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@tundra tundra on 20 Jan 2010 37 KB Many typos and minor edits fixed.
NAME
----

**tren** - Advanced File Renaming

SYNOPSIS
--------

::

    tren.py [-1aCcbEefghqtvXx] [-F file] [-l string] [-r old=new]... file|dir file|dir ...


OPTIONS
-------

  -1   Rename only the first instance of the specified string

         (*Default*: This is the program default)

       This option is provided so you can toggle the program back to
       its default behavior after a previous ``-g`` on the command
       line.

       This option is ignored during regular expression processing
       (``-x``).

  -a   Rename within the entire file or directory name

         (*Default*: This is the program default)

       This option is provided so you can toggle the program back to
       its default behavior after a previous ``-b`` or ``-e`` on the
       command line.

  -b   Only perform renaming within "name" portion of file
       or directory name.

        (*Default*: Rename within the entire file or directory name)

       Many applications use the suffix of a filename to indicate the
       contents or type of file.  By default, **tren** does renaming
       in the entire filename *including* the extension.  For example
       doing this::

         tren.py -g -r e=u peg.jpeg # -g = "rename all"

       Renames the file to ``pug.jpug`` .. probably not what you want.

       The ``-b`` option tells **tren** to only perform string renaming
       in the actual "name portion" of the filename thereby
       cirumventing problems like this::

         tren.py -g -b -r e=u peg.jpeg   # Renames file to pug.jpeg
     
  -C   Do case-sensitive renaming

         (*Default*: This is the program default)

       This option is provided so you can toggle the program back to
       its default behavior after a previous ``-c`` on the command
       line.

       This option is ignored during regular expression processing
       (``-x``).

  -c   Collapse case when doing string substitution.

        (*Default*: Search for string to replace is case sensitive)

       When looking for a match on the old string to replace,
       **tren** will ignore the case of the characters found
       in the filename.  For example::

         tren.py -c -r Old:NEW Cold.txt fOlD.txt

       This renames both files to ``CNEW.txt`` and ``fNEW.txt``
       respectively.  Notice that the new (replacement) string's case
       is preserved.

       This option is ignored during regular expression processing
       (``-x``).

  -e   Only perform renaming within "extension" portion of
       or directory name.

        (*Default*: Substitute within the entire file or directory name)

       This option is the inverse of ``-b``.  It instructs **tren**
       to do the requested renaming *only* in the filename
       "extension" not on the file name portion.  For example::

          tren.py -e -r pe=p   peg.jpeg   # Renames file to peg.jpg

  -E   Continue renaming even after an error is encountered

         (*Default*: Stop processing after any error)

  -F file  Read command line arguments from ``file`` 

       It is possible to perform multiple renaming operations in one
       step using more than one ``-r`` option on the **tren** command
       line.  However, this can make the command line very long and
       hard to read.  This is especially true if the renaming strings
       are complex, contain regular expressions or renaming
       templates, or if you make heavy use of command line toggles.

       The ``-F`` option allows you to place any command line
       arguments in a separate *file* in place of- or in addition to
       the **tren** command line itself.  This file is read one line
       at a time and the contents appended to any existing command
       line.  You can even name the files you want renamed in the
       file, but they must appear as the last lines of that file
       (because they must appear last on the command line).

       Whitespace is ignored as is anything from a ``#`` to the end of
       a line::

         # Example replacement string file
         # Each line appended sequentially
         # to the command line

         -r t[ext]+=txt     # Appended first
         -c -g my=Mine
         -X
         -r =/L/ -r foo=bar 
         my.file
         your.file          # Appended last
 

  .. NOTE:: There is one important difference between an actual
            command line and keeping the arguments in a file like
            this.  *Filename wildcards are not expanded within the
            file.* ``*.txt`` will typically be expanded by a command
            shell to create a list of files ending in ``.txt``.
            However, the ``*`` metacharacter has no such meaning when
            used inside an arguments file.

  -f   Force renaming even if target file or directory name already
       exists.

        (*Default*: Skip renaming if a file or directory already
        exists by the same name as the target.)

  -g   Replace all instances (global rename) of the old string 
       with the new.

        (*Default*: Only the first matching string is replaced.)

       Ordinarily, **tren** only replaces the single *leftmost*
       instance of a string in the entire filename (default), the name
       portion (``-b``) or the extension (``-e``).  If you want
       *all* instances of a particular string replaced, use this
       option to enable "global" renaming::

         tren.py -g -r p:P pop.txp    # Renames file to: PoP.txP

       This option is ignored during regular expression processing
       (``-x``).

  -h   Print help information.


  -l string   File "extension" delimiter string.

               (*Default*: ".")

              **tren** has to know what separates the "name" from the
              "extension" in a filename.  By default, it uses the
              rightmost ``.`` character.  You can change it with this
              option to "divide" the filename into name and extension
              for renaming purposes, using any string you like.  This
              is particularly helpful with ``-b`` and ``-e`` options::

                tren.py -g -b -l .long.txt -r long:short long.long.txt.long.txt.foo

              This would rename the file to::

                short.short.txt.long.txt.foo

              Notice that **tren** looks for the *rightmost* instance
              of the separator to split the whole filename into name
              and extension components.  Notice also that when you do
              this, no renaming of characters *within* the separator
              takes place.

  -q   Quiet mode, do not show progress.

        (*Default*: Display progress)

       Ordinarily, **tren** displays what it is doing as it
       processes each file.  If you prefer to not see this
       "noisy" output, use the ``-q`` option.  Note that this
       does not suppress warning and error messages.

       This option is ignored when running in test mode (``-t``).


  -r <old=new>   Replace ``old`` with ``new`` in file or directory
                 names.

                 Use this option to specify which strings you want to
                 replace in each file name. These strings are treated
                 literally unless you also invoke the ``-x`` option in
                 which case ``old`` is treated as a Python style
                 regular expression.

                 Both ``old`` and ``new`` may optionally contain
                 *Renaming Tokens* described later in this document.

                 If you need to use the ``=`` symbol *within* either
                 the old or new string, simply escape it: ``\=``


                 You can have multiple instances of this option on
                 your **tren** command line::

                   tren.py -e old:new -e txt:doc old-old.txt

                 This renames the file to::

                   new-old.doc
               
                 By default, **tren** only replaces the first
                 (leftmost) instance of the old string with the new.

  -t   Test mode, don't rename, just show what the program *would* do
       (ignores -q).

       **tren** is very powerful and capable of doing nasty things to
       your files (like making a file disappear when another one is
       renamed over it).   For this reason, it is helpful to test
       your **tren** commands before actually using them.  With this
       option enabled, **tren** will print out diagnostic information
       about what your command *would* do, *without actually doing it*.

  -v   Print detailed program version information and exit.

  -X   Treat the renaming strings literally

         (*Default*: This is the program default)

       This option is provided so you can toggle the program back to
       its default behavior after a previous ``-x`` on the command
       line.

  -x   Treat the old string in a ``-r`` replacement as a Python
       style regular expression for matching purposes.

        (*Default*: Treat the old string as literal text)



DESCRIPTION
-----------

.. WARNING:: **tren** is a powerful file and directory renaming tool.
             Be **sure** you know what you're about to do.  If you're
             not, run the program in test mode (invoke with the ``-t``
             option) to see what would happen.  You have been warned!

**tren** is a general purpose file and directory renaming tool. Unlike
commands like ``mv``, **tren** is particularly well suited for
renaming *batches* of files and/or directories with a single command
line invocation.  **tren** eliminates the tedium of having to script
simpler tools to provide higher-level renaming capabilities.

**tren** will not allow you to rename a file or directory if one with
the new name already exists. Such attempts will cause no change to the
file or directory being processed and an error message will be
displayed.  This is intentional to force you to manually rename or
remove the file or directory that would have been clobbered by a
rename.  You can override this default and *force* a renaming and thus
the removal of such existing files or directories (``-f`` option).

**tren** supports a variety of renaming mechanisms.  The one thing
they have in common is that you must specify an *old string* which
will be replaced by a *new string* when the file or directory is
renamed.  The general form is::

  tren.py -r old=new <list of files, directories to rename>


The ``old`` and ``new`` renaming strings are built using a variety of
building blocks:

  =============================   =============================
  *Old Strings Are Built With:*   *New Strings Are Built With:*
  -----------------------------   -----------------------------

  Literal Text                    Literal Text
  Regular Expressions             Renaming Tokens
  Renaming Tokens
  =============================   =============================


You can use any of these building blocks alone or combine them
to create expressive and powerful renaming schemes.


Literal String Substitution
---------------------------

Literal String Substitution is just that - it replaces one literal
string with another to rename the target file or directory.  This is
the most common, and simplest way to use **tren**.  This is handy when
you have files and directories that have a common set of characters in
them you'd like to change.  For instance::

  tren.py -r .Jpeg=.jpg *.Jpeg

This would rename all files (or directories) whose names contained the
string ``.Jpeg`` and replace it with ``.jpg``.  Well ... that's not
quite right.  Unless you specify the ``-g`` option, *only the first
(leftmost) instance of ``old`` is replaced with ``new``*.

It's important to realize that such a substitution takes place
*anywhere* in the file name, not just at the end or "extension" (as it
is called in Windows).  You can limit the replacement to just the
"name" (``-b``) or "extension" (``-e``) portions of the filename.

You may specify multiple replacement operations (``-r``) on the **tren** 
command line::

  tren.py -g -r .Jpeg=.jpg -r old=ReallyOld *

This would rename all the files in the current directory, replacing
``.Jpeg`` with ``.jpg`` and ``old`` with ``ReallyOld`` anywhere these
strings appeared in any of the file or directory names.

If you need to include the equals sign as part of the old string or
the new string literal text, you have to escape it (``\=``)::

  tren.py -r name\=bob=name\=sally name=bob.dbms

This renames the file ``name=bob.dbms`` to ``name=sally.dbms``.


Using Regular Expressions
-------------------------

Ordinarily **tren** treats both the old string you specify with the
``-r`` option *literally*.  However, it is sometimes handy to be able
to write a regular expression to specify what you want replaced.  If
you specify the ``-x`` option, **tren** will treat your old string as
a Python style regex, compile it (or try to anyway!) and use it to
select which strings to replace.  This makes it much easier to rename
files that have repeated characters or patterns, and groups of files
that have similar, but not idential strings in their names you'd like
to replace.

Say you have a set of files that are similar, but not idential in
name, and you want to rename them all::

  sbbs-1.txt
  sbbbs-2.txt
  sbbbbbbbbs-3.txt

Suppose you want to rename them, replacing two or more instances of
``b`` with ``X``. It is tedious to have to write a separate literal
``-r old:new`` string substitution for each instance above.  This is
where regular expressions can come in handy.  When you invoke the
``-x`` option, **tren** understands this to mean that the ``old``
portion of the replacement option is to be treated as a *Python style
regular expression*.  That way, a single string can be used to match
many cases::
 
  tren.py -x -r bb+:X *.txt

This renames the files to::

  sXs-1.txt
  sXs-2.txt
  sXs-3.txt

Keep in mind that a literal string is a subset of a regular
expression.  This effectively means that with ``-x`` processing
enabled you can include *both* regular expressions and literal text in
your "old string" specification.  The only requirement is that the
string taken as a whole must be a valid Python regular expression.  If
it is not, **tren** will display an error message to that effect.

Because Python regular expressions can make use of the ``=`` symbol,
you need a way to distinguish between an ``=`` used in a regular
exression and the same symbol used to separate the old and new
operands for the ``-r`` option.  Where this symbol needs to appear in
a regular expression, it has to be escaped like this: ``\=``.

Regular expression processing is unaffected by the ``-g / -1`` (global
rename) and ``-c / -C`` (ignore case) options.  That's because there
are regular expression mechanisms for achieving the same thing.  More
importantly, if you've selected regular expression matching, it's
probably because you want very fine grained control of the renaming
defined by the regex.  In short, regular expression matching always
takes place on the *original characters* of the target portion of the
name and does replacement as called for in the regex itself.



An Overview Of Renaming Tokens
------------------------------

**tren** implements the notion of *Renaming Tokens*.  These can
appear in either the ``old`` or ``new`` string components of a ``-r``
renaming argument.

It is sometimes useful to be able to take a group of files or
directories whose names have nothing in common and impose a common
naming scheme on them. Another use for renaming tokens is to do the
renaming based on some property the file or directory possesses like
its creation date, size, owner's name, and so on.

In their simplest form, renaming tokens are nothing more than
"canned" information **tren** knows about a particular file or
directory.  For instance, if you insert the ``/D/`` token into a
old- or new string definition, **tren** will replace it with *the
creation date of the file or directory being renamed* and use that
string in the renaming process.

There are also tokens that allow you to use system information in your
renaming strings.  Finally, there are tokens that can be used to
automatically renumber or sequence (order) a set of files or
directories being renamed.

For example, suppose you and your friends pool your vacation photos
but each of your cameras uses a slightly different naming scheme.  You
might want to just reorder them by the date and time each picture was
taken, for example.  That way you end up with one coherent set of
named and numbered files.  You might start with something like this::

  DSC002.jpg      # Bob's camera,  taken 1-5-2010 at noon
  dc0234.Jpg      # Mary's camera, taken 1-5-2010 at 8am
  032344.jpeg     # Sid's camera,  taken 1-3-2010 at 4pm

It would be nice to get these in order somehow::

  tren.py -r =/D/-MyVacation-/+T0001/.jpeg *.jp*

This would rename all the files in the current directory ending with
``.jp*``.  The ``/D/`` would be replaced with the *date* the picture
was taken. The ``/+T0001/`` refers to a *starting sequence number* to
uniquely identify pictures taken on the same date.  The other strings,
``-MyVacation-`` and ``.jpeg``, are inserted *literally* in the final
file names.  After we ran this command, the files above would end up
with these names::

  20100103-MyVacation-0001.jpeg       # Sid's
  20100105-MyVacation-0001.jpeg       # Mary's
  20100105-MyVacation-0002.jpeg       # Bob's

Notice that the files taken on the same date have been sequenced by
the time-of-day they were taken because we included the ``/+T0001/``
renaming token in our pattern.  The ``+`` here means to construct
the sequence in *ascending* order.  A ``-`` would specify
*descending* order.  

.. Note:: Notice that there is *no old string* in our example above.
          That is, there is nothing to the left of the ``=`` symbol in
          the ``-r`` option.  This effectively means "replace
          everything" in the existing file or directory name.  You can
          do the same thing using a regular expression::

               tren.py -x -r *=/D/-MyVacation-/+T001/.jpeg *.jp*

          Of course, if you use the ``-b`` or ``-e`` flags, you limit
          just what portion of the filename is considered
          "everything".

Of course, you don't *have* to replace the entire filename when
using tokens.  It's perfectly legitimate to replace only
a portion of the existing name::

   tren.py -r file=/D/-file  file-1 file.2

This would rename our files to: ``20100101-file-1 and
20100101-file.2`` Notice that we combined literal text and a renaming
token to do this.

You can even use renaming tokens in your *old string* specification.
For instance, suppose you manage a number of different systems and you
set their system name in an environment variable called SYSNAME.  You
might then do something like this::

  tren.py -x -r /$SYSNAME/*.bku=/$SYSNAME/*.bku.old

If your system name was "matrix", then the command above would only
rename files whose names began with ``matrix`` and ended with ``.bku``.
If your system name were "morton", then the command above would only
rename files whose names began with ``morton`` and ended with ``.bku``.

There are a couple of things to keep in mind when doing things like
this:

  1) The ``/$SYSNAME/`` in the old string is used to *find the text to
     rename*, whereas the same renaming token in the new string means
     *insert the contents of that environment variable here*.

  2) Renaming tokens are always evaluated *before* any regular
     expression processing takes place.  It's up to you to make sure
     that when the two are combined (as we have in the example above),
     *that the final result is still a valid Python regular
     expression*.  This may involve explicit quoting of the renaming
     tokens used in the old string specification.


**tren** has many other kinds of renaming tokens.  Their
structure and use is described in some detail in the
section below entitled `RENAMING TOKENS: THE GORY DETAILS`_.


COMMAND LINE TOGGLES
--------------------

**tren** defaults to a specific set of behaviors:

  - ``old`` and ``new`` renaming text is treated *literally*
  - Renaming takes place within *the entire filename*
  - *Only the first instance* of ``old`` is replaced with ``new``
  - Renaming is *case sensitive*

There are command line "switches" to override each of these defaults
(``-x``, ``-b``, ``-e``, ``-g``, and ``-c``).

There are additional "switches" to return the program to its
default behavior (``-X``, ``-a``, ``-1``, and ``-C``).

The idea is that you can specify what kind of replacement
behavior you want *for each different renaming operation*.
For instance::

  tren.py -e -r txt=TXT -g -a -c -r M=0 -C -x -r [ss]+=S filelist

This would rename the files as follows:

  - The first instance of ``txt`` would be replaced with
    ``TXT`` in each of the file extensions.

  - All instances of ``m`` or  ``M`` would be replaced
    anywhere they were found in the filename.

  - All instances of one or more strings in the form ``ss`` would
    be replaced with ``S``.


OTHER PROGRAM SEMANTICS
-----------------------

It's important to understand some subtleties of just how **tren**
works, particularly if you intend to create complex, multi-replacement
command lines:

  - Command line processing is from left to right.  As we saw in the 
    `COMMAND LINE TOGGLES`_ above, this means the options can be
    different for each renaming operating you specify.

  - Regular expression processing is unaffected by the ``-g / -1``
    (global rename) and ``-c / -C`` (ignore case) options.

  - Filenames may be absolute, relative, or implict (to the current
    working directory).  **tren** keeps track of this and can do
    renaming in directories other than the current one.

  - **tren** processes each renaming string in the following
    manner:

    1) Select the target portion of the filename for
       renaming (all, name only, extension only).

    2) Replace all renaming tokens with their equivalent
       text in both the ``old`` and ``new`` renaming strings.

    3) If doing literal string replacement:

        - If ``-c`` is in effect, collapse the target and the ``old``
          renaming string to *lower case* before checking for a match.

        - Replace the first- (default and ``-1``) or all (``-g``)
          instances of ``old`` with ``new``.  4)

    4) If doing regular expression processing, replace any regex
       matches with the corresponding ``new`` string.  Keep in mind
       that if ``-x`` is selected the *entire* ``old`` string is
       treated as a Python regular expression.  Pay particular
       attention to this if you're combing literal text and/or
       renaming templates with regular expression metacharacters.

  - When all the renaming operations are complete - and thus a new filename
    has been constructed - **tren** checks to see if a file or directory
    by that name already exists.  Unless the ``-f`` flag is in force,
    **tren** will refuse to do a renaming *over an existing filename*.
    If the new filename does not exist, **tren** will attempt the
    renaming.  If the rename fails for some reason - say you don't
    have permission to rename a particular file or directory - you'll
    see an error message to that effect.

  - By default, **tren** will stop processing on any error.  You
    can override this with the ``-E`` option.  In that case,
    an error message will be displayed.  No matter what caused
    the error,  **tren** will skip the file currently being processed
    and go on to the next one.


RENAMING TOKENS: THE GORY DETAILS
---------------------------------

As we've just seen, a *Renaming Token* is nothing more than 
a string representing something **tren** knows about.  These
fit in one of three categories:

  - An attribute of the file or directory being renamed
  - An attribute of the underling operating system environment
  - A sequence that reflects some ordering principle

Renaming tokens are delimited by the ``/`` character.  **tren**
replaces these tokens with the corresponding information (see
descriptions below) wherever you indicated in either the ``old`` or
``new`` strings of a ``-r`` rename command.

Currently, **tren** defines a number of renaming tokens.  Future
releases of  **tren** may add more of these, so it's good to
periodically reread this material.

File Attribute Renaming Tokens
---------------------------------

These tokens are derived from information about the file or
directory being renamed.



``/D/       File or directory creation date``

              This token is replaced with the date of creation
              of the file or directory being renamed.  It is
              in ``yyyymmdd`` format.

``/dd/      File or directory day of creation``

              This token is replaced with the the day of the month the
              file was created in ``dd`` format.

``/dy/      File or directory day of creation``

              This token is replaced with the the name of the day the
              file was created in ``Ddd`` format.

``/E/       Original File Extension``

              This token is replaced the "extension" portion of the file
              or directory before renaming.  This does not include the
              extension separator string.

``/F/       Original File Name``

              This token is replaced the "name" portion of the file or
              directory before renaming.

.. NOTE:: Notice that there is no token for the *whole* filename
          because you can always synthesize it with ``/F/./E/``


``/G/       File or directory primary group name``

              This token is replaced with the name of the
              primary group to which the file belongs.

``/hh/      File or directory hour of creation``

              This token is replaced with the hour the file was
              created in ``hh`` format.

``/I/       File or directory creation date in ISO format``

              This token is replaced with the date of creation of the
              file or directory being renamed.  It is similar to ``/D/``
              except it is in ISO format, ``YYYY-MM-DD``.

``/L/       File or directory length``

              This token is replaced with a numeric string
              that indicates the length of the file or directory
              in bytes.

``/mm/      File or directory minutes of creation``

              This token is replaced with the minutes the file was
              created in ``mm`` format.

``/mo/       File or directory month of creation``

              This token is replaced with the numeric month the file was
              created in ``mm`` format.

``/my/      File or directory month of creation``

              This token is replaced with the abbreviated name of the
              month the file was created in ``Mmm`` format.

``/ss/      File or directory seconds of creation``

              This token is replaced with the seconds the file was
              created in ``ss`` format.

``/T/       File or directory creation time``

              This token is replaced with the time of creation of the
              file or directory being renamed.  It is in ``hh:mm:ss``
              format.  This is equivalent to ``/hh/:/mm/:/ss/``.

``/U/       File or directory owner name``

              This token is replaced with the name of the
              file or directory's owner.

``/yyyy/    File or directory year of creation``

              This token is replaced with the year the file was
              created in ``yyyy`` format.




System Related Renaming Tokens
---------------------------------

These tokens are derived from the underlying operating system
and runtime environment.

``/$ENV/     Environment variable``

               This token is replaced with the value of
               the environment variable ``$ENV``.  If
               that variable does not exist, the token
               is replaced with an empty string::

                 tren.py -r =/$ORGANZATION/-/F/./E/ *

               This prepends the organization's name to everything in
               the current directory.


``/`cmd`/     Arbitrary command execution``

               This token is replaced with the string
               returned by executing the ``cmd`` command.

               For instance, you might want to prepend the name
               of the system to a all you shell scripts::

                 tren.py -r =/`uname -n`/-/F/./E/ *.sh

              This construct is more generally a way to synthesize
              renaming tokens that are not built into **tren**.  For
              instance, the built-in tokens only provide information
              about file and directory *creation* dates.  You might
              want to use the date of *last access*.  You do this by
              writing the appropriate script or program and then
              executing it within the /\`cmd\`/ construct.  This
              effectively provides **tren** an unlimited number of
              renaming tokens.

.. WARNING:: Be *very* careful using this.  It's possible to
              construct bizzarre, overly long, and just plain
              chowder-headed strings that make no sense in a renaming
              context using this construct.


Sequence Renaming Tokens
---------------------------

Sometimes it's useful to rename files or directories based on some
*property they possess* like the date or time of creation, the size of
the file, who owns it, and so on.  That's the idea behind the ``/D/``,
``/L/``, and ``/T/`` renaming tokens described in the previous section.

An extension of this idea is to *order all the files being renamed*
based on one of these parameters.  For instance, instead of actually
embedding the date and time of creation in a file or directory name,
you might want to order the files from oldest to newest with a naming
convention like::

  file-1.txt
  file-2.txt
  file-3.txt

This guarantees uniqueness in the final name and also sees to it that
a sorted directory listing will show you the files or directories in
the order you care about.

This is the purpose of *sequence renaming tokens*.  They give you
various ways to create sequences that can be embedded in the final
file or directory name.

General Format Of Sequence Renaming Tokens
------------------------------------------

Sequence renaming tokens consist of three descriptive components and
have the following general format::

    /<ordering flag><type><counting pattern>/
  
      where,
             ordering flag: 
  
                   +  ascending
                   -  descending
  
             type:
  
                   D  sequence on file creation date & time
                   L  sequence on file length
                   R  sequence on the command line file order
                   T  sequence on file creation time within a given day


Count Pattern Format
--------------------

The counting pattern is used to specify two things: The width of the
sequence string, and the starting value for the sequence.  Examples::

  0001    ->   0001, 0002, 0003, ...
  0000    ->   0000, 0001, 0002, ...
  03      ->   03, 04, 05, ...

You do not have to use a ``0`` to indicate the sequence width.  You
can use *any* padding characters you like.  **tren** only cares about
the width of the field and will "consume" your padding characters as
the count increases.::

  xxx3    ->   xxx3, xxx4, xxx5, ... 9999, xxx3, xxx4, ...
   -+8    ->   -+8, -+9, -10, -11, ... 999, -+8, -+9, ...

You are not restricted to numbers in a counting pattern.  Letters may
also be used.  **tren** will preserve the case you specify in the
token when creating sequences like this::

  000a    ->   000a, 000b, 000c, ... zzzz, 000a, ...
  ---Y    ->   ---Y, ---Z, --AA, ... ZZZZ, ---Y, ---Z, ...

Notice that when a sequence "rolls over", the next value is the
*initial sequence value you specified*.


Types Of Sequence Renaming Tokens
---------------------------------

Sequence renaming tokens are thus a way to generate an ordering *based
on some property common to everything being renamed*.  Keep in mind
that for purposes of sequencing, **tren** *makes no distinction
between a file and directory*.  It merely sequences based on the
property you requested.

**tren** currently supports the following kinds of sequencing:


  ``/+D0001/   Sequence based on the creation date/time``

               This produces a sequence from oldest to newest
               (or the reverse) of the renamed objects.

                 ``tren.py -b -r =/+D0002/  *.txt``

               This would rename all the files in the current
               directory into the form, ``0002.txt``, ``0003.txt``,
               ... ``9999.txt`` with ``0002.txt`` being the oldest
               file and ``9999.txt`` being the newest.  If you
               used the token ``/-D0002/``, you'd get the same
               thing, but in reverse order.

  ``/+L0001/   Sequence based on the size of the files being renamed``

               This produces a sequence from shortest to longest
               (or the reverse) of the renamed objects.

                 ``tren.py -r /+L0002/  *.txt``

               This would rename all the files in the current
               directory into the form, ``0002.txt``, ``0003.txt``,
               ... ``9999.txt`` with ``0002.txt`` being the shortest
               file and ``9999.txt`` being the longest.  If you
               used the token ``/-L0002/``, you'd get the same
               thing, but in reverse order.

  ``/+R0001/   Sequence based on the file order on the command line``

               This produces a sequence based on the order (or the
               reverse) of renaming - i.e., The order of the names
               on the command line.

                 ``tren.py -e -r =/+R0000/  MyFile.txt AFile.jpg me.log``

               This would rename all the files to, ``MyFile.0``,
               ``AFile.1``, and ``me.2``.  If you used ``/-R0000/``,
               you'd get  ``MyFile.2``, ``AFile.1```, and ``me.0``.

  ``/+T0001/   Sequence based on creation time within date``

               This produces a sequence based on the creation date
               and time similar to the ``/+D.../`` sequence renaming
               token above.  However, the sequence *resets* at the
               beginning of each new date. This allows you to
               create unique sequences *within a date* like our
               example of renaming photo files from different
               cameras.  (See: `An Overview Of Renaming Tokens`_)::
  
                
                 tren.py -b -r =/D/-/+T0100/ *.txt

               This would rename all the ``.txt`` files in the current
               directory into the form::

                 200103010-0100.txt
                 200103010-0101.txt
                 200103010-0102.txt
                 200104010-0100.txt
                 200104010-0101.txt
                 200104010-0102.txt
                 200104011-0100.txt
                 200104011-0101.txt
                 200104011-0102.txt
                 ...

               In other words, instead of sequence just on the creation date,
               this allows us to sequence *within* the date. As always, the
               ``-`` flag will reverse this order within the date.

               Notice that you can get something similar using just
               file attribute renaming tokens::

                 tren.py -b -r =/D/-/T/ *.txt

               This would produce names in the form::

                 200103010-03:01:23.txt
                 200103010-03:01:24.txt
                 200103010-03:01:25.txt
                 ...

               For most purposes, though, the order, rather than the
               absolute time is both more useful and more readable.


EXAMPLES
--------

Here are some common examples of **tren** in action - the resulting
file name(s) shown to the right as a comment.  Study each example
carefully.  Small subtleties are introduced in various adjacent
examples to illustrate different features of **tren**:


  Get help::

    tren.py -h

  Print out detailed version information::

    tren.py -v

  Simple rename::

    tren.py -r old=New  fold.txt log.old     # fNew.txt log.New

  Change file "name"::

    tren.py -b -r old=New  fold.txt log.old  # fNew.txt log.old

  Change file "extension"::

    tren.py -e -r old=New  fold.txt log.old  # fold.txt log.New

  Rename all instances of a given string::

    tren.py -g -r bin=Bin binary_bin.binbin  # Binary_Bin.BinBin

  Rename, ignoring case::

    tren.py -c -r bin=BIN Binary_bIN.txt     # BINary_bIN.txt

  Rename multiple strings at once::

    tren.py -r log:txt -r New:old New.log    # old.txt

  Rename using regular expressions::

    tren.py -x -r a+=a  Saaaaaaaally.doc     # Sally.doc

  Rename a file containing the ``=`` symbol::

    tren.py -r a\=b=c\=d  a=b.txt            # c=d.txt

  Use renaming token::

    tren.py -r =/I/ file.1                    # 2010-01-12

  Use renaming token to change file "name"::

    tren.py -b -r =/I/ file.1 file.2          # 2010-01-12.1 2010-01-12.2

  Use renaming token to change file "extension"::

    tren.py -e -r =/D/ file.1                 # file.20100112


OTHER
-----

You must have a reasonably current version of Python installed.


BUGS AND MISFEATURES
--------------------

On windows platforms, the ``/U/`` and ``/G/`` do not return the
underlying operating system ownership information..  They return
``winuser`` and ``wingroup`` respectively.

COPYRIGHT AND LICENSING
-----------------------

**tren** is Copyright (c) 2010 TundraWare Inc.

For terms of use, see the ``tren-license.txt`` file in the
program distribution.  If you install **tren** on a FreeBSD
system using the 'ports' mechanism, you will also find this file in
``/usr/local/share/doc/tren``.


AUTHOR
------

::

   Tim Daneliuk
   tren@tundraware.com



DOCUMENT REVISION INFORMATION
-----------------------------

::

  $Id: tren.rst,v 1.131 2010/01/20 23:50:20 tundra Exp $

You can find the latest version of this program at:

  http://www.tundraware.com/Software/tren