Inkku-
I just went through this a month ago; cvs2svn worked great despite the
warnings once I figured out the settings we needed. I setup a
conversion machine with the necessary software out of caution, but the
easiest approach is to install the required GNU tools on the system
hosting your CVSNT repository. You should be able to create a settings
file that reads directly from CVSNT and creates the SVN repository
(instead of exporting and copying everything across the network like I
had to do; staying within the same OS also avoids CR/LF conversion
issues). You also need Python 2.5 on the box doing the conversions,
which should not be an issue.
I have attached a copy of the option file I used (which will output to a
dump file; you can change this to go directly into a new svn repository
instead). There is a section near the bottom for specifying file names,
etc.; this is probably the only part you need to modify.
To execute the conversion, I used the following line:
C:\python25\python C:\cvs2svn-2.2.0\cvs2svn
--options=C:\cvs2svn-2.2.0\opts\OPTIONFILE_NAME.opts
If you do export to a dump file, the following command will load it into
a new, completely empty repository (as in don't even have
branch/tag/trunk directories in it, because these are already in the
dump file):
C:\VisualSVN\bin\svnadmin load C:\svn\REPOSITORY_NAME <
D:\svn\DUMPFILE_NAME-dump
Best of luck,
David
Inkku wrote:
> hi,
> does any one have an idea how to migrate from cvsnt to visualsvn? Do
> you know any tools what so ever?
> I hoped that cvs2svn would have help but they wrote:
> "CVSNT repositories
> cvs2svn does not support conversion of CVSNT repositories. Some people
> have indicated success with such conversions, while others have had
> problems. In other words, such conversions, even if apparently
> successful, should be checked carefully before use. See the FAQ for
> more information."
>
> Any ideas are warmly welcome.
> regards,
> Inkku
>
>
# (Be in -*- python -*- mode.)
#
# ====================================================================
# Copyright (c) 2006-2007 CollabNet. All rights reserved.
#
# This software is licensed as described in the file COPYING, which
# you should have received as part of this distribution. The terms
# are also available at http://subversion.tigris.org/license-1.html.
# If newer versions of this license are posted there, you may use a
# newer version instead, at your option.
#
# This software consists of voluntary contributions made by many
# individuals. For exact contribution history, see the revision
# history and logs, available at http://cvs2svn.tigris.org/.
# ====================================================================
# #####################
# ## PLEASE READ ME! ##
# #####################
#
# This is a template for an options file that can be used to configure
# cvs2svn. Many options do not have defaults, so it is easier to copy
# this file and modify what you need rather than creating a new
# options file from scratch.
#
# This file is in Python syntax, but you don't need to know Python to
# modify it. But if you *do* know Python, then you will be happy to
# know that you can use arbitary Python constructs to do fancy
# configuration tricks.
#
# But please be aware of the following:
#
# * In many places, leading whitespace is significant in Python (it is
# used instead of curly braces to group statements together).
# Therefore, if you don't know what you are doing, it is best to
# leave the whitespace as it is.
#
# * In normal strings, Python uses backslashes ("\") as an escape
# character. Therefore you need to be careful, especially when
# specifying regular expressions or Windows filenames. It is
# recommended that you use "raw strings" for these cases.
# Backslashes in raw strings are treated literally. A raw string is
# written by prefixing an "r" character to a string. Example:
#
# ctx.sort_executable = r'c:\windows\system32\sort.exe'
#
# Two identifiers will have been defined before this file is executed,
# and can be used freely within this file:
#
# ctx -- a Ctx object (see cvs2svn_lib/context.py), which holds
# many configuration options
#
# run_options -- an instance of the OptionsFileRunOptions class
# (see cvs2svn_lib/run_options.py), which holds some variables
# governing how cvs2svn is run
# Import some modules that are used in setting the options:
import re
from cvs2svn_lib import config
from cvs2svn_lib import changeset_database
from cvs2svn_lib.common import CVSTextDecoder
from cvs2svn_lib.log import Log
from cvs2svn_lib.project import Project
from cvs2svn_lib.svn_output_option import DumpfileOutputOption
from cvs2svn_lib.svn_output_option import ExistingRepositoryOutputOption
from cvs2svn_lib.svn_output_option import NewRepositoryOutputOption
from cvs2svn_lib.revision_manager import NullRevisionRecorder
from cvs2svn_lib.revision_manager import NullRevisionExcluder
from cvs2svn_lib.rcs_revision_manager import RCSRevisionReader
from cvs2svn_lib.cvs_revision_manager import CVSRevisionReader
from cvs2svn_lib.checkout_internal import InternalRevisionRecorder
from cvs2svn_lib.checkout_internal import InternalRevisionExcluder
from cvs2svn_lib.checkout_internal import InternalRevisionReader
from cvs2svn_lib.symbol_strategy import AllBranchRule
from cvs2svn_lib.symbol_strategy import AllTagRule
from cvs2svn_lib.symbol_strategy import BranchIfCommitsRule
from cvs2svn_lib.symbol_strategy import ExcludeRegexpStrategyRule
from cvs2svn_lib.symbol_strategy import ForceBranchRegexpStrategyRule
from cvs2svn_lib.symbol_strategy import ForceTagRegexpStrategyRule
from cvs2svn_lib.symbol_strategy import ExcludeTrivialImportBranchRule
from cvs2svn_lib.symbol_strategy import ExcludeVendorBranchRule
from cvs2svn_lib.symbol_strategy import HeuristicStrategyRule
from cvs2svn_lib.symbol_strategy import UnambiguousUsageRule
from cvs2svn_lib.symbol_strategy import HeuristicPreferredParentRule
from cvs2svn_lib.symbol_strategy import SymbolHintsFileRule
from cvs2svn_lib.symbol_transform import ReplaceSubstringsSymbolTransform
from cvs2svn_lib.symbol_transform import RegexpSymbolTransform
from cvs2svn_lib.symbol_transform import NormalizePathsSymbolTransform
from cvs2svn_lib.property_setters import AutoPropsPropertySetter
from cvs2svn_lib.property_setters import CVSBinaryFileDefaultMimeTypeSetter
from cvs2svn_lib.property_setters import CVSBinaryFileEOLStyleSetter
from cvs2svn_lib.property_setters import CVSRevisionNumberSetter
from cvs2svn_lib.property_setters import DefaultEOLStyleSetter
from cvs2svn_lib.property_setters import EOLStyleFromMimeTypeSetter
from cvs2svn_lib.property_setters import ExecutablePropertySetter
from cvs2svn_lib.property_setters import KeywordsPropertySetter
from cvs2svn_lib.property_setters import MimeMapper
from cvs2svn_lib.property_setters import SVNBinaryFileKeywordsPropertySetter
# To choose the level of logging output, uncomment one of the
# following lines:
#Log().log_level = Log.WARN
#Log().log_level = Log.QUIET
Log().log_level = Log.NORMAL
#Log().log_level = Log.VERBOSE
#Log().log_level = Log.DEBUG
# There are several possible options for where to put the output of a
# cvs2svn conversion. Please choose one of the following and adjust
# the parameters as necessary:
# Use this output option if you would like cvs2svn to create a new SVN
# repository and store the converted repository there. The first
# argument is the path to which the repository should be written (this
# repository must not already exist). The second (optional) argument
# allows a --fs-type option to be passed to "svnadmin create". The
# third (optional) argument can be specified to set the
# --bdb-txn-nosync option on a bdb repository. The fourth (optional)
# argument can be specified to set a list of verbatim options to be passed
# to "svnadmin create":
#ctx.output_option = NewRepositoryOutputOption(
# r'/home/svn/one', # Path to repository
# fs_type='fsfs', # Type of repository to create
# #bdb_txn_nosync=False, # For bsd repositories, this option can be added
# #create_options=['--pre-1.5-compatible'], # Options for "svnadmin create"
# )
# Use this output option if you would like cvs2svn to store the
# converted CVS repository into an SVN repository that already exists.
# The argument is the filesystem path of an existing local SVN
# repository (this repository must already exist):
#ctx.output_option = ExistingRepositoryOutputOption(
# r'https://spacedust.benco.com:8443/svn/obne', # Path to repository
# )
# Independent of the ctx.output_option selected, the following option
# can be set to True to suppress cvs2svn output altogether:
ctx.dry_run = False
# The following set of options specifies how the revision contents of
# the RCS files should be read.
#
# The default selection is InternalRevisionReader, which uses built-in
# code that reads the RCS deltas while parsing the files in
# CollectRevsPass. This method is very fast but requires lots of
# temporary disk space. The disk space is required for (1) storing
# all of the RCS deltas, and (2) during OutputPass, keeping a copy of
# the full text of every revision that still has a descendant that
# hasn't yet been committed. Since this can includes multiple
# revisions of each file (i.e., on multiple branches), the required
# amount of temporary space can potentially be many times the size of
# a checked out copy of the whole repository. Setting compress=True
# cuts the disk space requirements by about 50% at the price of
# increased CPU usage. Using compression usually speeds up the
# conversion due to the reduced I/O pressure, unless --tmpdir is on a
# RAM disk. This method does not expand CVS's "Log" keywords.
#
# The second possibility is RCSRevisionReader, which uses RCS's "co"
# program to extract the revision contents of the RCS files during
# OutputPass. This option doesn't require any temporary space, but it
# is relatively slow because (1) "co" has to be executed very many
# times; and (2) "co" itself has to assemble many file deltas to
# compute the contents of a particular revision. The constructor
# argument specifies how to invoke the "co" executable.
#
# The third possibility is CVSRevisionReader, which uses the "cvs"
# program to extract the revision contents out of the RCS files during
# OutputPass. This option doesn't require any temporary space, but it
# is the slowest of all, because "cvs" is considerably slower than
# "co". However, it works in some situations where RCSRevisionReader
# fails; see the HTML documentation of the "--use-cvs" option for
# details. The constructor argument specifies how to invoke the "co"
# executable.
#
# Choose one of the following three groups of lines:
#ctx.revision_recorder = InternalRevisionRecorder(compress=True)
#ctx.revision_excluder = InternalRevisionExcluder()
#ctx.revision_reader = InternalRevisionReader(compress=True)
#ctx.revision_recorder = NullRevisionRecorder()
#ctx.revision_excluder = NullRevisionExcluder()
#ctx.revision_reader = RCSRevisionReader(co_executable=r'co')
ctx.revision_recorder = NullRevisionRecorder()
ctx.revision_excluder = NullRevisionExcluder()
ctx.revision_reader = CVSRevisionReader(cvs_executable=r'cvs')
# Set the name (and optionally the path) of some other executables
# required by cvs2svn:
ctx.svnadmin_executable = r'svnadmin'
ctx.sort_executable = r'C:\program files\gnuwin32\bin\sort'
# Change the following line to True if the conversion should only
# include the trunk of the repository (i.e., all branches and tags
# should be ignored):
ctx.trunk_only = False
# Change the following line to True if cvs2svn should delete a
# directory once the last file has been deleted from it:
ctx.prune = False
# How to convert author names, log messages, and filenames to unicode.
# The first argument to CVSTextDecoder is a list of encoders that are
# tried in order in 'strict' mode until one of them succeeds. If none
# of those succeeds, then fallback_encoder is used in lossy 'replace'
# mode (if it is specified). Setting a fallback encoder ensures that
# the encoder always succeeds, but it can cause information loss.
ctx.cvs_author_decoder = CVSTextDecoder(
[
#'latin1',
#'utf8',
'ascii',
],
fallback_encoding='utf8'
)
ctx.cvs_log_decoder = CVSTextDecoder(
[
#'latin1',
#'utf8',
'ascii',
],
fallback_encoding='utf8'
)
# You might want to be especially strict when converting filenames to
# unicode (e.g., maybe not specify a fallback_encoding).
ctx.cvs_filename_decoder = CVSTextDecoder(
[
#'latin1',
#'utf8',
'ascii',
],
#fallback_encoding='ascii'
)
# Template for the commit message to be used for initial project
# commits.
ctx.initial_project_commit_message = (
'Standard project directories initialized by cvs2svn.'
)
# Template for the commit message to be used for post commits, in
# which modifications to a vendor branch are copied back to trunk.
# This message can use '%(revnum)d' to include the revision number of
# the revision that included the change to the vendor branch.
ctx.post_commit_message = (
'This commit was generated by cvs2svn to compensate for '
'changes in r%(revnum)d, which included commits to RCS files '
'with non-trunk default branches.'
)
# Template for the commit message to be used for commits in which
# symbols are created. This message can use '%(symbol_type)d' to
# include the type of the symbol ('branch' or 'tag') or
# '%(symbol_name)' to include the name of the symbol.
ctx.symbol_commit_message = (
"Commit from cvs2svn to create %(symbol_type)s "
"'%(symbol_name)s'."
)
# Some CVS clients for MacOS store resource fork data into CVS along
# with the file contents itself by wrapping it all up in a container
# format called "AppleSingle". Subversion currently does not support
# MacOS resource forks. Nevertheless, sometimes the resource fork
# information is not necessary and can be discarded. Set the
# following option to True if you would like cvs2svn to identify files
# whose contents are encoded in AppleSingle format, and discard all
# but the data fork for such files before committing them to
# Subversion. (Please note that AppleSingle contents are identified
# by the AppleSingle magic number as the first four bytes of the file.
# This check is not failproof, so only set this option if you think
# you need it.)
ctx.decode_apple_single = False
# This option can be set to the name of a filename to which are stored
# statistics and conversion decisions about the CVS symbols.
ctx.symbol_info_filename = None
#ctx.symbol_info_filename = 'symbol-info.txt'
# cvs2svn uses "symbol strategy rules" to help decide how to handle
# CVS symbols. The rules in a project's symbol_strategy_rules are
# applied in order, and each rule is allowed to modify the symbol.
# The result (after each of the rules has been applied) is used for
# the conversion.
#
# 1. A CVS symbol might be used as a tag in one file and as a branch
# in another file. cvs2svn has to decide whether to convert such a
# symbol as a tag or as a branch. cvs2svn uses a series of
# heuristic rules to decide how to convert a symbol. The user can
# override the default rules for specific symbols or symbols
# matching regular expressions.
#
# 2. cvs2svn is also capable of excluding symbols from the conversion
# (provided no other symbols depend on them.
#
# 3. CVS does not record unambiguously the line of development from
# which a symbol sprouted. cvs2svn uses a heuristic to choose a
# symbol's "preferred parents".
#
# The standard branch/tag/exclude StrategyRules do not change a symbol
# that has already been processed by an earlier rule, so in effect the
# first matching rule is the one that is used.
global_symbol_strategy_rules = [
# It is possible to specify manually exactly how symbols should be
# converted and what line of development should be used as the
# preferred parent. To do so, create a file containing the symbol
# hints and enable the following option.
#
# The format of the hints file is described in the documentation
# for the SymbolHintsFileRule class in
# cvs2svn_lib/symbol_strategy.py. The file output by the
# --write-symbol-info (i.e., ctx.symbol_info_filename) option is
# in the same format. The simplest way to use this option is to
# run the conversion through CollateSymbolsPass with
# --write-symbol-info option, copy the symbol info and edit it to
# create a hints file, then re-start the conversion at
# CollateSymbolsPass with this option enabled.
#SymbolHintsFileRule('symbol-hints.txt'),
# To force all symbols matching a regular expression to be
# converted as branches, add rules like the following:
#ForceBranchRegexpStrategyRule(r'branch.*'),
# To force all symbols matching a regular expression to be
# converted as tags, add rules like the following:
#ForceTagRegexpStrategyRule(r'tag.*'),
# To force all symbols matching a regular expression to be
# excluded from the conversion, add rules like the following:
#ExcludeRegexpStrategyRule(r'unknown-.*'),
# Sometimes people use "cvs import" to get their own source code
# into CVS. This practice creates a vendor branch 1.1.1 and
# imports the code onto the vendor branch as 1.1.1.1, then copies
# the same content to the trunk as version 1.1. Normally, such
# vendor branches are useless and they complicate the SVN history
# unnecessarily. The following rule excludes any branches that
# only existed as a vendor branch with a single import (leaving
# only the 1.1 revision). If you want to retain such branches,
# comment out the following line. (Please note that this rule
# does not exclude vendor *tags*, as they are not so easy to
# identify.)
ExcludeTrivialImportBranchRule(),
# To exclude all vendor branches (branches that had "cvs import"s
# on them bug no other kinds of commits), uncomment the following
# line:
#ExcludeVendorBranchRule(),
# Usually you want this rule, to convert unambiguous symbols
# (symbols that were only ever used as tags or only ever used as
# branches in CVS) the same way they were used in CVS:
UnambiguousUsageRule(),
# If there was ever a commit on a symbol, then it cannot be
# converted as a tag. This rule causes all such symbols to be
# converted as branches. If you would like to resolve such
# ambiguities manually, comment out the following line:
BranchIfCommitsRule(),
# Last in the list can be a catch-all rule that is used for
# symbols that were not matched by any of the more specific rules
# above. (Assuming that BranchIfCommitsRule() was included above,
# then the symbols that are still indeterminate at this point can
# sensibly be converted as branches or tags.) Include at most one
# of these lines. If none of these catch-all rules are included,
# then the presence of any ambiguous symbols (that haven't been
# disambiguated above) is an error:
# Convert ambiguous symbols based on whether they were used more
# often as branches or as tags:
HeuristicStrategyRule(),
# Convert all ambiguous symbols as branches:
#AllBranchRule(),
# Convert all ambiguous symbols as tags:
#AllTagRule(),
# The last rule is here to choose the preferred parent of branches
# and tags, that is, the line of development from which the symbol
# sprouts.
HeuristicPreferredParentRule(),
]
# Specify a username to be used for commits generated by cvs2svn. If
# this option is set to None then no username will be used for such
# commits:
#ctx.username = None
ctx.username = 'cvs2svn'
# ctx.svn_property_setters contains a list of rules used to set the
# svn properties on files in the converted archive. For each file,
# the rules are tried one by one. Any rule can add or suppress one or
# more svn properties. Typically the rules will not overwrite
# properties set by a previous rule (though they are free to do so).
ctx.svn_property_setters.extend([
# To read auto-props rules from a file, uncomment the following line
# and specify a filename. The boolean argument specifies whether
# case should be ignored when matching filenames to the filename
# patterns found in the auto-props file:
#AutoPropsPropertySetter(
# r'/home/username/.subversion/config',
# ignore_case=True,
# ),
# To read mime types from a file, uncomment the following line and
# specify a filename:
#MimeMapper(r'/etc/mime.types'),
# Omit the svn:eol-style property from any files that are listed
# as binary (i.e., mode '-kb') in CVS:
CVSBinaryFileEOLStyleSetter(),
# If the file is binary and its svn:mime-type property is not yet
# set, set svn:mime-type to 'application/octet-stream'.
CVSBinaryFileDefaultMimeTypeSetter(),
# To try to determine the eol-style from the mime type, uncomment
# the following line:
#EOLStyleFromMimeTypeSetter(),
# Choose one of the following lines to set the default
# svn:eol-style if none of the above rules applied. The argument
# is the svn:eol-style that should be applied, or None if no
# svn:eol-style should be set (i.e., the file should be treated as
# binary).
#
# The default is to treat all files as binary unless one of the
# previous rules has determined otherwise, because this is the
# safest approach. However, if you have been diligent about
# marking binary files with -kb in CVS and/or you have used the
# above rules to definitely mark binary files as binary, then you
# might prefer to use 'native' as the default, as it is usually
# the most convenient setting for text files. Other possible
# options: 'CRLF', 'CR', 'LF'.
#DefaultEOLStyleSetter('CRLF'),
#DefaultEOLStyleSetter(None),
#DefaultEOLStyleSetter('native'),
# Prevent svn:keywords from being set on files that have
# svn:eol-style unset.
SVNBinaryFileKeywordsPropertySetter(),
# If svn:keywords has not been set yet, set it based on the file's
# CVS mode:
KeywordsPropertySetter(config.SVN_KEYWORDS_VALUE),
# Set the svn:executable flag on any files that are marked in CVS as
# being executable:
ExecutablePropertySetter(),
# Uncomment the following line to include the original CVS revision
# numbers as file properties in the SVN archive:
#CVSRevisionNumberSetter(),
])
# The directory to use for temporary files:
ctx.tmpdir = r'cvs2svn-tmp'
# To skip the cleanup of temporary files, uncomment the following
# option:
#ctx.skip_cleanup = True
# In CVS, it is perfectly possible to make a single commit that
# affects more than one project or more than one branch of a single
# project. Subversion also allows such commits. Therefore, by
# default, when cvs2svn sees what looks like a cross-project or
# cross-branch CVS commit, it converts it into a
# cross-project/cross-branch Subversion commit.
#
# However, other tools and SCMs have trouble representing
# cross-project or cross-branch commits. (For example, Trac's Revtree
# plugin, http://www.trac-hacks.org/wiki/RevtreePlugin is confused by
# such commits.) Therefore, we provide the following two options to
# allow cross-project/cross-branch commits to be suppressed.
# To prevent CVS commits from different projects from being merged
# into single SVN commits, change this option to False:
ctx.cross_project_commits = True
# To prevent CVS commits on different branches from being merged into
# single SVN commits, change this option to False:
ctx.cross_branch_commits = True
# By default, .cvsignore files are rendered in the output by setting
# corresponding svn:ignore properties on the parent directory, but the
# .cvsignore files themselves are not included in the conversion
# output. If you would like to include the .cvsignore files in the
# output, change this option to True:
ctx.keep_cvsignore = False
# By default, it is a fatal error for a CVS ",v" file to appear both
# inside and outside of an "Attic" subdirectory (this should never
# happen, but frequently occurs due to botched repository
# administration). If you would like to retain both versions of such
# files, change the following option to True, and the attic version of
# the file will be left in an SVN subdirectory called "Attic":
ctx.retain_conflicting_attic_files = False
######################################################################
ctx.output_option = DumpfileOutputOption(
dumpfile_path=r'\\.host\Shared Folders\CVS\dump\CHANGE_NAME-dump',)
# Name of dumpfile to create
run_options.add_project(
r'C:\CVS\CHANGE_NAME',
trunk_path='trunk',
branches_path='branches',
tags_path='tags',
initial_directories=[],
symbol_transforms=[
ReplaceSubstringsSymbolTransform('\\','/'),
NormalizePathsSymbolTransform(),
],
symbol_strategy_rules=[
# Additional, project-specific symbol strategy rules can be added here.
] + global_symbol_strategy_rules,
)
######################################################################
# Now use stanzas like the following to define CVS projects that
# should be converted. The arguments are:
#
# - The filesystem path of the project within the CVS repository.
#
# - The path that should be used for the "trunk" directory of this
# project within the SVN repository. This is an SVN path, so it
# should always use forward slashes ("/").
#
# - The path that should be used for the "branches" directory of this
# project within the SVN repository. This is an SVN path, so it
# should always use forward slashes ("/").
#
# - The path that should be used for the "tags" directory of this
# project within the SVN repository. This is an SVN path, so it
# should always use forward slashes ("/").
#
# - A list of symbol transformations that can be used to rename
# symbols in this project. Each entry is a tuple (pattern,
# replacement), where pattern is a Python regular expression pattern
# and replacement is the text that should replace the pattern. Each
# pattern is matched against each symbol name. If the pattern
# matches, then it is replaced with the corresponding replacement
# text. The replacement can include substitution patterns (e.g.,
# r'\1' or r'\g<name>'). Typically you will want to use raw strings
# (strings with a preceding 'r', like shown in the examples) for the
# regexp and its replacement to avoid backslash substitution within
# those strings.
# Use this type of output option if you want the output of the
# conversion to be written to a SVN dumpfile instead of committing
# them into an actual repository:
#ctx.output_option = DumpfileOutputOption(
# dumpfile_path=r'C:\repositories\Painless8-dump', # Name of dumpfile to
create
# )
# Create the default project (using ctx.trunk, ctx.branches, and ctx.tags):
#run_options.add_project(
# r'C:\CVS\Active\Painless8',
# trunk_path='trunk',
# branches_path='branches',
# tags_path='tags',
# initial_directories=[
# The project's trunk_path, branches_path, and tags_path
# directories are added to the SVN repository in the project's
# first commit. If you would like additional SVN directories
# to be created in the project's first commit, list them here.
#'releases',
# ],
# symbol_transforms=[
#RegexpSymbolTransform(r'release-(\d+)_(\d+)',
# r'release-\1.\2'),
#RegexpSymbolTransform(r'release-(\d+)_(\d+)_(\d+)',
# r'release-\1.\2.\3'),
# Convert backslashes into forward slashes:
# ReplaceSubstringsSymbolTransform('\\','/'),
# Eliminate leading, trailing, and repeated slashes:
# NormalizePathsSymbolTransform(),
# ],
# symbol_strategy_rules=[
# Additional, project-specific symbol strategy rules can
# be added here.
# ] + global_symbol_strategy_rules,
# )
# Add a second project, to be stored to projA/trunk, projA/branches,
# and projA/tags:
#run_options.add_project(
# r'my/cvsrepo/projA',
# trunk_path='projA/trunk',
# branches_path='projA/branches',
# tags_path='projA/tags',
# initial_directories=[
# # The project's trunk_path, branches_path, and tags_path
# # directories are added to the SVN repository in the project's
# # first commit. If you would like additional SVN directories
# # to be created in the project's first commit, list them here.
# #'releases',
# ],
# symbol_transforms=[
# #RegexpSymbolTransform(r'release-(\d+)_(\d+)',
# # r'release-\1.\2'),
# #RegexpSymbolTransform(r'release-(\d+)_(\d+)_(\d+)',
# # r'release-\1.\2.\3'),
# # Convert backslashes into forward slashes:
# ReplaceSubstringsSymbolTransform('\\','/'),
# # Eliminate leading, trailing, and repeated slashes:
# NormalizePathsSymbolTransform(),
# ],
# symbol_strategy_rules=[
# # Additional, project-specific symbol strategy rules can
# # be added here.
# ] + global_symbol_strategy_rules,
# )
# Change this option to True to turn on profiling of cvs2svn (for
# debugging purposes):
run_options.profiling = False
# Should CVSItem -> Changeset database files be memory mapped? In
# some tests, using memory mapping speeded up the overall conversion
# by about 5%. But this option can cause the conversion to fail with
# an out of memory error if the conversion computer runs out of
# virtual address space (e.g., when running a very large conversion on
# a 32-bit operating system). Therefore it is disabled by default.
# Uncomment the following line to allow these database files to be
# memory mapped.
#changeset_database.use_mmap_for_cvs_item_to_changeset_table = True
