PSL Manual 7 February 1983 Getting Started
section 2.0 page 2.1
CHAPTER 2
CHAPTER 2
CHAPTER 2
GETTING STARTED WITH PSL
GETTING STARTED WITH PSL
GETTING STARTED WITH PSL
2.1. Purpose of This Chapter. . . . . . . . . . . . 2.1
2.2. Defining Logical Device Names for PSL . . . . . . . 2.1
2.2.1. DEC-20 . . . . . . . . . . . . . . . 2.2
2.2.2. VAX . . . . . . . . . . . . . . . . 2.2
2.3. Starting PSL . . . . . . . . . . . . . . . 2.3
2.3.1. DEC-20 . . . . . . . . . . . . . . . 2.3
2.3.2. VAX . . . . . . . . . . . . . . . . 2.3
2.4. Running the PSL System . . . . . . . . . . . . 2.4
2.4.1. Loading Optional Modules . . . . . . . . . 2.4
2.4.2. Notes on Running PSL and RLISP . . . . . . . 2.4
2.4.3. Transcript of a Short Session with PSL . . . . 2.5
2.5. Error and Warning Messages. . . . . . . . . . . 2.8
2.6. Compilation Versus Interpretation . . . . . . . . 2.8
2.7. Function Types. . . . . . . . . . . . . . . 2.9
2.8. Switches and Globals. . . . . . . . . . . . . 2.10
2.9. Reporting Errors and Misfeatures. . . . . . . . . 2.10
2.1. Purpose of This Chapter
2.1. Purpose of This Chapter
2.1. Purpose of This Chapter
This chapter is for beginning users of PSL on the DEC-20 and the VAX 750
and 780 at Utah. It also is meant to be a guide to those familiar with
LISP, and particularly STANDARD LISP, who would like to use PSL as they
read the manual.
It begins with descriptions of how to set up various logical device
definitions required by PSL and how to run PSL. A number of miscellaneous
hints and reminders are given in the remainder of the chapter.
2.2. Defining Logical Device Names for PSL
2.2. Defining Logical Device Names for PSL
2.2. Defining Logical Device Names for PSL
When PSL is installed on your system, the person doing the installation
has the option of using a number of different directory structures and
names, depending on local conventions and available space. There are also
options to select a small system (without all source-code online) or a full
system. Also, as each release of PSL is prepared, we may find it
convenient to change the names and number of sub-directories. In order to
minimize the inconvenience, an attempt has been made to refer to such
directories through some form of logical name ("logical device name" on
DEC-20, shell-variable or link on VAX-UNIX, etc.). In some cases these can
be used as if they were directory names (DEC-20), and in some cases not
(VAX). These definitions are edited at installation time to reflect local
�Getting Started 7 February 1983 PSL Manual
page 2.2 section 2.2
usage, and stored in a file whose name is something like
"logical-names.xxx". This file will be placed on an appropriate directory
(often <PSL> on the DEC-20, ~psl on the VAX, etc.). A message should be
sent out by your installer to indicate where the file is, and its name. It
is suggested that a use of this file be placed in your LOGIN.CMD , .cshrc
or equivalent file.
2.2.1. DEC-20
2.2.1. DEC-20
2.2.1. DEC-20
It is absolutely essential that TAKE <PSL>LOGICAL-NAMES.CMD be inserted
in your LOGIN.CMD file, or executed at EXEC level before using PSL. PSL is
written to rely on these logical device definitions in place of
"hard-coded" directory names. PSL also uses TOPS-20 search paths, so that
for example, "PH:" is defined as the directory (or search list) on which
PSL looks for help files, "PL:" is the directory (or search list) on which
Lap Fasl
Lap Fasl
PSL looks for Lap and Fasl files of the form "xxxx.b", etc.
The logical name "PSL:" is defined to be the directory on which the PSL
executables reside. Thus "PSL:PSL.EXE" should start PSL executing.
There should usually be a PSL:BARE-PSL.EXE, PSL:PSL.EXE and
PSL:RLISP.EXE. BARE-PSL is the minimum system that is constructed during
the PSL build sequence. PSL and RLISP usually contain additional modules
selected by the installer, felt to be most commonly used by your community.
2.2.2. VAX
2.2.2. VAX
2.2.2. VAX
In the current version of UNIX (4.1) there is no equivalent of logical
device definitions that can be used to access files on other directories
from within PSL or many UNIX utilities. We have defined a set of shell
variables ($ variables) that may be used outside of an executing PSL to
refer to the appropriate directories, and a series of PSL global variables
for use inside PSL that contain the equivalent of search paths. In a
future release of PSL for the VAX, we may be able to look up such shell or
environment variables during the attempt to OPEN a file.
These variables are defined in the file "psl-names", usually on the
directory "~psl" (actually /u/local/psl at UTAH). Insert a "source
~psl/psl-names" or equivalent in your .cshrc file. Variables such as
"$psl", "$pl", and "$pu" (on which many utility sources are stored) are
defined.
There should usually be a "$psl/bare-psl", "$psl/psl" and "$psl/rlisp".
Bare-psl is the minimum system that is constructed during the PSL build
sequence. PSL and RLISP usually contain additional modules selected by the
installer, felt to be most commonly used by your community.
�PSL Manual 7 February 1983 Getting Started
section 2.3 page 2.3
2.3. Starting PSL
2.3. Starting PSL
2.3. Starting PSL
2.3.1. DEC-20
2.3.1. DEC-20
2.3.1. DEC-20
After defining the device names, type either PSL:RLISP or PSL:PSL to the
at-sign prompt, @. A welcome message indicates the nature of the system
running, usually with a date and version number. This information may be
useful in describing problems. [Messages concerning bugs or misfeatures
should be directed to PSL-BUGS@UTAH-20; see Section 2.9.]
BARE-PSL.EXE is a "bare" PSL using LISP (i.e. parenthesis) syntax. This
is a small core-image and is ideal for simple LISP execution. It also
Fasl
Fasl
includes a resident Fasl, so additional modules can be loaded. In
particular, the compiler is not normally part of PSL.EXE.
RLISP.EXE is PSL with additional modules loaded, corresponding to the
most common system run at Utah. It contains the compiler and an RLISP
parser. For more information about RLISP see Chapter 3.
It is assumed by PSL and RLISP that file names be of the form "*.sl" or
Fasl
Fasl
"*.lsp" for LISP files, "*.red" for RLISP files, "*.b" for Fasl files, and
Lap
Lap
"*.lap" for Lap files.
2.3.2. VAX
2.3.2. VAX
2.3.2. VAX
The executable files are $psl/psl and $psl/rlisp. Loadable modules are
on $pl/*.b or $pl/*.lap. Help files are on $ph/*.hlp.
$psl/rlisp has the RLISP parser and compiler. Additional modules can be
Load Error
Load Error
loaded from $pl using the Load function. <Ctrl-C> causes a call to Error,
and may be used to stop a runaway computation. <Ctrl-Z> or the function
Quit
Quit
Quit cause the process to be stopped, and control returned to the shell;
the process may be continued. A sequence of <Ctrl-D>'s (EOF) causes the
process to be terminated. This is to allow the use of I/O redirection from
the shell.
[??? Add Cntrl-B for BREAK loop call ???]
[??? Add Cntrl-B for BREAK loop call ???]
[??? Add Cntrl-B for BREAK loop call ???]
Unix 4.1 and 4.1a allow only 14 characters for file names, and case is
significant. The use of ".r" instead of ".red" is recommended as the
extension for RLISP files to save on meaningful characters; other
extensions are as on the DEC-20.
�Getting Started 7 February 1983 PSL Manual
page 2.4 section 2.4
2.4. Running the PSL System
2.4. Running the PSL System
2.4. Running the PSL System
The following sub-sections collect a few miscellaneous notes that are
further expanded on elsewhere. They are provided here simply to get you
started.
2.4.1. Loading Optional Modules
2.4.1. Loading Optional Modules
2.4.1. Loading Optional Modules
Certain modules are not present in the "kernel" or "bare-psl" system, but
can be loaded as options. Some of these optional modules will "auto-load"
when first referenced; others may be explicitly loaded by the user, or
included by the installer when building the "PSL" and "RLISP" core images.
Optional modules can be loaded by executing
LOAD modulename; % in RLISP syntax
or
(LOAD modulename) % in LISP syntax.
The global variable OPTIONS!* contains a list of modules currently
loaded; it does not mention those in the "bare-psl" kernel. Do not reset
this variable; it is used by LOAD to avoid loading already present modules.
RELOAD
RELOAD
[See RELOAD in Chapter 18].
2.4.2. Notes on Running PSL and RLISP
2.4.2. Notes on Running PSL and RLISP
2.4.2. Notes on Running PSL and RLISP
Help Help
Help Help
a. Use Help(); [(Help) in LISP] for general help or an indication
Help Help
Help Help
of what help is available; use Help (a, b, c); [(Help a b c) in
LISP] for information on topics a, b, and c. This call prints
Help
Help
files from the PH: (i.e. <PSL.HELP>) directory. Try Help x;
Help
Help
[(Help x) in LISP] on:
? Exec Mini Step
Br Find MiniEditor Strings
Break Switches MiniTrace TopLoop
Bug For Package Tr
Debug Globals PRLISP Trace
Defstruct GSort PSL UnBr
Edit Help RCREF UnTr
EditF JSYS RLISP Useful
Editor Load ShowSwitches ZFiles
Emode Manual Slate ZPEdit
EWindow
[??? Help() does not work in RLISP ???]
[??? Help() does not work in RLISP ???]
[??? Help() does not work in RLISP ???]
b. File I/O needs string-quotes (") around file names. File names
may use full TOPS-20 or UNIX conventions, including directories,
�PSL Manual 7 February 1983 Getting Started
section 2.4 page 2.5
sub-directories, etc.
IN
IN
Input in RLISP mode is done using the 'IN "File-Name";' command.
Dskin
Dskin
Use (Dskin "File-Name") for input from LISP mode.
For information on similar I/O functions see Chapter 12.
Quit Quit
Quit Quit
c. Use Quit; [(Quit) in LISP] or <Ctrl-C> on the DEC-20 (<Ctrl-Z>
on the VAX) to exit. <Ctrl-C> (<Ctrl-Z> on the VAX) is useful
for stopping run-away computations. On the DEC-20, typing START
or CONTINUE to the @ prompt from the EXEC usually restarts in a
reasonable way.
2.4.3. Transcript of a Short Session with PSL
2.4.3. Transcript of a Short Session with PSL
2.4.3. Transcript of a Short Session with PSL
The following is a transcript of running PSL on the DEC-20.
�Getting Started 7 February 1983 PSL Manual
page 2.6 section 2.4
@psl:psl
PSL 3.1, 11-Oct-82
1 Lisp> % Notice the numbered prompt.
1 Lisp> % Comments begin with "%" and do not change the prompt
1 Lisp> % number.
1 Lisp> (Setq Z '(1 2 3)) % Make an assignment for Z.
(1 2 3)
2 Lisp> (Cdr Z) % Notice the change in prompt number.
(2 3)
3 Lisp> (De Count (L) % Count counts the number or elements
3 Lisp> (Cond ((Null L) 0) % in a list L.
3 Lisp> (T (Add1 (Count (Cdr L))))))
COUNT
4 Lisp> (Count Z) % Call Count on Z.
3
5 Lisp> (Tr Count) % Trace the recursive execution of "Count".
(COUNT)
6 Lisp> % A call on "Count" now shows the value of
6 Lisp> % "Count" and of its arguments each time
6 Lisp> (Count Z) % it is called.
COUNT being entered
L: (1 2 3)
COUNT (level 2) being entered
L: (2 3)
COUNT (level 3) being entered
L: (3)
COUNT (level 4) being entered
L: NIL
COUNT (level 4) = 0
COUNT (level 3) = 1
COUNT (level 2) = 2
COUNT = 3
3
7 Lisp> (De Factorial (X)
7 Lisp> (Cond ((Eq 1)
7 Lisp> (T (Times X (Factorial (Sub1 X))))))
FACTORIAL
8 Lisp> (Tr Factorial)
(FACTORIAL)
9 Lisp> (Factorial 4) % Trace execution of "Factorial".
FACTORIAL being entered
X: 4
FACTORIAL (level 2) being entered
X: 3
FACTORIAL (level 3) being entered
X: 2 % Notice values being returned.
FACTORIAL (level 4) being entered
X: 1
FACTORIAL (level 4) = 1
FACTORIAL (level 3) = 2
FACTORIAL (level 2) = 6
�PSL Manual 7 February 1983 Getting Started
section 2.4 page 2.7
FACTORIAL = 24
24
10 Lisp> (Untr Count Factorial)
NIL
11 Lisp> (Count 'A) % This generates an error causing the break
% loop to be entered.
***** An attempt was made to do CDR on `A', which is not a pair
Break loop
12 Lisp break>> ?
BREAK():{Error,return-value}
----------------------------
This is a Read-Eval-Print loop, similar to the top level loop,
except that the following IDs at the top level cause functions to
be called rather than being evaluated:
? Print this message, listing active Break IDs
T Print stack backtrace
Q Exit break loop back to ErrorSet
A Abort to top level, i.e. restart PSL
C Return last value to the ContinuableError call
R Reevaluate ErrorForm!* and return
M Display ErrorForm!* as the "message"
E Invoke a simple structure editor on ErrorForm!*
(For more information do Help Editor.)
I Show a trace of any interpreted functions
See the manual for details on the Backtrace, and how ErrorForm!* is
set. The Break Loop attempts to use the same TopLoopRead!* etc, as
the calling top loop, just expanding the PromptString!*.
NIL
13 Lisp break>> % Get a Trace-Back of the
13 Lisp break>> I % interpreted functions.
Backtrace, including interpreter functions, from top of stack:
LIST2 CDR COUNT ADD1 COND COUNT LIST2
NIL
14 Lisp break>> Q % To exit the Break Loop.
15 Lisp> % Load in a file, showing its execution.
15 Lisp> % The file contains the following:
15 Lisp> % (Setq X (Cons 'A (Cons 'B Nil)))
15 Lisp> % (Count X)
15 Lisp> % (Reverse X)
15 Lisp> (Dskin "small-file.sl")
(A B)
2
(B A)
NIL
16 Lisp> (Quit)
@continue
"Continued"
17 Lisp> ^C
@start
18 Lisp> (Quit)
�Getting Started 7 February 1983 PSL Manual
page 2.8 section 2.5
2.5. Error and Warning Messages
2.5. Error and Warning Messages
2.5. Error and Warning Messages
Many functions detect and signal appropriate errors (see Chapter 14 for
details); in many cases, an error message is printed. The error conditions
are given as part of a function's definition in the manual. An error
message is preceded by five stars (*); a warning message is preceded by
three. For example, most primitive functions check the type of their
arguments and display an error message if an argument is incorrect. The
type mismatch error mentions the function in which the error was detected,
gives the expected type, and prints the actual value passed.
Sometimes one sees a prompt of the form:
Do you really want to redefine the system function `FOO'?
This means you have tried to define a function with the same name as a
function used by the PSL system. A Y, N, YES, NO, or B response is
required. B starts a break loop. After quitting the break loop, answer Y,
YesP
YesP
N, Yes, or No to the query. See the definition of YesP in Chapter 13. An
affirmative response is extremely dangerous and should be given only if you
are a system expert. Usually this means that your function must be given a
different name.
A common warning message is
*** Function "FOO" has been redefined
If this occurs without the query above, you are redefining your own
function. This happens normally if you read a file, edit it, and read it
in again.
________
The switch !*USERMODE controls whether redefinition of functions is
"dangerous". When NIL, no query is generated. User functions entered when
________
!*USERMODE is on are flagged with the 'USER indicator, used by this
________
mechanism. The switch !*REDEFMSG, described in section 10.1.2, can be set
to suppress these warning messages. There is also a property 'LOSE that
will prevent redefinition; the new definition will be ignored, and a
warning given.
2.6. Compilation Versus Interpretation
2.6. Compilation Versus Interpretation
2.6. Compilation Versus Interpretation
PSL uses both compiled and interpreted code. If compiled, a function
usually executes faster and is smaller. However, there are some semantic
differences of which the user should be aware. For example, some recursive
functions are made non-recursive, and certain functions are open-compiled.
A call to an open-compiled function is replaced, on compilation, by a
series of online instructions instead of just being a reference to another
function. Functions compiled open may not do as much type checking. The
user may have to supply some declarations to control this behavior.
�PSL Manual 7 February 1983 Getting Started
section 2.6 page 2.9
The exact semantic differences between compiled and interpreted functions
are more fully discussed in Chapter 18 and in the Portable LISP Compiler
paper [Griss 81].
[??? We intend to consider the modification of the LISP semantics so as
[??? We intend to consider the modification of the LISP semantics so as
[??? We intend to consider the modification of the LISP semantics so as
to ensure that these differences are minimized. If a conflict occurs,
to ensure that these differences are minimized. If a conflict occurs,
to ensure that these differences are minimized. If a conflict occurs,
we will restrict the interpreter, rather than extending (and slowing
we will restrict the interpreter, rather than extending (and slowing
we will restrict the interpreter, rather than extending (and slowing
down) the capabilities of the compiled code. ???]
down) the capabilities of the compiled code. ???]
down) the capabilities of the compiled code. ???]
We indicate on the function definition line if it is typically compiled
OPEN; this information helps in debugging code that uses these functions.
These functions do not appear in backtraces and cannot be redefined, traced
or broken in compiled code.
[??? Should we make open-compiled functions totally un-redefinable
[??? Should we make open-compiled functions totally un-redefinable
[??? Should we make open-compiled functions totally un-redefinable
without special action, even for interpreted code. Consistency! E.g.
without special action, even for interpreted code. Consistency! E.g.
without special action, even for interpreted code. Consistency! E.g.
flag 'COND LOSE. ???]
flag 'COND LOSE. ???]
flag 'COND LOSE. ???]
2.7. Function Types
2.7. Function Types
2.7. Function Types
Eval NoEval
Eval NoEval
Eval-type functions are those called with evaluated arguments. NoEval
Spread
Spread
functions are called with unevaluated arguments. Spread-type functions
have their arguments passed in a one-to-one correspondence with their
NoSpread
NoSpread
formal parameters. NoSpread functions receive their arguments as a single
____
list.
There are four function types implemented in PSL:
____
____
____
expr Eval Spread
expr Eval Spread
expr An Eval, Spread function, with a maximum of 15 arguments. In
referring to the formal parameters we mean their values. Each
function of this type should always be called with the expected
number of parameters, as indicated in the function definition.
Future versions of PSL will check this consistency.
_____
_____
_____
fexpr NoEval NoSpread
fexpr NoEval NoSpread
fexpr A NoEval, NoSpread function. There is no limit on the number of
arguments. In referring to the formal parameters we mean the
unevaluated arguments, collected as a single List, and passed as
a single formal parameter to the function body.
_____
_____
_____
nexpr Eval NoSpread
nexpr Eval NoSpread
nexpr An Eval, NoSpread function. Each call on this kind of function
may present a different number of arguments, which are evaluated,
collected into a list, and passed in to the function body as a
single formal parameter.
_____ _____
_____ _____
_____ _____
macro macro
macro macro
macro The macro is a function which creates a new S-expression for
subsequent evaluation or compilation. There is no limit to the
_____
_____
_____
macro
macro
number of arguments a macro may have. The descriptions of the
Eval Expand
Eval Expand
Eval and Expand functions in Chapter 11 provide precise details.
�Getting Started 7 February 1983 PSL Manual
page 2.10 section 2.8
2.8. Switches and Globals
2.8. Switches and Globals
2.8. Switches and Globals
Generally, switch names begin with !* and global names end with !*, where
"!" is an escape character. One can set a switch !*xxx to T by using On
xxx; in RLISP [(on xxx) in LISP]; one can set it to NIL by using Off xxx;
in RLISP [(off xxx) in LISP]. For example) !*ECHO, !*PVAL and !*PECHO are
switches that control Input Echo, Value Echo and Parse Echo. These
switches are described more fully in Chapters 12 and 13.
For more information, type "HELP SWITCHES;" or "HELP GLOBALS;", or see
Section 6.7.
2.9. Reporting Errors and Misfeatures
2.9. Reporting Errors and Misfeatures
2.9. Reporting Errors and Misfeatures
Send bug MAIL to PSL-BUGS@UTAH-20. The message will be distributed to a
list of users concerned with bugs and maintenance, and a copy will be kept
in <PSL>BUGS-MISSFEATURES.TXT at UTAH-20.
Bug
Bug _________ ___ __ ____ ____
(Bug ): undefined DEC-20 only, expr
Bug
Bug
The function Bug(); can be called from within PSL:RLISP. This
starts MAIL (actually MM) in a lower fork, with the To: line set
up to Griss. Simply type the subject of the complaint, and then
the message.
After typing message about a bug or a misfeature end finally with
a <Ctrl-Z>.
<Ctrl-N> aborts the message.
[??? needs switches ???]
[??? needs switches ???]
[??? needs switches ???]