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.TH AUTOEXPECT 1 "30 June 1995"
.SH NAME
autoexpect \- generate an Expect script from watching a session
.SH SYNOPSIS
.B autoexpect
[
.I args
]
[
.I program args...
]
.br
.SH INTRODUCTION

autoexpect watches you interacting with another program and creates an
Expect script that reproduces your interactions.  For straightline
scripts, autoexpect saves substantial time over writing scripts by
hand.  Even if you are an Expect expert, you will find it convenient
to use autoexpect to automate the more mindless parts of interactions.
It is much easier to cut/paste hunks of autoexpect scripts together
than to write them from scratch.  And if you are a beginner, you may
be able to get away with learning nothing more about Expect than how
to call autoexpect.

The simplest way to use autoexpect is to call it from the command line
with no arguments.  For example:

	% autoexpect

By default, autoexpect spawns a shell for you.  Given a program name
and arguments, autoexpect spawns that program.  For example:

	% autoexpect ftp ftp.cme.nist.gov

Once your spawned program is running, interact normally.  When you
have exited the shell (or program that you specified), autoexpect will
create a new script for you.  By default, autoexpect writes the new
script to "script.exp".  You can override this with the \-f flag
followed by a new script name.

The following example runs "ftp ftp.cme.nist.gov" and stores the
resulting Expect script in the file "nist".
.nf

	% autoexpect \-f nist ftp ftp.cme.nist.gov

.fi
It is important to understand that
autoexpect does not guarantee a working script because it necessarily
has to guess about certain things \- and occasionally it guesses wrong.
However, it is usually very easy to identify and fix these problems.
The typical problems are:
.RS
.TP 4
\(bu
Timing.  A surprisingly large number of programs (rn, ksh, zsh,
telnet, etc.) and devices (e.g., modems) ignore keystrokes that arrive
"too quickly" after prompts.  If you find your new script hanging up
at one spot, try adding a short sleep just before the previous send.

You can force this behavior throughout by overriding the variable
"force_conservative" near the beginning of the generated script.  This
"conservative" mode makes autoexpect automatically pause briefly (one
tenth of a second) before sending each character.  This pacifies every
program I know of.

This conservative mode is useful if you just want to quickly reassure
yourself that the problem is a timing one (or if you really don't care
about how fast the script runs).  This same mode can be forced before
script generation by using the \-c flag.

Fortunately, these timing spots are rare.  For example, telnet ignores
characters only after entering its escape sequence.  Modems only
ignore characters immediately after connecting to them for the first
time.  A few programs exhibit this behavior all the time but typically
have a switch to disable it.  For example, rn's \-T flag disables this
behavior.

The following example starts autoexpect in conservative
mode.
.nf

	autoexpect \-c

.fi
The \-C flag defines a key to toggle conservative mode.  
The following example starts autoexpect (in non-conservative
mode) with ^L as the toggle.  (Note that the ^L is
entered literally - i.e., enter a real control-L).
.nf

	autoexpect \-C ^L

.fi
The following example starts autoexpect in conservative
mode with ^L as the toggle.
.nf

	autoexpect \-c \-C ^L

.fi
.TP
\(bu
Echoing.  Many program echo characters.  For example, if you type
"more" to a shell, what autoexpect actually sees is:
.nf

	you typed 'm',
	computer typed 'm',
	you typed 'o',
	computer typed 'o',
	you typed 'r',
	computer typed 'r',
	...
.fi

Without specific knowledge of the program, it is impossible to know if
you are waiting to see each character echoed before typing the next.
If autoexpect sees characters being echoed, it assumes that it can
send them all as a group rather than interleaving them the way they
originally appeared.  This makes the script more pleasant to read.
However, it could conceivably be incorrect if you really had to wait
to see each character echoed.

.TP
\(bu
Change.  Autoexpect records every character from the interaction in
the script.  This is desirable because it gives you the ability to
make judgements about what is important and what can be replaced with
a pattern match.

On the other hand, if you use commands whose output differs from run
to run, the generated scripts are not going to be correct.  For
example, the "date" command always produces different output.  So
using the date command while running autoexpect is a sure way to
produce a script that will require editing in order for it to work.

The \-p flag puts autoexpect into "prompt mode".  In this mode,
autoexpect will only look for the the last line of program output \-
which is usually the prompt.  This handles the date problem (see
above) and most others.

The following example starts autoexpect in prompt mode.
.nf

	autoexpect \-p

.fi
The \-P flag defines a key to toggle prompt mode.  The following
example starts autoexpect (in non-prompt mode) with ^P as the toggle.
Note that the ^P is entered literally - i.e., enter a real control-P.
.nf

	autoexpect \-P ^P

.fi
The following example starts autoexpect in prompt mode with ^P as the toggle.
.nf

	autoexpect \-p \-P ^P

.fi
.SH OTHER FLAGS
The
.B \-quiet
flag disables informational messages produced by autoexpect.

The
.B \-Q
flag names a quote character which can be used to enter characters
that autoexpect would otherwise consume because they are used as toggles.

The following example shows a number of flags with quote used to
provide a way of entering the toggles literally.
.nf

	autoexpect \-P ^P \-C ^L \-Q ^Q

.fi
.SH STYLE

I don't know if there is a "style" for Expect programs but autoexpect
should definitely not be held up as any model of style.  For example,
autoexpect uses features of Expect that are intended specifically for
computer-generated scripting.  So don't try to faithfully write
scripts that appear as if they were generated by autoexpect.  This is
not useful.

On the other hand, autoexpect scripts do show some worthwhile things.
For example, you can see how any string must be quoted in order to use
it in a Tcl script simply by running the strings through autoexpect.

.SH SEE ALSO
.I
"Exploring Expect: A Tcl-Based Toolkit for Automating Interactive Programs"
\fRby Don Libes,
O'Reilly and Associates, January 1995.
.SH AUTHOR
Don Libes, National Institute of Standards and Technology

.B expect
and
.B autoexpect
are in the public domain.
NIST and I would
appreciate credit if these programs or parts of them are used.