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MicroEmacs 3.8i Documentation in MicroSCRIBE format.
              +++ Part One of Two +++
(Differs from the original uEmacs distribution by fixing some spelling
 errors and formattating problems)
-----snip-----snip-----snip-----snip-----snip-----snip-----snip-----snip-----
@style(indent 8 chars, linewidth 72 chars, spacing 1 lines)
@pagefooting()












		@b(MicroEMACS)

		Full Screen Text Editor
		Reference Manual (preliminary draft)

		Version 3.8i
		April 27, 1987

		(C)opyright 1987 by Daniel M. Lawrence
		Reference Manual (C)opyright 1987
			by Brian Straight and Daniel M. Lawrence
		All Rights Reserved

		@i(MicroEMACS 3.8i can be copied and distributed freely
		for any non-commercial purposes. MicroEMACS 3.8i can
		only be incorporated into commercial software with
		the permission of the current author.)
@newpage
@flushleft(@b[Introduction])

	MicroEMACS is a tool for creating and changing documents,
programs, and other text files.  It is both relatively easy for the
novice to use, but also very powerful in the hands of an expert.
MicroEMACS can be extensively customized for the needs of the
individual user.

	MicroEMACS allows several files to be edited at the same time.
The screen can be split into different windows, and text may be moved
freely from one window to the next.  Depending on the type of file being
edited, MicroEMACS can change how it behaves to make editing simple. 
Editing standard text files, program files and word processing documents
are all possible at the same time.

	There are extensive capabilities to make word processing and
editing easier.  These include commands for string searching and
replacing, paragraph reformatting and deleting, automatic word wrapping,
word move and deletes, easy case controlling, and automatic word counts.

	For complex and repetitive editing tasks editing macros can be
written.  These macros allow the user a great degree of flexibility in
determining how MicroEMACS behaves.  Also any and all the commands can
be used by any keystroke by changing, or rebinding, what commands
various keys are connected, or bound, to. 

	Special features are also available to perform a diverse set of
operations such as file encryption, automatic backup file generation,
entabbing and detabbing lines, executing of DOS commands and filtering
of text through other programs (like SORT to allow sorting text).

@flushleft(@b[History])

	EMACS was originally a text editor written by Richard Stahlman
at MIT in the early 1970s for Digital Equipment computers. Various
versions, rewrites and clones have made an appearance since.

	This version of MicroEMACS is derived from code written by Dave
G.  Conroy in 1985.  Later modifications were performed by Steve Wilhite
and George Jones.  In December of 1985 Daniel Lawrence picked up the
then current source (version 2.0) and has made extensive modifications
and additions to it over the course of the next two years.  Updates and
support for the current version is still in progress.  The current
program author can be contacted by writing to:

@begin(verbatim)
	USMAIL:	Daniel Lawrence
		617 New York St
		Lafayette, IN 47901

	UUCP:	ihnp4!pur-ee!pur-phy!duncan!lawrence
	ARPA:	nwd@@j.cc.purdue.edu
	FIDO:	Fido 201/2 The Programmer's Room (317) 742-5533
@end(verbatim)
@string(ChapterTitle="")
@set(page = 0)
@pageheading(even, left "@title[Chapter]", right "MicroEMACS Reference Manual")
@pageheading(odd, left "MicroEMACS Reference Manual", right "@title[Chapter]")
@pagefooting(even, left="@value(page)")
@pagefooting(odd, right="@value(page)")
@chapter(Basic Concepts)

	The current version of MicroEMACS is 3.8i (Third major re-write,
eighth public release, Ith (or ninth) minor release), and for the rest of
this document, we shall simply refer to this version as "EMACS".  Any
modifications for later versions will be listed in the appendixes at the
end of this manual. 

@section(Keys and the Keyboard)

	Many times throughout this manual we will be talking about
@index(special keys) commands and the keys on the keyboard needed use
them.  There are a number of "special" keys which can be used and are
listed here:

@begin(description)
@\NewLine which is also called RETURN or ENTER, this key is used to
@index(newline) end different commands. 

^@\The control key can be used before any alphabetic character and some
symbols.  For example, ^C means to hold down the  key and type
@index(control key) the C key at the same time. 

^X@\The CONTROL-X key is used at the beginning of many different
@index(control-x) commands. 

META or M-@\This is a special EMACS key used to begin many commands as
@index(meta key) well.  This key is pressed, and then released before
typing the next character.  On most systems, this is the  key, but
it can be changed.  (consult appendix D to learn what key is used for
META on your computer).
@end(description)

Whenever a command is described, the manual will list the actual
keystrokes needed to execute it in @b(boldface) using the above
conventions, and also the name of the command in @i(italics).
@section(Getting Started)

	In order to use EMACS, you must call it up from your system's or
computer's command prompt.  On UNIX and MSDOS machines, just type
"emacs" from the main command prompt and follow it with the  or
 key (we will refer to this key as  for "new-line" for the
remainder of this manual).  On the Macintosh, the Amiga, the ATARI ST
and other icon based operating systems, double click on the uEMACS icon.
Shortly after this, a screen similar to the one below should appear.

@section(Parts and Pieces)

	The screen is divided into a number of areas or @b.  On
some systems the top window contains a function list of unshifted and
@index(windows) shifted function keys.  We will discuss these keys later. 
@index(mode line) Below them is an EMACS @b which, as we will
see, informs you of the present mode of operation of the editor--for
example "(WRAP)" if you set EMACS to wrap at the end of each line. 
@index(text window) Under the mode line is the @b where text
appears and is manipulated.  Since each window has its own mode line,
below the text window is it's mode line.  The last line of the screen is
the @b(command line) where EMACS takes commands and reports on what it
is doing. 

@begin(verbatim)
===============================================================================
f1 search      f2 search back : F1 toggle function list F2 toggle help file
f3 hunt        f4 hunt back   : F3 find command/apropos F4 describe key
f5 next window f6 exec macro  : F5 reformat paragraph	F6 ref undented region 
f7 find file   f8 exec file   : F7 indent region	F8 undent region
f9 save file  f10 exit emacs  : F9 execute DOS command F10 shell up
===============================================================================
-- MicroEMACS 3.8i () -- Function Keys ---------------------------------------
===============================================================================












===============================================================================
-- MicroEMACS 3.8i () -- Main ------------------------------------------------
===============================================================================
		Fig 1:	EMACS screen on an IBM-PC
@end(verbatim)

@section(Entering Text)

Entering text in EMACS is simple.  Type the following sentence fragment:

@quotation

@flushleft(The text is displayed at the top of the text window.  Now type:)

@quotation

Notice the text to the left of the cursor disappears and a '$' sign
appears.  Don't panic--your text is safe!!! You've just discovered that
EMACS doesn't "wrap" text to the next line like most word processors
unless you hit .  But since EMACS is used for both word processing,
and text editing, it has a bit of a dual personality.  You can change
@index(modes) the way it works by setting various @b(modes).  In this
case, you need to set @b(WRAP) mode, using the @i(add-mode)
@index(add-mode) command, by typing @b(^X-M).  The command line at the
base of the screen will prompt you for the mode you wish to add.  Type
@b followed by the  key and any text you now enter will be
wrapped.  However, the command doesn't wrap text already entered.  To
get rid of the truncated line, delete characters with the 
key until the '$' goes away.  Now type in the words you deleted, watch
how EMACS goes down to the next line at the right time.  @i{(In some
versions of EMACS, @b is a default mode in which case you don't
have to worry about the instructions relating to adding this mode.)}

Now let's type a longer insert.  Hit  a couple of times to tab
down from the text you just entered.  Now type the following paragraphs. 
Press  twice to indicate a paragraph break. 

@quotation

@section

Now let's practice moving around in this text.  To move the cursor back
to the word "Winding," enter @b @i(previous-word)
@index(previous-word).  This command moves the cursor backwards by one
word at a time.  Note you have to press the key combination every time
the cursor steps back by one word.  Continuously pressing META and
toggling B produces an error message.  To move forward to the word
"stairs" enter @b, which moves the cursor forward by one word at a
time. 

Notice that EMACS commands are usually mnemonic--F for forward, B for
backward, for example.

To move the cursor up one line, enter @b<^P> @i(previous-line)
@index(previous-line), down one line @b<^N> @i(next-line)
@index(next-line).  Practice this movement by moving the cursor to the
word "terrifying" in the second line. 

The cursor may also be moved forward or backward in smaller increments. 
To move forward by one character, enter @b<^F> @i(forward-character)
@index(forward-character), to move backward, @b<^B>
@i(backward-character) @index(backward-character).  EMACS also allows
you to specify a number which is normally used to tell a command to
execute many times.  To repeat most commands, press META and then the
number before you enter the command.  Thus, the command META 5 ^F
(@b) will move the cursor forward by five characters.  Try moving
around in the text by using these commands.  For extra practice, see how
close you can come to the word "small" in the first paragraph by giving
an argument to the commands listed here. 

Two other simple cursor commands that are useful to help us move around
in the text are @b @i(next-paragraph) @index(next-paragraph) which
moves the cursor to the second paragraph, and @b
@i(previous-paragraph) @index(previous-paragraph) which moves it back to
the previous paragraph.  The cursor may also be moved rapidly from one
end of the line to the other.  Move the cursor to the word "few" in the
second line.  Press @b<^A> @i(beginning-of-line)
@index(beginning-of-line).  Notice the cursor moves to the word "events"
at the beginning of the line.  Pressing @b<^E> @i(end-of-line)
@index(end-of-line) moves the cursor to the end of the line. 

Finally, the cursor may be moved from any point in the file to the end
or beginning of the file.  Entering @b{M->} @i(end-of-file)
@index(end-of-file) moves the cursor to the end of the buffer, @b{M-<}
@i(beginning-of-file) @index(beginning-of-file) to the first character
of the file. 

@i(On the IBM-PC, the ATARI ST and many other machines, the cursor keys
@index(cursor keys) can also be used to move the cursor about.  Also, if
there is one available, moving the mouse will move the cursor.)

Practice moving the cursor in the text until you are comfortable with
the commands we've explored in this chapter.

@section(Saving your text)

When you've finished practicing cursor movement, save your file.  Your
@index(buffer) file currently resides in a @b.  The buffer is a
temporary storage area for your text, and is lost when the computer is
turned off.  You can save the buffer to a file by entering @b<^X-^S>
@i(save-file) @index(save-file).  Notice that EMACS informs you that
your file has no name and will not let you save it. 

To save your buffer to a file with a different name than it's current
one (which is empty), press @b<^X^W> @i(write-file) @index(write-file). 
EMACS will prompt you for the filename you wish to write.  Enter the
name @b and press return.  On a micro, the drive light will
come on, and EMACS will inform you it is writing the file.  When it
finishes, it will inform you of the number of lines it has written to
the disk. 

Congratulations!! You've just saved your first EMACS file!
@newpage
@heading(Chapter @value(chapter) Summary)

	In chapter @value(chapter), you learned how to enter text, how
to use wrap mode, how to move the cursor, and to save a buffer.  The
following is a table of the commands covered in this chapter and their
corresponding key bindings:

@begin{verbatim}
@u(Key Binding		Keystroke	Effect)

abort-command		@b<^G>		aborts current command

add-mode		@b<^XM>		allows addition of EMACS
					mode such as @b(WRAP)

backward-character	@b<^B>		moves cursor left one character

beginning-of-file	@b{M-<}		moves cursor to beginning of file

beginning-of-line	@b<^A>		moves cursor to beginning of line

end-of-file		@b{M->}		moves cursor to end of file

end-of-line		@b<^E>		moves cursor to end of line

forward-character	@b<^F>		moves cursor right one character

next-line		@b<^N>		moves cursor to next line

next-paragraph		@b		moves cursor to next paragraph

next-word		@b		moves cursor forward one word

previous-line		@b<^P>		moves cursor backward by one line

previous-paragraph	@b		moves cursor to previous paragraph

previous-word		@b		moves cursor backward by one word

save-file		@b<^X-^S>	saves current buffer to a file

write-file		@b<^X-^W>	save current buffer under a new name
@end(verbatim)
@newpage
@chapter(Basic Editing--Simple Insertions and Deletions)

@section

In the first chapter, you learned how to create and save a file in
EMACS.	Let's do some more editing on this file.  Call up emacs by
typing in the following command.

@b

@i(On icon oriented systems, double click on the uEMACS icon, usually a
file dialog box of some sort will appear.  Choose @b(FANG.TXT) from the
appropriate folder.)

Shortly after you invoke EMACS, the text should appear on the screen
ready for you to edit.  The text you are looking at currently resides in
a @b.  A buffer is a temporary area of computer memory which is
@index(buffer) the primary unit internal to EMACS -- this is the place
where EMACS goes to work.  The mode line at the bottom of the screen
lists the buffer name, @b and the name of the file with which
this buffer is associated, @b

The computer talks to you through the use of its @b(screen).  This
@index(screen) screen usually has an area of 24 lines each of 80
characters across.  You can use EMACS to subdivide the screen into
several separate work areas, or @b(windows), each of which can be
@index(window) 'looking into' different files or sections of text.  Using
windows, you can work on several related texts at one time, copying and
moving blocks of text between windows with ease.  To keep track of what
you are editing, each window is identified by a @b(mode line) on the
@index(mode line) @index(buffer) last line of the window which lists the
name of the @b(buffer) which it is looking into, the file from which the
text was read, and how the text is being edited. 

An EMACS @b tells EMACS how to deal with user input.  As we have
already seen, the mode 'WRAP' controls how EMACS deals with long lines
(lines with over 79 characters) while the user is typing them in.  The
'VIEW' mode, allows you to read a file without modifying it.  Modes are
associated with buffers and not with files; hence, a mode needs to be
explicitly set or removed every time you edit a file.  A new file read
into a buffer with a previously specified mode will be edited under this
mode.  If you use specific modes frequently, EMACS allows you to set
the modes which are used by all new buffers, called @b modes. 

@section

Your previously-saved text should look like this:

@quotation

Let's assume you want to add a sentence in the second paragraph after
the word "base."  Move the cursor until it is on the "W" of "Winding".
Now type the following:

@quotation

If the line fails to wrap and you end up with a '$' sign in the right
margin, just enter @b{M-Q} @i(fill-paragraph) @index(fill-paragraph) to
reformat the paragraph.  This new command attempts to fill out a
paragraph.  Long lines are divided up, and words are shuffled around to
make the paragraph look nicer. 

Notice that all visible EMACS characters are self-inserting -- all you
had to do was type the characters to insert and the existing text made
space for it.  With a few exceptions discussed later, all non-printing
characters (such as control or escape sequences) are commands.  To
insert spaces, simply use the space bar.  Now move to the first line of
the file and type @b{^O} @i(open-line) @index(open-line) (Oh, not zero). 
You've just learned how to insert a blank line in your text. 

@section

EMACS offers a number of deletion options.  For example, move the cursor
until it's under the period at the end of the insertion you just did. 
Press the backspace key.  Notice the "n" on "lantern" disappeared.  The
backspace implemented on EMACS is called a @b backspace--it
removes text immediately before the current cursor position from the
buffer.  Now type @b<^H> @i(delete-previous-character)
@index(delete-previous-character).  Notice that the cursor moves back
and obliterates the "r"--either command will backspace the cursor. 

Type in the two letters you erased to restore your text and move the
cursor to the beginning of the buffer @b{M->} @i(beginning-of-file)
@index(beginning-of-file).  Move the cursor down one line to the
beginning of the first paragraph. 

To delete the forward character, type @b{^D} @i(delete-next-character)
@index(delete-next-character).  The "F" of "Fang" disappears.  Continue
to type @b{^D} until the whole word is erased EMACS also permits the
deletion of larger elements of text.  Move the cursor to the word
"center" in the first line of text.  Pressing @b{M-}
@i(delete-previous-word) @index(delete-previous-word) kills the word
immediately before the cursor.  @b{M-^H} has the same effect. 

Notice that the commands are very similar to the control commands you
used to delete individual letters.  As a general rule in EMACS, control
sequences affect small areas of text, META sequences larger areas.  The
word forward of the cursor position can therefore be deleted by typing
@b{M-D} @i(delete-next-word) @index(delete-next-word).  Now let's take
out the remainder of the first line by typing @b{^K}
@i(kill-to-end-of-line) @index(kill-to-end-of-line).  You now have a
blank line at the top of your screen.  Typing @b{^K} again or @b{^X-^O}
@i(delete-blank-lines) @index(delete-blank-lines) deletes the blank line
and flushes the second line to the top of the text.  Now exit EMACS by
typing @b{^X-^C} @i(exit-emacs) @index(exit-emacs).  Notice EMACS
reminds you that you have not saved your buffer.  Ignore the warning and
exit.  This way you can exit EMACS without saving any of the changes you
just made. 

@heading(Chapter @value(chapter) Summary)

In Chapter @value(chapter), you learned about the basic 'building
blocks' of an EMACS text file--buffers, windows, and files. 

@begin{verbatim}
@u(Key binding		Keystroke	Effect)
delete-previous-character
			@b{^H}		deletes character immediately before
					the current cursor position

delete-next-character	@b{^D}		deletes character immediately after     
					current cursor position

delete-previous-word	@b{M-^H}	deletes word immediately before
					current cursor position

delete-next-word	@b{M-D}		deletes word immediately after
					current cursor position

kill-to-end-of-line	@b<^K>		deletes from current cursor
					position to end of line

insert-space		@b<^C>		inserts a space to right of cursor

open-line		@b{^O}		inserts blank line

delete-blank-lines	@b{^X-^O}	removes blank line

exit-emacs		@b{^X-^C}	exits emacs
@end(verbatim)
@chapter(Using Regions)

@section(Defining and Deleting a Region)

At this point its time to familiarize ourselves with two more EMACS
terms--the @b and the @b.  The point is located directly
@index(point) @index(mark) behind the current cursor position.  The mark
(as we shall see shortly) is user defined.  These two elements together
are called the current @b(region) and limit the @b of text on
which EMACS performs many of its editing functions. 

Let's begin by entering some new text.  Don't forget to add @b(wrap)
mode if its not set on this buffer.  Start EMACS and open a file called
@b{PUBLISH.TXT}.  Type in the following text:

@quotation{One of the largest growth areas in personal computing is
electronic publishing.  There are packages available for practically
every machine from elegantly simple programs for the humble Commodore 64
to sophisticated professional packages for PC and Macintosh computers. 

Electronic publishing is as revolutionary in its way as the Gutenburg
press.  Whereas the printing press allowed the mass production and
distribution of the written word, electronic publishing puts the means
of production in the hands of nearly every individual.  From the class
magazine to the corporate report, electronic publishing is changing the
way we produce and disseminate information. 

Personal publishing greatly increases the utility of practically every
computer.  Thousands of people who joined the computer revolution of
this decade only to hide their machines unused in closets have
discovered a new use for them as dedicated publishing workstations.}

Now let's do some editing.  The last paragraph seems a little out of
place.  To see what the document looks like without it we can cut it
from the text by moving the cursor to the beginning of the paragraph. 
Enter @b(M-) @i(set-mark) @index(set-mark).  EMACS will respond
with "[Mark set]".  Now move the cursor to the end of the paragraph. 
You have just defined a region of text.  To remove this text from the
screen, type @b<^W> @i(kill-region) @index(kill-region).  The paragraph
disappears from the screen. 

On further consideration, however, perhaps the paragraph we cut wasn't
so bad after all.  The problem may have been one of placement.  If we
could tack it on to the end of the first paragraph it might work quite
well to support and strengthen the argument.  Move the cursor to the end
of the first paragraph and enter @b<^Y> @i(yank) @index(yank).  Your
text should now look like this:

@quotation{One of the largest growth areas in personal computing is
electronic publishing.  There are packages available for practically
every machine from elegantly simple programs for the humble Commodore 64
to sophisticated professional packages for PC and Macintosh computers. 
Personal publishing greatly increases the utility of practically every
computer.  Thousands of people who joined the computer revolution of
this decade only to hide their machines unused in closets have
discovered a new use for them as dedicated publishing workstations. 

Electronic publishing is as revolutionary in its way as the Gutenburg
press.  Whereas the printing press allowed the mass production and
distribution of the written word, electronic publishing puts the means
of production in the hands of nearly every individual.	From the class
magazine to the corporate report, electronic publishing is changing the
way we produce and disseminate information.}

@section(Yanking a Region)

The text you cut initially didn't simply just disappear, it was cut into
a buffer that retains the 'killed' text appropriately called the @b.  @b<^Y> "yanks" the text back from this buffer into the current
buffer. If you have a long line (indicated, remember, by the "$"
sign), simply hit @b{M-Q} to reformat the paragraph. 

There are other uses to which the kill buffer can be put.  Using the
@index(kill buffer) method we've already learned, define the last
paragraph as a region.  Now type @b @i(copy-region)
@index(copy-region).  Nothing seems to have happened; the cursor stays
blinking at the point.  But things have changed, even though you may not
be able to see any alteration. 

To see what has happened to the contents of the kill buffer, move the
cursor down a couple of lines and "yank" the contents of the kill buffer
back with @b<^Y>.  Notice the last paragraph is now repeated.  The
region you defined is "tacked on" to the end of your file because
@b @b a region to the kill buffer while leaving the
original text in your working buffer.  Some caution is needed however,
because the contents of the kill buffer are updated when you delete any
regions, lines or words.  If you are moving large quantities of text,
complete the operation before you do any more deletions or you could
find that the text you want to move has been replaced by the most recent
deletion.  Remember--a buffer is a temporary area of computer memory
that is lost when the machine is powered down or switched off.  In order
to make your changes permanent, they must be saved to a file before you
leave EMACS.  Let's delete the section of text we just added and save
the file to disk. 

@heading(Chapter @value(chapter) Summary)

In Chapter @value(chapter), you learned how to achieve longer insertions
and deletions.  The EMACS terms @b and @b were introduced
and you learned how to manipulate text with the kill buffer. 

@begin{verbatim}
@begin(group)
@u(Key Binding	Keystroke	Effect)

Delete-Region	@b{^W}		Deletes region between point and mark and
				places it in KILL buffer

Copy-Region	@b{M-W}		Copies text between point and mark into
				KILL buffer

Yank-Text	@b{^Y}		Inserts a copy of the KILL buffer into
				current buffer at point
@end(group)
@end(verbatim)
@chapter(Search and Replace)

@section

Load EMACS and bring in the file you just saved.  Your file should look
like the one below.

@quotation{One of the largest growth areas in personal computing is
electronic publishing.  There are packages available for practically every
machine from elegantly simple programs for the humble Commodore 64 to
sophisticated professional packages for PC and Macintosh computers. 
Personal publishing greatly increases the utility of practically every
computer.  Thousands of people who joined the computer revolution of
this decade only to hide their machines unused in closets have
discovered a new use for them as dedicated publishing workstations. 

Electronic publishing is as revolutionary in its way as the Gutenburg
press.  Whereas the printing press allowed the mass production and
distribution of the written word, electronic publishing puts the means
of production in the hands of nearly every individual.	From the class
magazine to the corporate report, electronic publishing is changing the
way we produce and disseminate information.}

Let's use EMACS to search for the word "revolutionary" in the second
paragraph.  Because EMACS searches from the current cursor position
toward the end of buffers, and we intend to search forward, move the
cursor to the beginning of the text.  Enter @b<^S> @i(search-forward)
@index(search-forward).  Note that the command line now reads

"Search [] :" 

EMACS is prompting you to enter the @b -- the text you
want to find.  Enter the word @b and hit the @b
key.  The cursor moves to the end of the word "revolutionary."

Notice that you must enter the  key to start the search.  If you
@index() simply press  the command line responds with "". 
Although this may seem infuriating to users who are used to pressing the
return key to execute any command, EMACS' use of  to begin
searches allows it to pinpoint text with great accuracy.  After every
line wrap or carriage return, EMACS 'sees' a new line character (). 
If you need to search for a word at the end of a line, you can specify
this word uniquely in EMACS. 

In our sample text for example, the word "and" occurs a number of times,
but only once at the end of a line.  To search for this particular
occurrence of the word, move the cursor to the beginning of the buffer
and type @b(^S).  Notice that EMACS stores the last specified
@index(default string) search string as the @b string.  If you
press @b{} now, EMACS will search for the default string, in this
case, "revolutionary."

To change this string so we can search for our specified "and" simply
enter the word @b{and} followed by @b{}.  The command
line now shows:

"search [and]:"

Press @b{} and the cursor moves to "and" at the end of the second
last line.

@section

If the mode EXACT is active in the current buffer, EMACS searches on a case
sensitive basis.  Thus, for example you could search for @b{Publishing}
as distinct from @b{publishing}. 


@section

Backward searching is very similar to forward searching except that it
is implemented in the reverse direction.  To implement a reverse search,
type @b{^R} @i(search-reverse) @index(search-reverse).  Because EMACS
makes no distinction between forward and backward stored search strings,
the last search item you entered appears as the default string.  Try
searching back for any word that lies between the cursor and the
beginning of the buffer.  Notice that when the item is found, the point
moves to the beginning of the found string (i.e., the cursor appears
under the first letter of the search item). 

Practice searching for other words in your text.

@section

Searching and replacing is a powerful and quick way of making changes to
your text.  Our sample text is about electronic publishing, but the
correct term is 'desktop' publishing.  To make the necessary changes we
need to replace all occurrences of the word "electronic" with "desktop."
First, move the cursor to the top of the current buffer with the @b(M-<)
command.  Then type @b[M-R] @i(replace-string) @index(replace-string). 
The command line responds:

"Replace []:"

where the square brackets enclose the default string.  Type the word
@b and hit @b{}.  The command line responds:

"with []"

type @b{desktop}.  EMACS replaces all instances of the original
word with your revision.  Of course, you will have to capitalize the
first letter of "desktop" where it occurs at the beginning of a
sentence.

You have just completed an @b.  In this
operation, EMACS replaces every instance of the found string with the
replacement string. 
	 
@section

You may also replace text on a case by case basis.  The @b{M-^R}
@i(query-replace-string) @index(query-replace-string) command causes
EMACS to pause at each instance of the found string. 

For example, assume we want to replace some instances of the word
"desktop" with the word "personal." Go back to the beginning of the
current buffer and enter the @b(M-^R) @i(query-replace)
@index(query-replace) command.  The procedure is very similar to that
which you followed in the unconditional search/replace option.  When the
search begins however, you will notice that EMACS pauses at each
instance of "publishing" and asks whether you wish to replace it with
the replacement string.  You have a number of options available for
response:

@begin(verbatim)
@u(	Response	Effect)
	Y(es)	Make the current replacement and skip to the next
		occurrence of the search string

	N(o)	Do not make this replacement but continue

	!	Do the rest of the replacements with no more queries

	U(ndo)	Undo just the last replacement and query for it
		again (This can only go back ONE time)

	^G	Abort the replacement command (This action does not
		undo previously-authorized replacements

	.	Same effect as ^G, but cursor returns to the point at
		which the replacement command was given

	?	This lists help for the query replacement command
@end(verbatim)

Practice searching and searching and replacing until you feel
comfortable with the commands and their effects.
@begin(group)
@heading(Chapter @value(chapter) Summary)

In this chapter, you learned how to search for specified strings of text
in EMACS.  The chapter also dealt with searching for and replacing
elements within a buffer. 

@begin(verbatim)
@u(Key Binding		Keystroke			 Effect)

Search-Forward		@b{^S}	Searches from point to end of buffer.
				Point is moved from current location to
				the end of the found string

Search-Backward		@b{^R}	Searches from point to beginning of buffer. 
				Point is moved from current location to
				beginning of found string

Replace			@b{M-R} Replace ALL occurrences of search string with 
				specified (null) string from point to the
				end of the current buffer

Query-Replace	       @b{M-^R}	As above, but pause at each found string
				and query for action
@end(verbatim)
@end(group)
@chapter(Windows)

@section

We have already met windows in an earlier chapter.  In this chapter, we
will explore one of EMACS' more powerful features -- text manipulation
through multiple windowing.

You will recall that windows are areas of buffer text that you can see
@index(windows) on the screen.  Because EMACS can support several screen
windows simultaneously you can use them to look into different places in
the same buffer.  You can also use them to look at text in different
buffers.  In effect, you can edit several files at the same time. 

Let's invoke EMACS and pull back our file on desktop publishing by
typing

@quotation

When the text appears, type the @b{^X-2} @i(split-current-window)
@index(split-current-window) command.  The window splits into two
windows.  The window where the cursor resides is called the @b
window -- in this case the bottom window.  Notice that each window has a
text area and a mode line.  The @b(command line) is however, common to
all windows on the screen. 

The two windows on your screen are virtually mirror images of each other
because the new window is opened into the same buffer as the one you are
in when you issue the Open-Window command.  All commands issued to EMACS
are executed on the current buffer in the current window.

To move the cursor to the upper window (i.e., to make that window the
current window, type @b{^X-P} @i(previous-window)
@index(previous-window).  Notice the cursor moves to the upper or
@b window.  Entering @b{^X-O} @i(next-window) moves to the
@b{next} window.  Practice moving between windows.  You will notice that
you can also move into the Function Key menu by entering these commands. 

Now move to the upper window.  Let's open a new file.  On the EMACS disk
is a tutorial file.  Let's call it into the upper window by typing:

@quotation<@b[^X-^F] @i(find-file) @index(find-file)>

@flushleft(and press return.  Then enter the filename @b.)

In a short time, the tutorial file will appear in the window.  We now
have two windows on the screen, each looking into different buffers.  We
have just used the @b(^X- ^F) @i(find-file) @index(find-file) command to
find a file and bring it into our current window. 

You can scroll any window up and down with the cursor keys, or with the
commands we've learned so far.	However, because the area of visible
text in each window is relatively small, you can scroll the current
window a line at a time.  

Type @b{^X-^N} @i(move-window-down) @index(move-window-down)

The current window scrolls down by one line -- the top line of text
scrolls out of view, and the bottom line moves towards the top of the
screen.  You can imagine, if you like, the whole window slowly moving
down to the end of the buffer in increments of one line.  The command
@b{^X-^P} @i(move-window-up) @index(move-window-up) scrolls the window
in the opposite direction. 

As we have seen, EMACS editing commands are executed in the current
window, but the program does support a useful feature that allows you to
scroll the @b window.  @b @i(scroll-next-up)
@index(scroll-next-up) scrolls the next window up, @b{M-^U}
@i(scroll-next-down) @index(scroll-next-down) scrolls it downward.  From
the tutorial window, practice scrolling the window with the desktop
publishing text in it up and down. 

When you're finished, exit EMACS without saving any changes in your
files. 

Windows offer you a powerful and easy way to edit text.  By
manipulating a number of windows and buffers on the screen
simultaneously, you can perform complete edits and revisions on the
computer screen while having your draft text or original data
available for reference in another window. 

Experiment with splitting the windows on your screen.  Open windows into
different buffers and experiment with any other files you may have.  Try
editing the text in each window, but
don't forget to save any changes you want to keep -- you still have to
save each buffer separately.

@section(Deleting Windows)

@section(Resizing Windows)

@section(Other Window commands)

@newpage
@heading(Chapter @value(chapter) Summary)

In Chapter @value(chapter) you learned how to manipulate windows and the
editing flexibility they offer. 

@begin{verbatim}
@u(Key Binding		Keystroke		       Effect)

Open-Window		@b{^X-2}	Splits current window into two windows
					if space is available

Close-Windows		@b{^X-1}	Closes all windows except current
					window

Next-Window		@b{^X-O}	Moves point into next (i.e. downward)
					window

Previous-Window		@b{^X-P} 	Moves point to previous (i.e. upward)
					window

Move-Window-Down	@b{^X-^N}	Scrolls current window down one line

Move-Window-Up		@b{^X-^P}	Scrolls current window up one line

Redraw-display		@b{M-!} or	Window is moved so line with point
			@b{M-^L}	(with cursor) is at center of window

Grow-Window		@b{^X-^}	Current window is enlarged by one
					line and nearest window is shrunk by 
					one line

Shrink-Window		@b{^X-^Z} 	Current window is shrunk by one line
					and nearest window is enlarged by one
					line

Clear-and-Redraw	@b{^L}		Screen is blanked and redrawn.  Keeps
					screen updates in sync with your
					commands

Scroll-Next-Up		@b{M-^Z} 	Scrolls next window up by one line

Scroll-Next-Down	@b{M-^U} 	Scrolls next window down by one line
@end(verbatim)
@chapter(Buffers)

@index(buffers) We have already learned a number of things about buffers. 
As you will recall, they are the major internal entities in EMACS -- the
place where editing commands are executed.  They are characterized by
their @b, their @b, and by the file with which they are
associated.  Each buffer also "remembers" its @b(mark) and @b(point). 
This convenient feature allows you to go to other buffers and return to
the original location in the "current" buffer. 

Advanced users of EMACS frequently have a number of buffers in the
computer's memory simultaneously.  In the last chapter, for example, you
opened at least two buffers -- one into the text you were editing, and
the other into the EMACS on-line tutorial.  If you deal with complex
text files -- say, sectioned chapters of a book, you may have five or
six buffers in the computer's memory.  You could select different
buffers by simply calling up the file with @b{^X-^F} @i(find-file)
@index(find-file), and let EMACS open or reopen the buffer.  However,
EMACS offers fast and sophisticated buffering techniques that you will
find easy to master and much more convenient to use. 

Let's begin by opening three buffers.  You can open any three you
choose, for example call the following files into memory: @b(fang.txt),
@b(publish.txt), and @b(emacs.tut) in the order listed here.  When
you've finished this process, you'll be looking at a screen showing the
EMACS tutorial.  Let's assume that you want to move to the fang.txt
buffer.  Enter:

@b{^X-X} @i(next-buffer) @index(next-buffer)

This command moves you to the @u buffer.  Because EMACS cycles
through the buffer list, which is alphabetized, you will now be in the
@b(fang.txt) buffer. Using @b(^X-X) again places you in the
@b(publish.txt) buffer. @i(If you are on a machine that supports
function keys, using @b[^X-X] again places you in the @b(Function Keys)
buffer). Using @b(^X-X) one last time cycles you back to the beginning
of the list.

If you have a large number of buffers to deal with, this cycling process
may be slow and inconvenient.  The command @b{^X-B} @i(select-buffer)
@index(select-buffer) allows you to specify the buffer you wish to be
switched to.  When the command is entered, EMACS prompts, "Use buffer:". 
Simply enter the buffer name (NOT the file name), and that buffer will
then become the current buffer. 

Multiple buffer manipulation and editing is a complex activity, and you
will probably find it very inconvenient to re-save each buffer as you
modify it.  The command @b{^X-^B} @i(list-buffers) @index(list-buffers)
creates a new window that gives details about all the buffers currently
known to EMACS.  Buffers that have been modified are identified by the
"buffer changed" indicator (an asterisk in the second column).  You can
thus quickly and easily identify buffers that need to be saved to files
before you exit EMACS.  The buffer window also provides other
information -- buffer specific modes, buffer size, and buffer name are
also listed.  To close this window, simply type the close-windows
command, @b{^X-1}. 

To delete any buffer, type @b{^X-K} @i(delete-buffer)
@index(delete-buffer).  EMACS prompts you "Kill buffer:".  Enter the
buffer name you want to delete.  As this is destructive command, EMACS
will ask for confirmation if the buffer was changed and not saved. 
Answer Y(es) or N(o).  As usual @b{^G} cancels the command. 

@newpage
@heading(Chapter @value(chapter) Summary)

In Chapter @value(chapter) you learned how to manipulate buffers. 

@begin{verbatim}
@u(Key Binding		Keystroke		       Effect)
Next-Buffer		@b(^X-^X)	Switch to the next buffer in the
					buffer list

Select-Buffer		@b(^X-B)	Switch to a particular buffer

List-Buffers		@b(^X-^B)	List all buffers

Delete-Buffer		@b(^X-K)	delete a particular buffer if it
					is off-screen
@end(verbatim)
@chapter(Modes)

	EMACS allows you to change the way it works in order to
customized it to the style of editing you are using.  It does this by
providing a number of different @b(modes) @index(modes).  These modes
can effect either a single buffer, or any new buffer that is created. 
To add a mode to the current buffer, type @b(^X-M) @i(add-mode)
@index(add-mode).  EMACS will then prompt you for the name of a mode to
add.  When you type in a legal mode name, and type a , EMACS will
add the mode name to the list of current mode names in the mode line of
the current buffer. 

	To remove an existing mode, typing the @b(^X-^M) @i(delete-mode)
@index(delete-mode) will cause EMACS to prompt you for the name of a
mode to delete from the current buffer.  This will remove that mode from
the mode list on the current mode line.

	Global modes are the modes which are inherited by any new
buffers which are created.  For example, if you wish to always do string
searching with character case being significant, you would want global
mode EXACT to be set so that any new files read in inherent the EXACT
mode.  Global modes are set with the @b(M-M) @i(add-global-mode)
@index(add-global-mode) command, and unset with the @b(M-^M)
@i(delete-global-mode) @index(delete-global-mode) command.  Also, the
current global modes are displayed in the first line of a
@b(^X-^B) @i(list-buffers) @index(list-buffers) command.

	On machines which are capable of displaying colors,
@index(color) the mode commands can also set the background and
foreground character colors.  Using @i(add-mode) or @i(delete-mode) with
a lowercase color will set the background color in the current window. 
An uppercase color will set the foreground color in the current window. 
Colors that EMACS knows about are: white, cyan, magenta, yellow, blue,
red, green, and black.  If the computer you are running on does not have
eight colors, EMACS will attempt to make some intelligent guess at what
color to use when you ask for one which is not there. 

@section(ASAVE mode)

	Automatic Save mode tells EMACS to automatically write out the
current buffer to its associated file on a regular basis.  Normally this
will be every 256 characters typed into the file.  The environment
variable $ACOUNT counts down to the next auto-save, and $ASAVE is the
value used to reset $ACOUNT after a save occurs. 

@section(CMODE mode)

	CMODE is useful to C programmers.  When CMODE is active, EMACS
will try to assist the user in a number of ways.  This mode is set
automatically with files that have a .c or .h extension. 

	The  key will normally attempt to return the user to the next
line at the same level of indentation as the current line, unless the
current line ends with a open brace ({) in which case the new line will
be further indented by one tab position.

	A close brace (}) will delete one tab position preceding itself
as it is typed.  This should line up the close brace with its matching
IF, FOR or WHILE statement. 

	A pound sign (#) with only leading whitespace will delete all
the whitespace preceding itself. This will always bring preprocessor
directives flush to the left margin.

	Whenever any close fence is typed, i.e )]>}, if the matching open
fence is on screen in the current window, the cursor will briefly flash
to it, and then back. This makes balancing expressions, and matching
blocks much easier.

@section(CRYPT mode)

	When a buffer is in CRYPT mode, @index(encryption) it is
encrypted whenever it is written to a file, and decrypted when it is
read from the file.  The encryption key can be specified on the command
line with the -k switch, or with the @b(M-E) @i(set-encryption-key)
@index(set-encryption-key) command.  If you attempt to read or write a
buffer in crypt mode and now key has not been set, EMACS will execute
@i(set-encryption-key) automatically, prompting you for the needed key. 
Whenever EMACS prompts you for a key, it will not echo the key to your
screen as you type it (i.e make SURE you get it right when you set it
originally).

	The encryption algorithm used changes all characters into normal
printing characters, thus the resulting file is suitable for sending via
electronic mail.  All version of MicroEMACS should be able decrypt the
resulting file regardless of what machine encrypted it.  Also available
with EMACS is the stand alone program, MicroCRYPT, which can en/decrypt
the files produced by CRYPT mode in EMACS.

@section(EXACT mode)

	All string searches and replacements will take upper/lower case
into account. Normally the case of a string during a search or replace
is not taken into account.

@section(MAGIC mode)

     In the MAGIC mode certain characters gain special meanings when
used in a search pattern.  Collectively they are know as regular
expressions, and a limited number of them are supported in MicroEmacs. 
They grant greater flexibility when using the search command.  However,
they do not affect the incremental search command. 

     The symbols that have special meaning in MAGIC mode are
^, $, ., *, [ (and ], used with it), and \.

     The characters ^ and $ fix the search pattern to the beginning and
end of line, respectively.  The ^ character must appear at the beginning
of the search string, and the $ must appear at the end, otherwise they
loose their meaning and are treated just like any other character.  For
example, in MAGIC mode, searching for the pattern "t$" would put the
cursor at the end of any line that ended with the letter 't'.  Note that
this is different than searching for "t", that is, 't' followed by a
newline character.  The character $ (and ^, for that matter) matches a
position, not a character, so the cursor remains at the end of the line. 
But a newline is a character that must be matched, just like any other
character, which means that the cursor is placed just after it - on the
beginning of the next line. 

     The character .  has a very simple meaning -- it matches any single
character, except the newline.  Thus a search for "bad.er" could match
"badger", "badder" (slang), or up to the 'r' of "bad error". 

     The character * is known as closure, and means that zero or more of
the preceding character will match.  If there is no character preceding,
* has no special meaning, and since it will not match with a newline, *
will have no special meaning if preceded by the beginning of line symbol
^ or the literal newline character . 

     The notion of zero or more characters is important.  If, for
example, your cursor was on the line

@quotation(This line is missing two vowels.)

and a search was made for "a*", the cursor would not move, because it is
guaranteed to match no letter 'a' , which satisfies the search
conditions.  If you wanted to search for one or more of the letter 'a',
you would search for "aa*", which would match the letter a, then zero or
more of them. 

     The character [ indicates the beginning of a character class.  It
is similar to the 'any' character ., but you get to choose which
characters you want to match.  The character class is ended with the
character ].  So, while a search for "ba.e" will match "bane", "bade",
"bale", "bate", et cetera, you can limit it to matching "babe" and
"bake" by searching for "ba[bk]e".  Only one of the characters inside
the [ and ] will match a character.  If in fact you want to match any
character except those in the character class, you can put a ^ as the
first character.  It must be the first character of the class, or else
it has no special meaning.  So, a search for [^aeiou] will match any
character except a vowel, but a search for [aeiou^] will match any vowel
or a ^.

If you have a lot of characters in order that you want to put in the
character class, you may use a dash (-) as a range character.  So, [a-z]
will match any letter (or any lower case letter if EXACT mode is on),
and [0-9a-f] will match any digit or any letter 'a' through 'f', which
happen to be the characters for hexadecimal numbers.  If the dash is at
the beginning or end of a character class, it is taken to be just a
dash. 

     The escape character \ is for those times when you want to be in
MAGIC mode, but also want to use a regular expression character
to be just a character.  It turns off the special meaning of the
character.  So a search for "it\." will search for a line with "it.",
and not "it" followed by any other character.  The escape character
will also let you put ^, -, or ] inside a character class with no
special side effects.

@section(OVER mode)

	OVER mode stands for overwrite mode.  When in this mode, when
characters are typed, instead of simply inserting them into the file,
EMACS will attempt to overwrite an existing character past the point. 
This is very useful for adjusting tables and diagrams. 

@section(WRAP mode)

	Wrap mode is used when typing in continuous text.  Whenever the
cursor is past the currently set fill column @index(fill column) (72 by
default) and the user types a space or a , the last word of the line
is brought down to the beginning of the next line.  Using this, one just
types a continuous stream of words and EMACS automatically inserts s
at appropriate places.

@center(NOTE to programmers:)

@quotation{EMACS actually calls up the function bound to the illegal
keystroke M-FNW.  This is bound to the function @i(wrap-word)
@index(wrap-word) by default, but can be re-bound to activate different
functions and macros at wrap time.}

@section(VIEW mode)

	VIEW mode disables all commands which can change the current
buffer.  EMACS will display an error message and ring the bell every
time you attempt to change a buffer in VIEW mode.
@newpage
@heading(Chapter @value(chapter) Summary)

In Chapter @value(chapter) you learned about modes and their effects.

@begin{verbatim}
@u(Key Binding		Keystroke		       Effect)
Add-Mode		@b(^X-M)	Add a mode to the current buffer

Delete-Mode		@b(^X-^M)	Delete a mode from the current buffer

Add-Global-Mode		@b(M-M)		Add a global mode to the
					current buffer

Delete-Global-Mode	@b(M-^M)	Delete a global mode from the
					current buffer
@end(verbatim)
@chapter(Files)

A file is simply a collection of related data.  In EMACS we are dealing
with text files -- named collections of text residing on a disk (or some
other storage medium).  You will recall that the major entities EMACS
deals with are buffers.  Disk-based versions of files are only active in
EMACS when you are reading into or writing out of buffers.  As we have
already seen, buffers and physical files are linked by associated
filenames.  For example, the buffer "ch7.txt" which is associated with
the physical disk file "ch7.txt." You will notice that the file is
usually specified by the drive name or (in the case of a hard drive) a
path.  Thus you can specify full filenames in EMACS,

e.g. disk:\directories\filename.extension

If you do not specify a disk and directories, the default disk is used.

IMPORTANT -- If you do not explicitly save your buffer to a file, all your
edits will be lost when you leave EMACS (although EMACS will prompt you
when you are about to lose edits by exiting).  In addition, EMACS does
not protect your disk-based files from overwriting when it saves files. 
Thus when you instruct EMACS to save a file to disk, it will create a
file if the specified file doesn't exist, or it will overwrite the
previously saved version of the file thus replacing it.  Your old
version is gone forever. 

If you are at all unsure about your edits, or if (for any reason) you
wish to keep previous versions of a file, you can change the name of the
associated file with the command @b{^X-N}.  When this file is saved
to disk, EMACS will create a new physical file under the new name.  The
earlier disk file will be preserved.

For example, let's load the file @b{fang.txt} into EMACS.  Now, type
@b{^X-N}.  The EMACS command line prompts "name:".  Enter a new name
for the file -- say @b(new.txt) and press .  The file will be
saved under the new filename, and your disk directory will show both
@b(fang.txt) and @b(new.txt).

An alternative method is to write the file directly to disk under a new
filename.  Let's pull our "publish.txt" file into EMACS.  To write this
file under another filename, type @b{^X-^W}.  EMACS will prompt
you "write file:".  Enter an alternate filename -- @b{desktop.txt}. 
Your file will be saved as the physical file "desktop.txt".

Note that in the examples above, although you have changed the names of
the related files, the buffer names remain the same.  However, when you
pull the physical file back into EMACS, you will find that the buffer
name now relates to the filename.

For example -- You are working with a buffer "fang.txt" with the related
file "fang.txt".  You change the name of the file to "new.txt".  EMACS
now shows you working with the buffer "fang.txt" and the related file
"new.txt".  Now pull the file "new.txt" into EMACS.  Notice that the
buffer name has now changed to "new.txt".

If for any reason a conflict of buffer names occurs,(if you have files
of the same name on different drives for example) EMACS will prompt
you "use buffer:".  Enter an alternative buffer name if you need to. 

For a list of file related commands (including some we`ve already
seen), see the summary page.
@newpage
@heading(Chapter @value(chapter) Summary)

In Chapter @value(chapter) you learned some of the more advanced
concepts of file naming and manipulation.  The relationship between
files and buffers was discussed in some detail. 

@begin(verbatim)
@u(Key Binding	Keystroke	Effect)

Save-file	@b{^X-^S}	Saves contents of current buffer with
				associated filename on default disk/
				directory (if not specified)

Write-File	@b{^X-^W}	Current buffer contents will be
				saved under specified name 

Change-File-name
		@b{^X-N}	The associated filename is changed
				(or associated if not previously
				specified) as specified

Find-File	@b{^X-^F}	Reads specified file into buffer and 
				switches you to that buffer, or switches
				to buffer in which the file has previously
				been read

Read-File	@b{^X-^R}	Reads file into buffer thus overwriting
				buffer contents.  If file has already
				been read into another buffer, you will
				be switched to it

View-File	@b{^X-^V}	The same as read-file except the buffer
				is automatically put into VIEW mode thus 
				preventing any changes from being made
@end{verbatim}
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-- 
                            Paul Homchick
Chimitt Gilman Homchick, Inc.; One Radnor Station, Suite 300; Radnor, PA 19087
             {seismo!bpa | ihnp4!cbmvax} !vu-vlsi!cgh!paul