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@c This is part of the Emacs manual.
@c Copyright (C) 1985, 1986, 1987, 1993, 1994, 1995, 1997, 1999, 2000,
@c 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011
@c Free Software Foundation, Inc.
@c See file emacs.texi for copying conditions.
@node Maintaining, Abbrevs, Building, Top
@chapter Maintaining Large Programs
This chapter describes Emacs features for maintaining large
programs.
@menu
* Version Control:: Using version control systems.
* Change Log:: Maintaining a change history for your program.
* Tags:: Go directly to any function in your program in one
command. Tags remembers which file it is in.
* EDE:: An integrated development environment for Emacs.
@ifnottex
* Emerge:: A convenient way of merging two versions of a program.
@end ifnottex
@end menu
@node Version Control
@section Version Control
@cindex version control
A @dfn{version control system} is a program that can record multiple
versions of a source file, storing information such as the creation
time of each version, who made it, and a description of what was
changed.
The Emacs version control interface is called @dfn{VC}. VC commands
work with several different version control systems; currently, it
supports GNU Arch, Bazaar, CVS, Git, Mercurial, Monotone, RCS,
SCCS/CSSC, and Subversion. Of these, the GNU project distributes CVS,
Arch, RCS, and Bazaar.
VC is enabled automatically whenever you visit a file governed by a
version control system. To disable VC entirely, set the customizable
variable @code{vc-handled-backends} to @code{nil}
@iftex
(@pxref{Customizing VC,,,emacs-xtra, Specialized Emacs Features}).
@end iftex
@ifnottex
(@pxref{Customizing VC}).
@end ifnottex
@menu
* Introduction to VC:: How version control works in general.
* VC Mode Line:: How the mode line shows version control status.
* Basic VC Editing:: How to edit a file under version control.
* Log Buffer:: Features available in log entry buffers.
* Old Revisions:: Examining and comparing old versions.
* Secondary VC Commands:: The commands used a little less frequently.
* VC Directory Mode:: Listing files managed by version control.
* Branches:: Multiple lines of development.
@ifnottex
* Remote Repositories:: Efficient access to remote CVS servers.
* Revision Tags:: Symbolic names for revisions.
* Miscellaneous VC:: Various other commands and features of VC.
* Customizing VC:: Variables that change VC's behavior.
@end ifnottex
@end menu
@node Introduction to VC
@subsection Introduction to Version Control
VC allows you to use a version control system from within Emacs,
integrating the version control operations smoothly with editing. It
provides a uniform interface for common operations in many version
control operations.
Some uncommon or intricate version control operations, such as
altering repository settings, are not supported in VC. You should
perform such tasks outside Emacs, e.g. via the command line.
This section provides a general overview of version control, and
describes the version control systems that VC supports. You can skip
this section if you are already familiar with the version control system
you want to use.
@menu
* Why Version Control?:: Understanding the problems it addresses.
* Version Control Systems:: Supported version control back-end systems.
* VCS Concepts:: Words and concepts related to version control.
* VCS Merging:: How file conflicts are handled.
* VCS Changesets:: How changes are grouped.
* VCS Repositories:: Where version control repositories are stored.
* Types of Log File:: The VCS log in contrast to the ChangeLog.
@end menu
@node Why Version Control?
@subsubsection Understanding the problems it addresses
Version control systems provide you with three important
capabilities:
@itemize @bullet
@item
@dfn{Reversibility}: the ability to back up to a previous state if you
discover that some modification you did was a mistake or a bad idea.
@item
@dfn{Concurrency}: the ability to have many people modifying the same
collection of files knowing that conflicting modifications can be
detected and resolved.
@item
@dfn{History}: the ability to attach historical data to your data,
such as explanatory comments about the intention behind each change to
it. Even for a programmer working solo, change histories are an
important aid to memory; for a multi-person project, they are a
vitally important form of communication among developers.
@end itemize
@node Version Control Systems
@subsubsection Supported Version Control Systems
@cindex back end (version control)
VC currently works with many different version control systems,
which it refers to as @dfn{back ends}:
@itemize @bullet
@cindex SCCS
@item
SCCS was the first version control system ever built, and was long ago
superseded by more advanced ones. VC compensates for certain features
missing in SCCS (e.g., tag names for releases) by implementing them
itself. Other VC features, such as multiple branches, are simply
unavailable. Since SCCS is non-free, we recommend avoiding it.
@cindex CSSC
@item
CSSC is a free replacement for SCCS. You should use CSSC only if, for
some reason, you cannot use a more recent and better-designed version
control system.
@cindex RCS
@item
RCS is the free version control system around which VC was initially
built. It is relatively primitive: it cannot be used over the
network, and works at the level of individual files. Almost
everything you can do with RCS can be done through VC.
@cindex CVS
@item
CVS is the free version control system that was, until recently (circa
2008), used by the majority of free software projects. Nowadays, it
is slowly being superseded by newer systems. CVS allows concurrent
multi-user development either locally or over the network. Unlike
newer systems, it lacks support for atomic commits and file
moving/renaming. VC supports all basic editing operations under CVS.
@cindex SVN
@cindex Subversion
@item
Subversion (SVN) is a free version control system designed to be
similar to CVS but without its problems (e.g., it supports atomic
commits of filesets, and versioning of directories, symbolic links,
meta-data, renames, copies, and deletes).
@cindex GNU Arch
@cindex Arch
@item
GNU Arch is one of the earliest @dfn{distributed} version control
systems (the other being Monotone). @xref{VCS Concepts}, for a
description of distributed version control systems. It is no longer
under active development, and has been deprecated in favor of Bazaar.
@cindex git
@item
Git is a distributed version control system originally invented by
Linus Torvalds to support development of Linux (his kernel). VC
supports many common git operations, but others, such as repository
syncing, must be done from the command line.
@cindex hg
@cindex Mercurial
@item
Mercurial (hg) is a distributed version control system broadly
resembling git. VC supports most Mercurial commands, with the
exception of repository sync operations.
@cindex bzr
@cindex Bazaar
@item
Bazaar (bzr) is a distributed version control system that supports
both repository-based and distributed versioning. VC supports most
basic editing operations under Bazaar.
@end itemize
Previous versions of VC supported a version control system known as
Meta-CVS. This support was dropped due to limited interest from users
and developers.
@node VCS Concepts
@subsubsection Concepts of Version Control
@cindex repository
@cindex registered file
When a file is under version control, we say that it is
@dfn{registered} in the version control system. The system has a
@dfn{repository} which stores both the file's present state and its
change history---enough to reconstruct the current version or any
earlier version. The repository also contains other information, such
as @dfn{log entries} that describe the changes made to each file.
@cindex work file
@cindex checking out files
The copy of a version-controlled file that you actually edit is
called the @dfn{work file}. You can change each work file as you
would an ordinary file. After you are done with a set of changes, you
@dfn{commit} (or @dfn{check in}) the changes; this records the changes
in the repository, along with a descriptive log entry.
@cindex revision
@cindex revision ID
A copy of a file stored in a repository is called a @dfn{revision}.
The history of a file is a sequence of revisions. Each revision is
named by a @dfn{revision ID}. The format of the revision ID depends
on the version control system; in the simplest case, it is just an
integer.
To go beyond these basic concepts, you will need to understand three
aspects in which version control systems differ. As explained in the
next three sections, they can be lock-based or merge-based; file-based
or changeset-based; and centralized or decentralized. VC handles all
these modes of operation, but it cannot hide the differences.
@node VCS Merging
@subsubsection Merge-based vs lock-based Version Control
@cindex locking versus merging
A version control system typically has some mechanism to coordinate
between users who want to change the same file. There are two ways to
do this: merging and locking.
In a version control system that uses merging, each user may check
out and modify a work file at any time. The system lets you
@dfn{merge} your work file, which may contain changes that have not
been committed, with the latest changes that others have committed.
Older version control systems use a @dfn{locking} scheme instead.
Here, work files are normally read-only. To edit a file, you ask the
version control system to make it writable for you by @dfn{locking}
it; only one user can lock a given file at any given time. This
procedure is analogous to, but different from, the locking that Emacs
uses to detect simultaneous editing of ordinary files
(@pxref{Interlocking}). When you commit your changes, that unlocks
the file, and the work file becomes read-only again. Other users may
then lock the file to make their own changes.
Both locking and merging systems can have problems when multiple
users try to modify the same file at the same time. Locking systems
have @dfn{lock conflicts}; a user may try to check a file out and be
unable to because it is locked. In merging systems, @dfn{merge
conflicts} happen when you commit a change to a file that conflicts
with a change committed by someone else after your checkout. Both
kinds of conflict have to be resolved by human judgment and
communication. Experience has shown that merging is superior to
locking, both in convenience to developers and in minimizing the
number and severity of conflicts that actually occur.
SCCS always uses locking. RCS is lock-based by default but can be
told to operate in a merging style. CVS and Subversion are
merge-based by default but can be told to operate in a locking mode.
Distributed version control systems, such as GNU Arch, git, and
Mercurial, are exclusively merging-based.
VC mode supports both locking and merging version control. The
terms ``commit'' and ``update'' are used in newer version control
systems; older lock-based systems use the terms ``check in'' and
``check out''. VC hides the differences between them as much as
possible.
@node VCS Changesets
@subsubsection Changeset-based vs File-based Version Control
@cindex changesets
On SCCS, RCS, CVS, and other early version control systems, version
control operations are @dfn{file-based}: each file has its own comment
and revision history separate from that of all other files. Newer
systems, beginning with Subversion, are @dfn{changeset-based}: a
checkin may include changes to several files, and the entire set of
changes is handled as a unit. Any comment associated with the change
does not belong to a single file, but to the changeset itself.
Changeset-based version control is more flexible and powerful than
file-based version control; usually, when a change to multiple files
has to be reversed, it's good to be able to easily identify and remove
all of it.
@node VCS Repositories
@subsubsection Decentralized vs Centralized Repositories
@cindex centralized version control
@cindex decentralized version control
Early version control systems were designed around a
@dfn{centralized} model in which each project has only one repository
used by all developers. SCCS, RCS, CVS, and Subversion share this
kind of model. One of its drawbacks is that the repository is a choke
point for reliability and efficiency.
GNU Arch pioneered the concept of @dfn{decentralized} version
control, later implemented in git, Mercurial, and Bazaar. A project
may have several different repositories, and these systems support a
sort of super-merge between repositories that tries to reconcile their
change histories. In effect, there is one repository for each
developer, and repository merges take the place of commit operations.
VC helps you manage the traffic between your personal workfiles and
a repository. Whether the repository is a single master, or one of a
network of peer repositories, is not something VC has to care about.
@node Types of Log File
@subsubsection Types of Log File
@cindex types of log file
@cindex log File, types of
@cindex version control log
Projects that use a version control system can have two types of log
for changes. One is the log maintained by the version control system:
each time you commit a change, you fill out a @dfn{log entry} for the
change (@pxref{Log Buffer}). This is called the @dfn{version control
log}.
The other kind of log is the file @file{ChangeLog} (@pxref{Change
Log}). It provides a chronological record of all changes to a large
portion of a program---typically one directory and its subdirectories.
A small program would use one @file{ChangeLog} file; a large program
may have a @file{ChangeLog} file in each major directory.
@xref{Change Log}. Programmers have used change logs since long
before version control systems.
Changeset-based version systems typically maintain a changeset-based
modification log for the entire system, which makes change log files
somewhat redundant. One advantage that they retain is that it is
sometimes useful to be able to view the transaction history of a
single directory separately from those of other directories.
A project maintained with version control can use just the version
control log, or it can use both kinds of logs. It can handle some
files one way and some files the other way. Each project has its
policy, which you should follow.
When the policy is to use both, you typically want to write an entry
for each change just once, then put it into both logs. You can write
the entry in @file{ChangeLog}, then copy it to the log buffer with
@kbd{C-c C-a} when checking in the change (@pxref{Log Buffer}). Or
you can write the entry in the log buffer while checking in the
change, and later use the @kbd{C-x v a} command to copy it to
@file{ChangeLog}
@iftex
(@pxref{Change Logs and VC,,,emacs-xtra, Specialized Emacs Features}).
@end iftex
@ifnottex
(@pxref{Change Logs and VC}).
@end ifnottex
@node VC Mode Line
@subsection Version Control and the Mode Line
When you visit a file that is under version control, Emacs indicates
this on the mode line. For example, @samp{Bzr-1223} says that Bazaar
is used for that file, and the current revision ID is 1223.
The character between the back-end name and the revision ID
indicates the status of the work file. In a merge-based version
control system, a @samp{-} character indicates that the work file is
unmodified, and @samp{:} indicates that it has been modified. In a
lock-based system, @samp{-} indicates an unlocked file, and @samp{:} a
locked file; if the file is locked by another user (for instance,
@samp{jim}), that is displayed as @samp{RCS:jim:1.3}.
On a graphical display, you can move the mouse over this mode line
indicator to pop up a ``tool-tip'', which displays a more verbose
description of the version control status. Pressing @kbd{Mouse-1}
over the indicator pops up a menu of VC commands, identical to
@samp{Tools / Version Control} on the menu bar.
@vindex auto-revert-check-vc-info
When Auto Revert mode (@pxref{Reverting}) reverts a buffer that is
under version control, it updates the version control information in
the mode line. However, Auto Revert mode may not properly update this
information if the version control status changes without changes to
the work file, from outside the current Emacs session. If you set
@code{auto-revert-check-vc-info} to @code{t}, Auto Revert mode updates
the version control status information every
@code{auto-revert-interval} seconds, even if the work file itself is
unchanged. The resulting CPU usage depends on the version control
system, but is usually not excessive.
@node Basic VC Editing
@subsection Basic Editing under Version Control
@cindex filesets, VC
Most VC commands operate on @dfn{VC filesets}. A VC fileset is a
collection of one or more files that a VC operation acts on. When you
type VC commands in a buffer visiting a version-controlled file, the
VC fileset is simply that one file. When you type them in a VC
Directory buffer, and some files in it are marked, the VC fileset
consists of the marked files (@pxref{VC Directory Mode}).
The principal VC command is an all-purpose command, @kbd{C-x v v}
(@code{vc-next-action}), that performs either registration, locking,
merging or a check-in (depending on the situation) on the current VC
fileset. You can use @kbd{C-x v v} in a file-visiting buffer or in a
VC Directory buffer.
@table @kbd
@itemx C-x v v
Perform the appropriate next version control operation on the VC fileset.
@end table
@findex vc-next-action
@kindex C-x v v
The precise action of @kbd{C-x v v} depends on the state of the VC
fileset, and whether the version control system uses locking or
merging. This is described in detail in the subsequent sections.
VC filesets are the way that VC mode bridges the gap between
file-based and changeset-based version control systems. They are,
essentially, a way to pass multiple file arguments as a group to
version control commands. For example, on Subversion, a checkin with
a multi-file VC fileset becomes a joint commit, as though you had
typed @command{svn commit} with those file arguments at the shell
command line. All files in a VC fileset must be under the same
version control system; if they are not, Emacs signals an error when
you attempt to execute a command on the fileset.
VC filesets are distinct from the ``named filesets'' used for
viewing and visiting files in functional groups (@pxref{Filesets}).
Unlike named filesets, VC filesets are not named and don't persist
across sessions.
@menu
* VC With A Merging VCS:: Without locking: default mode for CVS.
* VC With A Locking VCS:: RCS in its default mode, SCCS, and optionally CVS.
* Advanced C-x v v:: Advanced features available with a prefix argument.
@end menu
@node VC With A Merging VCS
@subsubsection Basic Version Control with Merging
When your version control system is merging-based (the default for
CVS and all newer version control systems), work files are always
writable; you need not do anything special to begin editing a file.
The status indicator on the mode line is @samp{-} if the file is
unmodified; it flips to @samp{:} as soon as you save any changes
(@pxref{VC Mode Line}).
Here is what @kbd{C-x v v} does when using a merging-based system:
@itemize @bullet
@item
If the work file is in a directory that is not controlled by any
version control system, prompt for a repository type. Then, create a
version control repository of that type and register the file with it.
@item
If the work file is in a directory that is controlled by a version
control system but not registered with it, register the file.
@item
If the work file is the same as in the repository, do nothing.
@item
If you have not changed the work file, but some other user has checked
in changes to the repository, merge those changes into the work file.
@item
If you have made modifications to the work file, attempt to commit
the changes. To do this, Emacs first reads the log entry for the new
revision (@pxref{Log Buffer}). If some other user has committed
changes to the repository since you last checked it out, the checkin
fails. In that case, type @kbd{C-x v v} again to merge those changes
into your own work file; this puts the work file into a ``conflicted''
state. Type @kbd{C-x v v} to clear the ``conflicted'' state; VC then
regards the file as up-to-date and modified, and you can try to check
it in again.
To pick up any recent changes from the repository @emph{without}
trying to commit your own changes, type @kbd{C-x v m @key{RET}}.
@xref{Merging}.
@end itemize
These rules also apply when you use RCS in its ``non-locking'' mode,
except that changes are not automatically merged from the repository.
Nothing informs you if another user has committed changes in the same
file since you began editing it; when you commit your revision, his
changes are removed (however, they remain in the repository and are
thus not irrevocably lost). Therefore, you must verify that the
current revision is unchanged before checking in your changes. In
addition, locking is possible with RCS even in this mode: @kbd{C-x v
v} with an unmodified file locks the file, just as it does with RCS in
its normal locking mode (@pxref{VC With A Locking VCS}).
@node VC With A Locking VCS
@subsubsection Basic Version Control with Locking
Under a locking-based version control system (such as SCCS, and RCS
in its default mode), @kbd{C-x v v} does the following:
@itemize @bullet
@item
If the file is not locked, lock it and make it writable, so that you
can change it.
@item
If the file is locked by you, and contains changes, commit the
changes. In order to do this, Emacs first reads the log entry for the
new revision. @xref{Log Buffer}.
@item
If the file is locked by you, but you have not changed it since you
locked it, release the lock and makes the file read-only again.
@item
If the file is locked by some other user, ask whether you want to
``steal the lock'' from that user. If you say yes, the file becomes
locked by you, but a message is sent to the person who had formerly
locked the file, to inform him of what has happened.
@end itemize
These rules also apply when you use CVS in locking mode, except
that CVS does not support stealing a lock.
@node Advanced C-x v v
@subsubsection Advanced Control in @kbd{C-x v v}
@cindex revision ID in version control
When you give a prefix argument to @code{vc-next-action} (@kbd{C-u
C-x v v}), it still performs the next logical version control
operation, but accepts additional arguments to specify precisely how
to do the operation.
@itemize @bullet
@item
If the file is modified (or locked), you can specify the revision ID
to use for the new version that you commit. This is one way to create
a new branch (@pxref{Branches}).
@item
If the file is not modified (and unlocked), you can specify the
revision to select; this lets you start working from an older
revision, or on another branch. If you do not enter any revision,
that takes you to the highest (``head'') revision on the current
branch; therefore @kbd{C-u C-x v v @key{RET}} is a convenient way to
get the latest version of a file from the repository.
@item
@cindex specific version control system
Instead of the revision ID, you can also specify the name of a
version control system. This is useful when one file is being managed
with two version control systems at the same time
@iftex
(@pxref{Local Version Control,,,emacs-xtra, Specialized Emacs
Features}).
@end iftex
@ifnottex
(@pxref{Local Version Control}).
@end ifnottex
@end itemize
@node Log Buffer
@subsection Features of the Log Entry Buffer
When you tell VC to commit a change, it pops up a buffer called
@samp{*VC-Log*}. In this buffer, you should write a @dfn{log entry}
describing the changes you have made (@pxref{Why Version Control?}).
After you are done, type @kbd{C-c C-c}; this exits the buffer and
commits the change, together with your log entry.
While in the @samp{*VC-Log*} buffer, you can write one or more
@dfn{header lines}, specifying additional information to be supplied
to the version control system. Each header line must occupy a single
line at the top of the buffer; the first line that is not a header
line is treated as the start of the log entry. For example, the
following header line states that the present change was not written
by you, but by another developer:
@smallexample
Author: J. R. Hacker <jrh@@example.com>
@end smallexample
@noindent
Apart from the @samp{Author} header, Emacs recognizes the headers
@samp{Date} (a manually-specified commit time) and @samp{Fixes} (a
reference to a bug fixed by the change). Not all version control
systems recognize all headers: Bazaar recognizes all three headers,
while git, Mercurial, and Monotone recognizes only @samp{Author} and
@samp{Summary}. If you specify a header for a version control that
does not support it, the header is treated as part of the log entry.
@findex log-edit-show-files
@findex log-edit-show-diff
Type @kbd{C-c C-f} (@code{log-edit-show-files}) to display a list of
files in the current VC fileset. If you called @kbd{C-x v v} directly
from a work file, the fileset consists of that single file; if you
called @kbd{C-x v v} from a VC directory buffer (@pxref{VC Directory
Mode}), the fileset may consist of multiple files.
@findex log-edit-insert-changelog
Type @kbd{C-c C-d} (@code{log-edit-show-diff}) to show a @dfn{diff}
of the changes you have made (i.e., the differences between the work
file and the repository revision from which you started editing).
@xref{Old Revisions}.
If the current VC fileset includes one or more @file{ChangeLog}
files (@pxref{Change Log}), type @kbd{C-c C-a}
(@code{log-edit-insert-changelog}) to pull the relevant entries into
the @samp{*VC-Log*} buffer. If the topmost item in each
@file{ChangeLog} was made under your user name on the current date,
this command searches that item for entries that match the file(s) to
be committed; if found, these entries are inserted.
@iftex
@xref{Change Logs and VC,,,emacs-xtra, Specialized Emacs Features},
@end iftex
@ifnottex
@xref{Change Logs and VC},
@end ifnottex
for the opposite way of working---generating ChangeLog entries from
the revision control log.
To abort a check-in, just @strong{don't} type @kbd{C-c C-c} in that
buffer. You can switch buffers and do other editing. As long as you
don't try to commit another file, the entry you were editing remains
in the @samp{*VC-Log*} buffer, and you can go back to that buffer at
any time to complete the check-in.
If you change several source files for the same reason, it is often
convenient to specify the same log entry for many of the files. (This
is the normal way to do things on a changeset-oriented system, where
comments are attached to changesets rather than the history of
individual files.) The most convenient way to do this is to mark all
the files in VC Directory Mode and commit from there; the log buffer
will carry the fileset information with it and do a group commit when
you type @kbd{C-c C-c}.
You can also browse the history of previous log entries to duplicate
a checkin comment. This can be useful when you want several files to
have checkin comments that vary only slightly from each other. The
commands @kbd{M-n}, @kbd{M-p}, @kbd{M-s} and @kbd{M-r} for doing this
work just like the minibuffer history commands (except that these
versions are used outside the minibuffer).
@vindex vc-log-mode-hook
Each time you commit a change, the log entry buffer is put into VC
Log Edit mode, which involves running two hooks: @code{text-mode-hook}
and @code{vc-log-mode-hook}. @xref{Hooks}.
@node Old Revisions
@subsection Examining And Comparing Old Revisions
One of the convenient features of version control is the ability
to examine any revision of a file, or compare two revisions.
@table @kbd
@item C-x v ~
Prompt for a revision of the current file, and visit it in a buffer of
its own (@code{vc-revision-other-window}).
@item C-x v =
Compare the files in the current fileset with the working revision(s)
you started from (@code{vc-diff}). With a prefix argument, prompt for
two revisions of the current fileset and compare them. You can call
this command from a Dired buffer (@pxref{Dired}).
@item C-x v D
Compare the entire tree corresponding to the current fileset with the
tree you started from (@code{vc-root-diff}). With a prefix argument,
prompt for two revisions and compare their trees.
@item C-x v g
Display an annotated version of the file: for each line, show the
latest revision in which it was modified (@code{vc-annotate}).
@end table
@findex vc-revision-other-window
@kindex C-x v ~
To examine an old revision, visit the work file and type @kbd{C-x v
~ @var{revision} @key{RET}} (@code{vc-revision-other-window}). Here,
@var{revision} is either the desired revision ID (@pxref{VCS
Concepts}), or the name of a tag or branch
@iftex
(@pxref{Tags,,,emacs-xtra, Specialized Emacs Features}).
@end iftex
@ifnottex
(@pxref{Tags}).
@end ifnottex
This command puts the text of the old revision in a file named
@file{@var{filename}.~@var{revision}~}, and visits it in its own
buffer in a separate window.
@findex vc-diff
@kindex C-x v =
@kbd{C-x v =} (@code{vc-diff}) compares each file in the current VC
fileset (saving them if necessary) with the repository revision(s)
from which you started editing. Note that the latter may or may not
be the latest revision of the file(s).
The diff is displayed in another window, in a Diff mode buffer
(@pxref{Diff Mode}) named @file{*vc-diff*}. In this buffer, the
@kbd{g} (@code{revert-buffer}) command performs the file comparison
again, generating a new diff.
@findex vc-diff
@kindex C-u C-x v =
To compare two arbitrary revisions of the current VC fileset, call
@code{vc-diff} with a prefix argument: @kbd{C-u C-x v =}. This
prompts for two revision IDs, using the minibuffer, and displays the
diff in a special buffer in another window. Instead of providing a
revision ID, you can give an empty input, which specifies the current
contents of the work file; or a tag or branch name
@iftex
(@pxref{Tags,,,emacs-xtra, Specialized Emacs Features}).
@end iftex
@ifnottex
(@pxref{Tags}).
@end ifnottex
If your version control system is file-based (e.g. CVS) rather than
changeset-based (Subversion, GNU Arch, git, Mercurial), supplying a
revision ID for a multi-file fileset (as opposed to a symbolic tag
name) is unlikely to return diffs that are connected in any meaningful
way.
The command @kbd{C-x v D} (@code{vc-root-diff}) is similar to
@kbd{C-x v =}, but it compares the entire tree associated with the
current VC fileset with the tree you started with. This means all the
files controlled by the current version control repository, even those
that are not part of the current VC fileset.
If you invoke @kbd{C-x v =} or @kbd{C-u C-x v =} from a buffer that
is neither visiting a version-controlled file nor a VC directory
buffer, these commands generate a diff of all registered files in the
current directory and its subdirectories.
@vindex vc-diff-switches
@vindex vc-rcs-diff-switches
@kbd{C-x v =} works by running a variant of the @code{diff} utility
designed to work with the version control system in use. The options
to pass to the @code{diff} command are taken from the first non-@code{nil}
value of @code{vc-@var{backend}-diff-switches}, @code{vc-diff-switches},
and @code{diff-switches} (@pxref{Comparing Files}), in that order.
Since @code{nil} means to check the next variable in the sequence,
either of the first two may use the value @code{t} to mean no switches at all.
Most of the @samp{vc@dots{}diff-switches} variables default to
@code{nil}, but some default to @code{t}. These are for those version
control systems (e.g. SVN) whose @code{diff} implementations do not
accept common options (e.g. @samp{-c}) likely to be in
@code{diff-switches}.
The buffer produced by @kbd{C-x v =} supports the commands of
Compilation mode (@pxref{Compilation Mode}), such as @kbd{C-x `} and
@kbd{C-c C-c}, in both the ``old'' and ``new'' text, and they always
find the corresponding locations in the current work file. (Older
revisions are not, in general, present as files on your disk.)
@findex vc-annotate
@kindex C-x v g
For some back ends, you can display the file @dfn{annotated} with
per-line revision information, by typing @kbd{C-x v g}
(@code{vc-annotate}). This creates a new buffer (the ``annotate
buffer'') displaying the file's text, with each part colored to show
how old it is. Text colored red is new, blue means old, and
intermediate colors indicate intermediate ages. By default, the color
is scaled over the full range of ages, such that the oldest changes
are blue, and the newest changes are red.
When you give a prefix argument to this command, Emacs reads two
arguments using the minibuffer: the ID of which revision to display and
annotate (instead of the current file contents), and the time span in
days the color range should cover.
From the annotate buffer, these and other color scaling options are
available from the @samp{VC-Annotate} menu. In this buffer, you can
also use the following keys to browse the annotations of past revisions,
view diffs, or view log entries:
@table @kbd
@item p
Annotate the previous revision, that is to say, the revision before
the one currently annotated. A numeric prefix argument is a repeat
count, so @kbd{C-u 10 p} would take you back 10 revisions.
@item n
Annotate the next revision---the one after the revision currently
annotated. A numeric prefix argument is a repeat count.
@item j
Annotate the revision indicated by the current line.
@item a
Annotate the revision before the one indicated by the current line.
This is useful to see the state the file was in before the change on
the current line was made.
@item f
Show in a buffer the file revision indicated by the current line.
@item d
Display the diff between the current line's revision and the previous
revision. This is useful to see what the current line's revision
actually changed in the file.
@item D
Display the diff between the current line's revision and the previous
revision for all files in the changeset (for VC systems that support
changesets). This is useful to see what the current line's revision
actually changed in the tree.
@item l
Show the log of the current line's revision. This is useful to see
the author's description of the changes in the revision on the current
line.
@item w
Annotate the working revision--the one you are editing. If you used
@kbd{p} and @kbd{n} to browse to other revisions, use this key to
return to your working revision.
@item v
Toggle the annotation visibility. This is useful for looking just at
the file contents without distraction from the annotations.
@end table
@node Secondary VC Commands
@subsection The Secondary Commands of VC
This section explains the secondary commands of VC.
@menu
* Registering:: Putting a file under version control.
* VC Change Log:: Viewing the VC Change Log.
* VC Undo:: Canceling changes before or after check-in.
@end menu
@node Registering
@subsubsection Registering a File for Version Control
@kindex C-x v i
@findex vc-register
You can put any file under version control by simply visiting it, and
then typing @w{@kbd{C-x v i}} (@code{vc-register}).
@table @kbd
@item C-x v i
Register the visited file for version control.
@end table
To register the file, Emacs must choose which version control system
to use for it. If the file's directory already contains files
registered in a version control system, Emacs uses that system. If
there is more than one system in use for a directory, Emacs uses the
one that appears first in @code{vc-handled-backends}
@iftex
(@pxref{Customizing VC,,,emacs-xtra, Specialized Emacs Features}).
@end iftex
@ifnottex
(@pxref{Customizing VC}).
@end ifnottex
On the other hand, if there are no files already registered, Emacs uses
the first system from @code{vc-handled-backends} that could register
the file (for example, you cannot register a file under CVS if its
directory is not already part of a CVS tree); with the default value
of @code{vc-handled-backends}, this means that Emacs uses RCS in this
situation.
If locking is in use, @kbd{C-x v i} leaves the file unlocked and
read-only. Type @kbd{C-x v v} if you wish to start editing it. After
registering a file with CVS, you must subsequently commit the initial
revision by typing @kbd{C-x v v}. Until you do that, the revision ID
appears as @samp{@@@@} in the mode line.
@vindex vc-default-init-revision
@cindex initial revision ID to register
The default initial revision ID for a newly registered file
varies by what VCS you are using; normally it will be 1.1 on VCSes
that use dot-pair revision IDs and 1 on VCSes that use monotonic IDs.
You can specify a different default by setting the variable
@code{vc-default-init-revision}, or you can give @kbd{C-x v i} a
numeric argument; then it reads the initial revision ID for this
particular file using the minibuffer.
@vindex vc-initial-comment
If @code{vc-initial-comment} is non-@code{nil}, @kbd{C-x v i} reads an
initial comment to describe the purpose of this source file. Reading
the initial comment works like reading a log entry (@pxref{Log Buffer}).
@node VC Change Log
@subsubsection VC Change Log
@table @kbd
@item C-x v l
Display revision control state and change history
(@code{vc-print-log}).
@item C-x v L
Display the change history for the current repository
(@code{vc-print-root-log}).
@end table
@kindex C-x v l
@findex vc-print-log
The command @kbd{C-x v l} (@code{vc-print-log}) displays a buffer
named @samp{*vc-change-log*} in a new window. This buffer lists the
changes to the current file, including the associated log entries.
(These are the log entries associated with the version control system,
i.e. the ones you enter via the @samp{*VC-Log*} buffer. @xref{Log
Buffer}.) Point is centered at the revision of the file currently
being visited. With a prefix argument, the command prompts for the
revision to center on, and the maximum number of revisions to display.
You can call this command from a Dired buffer (@pxref{Dired}).
@findex vc-print-root-log
Type @kbd{C-x v L} (@code{vc-print-root-log}) to display a
@samp{*vc-change-log*} buffer showing the history of the
version-controlled directory tree as a whole. With a prefix argument,
the command prompts for the maximum number of revisions to display.
RCS, SCCS, and CVS do not support this feature.
In the @samp{*vc-change-log*} buffer, you can use the following keys
to move between the logs of revisions and of files, to view past
revisions, to modify change comments, to view annotations and to view
diffs:
@table @kbd
@item p
Move to the previous revision-item in the buffer. (Revision entries in the log
buffer are usually in reverse-chronological order, so the previous
revision-item usually corresponds to a newer revision.) A numeric
prefix argument is a repeat count.
@item n
Move to the next revision-item (which most often corresponds to the
previous revision of the file). A numeric prefix argument is a repeat
count.
@item P
Move to the log of the previous file, when the logs of multiple files
are in the log buffer (@pxref{VC Directory Mode}). Otherwise, just
move to the beginning of the log. A numeric prefix argument is a
repeat count, so @kbd{C-u 10 P} would move backward 10 files.
@item N
Move to the log of the next file, when the logs of multiple files are
in the log buffer (@pxref{VC Directory Mode}). It also takes a
numeric prefix argument as a repeat count.
@item a
Annotate the revision indicated by the current line.
@item e
Modify the change comment displayed at point. Note that not all VC
systems support modifying change comments.
@item f
Visit the revision indicated at the current line, like typing @kbd{C-x
v ~} and specifying this revision's ID (@pxref{Old Revisions}).
@item d
Display the diff (@pxref{Comparing Files}) between the revision
indicated at the current line and the next earlier revision. This is
useful to see what actually changed in the file when the revision
indicated on the current line was committed.
@item D
Display the changeset diff (@pxref{Comparing Files}) between the
revision indicated at the current line and the next earlier revision.
This is useful to see all the changes to all files that the revision
indicated on the current line did when it was committed.
@end table
@vindex vc-log-show-limit
Because fetching many log entries can be slow, the
@samp{*vc-change-log*} buffer displays no more than 2000 revisions by
default. The variable @code{vc-log-show-limit} specifies this limit;
if you set the value to zero, that removes the limit. You can also
increase the number of revisions shown in an existing
@samp{*vc-change-log*} buffer by clicking on the @samp{Show 2X
entries} or @samp{Show unlimited entries} buttons at the end of the
buffer. However, RCS, SCCS, and CVS do not support this feature.
@node VC Undo
@subsubsection Undoing Version Control Actions
@table @kbd
@item C-x v u
Revert the buffer and the file to the working revision from which you started
editing the file.
@item C-x v c
Remove the last-entered change from the master for the visited file.
This undoes your last check-in.
@end table
@kindex C-x v u
@findex vc-revert-buffer
If you want to discard your current set of changes and revert to the
working revision from which you started editing the file, use @kbd{C-x
v u} (@code{vc-revert-buffer}). If the version control system is
locking-based, this leaves the file unlocked, and you must lock it
again before making new changes. @kbd{C-x v u} requires confirmation,
unless it sees that you haven't made any changes with respect to the
master copy of the working revision.
@kbd{C-x v u} is also the command to unlock a file if you lock it and
then decide not to change it.
@kindex C-x v c
@findex vc-rollback
To cancel a change that you already committed, use @kbd{C-x v c}
(@code{vc-rollback}). This command discards all record of the most
recent checked-in revision, but only if your work file corresponds to
that revision---you cannot use @kbd{C-x v c} to cancel a revision that
is not the latest on its branch. Note that many version control
systems do not support rollback at all; this command is something of a
historical relic.
@node VC Directory Mode
@subsection VC Directory Mode
@kindex C-x v d
@findex vc-dir
When you are working on a large program, it is often useful to find
out which files have changed within an entire directory tree, or to
view the status of all files under version control at once, and to
perform version control operations on collections of files. You can
use the command @kbd{C-x v d} (@code{vc-dir}) to make a directory
listing that includes only files relevant for version control. This
creates a @dfn{VC Directory buffer} and displays it in a separate
window.
@cindex PCL-CVS
@pindex cvs
@cindex CVS directory mode
The VC Directory buffer works with all the version control systems
that VC supports. For CVS, Emacs also offers a more powerful facility
called PCL-CVS. @xref{Top, , About PCL-CVS, pcl-cvs, PCL-CVS --- The
Emacs Front-End to CVS}.
@menu
* Buffer: VC Directory Buffer. What the buffer looks like and means.
* Commands: VC Directory Commands. Commands to use in a VC directory buffer.
@end menu
@node VC Directory Buffer
@subsubsection The VC Directory Buffer
The VC Directory buffer contains a list of version-controlled files
in the current directory and its subdirectories. Files which are
up-to-date (have no local differences from the repository copy) are
usually hidden; if all files in a subdirectory are up-to-date, the
subdirectory is hidden as well. There is an exception to this rule:
if VC mode detects that a file has changed to an up-to-date state
since you last looked at it, that file and its state are shown.
If a directory uses more that one version control system, you can
select which system to use for the @code{vc-dir} command by invoking
@code{vc-dir} with a prefix argument: @kbd{C-u C-x v d}.
The line for an individual file shows the version control state of
the file. Under RCS and SCCS, the name of the user locking the file
is shown; under CVS, an abbreviated version of the @samp{cvs status}
output is used. Here is an example using CVS:
@smallexample
@group
./
modified file1.c
needs-update file2.c
needs-merge file3.c
@end group
@end smallexample
@noindent
In this example, @samp{file1.c} is modified with respect to the
repository, and @samp{file2.c} is not. @samp{file3.c} is modified,
but other changes have also been committed---you need to merge them
with the work file before you can check it in.
@vindex vc-stay-local
@vindex vc-cvs-stay-local
In the above, if the repository were on a remote machine, VC only
contacts it when the variable @code{vc-stay-local} (or
@code{vc-cvs-stay-local}) is @code{nil}
@iftex
(@pxref{CVS Options,,,emacs-xtra, Specialized Emacs Features}).
@end iftex
@ifnottex
(@pxref{CVS Options}).
@end ifnottex
This is because access to the repository may be slow, or you may be
working offline and not have access to the repository at all. As a
consequence, VC would not be able to tell you that @samp{file3.c} is
in the ``merge'' state; you would learn that only when you try to
check-in your modified copy of the file, or use a command such as
@kbd{C-x v m}.
In practice, this is not a problem because CVS handles this case
consistently whenever it arises. In VC, you'll simply get prompted to
merge the remote changes into your work file first. The benefits of
less network communication usually outweigh the disadvantage of not
seeing remote changes immediately.
@vindex vc-directory-exclusion-list
When a VC directory displays subdirectories it omits some that
should never contain any files under version control. By default,
this includes Version Control subdirectories such as @samp{RCS} and
@samp{CVS}; you can customize this by setting the variable
@code{vc-directory-exclusion-list}.
@node VC Directory Commands
@subsubsection VC Directory Commands
VC Directory mode has a full set of navigation and marking commands
for picking out filesets. Some of these are also available in a
context menu invoked by @kbd{mouse-2}.
Up- and down-arrow keys move in the buffer; @kbd{n} and @kbd{p} also
move vertically as in other list-browsing modes. @key{SPC} and
@key{TAB} behave like down-arrow, and @key{BackTab} behaves like
up-arrow.
Both @kbd{C-m} and @kbd{f} visit the file on the current
line. @kbd{o} visits that file in another window. @kbd{q} dismisses
the directory buffer.
@kbd{x} hides up-to-date files.
@kbd{m} marks the file or directory on the current line. If the
region is active, @kbd{m} marks all the files in the region. There
are some restrictions when marking: a file cannot be marked if any of
its parent directories are marked, and a directory cannot be marked if
any files in it or in its child directories are marked.
@kbd{M} marks all the files with the same VC state as the current
file if the cursor is on a file. If the cursor is on a directory, it
marks all child files. With a prefix argument: marks all files and
directories.
@kbd{u} unmarks the file or directory on the current line. If the
region is active, it unmarks all the files in the region.
@kbd{U} marks all the files with the same VC state as the current file
if the cursor is on a file. If the cursor is on a directory, it
unmarks all child files. With a prefix argument: unmarks all marked
files and directories.
It is possible to do search, search and replace, incremental search,
and incremental regexp search on multiple files. These commands will
work on all the marked files or the current file if nothing is marked.
If a directory is marked, the files in that directory shown in the VC
directory buffer will be used.
@kbd{S} searches the marked files.
@kbd{Q} does a query replace on the marked files.
@kbd{M-s a C-s} does an incremental search on the marked files.
@kbd{M-s a C-M-s} does an incremental regular expression search
on the marked files.
@cindex stashes in version control
@cindex shelves in version control
Commands are also accessible from the VC-dir menu. Note that some
VC backends use the VC-dir menu to make available extra,
backend-specific, commands. For example, Git and Bazaar allow you to
manipulate @dfn{stashes} and @dfn{shelves}. (These provide a
mechanism to temporarily store uncommitted changes somewhere out of
the way, and bring them back at a later time.)
Normal VC commands with the @kbd{C-x v} prefix work in VC directory
buffers. Some single-key shortcuts are available as well; @kbd{=},
@kbd{+}, @kbd{l}, @kbd{i}, and @kbd{v} behave as through prefixed with
@kbd{C-x v}.
The command @kbd{C-x v v} (@code{vc-next-action}) operates on all
the marked files, so that you can commit several files at once. If
the underlying VC supports atomic commits of multiple-file changesets,
@kbd{C-x v v} with a selected set of modified but not committed files
will commit all of them at once as a single changeset.
When @kbd{C-x v v} (@code{vc-next-action}) operates on multiple
files, all of those files must be either in the same state or in
compatible states (added, modified and removed states are considered
compatible). Otherwise it signals an error. This differs from the
behavior of older versions of VC, which did not have fileset
operations and simply did @code{vc-next-action} on each file
individually.
If any files are in a state that calls for commit, @kbd{C-x v v} reads a
single log entry and uses it for the changeset as a whole. If the
underling VCS is file- rather than changeset-oriented, the log entry
will be replicated into the history of each file.
@node Branches
@subsection Multiple Branches of a File
@cindex branch (version control)
@cindex trunk (version control)
One use of version control is to maintain multiple ``current''
revisions of a file. For example, you might have different revisions of a
program in which you are gradually adding various unfinished new
features. Each such independent line of development is called a
@dfn{branch}. VC allows you to create branches, switch between
different branches, and merge changes from one branch to another.
Please note, however, that branches are not supported for SCCS.
A file's main line of development is usually called the @dfn{trunk}.
You can create multiple branches from the trunk. How the difference
between trunk and branch is made visible is dependent on whether the
VCS uses dot-pair or monotonic version IDs.
In VCSes with dot-pair revision IDs, the revisions on the trunk are
normally IDed 1.1, 1.2, 1.3, etc. At any such revision, you can
start an independent branch. A branch starting at revision 1.2 would
have revision ID 1.2.1.1, and consecutive revisions on this branch
would have IDs 1.2.1.2, 1.2.1.3, 1.2.1.4, and so on. If there is
a second branch also starting at revision 1.2, it would consist of
revisions 1.2.2.1, 1.2.2.2, 1.2.2.3, etc.
In VCSes with monotonic revision IDs, trunk revisions are IDed as
1, 2, 3, etc. A branch from (say) revision 2 might start with 2.1 and
continue through 2.2, 2.3, etc. But naming conventions for branches
and subbranches vary widely on these systems, and some (like
Mercurial) never depart from the monotonic integer sequence at all.
Consult the documentation of the VCS you are using.
@cindex head revision
If you omit the final component of a dot-pair revision ID, that is called a
@dfn{branch ID}. It refers to the highest existing revision on that
branch---the @dfn{head revision} of that branch. The branches in the
dot-pair example above have branch IDs 1.2.1 and 1.2.2.
@menu
* Switching Branches:: How to get to another existing branch.
* Creating Branches:: How to start a new branch.
* Merging:: Transferring changes between branches.
* Multi-User Branching:: Multiple users working at multiple branches
in parallel.
@end menu
@node Switching Branches
@subsubsection Switching between Branches
To switch between branches, type @kbd{C-u C-x v v} and specify the
revision ID you want to select. On a locking-based system, this
version is then visited @emph{unlocked} (write-protected), so you can
examine it before locking it. Switching branches in this way is allowed
only when the file is not locked.
On a VCS with dot-pair IDs, you can omit the minor part, thus giving
only the branch ID; this takes you to the head version on the
chosen branch. If you only type @key{RET}, Emacs goes to the highest
version on the trunk.
After you have switched to any branch (including the main branch), you
stay on it for subsequent VC commands, until you explicitly select some
other branch.
@node Creating Branches
@subsubsection Creating New Branches
To create a new branch from a head revision (one that is the latest
in the branch that contains it), first select that revision if
necessary, lock it with @kbd{C-x v v}, and make whatever changes you
want. Then, when you commit the changes, use @kbd{C-u C-x v v}. This
lets you specify the revision ID for the new revision. You should
specify a suitable branch ID for a branch starting at the current
revision. For example, if the current revision is 2.5, the branch ID
should be 2.5.1, 2.5.2, and so on, depending on the number of existing
branches at that point.
To create a new branch at an older revision (one that is no longer the
head of a branch), first select that revision (@pxref{Switching
Branches}). Your procedure will then differ depending on whether you
are using a locking or merging-based VCS.
On a locking VCS, you will need to lock the old revision branch with
@kbd{C-x v v}. You'll be asked to confirm, when you lock the old
revision, that you really mean to create a new branch---if you say no,
you'll be offered a chance to lock the latest revision instead. On
a merging-based VCS you will skip this step.
Then make your changes and type @kbd{C-x v v} again to commit a new
revision. This automatically creates a new branch starting from the
selected revision. You need not specially request a new branch,
because that's the only way to add a new revision at a point that is
not the head of a branch.
After the branch is created, you ``stay'' on it. That means that
subsequent check-ins create new revisions on that branch. To leave the
branch, you must explicitly select a different revision with @kbd{C-u C-x
v v}. To transfer changes from one branch to another, use the merge
command, described in the next section.
@node Merging
@subsubsection Merging Branches
@cindex merging changes
When you have finished the changes on a certain branch, you will
often want to incorporate them into the file's main line of development
(the trunk). This is not a trivial operation, because development might
also have proceeded on the trunk, so that you must @dfn{merge} the
changes into a file that has already been changed otherwise. VC allows
you to do this (and other things) with the @code{vc-merge} command.
@table @kbd
@item C-x v m (vc-merge)
Merge changes into the work file.
@end table
@kindex C-x v m
@findex vc-merge
@kbd{C-x v m} (@code{vc-merge}) takes a set of changes and merges it
into the current version of the work file. It firsts asks you in the
minibuffer where the changes should come from. If you just type
@key{RET}, Emacs merges any changes that were made on the same branch
since you checked the file out (we call this @dfn{merging the news}).
This is the common way to pick up recent changes from the repository,
regardless of whether you have already changed the file yourself.
You can also enter a branch ID or a pair of revision IDs in
the minibuffer. Then @kbd{C-x v m} finds the changes from that
branch, or the differences between the two revisions you specified, and
merges them into the current revision of the current file.
As an example, suppose that you have finished a certain feature on
branch 1.3.1. In the meantime, development on the trunk has proceeded
to revision 1.5. To merge the changes from the branch to the trunk,
first go to the head revision of the trunk, by typing @kbd{C-u C-x v v
@key{RET}}. Revision 1.5 is now current. If locking is used for the file,
type @kbd{C-x v v} to lock revision 1.5 so that you can change it. Next,
type @kbd{C-x v m 1.3.1 @key{RET}}. This takes the entire set of changes on
branch 1.3.1 (relative to revision 1.3, where the branch started, up to
the last revision on the branch) and merges it into the current revision
of the work file. You can now commit the changed file, thus creating
revision 1.6 containing the changes from the branch.
It is possible to do further editing after merging the branch, before
the next check-in. But it is usually wiser to commit the merged
revision, then lock it and make the further changes. This will keep
a better record of the history of changes.
@cindex conflicts
@cindex resolving conflicts
When you merge changes into a file that has itself been modified, the
changes might overlap. We call this situation a @dfn{conflict}, and
reconciling the conflicting changes is called @dfn{resolving a
conflict}.
Whenever conflicts occur during merging, VC detects them, tells you
about them in the echo area, and asks whether you want help in merging.
If you say yes, it starts an Ediff session (@pxref{Top,
Ediff, Ediff, ediff, The Ediff Manual}).
If you say no, the conflicting changes are both inserted into the
file, surrounded by @dfn{conflict markers}. The example below shows how
a conflict region looks; the file is called @samp{name} and the current
master file revision with user B's changes in it is 1.11.
@c @w here is so CVS won't think this is a conflict.
@smallexample
@group
@w{<}<<<<<< name
@var{User A's version}
=======
@var{User B's version}
@w{>}>>>>>> 1.11
@end group
@end smallexample
@cindex vc-resolve-conflicts
Then you can resolve the conflicts by editing the file manually. Or
you can type @code{M-x vc-resolve-conflicts} after visiting the file.
This starts an Ediff session, as described above. Don't forget to
commit the merged version afterwards.
@node Multi-User Branching
@subsubsection Multi-User Branching
It is often useful for multiple developers to work simultaneously on
different branches of a file. CVS and later systems allow this by
default; for RCS, it is possible if you create multiple source
directories. Each source directory should have a link named
@file{RCS} which points to a common directory of RCS master files.
Then each source directory can have its own choice of selected
revisions, but all share the same common RCS records.
This technique works reliably and automatically, provided that the
source files contain RCS version headers
@iftex
(@pxref{Version Headers,,,emacs-xtra, Specialized Emacs Features}).
@end iftex
@ifnottex
(@pxref{Version Headers}).
@end ifnottex
The headers enable Emacs to be sure, at all times, which revision
ID is present in the work file.
If the files do not have version headers, you must instead tell Emacs
explicitly in each session which branch you are working on. To do this,
first find the file, then type @kbd{C-u C-x v v} and specify the correct
branch ID. This ensures that Emacs knows which branch it is using
during this particular editing session.
@ifnottex
@include vc1-xtra.texi
@end ifnottex
@node Change Log
@section Change Logs
@cindex change log
A change log file contains a chronological record of when and why you
have changed a program, consisting of a sequence of entries describing
individual changes. Normally it is kept in a file called
@file{ChangeLog} in the same directory as the file you are editing, or
one of its parent directories. A single @file{ChangeLog} file can
record changes for all the files in its directory and all its
subdirectories.
@menu
* Change Log Commands:: Commands for editing change log files.
* Format of ChangeLog:: What the change log file looks like.
@end menu
@node Change Log Commands
@subsection Change Log Commands
@kindex C-x 4 a
@findex add-change-log-entry-other-window
The Emacs command @kbd{C-x 4 a} adds a new entry to the change log
file for the file you are editing
(@code{add-change-log-entry-other-window}). If that file is actually
a backup file, it makes an entry appropriate for the file's
parent---that is useful for making log entries for functions that
have been deleted in the current version.
@kbd{C-x 4 a} visits the change log file and creates a new entry
unless the most recent entry is for today's date and your name. It
also creates a new item for the current file. For many languages, it
can even guess the name of the function or other object that was
changed.
@vindex add-log-keep-changes-together
When the variable @code{add-log-keep-changes-together} is
non-@code{nil}, @kbd{C-x 4 a} adds to any existing item for the file
rather than starting a new item.
@vindex add-log-always-start-new-record
If @code{add-log-always-start-new-record} is non-@code{nil},
@kbd{C-x 4 a} always makes a new entry, even if the last entry
was made by you and on the same date.
@vindex change-log-version-info-enabled
@vindex change-log-version-number-regexp-list
@cindex file version in change log entries
If the value of the variable @code{change-log-version-info-enabled}
is non-@code{nil}, @kbd{C-x 4 a} adds the file's version number to the
change log entry. It finds the version number by searching the first
ten percent of the file, using regular expressions from the variable
@code{change-log-version-number-regexp-list}.
@cindex Change Log mode
@findex change-log-mode
The change log file is visited in Change Log mode. In this major
mode, each bunch of grouped items counts as one paragraph, and each
entry is considered a page. This facilitates editing the entries.
@kbd{C-j} and auto-fill indent each new line like the previous line;
this is convenient for entering the contents of an entry.
You can use the @code{next-error} command (by default bound to
@kbd{C-x `}) to move between entries in the Change Log, when Change
Log mode is on. You will jump to the actual site in the file that was
changed, not just to the next Change Log entry. You can also use
@code{previous-error} to move back in the same list.
@findex change-log-merge
You can use the command @kbd{M-x change-log-merge} to merge other
log files into a buffer in Change Log Mode, preserving the date
ordering of entries.
Version control systems are another way to keep track of changes in
your program and keep a change log. In the VC log buffer, typing
@kbd{C-c C-a} (@code{log-edit-insert-changelog}) inserts the relevant
Change Log entry, if one exists (@pxref{Log Buffer}). You can also
insert a VC log entry into a Change Log buffer by typing @kbd{C-x v a}
(@code{vc-update-change-log}) in the Change Log buffer
@iftex
(@pxref{Change Logs and VC,,,emacs-xtra, Specialized Emacs Features}).
@end iftex
@ifnottex
(@pxref{Change Logs and VC}).
@end ifnottex
@node Format of ChangeLog
@subsection Format of ChangeLog
A change log entry starts with a header line that contains the current
date, your name, and your email address (taken from the variable
@code{add-log-mailing-address}). Aside from these header lines, every
line in the change log starts with a space or a tab. The bulk of the
entry consists of @dfn{items}, each of which starts with a line starting
with whitespace and a star. Here are two entries, both dated in May
1993, with two items and one item respectively.
@iftex
@medbreak
@end iftex
@smallexample
1993-05-25 Richard Stallman <rms@@gnu.org>
* man.el: Rename symbols `man-*' to `Man-*'.
(manual-entry): Make prompt string clearer.
* simple.el (blink-matching-paren-distance):
Change default to 12,000.
1993-05-24 Richard Stallman <rms@@gnu.org>
* vc.el (minor-mode-map-alist): Don't use it if it's void.
(vc-cancel-version): Doc fix.
@end smallexample
One entry can describe several changes; each change should have its
own item, or its own line in an item. Normally there should be a
blank line between items. When items are related (parts of the same
change, in different places), group them by leaving no blank line
between them.
You should put a copyright notice and permission notice at the
end of the change log file. Here is an example:
@smallexample
Copyright 1997, 1998 Free Software Foundation, Inc.
Copying and distribution of this file, with or without modification, are
permitted provided the copyright notice and this notice are preserved.
@end smallexample
@noindent
Of course, you should substitute the proper years and copyright holder.
@node Tags
@section Tags Tables
@cindex tags and tag tables
A @dfn{tag} is a reference to a subunit in a program or in a
document. In program source code, tags reference syntactic elements
of the program: functions, subroutines, data types, macros, etc. In a
document, tags reference chapters, sections, appendices, etc. Each
tag specifies the name of the file where the corresponding subunit is
defined, and the position of the subunit's definition in that file.
A @dfn{tags table} records the tags extracted by scanning the source
code of a certain program or a certain document. Tags extracted from
generated files reference the original files, rather than the
generated files that were scanned during tag extraction. Examples of
generated files include C files generated from Cweb source files, from
a Yacc parser, or from Lex scanner definitions; @file{.i} preprocessed
C files; and Fortran files produced by preprocessing @file{.fpp}
source files.
To produce a tags table, you use the @samp{etags} command,
submitting it a document or the source code of a program.
@samp{etags} writes the tags to a @dfn{tags table file}, or @dfn{tags
file} in short. The conventional name for a tags file is @file{TAGS}.
Emacs uses the information recorded in tags tables in commands that
search or replace through multiple source files: these commands use
the names of the source files recorded in the tags table to know which
files to search. Other commands, such as @kbd{M-.}, which finds the
definition of a function, use the recorded information about the
function names and positions to find the source file and the position
within that file where the function is defined.
@cindex C++ class browser, tags
@cindex tags, C++
@cindex class browser, C++
@cindex Ebrowse
See also the Ebrowse facility, which is tailored for C++.
@xref{Top,, Ebrowse, ebrowse, Ebrowse User's Manual}.
@menu
* Tag Syntax:: Tag syntax for various types of code and text files.
* Create Tags Table:: Creating a tags table with @code{etags}.
* Etags Regexps:: Create arbitrary tags using regular expressions.
* Select Tags Table:: How to visit a tags table.
* Find Tag:: Commands to find the definition of a specific tag.
* Tags Search:: Using a tags table for searching and replacing.
* List Tags:: Listing and finding tags defined in a file.
@end menu
@node Tag Syntax
@subsection Source File Tag Syntax
Here is how tag syntax is defined for the most popular languages:
@itemize @bullet
@item
In C code, any C function or typedef is a tag, and so are definitions of
@code{struct}, @code{union} and @code{enum}.
@code{#define} macro definitions, @code{#undef} and @code{enum}
constants are also
tags, unless you specify @samp{--no-defines} when making the tags table.
Similarly, global variables are tags, unless you specify
@samp{--no-globals}, and so are struct members, unless you specify
@samp{--no-members}. Use of @samp{--no-globals}, @samp{--no-defines}
and @samp{--no-members} can make the tags table file much smaller.
You can tag function declarations and external variables in addition
to function definitions by giving the @samp{--declarations} option to
@code{etags}.
@item
In C++ code, in addition to all the tag constructs of C code, member
functions are also recognized; member variables are also recognized,
unless you use the @samp{--no-members} option. Tags for variables and
functions in classes are named @samp{@var{class}::@var{variable}} and
@samp{@var{class}::@var{function}}. @code{operator} definitions have
tag names like @samp{operator+}.
@item
In Java code, tags include all the constructs recognized in C++, plus
the @code{interface}, @code{extends} and @code{implements} constructs.
Tags for variables and functions in classes are named
@samp{@var{class}.@var{variable}} and @samp{@var{class}.@var{function}}.
@item
In La@TeX{} text, the argument of any of the commands @code{\chapter},
@code{\section}, @code{\subsection}, @code{\subsubsection},
@code{\eqno}, @code{\label}, @code{\ref}, @code{\cite},
@code{\bibitem}, @code{\part}, @code{\appendix}, @code{\entry},
@code{\index}, @code{\def}, @code{\newcommand}, @code{\renewcommand},
@code{\newenvironment} or @code{\renewenvironment} is a tag.@refill
Other commands can make tags as well, if you specify them in the
environment variable @env{TEXTAGS} before invoking @code{etags}. The
value of this environment variable should be a colon-separated list of
command names. For example,
@example
TEXTAGS="mycommand:myothercommand"
export TEXTAGS
@end example
@noindent
specifies (using Bourne shell syntax) that the commands
@samp{\mycommand} and @samp{\myothercommand} also define tags.
@item
In Lisp code, any function defined with @code{defun}, any variable
defined with @code{defvar} or @code{defconst}, and in general the first
argument of any expression that starts with @samp{(def} in column zero is
a tag.
@item
In Scheme code, tags include anything defined with @code{def} or with a
construct whose name starts with @samp{def}. They also include variables
set with @code{set!} at top level in the file.
@end itemize
Several other languages are also supported:
@itemize @bullet
@item
In Ada code, functions, procedures, packages, tasks and types are
tags. Use the @samp{--packages-only} option to create tags for
packages only.
In Ada, the same name can be used for different kinds of entity
(e.g.@:, for a procedure and for a function). Also, for things like
packages, procedures and functions, there is the spec (i.e.@: the
interface) and the body (i.e.@: the implementation). To make it
easier to pick the definition you want, Ada tag name have suffixes
indicating the type of entity:
@table @samp
@item /b
package body.
@item /f
function.
@item /k
task.
@item /p
procedure.
@item /s
package spec.
@item /t
type.
@end table
Thus, @kbd{M-x find-tag @key{RET} bidule/b @key{RET}} will go
directly to the body of the package @code{bidule}, while @kbd{M-x
find-tag @key{RET} bidule @key{RET}} will just search for any tag
@code{bidule}.
@item
In assembler code, labels appearing at the beginning of a line,
followed by a colon, are tags.
@item
In Bison or Yacc input files, each rule defines as a tag the nonterminal
it constructs. The portions of the file that contain C code are parsed
as C code.
@item
In Cobol code, tags are paragraph names; that is, any word starting in
column 8 and followed by a period.
@item
In Erlang code, the tags are the functions, records and macros defined
in the file.
@item
In Fortran code, functions, subroutines and block data are tags.
@item
In HTML input files, the tags are the @code{title} and the @code{h1},
@code{h2}, @code{h3} headers. Also, tags are @code{name=} in anchors
and all occurrences of @code{id=}.
@item
In Lua input files, all functions are tags.
@item
In makefiles, targets are tags; additionally, variables are tags
unless you specify @samp{--no-globals}.
@item
In Objective C code, tags include Objective C definitions for classes,
class categories, methods and protocols. Tags for variables and
functions in classes are named @samp{@var{class}::@var{variable}} and
@samp{@var{class}::@var{function}}.
@item
In Pascal code, the tags are the functions and procedures defined in
the file.
@item
In Perl code, the tags are the packages, subroutines and variables
defined by the @code{package}, @code{sub}, @code{my} and @code{local}
keywords. Use @samp{--globals} if you want to tag global variables.
Tags for subroutines are named @samp{@var{package}::@var{sub}}. The
name for subroutines defined in the default package is
@samp{main::@var{sub}}.
@item
In PHP code, tags are functions, classes and defines. Vars are tags
too, unless you use the @samp{--no-members} option.
@item
In PostScript code, the tags are the functions.
@item
In Prolog code, tags are predicates and rules at the beginning of
line.
@item
In Python code, @code{def} or @code{class} at the beginning of a line
generate a tag.
@end itemize
You can also generate tags based on regexp matching (@pxref{Etags
Regexps}) to handle other formats and languages.
@node Create Tags Table
@subsection Creating Tags Tables
@cindex @code{etags} program
The @code{etags} program is used to create a tags table file. It knows
the syntax of several languages, as described in
@iftex
the previous section.
@end iftex
@ifnottex
@ref{Tag Syntax}.
@end ifnottex
Here is how to run @code{etags}:
@example
etags @var{inputfiles}@dots{}
@end example
@noindent
The @code{etags} program reads the specified files, and writes a tags
table named @file{TAGS} in the current working directory. You can
optionally specify a different file name for the tags table by using the
@samp{--output=@var{file}} option; specifying @file{-} as a file name
prints the tags table to standard output.
If the specified files don't exist, @code{etags} looks for
compressed versions of them and uncompresses them to read them. Under
MS-DOS, @code{etags} also looks for file names like @file{mycode.cgz}
if it is given @samp{mycode.c} on the command line and @file{mycode.c}
does not exist.
@code{etags} recognizes the language used in an input file based on
its file name and contents. You can specify the language with the
@samp{--language=@var{name}} option, described below.
If the tags table data become outdated due to changes in the files
described in the table, the way to update the tags table is the same
way it was made in the first place. If the tags table fails to record
a tag, or records it for the wrong file, then Emacs cannot possibly
find its definition until you update the tags table. However, if the
position recorded in the tags table becomes a little bit wrong (due to
other editing), the worst consequence is a slight delay in finding the
tag. Even if the stored position is very far wrong, Emacs will still
find the tag, after searching most of the file for it. That delay is
hardly noticeable with today's computers.
Thus, there is no need to update the tags table after each edit.
You should update a tags table when you define new tags that you want
to have listed, or when you move tag definitions from one file to
another, or when changes become substantial.
One tags table can virtually include another. Specify the included
tags file name with the @samp{--include=@var{file}} option when
creating the file that is to include it. The latter file then acts as
if it covered all the source files specified in the included file, as
well as the files it directly contains.
If you specify the source files with relative file names when you run
@code{etags}, the tags file will contain file names relative to the
directory where the tags file was initially written. This way, you can
move an entire directory tree containing both the tags file and the
source files, and the tags file will still refer correctly to the source
files. If the tags file is @file{-} or is in the @file{/dev} directory,
however, the file names are
made relative to the current working directory. This is useful, for
example, when writing the tags to @file{/dev/stdout}.
When using a relative file name, it should not be a symbolic link
pointing to a tags file in a different directory, because this would
generally render the file names invalid.
If you specify absolute file names as arguments to @code{etags}, then
the tags file will contain absolute file names. This way, the tags file
will still refer to the same files even if you move it, as long as the
source files remain in the same place. Absolute file names start with
@samp{/}, or with @samp{@var{device}:/} on MS-DOS and MS-Windows.
When you want to make a tags table from a great number of files, you
may have problems listing them on the command line, because some systems
have a limit on its length. The simplest way to circumvent this limit
is to tell @code{etags} to read the file names from its standard input,
by typing a dash in place of the file names, like this:
@smallexample
find . -name "*.[chCH]" -print | etags -
@end smallexample
Use the option @samp{--language=@var{name}} to specify the language
explicitly. You can intermix these options with file names; each one
applies to the file names that follow it. Specify
@samp{--language=auto} to tell @code{etags} to resume guessing the
language from the file names and file contents. Specify
@samp{--language=none} to turn off language-specific processing
entirely; then @code{etags} recognizes tags by regexp matching alone
(@pxref{Etags Regexps}).
The option @samp{--parse-stdin=@var{file}} is mostly useful when
calling @code{etags} from programs. It can be used (only once) in
place of a file name on the command line. @code{Etags} will read from
standard input and mark the produced tags as belonging to the file
@var{file}.
@samp{etags --help} outputs the list of the languages @code{etags}
knows, and the file name rules for guessing the language. It also prints
a list of all the available @code{etags} options, together with a short
explanation. If followed by one or more @samp{--language=@var{lang}}
options, it outputs detailed information about how tags are generated for
@var{lang}.
@node Etags Regexps
@subsection Etags Regexps
The @samp{--regex} option provides a general way of recognizing tags
based on regexp matching. You can freely intermix this option with
file names, and each one applies to the source files that follow it.
If you specify multiple @samp{--regex} options, all of them are used
in parallel. The syntax is:
@smallexample
--regex=[@var{@{language@}}]/@var{tagregexp}/[@var{nameregexp}/]@var{modifiers}
@end smallexample
The essential part of the option value is @var{tagregexp}, the
regexp for matching tags. It is always used anchored, that is, it
only matches at the beginning of a line. If you want to allow
indented tags, use a regexp that matches initial whitespace; start it
with @samp{[ \t]*}.
In these regular expressions, @samp{\} quotes the next character, and
all the GCC character escape sequences are supported (@samp{\a} for
bell, @samp{\b} for back space, @samp{\d} for delete, @samp{\e} for
escape, @samp{\f} for formfeed, @samp{\n} for newline, @samp{\r} for
carriage return, @samp{\t} for tab, and @samp{\v} for vertical tab).
Ideally, @var{tagregexp} should not match more characters than are
needed to recognize what you want to tag. If the syntax requires you
to write @var{tagregexp} so it matches more characters beyond the tag
itself, you should add a @var{nameregexp}, to pick out just the tag.
This will enable Emacs to find tags more accurately and to do
completion on tag names more reliably. You can find some examples
below.
The @var{modifiers} are a sequence of zero or more characters that
modify the way @code{etags} does the matching. A regexp with no
modifiers is applied sequentially to each line of the input file, in a
case-sensitive way. The modifiers and their meanings are:
@table @samp
@item i
Ignore case when matching this regexp.
@item m
Match this regular expression against the whole file, so that
multi-line matches are possible.
@item s
Match this regular expression against the whole file, and allow
@samp{.} in @var{tagregexp} to match newlines.
@end table
The @samp{-R} option cancels all the regexps defined by preceding
@samp{--regex} options. It too applies to the file names following
it. Here's an example:
@smallexample
etags --regex=/@var{reg1}/i voo.doo --regex=/@var{reg2}/m \
bar.ber -R --lang=lisp los.er
@end smallexample
@noindent
Here @code{etags} chooses the parsing language for @file{voo.doo} and
@file{bar.ber} according to their contents. @code{etags} also uses
@var{reg1} to recognize additional tags in @file{voo.doo}, and both
@var{reg1} and @var{reg2} to recognize additional tags in
@file{bar.ber}. @var{reg1} is checked against each line of
@file{voo.doo} and @file{bar.ber}, in a case-insensitive way, while
@var{reg2} is checked against the whole @file{bar.ber} file,
permitting multi-line matches, in a case-sensitive way. @code{etags}
uses only the Lisp tags rules, with no user-specified regexp matching,
to recognize tags in @file{los.er}.
You can restrict a @samp{--regex} option to match only files of a
given language by using the optional prefix @var{@{language@}}.
(@samp{etags --help} prints the list of languages recognized by
@code{etags}.) This is particularly useful when storing many
predefined regular expressions for @code{etags} in a file. The
following example tags the @code{DEFVAR} macros in the Emacs source
files, for the C language only:
@smallexample
--regex='@{c@}/[ \t]*DEFVAR_[A-Z_ \t(]+"\([^"]+\)"/'
@end smallexample
@noindent
When you have complex regular expressions, you can store the list of
them in a file. The following option syntax instructs @code{etags} to
read two files of regular expressions. The regular expressions
contained in the second file are matched without regard to case.
@smallexample
--regex=@@@var{case-sensitive-file} --ignore-case-regex=@@@var{ignore-case-file}
@end smallexample
@noindent
A regex file for @code{etags} contains one regular expression per
line. Empty lines, and lines beginning with space or tab are ignored.
When the first character in a line is @samp{@@}, @code{etags} assumes
that the rest of the line is the name of another file of regular
expressions; thus, one such file can include another file. All the
other lines are taken to be regular expressions. If the first
non-whitespace text on the line is @samp{--}, that line is a comment.
For example, we can create a file called @samp{emacs.tags} with the
following contents:
@smallexample
-- This is for GNU Emacs C source files
@{c@}/[ \t]*DEFVAR_[A-Z_ \t(]+"\([^"]+\)"/\1/
@end smallexample
@noindent
and then use it like this:
@smallexample
etags --regex=@@emacs.tags *.[ch] */*.[ch]
@end smallexample
Here are some more examples. The regexps are quoted to protect them
from shell interpretation.
@itemize @bullet
@item
Tag Octave files:
@smallexample
etags --language=none \
--regex='/[ \t]*function.*=[ \t]*\([^ \t]*\)[ \t]*(/\1/' \
--regex='/###key \(.*\)/\1/' \
--regex='/[ \t]*global[ \t].*/' \
*.m
@end smallexample
@noindent
Note that tags are not generated for scripts, so that you have to add
a line by yourself of the form @samp{###key @var{scriptname}} if you
want to jump to it.
@item
Tag Tcl files:
@smallexample
etags --language=none --regex='/proc[ \t]+\([^ \t]+\)/\1/' *.tcl
@end smallexample
@item
Tag VHDL files:
@smallexample
etags --language=none \
--regex='/[ \t]*\(ARCHITECTURE\|CONFIGURATION\) +[^ ]* +OF/' \
--regex='/[ \t]*\(ATTRIBUTE\|ENTITY\|FUNCTION\|PACKAGE\
\( BODY\)?\|PROCEDURE\|PROCESS\|TYPE\)[ \t]+\([^ \t(]+\)/\3/'
@end smallexample
@end itemize
@node Select Tags Table
@subsection Selecting a Tags Table
@vindex tags-file-name
@findex visit-tags-table
Emacs has at any time one @dfn{selected} tags table, and all the
commands for working with tags tables use the selected one. To select
a tags table, type @kbd{M-x visit-tags-table}, which reads the tags
table file name as an argument, with @file{TAGS} in the default
directory as the default.
Emacs does not actually read in the tags table contents until you
try to use them; all @code{visit-tags-table} does is store the file
name in the variable @code{tags-file-name}, and setting the variable
yourself is just as good. The variable's initial value is @code{nil};
that value tells all the commands for working with tags tables that
they must ask for a tags table file name to use.
Using @code{visit-tags-table} when a tags table is already loaded
gives you a choice: you can add the new tags table to the current list
of tags tables, or start a new list. The tags commands use all the tags
tables in the current list. If you start a new list, the new tags table
is used @emph{instead} of others. If you add the new table to the
current list, it is used @emph{as well as} the others.
@vindex tags-table-list
You can specify a precise list of tags tables by setting the variable
@code{tags-table-list} to a list of strings, like this:
@c keep this on two lines for formatting in smallbook
@example
@group
(setq tags-table-list
'("~/emacs" "/usr/local/lib/emacs/src"))
@end group
@end example
@noindent
This tells the tags commands to look at the @file{TAGS} files in your
@file{~/emacs} directory and in the @file{/usr/local/lib/emacs/src}
directory. The order depends on which file you are in and which tags
table mentions that file, as explained above.
Do not set both @code{tags-file-name} and @code{tags-table-list}.
@node Find Tag
@subsection Finding a Tag
The most important thing that a tags table enables you to do is to find
the definition of a specific tag.
@table @kbd
@item M-.@: @var{tag} @key{RET}
Find first definition of @var{tag} (@code{find-tag}).
@item C-u M-.
Find next alternate definition of last tag specified.
@item C-u - M-.
Go back to previous tag found.
@item C-M-. @var{pattern} @key{RET}
Find a tag whose name matches @var{pattern} (@code{find-tag-regexp}).
@item C-u C-M-.
Find the next tag whose name matches the last pattern used.
@item C-x 4 .@: @var{tag} @key{RET}
Find first definition of @var{tag}, but display it in another window
(@code{find-tag-other-window}).
@item C-x 5 .@: @var{tag} @key{RET}
Find first definition of @var{tag}, and create a new frame to select the
buffer (@code{find-tag-other-frame}).
@item M-*
Pop back to where you previously invoked @kbd{M-.} and friends.
@end table
@kindex M-.
@findex find-tag
@kbd{M-.}@: (@code{find-tag}) is the command to find the definition of
a specified tag. It searches through the tags table for that tag, as a
string, and then uses the tags table info to determine the file that the
definition is in and the approximate character position in the file of
the definition. Then @code{find-tag} visits that file, moves point to
the approximate character position, and searches ever-increasing
distances away to find the tag definition.
If an empty argument is given (just type @key{RET}), the balanced
expression in the buffer before or around point is used as the
@var{tag} argument. @xref{Expressions}.
You don't need to give @kbd{M-.} the full name of the tag; a part
will do. This is because @kbd{M-.} finds tags in the table which
contain @var{tag} as a substring. However, it prefers an exact match
to a substring match. To find other tags that match the same
substring, give @code{find-tag} a numeric argument, as in @kbd{C-u
M-.}; this does not read a tag name, but continues searching the tags
table's text for another tag containing the same substring last used.
If you have a real @key{META} key, @kbd{M-0 M-.}@: is an easier
alternative to @kbd{C-u M-.}.
@kindex C-x 4 .
@findex find-tag-other-window
@kindex C-x 5 .
@findex find-tag-other-frame
Like most commands that can switch buffers, @code{find-tag} has a
variant that displays the new buffer in another window, and one that
makes a new frame for it. The former is @w{@kbd{C-x 4 .}}, which invokes
the command @code{find-tag-other-window}. The latter is @w{@kbd{C-x 5 .}},
which invokes @code{find-tag-other-frame}.
To move back to places you've found tags recently, use @kbd{C-u -
M-.}; more generally, @kbd{M-.} with a negative numeric argument. This
command can take you to another buffer. @w{@kbd{C-x 4 .}} with a negative
argument finds the previous tag location in another window.
@kindex M-*
@findex pop-tag-mark
@vindex find-tag-marker-ring-length
As well as going back to places you've found tags recently, you can go
back to places @emph{from where} you found them. Use @kbd{M-*}, which
invokes the command @code{pop-tag-mark}, for this. Typically you would
find and study the definition of something with @kbd{M-.} and then
return to where you were with @kbd{M-*}.
Both @kbd{C-u - M-.} and @kbd{M-*} allow you to retrace your steps to
a depth determined by the variable @code{find-tag-marker-ring-length}.
@findex find-tag-regexp
@kindex C-M-.
The command @kbd{C-M-.} (@code{find-tag-regexp}) visits the tags that
match a specified regular expression. It is just like @kbd{M-.} except
that it does regexp matching instead of substring matching.
@node Tags Search
@subsection Searching and Replacing with Tags Tables
@cindex search and replace in multiple files
@cindex multiple-file search and replace
The commands in this section visit and search all the files listed
in the selected tags table, one by one. For these commands, the tags
table serves only to specify a sequence of files to search. These
commands scan the list of tags tables starting with the first tags
table (if any) that describes the current file, proceed from there to
the end of the list, and then scan from the beginning of the list
until they have covered all the tables in the list.
@table @kbd
@item M-x tags-search @key{RET} @var{regexp} @key{RET}
Search for @var{regexp} through the files in the selected tags
table.
@item M-x tags-query-replace @key{RET} @var{regexp} @key{RET} @var{replacement} @key{RET}
Perform a @code{query-replace-regexp} on each file in the selected tags table.
@item M-,
Restart one of the commands above, from the current location of point
(@code{tags-loop-continue}).
@end table
@findex tags-search
@kbd{M-x tags-search} reads a regexp using the minibuffer, then
searches for matches in all the files in the selected tags table, one
file at a time. It displays the name of the file being searched so you
can follow its progress. As soon as it finds an occurrence,
@code{tags-search} returns.
@kindex M-,
@findex tags-loop-continue
Having found one match, you probably want to find all the rest. To find
one more match, type @kbd{M-,} (@code{tags-loop-continue}) to resume the
@code{tags-search}. This searches the rest of the current buffer, followed
by the remaining files of the tags table.@refill
@findex tags-query-replace
@kbd{M-x tags-query-replace} performs a single
@code{query-replace-regexp} through all the files in the tags table. It
reads a regexp to search for and a string to replace with, just like
ordinary @kbd{M-x query-replace-regexp}. It searches much like @kbd{M-x
tags-search}, but repeatedly, processing matches according to your
input. @xref{Replace}, for more information on query replace.
@vindex tags-case-fold-search
@cindex case-sensitivity and tags search
You can control the case-sensitivity of tags search commands by
customizing the value of the variable @code{tags-case-fold-search}. The
default is to use the same setting as the value of
@code{case-fold-search} (@pxref{Search Case}).
It is possible to get through all the files in the tags table with a
single invocation of @kbd{M-x tags-query-replace}. But often it is
useful to exit temporarily, which you can do with any input event that
has no special query replace meaning. You can resume the query
replace subsequently by typing @kbd{M-,}; this command resumes the
last tags search or replace command that you did. For instance, to
skip the rest of the current file, you can type @kbd{M-> M-,}.
The commands in this section carry out much broader searches than the
@code{find-tag} family. The @code{find-tag} commands search only for
definitions of tags that match your substring or regexp. The commands
@code{tags-search} and @code{tags-query-replace} find every occurrence
of the regexp, as ordinary search commands and replace commands do in
the current buffer.
These commands create buffers only temporarily for the files that they
have to search (those which are not already visited in Emacs buffers).
Buffers in which no match is found are quickly killed; the others
continue to exist.
It may have struck you that @code{tags-search} is a lot like
@code{grep}. You can also run @code{grep} itself as an inferior of
Emacs and have Emacs show you the matching lines one by one.
@xref{Grep Searching}.
@node List Tags
@subsection Tags Table Inquiries
@table @kbd
@item M-x list-tags @key{RET} @var{file} @key{RET}
Display a list of the tags defined in the program file @var{file}.
@item M-x tags-apropos @key{RET} @var{regexp} @key{RET}
Display a list of all tags matching @var{regexp}.
@end table
@findex list-tags
@kbd{M-x list-tags} reads the name of one of the files described by
the selected tags table, and displays a list of all the tags defined in
that file. The ``file name'' argument is really just a string to
compare against the file names recorded in the tags table; it is read as
a string rather than as a file name. Therefore, completion and
defaulting are not available, and you must enter the file name the same
way it appears in the tags table. Do not include a directory as part of
the file name unless the file name recorded in the tags table includes a
directory.
@findex tags-apropos
@vindex tags-apropos-verbose
@kbd{M-x tags-apropos} is like @code{apropos} for tags
(@pxref{Apropos}). It finds all the tags in the selected tags table
whose entries match @var{regexp}, and displays them. If the variable
@code{tags-apropos-verbose} is non-@code{nil}, it displays the names
of the tags files together with the tag names.
@vindex tags-tag-face
@vindex tags-apropos-additional-actions
You can customize the appearance of the output by setting the
variable @code{tags-tag-face} to a face. You can display additional
output with @kbd{M-x tags-apropos} by customizing the variable
@code{tags-apropos-additional-actions}---see its documentation for
details.
You can also use the collection of tag names to complete a symbol
name in the buffer. @xref{Symbol Completion}.
@node EDE
@section Emacs Development Environment
@cindex EDE (Emacs Development Environment)
@cindex Emacs Development Environment
@cindex Integrated development environment
EDE (@dfn{Emacs Development Environment}) is a package that simplifies
the task of creating, building, and debugging large programs with
Emacs. It provides some of the features of an IDE, or @dfn{Integrated
Development Environment}, in Emacs.
This section provides a brief description of EDE usage.
@ifnottex
For full details, see @ref{Top, EDE,, ede, Emacs Development Environment}.
@end ifnottex
@iftex
For full details on Ede, type @kbd{C-h i} and then select the EDE
manual.
@end iftex
EDE is implemented as a global minor mode (@pxref{Minor Modes}). To
enable it, type @kbd{M-x global-ede-mode} or click on the
@samp{Project Support (EDE)} item in the @samp{Tools} menu. You can
also enable EDE each time you start Emacs, by adding the following
line to your initialization file:
@smallexample
(global-ede-mode t)
@end smallexample
@noindent
Activating EDE adds a menu named @samp{Development} to the menu bar.
Many EDE commands, including the ones described below, can be invoked
from this menu.
EDE organizes files into @dfn{projects}, which correspond to
directory trees. The @dfn{project root} is the topmost directory of a
project. To define a new project, visit a file in the desired project
root and type @kbd{M-x ede-new}. This command prompts for a
@dfn{project type}, which refers to the underlying method that EDE
will use to manage the project (@pxref{Creating a Project, EDE,, ede,
Emacs Development Environment}). The most common project types are
@samp{Make}, which uses Makefiles, and @samp{Automake}, which uses GNU
Automake (@pxref{Top, Automake,, automake, Automake}). In both cases,
EDE also creates a file named @file{Project.ede}, which stores
information about the project.
A project may contain one or more @dfn{targets}. A target can be an
object file, executable program, or some other type of file, which is
``built'' from one or more of the files in the project.
To add a new @dfn{target} to a project, type @kbd{C-c . t}
(@code{M-x ede-new-target}). This command also asks if you wish to
``add'' the current file to that target, which means that the target
is to be built from that file. After you have defined a target, you
can add more files to it by typing @kbd{C-c . a}
(@code{ede-add-file}).
To build a target, type @kbd{C-c . c} (@code{ede-compile-target}).
To build all the targets in the project, type @kbd{C-c . C}
(@code{ede-compile-project}). EDE uses the file types to guess how
the target should be built.
@ifnottex
@include emerge-xtra.texi
@end ifnottex
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