# (Be in -*- mode: python; coding: utf-8 -*- mode.) # # ==================================================================== # Copyright (c) 2006-2009 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 treats a backslash ("\") as an escape # character. Therefore, if you want to specify a string that # contains a backslash, you need either to escape the backslash with # another backslash ("\\"), or use a "raw string", as in one if the # following equivalent examples: # # cvs_executable = 'c:\\windows\\system32\\cvs.exe' # cvs_executable = r'c:\windows\system32\cvs.exe' # # See http://docs.python.org/tutorial/introduction.html#strings for # more information. # # 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 SVNRunOptions class (see # cvs2svn_lib/svn_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 logger 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.svn_run_options import SVNEOLFixPropertySetter from cvs2svn_lib.svn_run_options import SVNKeywordHandlingPropertySetter from cvs2svn_lib.revision_manager import NullRevisionCollector from cvs2svn_lib.rcs_revision_manager import RCSRevisionReader from cvs2svn_lib.cvs_revision_manager import CVSRevisionReader from cvs2svn_lib.checkout_internal import InternalRevisionCollector 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 IgnoreSymbolTransform 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 DescriptionPropertySetter 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: #logger.log_level = logger.WARN #logger.log_level = logger.QUIET logger.log_level = logger.NORMAL #logger.log_level = logger.VERBOSE #logger.log_level = logger.DEBUG # The directory to use for temporary files: ctx.tmpdir = r'cvs2svn-tmp' # author_transforms can be used to map CVS author names (e.g., # "jrandom") to whatever names make sense for your SVN configuration # (e.g., "john.j.random"). All values should be either Unicode # strings (i.e., with "u" as a prefix) or 8-bit strings in the utf-8 # encoding. To use this feature, please substitute your own project's # usernames here and uncomment the author_transforms option when # setting ctx.output_option below author_transforms={ 'jrandom' : u'john.j.random', 'brane' : u'Branko.Äibej', 'ringstrom' : 'ringström', 'dionisos' : u'e.hülsmann', } # 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 (optional) fs_type argument # allows a --fs-type option to be passed to "svnadmin create". The # (optional) bdb_txn_nosync argument can be specified to set the # --bdb-txn-nosync option on a bdb repository. The (optional) # create_options argument can be specified to set a list of verbatim # options to be passed to "svnadmin create". The (optional) # author_transforms argument allows CVS author names to be transformed # arbitrarily into SVN author names (as described above): ctx.output_option = NewRepositoryOutputOption( r'/path/to/svnrepo', #fs_type='fsfs', #bdb_txn_nosync=False, #create_options=['--pre-1.5-compatible'], #author_transforms=author_transforms, ) # Use this output option if you would like cvs2svn to store the # converted CVS repository into an SVN repository that already exists. # The first argument is the filesystem path of an existing local SVN # repository (this repository must already exist). The # author_transforms option is as described above: #ctx.output_option = ExistingRepositoryOutputOption( # r'/path/to/svnrepo', # Path to repository # #author_transforms=author_transforms, # ) # 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. The author_transforms option is as # described above: #ctx.output_option = DumpfileOutputOption( # dumpfile_path=r'/path/to/cvs2svn-dump', # Name of dumpfile to create # #author_transforms=author_transforms, # ) # 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_collector = InternalRevisionCollector(compress=True) ctx.revision_reader = InternalRevisionReader(compress=True) #ctx.revision_collector = NullRevisionCollector() #ctx.revision_reader = RCSRevisionReader(co_executable=r'co') #ctx.revision_collector = NullRevisionCollector() #ctx.revision_reader = CVSRevisionReader(cvs_executable=r'cvs') # Set the name (and optionally the path) to the 'svnadmin' command, # which is needed for NewRepositoryOutputOption or # ExistingRepositoryOutputOption. The default is the "svnadmin" # command in the user's PATH: #ctx.svnadmin_executable = r'svnadmin' # 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 # Normally, cvs2svn ignores directories within the CVS repository if # they do not contain valid RCS files. This produces a Subversion # repository whose behavior imitates that of CVS if CVS is typically # used with the "-P" option. However, sometimes these empty # directories are needed by a project (e.g., by the build procedure). # If so, the following option can be sent to True to cause empty # directories to be created in the SVN repository when their parent # directory is created and removed when their parent directory is # removed. (This is more likely to be useful than the behavior of CVS # when its "-P" option is not used.) ctx.include_empty_directories = False # Normally, cvs2svn deletes a directory once the last file has been # deleted from it (a la "cvs -P"). Change the following line to False # if you would like such directories to be retained in the Subversion # repository through the rest of history: ctx.prune = True # 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( [ #'utf8', #'latin1', 'ascii', ], #fallback_encoding='ascii' ) ctx.cvs_log_decoder = CVSTextDecoder( [ #'utf8', #'latin1', 'ascii', ], #fallback_encoding='ascii' ) # 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( [ #'utf8', #'latin1', '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)s' to # include the type of the symbol ('branch' or 'tag') or # '%(symbol_name)s' to include the name of the symbol. ctx.symbol_commit_message = ( "This commit was manufactured by 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 but 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.file_property_setters and ctx.revision_property_setters contain # 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.file_property_setters should be used for # properties that remain the same for the life of the file; these # should implement FilePropertySetter. ctx.revision_property_setters # should be used for properties that are allowed to vary from revision # to revision; these should implement RevisionPropertySetter. ctx.file_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 and use them to set svn:mime-type # based on the filename extensions, uncomment the following line # and specify a filename (see # http://en.wikipedia.org/wiki/Mime.types for information about # mime.types files): #MimeMapper(r'/etc/mime.types', ignore_case=False), # 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(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(), # Set the cvs:description property to the CVS description of any # file that has one: DescriptionPropertySetter(propname='cvs:description'), # The following is for internal use. It determines how to handle # keywords in the text being committed: SVNKeywordHandlingPropertySetter(), # The following is for internal use. It determines how to munge # EOL sequences based on how the svn:eol-style property is set. SVNEOLFixPropertySetter(), ]) ctx.revision_property_setters.extend([ # Uncomment the following line to include the original CVS revision # numbers as file properties in the SVN archive: #CVSRevisionNumberSetter(propname='cvs2svn:cvs-rev'), ]) # 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 # 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. # Create the default project (using ctx.trunk, ctx.branches, and ctx.tags): run_options.add_project( r'test-data/main-cvsrepos', 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=[ # Use IgnoreSymbolTransforms like the following to completely # ignore symbols matching a regular expression when parsing # the CVS repository, for example to avoid warnings about # branches with two names and to choose the preferred name. # It is *not* recommended to use this instead of # ExcludeRegexpStrategyRule; though more efficient, # IgnoreSymbolTransforms are less flexible and don't exclude # branches correctly. The argument is a Python-style regular # expression that has to match the *whole* CVS symbol name: #IgnoreSymbolTransform(r'nightly-build-tag-.*') # RegexpSymbolTransforms transform symbols textually using a # regular expression. The first argument is a Python regular # expression pattern and the second is a replacement pattern. # The pattern is matched against each symbol name. If it # matches the whole symbol name, then the symbol name 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. #RegexpSymbolTransform(r'release-(\d+)_(\d+)', # r'release-\1.\2'), #RegexpSymbolTransform(r'release-(\d+)_(\d+)_(\d+)', # r'release-\1.\2.\3'), # Simple 1:1 character replacements can also be done. The # following transform, which converts backslashes into forward # slashes, should usually be included: ReplaceSubstringsSymbolTransform('\\','/'), # Eliminate leading, trailing, and repeated slashes. This # transform should always be included: 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=[ # ], # symbol_transforms=[ # #RegexpSymbolTransform(r'release-(\d+)_(\d+)', # # r'release-\1.\2'), # #RegexpSymbolTransform(r'release-(\d+)_(\d+)_(\d+)', # # r'release-\1.\2.\3'), # ReplaceSubstringsSymbolTransform('\\','/'), # 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