Major Section: RELEASE-NOTES
See note8-update for yet more recent changes.
Guards have been eliminated from the ACL2 logic. A summary is contained in this brief note. Also see defun-mode and see set-guard-checking.
Guards may be included in defuns as usual but are ignored from the perspective of admission to the logic: functions must terminate on all arguments.
As in Nqthm, primitive functions, e.g., +
and car
, logically
default unexpected arguments to convenient values. Thus, (+ 'abc 3)
is 3
and (car 'abc)
is nil
. See programming, and see
the documentation for the individual primitive functions.
In contrast to earlier versions of ACL2, Version 1.8 logical functions are executed at Nqthm speeds even when guards have not been verified. In versions before 1.8, such functions were interpreted by ACL2.
Colors have been eliminated. Two ``defun-modes'' are supported,
:
program
and :
logic
. Roughly speaking,
:
program
does what :red
used to do, namely, allow you to
prototype functions for execution without any proof burdens.
:
Logic
mode does what :blue
used to do, namely, allow you to
add a new definitional axiom to the logic. A global default-defun-mode
is comparable to the old default color. The system comes up in
:
logic
mode. To change the global defun-mode, type
:
program
or :
logic
at the top-level. To specify the
defun-mode of a defun
locally use
(declare (xargs :mode mode))
.
The prompt has changed. The initial prompt, indicating
:
logic
mode, is
ACL2 !>If you change to
:
program
mode the prompt becomes
ACL2 p!>
Guards can be seen as having either of two roles: (a) they are a
specification device allowing you to characterize the kinds of
inputs a function ``should'' have, or (b) they are an efficiency
device allowing logically defined functions to be executed directly
in Common Lisp. If a guard is specified, as with xargs
:
guard
, then
it is ``verified'' at defun-time (unless you also specify xargs
:verify-guards nil
). Guard verification means what it always has:
the input guard is shown to imply the guards on all subroutines in
the body. If the guards of a function are verified, then a call of
the function on inputs satisfying the guard can be computed directly
by Common Lisp. Thus, verifying the guards on your functions will
allow them to execute more efficiently. But it does not affect
their logical behavior and since you will automatically get Nqthm
speeds on unverified logical definitions, most users will probably
use guards either as a specification device or only use them when
execution efficiency is extremely important.
Given the presence of guards in the system, two issues are unavoidable.
Are guards verified as part of the defun
process? And are guards checked
when terms are evaluated? We answer both of those questions below.
Roughly speaking, in its initial state the system will try to verify
the guards of a defun
if a :
guard
is supplied in the xargs
and will not try otherwise. However, guard verification in defun
can be inhibited ``locally'' by supplying the xargs
:
verify-guards
nil
. ``Global'' inhibition can be obtained via
the :
set-verify-guards-eagerness
. If you do not use the
:
guard
xargs
, you will not need to think about guard
verification.
We now turn to the evaluation of expressions. Even if your functions contain
no guards, the primitive functions do and hence you have the choice: when you
submit an expression for evaluation do you mean for guards to be checked at
runtime or not? Put another way, do you mean for the expression to be
evaluated in Common Lisp (if possible) or in the logic? Note: If Common Lisp
delivers an answer, it will be the same as in the logic, but it might be
erroneous to execute the form in Common Lisp. For example, should
(car 'abc)
cause a guard violation error or return nil
?
The top-level ACL2 loop has a variable which controls which sense of
execution is provided. To turn ``guard checking on,'' by which we
mean that guards are checked at runtime, execute the top-level form
:set-guard-checking t
. To turn it off, do :set-guard-checking nil
.
The status of this variable is reflected in the prompt.
ACL2 !>means guard checking is on and
ACL2 >means guard checking is off. The exclamation mark can be thought of as ``barring'' certain computations. The absence of the mark suggests the absence of error messages or unbarred access to the logical axioms. Thus, for example
ACL2 !>(car 'abc)will signal an error, while
ACL2 >(car 'abc)will return
nil
.Note that whether or not guards are checked at runtime is
independent of whether you are operating in :
program
mode or
:
logic
mode and whether theorems are being proved or not.
(Although it must be added that functions defined in :
program
mode cannot help but check their guards because no logical
definition exists.)
Version 1.8 permits the verification of the guards of theorems, thus
insuring that all instances of the theorem will evaluate without
error in Common Lisp. To verify the guards of a theorem named
name
execute the event
(verify-guards name).If a theorem's guards have been verified, the theorem is guaranteed to evaluate without error to non-
nil
in Common Lisp (provided
resource errors do not arise).Caveat about verify-guards
: implies
is a function symbol, so in the
term (implies p q)
, p
cannot be assumed true when q
is evaluated;
they are both evaluated ``outside.'' Hence, you cannot generally
verify the guards on a theorem if implies
is used to state the
hypotheses. Use if
instead. In a future version of ACL2, implies
will likely be a macro.
See sum-list-example.lisp for a nice example of the use of Version 1.8. This is roughly the same as the documentation for guard-example.
We have removed the capability to do ``old-style-forcing'' as existed before Version 1.5. See note5.
NOTE: Some low level details have, of course, changed. One such
change is that there are no longer two distinct type prescriptions
stored when a function is admitted with its guards verified. So for
example, the type prescription rune for binary-append
is now
(:type-prescription binary-append)while in Versions 1.7 and earlier, there were two such runes:
(:type-prescription binary-append . 1) (:type-prescription binary-append . 2)
Nqthm-style forcing on linear arithmetic assumptions is no longer executed when forcing is disabled.
Functional instantiation now benefits from a trick also used in
Nqthm: once a constraint generated by a :functional-instance
lemma instance (see lemma-instance) has been proved on behalf
of a successful event, it will not have to be re-proved on behalf of
a later event.
1+
and 1-
are now macros in the logic, not functions. Hence, for
example, it is ``safe'' to use them on left-hand sides of rewrite
rules, without invoking the common warning about the presence of
nonrecursive function symbols.
A new documentation section file-reading-example illustrates how to process forms in a file.
A new proof-checker command forwardchain
has been added;
see acl2-pc::forwardchain.
It is now possible to use quantifiers. See defun-sk and see defchoose.
There is a new event set-inhibit-warnings
, which allows the user
to turn off warnings of various types.
see set-inhibit-warnings.
An unsoundness relating encapsulate
and :functional-instance
hints has been remedied, with a few small effects visible at the
user level. The main observable effect is that defaxiom
and
non-local include-book
events are no longer allowed in the scope
of any encapsulate
event that has a non-empty signature.
When certify-book
is called, we now require that the default
defun-mode (see default-defun-mode) be :
logic
. On a related
note, the default defun-mode is irrelevant to include-book
; the
mode is always set to :
logic
initially, though it may be changed
within the book and reverts to its original value at the conclusion
of the include-book
. A bug in include-book
prevented it from
acting this way even though the documentation said otherwise.
The documentation has been substantially improved. A new section ``Programming'' contains documentation of many useful functions provided by ACL2; see programming. Also, the documentation has been ``marked up'' extensively. Thus in particular, users of Mosaic will find many links in the documentation.
The symbols force
, mv-nth
, and acl2-count
have been added
to the list *acl2-exports*
.
We now permit most names from the main Lisp package to be used as names, except for names that define functions, macros, or constants. See name.
We have changed the list of imports from the Common Lisp package to
ACL2, i.e., the list *common-lisp-symbols-from-main-lisp-package*
,
to be exactly those external symbols of the Common Lisp package as
specified by the draft Common Lisp standard. In order to
accommodate this change, we have renamed some ACL2 functions as
shown below, but these and other ramifications of this change should
be transparent to most ACL2 users.
warning --> warning$ print-object --> print-object$
Proof trees are no longer enabled by default. To start them up,
:
start-proof-tree
.
We have added the capability of building smaller images. The
easiest way to do this on a Unix (trademark of AT&T) system is:
make small
.
Here we will put some less important changes, additions, and so on.
We have added definitions for the Common Lisp function position
(for the test eql
), as well as corresponding versions
position-equal
and position-eq
that use tests equal
and
eq
, respectively. See position, see position-equal,
and see position-eq.
The defthm
event rational-listp-implies-rationalp-car
no
longer exists.
We fixed a bug in the hint mechanism that applied :by
, :cases
, and
:use
hints to the first induction goal when the prover reverted to
proving the original goal by induction.
We fixed a bug in the handling of (set-irrelevant-formals-ok :warn)
.
In support of removing the old-style forcing capability, we deleted
the initialization of state global old-style-forcing
and deleted the
definitions of recover-assumptions
, recover-assumptions-from-goal
,
remove-assumptions1
, remove-assumptions
, and split-on-assumptions
,
and we renamed split-on-assumptions1
to split-on-assumptions
.
The special value 'none
in the proof-checker commands claim
and =
has been replaced by :none
.
A bug in the handling of hints by subgoals has been fixed. For
example, formerly a :do-not
hint could be ``erased'' by a :use
hint
on a subgoal. Thanks go to Art Flatau for noticing the bug.
The functions weak-termp
and weak-term-listp
have been
deleted, and their calls have been replaced by corresponding calls
of pseudo-termp
and pseudo-term-listp
. The notion of
pseudo-termp
has been slightly strenthened by requiring that
terms of the form (quote ...)
have length 2.
Performance has been improved in various ways. At the prover level,
backchaining through the recognizer alist has been eliminated in
order to significantly speed up ACL2's rewriter. Among the other
prover changes (of which there are several, all technical): we no
longer clausify the input term when a proof is interrupted in favor
of inducting on the input term. At the IO level, we have improved
performance somewhat by suitable declarations and proclamations.
These include technical modifications to the macros mv
and
mv-let
, and introduction of a macro the-mv
analogous to the
macro the
but for forms returning multiple values.
The function spaces
now takes an extra argument, the current column.
A bug in the proof-checker equiv
command was fixed.
The function intersectp
has been deleted, because it was
essentially duplicated by the function intersectp-equal
.
We now proclaim functions in AKCL and GCL before compiling books. This should result in somewhat increased speed.
The function repeat
has been eliminated; use make-list
instead.
The proof-checker command expand
has been fixed so that it
eliminates let
(lambda) expressions when one would expect it to.
A new primitive function, mv-nth
, has been introduced. Mv-nth
is equivalent to nth
and is used in place of nth
in the
translation of mv-let
expressions. This allows the user to
control the simplification of mv-let
expressions without
affecting how nth
is treated. In that spirit, the rewriter has
been modified so that certain mv-nth
expressions, namely those
produced in the translation of (mv-let (a b c)(mv x y z) p)
, are
given special treatment.
A minor bug in untranslate
has been fixed, which for example will
fix the printing of conjunctions.
Translate
now takes a logicp
argument, which indicates whether it
enforces the restriction that :
program
mode functions do not occur
in the result.
The modified version of trace
provided by ACL2, for use in raw Lisp,
has been modified so that the lisp special variable *trace-alist*
has a slightly different functionality. This alist associates,
using eq
, symbols with the print representations of their values.
For example, initially *trace-alist*
is a one-element list
containing the pair (cons 'state '|*the-live-state*|)
. Thus, one
may cons the pair (cons '*foo* "It's a FOO!")
on to *trace-alist*
;
then until *foo*
is defined, this change will have no effect, but
after for example
(defconst *foo* 17)then
trace
will print 17
as "It's a FOO!"
.Trace
also traces the corresponding logic function.
Proof-tree display has been improved slightly in the case of successful proofs and certain event failures.
The function positive-integer-log2
has been deleted.
The macro skip-proofs
now prints a warning message when it is
encountered in the context of an encapsulate
event or a book.
See skip-proofs.
Some functions related to the-fn
and wormhole1
now have
defun-mode :
program
, but this change is almost certain to
be inconsequential to all users.