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akcl-acl2-trace.lisp
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akcl-acl2-trace.lisp
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; ACL2 Version 8.5 -- A Computational Logic for Applicative Common Lisp
; Copyright (C) 2024, Regents of the University of Texas
; This version of ACL2 is a descendent of ACL2 Version 1.9, Copyright
; (C) 1997 Computational Logic, Inc. See the documentation topic NOTE-2-0.
; This program is free software; you can redistribute it and/or modify
; it under the terms of the LICENSE file distributed with ACL2.
; This program is distributed in the hope that it will be useful,
; but WITHOUT ANY WARRANTY; without even the implied warranty of
; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
; LICENSE for more details.
; Written by: Matt Kaufmann and J Strother Moore
; email: [email protected] and [email protected]
; Department of Computer Science
; University of Texas at Austin
; Austin, TX 78712 U.S.A.
; We don't intend this file to be compiled.
; TRACE stuff
; We put over into old-trace the macro for trace that comes with ACKL.
; Thus one can type (old-trace foo) and get the effect that (trace
; foo) would have previously provided. We do not guarantee that using
; old-trace works well with trace$, however.
(cond ((null (macro-function 'old-trace))
(setf (macro-function 'old-trace) (macro-function 'trace))))
(cond ((null (macro-function 'old-untrace))
(setf (macro-function 'old-untrace) (macro-function 'untrace))))
(defmacro trace (&rest fns)
(let (acl2-fns non-acl2-fns all-fns)
(loop for fn in fns
do (if (function-symbolp
(cond
((symbolp fn) fn)
((and (consp fn) (symbolp (car fn)))
(car fn))
(t (error "Not a symbol or a cons of a symbol: ~s" fn)))
(w *the-live-state*))
(push fn acl2-fns)
(push fn non-acl2-fns)))
(cons
'old-trace
(progn
; Turn every element of acl2-fns into (list* fn fn ...).
(setq acl2-fns
(loop for x in acl2-fns
collect
(cond ((symbolp x) (list x x))
(t (list* (car x) (car x) (cdr x))))))
; Trace the *1* functions too. Then every element of acl2-fns will have the
; form (list* fn original-fn ...).
(dolist (x acl2-fns)
(push (cons (*1*-symbol (car x))
(cdr x))
acl2-fns))
(dolist (fn acl2-fns)
(push (progn (cond ((member :break (cdr fn))
(interface-er "Use of :break is not permitted in ~
TRACE. Consider :entry (progn ~
(break$) arglist) instead.")))
(cons (car fn)
(trace-fix-cond
(trace-fix-entry
(car fn)
(trace-fix-exit (car fn)
(cadr fn)
(cddr fn))))))
all-fns))
(dolist (fn non-acl2-fns)
(let* ((spec (if (symbolp fn) (list fn) fn))
(fn (car spec)))
(push (cons fn
(trace-fix-entry-raw
fn
(trace-fix-exit-raw
fn
(cdr spec))))
all-fns)))
all-fns))))
(defmacro untrace (&rest fns)
(cons
'old-untrace
(let ((ans fns))
(dolist (fn fns)
(push (*1*-symbol fn) ans))
ans)))
(defun trace-ppr-gcl (direction x &aux (state *the-live-state*))
; Unfortunately, in native GCL trace :entry and :exit cause a return
; value to be printed in addition to the side-effect printing. The > character
; is a pretty innocuous value to print.
(let ((*inside-trace$* t))
(declare (special *inside-trace$* *trace-level*))
(cond ((eq direction :in)
(incf *trace-level*)))
(let ((trace-evisc-tuple (trace-evisc-tuple))
(x (trace-hide-world-and-state x)))
(ppr (eviscerate-top x
(cadr trace-evisc-tuple) ;;; print-level
(caddr trace-evisc-tuple) ;;; print-length
(car trace-evisc-tuple) ;;; alist
(table-alist 'evisc-table (w state))
(car (cddddr trace-evisc-tuple)) ;;; hiding-cars
state)
(+ 2 ; GCL starts "1>" in column 2
(first-trace-printing-column))
(f-get-global 'trace-co state)
state
t))
(cond ((eq direction :out)
(decf *trace-level*)))
'>))
(defun trace-fix-entry-raw (name l)
(cond ((null l)
(list :entry `(cons ',name (trace-hide-world-and-state si::arglist))))
((or (atom l)
(and (cdr l)
(atom (cdr l))))
(error "A trace spec must be a true-list, but yours ends in ~s."
l))
((eq (car l) :entry)
(list* :entry
`(cons ',name (trace-hide-world-and-state
(let ((arglist si::arglist))
,(cadr l))))
(cddr l)))
(t (list* (car l) (cadr l) (trace-fix-entry-raw name (cddr l))))))
(defun trace-fix-entry (name l)
(cond ((endp l)
(list :entry
`(trace-ppr-gcl :in
(cons ',name si::arglist))))
((eq (car l) :entry)
(list* :entry
`(trace-ppr-gcl :in
(cons ',name
(let ((arglist si::arglist))
,(cadr l))))
(cddr l)))
(t (list* (car l) (cadr l) (trace-fix-entry name (cddr l))))))
(defun trace-values (name)
(declare (ignore name))
'values)
(defun trace-fix-exit-raw (name l)
(cond ((endp l)
(list :exit
`(cons ',name (trace-hide-world-and-state
,(trace-values name)))))
((eq (car l) :exit)
(list* :exit
`(cons ',name
(trace-hide-world-and-state
(let ((arglist si::arglist))
(declare (ignorable arglist))
,(cadr l))))
(cddr l)))
(t (list* (car l) (cadr l) (trace-fix-exit-raw name (cddr l))))))
(defun trace-fix-exit (name original-name l &aux (state *the-live-state*))
(cond ((endp l)
(list :exit
(protect-mv
`(trace-ppr-gcl :out
(cons ',name
,(trace-values original-name)))
(trace-multiplicity original-name state))))
((eq (car l) :exit)
(list* :exit
(protect-mv
`(trace-ppr-gcl :out
(cons ',name
(let* ((values ,(trace-values original-name))
(arglist si::arglist))
(declare (ignorable values arglist))
,(cadr l))))
(trace-multiplicity original-name state))
(cddr l)))
(t (list* (car l) (cadr l) (trace-fix-exit name original-name (cddr l))))))
(defun trace-fix-cond (trace-spec)
(if (member-eq :cond trace-spec) ; optimization
(loop for tail on trace-spec
append
(if (eq (car tail) :cond)
(prog1 (list :cond
`(let ((arglist si::arglist))
,(cadr tail)))
(setq tail (cdr tail)))
(list (car tail))))
trace-spec))