+verb(
+ cat <<EOT | rsync -avC --filter='. -' a/ b
+ + foo.o
+ :C
+ - *.old
+ EOT
+
+ rsync -avC --include=foo.o -f :C --exclude='*.old' a/ b
+)
+
+Both of the above rsync commands are identical. Each one will merge all
+the per-directory .cvsignore rules in the middle of the list rather than
+at the end. This allows their dir-specific rules to supersede the rules
+that follow the :C instead of being subservient to all your rules. (The
+global rules taken from the $HOME/.cvsignore file and from $CVSIGNORE are
+not repositioned from their spot at the end of your rules, however -- feel
+free to manually include $HOME/.cvsignore elsewhere in your rules.)
+
+manpagesection(LIST-CLEARING FILTER RULE)
+
+You can clear the current include/exclude list by using the "!" filter
+rule (as introduced in the FILTER RULES section above). The "current"
+list is either the global list of rules (if the rule is encountered while
+parsing the filter options) or a set of per-directory rules (which are
+inherited in their own sub-list, so a subdirectory can use this to clear
+out the parent's rules).
+
+manpagesection(ANCHORING INCLUDE/EXCLUDE PATTERNS)
+
+As mentioned earlier, global include/exclude patterns are anchored at the
+"root of the transfer" (as opposed to per-directory patterns, which are
+anchored at the merge-file's directory). If you think of the transfer as
+a subtree of names that are being sent from sender to receiver, the
+transfer-root is where the tree starts to be duplicated in the destination
+directory. This root governs where patterns that start with a / match.
+
+Because the matching is relative to the transfer-root, changing the
+trailing slash on a source path or changing your use of the --relative
+option affects the path you need to use in your matching (in addition to
+changing how much of the file tree is duplicated on the destination
+host). The following examples demonstrate this.
+
+Let's say that we want to match two source files, one with an absolute
+path of "/home/me/foo/bar", and one with a path of "/home/you/bar/baz".
+Here is how the various command choices differ for a 2-source transfer:
+
+verb(
+ Example cmd: rsync -a /home/me /home/you /dest
+ +/- pattern: /me/foo/bar
+ +/- pattern: /you/bar/baz
+ Target file: /dest/me/foo/bar
+ Target file: /dest/you/bar/baz
+
+ Example cmd: rsync -a /home/me/ /home/you/ /dest
+ +/- pattern: /foo/bar (note missing "me")
+ +/- pattern: /bar/baz (note missing "you")
+ Target file: /dest/foo/bar
+ Target file: /dest/bar/baz
+
+ Example cmd: rsync -a --relative /home/me/ /home/you /dest
+ +/- pattern: /home/me/foo/bar (note full path)
+ +/- pattern: /home/you/bar/baz (ditto)
+ Target file: /dest/home/me/foo/bar
+ Target file: /dest/home/you/bar/baz
+
+ Example cmd: cd /home; rsync -a --relative me/foo you/ /dest
+ +/- pattern: /me/foo/bar (starts at specified path)
+ +/- pattern: /you/bar/baz (ditto)
+ Target file: /dest/me/foo/bar
+ Target file: /dest/you/bar/baz
+)
+
+The easiest way to see what name you should filter is to just
+look at the output when using --verbose and put a / in front of the name
+(use the --dry-run option if you're not yet ready to copy any files).
+
+manpagesection(PER-DIRECTORY RULES AND DELETE)
+
+Without a delete option, per-directory rules are only relevant on the
+sending side, so you can feel free to exclude the merge files themselves
+without affecting the transfer. To make this easy, the 'e' modifier adds
+this exclude for you, as seen in these two equivalent commands:
+
+verb(
+ rsync -av --filter=': .excl' --exclude=.excl host:src/dir /dest
+ rsync -av --filter=':e .excl' host:src/dir /dest
+)
+
+However, if you want to do a delete on the receiving side AND you want some
+files to be excluded from being deleted, you'll need to be sure that the
+receiving side knows what files to exclude. The easiest way is to include
+the per-directory merge files in the transfer and use --delete-after,
+because this ensures that the receiving side gets all the same exclude
+rules as the sending side before it tries to delete anything:
+
+verb(
+ rsync -avF --delete-after host:src/dir /dest
+)
+
+However, if the merge files are not a part of the transfer, you'll need to
+either specify some global exclude rules (i.e. specified on the command
+line), or you'll need to maintain your own per-directory merge files on
+the receiving side. An example of the first is this (assume that the
+remote .rules files exclude themselves):
+
+verb(
+ rsync -av --filter=': .rules' --filter='. /my/extra.rules'
+ --delete host:src/dir /dest
+)
+
+In the above example the extra.rules file can affect both sides of the
+transfer, but (on the sending side) the rules are subservient to the rules
+merged from the .rules files because they were specified after the
+per-directory merge rule.
+
+In one final example, the remote side is excluding the .rsync-filter
+files from the transfer, but we want to use our own .rsync-filter files
+to control what gets deleted on the receiving side. To do this we must
+specifically exclude the per-directory merge files (so that they don't get
+deleted) and then put rules into the local files to control what else
+should not get deleted. Like one of these commands:
+
+verb(
+ rsync -av --filter=':e /.rsync-filter' --delete host:src/dir /dest
+ rsync -avFF --delete host:src/dir /dest
+)
+
+manpagesection(BATCH MODE)
+
+bf(Note:) Batch mode should be considered experimental in this version
+of rsync. The interface and behavior have now stabilized, though, so
+feel free to try this out.
+
+Batch mode can be used to apply the same set of updates to many
+identical systems. Suppose one has a tree which is replicated on a
+number of hosts. Now suppose some changes have been made to this
+source tree and those changes need to be propagated to the other
+hosts. In order to do this using batch mode, rsync is run with the
+write-batch option to apply the changes made to the source tree to one
+of the destination trees. The write-batch option causes the rsync
+client to store in a "batch file" all the information needed to repeat
+this operation against other, identical destination trees.
+
+To apply the recorded changes to another destination tree, run rsync
+with the read-batch option, specifying the name of the same batch
+file, and the destination tree. Rsync updates the destination tree
+using the information stored in the batch file.
+
+For convenience, one additional file is creating when the write-batch
+option is used. This file's name is created by appending
+".sh" to the batch filename. The .sh file contains
+a command-line suitable for updating a destination tree using that
+batch file. It can be executed using a Bourne(-like) shell, optionally
+passing in an alternate destination tree pathname which is then used
+instead of the original path. This is useful when the destination tree
+path differs from the original destination tree path.
+
+Generating the batch file once saves having to perform the file
+status, checksum, and data block generation more than once when
+updating multiple destination trees. Multicast transport protocols can
+be used to transfer the batch update files in parallel to many hosts
+at once, instead of sending the same data to every host individually.
+
+Examples:
+
+verb(
+ $ rsync --write-batch=foo -a host:/source/dir/ /adest/dir/
+ $ scp foo* remote:
+ $ ssh remote ./foo.sh /bdest/dir/
+)
+
+verb(
+ $ rsync --write-batch=foo -a /source/dir/ /adest/dir/
+ $ ssh remote rsync --read-batch=- -a /bdest/dir/ <foo
+)
+
+In these examples, rsync is used to update /adest/dir/ from /source/dir/
+and the information to repeat this operation is stored in "foo" and
+"foo.sh". The host "remote" is then updated with the batched data going
+into the directory /bdest/dir. The differences between the two examples
+reveals some of the flexibility you have in how you deal with batches: