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Subject: MicroEMACS 3.8i Documentation (Scribe format) 2 of 2
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MicroEmacs 3.8i Documentation in MicroSCRIBE format.
              +++ Part Two of Two +++
(Differs from the original uEmacs distribution by fixing some spelling
 errors and formattating problems)
-----snip-----snip-----snip-----snip-----snip-----snip-----snip-----snip-----
@chapter(Screen Formatting)

@section

As we learned in the introduction, EMACS is not a word processor, but an
editor.  Some simple formatting options are available however, although
in most cases they will not affect the appearance of the finished text
@index(wrapping text) when it is run through the formatter.  We have
already encountered WRAP mode which wraps lines longer than a certain
length (default is 75 characters).  You will recall that WRAP is enabled
by entering @b{^X-M} and responding to the command line prompt with
@b{wrap}. 

You can also set your own wrap margin with the command @b{^X-F}
@i(set-fill-column) @index(set-fill-column).  Notice EMACS responds
"[Fill column is 1]." Now try typing some text.  You'll notice some very
strange things happening -- your text wraps at every word!! This effect
occurs because the set wrap margin command must be preceded by a
numeric argument or EMACS sets it to the first column.  Thus any text
you type that extends past the first column will wrap at the most
convenient line break. 

To reset the wrap column to 72 characters, press the @b{} key and
enter 72.  EMACS will respond "Arg: 72".  Now press @b<^X-F>.  EMACS
will respond "[Fill column is 72]".  Your text will again wrap at the
margin you've been using up to this point.

@section

After an intensive editing session, you may find that you have
paragraphs containing lines of differing lengths.  Although this
disparity will not affect the formatted text, aesthetic and technical
concerns may make it desirable to have consistent paragraph blocks on
the screen.  If you are in WRAP mode, you can reformat a paragraph with
the command @b{M-Q} @i(fill-paragraph) @index(fill-paragraph).  This
command 'fills' the current paragraph reformatting it so all the lines
are filled and wrap logically.  The process is complex, and (especially
with longer paragraphs) may take a little time. 

@section

There may be occasions when you find it necessary to change the case of
the text you've entered.  EMACS allows you to change the case of even
large amounts of text with ease.  Let's try and convert a few of the
office traditionalists to the joy of word processing.  Type in the
following text:

@quotation{Throw away your typewriter and learn to use a word processor. 
Word processing is relatively easy to learn and will increase your
productivity enormously.  Enter the Computer Age and find out just how
much fun it can be!!}

Let's give it a little more impact by capitalizing the first four words. 
The first step is to define the region of text just as you would if you
were doing an extensive deletion.  Set the mark at the beginning of the
paragraph with @b{M-} @i(set-mark) and move the cursor to the
space beyond "typewriter." Now enter @b{^X-^U} @i(case-region-upper). 
Your text should now look like this:

@quotation{THROW AWAY YOUR TYPEWRITER and learn to use a word processor. 
Word processing is relatively easy to learn and will increase your
productivity enormously.  Enter the Computer Age and find out just how
much fun it can be!!}

If you want to change the text back to lower case, type @b{^X-^L}
@i(case-region-lower) @index(case-region-lower).  You can also
capitalize individual words.  To capitalize the word "fun", position the
cursor in front of the word and type @b{M-U} @i(case-word-upper)
@index(case-word-upper).  The word is now capitalized.  To change it
back to lower case, move the cursor back to the beginning of the word
and type @b{M-L} @i(case-word-lower) @index(case-word-lower). 

You may also capitalize individual letters in EMACS.  The command
@b{M-C} @i(case-word-capitalize) @index(case-word-capitalize)
capitalizes the first letter after the point.  This command would
normally be issued with the cursor positioned in front of the first
letter of the word you wish to capitalize.  If you issue it in the
middle of a word, you can end up with some strAnge looking text. 

@section

Unless your formatter is instructed to take screen text literally (as
MicroSCRIBE does in the 'verbatim' environment for example), tabs in
EMACS generally affect screen formatting only. 

When EMACS is first started, it sets the default tab to every eighth
column.  As long as you stay with default, every time you press the tab
key a tab character, @b(^I) is inserted.  This character, like other
control characters, is invisible -- but it makes a subtle and
significant difference to your file and editing. 

For example, in default mode, press the tab key and then type the word
@b{Test}.  "Test" appears at the eighth column.  Move your cursor to the
beginning of the word and delete the backward character.  The word
doesn't move back just one character, but flushes to the left margin. 
The reason for this behavior is easily explained.  In tab default, EMACS
inserts a 'real' tab character when you press the tab key.  This
character is inserted at the default position, but NO SPACES are
inserted between the tab character and the margin (or previous tab
character).  As you will recall, EMACS only recognizes characters (such
as spaces or letters) and thus when the tab character is removed, the
text beyond the tab is flushed back to the margin or previous tab mark.

This situation changes if you alter the default configuration.  The
default value may be changed by entering a numeric argument before
pressing the tab key.  As we saw earlier, pressing the @b{META} key and
entering a number allows you to specify how EMACS performs a given
action.  In this case, let's specify an argument of 10 and hit the tab
key. 

Now hit the tab key again and type @b{Test}.  Notice the word now
appears at the tenth column.  Now move to the beginning of the word and
delete the backward character.	"Test" moves back by one character. 

EMACS behaves differently in these circumstances because the @b(^I)
@index(tab handling) @i(handle-tab) @index(handle-tab) function deals
with tabbing in two distinct ways.  In default conditions, or if the
numeric argument of zero is used, @i(handle-tab) inserts a true tab
character.  If, however, a non-zero numeric argument is specified,
@i(handle-tab) inserts the correct number of spaces needed to position
the cursor at the next specified tab position.  It does NOT insert the
single tab character and hence any editing functions should take account
of the number of spaces between tabbed columns. 

Many times you would like to take a line which has been created using
the tab character and change it to use just spaces.  The command
@b(^X-^D) @i(detab-line) @index(detab-line) changes any tabs from the
point to the end of the current line into the right number of spaces so
the line does not change.  This is very useful for times when the file
must be printed or transferred to a machine which does not understand
tabs. 

Also, the inverse command, @b(^X-^E) @i(entab-lines) @index(entab-lines)
changes multiple spaces to tabs where possible.  This is a good way to
shrink the size of large documents, especially with data tables.  Both
of these commands can take a numeric argument which will be interpreted
as the number of lines to en/detab. 
@newpage
@heading(Chapter @value(chapter) Summary)

In Chapter @value(chapter) introduced some of the formatting features of
EMACS. Text-wrap, paragraph reformatting, and tabs were discussed in
some detail.  The commands in the following table were covered in the
chapter. 

@begin{verbatim}

@u(Key Binding		Keystroke		    Effect)
Add-Mode/WRAP		@b{^X-M}[WRAP]	Add wrap mode to current buffer

Delete-Mode/WRAP	@b{^X-^M}[WRAP]	Remove wrap mode from current buffer

Set-Fill-Column		@b{^X-F} 	Set fill column to given numeric
					argument  

Fill-Paragraph		@b{M-Q}		Logically reformats the current
					paragraph

Case-Word-Upper 	@b{M-U}		Text from point to end of the
					current word is changed to uppercase

Case-Word-Lower 	@b{M-L}		Text from point to end of the 
					current word is changed to lowercase

Case-Word-Capitalize	@b{M-C}		First word (or letter) after the
					point is capitalized

Case-Region-Upper	@b{^X-^U}	The current region is uppercased

Case-Region-Lower	@b{^X-^L}	The current region is lowercased

Handle-Tab		@b{^I}		Tab interval is set to the given
					numeric argument
Entab-Line		@b(^X-^E)	Changes multiple spaces to tabs
					characters where possible
Detab-Line		@b(^X-^D)	Changes tab characters to the
					appropriate number of spaces
@end{verbatim}
@chapter(Keyboard Macros)

In many applications, it may be necessary to repeat a series of
characters or commands frequently.  For example, a paper may require the
frequent repetition of a complex formula or a long name.  You may also
have a series of EMACS commands that you invoke frequently.  Keyboard
macros offer a convenient method of recording and repeating these
commands. 

Imagine, for example, you are writing a scholarly paper on @i{Asplenium
platyneuron}, the spleenwort fern.  Even the dedicated botanist would
probably find it a task bordering on the agonizing to type
@i{Asplenium platyneuron} frequently throughout the paper.  An
alternative method is 'record' the name in a keyboard macro.  Try it
yourself.

The command @b{^X-(} @i(begin-macro) @index(begin-macro) starts
recording the all the keystrokes and commands you input.  After you've
typed it, enter @b{Asplenium platyneuron}.  To stop recording, type
@b{^X-)} @i(end-macro) @index(end-macro).  EMACS has stored all the
keystrokes between the two commands.  To repeat the name you've stored,
just enter @b{^X-E} @i(execute-macro) @index(execute-macro), and the
name "Asplenium platyneuron" appears.  You can repeat this action as
often as you want, and of course as with any EMACS command, you may
precede it with a numerical argument. 

Because EMACS records keystrokes, you may freely intermix commands and
text.  Unfortunately, you can only store one macro at a time.  Thus, if
you begin to record another macro, the previously defined macro is
lost. Be careful to ensure that you've finished with one macro before
defining another.  If you have a series of commands that you would like
to 'record' for future use, use the macro or procedure facilities
detailed in chapter .
@newpage
@heading(Chapter @value(chapter) Summary)

Chapter @value(chapter) covered keyboard macros.  You learned how to
record keystrokes and how to repeat the stored sequence. 

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

Start-Macro		@b{^X-(}	Starts recording all keyboard input

End-Macro		@b{^X-)}	Stops recording keystrokes for macro

Execute-Macro		@b{^X-E}	Entire sequence of recorded
					keystrokes is replayed
@end{verbatim}
@chapter(MicroEMACS Macros)

	Macros are programs that are used to customize the editor and to
perform complicated editing tasks.  They may be stored in files or
buffers and may be executed using an appropriate command, or bound to a
particular keystroke.  Portions of the standard start-up file are
implement via macros, as well as the example menu system.  The
@i(execute-macro-) @index(execute-macro-) commands cause the
macro, numbered from 1 to 40, to be executed.  The @i(execute-file)
@index(execute-file) command allows you to execute a macro stored in a
disk file, and the @i(execute-buffer) @index(execute-buffer) command
allows you to execute a macro stored in a buffer.  Macros are stored for
easy execution by executing files that contain the store-macro command. 

	There are many different aspects to the macro language within
MicroEMACS.  Editor commands are the various commands that manipulate
text, buffers, windows, etc, within the editor.  Directives are commands
which control what lines get executed within a macro.  Also there are
various types of variables.  Environmental variables both control and
report on different aspects of the editor.  User variables hold string
values which may be changed and inspected.  Buffer variables allow text
to be placed into variables.  Interactive variable allow the program to
prompt the user for information.  Functions can be used to manipulate
all these variables. 

@section(Variables)

	Variables in MicroEMACS can be used to return values within
expressions, as repeat counts to editing commands, or as text to be
inserted into buffers and messages.  The value of these variables is set
using the set (^X-A) command.  For example, to set the current fill
column to 64 characters, the following macro line would be used:

	set $fillcol 64

	or to have the contents of @b(%name) inserted at the point in the
current buffer, the command to use would be:

	insert-string %name
@newpage
@subsection(Environmental Variables)

	"What good is a quote if you can't change it?"

	These variables are used to change different aspects of the way
the editor works.  Also they will return the current settings if used as
part of an expression.  All environmental variable names begin with a
dollar sign ($) and are in lower case.

@begin(description)
$fillcol@\Current fill column

$pagelen@\Number of screen lines used currently

$curwidth@\Number of columns used currently

$curcol	@\Current column of point in current buffer

$curline@\Current line of point in current buffer

$flicker@\Flicker Flag set to TRUE if IBM CGA set to FALSE for most others

$cbufname@\Name of the current buffer

$cfname	@\File name of the current buffer

$sres@\Current screen resolution (CGA, MONO or EGA on the IBM-PC driver.
LOW, MEDIUM, HIGH or DENSE on the Atari ST1040,
NORMAL on all others)

$debug	@\Flag to trigger macro debugging (try it... you'll like it!)

$status	@\return status of the success of the last command
(TRUE or FALSE) usually used with !force

$palette@\string used to control the palette register
settings on graphics versions.	The usually form
consists of groups of three octal digits
setting the red, green, and blue levels.

$asave	@\The number of inserted characters between
automatic file-saves in ASAVE mode.

$acount	@\The countdown of inserted characters until
the next save-file.

$lastkey@\Last keyboard character typed

$curchar@\Character currently at the point

$discmd	@\Flag to disable the echoing of messages
on the command line

$version@\Contains the current MicroEMACS version number

$progname@\Always contains the string "MicroEMACS" for
standard MicroEMACS. Could be something else
if used as part of someone else's program

$seed@\integer seed of the random number generator

$disinp	@\Flag to disable the echoing of characters during command line input
@end(description)

	Obviously, many more of these variables will be available in
future releases of MicroEMACS. (Yes, send a vote for your favorite new
environmental variables today).

@subsection(User variables)

	User variables allow you, the user, to store strings and
manipulate them.  These strings can be pieces of text, numbers (in text
form), or the logical values @b(TRUE) and @b(FALSE).  These variables
can be combined, tested, inserted into buffers, and otherwise used to
control the way your macros execute.  At the moment, up to 100 user
variables may be in use in one editing session.  All users variable
names must begin with a percent sign (%) and may contain any printing
characters.  Only the first 10 characters are significant (i.e
differences beyond the tenth character are ignored).  Most operators
will truncate strings to a length of 128 characters. 

@subsection(Buffer Variables)

	Buffer variables are special in that they can only be queried
and cannot be set.  What buffer variables are is a way to take text from
a buffer and place it in a variable. For example, if I have a buffer by
the name of RIGEL2, and it contains the text:

@begin(verbatim)
@begin(group)
	Richmond
	Lafayette
	<*>Bloomington		(where <*> is the current point)
	Indianapolis
	Gary
	=* MicroEMACS 3.8i (WRAP) == rigel2 == File: /data/rigel2.txt =====
@end(group)
@end(verbatim)

	and within a command I reference #rigel2, like:

	insert-string #rigel2

	MicroEMACS would start at the current point in the RIGEL2
buffer and grab all the text up to the end of that line and pass that
back.  Then it would advance the point to the beginning of the next line.
Thus, after our last command executes, the string "Bloomington" gets
inserted into the current buffer, and the buffer RIGEL2 now looks like
this:

@begin(verbatim)
@begin(group)
	Richmond
	Lafayette
	Bloomington
	<*>Indianapolis		(where <*> is the current point)
	Gary
	=* MicroEMACS 3.8i (WRAP) == rigel2 == File: /data/rigel2.txt =====
@end(group)
@end(verbatim)

	as you have probably noticed, a buffer variable consists of the
buffer name, preceded by a pound sign (#).

@subsection(Interactive variables)

	Interactive variables are actually a method to prompt the user
for a string.  This is done by using an at sign (@@) followed either with
a quoted string, or a variable containing a string.  The string is the
placed on the bottom line, and the editor waits for the user to type in
a string.  Then the string typed in by the users is returned as the
value of the interactive variable.  For example:

@begin(verbatim)
	set %quest "What file? "
	find-file @@%quest
@end(verbatim)

	will ask the user for a file name, and then attempt to find it.

@section(Functions)

	Functions can be used to manipulate variables in various ways. 
Functions can have one, two, or three arguments.  These arguments will
always be placed after the function on the current command line.  For
example, if we wanted to increase the current fill column by two, using
emacs's set (^X-A) command, we would write:

@begin(group)
@begin(verbatim)
	set $fillcol &add $fillcol 2
	 \	\      \      \     \____second operand
	  \	 \	\      \_________first operand
	   \	  \	 \_______________function to execute
	    \      \_____________________variable to set
	     \___________________________set (^X-A) command
@end(verbatim)
@end(group)

	Function names always begin with the ampersand (&) character,
and are only significant to the first three characters after the
ampersand.  Functions will normal expect one of three types of
arguments, and will automatically convert types when needed.

@begin(description)
@\an ascii string of digits which is interpreted as a numeric value. 
Any string which does not start with a digit or a minus sign (-) will be
considered zero. 

@\An arbitrary string of characters.  At the moment, strings are
limited to 128 characters in length. 

@\A logical value consisting of the string "TRUE" or "FALSE". 
Numeric strings will also evaluate to "FALSE" if they are equal to zero,
and "TRUE" if they are non-zero.  Arbitrary text strings will have the
value of "FALSE". 
@end(description)

	A list of the currently available functions follows: (Once
again, send in those votes on what kind of functions you would like to
see added!) Functions are always used in lower case, the uppercase
letters in the function table are the short form of the function (i.e
&div for ÷).

@begin(verbatim)
Numeric Functions:	(returns )

&ADD		 	Add two numbers
&SUB		 	Subtract the second number from the first
&TIMes		 	Multiply two numbers
&DIVide		 	Divide the first number by the second
				giving an integer result
&MOD		 	Return the reminder of dividing the
				first number by the second
&NEGate				Multiply the arg by -1
&LENgth				Returns length of string
&ASCii				Return the ascii code of the first
				character in 
&RND				Returns a random integer between 1 and 
&ABS				Returns the absolute value of 

String manipulation functions:	(returns )

&CAT		 	Concatenate the two strings to form one
&LEFt		 	return the  leftmost characters
				from 
&RIGht		 	return the  rightmost characters
				from 
&MID		  
				Starting from  position in ,
				return  characters.
&UPPer				Uppercase 
&LOWer				lowercase 
&CHR				return a string with the character
				represented by ascii code 
>K				return a string containing a single
				keystroke from the user

Logical Testing functions:	(returns )

&NOT				Return the opposite logical value
&AND		 	Returns TRUE if BOTH logical arguments
				are TRUE
&OR		 	Returns TRUE if either argument
				is TRUE
&EQUal		 	If  and  are numerically
				equal, return TRUE
&LESs		 	If  is less than , return
				TRUE.
&GREater	 	If  is greater than, or equal to
				, return TRUE.
&SEQual		 	If the two strings are the same, return
				TRUE.
&SLEss		 	If  is less alphabetically than
				, return TRUE.
&SGReater	 	If  is alphabetically greater than
				or equal to , return TRUE.

Special Functions:

&INDirect			Evaluate  as a variable.
@end(verbatim)

	This last function deserves more explanation. The &IND function
evaluates its argument, takes the resulting string, and then uses it as
a variable name.  For example, given the following code sequence:

@begin(verbatim)
	; set up reference table

	set %one	"elephant"
	set %two	"giraffe"
	set %thee	"donkey"

	set %index "two"
	insert-string &ind %index
@end(verbatim)

	the string "giraffe" would have been inserted at the point in
the current buffer.  This indirection can be safely nested up to about
10 levels.

@section(Directives)

	Directives are commands which only operate within an executing
macro, i.e they do not make sense as a single command. As such, they
cannot be called up singly or bound to keystroke. Used within macros,
they control what lines are executed and in what order.

	Directives always start with the exclamation mark (!) character
and must be the first thing placed on a line. Directives executed singly
(via the execute-command-line command) interactively will be ignored.

@subsection(!ENDM Directive)

	This directive is used to terminate a macro being stored. For
example, if a file is being executed contains the text:

@begin(verbatim)
	;	Read in a file in view mode, and make the window red

	26	store-macro
		find-file @@"File to view: "
		add-mode "view"
		add-mode "red"
	!endm

	write-message "[Consult macro has been loaded]"
@end(verbatim)

	only the lines between the store-macro command and the !ENDM
directive are stored in macro 26.

@subsection(!FORCE Directive)

	When MicroEMACS executes a macro, if any command fails, the
macro is terminated at that point. If a line is preceded by a !FORCE
directive, execution continues weather the command succeeds or not. For
example:

@begin(verbatim)
	;	Merge the top two windows

	save-window		;remember what window we are at
	1 next-window		;go to the top window
	delete-window		;merge it with the second window
	!force restore-window	;This will continue regardless
	add-mode "red"
@end(verbatim)

@subsection(!IF, !ELSE, and !ENDIF Directives)

	This directive allows statements only to be executed if a
condition specified in the directive is met.  Every line following the
!IF directive, until the first !ELSE or !ENDIF directive, is only
executed if the expression following the !IF directive evaluates to a
TRUE value.  For example, the following macro segment creates the
portion of a text file automatically.  (yes believe me, this will be
easier to understand then that last explanation....)

@begin(verbatim)
	!if &sequal %curplace "timespace vortex"
		insert-string "First, rematerialize~n"
	!endif
	!if &sequal %planet "earth"	;If we have landed on earth...
		!if &sequal %time "late 20th century"  ;and we are then
			write-message "Contact U.N.I.T."
		!else
			insert-string "Investigate the situation....~n"
			insert-string "(SAY 'stay here Sara')~n"
		!endif
	!else
		set %conditions @@"Atmosphere conditions outside? "
		!if &sequal %conditions "safe"
			insert-string &cat "Go outside......" "~n"
			insert-string "lock the door~n"
		!else
			insert-string "Dematerialize..try somewhere else"
			newline
		!endif
	!endif
@end(verbatim)

@subsection(!GOTO Directive)

	Flow can be controlled within a MicroEMACS macro using the !GOTO
directive. It takes as an argument a label. A label consists of a line
starting with an asterisk (*) and then an alphanumeric label.  Only
labels in the currently executing macro can be jumped to, and trying to
jump to a non-existing label terminates execution of a macro.  For
example..

@begin(verbatim)
	;Create a block of DATA statements for a BASIC program

		insert-string "1000 DATA "
		set %linenum 1000

	*nxtin
		update-screen		;make sure we see the changes
		set %data @@"Next number: "
		!if &equal %data 0
			!goto finish
		!endif

		!if &greater $curcol 60
			2 delete-previous-character
			newline
			set %linenum &add %linenum 10
			insert-string &cat %linenum " DATA "
		!endif

		insert-string &cat %data ", "
		!goto nxtin

	*finish

		2 delete-previous-character
		newline
@end(verbatim)

@subsection(!RETURN Directive)

	The !RETURN Directive causes the current macro to exit, either
returning to the caller (if any) or to interactive mode.  For example:

@begin(verbatim)
	;	Check the monitor type and set %mtyp

	!if &sres "CGA"
		set %mtyp 1
		!return
	!else
		set %mtyp 2
	!endif

	insert-string "You are on a MONOCHROME machine!~n"
@end(verbatim)
@appendix(MicroEMACS commands)

	Below is a complete list of the commands in EMACS, the keys
normally used to do the command, and what the command does.  Remember,
on some computers there may also be additional ways of using a command
(cursor keys and special function keys for example). 

@begin(verbatim)
@u(Command		Binding		Meaning)
abort-command		 ^G	This allows the user to abort out of any
				command that is waiting for input

add-mode		 ^X-M	Add a mode to the current buffer

add-global-mode 	 M-M	Add a global mode for all new buffers

apropos 		 M-A	List out commands whose name contains
				the string specified

backward-character	 ^B	Move one character to the left

begin-macro		 ^X-(	Begin recording a keyboard macro

beginning-of-file	 M-<	Move to the beginning of the file in
				the current buffer

beginning-of-line	 ^A	Move to the beginning of the current line

bind-to-key		 M-K	Bind a key to a function

buffer-position 	 ^X-=	List the position of the cursor in the
				current window on the command line

case-region-lower	 ^X-^L	Make a marked region all lower case

case-region-upper	 ^X-^U	Make a marked region all upper case

case-word-capitalize	 M-C	Capitalize the following word

case-word-lower 	 M-L	Lower case the following word

case-word-upper 	 M-U	Upper case the following word

change-file-name	 ^X-N	Change the name of the file in the
				current buffer

change-screen-size	 M-^S	Change the number of lines of the screen
				currently being used

change-screen-width	 M-^T	Change the number of columns of the
				screen currently being used

clear-and-redraw	 ^L	Clear the physical screen and redraw it

clear-message-line	(none)	Clear the command line

copy-region		 M-W	Copy the currently marked region into
				the kill buffer

count-words		 M-^C	Count how many words, lines and
				characters are in the current marked region

ctlx-prefix		 ^X	Change the key used as the ^X prefix

delete-blank-lines	 ^X-^O	Delete all blank lines around the cursor

delete-buffer		 ^X-K	Delete a buffer which is not being
				currently displayed in a window

delete-mode		 ^X-^M	Turn off a mode in the current buffer

delete-global-mode	 M-^M	Turn off a global mode

delete-next-character	 ^D	Delete the character following the cursor

delete-next-word	 M-D	Delete the word following the cursor

delete-other-windows	 ^X-1	Make the current window cover the entire
				screen

delete-previous-character^H	Delete the character to the left of the
				cursor

delete-previous-word	 M-^H	Delete the word to the left of the cursor

delete-window		 ^X-0	Remove the current window from the screen

describe-bindings	(none)	Make a list of all legal commands

describe-key		 ^X-?	Describe what command is bound to a
				keystroke sequence

detab-line		 ^X-^D	Change all tabs in a line to the
				equivalent spaces

end-macro		 ^X-)	stop recording a keyboard macro

end-of-file		 M->	Move cursor to the end of the current buffer

end-of-line		 ^E	Move to the end of the current line

entab-line		 ^X-^E	Change multiple spaces to tabs where
				possible

exchange-point-and-mark  ^X-^X	Move cursor to the last marked spot,
				make the original position be marked

execute-buffer		(none)	Execute a buffer as a macro

execute-command-line	(none)	Execute a line typed on the command
				line as a macro command

execute-file		 FNB	Execute a file as a macro

execute-macro		 ^X-E	Execute the keyboard macro (play back
				the recorded keystrokes)
execute-macro-	(none)	Execute numbered macro  where  is
				an integer from 1 to 40

execute-named-command	 M-X	Execute a command by name

execute-procedure	 M-^E	Execute a procedure by name

exit-emacs		 ^X-^C	Exit EMACS. If there are unwritten,
				changed buffers EMACS will ask to confirm

fill-paragraph		 M-Q	Fill the current paragraph

filter-buffer		 ^X-#	Filter the current buffer through an
				external filter

find-file		 ^X-^F	Find a file to edit in the current window

forward-character	 ^F	Move cursor one character to the right

goto-line		 M-G	Goto a numbered line

goto-matching-fence	 M-^F	Goto the matching fence

grow-window		 ^X-^	Make the current window larger

handle-tab		 ^I	Insert a tab or set tab stops

hunt-forward		 FN=	Hunt for the next match of the last
				search string

hunt-backward		 FN>	Hunt for the last match of the last
				search string

help			 M-?	Read EMACS.HLP into a buffer and display it

i-shell 		 ^X-C	Shell up to a new command processor

incremental-search	 ^X-S	Search for a string, incrementally

insert-file		 ^X-^I	insert a file at the cursor in the
				current file

insert-space		 ^C	Insert a space to the right of the cursor

insert-string		(none)	Insert a string at the cursor

kill-paragraph		 M-^W	Delete the current paragraph

kill-region		 ^W	Delete the current marked region, moving
				it to the kill buffer

kill-to-end-of-line	 ^K	Delete the rest of the current line

list-buffers		 ^X-^B	List all existing buffers

meta-prefix		 	Key used to precede all META commands

move-window-down	 ^X-^N	Move all the lines in the current window down

move-window-up		 ^X-^P	Move all the lines in the current window up

name-buffer		 M-^N	Change the name of the current buffer

newline 		 ^M	Insert a  at the cursor

newline-and-indent	 ^J	Insert a  at the cursor and indent
				the new line the same as the preceding line

next-buffer		 ^X-X	Bring the next buffer in the list into
				the current window

next-line		 ^N	Move the cursor down one line

next-page		 ^V	Move the cursor down one page

next-paragraph		 M-N	Move cursor to the next paragraph

next-window		 ^X-O	Move cursor to the next window

next-word		 M-F	Move cursor to the beginning of the
				next word

open-line		 ^O	Open a line at the cursor

pipe-command		 ^X-@@	Execute an external command and place
				its output in a buffer

previous-line		 ^P	Move cursor up one line

previous-page		 ^Z	Move cursor up one page

previous-paragraph	 M-P	Move back one paragraph

previous-window 	 ^X-P	Move the cursor to the last window

previous-word		 M-B	Move the cursor to the beginning of the
				word to the left of the cursor

query-replace-string	 M-^R	Replace all of one string with another
				string, interactively querying the user

quick-exit		 M-Z	Exit EMACS, writing out all changed buffers

quote-character 	 ^Q	Insert the next character literally

read-file		 ^X-^R	Read a file into the current buffer

redraw-display		 M-^L	Redraw the display, centering the
				current line

resize-window		 ^X-W	Change the number of lines in the
				current window

restore-window		(none)	Move cursor to the last saved window

replace-string		 M-R	Replace all occurrences of one string
				with another string from the cursor
				to the end of the buffer

reverse-incremental-search^X-R	Search backwards, incrementally

run			 M-^E	Execute a named procedure

save-file		 ^X-^S	Save the current buffer if it is changed

save-window		(none)	Remember current window (to restore later)

scroll-next-up		 M-^Z	Scroll the next window up

scroll-next-down	 M-^V	Scroll the next window down

search-forward		 ^S	Search for a string

search-reverse		 ^R	Search backwards for a string

select-buffer		 ^X-B	Select a buffer to display in the
				current window

set			 ^X-A	Set a variable to a value

set-encryption-key	 M-E	Set the encryption key of the current buffer

set-fill-column 	 ^X-F	Set the current fill column

set-mark			Set the mark

shell-command		 ^X-!	Execute an external command

shrink-window		 ^X-^Z	Make the current window smaller

split-current-window	 ^X-2	Split the current window in two

store-macro		(none)	Store the following macro lines to a
				numbered macro

store-procedure		(none)	Store the following macro lines to a
				named procedure

transpose-characters	 ^T	Transpose the character at the cursor
				with the character to the left

trim-line		 ^X-^T	Trim any trailing whitespace from line

unbind-key		 M-^K	Unbind a key from a function

universal-argument	 ^U	Execute the following command 4 times

unmark-buffer		 M-~	Unmark the current buffer (so it is
				no longer changed)

update-screen		(none)	Force a screen update during macro execution
 
view-file		 ^X-^V	Find a file,and put it in view mode
 
wrap-word		 M-FNW	Wrap the current word, this is an
				internal function
 	
write-file		 ^X-^W	Write the current buffer under a new
				file name

write-message		(none)	Display a string on the command line

yank			 ^Y	yank the kill buffer into the current
				buffer at the cursor
@end(verbatim)
@appendix(MicroEMACS Bindings)

	Below is a complete list of the key bindings used in MicroEMACS.
This can be used as a wall chart reference for MicroEMACS commands.

@begin(verbatim)
@center(@b[Default Key Bindings for MicroEmacs 3.8i])

 ^A   Move to start of line	      ESC A   Apropos (list some commands)
 ^B   Move backward by characters     ESC B   Backup by words
 ^C   Insert space		      ESC C   Initial capitalize word
 ^D   Forward delete		      ESC D   Delete forward word
 ^E   Goto end of line		      ESC E   Reset Encryption Key
 ^F   Move forward by characters      ESC F   Advance by words
 ^G   Abort out of things	      ESC G   Go to a line
 ^H   Backward delete		      
 ^I   Insert tab/Set tab stops
 ^J   Insert CR-LF, then indent 		    
 ^K   Kill forward		      ESC K   Bind Key to function
 ^L   Refresh the screen	      ESC L   Lower case word
 ^M   Insert CR-LF		      ESC M   Add global mode
 ^N   Move forward by lines	      ESC N   Goto End paragraph
 ^O   Open up a blank line	      
 ^P   Move backward by lines	      ESC P   Goto Beginning of paragraph
 ^Q   Insert literal		      ESC Q   Fill current paragraph
 ^R   Search backwards		      ESC R   Search and replace
 ^S   Search forward
 ^T   Transpose characters		       
 ^U   Repeat command four times       ESC U   Upper case word
 ^V   Move forward by pages	      ESC V   Move backward by pages
 ^W   Kill region		      ESC W   Copy region to kill buffer
 ^Y   Yank back from killbuffer       ESC X   Execute named command
 ^Z   Move backward by pages	      ESC Z   Save all buffers and exit

 ESC ^C   Count words in region       ESC ~   Unmark current buffer
 ESC ^F   Goto matching fence	      ESC !   Reposition window
 ESC ^H   Delete backward word	      ESC <   Move to start of buffer
 ESC ^K   Unbind Key from function    ESC >   Move to end of buffer
 ESC ^L   Reposition window	      ESC .   Set mark
 ESC ^M   Delete global mode	      ESC space    Set mark
 ESC ^N   Rename current buffer       ESC rubout   Delete backward word
 ESC ^R   Search & replace w/query	  rubout   Backward delete
 ESC ^S   Change screen rows
 ESC ^T   Change screen columns
 ESC ^V   Scroll next window down
 ESC ^W   Delete Paragraph
 ESC ^Z   Scroll next window up

 ^X ?	Describe a key		   ^X !   Run 1 command in a subjob
 ^X =	Show the cursor position   ^X @@   Pipe DOS command to buffer
 ^X ^	Enlarge display window	   ^X #   Filter buffer thru DOS filter
 ^X 0	Delete current window	   ^X (   Begin macro
 ^X 1	Delete other windows	   ^X )   End macro
 ^X 2	Split current window
				   ^X A   Set variable value
 ^X ^B	 Display buffer list	   ^X B   Switch a window to a buffer
 ^X ^C	 Exit MicroEMACS	   ^X C   Start a new command processor
				   ^X D   Suspend MicroEMACS (BSD4.2 only)
				   ^X E   Execute macro
 ^X ^F	 Find file		   ^X F   Set fill column
 ^X ^I	 Insert file
				   ^X K   Delete buffer
 ^X ^L	 Lower case region
 ^X ^M	 Delete Mode		   ^X M   Add a mode
 ^X ^N	 Move window down	   ^X N   Rename current filename
 ^X ^O	 Delete blank lines	   ^X O   Move to the next window
 ^X ^P	 Move window up 	   ^X P   Move to the previous window
 ^X ^R	 Get a file from disk	   ^X R   Incremental reverse search
 ^X ^S	 Save current file	   ^X S   Incremental forward search
 ^X ^U	 Upper case region
 ^X ^V	 View file
 ^X ^W	 Write a file to disk	   ^X W   resize Window
 ^X ^X	 Swap "." and mark	   ^X X   Use next buffer
 ^X ^Z	 Shrink window		   ^X Z   Enlarge display window

Only under PCDOS:
 -S Hunt forward	     SHIFT  - 
 -R Hunt backward		 Execute macros 1 - 10

@u(Usable Modes)
WRAP	 Lines going past right margin "wrap" to a new line
VIEW	 Read-Only mode where no modifications are allowed
CMODE	 Change behavior of some commands to work with C better
EXACT	 Exact case matching on search strings
OVER	 Overwrite typed characters instead of inserting them
CRYPT	 Current buffer will be encrypted on write, decrypted on read
MAGIC	 Use regular expression matching in searches
ASAVE	 Save the file every 256 inserted characters

WHITE/CYAN/MAGENTA/YELLOW/BLUE/RED/GREEN/BLACK	Sets foreground color
white/cyan/magenta/yellow/blue/red/green/black	Sets background color
@end(verbatim)
@newpage
@appendix(Supported machines)

	The following table lists all the hardware/compilers for which I
currently support MicroEMACS.  This is not exclusive of all machines
which MicroEMACS will run on, but I have either run it myself, or had a
first hand report of it running.

@begin(verbatim)
@u(Hardware	OS		Compiler	Comments)
VAX 780		UNIX V5		native
		UNIX V7		native
		BSD 4.2		native		job control supported
		*VMS		native		only some terminals supported

NCR Tower	UNIX V5		native

Fortune 32:16	UNIX V7		native

IBM-PC		MSDOS 2/3.2	Lattice	2.15	Large CODE/Large DATA
		 		AZTEC 3.4e	Small CODE/Large DATA
				*MSC 4.0
				*MWC 86

HP150		MSDOS		Lattice 2.15	Function key labels
						for the touch screen

HP110		MSDOS		Lattice 2.15
				Aztec 3.4e

*Data General 10
		MSDOS		Lattice 2.15

*Texas Instruments Professional
		MSDOS		Lattice 2.15

Amiga		Intuition	Lattice 3.03	no mouse or menus yet
				*Aztec 3

ST520		TOS		Lattice 3.10	no menus yet,
						no shell commands

@ux[Systems to be supported (i.e some code is already written:)]
Macintosh	Finder 5.0	Aztec

*means that I do not own or have access to the listed compiler and/or
 machine and must rely upon others to help support it. 
@end(verbatim)
@newpage
@appendix(Machine Dependent Notes)

	This appendix lists some notes specific to individual
implementations of MicroEMACS. Every attempt has been made to allow
EMACS to be identical on all machines, but we have also tried to take
advantage of function keys, cursor keys, mice, and special screen modes
where possible.

@appendixsection(IBM-PC/XT/AT and its clones)

	The IBM-PC family of computers is supported with a variety of
different display adapters.  EMACS will attempt to discover what adapter
is connected and use the proper driver for it.	Below is a list of the
currently supported video adapters:

@begin(verbatim)
@u(Adapter			$sres		Original mode used)
Monochrome Graphics Adapter	MONO		MONO
Color Graphics Adapter		CGA		CGA
Enhanced graphics Adapter	EGA		CGA
@end(verbatim)

	EMACS also takes advantage of various function keys and the keys
on the keypad on an IBM-PC.  The function keys are initially not bound
to any particular functions (except by the emacs.rc startup file), but
the keypad keys do default to the following:

@begin(verbatim)
@u(Keypad key	Function)
Home		beginning-of-file
CSRS UP		previous-line
Pg Up		previous-page
CSRS LEFT	backward-character
CSRS RIGHT	forward-character
End		end-of-file
CSRS DOWN	next-line
Pg Dn		Next-page
@end(verbatim)

	All these special keys are indicated in EMACS macros by use of
the @b(FN) prefix.  Below is a list of many of the keys and the codes
used to specify them.  Also the codes may be gotten by using the
describe-key (^X ?) command on the suspect key.
@newpage
@begin(verbatim)
			IBM PC function keys in MicroEmacs

	function	Function	^function	Alt-function
 f1)	  FN;		  FNT		  FN^		  FNh
 f2)	  FN<		  FNU		  FN_		  FNi
 f3)	  FN=		  FNV		  FN`		  FNj
 f4)	  FN>		  FNW		  FNa		  FNk
 f5)	  FN?		  FNX		  FNb		  FNl
 f6)	  FN@@		  FNY		  FNc		  FNm
 f7)	  FNA		  FNZ		  FNd		  FNn
 f8)	  FNB		  FN[		  FNe		  FNo
 f9)	  FNC		  FN\		  FNf		  FNp
f10)	  FND		  FN]		  FNg		  FNq

home)	  FNG				  FNw
CuUp)	  FNH
PgUp)	  FNI				  FN {Alt 132}
CuLf)	  FNK				  FNs
 5  )
CuRt)	  FNM				  FNt
 End)	  FNO				  FNu
CuDn)	  FNP
PgDn)	  FNQ				  FNv
 Ins)	  FNR
 Del)	  FNS
@end(verbatim)
@newpage
@appendixsection(Atari 520/1040ST)

	The ATARI ST family of computers have a dual personality.  They
may use either a monochrome or a color screen.	EMACS supports two
screen resolutions on each monitor. 

@begin(verbatim)
@u(Monitor $sres size #color $palette format)
Color	LOW	40x25	16	000111222333444555666777
	MEDIUM	80x25	4	000111222333
Mono	HIGH	80x25	2	000
	DENSE	80x40	2	000
@end(verbatim)

	The $palette environment variable can be used to change what
color is associated with each color name.  With a color monitor, each
group of three digits indicates an octal number specifying the RED,
GREEN and BLUE levels of that color.  Each color digit can vary from 0
to 7.  For example, the initial setting of $palette in LOW resolution is:

@begin(verbatim)
	000700070770007707077777

	which broken up is:

	000 700 070 770 007 707 077 777

	which means:

	000	Black
	700	Red
	070	Green
	770	Yellow
	007	Blue
	707	Magenta
	077	Cyan
	777	White
@end(verbatim)

@quotation[@i(Note: DENSE mode is not yet supported in 3.8i.  It will be
soon)]

	Also the mouse generates FN prefix codes when moved, or when one
of the two buttons is pressed.	Initially the movement of the mouse is
bound to movement of the cursor, and the left mouse button generates a
set-mark (M-space) command.  The cursor keys and the function keys are
bound similarly to IBM-PC.
@newpage
@appendixsection(Amiga 1000)

	The Commodore AMIGA 1000 version of MicroEMACS does not have
extensive support of the mouse or of pull down menus as of yet.  It does
however come up in a window, and it is possible to re-size it to run in
different sized windows.  The @b(M-^S) @i(change-screen-size)
@index(change-screen-size) takes its numeric argument as the new number
of lines for EMACS to use.  The @b(M-^T) @i(change-screen-width)
@index(change-screen-width) command allows you to change the number of
columns EMACS will use.  The defaults for these are 23 lines and 77
characters across for a full screen window.

@center(Note about Compiling MicroEMACS)

@begin(quotation)
	If you are compiling the sources on the AMIGA to produce an
executable image, and you are using the Lattice compiler, be sure to
give the CLI command 'STACK 40000' before compiling to make sure the
compiler has sufficient stack space to successfully complete
compilation.
@end(quotation)
@newpage
@appendixsection(UNIX V5, V7, and BSD4.[23])

	MicroEMACS under UNIX utilizes the @b(TERMCAP) @index(termcap)
library to provide machine independent screen functions.  Make sure that
termcap is available and properly set on your account before attempting
to use MicroEMACS. 

	Under systems which support job control, you can use the
@b(^X-D) @i(suspend-emacs) @index(suspend-emacs) command to place EMACS
into the background.  This carries a much smaller overhead than bringing
up a new shell under EMACS.  EMACS will properly redraw the screen when
you bring it back to the foreground.

	With the addition of some very machine/operating system specific
code, EMACS can prevent two or more people from modifying the same file
at the same time.  @index(file locking) The upper level of a set of
functions to provide file locking exist in the source file @b(LOCK.C). 
It requires two machine specific functions written and linked into EMACS
for it to operate properly. 

@begin(verbatim)
	char *dolock(fname)

	char *fname;

	dolock() locks a file, preventing others from modifying it. If
	it succeeds, it returns NULL, otherwise it returns a pointer to
	a string in the form "LOCK ERROR: explanation".

	char *undolock(fname)

	char *fname;

	undolock() unlocks a file, allowing others to modifying it. If
	it succeeds, it returns NULL, otherwise it returns a pointer to
	a string in the form "LOCK ERROR: explanation".
@end(verbatim)
-----snip-----snip-----snip-----snip-----snip-----snip-----snip-----snip-----


-- 
                            Paul Homchick
Chimitt Gilman Homchick, Inc.; One Radnor Station, Suite 300; Radnor, PA 19087
             {seismo!bpa | ihnp4!cbmvax} !vu-vlsi!cgh!paul