4.1cBSD/usr/doc/sccs.me

.ds S \s-1SCCS\s0
.ds I \s-1SID\s0
.nr bi 8n
.ev 1			\" only for keeps
.ss 16
.ev
.he '\*S Introduction''%'
.+c
.(l C
.sz 14
.b
An Introduction to the
Source Code Control System
.sz
.r
.sp
Eric Allman
.i "Project Ingres"
.i "University of California at Berkeley"
.)l
.sp 3
.pp
.(f
This is version 1.21 of this document.
It was last modified on 12/5/80.
.)f
This document gives a quick introduction
to using the Source Code Control System
(\*S).
The presentation is geared to programmers
who are more concerned with
what
to do to get a task done
rather than how it works;
for this reason some of the examples
are not well explained.
For details of what the magic options do,
see the section on
.q "Further Information" .
.(l F
This is a working document.
Please send any comments or suggestions
to csvax:eric.
.)l
.sh 1 "Introduction"
.pp
\*S is a source management system.
Such a system maintains a record of versions of a system;
a record is kept with each set of changes
of what the changes are,
why they were made,
and who made them and when.
Old versions can be recovered,
and different versions can be maintained simultaneously.
In projects with more than one person,
\*S will insure that two people are not
editing the same file at the same time.
.pp
All versions of your program,
plus the log and other information,
is kept in a file called the
.q "s-file" .
There are three major operations
that can be performed on the s-file:
.np
Get a file for compilation (not for editing).
This operation retrieves a version of the file
from the s-file.
By default, the latest version is retrieved.
This file is intended for compilation, printing, or whatever;
it is specifically NOT intended to be edited
or changed in any way;
any changes made to a file retrieved
in this way will probably be lost.
.np
Get a file for editing.
This operation also retrieves a version of the file
from the s-file,
but this file is intended to be edited and then
incorporated back into the s-file.
Only one person may be editing a file at one time.
.np
Merge a file back into the s-file.
This is the companion operation to (2).
A new version number is assigned,
and comments are saved explaining why this change was made.
.sh 1 "Learning the Lingo"
.pp
There are a number of terms that are worth learning
before we go any farther.
.sh 2 "S-file"
.pp
The s-file
is a single file that holds all the different versions
of your file.
The s-file is stored in
differential format;
.i i.e. ,
only the differences between versions are stored,
rather than the entire text of the new version.
This saves disk space
and allows selective changes to be removed later.
Also included in the s-file
is some header information for each version,
including the comments given by the person who
created the version explaining why the changes were made.
.sh 2 "Deltas"
.pp
Each set of changes to the s-file
(which is approximately [but not exactly!] equivalent
to a version of the file)
is called a
.i delta .
Although technically a delta only includes the
.i changes
made,
in practice
it is usual for
each delta to be made with respect to
all the deltas that have occurred before\**.
.(f
\**This matches normal usage, where the previous changes are not saved
at all,
so all changes are automatically based on all other changes
that have happened through history.
.)f
However,
it is possible to get a version of the file
that has selected deltas removed out of the middle
of the list of changes \*-
equivalent to removing your changes later.
.sh 2 "\*I's (or, version numbers)"
.pp
A \*I
(\*S Id)
is a number that represents a delta.
This is normally a two-part number
consisting of a
.q release
number and a
.q level
number.
Normally the release number stays the same,
however,
it is possible to move into a new release
if some major change is being made.
.pp
Since all past deltas are normally applied,
the \*I of the final delta applied
can be used to represent a version number of the file
as a whole.
.sh 2 "Id keywords"
.pp
When you get a version of a file
with intent to compile and install it
(\c
.i i.e. ,
something other than edit it),
some special keywords are expanded inline
by \*S.
These
.i "Id Keywords"
can be used to include the current version number
or other information into the file.
All id keywords are of the form
.b % \c
.i x \c
.b % ,
where
.i x
is an upper case letter.
For example,
.b %\&I\&%
is the \*I of the latest delta applied,
.b %\&W\&%
includes the module name,
\*I,
and a mark that makes it findable by a program,
and
.b %\&G\&%
is the date of the latest delta applied.
There are many others,
most of which are of dubious usefulness.
.pp
When you get a file for editing,
the id keywords are not expanded;
this is so that after you put them back in to the s-file,
they will be expanded automatically on each new version.
But notice: if you were to get them
expanded accidently,
then your file would appear to be the same version
forever more,
which would of course defeat the purpose.
Also,
if you should install a version of the program
without expanding the id keywords,
it will be impossible to tell what version it is
(since all it will have is
.q %\&W\&%
or whatever).
.sh 1 "Creating \*S Files"
.pp
To put source files
into
\*S
format, run the following shell script from csh:
.(b
mkdir SCCS save
foreach i (*.[ch])
	sccs admin \-i$i $i
	mv $i save/$i
end
.)b
This will put the named files
into s-files
in the subdirectory
.q SCCS
The files will be removed from the current directory
and hidden away in the directory
.q save ,
so the next thing you will probably want to do
is to get all the files
(described below).
When you are convinced that
\*S has correctly created the s-files,
you should remove the directory
.q save .
.pp
If you want to have id keywords in the files,
it is best to put them in before you create the s-files.
If you do not,
.i admin
will print
.q "No Id Keywords (cm7)" ,
which is a warning message only.
.sh 1 "Getting Files for Compilation"
.pp
To get a copy of the latest version
of a file,
run
.(b
sccs get prog.c
.)b
\*S will respond:
.(b
1.1
87 lines
.)b
meaning that version 1.1 was retrieved\**
.(f
\**Actually,
the \*I of the final delta applied was 1.1.
.)f
and that it has 87 lines.
The file
.i prog.c
will be created
in the current directory.
The file will be read-only
to remind you that you are not
supposed to change it.
.pp
This copy of the file
should not be changed,
since \*S is unable
to merge the changes
back into the s-file.
If you do make changes,
they will be lost the next time
someone does a
.i get .
.sh 1 "Changing Files (or, Creating Deltas)"
.sh 2 "Getting a copy to edit"
.pp
To edit a source file,
you must first get it,
requesting permission to edit it\**:
.(f
\**The
.q "edit"
command is equivalent to using the \-e
flag to
.i "get" ,
as:
.(l
sccs get \-e prog.c
.)l
Keep this in mind when reading other documentation.
.)f
.(b
sccs edit prog.c
.)b
The response will be the same as with
.i get
except that it will also say:
.(b
New delta 1.2
.)b
You then edit it,
using a standard text editor:
.(b
vi prog.c
.)b
.sh 2 "Merging the changes back into the s-file"
.pp
When the desired changes are made,
you can put your changes into the
\*S
file using the
.i delta
command:
.(b
sccs delta prog.c
.)b
.pp
Delta will prompt you for
.q "comments?"
before it merges the changes in.
At this prompt you should type a one-line description
of what the changes mean
(more lines can be entered by ending each line
except the last with a backslash\**).
.(f
\**Yes, this is a stupid default.
.)f
.i Delta
will then type:
.(b
1.2
5 inserted
3 deleted
84 unchanged
.)b
saying that delta 1.2 was created,
and it inserted five lines,
removed three lines,
and left 84 lines unchanged\**.
.(f
\**Changes to a line are counted as a line deleted
and a line inserted.
.)f
The
.i prog.c
file will be removed;
it can be retrieved
using
.i get .
.sh 2 "When to make deltas"
.pp
It is probably unwise to make a delta
before every recompilation or test;
otherwise,
you tend to get a lot of deltas with comments like
.q "fixed compilation problem in previous delta"
or
.q "fixed botch in 1.3" .
However,
it is very important to delta everything
before installing a module for general use.
A good technique is to edit the files you need,
make all necessary changes and tests,
compiling and editing as often as necessary
without making deltas.
When you are satisfied that you have a working version,
delta everything being edited,
re-get them,
and recompile everything.
.sh 2 "What's going on: the info command"
.pp
To find out what files where being edited,
you can use:
.(b
sccs info
.)b
to print out all the files being edited
and other information such as the name of the user
who did the edit.
Also,
the command:
.(b
sccs check
.)b
is nearly equivalent to the
.i info
command,
except that it is silent if nothing is being edited,
and returns non-zero exit status if anything is being edited;
it can be used in an
.q install
entry in a makefile
to abort the install
if anything has not been properly deltaed.
.pp
If you know that everything being edited should be deltaed,
you can use:
.(b
sccs delta \`sccs tell\`
.)b
The
.i tell
command is similar to
.i info
except that only the names of files being edited
are output,
one per line.
.pp
All of these commands take a
.b \-b
flag
to ignore
.q branches
(alternate versions, described later)
and the
.b \-u
flag to only give files being edited by you.
The
.b \-u
flag takes an optional
.i user
argument,
giving only files being edited by that user.
For example,
.(b
sccs info \-ujohn
.)b
gives a listing of files being edited by john.
.sh 2 "ID keywords"
.pp
Id keywords can be inserted into your file
that will be expanded automatically by
.i get .
For example,
a line such as:
.(b
static char SccsId[] = "%\&W\&%\et%\&G\&%";
.)b
will be replaced with something like:
.(b
static char SccsId[] = "@\&(#)prog.c	1.2	08/29/80";
.)b
This tells you
the name and version
of the source file
and the time the delta was created.
The string
.q "@\&(#)"
is a special string
which signals the beginning
of an
\*S
Id keyword.
.sh 3 "The what command"
.pp
To find out what version of a program
is being run,
use:
.(b
sccs what prog.c /usr/bin/prog
.)b
which will print all strings
it finds that
begin with
.q "@\&(#)" .
This works on all types of files,
including binaries and libraries.
For example, the above command will output something like:
.(b
prog.c:
	prog.c	1.2	08/29/80
/usr/bin/prog:
	prog.c	1.1	02/05/79
.)b
From this I can see
that the source that I have in prog.c
will not compile into the same version
as the binary in /usr/bin/prog.
.sh 3 "Where to put id keywords"
.pp
ID keywords can be inserted anywhere,
including in comments,
but
Id Keywords that are compiled into the object module
are especially useful,
since it lets you find out what version of
the object is being run,
as well as the source.
However,
there is a cost:
data space is used up to store
the keywords,
and on small address space machines
this may be prohibitive.
.pp
When you put id keywords into header files,
it is important that you assign them to different variables.
For example, you might use:
.(b
static char AccessSid[] = "%\&W\&%	%\&G\&%";
.)b
in the file
.i access.h
and:
.(b
static char OpsysSid[] = "%\&W\&%	%\&G\&%";
.)b
in the file
.i opsys.h .
Otherwise,
you will get compilation errors because
.q SccsId
is redefined.
The problem with this is that if the header file
is included by many modules that are loaded together,
the version number of that header file is included
in the object module many times;
you may find it more to your taste
to put id keywords in header files
in comments.
.sh 2 "Keeping \*I's consistent across files"
.pp
With some care,
it is possible to keep the \*I's consistent
in multi-file systems.
The trick here is to always
.i edit
all files
at once.
The changes can then be made
to whatever files are necessary
and then all files
(even those not changed)
are redeltaed.
This can be done fairly easily
by just specifying the name of the directory
that the \*S files are in:
.(b
sccs edit SCCS
.)b
which will
.i edit
all files in that directory.
To make the delta, use:
.(b
sccs delta SCCS
.)b
You will be prompted for comments only once.
.sh 2 "Creating new releases"
.pp
When you want to create a new release
of a program,
you can specify the release number you want to create
on the
.i edit
command.
For example:
.(b
sccs edit \-r2 prog.c
.)b
will cause the next delta to be in release two
(that is,
it will be numbered 2.1).
Future deltas will automatically be in release two.
To change the release number
of an entire system,
use:
.(b
sccs edit \-r2 SCCS
.)b
.sh 1 "Restoring Old Versions"
.sh 2 "Reverting to old versions"
.pp
Suppose that after delta 1.2
was stable
you made and released a delta 1.3.
But this introduced a bug,
so you made a delta 1.4 to correct it.
But 1.4 was still buggy,
and you decided you wanted to go back
to the old version.
You could
revert to delta 1.2
by choosing the \*I in a get:
.(b
sccs get \-r1.2 prog.c
.)b
This will produce a version of
.i prog.c
that is delta 1.2
that can be reinstalled so that work can proceed.
.pp
In some cases you don't know
what the \*I of the delta you want is.
However,
you can revert to the version of the program
that was running as of a certain date
by using the
.b \-c
(cutoff) flag.
For example,
.(b
sccs get \-c800722120000 prog.c
.)b
will retrieve whatever version was current
as of July 22, 1980
at 12:00 noon.
Trailing components can be stripped off
(defaulting to their highest legal value),
and punctuation can be inserted in the obvious
places;
for example,
the above line could be equivalently stated:
.(b
sccs get \-c"80/07/22 12:00:00" prog.c
.)b
.sh 2 "Selectively deleting old deltas"
.pp
Suppose that you later decided
that you liked the changes in delta 1.4,
but that delta 1.3 should be removed.
You could do this by
.i excluding
delta 1.3:
.(b
sccs edit \-x1.3 prog.c
.)b
When delta 1.5 is made,
it will include the changes made
in delta 1.4,
but will exclude the changes made
in delta 1.3.
You can exclude a range of deltas
using a dash.
For example,
if you want to get rid of 1.3 and 1.4
you can use:
.(b
sccs edit \-x1.3\-1.4 prog.c
.)b
which will exclude all deltas from 1.3 to 1.4.
Alternatively,
.(b
sccs edit \-x1.3\-1 prog.c
.)b
will exclude a range of deltas
from 1.3 to the current highest delta in release 1.
.pp
In certain cases when using
.b \-x
(or
.b \-i ;
see below)
there will be conflicts
between versions;
for example, it may be necessary
to both include and delete
a particular line.
If this happens,
\*S always prints out a message
telling the range of lines effected;
these lines should then be examined very carefully
to see if the version \*S got
is ok.
.pp
Since each delta
(in the sense of
.q "a set of changes" )
can be excluded at will,
that this makes it most useful
to put each semantically distinct change
into its own delta.
.sh 1 "Auditing Changes"
.sh 2 "The prt command"
.pp
When you created a delta,
you presumably gave a reason for the delta
to the
.q "comments?"
prompt.
To print out these comments later,
use:
.(b
sccs prt prog.c
.)b
This will produce
a report
for each delta
of the \*I,
time and date of creation,
user who created the delta,
number of lines inserted, deleted, and unchanged,
and the comments associated with the delta.
For example, the output of the above command might be:
.(b
D 1.2	80/08/29 12:35:31	bill	2	1	00005/00003/00084
removed "-q" option
.sp \n(psu
D 1.1	79/02/05 00:19:31	eric	1	0	00087/00000/00000
date and time created 80/06/10 00:19:31 by eric
.)b
.sh 2 "Finding why lines were inserted"
.pp
To find out
why you inserted lines,
you can get a copy of the file
with each line
preceded by the \*I that created it:
.(b
sccs get \-m prog.c
.)b
You can then find out
what this delta did
by printing the comments using
.i prt .
.pp
To find out what lines are associated with a particular delta
(\c
.i e.g. ,
1.3),
use:
.(b
sccs get \-m \-p prog.c \(bv grep \'^1.3\'
.)b
The
.b \-p
flag causes \*S to output the generated source
to the standard output rather than to a file.
.sh 2 "Finding what changes you have made"
.pp
When you are editing a file,
you can find out what changes you have made using:
.(b
sccs diffs prog.c
.)b
Most of the ``diff'' flags can be used.
To pass the
.b \-c
flag,
use
.b \-C .
.pp
To compare two versions that are in deltas,
use:
.(b
sccs sccsdiff -r1.3 -r1.6 prog.c
.)b
to see the differences between delta 1.3 and delta 1.6.
.sh 1 "Shorthand Notations"
.pp
There are several sequences of commands that get
executed frequently.
.i Sccs
tries to make it easy to do these.
.sh 2 "Delget"
.pp
A frequent requirement is to make a delta of some file
and then get that file.
This can be done by using:
.(b
sccs delget prog.c
.)b
which is entirely equivalent to using:
.(b
sccs delta prog.c
sccs get prog.c
.)b
The
.q deledit
command is equivalent to
.q delget
except that the
.q edit
command is used
instead of the
.q get
command.
.sh 2 "Fix"
.pp
Frequently, there are small bugs
in deltas,
e.g., compilation errors,
for which there is no reason to maintain an audit trail.
To
.i replace
a delta, use:
.(b
sccs fix \-r1.4 prog.c
.)b
This will get a copy of delta 1.4 of prog.c for you to edit
and then delete delta 1.4 from the \*S file.
When you do a delta of prog.c,
it will be delta 1.4 again.
The \-r flag must be specified,
and the delta that is specified must be a leaf delta,
i.e., no other deltas may have been made subsequent
to the creation of that delta.
.sh 2 "Unedit"
.pp
If you found you edited a file
that you did not want to edit,
you can back out by using:
.(b
sccs unedit prog.c
.)b
.sh 2 "The \-d flag"
.pp
If you are working on a project
where the \*S code is in a directory somewhere,
you may be able to simplify things
by using a shell alias.
For example,
the alias:
.(b
alias syssccs sccs \-d/usr/src
.)b
will allow you to issue commands such as:
.(b
syssccs edit cmd/who.c
.)b
which will look for the file
.q "/usr/src/cmd/SCCS/who.c" .
The file
.q who.c
will always be created in your current directory
regardless of the value of the \-d flag.
.sh 1 "Using \*S on a Project"
.pp
Working on a project with several people
has its own set of special problems.
The main problem occurs when two people
modify a file at the same time.
\*S prevents this by locking an s-file
while it is being edited.
.pp
As a result,
files should not be reserved for editing
unless they are actually being edited at the time,
since this will prevent other people on the project
from making necessary changes.
For example,
a good scenario for working might be:
.(b
sccs edit a.c g.c t.c
vi a.c g.c t.c
# do testing of the (experimental) version
sccs delget a.c g.c t.c
sccs info
# should respond "Nothing being edited"
make install
.)b
.pp
As a general rule,
all source files should be deltaed
before installing the program for general use.
This will insure that it is possible
to restore any version in use at any time.
.sh 1 "Saving Yourself"
.sh 2 "Recovering a munged edit file"
.pp
Sometimes you may find
that you have destroyed or trashed
a file that you were trying to edit\**.
.(f
\**Or given up and decided to start over.
.)f
Unfortunately,
you can't just remove it
and re-\c
.i edit
it;
\*S keeps track
of the fact
that someone is trying to edit it,
so it won't let you do it again.
Neither can you just get it using
.i get ,
since that would expand the Id keywords.
Instead,
you can say:
.(b
sccs get \-k prog.c
.)b
This will not expand the Id keywords,
so it is safe to do a delta
with it.
.pp
Alternately,
you can
.i unedit
and
.i edit
the file.
.sh 2 "Restoring the s-file"
.pp
In particularly bad circumstances,
the \*S file itself
may get munged.
The most common way this happens
is that it gets edited.
Since \*S keeps a checksum,
you will get errors every time you read the file.
To fix this checksum, use:
.(b
sccs admin \-z prog.c
.)b
.sh 1 "Using the Admin Command"
.pp
There are a number of parameters that can be set
using the
.i admin
command.
The most interesting of these are flags.
Flags can be added by using the
.b \-f
flag.
For example:
.(b
sccs admin \-fd1 prog.c
.)b
sets the
.q d
flag to the value
.q 1 .
This flag can be deleted by using:
.(b
sccs admin \-dd prog.c
.)b
The most useful flags are:
.nr ii 7n
.ip "b"
Allow branches to be made using the
\-b
flag to
.i edit .
.ip "d\fISID\fP"
Default \*I to be used on a
.i get
or
.i edit .
If this is just a release number
it constrains the
version
to a particular release only.
.ip "i"
Give a fatal error
if there are no Id Keywords in a file.
This is useful to guarantee that a version of the
file does not get merged into the s-file
that has the Id Keywords inserted as constants
instead of internal forms.
.ip "y"
The
.q type
of the module.
Actually,
the value of this flag is unused by \*S
except that it replaces the
.b %\&Y\&%
keyword.
.pp
The
.b \-t\fIfile\fR
flag can be used
to store descriptive text
from
.i file .
This descriptive text might be the documentation
or a design and implementation document.
Using the
.b \-t
flag insures that if the \*S file is sent,
the documentation will be sent also.
If
.i file
is omitted,
the descriptive text is deleted.
To see the descriptive text,
use
.q "prt \-t" .
.pp
The
.i admin
command can be used safely
any number of times on files.
A file need not be gotten
for
.i admin
to work.
.sh 1 "Maintaining Different Versions (Branches)"
.pp
Sometimes it is convenient
to maintain an experimental version of a program
for an extended period
while normal maintenance continues
on the version in production.
This can be done using a
.q branch.
Normally deltas continue in a straight line,
each depending on the delta before.
Creating a branch
.q "forks off"
a version of the program.
.pp
The ability to create branches
must be enabled in advance using:
.(b
sccs admin \-fb prog.c
.)b
The
.b \-fb
flag can be specified when the
\*S file is first created.
.sh 2 "Creating a branch"
.pp
To create a branch, use:
.(b
sccs edit \-b prog.c
.)b
This will create a branch
with (for example) \*I 1.5.1.1.
The deltas for this version
will be numbered
1.5.1.\c
.i n .
.sh 2 "Getting from a branch"
.pp
Deltas in a branch are normally not included
when you do a get.
To get these versions,
you will have to say:
.(b
sccs get \-r1.5.1 prog.c
.)b
.sh 2 "Merging a branch back into the main trunk"
.pp
At some point you will have finished the experiment,
and if it was successful
you will want to incorporate it into the release version.
But in the meantime
someone may have created a delta 1.6
that you don't want to lose.
The commands:
.(b
sccs edit \-i1.5.1.1\-1.5.1 prog.c
sccs delta prog.c
.)b
will merge all of your changes
into the release system.
If some of the changes conflict,
get will print an error;
the generated result
should be carefully examined
before the delta is made.
.sh 2 "A more detailed example"
.pp
The following technique might be used
to maintain a different version of a program.
First,
create a directory to contain the new version:
.(b
mkdir ../newxyz
cd ../newxyz
.)b
Edit a copy of the program
on a branch:
.(b
sccs \-d../xyz edit prog.c
.)b
When using the old version,
be sure to use the
.b \-b
flag to info, check, tell, and clean
to avoid confusion.
For example, use:
.(b
sccs info \-b
.)b
when in the directory
.q xyz .
.pp
If you want to save a copy of the program
(still on the branch)
back in the s-file,
you can use:
.(b
sccs -d../xyz deledit prog.c
.)b
which will do a delta on the branch
and reedit it for you.
.pp
When the experiment is complete, merge it back into the s-file
using delta:
.(b
sccs -d../xyz delta prog.c
.)b
At this point you must decide whether this version
should be merged back into the trunk
(\c
.i i.e.
the default version),
which may have undergone changes.
If so, it can be merged using the
.b \-i
flag to
.i edit
as described above.
.sh 2 "A warning"
.pp
Branches should be kept to a minimum.
After the first branch from the trunk,
\*I's are assigned rather haphazardly,
and the structure gets complex fast.
.sh 1 "Using \*S with Make"
.pp
\*S and make can be made to work together
with a little care.
A few sample makefiles
for common applications are shown.
.pp
There are a few basic entries that every makefile
ought to have.
These are:
.nr ii 1i
.ip a.out
(or whatever the makefile generates.)
This entry regenerates whatever this makefile is
supposed to regenerate.
If the makefile regenerates many things,
this should be called
.q all
and should in turn
have dependencies on everything
the makefile can generate.
.ip install
Moves the objects to the final
resting place,
doing any special
.i chmod 's
or
.i ranlib 's
as appropriate.
.ip sources
Creates all the source files from \*S files.
.ip clean
Removes all cruft from the directory.
.ip print
Prints the contents of the directory.
.lp
The examples shown below are only partial examples,
and may omit some of these entries
when they are deemed to be obvious.
.pp
The
.i clean
entry should not remove files that can be
regenerated from the \*S files.
It is sufficiently important to have the
source files around at all times
that the only time they should be removed
is when the directory is being mothballed.
To do this, the command:
.(b
sccs clean
.)b
can be used.
This will remove all files for which an s-file
exists,
but which is not being edited.
.sh 2 "To maintain single programs"
.pp
Frequently there are directories with several
largely unrelated programs
(such as simple commands).
These can be put into a single makefile:
.(b
LDFLAGS= \-i \-s
.sp \n(psu
prog: prog.o
	$(CC) $(LDFLAGS) \-o prog prog.o
prog.o: prog.c prog.h
.sp \n(psu
example: example.o
	$(CC) $(LDFLAGS) \-o example example.o
example.o: example.c
.sp \n(psu
\&.DEFAULT:
	sccs get $<
.)b
The trick here
is that the .DEFAULT rule
is called every time
something is needed
that does not exist,
and no other rule exists to make it.
The explicit dependency of the
.b \&.o
file on the
.b \&.c
file is important.
Another way of doing the same thing is:
.(b
SRCS=	prog.c prog.h example.c
.sp \n(psu
LDFLAGS= \-i \-s
.sp \n(psu
prog: prog.o
	$(CC) $(LDFLAGS) \-o prog prog.o
prog.o: prog.h
.sp \n(psu
example: example.o
	$(CC) $(LDFLAGS) \-o example example.o
.sp \n(psu
sources: $(SRCS)
$(SRCS):
	sccs get $@
.)b
There are a couple of advantages to this approach:
(1) the explicit dependencies of the .o on the .c files are
not needed,
(2) there is an entry called "sources" so if you want to get
all the sources you can just say
.q "make sources" ,
and
(3) the makefile is less likely to do confusing things
since it won't try to
.i get
things that do not exist.
.sh 2 "To maintain a library"
.pp
Libraries that are largely static
are best updated using explicit commands,
since
.i make
doesn't know about updating them properly.
However,
libraries that are in the process of being developed
can be handled quite adequately.
The problem is that the .o files
have to be kept out of the library
as well as in the library.
.(b
# configuration information
OBJS=	a.o b.o c.o d.o
SRCS=	a.c b.c c.c d.s x.h y.h z.h
TARG=	/usr/lib
.sp \n(psu
# programs
GET=	sccs get
REL=
AR=	\-ar
RANLIB=	ranlib
.sp \n(psu
lib.a: $(OBJS)
	$(AR) rvu lib.a $(OBJS)
	$(RANLIB) lib.a
.sp \n(psu
install: lib.a
	sccs check
	cp lib.a $(TARG)/lib.a
	$(RANLIB) $(TARG)/lib.a
.sp \n(psu
sources: $(SRCS)
$(SRCS):
	$(GET) $(REL) $@
.sp \n(psu
print: sources
	pr *.h *.[cs]
clean:
	rm \-f *.o
	rm \-f core a.out $(LIB)
.)b
.pp
The
.q "$(REL)"
in the get
can be used to get old versions
easily; for example:
.(b
make b.o REL=\-r1.3
.)b
.pp
The
.i install
entry includes the line
.q "sccs check"
before anything else.
This guarantees that all the s-files
are up to date
(\c
.i i.e. ,
nothing is being edited),
and will abort the
.i make
if this condition is not met.
.sh 2 "To maintain a large program"
.(b
OBJS=	a.o b.o c.o d.o
SRCS=	a.c b.c c.y d.s x.h y.h z.h
.sp \n(psu
GET=	sccs get
REL=
.sp \n(psu
a.out: $(OBJS)
	$(CC) $(LDFLAGS) $(OBJS) $(LIBS)
.sp \n(psu
sources: $(SRCS)
$(SRCS):
	$(GET) $(REL) $@
.)b
(The
.i print
and
.i clean
entries are identical to the previous case.)
This makefile requires copies of the source and object files
to be kept during development.
It is probably also wise to include lines of the form:
.(b
a.o: x.h y.h
b.o: z.h
c.o: x.h y.h z.h
z.h: x.h
.)b
so that modules will be recompiled
if header files change.
.pp
Since
.i make
does not do transitive closure on dependencies,
you may find in some makefiles lines like:
.(b
z.h: x.h
	touch z.h
.)b
This would be used in cases where file z.h
has a line:
.(b
#include "x.h"
.)b
in order to bring the mod date of z.h in line
with the mod date of x.h.
When you have a makefile such as above,
the
.i touch
command can be removed completely;
the equivalent effect will be achieved
by doing an automatic
.i get
on z.h.
.sh 1 "Further Information"
.pp
The
.i "SCCS/PWB User's Manual"
gives a deeper description
of how to use \*S.
Of particular interest
are the numbering of branches,
the l-file,
which gives a description of what deltas were used on a get,
and certain other \*S commands.
.pp
The \*S manual pages
are a good last resort.
These should be read by software managers
and by people who want to know
everything about everything.
.pp
Both of these documents were written without the
.i sccs
front end in mind,
so most of the examples are slightly different from those
in this document.
.bp
.sz 12
.ce
.b "Quick Reference"
.sz
.sp 2
.sh 1 Commands 1
.pp
The following commands should all be preceded with
.q sccs .
This list is not exhaustive;
for more options see
.i "Further Information" .
.ip get 9n
Gets files for compilation (not for editing).
Id keywords are expanded.
.ba 9n
.nr ii 8n
.ip \-r\fI\*I\fP
Version to get.
.ip \-p
Send to standard output rather than to the actual file.
.ip \-k
Don't expand id keywords.
.ip \-i\fIlist\fP
List of deltas to include.
.ip \-x\fIlist\fP
List of deltas to exclude.
.ip \-m
Precede each line with \*I of creating delta.
.ip \-c\fIdate\fP
Don't apply any deltas created after
.i date.
.ba
.ip edit 9n
Gets files for editing.
Id keywords are not expanded.
Should be matched with a
.i delta
command.
.ba 9n
.nr ii 8n
.ip \-r\fI\*I\fP
Same as
.i get .
If
.i \*I
specifies a release that does not yet exist,
the highest numbered delta is retrieved
and the new delta is numbered with
.i \*I .
.ip \-b
Create a branch.
.ip \-i\fIlist\fP
Same as
.i get .
.ip \-x\fIlist\fP
Same as
.i get .
.ba
.ip delta 9n
Merge a file gotten using
.i edit
back into the s-file.
Collect comments about why this delta was made.
.ip unedit 9n
Remove a file that has been edited previously
without merging the changes into the s-file.
.ip prt 9n
Produce a report of changes.
.ba 9n
.nr ii 5n
.ip \-t
Print the descriptive text.
.ip \-e
Print (nearly) everything.
.ba
.ip info 9n
Give a list of all files being edited.
.ba 9n
.nr ii 5n
.ip \-b
Ignore branches.
.ip \-u[\fIuser\fP]
Ignore files not being edited by
.i user .
.ba
.ip check 9n
Same as
.i info ,
except that nothing is printed if nothing is being edited
and exit status is returned.
.ip tell 9n
Same as
.i info ,
except that one line is produced per file being edited containing
only the file name.
.ip clean 9n
Remove all files that can be regenerated from the
s-file.
.ip what 9n
Find and print id keywords.
.ip admin 9n
Create or set parameters on s-files.
.ba 9n
.nr ii 8n
.ip \-i\fIfile\fP
Create, using
.i file
as the initial contents.
.ip \-z
Rebuild the checksum in case
the file has been trashed.
.ip \-f\fIflag\fP
Turn on the
.i flag .
.ip \-d\fIflag\fP
Turn off (delete) the
.i flag .
.ip \-t\fIfile\fP
Replace the descriptive text
in the s-file with the contents of
.i file .
If
.i file
is omitted,
the text is deleted.
Useful for storing documentation
or
.q "design & implementation"
documents to insure they get distributed with the
s-file.
.lp
Useful flags are:
.ip b
Allow branches to be made using the \-b flag to
.i edit.
.ip d\fI\*I\fP
Default \*I to be used
on a
.i get
or
.i edit .
.ip i
Cause
.q "No Id Keywords"
error message
to be a fatal error rather than a warning.
.ip t
The module
.q type ;
the value of this flag replaces the
.b %\&Y\&%
keyword.
.ba
.ip fix 9n
Remove a delta and reedit it.
.ip delget 9n
Do a
.i delta
followed by a
.i get .
.ip deledit 9n
Do a
.i delta
followed by an
.i edit .
.sh 1 "Id Keywords"
.nr ii 6n
.ip "%\&Z\&%"
Expands to
.q @\&(#)
for the
.i what
command to find.
.ip "%\&M\&%"
The current module name,
.i e.g.,
.q prog.c .
.ip "%\&I\&%"
The highest \*I applied.
.ip "%\&W\&%"
A shorthand for
.q "%\&Z\&%%\&M\&% <tab> %\&I\&%" .
.ip "%\&G\&%"
The date of the delta
corresponding to the
.q "%\&I\&%"
keyword.
.ip "%\&R\&%"
The current release number,
.i i.e. ,
the first component of the
.q "%\&I\&%"
keyword.
.ip "%\&Y\&%"
Replaced by the value of the
.b t
flag
(set by
.i admin ).