overloaded:

- 'Flag' objects are registered via __setitem__:

- FLAGS['longname'] = x # register a new flag

- The .value attribute of the registered 'Flag' objects can be accessed

- as attributes of this 'FlagValues' object, through __getattr__. Both

- the long and short name of the original 'Flag' objects can be used to

- access its value:

- FLAGS.longname # parsed flag value

- FLAGS.x # parsed flag value (short name)

- Command line arguments are scanned and passed to the registered 'Flag'

- objects through the __call__ method. Unparsed arguments, including

- argv[0] (e.g. the program name) are returned.

- argv = FLAGS(sys.argv) # scan command line arguments

- The original registered Flag objects can be retrieved through the use

- of the dictionary-like operator, __getitem__:

- x = FLAGS['longname'] # access the registered Flag object

- The str() operator of a 'FlagValues' object provides help for all of

- the registered 'Flag' objects.

- """

- def __init__(self):

- # Since everything in this class is so heavily overloaded, the only

- # way of defining and using fields is to access __dict__ directly.

- # Dictionary: flag name (string) -> Flag object.

- self.__dict__['__flags'] = {}

- # Dictionary: module name (string) -> list of Flag objects that are defined

- # by that module.

- self.__dict__['__flags_by_module'] = {}

- # Dictionary: module id (int) -> list of Flag objects that are defined by

- # that module.

- self.__dict__['__flags_by_module_id'] = {}

- # Dictionary: module name (string) -> list of Flag objects that are

- # key for that module.

- self.__dict__['__key_flags_by_module'] = {}

- # Set if we should use new style gnu_getopt rather than getopt when parsing

- # the args. Only possible with Python 2.3+

- self.UseGnuGetOpt(False)

- def UseGnuGetOpt(self, use_gnu_getopt=True):

- """Use GNU-style scanning. Allows mixing of flag and non-flag arguments.

- See http://docs.python.org/library/getopt.html#getopt.gnu_getopt

- Args:

- use_gnu_getopt: wether or not to use GNU style scanning.

- """

- self.__dict__['__use_gnu_getopt'] = use_gnu_getopt

- def IsGnuGetOpt(self):

- return self.__dict__['__use_gnu_getopt']

- def FlagDict(self):

- return self.__dict__['__flags']

- def FlagsByModuleDict(self):

- """Returns the dictionary of module_name -> list of defined flags.

- Returns:

- A dictionary. Its keys are module names (strings). Its values

- are lists of Flag objects.

- """

- return self.__dict__['__flags_by_module']

- def FlagsByModuleIdDict(self):

- """Returns the dictionary of module_id -> list of defined flags.

- Returns:

- A dictionary. Its keys are module IDs (ints). Its values

- are lists of Flag objects.

- """

- return self.__dict__['__flags_by_module_id']

- def KeyFlagsByModuleDict(self):

- """Returns the dictionary of module_name -> list of key flags.

- Returns:

- A dictionary. Its keys are module names (strings). Its values

- are lists of Flag objects.

- """

- return self.__dict__['__key_flags_by_module']

- def _RegisterFlagByModule(self, module_name, flag):

- """Records the module that defines a specific flag.

- We keep track of which flag is defined by which module so that we

- can later sort the flags by module.

- Args:

- module_name: A string, the name of a Python module.

- flag: A Flag object, a flag that is key to the module.

- """

- flags_by_module = self.FlagsByModuleDict()

- flags_by_module.setdefault(module_name, []).append(flag)

- def _RegisterFlagByModuleId(self, module_id, flag):

- """Records the module that defines a specific flag.

- Args:

- module_id: An int, the ID of the Python module.

- flag: A Flag object, a flag that is key to the module.

- """

- flags_by_module_id = self.FlagsByModuleIdDict()

- flags_by_module_id.setdefault(module_id, []).append(flag)

- def _RegisterKeyFlagForModule(self, module_name, flag):

- """Specifies that a flag is a key flag for a module.

- Args:

- module_name: A string, the name of a Python module.

- flag: A Flag object, a flag that is key to the module.

- """

- key_flags_by_module = self.KeyFlagsByModuleDict()

- # The list of key flags for the module named module_name.

- key_flags = key_flags_by_module.setdefault(module_name, [])

- # Add flag, but avoid duplicates.

- if flag not in key_flags:

- key_flags.append(flag)

- def _GetFlagsDefinedByModule(self, module):

- """Returns the list of flags defined by a module.

- Args:

- module: A module object or a module name (a string).

- Returns:

- A new list of Flag objects. Caller may update this list as he

- wishes: none of those changes will affect the internals of this

- FlagValue object.

- """

- if not isinstance(module, str):

- module = module.__name__

- return list(self.FlagsByModuleDict().get(module, []))

- def _GetKeyFlagsForModule(self, module):

- """Returns the list of key flags for a module.

- Args:

- module: A module object or a module name (a string)

- Returns:

- A new list of Flag objects. Caller may update this list as he

- wishes: none of those changes will affect the internals of this

- FlagValue object.

- """

- if not isinstance(module, str):

- module = module.__name__

- # Any flag is a key flag for the module that defined it. NOTE:

- # key_flags is a fresh list: we can update it without affecting the

- # internals of this FlagValues object.

- key_flags = self._GetFlagsDefinedByModule(module)

- # Take into account flags explicitly declared as key for a module.

- for flag in self.KeyFlagsByModuleDict().get(module, []):

- if flag not in key_flags:

- key_flags.append(flag)

- return key_flags

- def FindModuleDefiningFlag(self, flagname, default=None):

- """Return the name of the module defining this flag, or default.

- Args:

- flagname: Name of the flag to lookup.

- default: Value to return if flagname is not defined. Defaults

- to None.

- Returns:

- The name of the module which registered the flag with this name.

- If no such module exists (i.e. no flag with this name exists),

- we return default.

- """

- for module, flags in self.FlagsByModuleDict().iteritems():

- for flag in flags:

- if flag.name == flagname or flag.short_name == flagname:

- return module

- return default

- def FindModuleIdDefiningFlag(self, flagname, default=None):

- """Return the ID of the module defining this flag, or default.

- Args:

- flagname: Name of the flag to lookup.

- default: Value to return if flagname is not defined. Defaults

- to None.

- Returns:

- The ID of the module which registered the flag with this name.

- If no such module exists (i.e. no flag with this name exists),

- we return default.

- """

- for module_id, flags in self.FlagsByModuleIdDict().iteritems():

- for flag in flags:

- if flag.name == flagname or flag.short_name == flagname:

- return module_id

- return default

- def AppendFlagValues(self, flag_values):

- """Appends flags registered in another FlagValues instance.

- Args:

- flag_values: registry to copy from

- """

- for flag_name, flag in flag_values.FlagDict().iteritems():

- # Each flags with shortname appears here twice (once under its

- # normal name, and again with its short name). To prevent

- # problems (DuplicateFlagError) with double flag registration, we

- # perform a check to make sure that the entry we're looking at is

- # for its normal name.

- if flag_name == flag.name:

- try:

- self[flag_name] = flag

- except DuplicateFlagError:

- raise DuplicateFlagError(flag_name, self,

- other_flag_values=flag_values)

- def RemoveFlagValues(self, flag_values):

- """Remove flags that were previously appended from another FlagValues.

- Args:

- flag_values: registry containing flags to remove.

- """

- for flag_name in flag_values.FlagDict():

- self.__delattr__(flag_name)

- def __setitem__(self, name, flag):

- """Registers a new flag variable."""

- fl = self.FlagDict()

- if not isinstance(flag, Flag):

- raise IllegalFlagValue(flag)

- if not isinstance(name, type("")):

- raise FlagsError("Flag name must be a string")

- if len(name) == 0:

- raise FlagsError("Flag name cannot be empty")

- # If running under pychecker, duplicate keys are likely to be

- # defined. Disable check for duplicate keys when pycheck'ing.

- if (name in fl and not flag.allow_override and

- not fl[name].allow_override and not _RUNNING_PYCHECKER):

- module, module_name = _GetCallingModuleObjectAndName()

- if (self.FindModuleDefiningFlag(name) == module_name and

- id(module) != self.FindModuleIdDefiningFlag(name)):

- # If the flag has already been defined by a module with the same name,

- # but a different ID, we can stop here because it indicates that the

- # module is simply being imported a subsequent time.

- return

- raise DuplicateFlagError(name, self)

- short_name = flag.short_name

- if short_name is not None:

- if (short_name in fl and not flag.allow_override and

- not fl[short_name].allow_override and not _RUNNING_PYCHECKER):

- raise DuplicateFlagError(short_name, self)

- fl[short_name] = flag

- fl[name] = flag

- global _exported_flags

- _exported_flags[name] = flag

- def __getitem__(self, name):

- """Retrieves the Flag object for the flag --name."""

- return self.FlagDict()[name]

- def __getattr__(self, name):

- """Retrieves the 'value' attribute of the flag --name."""

- fl = self.FlagDict()

- if name not in fl:

- raise AttributeError(name)

- return fl[name].value

- def __setattr__(self, name, value):

- """Sets the 'value' attribute of the flag --name."""

- fl = self.FlagDict()

- fl[name].value = value

- self._AssertValidators(fl[name].validators)

- return value

- def _AssertAllValidators(self):

- all_validators = set()

- for flag in self.FlagDict().itervalues():

- for validator in flag.validators:

- all_validators.add(validator)

- self._AssertValidators(all_validators)

- def _AssertValidators(self, validators):

- """Assert if all validators in the list are satisfied.

- Asserts validators in the order they were created.

- Args:

- validators: Iterable(gflags_validators.Validator), validators to be

- verified

- Raises:

- AttributeError: if validators work with a non-existing flag.

- IllegalFlagValue: if validation fails for at least one validator

- """

- for validator in sorted(

- validators, key=lambda validator: validator.insertion_index):

- try:

- validator.Verify(self)

- except gflags_validators.Error, e:

- message = validator.PrintFlagsWithValues(self)

- raise IllegalFlagValue('%s: %s' % (message, str(e)))

- def _FlagIsRegistered(self, flag_obj):

- """Checks whether a Flag object is registered under some name.

- Note: this is non trivial: in addition to its normal name, a flag

- may have a short name too. In self.FlagDict(), both the normal and

- the short name are mapped to the same flag object. E.g., calling

- only "del FLAGS.short_name" is not unregistering the corresponding

- Flag object (it is still registered under the longer name).

- Args:

- flag_obj: A Flag object.

- Returns:

- A boolean: True iff flag_obj is registered under some name.

- """

- flag_dict = self.FlagDict()

- # Check whether flag_obj is registered under its long name.

- name = flag_obj.name

- if flag_dict.get(name, None) == flag_obj:

- return True

- # Check whether flag_obj is registered under its short name.

- short_name = flag_obj.short_name

- if (short_name is not None and

- flag_dict.get(short_name, None) == flag_obj):

- return True

- # The flag cannot be registered under any other name, so we do not

- # need to do a full search through the values of self.FlagDict().

- return False

- def __delattr__(self, flag_name):

- """Deletes a previously-defined flag from a flag object.

- This method makes sure we can delete a flag by using

- del flag_values_object.<flag_name>

- E.g.,

- gflags.DEFINE_integer('foo', 1, 'Integer flag.')

- del gflags.FLAGS.foo

- Args:

- flag_name: A string, the name of the flag to be deleted.

- Raises:

- AttributeError: When there is no registered flag named flag_name.

- """

- fl = self.FlagDict()

- if flag_name not in fl:

- raise AttributeError(flag_name)

- flag_obj = fl[flag_name]

- del fl[flag_name]

- if not self._FlagIsRegistered(flag_obj):

- # If the Flag object indicated by flag_name is no longer

- # registered (please see the docstring of _FlagIsRegistered), then

- # we delete the occurrences of the flag object in all our internal

- # dictionaries.

- self.__RemoveFlagFromDictByModule(self.FlagsByModuleDict(), flag_obj)

- self.__RemoveFlagFromDictByModule(self.FlagsByModuleIdDict(), flag_obj)

- self.__RemoveFlagFromDictByModule(self.KeyFlagsByModuleDict(), flag_obj)

- def __RemoveFlagFromDictByModule(self, flags_by_module_dict, flag_obj):

- """Removes a flag object from a module -> list of flags dictionary.

- Args:

- flags_by_module_dict: A dictionary that maps module names to lists of

- flags.

- flag_obj: A flag object.

- """

- for unused_module, flags_in_module in flags_by_module_dict.iteritems():

- # while (as opposed to if) takes care of multiple occurrences of a

- # flag in the list for the same module.

- while flag_obj in flags_in_module:

- flags_in_module.remove(flag_obj)

- def SetDefault(self, name, value):

- """Changes the default value of the named flag object."""

- fl = self.FlagDict()

- if name not in fl:

- raise AttributeError(name)

- fl[name].SetDefault(value)

- self._AssertValidators(fl[name].validators)

- def __contains__(self, name):

- """Returns True if name is a value (flag) in the dict."""

- return name in self.FlagDict()

- has_key = __contains__ # a synonym for __contains__()

- def __iter__(self):

- return iter(self.FlagDict())

- def __call__(self, argv):

- """Parses flags from argv; stores parsed flags into this FlagValues object.

- All unparsed arguments are returned. Flags are parsed using the GNU

- Program Argument Syntax Conventions, using getopt:

- http://www.gnu.org/software/libc/manual/html_mono/libc.html#Getopt

- Args:

- argv: argument list. Can be of any type that may be converted to a list.

- Returns:

- The list of arguments not parsed as options, including argv[0]

- Raises:

- FlagsError: on any parsing error

- """

- # Support any sequence type that can be converted to a list

- argv = list(argv)

- shortopts = ""

- longopts = []

- fl = self.FlagDict()

- # This pre parses the argv list for --flagfile=<> options.

- argv = argv[:1] + self.ReadFlagsFromFiles(argv[1:], force_gnu=False)

- # Correct the argv to support the google style of passing boolean

- # parameters. Boolean parameters may be passed by using --mybool,

- # --nomybool, --mybool=(true|false|1|0). getopt does not support

- # having options that may or may not have a parameter. We replace

- # instances of the short form --mybool and --nomybool with their

- # full forms: --mybool=(true|false).

- original_argv = list(argv) # list() makes a copy

- shortest_matches = None

- for name, flag in fl.items():

- if not flag.boolean:

- continue

- if shortest_matches is None:

- # Determine the smallest allowable prefix for all flag names

- shortest_matches = self.ShortestUniquePrefixes(fl)

- no_name = 'no' + name

- prefix = shortest_matches[name]

- no_prefix = shortest_matches[no_name]

- # Replace all occurrences of this boolean with extended forms

- for arg_idx in range(1, len(argv)):

- arg = argv[arg_idx]

- if arg.find('=') >= 0: continue

- if arg.startswith('--'+prefix) and ('--'+name).startswith(arg):

- argv[arg_idx] = ('--%s=true' % name)

- elif arg.startswith('--'+no_prefix) and ('--'+no_name).startswith(arg):

- argv[arg_idx] = ('--%s=false' % name)

- # Loop over all of the flags, building up the lists of short options

- # and long options that will be passed to getopt. Short options are

- # specified as a string of letters, each letter followed by a colon

- # if it takes an argument. Long options are stored in an array of

- # strings. Each string ends with an '=' if it takes an argument.

- for name, flag in fl.items():

- longopts.append(name + "=")

- if len(name) == 1: # one-letter option: allow short flag type also

- shortopts += name

- if not flag.boolean:

- shortopts += ":"

- longopts.append('undefok=')

- undefok_flags = []

- # In case --undefok is specified, loop to pick up unrecognized

- # options one by one.

- unrecognized_opts = []

- args = argv[1:]

- while True:

- try:

- if self.__dict__['__use_gnu_getopt']:

- optlist, unparsed_args = getopt.gnu_getopt(args, shortopts, longopts)

- else:

- optlist, unparsed_args = getopt.getopt(args, shortopts, longopts)

- break

- except getopt.GetoptError, e:

- if not e.opt or e.opt in fl:

- # Not an unrecognized option, re-raise the exception as a FlagsError

- raise FlagsError(e)

- # Remove offender from args and try again

- for arg_index in range(len(args)):

- if ((args[arg_index] == '--' + e.opt) or

- (args[arg_index] == '-' + e.opt) or

- (args[arg_index].startswith('--' + e.opt + '='))):

- unrecognized_opts.append((e.opt, args[arg_index]))

- args = args[0:arg_index] + args[arg_index+1:]

- break

- else:

- # We should have found the option, so we don't expect to get

- # here. We could assert, but raising the original exception

- # might work better.

- raise FlagsError(e)

- for name, arg in optlist:

- if name == '--undefok':

- flag_names = arg.split(',')

- undefok_flags.extend(flag_names)

- # For boolean flags, if --undefok=boolflag is specified, then we should

- # also accept --noboolflag, in addition to --boolflag.

- # Since we don't know the type of the undefok'd flag, this will affect

- # non-boolean flags as well.

- # NOTE: You shouldn't use --undefok=noboolflag, because then we will

- # accept --nonoboolflag here. We are choosing not to do the conversion

- # from noboolflag -> boolflag because of the ambiguity that flag names

- # can start with 'no'.

- undefok_flags.extend('no' + name for name in flag_names)

- continue

- if name.startswith('--'):

- # long option

- name = name[2:]

- short_option = 0

- else:

- # short option

- name = name[1:]

- short_option = 1

- if name in fl:

- flag = fl[name]

- if flag.boolean and short_option: arg = 1

- flag.Parse(arg)

- # If there were unrecognized options, raise an exception unless

- # the options were named via --undefok.

- for opt, value in unrecognized_opts:

- if opt not in undefok_flags:

- raise UnrecognizedFlagError(opt, value)

- if unparsed_args:

- if self.__dict__['__use_gnu_getopt']:

- # if using gnu_getopt just return the program name + remainder of argv.

- ret_val = argv[:1] + unparsed_args

- else:

- # unparsed_args becomes the first non-flag detected by getopt to

- # the end of argv. Because argv may have been modified above,

- # return original_argv for this region.

- ret_val = argv[:1] + original_argv[-len(unparsed_args):]

- else:

- ret_val = argv[:1]

- self._AssertAllValidators()

- return ret_val

- def Reset(self):

- """Resets the values to the point before FLAGS(argv) was called."""

- for f in self.FlagDict().values():

- f.Unparse()

- def RegisteredFlags(self):

- """Returns: a list of the names and short names of all registered flags."""

- return list(self.FlagDict())

- def FlagValuesDict(self):

- """Returns: a dictionary that maps flag names to flag values."""

- flag_values = {}

- for flag_name in self.RegisteredFlags():

- flag = self.FlagDict()[flag_name]

- flag_values[flag_name] = flag.value

- return flag_values

- def __str__(self):

- """Generates a help string for all known flags."""

- return self.GetHelp()

- def GetHelp(self, prefix=''):

- """Generates a help string for all known flags."""

- helplist = []

- flags_by_module = self.FlagsByModuleDict()

- if flags_by_module:

- modules = sorted(flags_by_module)

- # Print the help for the main module first, if possible.

- main_module = _GetMainModule()

- if main_module in modules:

- modules.remove(main_module)

- modules = [main_module] + modules

- for module in modules:

- self.__RenderOurModuleFlags(module, helplist)

- self.__RenderModuleFlags('gflags',

- _SPECIAL_FLAGS.FlagDict().values(),

- helplist)

- else:

- # Just print one long list of flags.

- self.__RenderFlagList(

- self.FlagDict().values() + _SPECIAL_FLAGS.FlagDict().values(),

- helplist, prefix)

- return '\n'.join(helplist)

- def __RenderModuleFlags(self, module, flags, output_lines, prefix=""):

- """Generates a help string for a given module."""

- if not isinstance(module, str):

- module = module.__name__

- output_lines.append('\n%s%s:' % (prefix, module))

- self.__RenderFlagList(flags, output_lines, prefix + " ")

- def __RenderOurModuleFlags(self, module, output_lines, prefix=""):

- """Generates a help string for a given module."""

- flags = self._GetFlagsDefinedByModule(module)

- if flags:

- self.__RenderModuleFlags(module, flags, output_lines, prefix)

- def __RenderOurModuleKeyFlags(self, module, output_lines, prefix=""):

- """Generates a help string for the key flags of a given module.

- Args:

- module: A module object or a module name (a string).

- output_lines: A list of strings. The generated help message

- lines will be appended to this list.

- prefix: A string that is prepended to each generated help line.

- """

- key_flags = self._GetKeyFlagsForModule(module)

- if key_flags:

- self.__RenderModuleFlags(module, key_flags, output_lines, prefix)

- def ModuleHelp(self, module):

- """Describe the key flags of a module.

- Args:

- module: A module object or a module name (a string).

- Returns:

- string describing the key flags of a module.

- """

- helplist = []

- self.__RenderOurModuleKeyFlags(module, helplist)

- return '\n'.join(helplist)

- def MainModuleHelp(self):

- """Describe the key flags of the main module.

- Returns:

- string describing the key flags of a module.

- """

- return self.ModuleHelp(_GetMainModule())

- def __RenderFlagList(self, flaglist, output_lines, prefix=" "):

- fl = self.FlagDict()

- special_fl = _SPECIAL_FLAGS.FlagDict()

- flaglist = [(flag.name, flag) for flag in flaglist]

- flaglist.sort()

- flagset = {}

- for (name, flag) in flaglist:

- # It's possible this flag got deleted or overridden since being

- # registered in the per-module flaglist. Check now against the

- # canonical source of current flag information, the FlagDict.

- if fl.get(name, None) != flag and special_fl.get(name, None) != flag:

- # a different flag is using this name now

- continue

- # only print help once

- if flag in flagset: continue

- flagset[flag] = 1

- flaghelp = ""

- if flag.short_name: flaghelp += "-%s," % flag.short_name

- if flag.boolean:

- flaghelp += "--[no]%s" % flag.name + ":"

- else:

- flaghelp += "--%s" % flag.name + ":"

- flaghelp += " "

- if flag.help:

- flaghelp += flag.help

- flaghelp = TextWrap(flaghelp, indent=prefix+" ",

- firstline_indent=prefix)

- if flag.default_as_str:

- flaghelp += "\n"

- flaghelp += TextWrap("(default: %s)" % flag.default_as_str,

- indent=prefix+" ")

- if flag.parser.syntactic_help:

- flaghelp += "\n"

- flaghelp += TextWrap("(%s)" % flag.parser.syntactic_help,

- indent=prefix+" ")

- output_lines.append(flaghelp)

- def get(self, name, default):

- """Returns the value of a flag (if not None) or a default value.

- Args:

- name: A string, the name of a flag.

- default: Default value to use if the flag value is None.

- """

- value = self.__getattr__(name)

- if value is not None: # Can't do if not value, b/c value might be '0' or ""

- return value

- else:

- return default

- def ShortestUniquePrefixes(self, fl):

- """Returns: dictionary; maps flag names to their shortest unique prefix."""

- # Sort the list of flag names

- sorted_flags = []

- for name, flag in fl.items():

- sorted_flags.append(name)

- if flag.boolean:

- sorted_flags.append('no%s' % name)

- sorted_flags.sort()

- # For each name in the sorted list, determine the shortest unique

- # prefix by comparing itself to the next name and to the previous

- # name (the latter check uses cached info from the previous loop).

- shortest_matches = {}

- prev_idx = 0

- for flag_idx in range(len(sorted_flags)):

- curr = sorted_flags[flag_idx]

- if flag_idx == (len(sorted_flags) - 1):

- next = None

- else:

- next = sorted_flags[flag_idx+1]

- next_len = len(next)

- for curr_idx in range(len(curr)):

- if (next is None

- or curr_idx >= next_len

- or curr[curr_idx] != next[curr_idx]):

- # curr longer than next or no more chars in common

- shortest_matches[curr] = curr[:max(prev_idx, curr_idx) + 1]

- prev_idx = curr_idx

- break

- else:

- # curr shorter than (or equal to) next

- shortest_matches[curr] = curr

- prev_idx = curr_idx + 1 # next will need at least one more char

- return shortest_matches

- def __IsFlagFileDirective(self, flag_string):

- """Checks whether flag_string contain a --flagfile=<foo> directive."""

- if isinstance(flag_string, type("")):

- if flag_string.startswith('--flagfile='):

- return 1

- elif flag_string == '--flagfile':

- return 1

- elif flag_string.startswith('-flagfile='):

- return 1

- elif flag_string == '-flagfile':

- return 1

- else:

- return 0

- def ExtractFilename(self, flagfile_str):

- """Returns filename from a flagfile_str of form -[-]flagfile=filename.

- The cases of --flagfile foo and -flagfile foo shouldn't be hitting

- this function, as they are dealt with in the level above this

- function.

- """

- if flagfile_str.startswith('--flagfile='):

- return os.path.expanduser((flagfile_str[(len('--flagfile=')):]).strip())

- elif flagfile_str.startswith('-flagfile='):

- return os.path.expanduser((flagfile_str[(len('-flagfile=')):]).strip())

- else:

- raise FlagsError('Hit illegal --flagfile type: %s' % flagfile_str)

- def __GetFlagFileLines(self, filename, parsed_file_list):

- """Returns the useful (!=comments, etc) lines from a file with flags.

- Args:

- filename: A string, the name of the flag file.

- parsed_file_list: A list of the names of the files we have

- already read. MUTATED BY THIS FUNCTION.

- Returns:

- List of strings. See the note below.

- NOTE(springer): This function checks for a nested --flagfile=<foo>

- tag and handles the lower file recursively. It returns a list of

- all the lines that _could_ contain command flags. This is

- EVERYTHING except whitespace lines and comments (lines starting

- with '#' or '//').

- """

- line_list = [] # All line from flagfile.

- flag_line_list = [] # Subset of lines w/o comments, blanks, flagfile= tags.

- try:

- file_obj = open(filename, 'r')

- except IOError, e_msg:

- raise CantOpenFlagFileError('ERROR:: Unable to open flagfile: %s' % e_msg)

- line_list = file_obj.readlines()

- file_obj.close()

- parsed_file_list.append(filename)

- # This is where we check each line in the file we just read.

- for line in line_list:

- if line.isspace():

- pass

- # Checks for comment (a line that starts with '#').

- elif line.startswith('#') or line.startswith('//'):

- pass

- # Checks for a nested "--flagfile=<bar>" flag in the current file.

- # If we find one, recursively parse down into that file.

- elif self.__IsFlagFileDirective(line):

- sub_filename = self.ExtractFilename(line)

- # We do a little safety check for reparsing a file we've already done.

- if not sub_filename in parsed_file_list:

- included_flags = self.__GetFlagFileLines(sub_filename,

- parsed_file_list)

- flag_line_list.extend(included_flags)

- else: # Case of hitting a circularly included file.

- sys.stderr.write('Warning: Hit circular flagfile dependency: %s\n' %

- (sub_filename,))

- else:

- # Any line that's not a comment or a nested flagfile should get

- # copied into 2nd position. This leaves earlier arguments

- # further back in the list, thus giving them higher priority.

- flag_line_list.append(line.strip())

- return flag_line_list

- def ReadFlagsFromFiles(self, argv, force_gnu=True):

- """Processes command line args, but also allow args to be read from file.

- Args:

- argv: A list of strings, usually sys.argv[1:], which may contain one or

- more flagfile directives of the form --flagfile="./filename".

- Note that the name of the program (sys.argv[0]) should be omitted.

- force_gnu: If False, --flagfile parsing obeys normal flag semantics.

- If True, --flagfile parsing instead follows gnu_getopt semantics.

- *** WARNING *** force_gnu=False may become the future default!

- Returns:

- A new list which has the original list combined with what we read

- from any flagfile(s).

- References: Global gflags.FLAG class instance.

- This function should be called before the normal FLAGS(argv) call.

- This function scans the input list for a flag that looks like:

- --flagfile=<somefile>. Then it opens <somefile>, reads all valid key

- and value pairs and inserts them into the input list between the

- first item of the list and any subsequent items in the list.

- Note that your application's flags are still defined the usual way

- using gflags DEFINE_flag() type functions.

- Notes (assuming we're getting a commandline of some sort as our input):

- --> Flags from the command line argv _should_ always take precedence!

- --> A further "--flagfile=<otherfile.cfg>" CAN be nested in a flagfile.

- It will be processed after the parent flag file is done.

- --> For duplicate flags, first one we hit should "win".

- --> In a flagfile, a line beginning with # or // is a comment.

- --> Entirely blank lines _should_ be ignored.

- """

- parsed_file_list = []

- rest_of_args = argv

- new_argv = []

- while rest_of_args:

- current_arg = rest_of_args[0]

- rest_of_args = rest_of_args[1:]

- if self.__IsFlagFileDirective(current_arg):

- # This handles the case of -(-)flagfile foo. In this case the

- # next arg really is part of this one.

- if current_arg == '--flagfile' or current_arg == '-flagfile':

- if not rest_of_args:

- raise IllegalFlagValue('--flagfile with no argument')

- flag_filename = os.path.expanduser(rest_of_args[0])

- rest_of_args = rest_of_args[1:]

- else:

- # This handles the case of (-)-flagfile=foo.

- flag_filename = self.ExtractFilename(current_arg)

- new_argv.extend(

- self.__GetFlagFileLines(flag_filename, parsed_file_list))

- else:

- new_argv.append(current_arg)

- # Stop parsing after '--', like getopt and gnu_getopt.

- if current_arg == '--':

- break

- # Stop parsing after a non-flag, like getopt.

- if not current_arg.startswith('-'):

- if not force_gnu and not self.__dict__['__use_gnu_getopt']:

- break

- if rest_of_args:

- new_argv.extend(rest_of_args)

- return new_argv

- def FlagsIntoString(self):

- """Returns a string with the flags assignments from this FlagValues object.

- This function ignores flags whose value is None. Each flag

- assignment is separated by a newline.

- NOTE: MUST mirror the behavior of the C++ CommandlineFlagsIntoString

- from http://code.google.com/p/google-gflags

- """

- s = ''

- for flag in self.FlagDict().values():

- if flag.value is not None:

- s += flag.Serialize() + '\n'

- return s

- def AppendFlagsIntoFile(self, filename):

- """Appends all flags assignments from this FlagInfo object to a file.

- Output will be in the format of a flagfile.

- NOTE: MUST mirror the behavior of the C++ AppendFlagsIntoFile

- from http://code.google.com/p/google-gflags

- """

- out_file = open(filename, 'a')

- out_file.write(self.FlagsIntoString())

- out_file.close()

- def WriteHelpInXMLFormat(self, outfile=None):

- """Outputs flag documentation in XML format.

- NOTE: We use element names that are consistent with those used by

- the C++ command-line flag library, from

- http://code.google.com/p/google-gflags

- We also use a few new elements (e.g., <key>), but we do not

- interfere / overlap with existing XML elements used by the C++

- library. Please maintain this consistency.

- Args:

- outfile: File object we write to. Default None means sys.stdout.

- """

- outfile = outfile or sys.stdout

- outfile.write('<?xml version=\"1.0\"?>\n')

- outfile.write('<AllFlags>\n')

- indent = ' '

- _WriteSimpleXMLElement(outfile, 'program', os.path.basename(sys.argv[0]),

- indent)

- usage_doc = sys.modules['__main__'].__doc__

- if not usage_doc:

- usage_doc = '\nUSAGE: %s [flags]\n' % sys.argv[0]

- else:

- usage_doc = usage_doc.replace('%s', sys.argv[0])

- _WriteSimpleXMLElement(outfile, 'usage', usage_doc, indent)

- # Get list of key flags for the main module.

- key_flags = self._GetKeyFlagsForModule(_GetMainModule())

- # Sort flags by declaring module name and next by flag name.

- flags_by_module = self.FlagsByModuleDict()

- all_module_names = list(flags_by_module.keys())

- all_module_names.sort()

- for module_name in all_module_names:

- flag_list = [(f.name, f) for f in flags_by_module[module_name]]

- flag_list.sort()

- for unused_flag_name, flag in flag_list:

- is_key = flag in key_flags

- flag.WriteInfoInXMLFormat(outfile, module_name,

- is_key=is_key, indent=indent)

- outfile.write('</AllFlags>\n')

- outfile.flush()

- def AddValidator(self, validator):

- """Register new flags validator to be checked.

- Args:

- validator: gflags_validators.Validator

- Raises:

- AttributeError: if validators work with a non-existing flag.

- """

- for flag_name in validator.GetFlagsNames():

- flag = self.FlagDict()[flag_name]

- flag.validators.append(validator)

-# end of FlagValues definition

-# The global FlagValues instance

-FLAGS = FlagValues()

-def _StrOrUnicode(value):

- """Converts value to a python string or, if necessary, unicode-string."""

- try:

- return str(value)

- except UnicodeEncodeError:

- return unicode(value)

-def _MakeXMLSafe(s):

- """Escapes <, >, and & from s, and removes XML 1.0-illegal chars."""

- s = cgi.escape(s) # Escape <, >, and &

- # Remove characters that cannot appear in an XML 1.0 document

- # (http://www.w3.org/TR/REC-xml/#charsets).

- #

- # NOTE: if there are problems with current solution, one may move to

- # XML 1.1, which allows such chars, if they're entity-escaped (&#xHH;).

- s = re.sub(r'[\x00-\x08\x0b\x0c\x0e-\x1f]', '', s)

- # Convert non-ascii characters to entities. Note: requires python >=2.3

- s = s.encode('ascii', 'xmlcharrefreplace') # u'\xce\x88' -> 'uΈ'

- return s

-def _WriteSimpleXMLElement(outfile, name, value, indent):

- """Writes a simple XML element.

- Args:

- outfile: File object we write the XML element to.

- name: A string, the name of XML element.

- value: A Python object, whose string representation will be used

- as the value of the XML element.

- indent: A string, prepended to each line of generated output.

- """

- value_str = _StrOrUnicode(value)

- if isinstance(value, bool):

- # Display boolean values as the C++ flag library does: no caps.

- value_str = value_str.lower()

- safe_value_str = _MakeXMLSafe(value_str)

- outfile.write('%s<%s>%s</%s>\n' % (indent, name, safe_value_str, name))

-class Flag:

- """Information about a command-line flag.

- 'Flag' objects define the following fields:

- .name - the name for this flag

- .default - the default value for this flag

- .default_as_str - default value as repr'd string, e.g., "'true'" (or None)

- .value - the most recent parsed value of this flag; set by Parse()

- .help - a help string or None if no help is available

- .short_name - the single letter alias for this flag (or None)

- .boolean - if 'true', this flag does not accept arguments

- .present - true if this flag was parsed from command line flags.

- .parser - an ArgumentParser object

- .serializer - an ArgumentSerializer object

- .allow_override - the flag may be redefined without raising an error

- The only public method of a 'Flag' object is Parse(), but it is

- typically only called by a 'FlagValues' object. The Parse() method is

- a thin wrapper around the 'ArgumentParser' Parse() method. The parsed

- value is saved in .value, and the .present attribute is updated. If

- this flag was already present, a FlagsError is raised.

- Parse() is also called during __init__ to parse the default value and

- initialize the .value attribute. This enables other python modules to

- safely use flags even if the __main__ module neglects to parse the

- command line arguments. The .present attribute is cleared after

- __init__ parsing. If the default value is set to None, then the

- __init__ parsing step is skipped and the .value attribute is

- initialized to None.

- Note: The default value is also presented to the user in the help

- string, so it is important that it be a legal value for this flag.

- """

- def __init__(self, parser, serializer, name, default, help_string,

- short_name=None, boolean=0, allow_override=0):

- self.name = name

- if not help_string:

- help_string = '(no help available)'

- self.help = help_string

- self.short_name = short_name

- self.boolean = boolean

- self.present = 0

- self.parser = parser

- self.serializer = serializer

- self.allow_override = allow_override

- self.value = None

- self.validators = []

- self.SetDefault(default)

- def __hash__(self):

- return hash(id(self))

- def __eq__(self, other):

- return self is other

- def __lt__(self, other):

- if isinstance(other, Flag):

- return id(self) < id(other)

- return NotImplemented

- def __GetParsedValueAsString(self, value):

- if value is None:

- return None

- if self.serializer:

- return repr(self.serializer.Serialize(value))

- if self.boolean:

- if value:

- return repr('true')

- else:

- return repr('false')

- return repr(_StrOrUnicode(value))

- def Parse(self, argument):

- try:

- self.value = self.parser.Parse(argument)

- except ValueError, e: # recast ValueError as IllegalFlagValue

- raise IllegalFlagValue("flag --%s=%s: %s" % (self.name, argument, e))

- self.present += 1

- def Unparse(self):

- if self.default is None:

- self.value = None

- else:

- self.Parse(self.default)

- self.present = 0

- def Serialize(self):

- if self.value is None:

- return ''

- if self.boolean:

- if self.value:

- return "--%s" % self.name

- else:

- return "--no%s" % self.name

- else:

- if not self.serializer:

- raise FlagsError("Serializer not present for flag %s" % self.name)

- return "--%s=%s" % (self.name, self.serializer.Serialize(self.value))

- def SetDefault(self, value):

- """Changes the default value (and current value too) for this Flag."""

- # We can't allow a None override because it may end up not being

- # passed to C++ code when we're overriding C++ flags. So we

- # cowardly bail out until someone fixes the semantics of trying to

- # pass None to a C++ flag. See swig_flags.Init() for details on

- # this behavior.

- # TODO(olexiy): Users can directly call this method, bypassing all flags

- # validators (we don't have FlagValues here, so we can not check

- # validators).

- # The simplest solution I see is to make this method private.

- # Another approach would be to store reference to the corresponding

- # FlagValues with each flag, but this seems to be an overkill.

- if value is None and self.allow_override:

- raise DuplicateFlagCannotPropagateNoneToSwig(self.name)

- self.default = value

- self.Unparse()

- self.default_as_str = self.__GetParsedValueAsString(self.value)

- def Type(self):

- """Returns: a string that describes the type of this Flag."""

- # NOTE: we use strings, and not the types.*Type constants because

- # our flags can have more exotic types, e.g., 'comma separated list

- # of strings', 'whitespace separated list of strings', etc.

- return self.parser.Type()

- def WriteInfoInXMLFormat(self, outfile, module_name, is_key=False, indent=''):

- """Writes common info about this flag, in XML format.

- This is information that is relevant to all flags (e.g., name,

- meaning, etc.). If you defined a flag that has some other pieces of

- info, then please override _WriteCustomInfoInXMLFormat.

- Please do NOT override this method.

- Args:

- outfile: File object we write to.

- module_name: A string, the name of the module that defines this flag.

- is_key: A boolean, True iff this flag is key for main module.

- indent: A string that is prepended to each generated line.

- """

- outfile.write(indent + '<flag>\n')

- inner_indent = indent + ' '

- if is_key:

- _WriteSimpleXMLElement(outfile, 'key', 'yes', inner_indent)

- _WriteSimpleXMLElement(outfile, 'file', module_name, inner_indent)

- # Print flag features that are relevant for all flags.

- _WriteSimpleXMLElement(outfile, 'name', self.name, inner_indent)

- if self.short_name:

- _WriteSimpleXMLElement(outfile, 'short_name', self.short_name,

- inner_indent)

- if self.help:

- _WriteSimpleXMLElement(outfile, 'meaning', self.help, inner_indent)

- # The default flag value can either be represented as a string like on the

- # command line, or as a Python object. We serialize this value in the

- # latter case in order to remain consistent.

- if self.serializer and not isinstance(self.default, str):

- default_serialized = self.serializer.Serialize(self.default)

- else:

- default_serialized = self.default

- _WriteSimpleXMLElement(outfile, 'default', default_serialized, inner_indent)

- _WriteSimpleXMLElement(outfile, 'current', self.value, inner_indent)

- _WriteSimpleXMLElement(outfile, 'type', self.Type(), inner_indent)

- # Print extra flag features this flag may have.

- self._WriteCustomInfoInXMLFormat(outfile, inner_indent)

- outfile.write(indent + '</flag>\n')

- def _WriteCustomInfoInXMLFormat(self, outfile, indent):

- """Writes extra info about this flag, in XML format.

- "Extra" means "not already printed by WriteInfoInXMLFormat above."

- Args:

- outfile: File object we write to.

- indent: A string that is prepended to each generated line.

- """

- # Usually, the parser knows the extra details about the flag, so

- # we just forward the call to it.

- self.parser.WriteCustomInfoInXMLFormat(outfile, indent)

-# End of Flag definition

-class _ArgumentParserCache(type):

- """Metaclass used to cache and share argument parsers among flags."""

- _instances = {}

- def __call__(mcs, *args, **kwargs):

- """Returns an instance of the argument parser cls.

- This method overrides behavior of the __new__ methods in

- all subclasses of ArgumentParser (inclusive). If an instance

- for mcs with the same set of arguments exists, this instance is

- returned, otherwise a new instance is created.

- If any keyword arguments are defined, or the values in args

- are not hashable, this method always returns a new instance of

- cls.

- Args:

- args: Positional initializer arguments.

- kwargs: Initializer keyword arguments.

- Returns:

- An instance of cls, shared or new.

- """

- if kwargs:

- return type.__call__(mcs, *args, **kwargs)

- else:

- instances = mcs._instances

- key = (mcs,) + tuple(args)

- try:

- return instances[key]

- except KeyError:

- # No cache entry for key exists, create a new one.

- return instances.setdefault(key, type.__call__(mcs, *args))

- except TypeError:

- # An object in args cannot be hashed, always return

- # a new instance.

- return type.__call__(mcs, *args)

-class ArgumentParser(object):

- """Base class used to parse and convert arguments.

- The Parse() method checks to make sure that the string argument is a

- legal value and convert it to a native type. If the value cannot be

- converted, it should throw a 'ValueError' exception with a human

- readable explanation of why the value is illegal.

- Subclasses should also define a syntactic_help string which may be

- presented to the user to describe the form of the legal values.

- Argument parser classes must be stateless, since instances are cached

- and shared between flags. Initializer arguments are allowed, but all

- member variables must be derived from initializer arguments only.

- """

- __metaclass__ = _ArgumentParserCache

- syntactic_help = ""

- def Parse(self, argument):

- """Default implementation: always returns its argument unmodified."""

- return argument

- def Type(self):

- return 'string'

- def WriteCustomInfoInXMLFormat(self, outfile, indent):

- pass

-class ArgumentSerializer:

- """Base class for generating string representations of a flag value."""

- def Serialize(self, value):

- return _StrOrUnicode(value)

-class ListSerializer(ArgumentSerializer):

- def __init__(self, list_sep):

- self.list_sep = list_sep

- def Serialize(self, value):

- return self.list_sep.join([_StrOrUnicode(x) for x in value])

-# Flags validators

-def RegisterValidator(flag_name,

- checker,

- message='Flag validation failed',

- flag_values=FLAGS):

- """Adds a constraint, which will be enforced during program execution.

- The constraint is validated when flags are initially parsed, and after each

- change of the corresponding flag's value.

- Args:

- flag_name: string, name of the flag to be checked.

- checker: method to validate the flag.

- input - value of the corresponding flag (string, boolean, etc.

- This value will be passed to checker by the library). See file's

- docstring for examples.

- output - Boolean.

- Must return True if validator constraint is satisfied.

- If constraint is not satisfied, it should either return False or

- raise gflags_validators.Error(desired_error_message).

- message: error text to be shown to the user if checker returns False.

- If checker raises gflags_validators.Error, message from the raised

- Error will be shown.

- flag_values: FlagValues

- Raises:

- AttributeError: if flag_name is not registered as a valid flag name.

- """

- flag_values.AddValidator(gflags_validators.SimpleValidator(flag_name,

- checker,

- message))

-def MarkFlagAsRequired(flag_name, flag_values=FLAGS):

- """Ensure that flag is not None during program execution.

- Registers a flag validator, which will follow usual validator

- rules.

- Args:

- flag_name: string, name of the flag

- flag_values: FlagValues

- Raises:

- AttributeError: if flag_name is not registered as a valid flag name.

- """

- RegisterValidator(flag_name,

- lambda value: value is not None,

- message='Flag --%s must be specified.' % flag_name,

- flag_values=flag_values)

-def _RegisterBoundsValidatorIfNeeded(parser, name, flag_values):

- """Enforce lower and upper bounds for numeric flags.

- Args:

- parser: NumericParser (either FloatParser or IntegerParser). Provides lower

- and upper bounds, and help text to display.

- name: string, name of the flag

- flag_values: FlagValues

- """

- if parser.lower_bound is not None or parser.upper_bound is not None:

- def Checker(value):

- if value is not None and parser.IsOutsideBounds(value):

- message = '%s is not %s' % (value, parser.syntactic_help)

- raise gflags_validators.Error(message)

- return True

- RegisterValidator(name,

- Checker,

- flag_values=flag_values)

-# The DEFINE functions are explained in mode details in the module doc string.

-def DEFINE(parser, name, default, help, flag_values=FLAGS, serializer=None,

- **args):

- """Registers a generic Flag object.

- NOTE: in the docstrings of all DEFINE* functions, "registers" is short

- for "creates a new flag and registers it".

- Auxiliary function: clients should use the specialized DEFINE_<type>

- function instead.

- Args:

- parser: ArgumentParser that is used to parse the flag arguments.

- name: A string, the flag name.

- default: The default value of the flag.

- help: A help string.

- flag_values: FlagValues object the flag will be registered with.

- serializer: ArgumentSerializer that serializes the flag value.

- args: Dictionary with extra keyword args that are passes to the

- Flag __init__.

- """

- DEFINE_flag(Flag(parser, serializer, name, default, help, **args),

- flag_values)

-def DEFINE_flag(flag, flag_values=FLAGS):

- """Registers a 'Flag' object with a 'FlagValues' object.

- By default, the global FLAGS 'FlagValue' object is used.

- Typical users will use one of the more specialized DEFINE_xxx

- functions, such as DEFINE_string or DEFINE_integer. But developers

- who need to create Flag objects themselves should use this function

- to register their flags.

- """

- # copying the reference to flag_values prevents pychecker warnings

- fv = flag_values

- fv[flag.name] = flag

- # Tell flag_values who's defining the flag.

- if isinstance(flag_values, FlagValues):

- # Regarding the above isinstance test: some users pass funny

- # values of flag_values (e.g., {}) in order to avoid the flag

- # registration (in the past, there used to be a flag_values ==

- # FLAGS test here) and redefine flags with the same name (e.g.,

- # debug). To avoid breaking their code, we perform the

- # registration only if flag_values is a real FlagValues object.

- module, module_name = _GetCallingModuleObjectAndName()

- flag_values._RegisterFlagByModule(module_name, flag)

- flag_values._RegisterFlagByModuleId(id(module), flag)

-def _InternalDeclareKeyFlags(flag_names,

- flag_values=FLAGS, key_flag_values=None):

- """Declares a flag as key for the calling module.

- Internal function. User code should call DECLARE_key_flag or

- ADOPT_module_key_flags instead.

- Args:

- flag_names: A list of strings that are names of already-registered

- Flag objects.

- flag_values: A FlagValues object that the flags listed in

- flag_names have registered with (the value of the flag_values

- argument from the DEFINE_* calls that defined those flags).

- This should almost never need to be overridden.

- key_flag_values: A FlagValues object that (among possibly many

- other things) keeps track of the key flags for each module.

- Default None means "same as flag_values". This should almost

- never need to be overridden.

- Raises:

- UnrecognizedFlagError: when we refer to a flag that was not

- defined yet.

- """

- key_flag_values = key_flag_values or flag_values

- module = _GetCallingModule()

- for flag_name in flag_names:

- if flag_name not in flag_values:

- raise UnrecognizedFlagError(flag_name)

- flag = flag_values.FlagDict()[flag_name]

- key_flag_values._RegisterKeyFlagForModule(module, flag)

-def DECLARE_key_flag(flag_name, flag_values=FLAGS):

- """Declares one flag as key to the current module.

- Key flags are flags that are deemed really important for a module.

- They are important when listing help messages; e.g., if the

- --helpshort command-line flag is used, then only the key flags of the

- main module are listed (instead of all flags, as in the case of

- --help).

- Sample usage:

- gflags.DECLARED_key_flag('flag_1')

- Args:

- flag_name: A string, the name of an already declared flag.

- (Redeclaring flags as key, including flags implicitly key

- because they were declared in this module, is a no-op.)

- flag_values: A FlagValues object. This should almost never

- need to be overridden.

- """

- if flag_name in _SPECIAL_FLAGS:

- # Take care of the special flags, e.g., --flagfile, --undefok.

- # These flags are defined in _SPECIAL_FLAGS, and are treated

- # specially during flag parsing, taking precedence over the

- # user-defined flags.

- _InternalDeclareKeyFlags([flag_name],

- flag_values=_SPECIAL_FLAGS,

- key_flag_values=flag_values)

- return

- _InternalDeclareKeyFlags([flag_name], flag_values=flag_values)

-def ADOPT_module_key_flags(module, flag_values=FLAGS):

- """Declares that all flags key to a module are key to the current module.

- Args:

- module: A module object.

- flag_values: A FlagValues object. This should almost never need

- to be overridden.

- Raises:

- FlagsError: When given an argument that is a module name (a

- string), instead of a module object.

- """

- # NOTE(salcianu): an even better test would be if not

- # isinstance(module, types.ModuleType) but I didn't want to import

- # types for such a tiny use.

- if isinstance(module, str):

- raise FlagsError('Received module name %s; expected a module object.'

- % module)

- _InternalDeclareKeyFlags(

- [f.name for f in flag_values._GetKeyFlagsForModule(module.__name__)],

- flag_values=flag_values)

- # If module is this flag module, take _SPECIAL_FLAGS into account.

- if module == _GetThisModuleObjectAndName()[0]:

- _InternalDeclareKeyFlags(

- # As we associate flags with _GetCallingModuleObjectAndName(), the

- # special flags defined in this module are incorrectly registered with

- # a different module. So, we can't use _GetKeyFlagsForModule.

- # Instead, we take all flags from _SPECIAL_FLAGS (a private

- # FlagValues, where no other module should register flags).

- [f.name for f in _SPECIAL_FLAGS.FlagDict().values()],

- flag_values=_SPECIAL_FLAGS,

- key_flag_values=flag_values)

-# STRING FLAGS

-def DEFINE_string(name, default, help, flag_values=FLAGS, **args):

- """Registers a flag whose value can be any string."""

- parser = ArgumentParser()

- serializer = ArgumentSerializer()

- DEFINE(parser, name, default, help, flag_values, serializer, **args)

-# BOOLEAN FLAGS

-class BooleanParser(ArgumentParser):

- """Parser of boolean values."""

- def Convert(self, argument):

- """Converts the argument to a boolean; raise ValueError on errors."""

- if type(argument) == str:

- if argument.lower() in ['true', 't', '1']:

- return True

- elif argument.lower() in ['false', 'f', '0']:

- return False

- bool_argument = bool(argument)

- if argument == bool_argument:

- # The argument is a valid boolean (True, False, 0, or 1), and not just

- # something that always converts to bool (list, string, int, etc.).

- return bool_argument

- raise ValueError('Non-boolean argument to boolean flag', argument)

- def Parse(self, argument):

- val = self.Convert(argument)

- return val

- def Type(self):

- return 'bool'

-class BooleanFlag(Flag):

- """Basic boolean flag.

- Boolean flags do not take any arguments, and their value is either

- True (1) or False (0). The false value is specified on the command

- line by prepending the word 'no' to either the long or the short flag

- name.

- For example, if a Boolean flag was created whose long name was

- 'update' and whose short name was 'x', then this flag could be

- explicitly unset through either --noupdate or --nox.

- """

- def __init__(self, name, default, help, short_name=None, **args):

- p = BooleanParser()

- Flag.__init__(self, p, None, name, default, help, short_name, 1, **args)

- if not self.help: self.help = "a boolean value"

-def DEFINE_boolean(name, default, help, flag_values=FLAGS, **args):

- """Registers a boolean flag.

- Such a boolean flag does not take an argument. If a user wants to

- specify a false value explicitly, the long option beginning with 'no'

- must be used: i.e. --noflag

- This flag will have a value of None, True or False. None is possible

- if default=None and the user does not specify the flag on the command

- line.

- """

- DEFINE_flag(BooleanFlag(name, default, help, **args), flag_values)

-# Match C++ API to unconfuse C++ people.

-DEFINE_bool = DEFINE_boolean

-class HelpFlag(BooleanFlag):

- """

- HelpFlag is a special boolean flag that prints usage information and

- raises a SystemExit exception if it is ever found in the command

- line arguments. Note this is called with allow_override=1, so other

- apps can define their own --help flag, replacing this one, if they want.

- """

- def __init__(self):

- BooleanFlag.__init__(self, "help", 0, "show this help",

- short_name="?", allow_override=1)

- def Parse(self, arg):

- if arg:

- doc = sys.modules["__main__"].__doc__

- flags = str(FLAGS)

- print doc or ("\nUSAGE: %s [flags]\n" % sys.argv[0])

- if flags:

- print "flags:"

- print flags

- sys.exit(1)

-class HelpXMLFlag(BooleanFlag):

- """Similar to HelpFlag, but generates output in XML format."""

- def __init__(self):

- BooleanFlag.__init__(self, 'helpxml', False,

- 'like --help, but generates XML output',

- allow_override=1)

- def Parse(self, arg):

- if arg:

- FLAGS.WriteHelpInXMLFormat(sys.stdout)

- sys.exit(1)

-class HelpshortFlag(BooleanFlag):

- """

- HelpshortFlag is a special boolean flag that prints usage

- information for the "main" module, and rasies a SystemExit exception

- if it is ever found in the command line arguments. Note this is

- called with allow_override=1, so other apps can define their own

- --helpshort flag, replacing this one, if they want.

- """

- def __init__(self):

- BooleanFlag.__init__(self, "helpshort", 0,

- "show usage only for this module", allow_override=1)

- def Parse(self, arg):

- if arg:

- doc = sys.modules["__main__"].__doc__

- flags = FLAGS.MainModuleHelp()

- print doc or ("\nUSAGE: %s [flags]\n" % sys.argv[0])

- if flags:

- print "flags:"

- print flags

- sys.exit(1)

-# Numeric parser - base class for Integer and Float parsers

-class NumericParser(ArgumentParser):

- """Parser of numeric values.

- Parsed value may be bounded to a given upper and lower bound.

- """

- def IsOutsideBounds(self, val):

- return ((self.lower_bound is not None and val < self.lower_bound) or

- (self.upper_bound is not None and val > self.upper_bound))

- def Parse(self, argument):

- val = self.Convert(argument)

- if self.IsOutsideBounds(val):

- raise ValueError("%s is not %s" % (val, self.syntactic_help))

- return val

- def WriteCustomInfoInXMLFormat(self, outfile, indent):

- if self.lower_bound is not None:

- _WriteSimpleXMLElement(outfile, 'lower_bound', self.lower_bound, indent)

- if self.upper_bound is not None:

- _WriteSimpleXMLElement(outfile, 'upper_bound', self.upper_bound, indent)

- def Convert(self, argument):

- """Default implementation: always returns its argument unmodified."""

- return argument

-# End of Numeric Parser

-# FLOAT FLAGS

-class FloatParser(NumericParser):

- """Parser of floating point values.

- Parsed value may be bounded to a given upper and lower bound.

- """

- number_article = "a"

- number_name = "number"

- syntactic_help = " ".join((number_article, number_name))

- def __init__(self, lower_bound=None, upper_bound=None):

- super(FloatParser, self).__init__()

- self.lower_bound = lower_bound

- self.upper_bound = upper_bound

- sh = self.syntactic_help

- if lower_bound is not None and upper_bound is not None:

- sh = ("%s in the range [%s, %s]" % (sh, lower_bound, upper_bound))

- elif lower_bound == 0:

- sh = "a non-negative %s" % self.number_name

- elif upper_bound == 0:

- sh = "a non-positive %s" % self.number_name

- elif upper_bound is not None:

- sh = "%s <= %s" % (self.number_name, upper_bound)

- elif lower_bound is not None:

- sh = "%s >= %s" % (self.number_name, lower_bound)

- self.syntactic_help = sh

- def Convert(self, argument):

- """Converts argument to a float; raises ValueError on errors."""

- return float(argument)

- def Type(self):

- return 'float'

-# End of FloatParser

-def DEFINE_float(name, default, help, lower_bound=None, upper_bound=None,

- flag_values=FLAGS, **args):

- """Registers a flag whose value must be a float.

- If lower_bound or upper_bound are set, then this flag must be

- within the given range.

- """

- parser = FloatParser(lower_bound, upper_bound)

- serializer = ArgumentSerializer()

- DEFINE(parser, name, default, help, flag_values, serializer, **args)

- _RegisterBoundsValidatorIfNeeded(parser, name, flag_values=flag_values)

-# INTEGER FLAGS

-class IntegerParser(NumericParser):

- """Parser of an integer value.

- Parsed value may be bounded to a given upper and lower bound.

- """

- number_article = "an"

- number_name = "integer"

- syntactic_help = " ".join((number_article, number_name))

- def __init__(self, lower_bound=None, upper_bound=None):

- super(IntegerParser, self).__init__()

- self.lower_bound = lower_bound

- self.upper_bound = upper_bound

- sh = self.syntactic_help

- if lower_bound is not None and upper_bound is not None:

- sh = ("%s in the range [%s, %s]" % (sh, lower_bound, upper_bound))

- elif lower_bound == 1:

- sh = "a positive %s" % self.number_name

- elif upper_bound == -1:

- sh = "a negative %s" % self.number_name

- elif lower_bound == 0:

- sh = "a non-negative %s" % self.number_name

- elif upper_bound == 0:

- sh = "a non-positive %s" % self.number_name

- elif upper_bound is not None:

- sh = "%s <= %s" % (self.number_name, upper_bound)

- elif lower_bound is not None:

- sh = "%s >= %s" % (self.number_name, lower_bound)

- self.syntactic_help = sh

- def Convert(self, argument):

- __pychecker__ = 'no-returnvalues'

- if type(argument) == str:

- base = 10

- if len(argument) > 2 and argument[0] == "0" and argument[1] == "x":

- base = 16

- return int(argument, base)

- else:

- return int(argument)

- def Type(self):

- return 'int'

-def DEFINE_integer(name, default, help, lower_bound=None, upper_bound=None,

- flag_values=FLAGS, **args):

- """Registers a flag whose value must be an integer.

- If lower_bound, or upper_bound are set, then this flag must be

- within the given range.

- """

- parser = IntegerParser(lower_bound, upper_bound)

- serializer = ArgumentSerializer()

- DEFINE(parser, name, default, help, flag_values, serializer, **args)

- _RegisterBoundsValidatorIfNeeded(parser, name, flag_values=flag_values)

-# ENUM FLAGS

-class EnumParser(ArgumentParser):

- """Parser of a string enum value (a string value from a given set).

- If enum_values (see below) is not specified, any string is allowed.

- """

- def __init__(self, enum_values=None):

- super(EnumParser, self).__init__()

- self.enum_values = enum_values

- def Parse(self, argument):

- if self.enum_values and argument not in self.enum_values:

- raise ValueError("value should be one of <%s>" %

- "|".join(self.enum_values))

- return argument

- def Type(self):

- return 'string enum'

-class EnumFlag(Flag):

- """Basic enum flag; its value can be any string from list of enum_values."""

- def __init__(self, name, default, help, enum_values=None,

- short_name=None, **args):

- enum_values = enum_values or []

- p = EnumParser(enum_values)

- g = ArgumentSerializer()

- Flag.__init__(self, p, g, name, default, help, short_name, **args)

- if not self.help: self.help = "an enum string"

- self.help = "<%s>: %s" % ("|".join(enum_values), self.help)

- def _WriteCustomInfoInXMLFormat(self, outfile, indent):

- for enum_value in self.parser.enum_values:

- _WriteSimpleXMLElement(outfile, 'enum_value', enum_value, indent)

-def DEFINE_enum(name, default, enum_values, help, flag_values=FLAGS,

- **args):

- """Registers a flag whose value can be any string from enum_values."""

- DEFINE_flag(EnumFlag(name, default, help, enum_values, ** args),

- flag_values)

-# LIST FLAGS

-class BaseListParser(ArgumentParser):

- """Base class for a parser of lists of strings.

- To extend, inherit from this class; from the subclass __init__, call

- BaseListParser.__init__(self, token, name)

- where token is a character used to tokenize, and name is a description

- of the separator.

- """

- def __init__(self, token=None, name=None):

- assert name

- super(BaseListParser, self).__init__()

- self._token = token

- self._name = name

- self.syntactic_help = "a %s separated list" % self._name

- def Parse(self, argument):

- if isinstance(argument, list):

- return argument

- elif argument == '':

- return []

- else:

- return [s.strip() for s in argument.split(self._token)]

- def Type(self):

- return '%s separated list of strings' % self._name

-class ListParser(BaseListParser):

- """Parser for a comma-separated list of strings."""

- def __init__(self):

- BaseListParser.__init__(self, ',', 'comma')

- def WriteCustomInfoInXMLFormat(self, outfile, indent):

- BaseListParser.WriteCustomInfoInXMLFormat(self, outfile, indent)

- _WriteSimpleXMLElement(outfile, 'list_separator', repr(','), indent)

-class WhitespaceSeparatedListParser(BaseListParser):

- """Parser for a whitespace-separated list of strings."""

- def __init__(self):

- BaseListParser.__init__(self, None, 'whitespace')

- def WriteCustomInfoInXMLFormat(self, outfile, indent):

- BaseListParser.WriteCustomInfoInXMLFormat(self, outfile, indent)

- separators = list(string.whitespace)

- separators.sort()

- for ws_char in string.whitespace:

- _WriteSimpleXMLElement(outfile, 'list_separator', repr(ws_char), indent)

-def DEFINE_list(name, default, help, flag_values=FLAGS, **args):

- """Registers a flag whose value is a comma-separated list of strings."""

- parser = ListParser()

- serializer = ListSerializer(',')

- DEFINE(parser, name, default, help, flag_values, serializer, **args)

-def DEFINE_spaceseplist(name, default, help, flag_values=FLAGS, **args):

- """Registers a flag whose value is a whitespace-separated list of strings.

- Any whitespace can be used as a separator.

- """

- parser = WhitespaceSeparatedListParser()

- serializer = ListSerializer(' ')

- DEFINE(parser, name, default, help, flag_values, serializer, **args)

-# MULTI FLAGS

-class MultiFlag(Flag):

- """A flag that can appear multiple time on the command-line.

- The value of such a flag is a list that contains the individual values

- from all the appearances of that flag on the command-line.

- See the __doc__ for Flag for most behavior of this class. Only

- differences in behavior are described here:

- * The default value may be either a single value or a list of values.

- A single value is interpreted as the [value] singleton list.

- * The value of the flag is always a list, even if the option was

- only supplied once, and even if the default value is a single

- value

- """

- def __init__(self, *args, **kwargs):

- Flag.__init__(self, *args, **kwargs)

- self.help += ';\n repeat this option to specify a list of values'

- def Parse(self, arguments):

- """Parses one or more arguments with the installed parser.

- Args:

- arguments: a single argument or a list of arguments (typically a

- list of default values); a single argument is converted

- internally into a list containing one item.

- """

- if not isinstance(arguments, list):

- # Default value may be a list of values. Most other arguments

- # will not be, so convert them into a single-item list to make

- # processing simpler below.

- arguments = [arguments]

- if self.present:

- # keep a backup reference to list of previously supplied option values

- values = self.value

- else:

- # "erase" the defaults with an empty list

- values = []

- for item in arguments:

- # have Flag superclass parse argument, overwriting self.value reference

- Flag.Parse(self, item) # also increments self.present

- values.append(self.value)

- # put list of option values back in the 'value' attribute

- self.value = values

- def Serialize(self):

- if not self.serializer:

- raise FlagsError("Serializer not present for flag %s" % self.name)

- if self.value is None:

- return ''

- s = ''

- multi_value = self.value

- for self.value in multi_value:

- if s: s += ' '

- s += Flag.Serialize(self)

- self.value = multi_value

- return s

- def Type(self):

- return 'multi ' + self.parser.Type()

-def DEFINE_multi(parser, serializer, name, default, help, flag_values=FLAGS,

- **args):

- """Registers a generic MultiFlag that parses its args with a given parser.

- Auxiliary function. Normal users should NOT use it directly.

- Developers who need to create their own 'Parser' classes for options

- which can appear multiple times can call this module function to

- register their flags.

- """

- DEFINE_flag(MultiFlag(parser, serializer, name, default, help, **args),

- flag_values)

-def DEFINE_multistring(name, default, help, flag_values=FLAGS, **args):

- """Registers a flag whose value can be a list of any strings.

- Use the flag on the command line multiple times to place multiple

- string values into the list. The 'default' may be a single string

- (which will be converted into a single-element list) or a list of

- strings.

- """

- parser = ArgumentParser()

- serializer = ArgumentSerializer()

- DEFINE_multi(parser, serializer, name, default, help, flag_values, **args)

-def DEFINE_multi_int(name, default, help, lower_bound=None, upper_bound=None,

- flag_values=FLAGS, **args):

- """Registers a flag whose value can be a list of arbitrary integers.

- Use the flag on the command line multiple times to place multiple

- integer values into the list. The 'default' may be a single integer

- (which will be converted into a single-element list) or a list of

- integers.

- """

- parser = IntegerParser(lower_bound, upper_bound)

- serializer = ArgumentSerializer()

- DEFINE_multi(parser, serializer, name, default, help, flag_values, **args)

-def DEFINE_multi_float(name, default, help, lower_bound=None, upper_bound=None,

- flag_values=FLAGS, **args):

- """Registers a flag whose value can be a list of arbitrary floats.

- Use the flag on the command line multiple times to place multiple

- float values into the list. The 'default' may be a single float

- (which will be converted into a single-element list) or a list of

- floats.

- """

- parser = FloatParser(lower_bound, upper_bound)

- serializer = ArgumentSerializer()

- DEFINE_multi(parser, serializer, name, default, help, flag_values, **args)

-# Now register the flags that we want to exist in all applications.

-# These are all defined with allow_override=1, so user-apps can use

-# these flagnames for their own purposes, if they want.

-DEFINE_flag(HelpFlag())

-DEFINE_flag(HelpshortFlag())

-DEFINE_flag(HelpXMLFlag())

-# Define special flags here so that help may be generated for them.

-# NOTE: Please do NOT use _SPECIAL_FLAGS from outside this module.

-_SPECIAL_FLAGS = FlagValues()

-DEFINE_string(

- 'flagfile', "",

- "Insert flag definitions from the given file into the command line.",

- _SPECIAL_FLAGS)

-DEFINE_string(

- 'undefok', "",

- "comma-separated list of flag names that it is okay to specify "

- "on the command line even if the program does not define a flag "

- "with that name. IMPORTANT: flags in this list that have "

- "arguments MUST use the --flag=value format.", _SPECIAL_FLAGS)