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-rw-r--r--src/interp/c-util.boot.pamphlet1372
1 files changed, 13 insertions, 1359 deletions
diff --git a/src/interp/c-util.boot.pamphlet b/src/interp/c-util.boot.pamphlet
index ceae86d1..63808037 100644
--- a/src/interp/c-util.boot.pamphlet
+++ b/src/interp/c-util.boot.pamphlet
@@ -12,17 +12,6 @@
\tableofcontents
\eject
-This file contains both the {\bf boot} code and the {\bf Lisp}
-code that is the result of the {\bf boot to lisp} translation.
-We need to keep the translated code around so we can bootstrap
-the system. In other words, we need this boot code translated
-so we can build the boot translator.
-
-{\bf NOTE WELL: IF YOU CHANGE THIS BOOT CODE YOU MUST TRANSLATE
-THIS CODE TO LISP AND STORE THE RESULTING LISP CODE BACK INTO
-THIS FILE.}
-
-See the {\bf c-util.clisp} section below.
\section{License}
<<license>>=
-- Copyright (c) 1991-2002, The Numerical ALgorithms Group Ltd.
@@ -60,6 +49,9 @@ See the {\bf c-util.clisp} section below.
<<*>>=
<<license>>
+import '"g-util"
+)package "BOOT"
+
--% Debugging Functions
CONTINUE() == continue()
@@ -156,7 +148,7 @@ unErrorRef s == unStackWarning ['%b,s,'%d,'"has no value"]
consProplistOf(var,proplist,prop,val) ==
semchkProplist(var,proplist,prop,val)
- $InteractiveMode and (u:= ASSOC(prop,proplist)) =>
+ $InteractiveMode and (u:= assoc(prop,proplist)) =>
RPLACD(u,val)
proplist
[[prop,:val],:proplist]
@@ -214,15 +206,15 @@ intersectionContour(c,c') ==
--3. property="mode" is covered by modeCompare
prop="mode" => nil
modeCompare(p,p') ==
- pair:= ASSOC("mode",p) =>
- pair':= ASSOC("mode",p') =>
+ pair:= assoc("mode",p) =>
+ pair':= assoc("mode",p') =>
m'':= unifiable(rest pair,rest pair') => LIST ["mode",:m'']
stackSemanticError(['%b,$var,'%d,"has two modes: "],nil)
--stackWarning ("mode for",'%b,$var,'%d,"introduced conditionally")
LIST ["conditionalmode",:rest pair]
--LIST pair
--stackWarning ("mode for",'%b,$var,'%d,"introduced conditionally")
- pair':= ASSOC("mode",p') => LIST ["conditionalmode",:rest pair']
+ pair':= assoc("mode",p') => LIST ["conditionalmode",:rest pair']
--LIST pair'
unifiable(m1,m2) ==
m1=m2 => m1
@@ -407,7 +399,7 @@ isAlmostSimple x ==
op="LET" =>
IDENTP y => (setAssignment LIST x; y)
true => (setAssignment [["LET",g:= genVariable(),:l],["LET",y,g]]; g)
- isSideEffectFree op => [op,:mapInto(rest x,"fn")]
+ isSideEffectFree op => [op,:mapInto(rest x, function fn)]
true => $assignmentList:= "failed"
setAssignment x ==
$assignmentList="failed" => nil
@@ -549,7 +541,7 @@ pmatch(s,p) == pmatchWithSl(s,p,"ok")
pmatchWithSl(s,p,al) ==
s=$EmptyMode => nil
s=p => al
- v:= ASSOC(p,al) => s=rest v or al
+ v:= assoc(p,al) => s=rest v or al
MEMQ(p,$PatternVariableList) => [[p,:s],:al]
null atom p and null atom s and (al':= pmatchWithSl(first s,first p,al)) and
pmatchWithSl(rest s,rest p,al')
@@ -590,12 +582,12 @@ extendsCategoryForm(domain,form,form') ==
formVec:=(compMakeCategoryObject(form,$e)).expr
--Must be $e to pick up locally bound domains
form' is ["SIGNATURE",op,args,:.] =>
- ASSOC([op,args],formVec.(1)) or
- ASSOC(SUBSTQ(domain,"$",[op,args]),
+ assoc([op,args],formVec.(1)) or
+ assoc(SUBSTQ(domain,"$",[op,args]),
SUBSTQ(domain,"$",formVec.(1)))
form' is ["ATTRIBUTE",at] =>
- ASSOC(at,formVec.2) or
- ASSOC(SUBSTQ(domain,"$",at),SUBSTQ(domain,"$",formVec.2))
+ assoc(at,formVec.2) or
+ assoc(SUBSTQ(domain,"$",at),SUBSTQ(domain,"$",formVec.2))
form' is ["IF",:.] => true --temporary hack so comp won't fail
-- Are we dealing with an Aldor category? If so use the "has" function ...
# formVec = 1 => newHasTest(form,form')
@@ -736,1349 +728,11 @@ displayModemaps E ==
--% General object traversal functions
-GEQSUBSTLIST(old, new, body) ==
- GEQNSUBSTLIST(old, new, GCOPY body)
-
-GEQNSUBSTLIST(old, new, body) ==
- or/[:[EQ(o,n) for o in old] for n in new] =>
- mid := [GENSYM() for o in old]
- GEQNSUBSTLIST(old, mid, body)
- GEQNSUBSTLIST(mid, new, body)
- alist := [[o,:n] for o in old for n in new]
- traverse(function GSUBSTinner, alist, body) where
- GSUBSTinner(alist, ob) ==
- (pr := ASSQ(ob, alist)) => CDR pr
- ob
-
GCOPY ob == COPY ob -- for now
-traverse(fn, arg, ob) ==
- $seen: local := MAKE_-HASHTABLE 'EQ
- $notseen: local := GENSYM()
-
- traverseInner(ob, fn, arg) where
- traverseInner(ob, fn, arg) ==
- e := HGET($seen, ob, $notseen)
- not EQ(e, $notseen) => e
-
- nob := FUNCALL(fn, arg, ob)
- HPUT($seen, ob, nob)
- not EQ(nob, ob) => nob
- PAIRP ob =>
- ne:=traverseInner(QCAR ob, fn, arg)
- if not EQ(ne,QCAR ob) then QRPLACA(ob, ne)
- ne:=traverseInner(QCDR ob, fn, arg)
- if not EQ(ne,QCDR ob) then QRPLACD(ob, ne)
- ob
- VECP ob =>
- n := QVMAXINDEX ob
- for i in 0..n repeat
- e:=QVELT(ob,i)
- ne:=traverseInner(e, fn, arg)
- if not EQ(ne,e) then QSETVELT(ob,i,ne)
- ob
- HASHTABLEP ob =>
- keys := HKEYS ob
- for k in keys repeat
- e := HGET(ob, k)
- nk := traverseInner(k, fn, arg)
- ne := traverseInner(e, fn, arg)
- if not EQ(k,nk) or not EQ(e,ne) then
- HREM(ob, k)
- HPUT(ob, nk, ne)
- ob
- PAPPP ob =>
- for i in 1..PA_-SPEC_-COUNT ob repeat
- s := PA_-SPEC(ob, i)
- not PAIRP s =>
- ns := traverseInner(s,fn,arg)
- if not EQ(s,ns) then
- SET_-PA_-SPEC(ob,i,ns)
- ns := traverseInner(QCDR s, fn, arg)
- if not EQ(ns,QCDR s) then
- apply(SET_-PA_-SPEC, [ob,i,QCAR s,:ns])
- ob
- ob
@
-\section{c-util.clisp}
-<<c-util.clisp>>=
-
-(IN-PACKAGE "BOOT" )
-
-;
-;--% Debugging Functions
-;
-;CONTINUE() == continue()
-
-;;; *** CONTINUE REDEFINED
-
-(DEFUN CONTINUE NIL (|continue|))
-;continue() == FIN comp($x,$m,$f)
-
-;;; *** |continue| REDEFINED
-
-(DEFUN |continue| NIL (FIN (|comp| |$x| |$m| |$f|)))
-;
-;LEVEL(:l) == APPLY('level,l)
-
-;;; *** LEVEL REDEFINED
-
-(DEFUN LEVEL (&REST #0=#:G2489 &AUX |l|) (DSETQ |l| #0#) (APPLY (QUOTE |level|) |l|))
-;level(:l) ==
-; null l => same()
-; l is [n] and INTEGERP n => displayComp ($level:= n)
-; SAY '"Correct format: (level n) where n is the level you want to go to"
-
-;;; *** |level| REDEFINED
-
-(DEFUN |level| (&REST #0=#:G2496 &AUX |l|) (DSETQ |l| #0#) (PROG (|n|) (RETURN (COND ((NULL |l|) (|same|)) ((AND (PAIRP |l|) (EQ (QCDR |l|) NIL) (PROGN (SPADLET |n| (QCAR |l|)) (QUOTE T)) (INTEGERP |n|)) (|displayComp| (SPADLET |$level| |n|))) ((QUOTE T) (SAY (MAKESTRING "Correct format: (level n) where n is the level you want to go to")))))))
-;
-;UP() == up()
-
-;;; *** UP REDEFINED
-
-(DEFUN UP NIL (|up|))
-;up() == displayComp ($level:= $level-1)
-
-;;; *** |up| REDEFINED
-
-(DEFUN |up| NIL (|displayComp| (SPADLET |$level| (SPADDIFFERENCE |$level| 1))))
-;
-;SAME() == same()
-
-;;; *** SAME REDEFINED
-
-(DEFUN SAME NIL (|same|))
-;same() == displayComp $level
-
-;;; *** |same| REDEFINED
-
-(DEFUN |same| NIL (|displayComp| |$level|))
-;
-;DOWN() == down()
-
-;;; *** DOWN REDEFINED
-
-(DEFUN DOWN NIL (|down|))
-;down() == displayComp ($level:= $level+1)
-
-;;; *** |down| REDEFINED
-
-(DEFUN |down| NIL (|displayComp| (SPADLET |$level| (PLUS |$level| 1))))
-;
-;displaySemanticErrors() ==
-; n:= #($semanticErrorStack:= REMDUP $semanticErrorStack)
-; n=0 => nil
-; l:= NREVERSE $semanticErrorStack
-; $semanticErrorStack:= nil
-; sayBrightly bright '" Semantic Errors:"
-; displaySemanticError(l,CUROUTSTREAM)
-; sayBrightly '" "
-; displayWarnings()
-
-;;; *** |displaySemanticErrors| REDEFINED
-
-(DEFUN |displaySemanticErrors| NIL (PROG (|n| |l|) (RETURN (PROGN (SPADLET |n| (|#| (SPADLET |$semanticErrorStack| (REMDUP |$semanticErrorStack|)))) (COND ((EQL |n| 0) NIL) ((QUOTE T) (SPADLET |l| (NREVERSE |$semanticErrorStack|)) (SPADLET |$semanticErrorStack| NIL) (|sayBrightly| (|bright| (MAKESTRING " Semantic Errors:"))) (|displaySemanticError| |l| CUROUTSTREAM) (|sayBrightly| (MAKESTRING " ")) (|displayWarnings|)))))))
-;
-;displaySemanticError(l,stream) ==
-; for x in l for i in 1.. repeat
-; sayBrightly(['" [",i,'"] ",:first x],stream)
-
-;;; *** |displaySemanticError| REDEFINED
-
-(DEFUN |displaySemanticError| (|l| |stream|) (SEQ (DO ((#0=#:G2529 |l| (CDR #0#)) (|x| NIL) (|i| 1 (QSADD1 |i|))) ((OR (ATOM #0#) (PROGN (SETQ |x| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (|sayBrightly| (CONS (MAKESTRING " [") (CONS |i| (CONS (MAKESTRING "] ") (CAR |x|)))) |stream|))))))
-;
-;displayWarnings() ==
-; n:= #($warningStack:= REMDUP $warningStack)
-; n=0 => nil
-; sayBrightly bright '" Warnings:"
-; l := NREVERSE $warningStack
-; displayWarning(l,CUROUTSTREAM)
-; $warningStack:= nil
-; sayBrightly '" "
-
-;;; *** |displayWarnings| REDEFINED
-
-(DEFUN |displayWarnings| NIL (PROG (|n| |l|) (RETURN (PROGN (SPADLET |n| (|#| (SPADLET |$warningStack| (REMDUP |$warningStack|)))) (COND ((EQL |n| 0) NIL) ((QUOTE T) (|sayBrightly| (|bright| (MAKESTRING " Warnings:"))) (SPADLET |l| (NREVERSE |$warningStack|)) (|displayWarning| |l| CUROUTSTREAM) (SPADLET |$warningStack| NIL) (|sayBrightly| (MAKESTRING " "))))))))
-;
-;displayWarning(l,stream) ==
-; for x in l for i in 1.. repeat
-; sayBrightly(['" [",i,'"] ",:x],stream)
-
-;;; *** |displayWarning| REDEFINED
-
-(DEFUN |displayWarning| (|l| |stream|) (SEQ (DO ((#0=#:G2550 |l| (CDR #0#)) (|x| NIL) (|i| 1 (QSADD1 |i|))) ((OR (ATOM #0#) (PROGN (SETQ |x| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (|sayBrightly| (CONS (MAKESTRING " [") (CONS |i| (CONS (MAKESTRING "] ") |x|))) |stream|))))))
-;
-;displayComp level ==
-; $bright:= " << "
-; $dim:= " >> "
-; if $insideCapsuleFunctionIfTrue=true then
-; sayBrightly ['"error in function",'%b,$op,'%d,'%l]
-; --mathprint removeZeroOne mkErrorExpr level
-; pp removeZeroOne mkErrorExpr level
-; sayBrightly ['"****** level",'%b,level,'%d,'" ******"]
-; [$x,$m,$f,$exitModeStack]:= ELEM($s,level)
-; ($X:=$x;$M:=$m;$F:=$f)
-; SAY("$x:= ",$x)
-; SAY("$m:= ",$m)
-; SAY "$f:="
-; F_,PRINT_-ONE $f
-; nil
-
-;;; *** |displayComp| REDEFINED
-
-(DEFUN |displayComp| (|level|) (PROG (|LETTMP#1|) (RETURN (PROGN (SPADLET |$bright| (QUOTE | << |))
-(SPADLET |$dim| (QUOTE | >> |)) (COND ((BOOT-EQUAL |$insideCapsuleFunctionIfTrue| (QUOTE T)) (|sayBrightly| (CONS (MAKESTRING "error in function") (CONS (QUOTE |%b|) (CONS |$op| (CONS (QUOTE |%d|) (CONS (QUOTE |%l|) NIL)))))))) (|pp| (|removeZeroOne| (|mkErrorExpr| |level|))) (|sayBrightly| (CONS (MAKESTRING "****** level") (CONS (QUOTE |%b|) (CONS |level| (CONS (QUOTE |%d|) (CONS (MAKESTRING " ******") NIL)))))) (SPADLET |LETTMP#1| (ELEM |$s| |level|)) (SPADLET |$x| (CAR |LETTMP#1|)) (SPADLET |$m| (CADR |LETTMP#1|)) (SPADLET |$f| (CADDR |LETTMP#1|)) (SPADLET |$exitModeStack| (CADDDR |LETTMP#1|)) (SPADLET $X |$x|) (SPADLET $M |$m|) (SPADLET $F |$f|) (SAY (MAKESTRING "$x:= ") |$x|) (SAY (MAKESTRING "$m:= ") |$m|) (SAY (MAKESTRING "$f:=")) (|F,PRINT-ONE| |$f|) NIL))))
-;
-;mkErrorExpr level ==
-; bracket ASSOCLEFT DROP(level-#$s,$s) where
-; bracket l ==
-; #l<2 => l
-; l is [a,b] =>
-; highlight(b,a) where
-; highlight(b,a) ==
-; atom b =>
-; substitute(var,b,a) where
-; var:= INTERN STRCONC(STRINGIMAGE $bright,STRINGIMAGE b,STRINGIMAGE $dim)
-; highlight1(b,a) where
-; highlight1(b,a) ==
-; atom a => a
-; a is [ =b,:c] => [$bright,b,$dim,:c]
-; [highlight1(b,first a),:highlight1(b,rest a)]
-; substitute(bracket rest l,first rest l,first l)
-
-;;; *** |mkErrorExpr,highlight1| REDEFINED
-
-(DEFUN |mkErrorExpr,highlight1| (|b| |a|) (PROG (|c|) (RETURN (SEQ (IF (ATOM |a|) (EXIT |a|)) (IF (AND (PAIRP |a|) (EQUAL (QCAR |a|) |b|) (PROGN (SPADLET |c| (QCDR |a|)) (QUOTE T))) (EXIT (CONS |$bright| (CONS |b| (CONS |$dim| |c|))))) (EXIT (CONS (|mkErrorExpr,highlight1| |b| (CAR |a|)) (|mkErrorExpr,highlight1| |b| (CDR |a|))))))))
-
-;;; *** |mkErrorExpr,highlight| REDEFINED
-
-(DEFUN |mkErrorExpr,highlight| (|b| |a|) (PROG (|var|) (RETURN (SEQ (IF (ATOM |b|) (EXIT (PROGN (SPADLET |var| (INTERN (STRCONC (STRINGIMAGE |$bright|) (STRINGIMAGE |b|) (STRINGIMAGE |$dim|)))) (MSUBST |var| |b| |a|)))) (EXIT (|mkErrorExpr,highlight1| |b| |a|))))))
-
-;;; *** |mkErrorExpr,bracket| REDEFINED
-
-(DEFUN |mkErrorExpr,bracket| (|l|) (PROG (|a| |ISTMP#1| |b|) (RETURN (SEQ (IF (QSLESSP (|#| |l|) 2) (EXIT |l|)) (IF (AND (PAIRP |l|) (PROGN (SPADLET |a| (QCAR |l|)) (SPADLET |ISTMP#1| (QCDR |l|)) (AND (PAIRP |ISTMP#1|) (EQ (QCDR |ISTMP#1|) NIL) (PROGN (SPADLET |b| (QCAR |ISTMP#1|)) (QUOTE T))))) (EXIT (|mkErrorExpr,highlight| |b| |a|))) (EXIT (MSUBST (|mkErrorExpr,bracket| (CDR |l|)) (CAR (CDR |l|)) (CAR |l|)))))))
-
-;;; *** |mkErrorExpr| REDEFINED
-
-(DEFUN |mkErrorExpr| (|level|) (|mkErrorExpr,bracket| (ASSOCLEFT (DROP (SPADDIFFERENCE |level| (|#| |$s|)) |$s|))))
-;
-;compAndTrace [x,m,e] ==
-; SAY("tracing comp, compFormWithModemap of: ",x)
-; TRACE_,1(["comp","compFormWithModemap"],nil)
-; T:= comp(x,m,e)
-; UNTRACE_,1 "comp"
-; UNTRACE_,1 "compFormWithModemap"
-; T
-
-;;; *** |compAndTrace| REDEFINED
-
-(DEFUN |compAndTrace| (#0=#:G2621) (PROG (|x| |m| |e| T$) (RETURN (PROGN (SPADLET |x| (CAR #0#)) (SPADLET |m| (CADR #0#)) (SPADLET |e| (CADDR #0#)) (SAY (MAKESTRING "tracing comp, compFormWithModemap of: ") |x|) (|TRACE,1| (CONS (QUOTE |comp|) (CONS (QUOTE |compFormWithModemap|) NIL)) NIL) (SPADLET T$ (|comp| |x| |m| |e|)) (|UNTRACE,1| (QUOTE |comp|)) (|UNTRACE,1| (QUOTE |compFormWithModemap|)) T$))))
-;
-;errorRef s == stackWarning ['%b,s,'%d,'"has no value"]
-
-;;; *** |errorRef| REDEFINED
-
-(DEFUN |errorRef| (|s|) (|stackWarning| (CONS (QUOTE |%b|) (CONS |s| (CONS (QUOTE |%d|) (CONS (MAKESTRING "has no value") NIL))))))
-;
-;unErrorRef s == unStackWarning ['%b,s,'%d,'"has no value"]
-
-;;; *** |unErrorRef| REDEFINED
-
-(DEFUN |unErrorRef| (|s|) (|unStackWarning| (CONS (QUOTE |%b|) (CONS |s| (CONS (QUOTE |%d|) (CONS (MAKESTRING "has no value") NIL))))))
-;
-;--% ENVIRONMENT FUNCTIONS
-;
-;consProplistOf(var,proplist,prop,val) ==
-; semchkProplist(var,proplist,prop,val)
-; $InteractiveMode and (u:= ASSOC(prop,proplist)) =>
-; RPLACD(u,val)
-; proplist
-; [[prop,:val],:proplist]
-
-;;; *** |consProplistOf| REDEFINED
-
-(DEFUN |consProplistOf| (|var| |proplist| |prop| |val|) (PROG (|u|) (RETURN (PROGN (|semchkProplist| |var| |proplist| |prop| |val|) (COND ((AND |$InteractiveMode| (SPADLET |u| (|assoc| |prop| |proplist|))) (RPLACD |u| |val|) |proplist|) ((QUOTE T) (CONS (CONS |prop| |val|) |proplist|)))))))
-;
-;warnLiteral x ==
-; stackSemanticError(['%b,x,'%d,
-; '"is BOTH a variable and a literal"],nil)
-
-;;; *** |warnLiteral| REDEFINED
-
-(DEFUN |warnLiteral| (|x|) (|stackSemanticError| (CONS (QUOTE |%b|) (CONS |x| (CONS (QUOTE |%d|) (CONS (MAKESTRING "is BOTH a variable and a literal") NIL)))) NIL))
-;
-;intersectionEnvironment(e,e') ==
-; ce:= makeCommonEnvironment(e,e')
-; ic:= intersectionContour(deltaContour(e,ce),deltaContour(e',ce))
-; e'':= (ic => addContour(ic,ce); ce)
-
-;;; *** |intersectionEnvironment| REDEFINED
-
-(DEFUN |intersectionEnvironment| (|e| |e'|) (PROG (|ce| |ic| |e''|) (RETURN (PROGN (SPADLET |ce| (|makeCommonEnvironment| |e| |e'|)) (SPADLET |ic| (|intersectionContour| (|deltaContour| |e| |ce|) (|deltaContour| |e'| |ce|))) (SPADLET |e''| (COND (|ic| (|addContour| |ic| |ce|)) ((QUOTE T) |ce|)))))))
-; --$ie:= e'' this line is for debugging purposes only
-;
-;deltaContour([[c,:cl],:el],[[c',:cl'],:el']) ==
-; ^el=el' => systemError '"deltaContour" --a cop out for now
-; eliminateDuplicatePropertyLists contourDifference(c,c') where
-; contourDifference(c,c') == [first x for x in tails c while (x^=c')]
-; eliminateDuplicatePropertyLists contour ==
-; contour is [[x,:.],:contour'] =>
-; LASSOC(x,contour') =>
-; --save some CONSing if possible
-; [first contour,:DELLASOS(x,eliminateDuplicatePropertyLists contour')]
-; [first contour,:eliminateDuplicatePropertyLists contour']
-; nil
-
-;;; *** |deltaContour,eliminateDuplicatePropertyLists| REDEFINED
-
-(DEFUN |deltaContour,eliminateDuplicatePropertyLists| (|contour|) (PROG (|ISTMP#1| |x| |contour'|) (RETURN (SEQ (IF (AND (PAIRP |contour|) (PROGN (SPADLET |ISTMP#1| (QCAR |contour|)) (AND (PAIRP |ISTMP#1|) (PROGN (SPADLET |x| (QCAR |ISTMP#1|)) (QUOTE T)))) (PROGN (SPADLET |contour'| (QCDR |contour|)) (QUOTE T))) (EXIT (SEQ (IF (LASSOC |x| |contour'|) (EXIT (CONS (CAR |contour|) (DELLASOS |x| (|deltaContour,eliminateDuplicatePropertyLists| |contour'|))))) (EXIT (CONS (CAR |contour|) (|deltaContour,eliminateDuplicatePropertyLists| |contour'|)))))) (EXIT NIL)))))
-
-;;; *** |deltaContour,contourDifference| REDEFINED
-
-(DEFUN |deltaContour,contourDifference| (|c| |c'|) (PROG NIL (RETURN (SEQ (PROG (#0=#:G2679) (SPADLET #0# NIL) (RETURN (DO ((|x| |c| (CDR |x|))) ((OR (ATOM |x|) (NULL (NEQUAL |x| |c'|))) (NREVERSE0 #0#)) (SEQ (EXIT (SETQ #0# (CONS (CAR |x|) #0#)))))))))))
-
-;;; *** |deltaContour| REDEFINED
-
-(DEFUN |deltaContour| (#0=#:G2695 #1=#:G2706) (PROG (|c'| |cl'| |el'| |c| |cl| |el|) (RETURN (PROGN (SPADLET |c'| (CAAR #1#)) (SPADLET |cl'| (CDAR #1#)) (SPADLET |el'| (CDR #1#)) (SPADLET |c| (CAAR #0#)) (SPADLET |cl| (CDAR #0#)) (SPADLET |el| (CDR #0#)) (COND ((NULL (BOOT-EQUAL |el| |el'|)) (|systemError| (MAKESTRING "deltaContour"))) ((QUOTE T) (|deltaContour,eliminateDuplicatePropertyLists| (|deltaContour,contourDifference| |c| |c'|))))))))
-;
-;intersectionContour(c,c') ==
-; $var: local
-; computeIntersection(c,c') where
-; computeIntersection(c,c') ==
-; varlist:= REMDUP ASSOCLEFT c
-; varlist':= REMDUP ASSOCLEFT c'
-; interVars:= setIntersection(varlist,varlist')
-; unionVars:= setUnion(varlist,varlist')
-; diffVars:= setDifference(unionVars,interVars)
-; modeAssoc:= buildModeAssoc(diffVars,c,c')
-; [:modeAssoc,:
-; [[x,:proplist]
-; for [x,:y] in c | MEMBER(x,interVars) and
-; (proplist:= interProplist(y,LASSOC($var:= x,c')))]]
-; interProplist(p,p') ==
-; --p is new proplist; p' is old one
-; [:modeCompare(p,p'),:[pair' for pair in p | (pair':= compare(pair,p'))]]
-; buildModeAssoc(varlist,c,c') ==
-; [[x,:mp] for x in varlist | (mp:= modeCompare(LASSOC(x,c),LASSOC(x,c')))]
-; compare(pair is [prop,:val],p') ==
-; --1. if the property-value pair are identical, accept it immediately
-; pair=(pair':= ASSOC(prop,p')) => pair
-; --2. if property="value" and modes are unifiable, give intersection
-; -- property="value" but value=genSomeVariable)()
-; (val':= KDR pair') and prop="value" and
-; (m:= unifiable(val.mode,val'.mode)) => ["value",genSomeVariable(),m,nil]
-; --this tells us that an undeclared variable received
-; --two different values but with identical modes
-; --3. property="mode" is covered by modeCompare
-; prop="mode" => nil
-; modeCompare(p,p') ==
-; pair:= ASSOC("mode",p) =>
-; pair':= ASSOC("mode",p') =>
-; m'':= unifiable(rest pair,rest pair') => LIST ["mode",:m'']
-; stackSemanticError(['%b,$var,'%d,"has two modes: "],nil)
-; --stackWarning ("mode for",'%b,$var,'%d,"introduced conditionally")
-; LIST ["conditionalmode",:rest pair]
-; --LIST pair
-; --stackWarning ("mode for",'%b,$var,'%d,"introduced conditionally")
-; pair':= ASSOC("mode",p') => LIST ["conditionalmode",:rest pair']
-; --LIST pair'
-; unifiable(m1,m2) ==
-; m1=m2 => m1
-; --we may need to add code to coerce up to tagged unions
-; --but this can not be done here, but should be done by compIf
-; m:=
-; m1 is ["Union",:.] =>
-; m2 is ["Union",:.] => ["Union",:S_+(rest m1,rest m2)]
-; ["Union",:S_+(rest m1,[m2])]
-; m2 is ["Union",:.] => ["Union",:S_+(rest m2,[m1])]
-; ["Union",m1,m2]
-; for u in getDomainsInScope $e repeat
-; if u is ["Union",:u'] and (and/[MEMBER(v,u') for v in rest m]) then
-; return m
-
-;;; *** |intersectionContour,unifiable| REDEFINED
-
-(DEFUN |intersectionContour,unifiable| (|m1| |m2|) (PROG (|m| |u'|) (RETURN (SEQ (IF (BOOT-EQUAL |m1| |m2|) (EXIT |m1|)) (SPADLET |m| (SEQ (IF (AND (PAIRP |m1|) (EQ (QCAR |m1|) (QUOTE |Union|))) (EXIT (SEQ (IF (AND (PAIRP |m2|) (EQ (QCAR |m2|) (QUOTE |Union|))) (EXIT (CONS (QUOTE |Union|) (S+ (CDR |m1|) (CDR |m2|))))) (EXIT (CONS (QUOTE |Union|) (S+ (CDR |m1|) (CONS |m2| NIL))))))) (IF (AND (PAIRP |m2|) (EQ (QCAR |m2|) (QUOTE |Union|))) (EXIT (CONS (QUOTE |Union|) (S+ (CDR |m2|) (CONS |m1| NIL))))) (EXIT (CONS (QUOTE |Union|) (CONS |m1| (CONS |m2| NIL)))))) (EXIT (DO ((#0=#:G2748 (|getDomainsInScope| |$e|) (CDR #0#)) (|u| NIL)) ((OR (ATOM #0#) (PROGN (SETQ |u| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (IF (AND (AND (PAIRP |u|) (EQ (QCAR |u|) (QUOTE |Union|)) (PROGN (SPADLET |u'| (QCDR |u|)) (QUOTE T))) (PROG (#1=#:G2754) (SPADLET #1# (QUOTE T)) (RETURN (DO ((#2=#:G2760 NIL (NULL #1#)) (#3=#:G2761 (CDR |m|) (CDR #3#)) (|v| NIL)) ((OR #2# (ATOM #3#) (PROGN (SETQ |v| (CAR #3#)) NIL)) #1#) (SEQ (EXIT (SETQ #1# (AND #1# (|member| |v| |u'|))))))))) (RETURN |m|) NIL)))))))))
-
-;;; *** |intersectionContour,modeCompare| REDEFINED
-
-(DEFUN |intersectionContour,modeCompare| (|p| |p'|) (PROG (|pair| |m''| |pair'|) (RETURN (SEQ (IF (SPADLET |pair| (|assoc| (QUOTE |mode|) |p|)) (EXIT (SEQ (IF (SPADLET |pair'| (|assoc| (QUOTE |mode|) |p'|)) (EXIT (SEQ (IF (SPADLET |m''| (|intersectionContour,unifiable| (CDR |pair|) (CDR |pair'|))) (EXIT (LIST (CONS (QUOTE |mode|) |m''|)))) (EXIT (|stackSemanticError| (CONS (QUOTE |%b|) (CONS |$var| (CONS (QUOTE |%d|) (CONS (QUOTE |has two modes: |) NIL)))) NIL))))) (EXIT (LIST (CONS (QUOTE |conditionalmode|) (CDR |pair|))))))) (EXIT (IF (SPADLET |pair'| (|assoc| (QUOTE |mode|) |p'|)) (EXIT (LIST (CONS (QUOTE |conditionalmode|) (CDR |pair'|))))))))))
-
-;;; *** |intersectionContour,compare| REDEFINED
-
-(DEFUN |intersectionContour,compare| (|pair| |p'|) (PROG (|prop| |val| |pair'| |val'| |m|) (RETURN (SEQ (PROGN (SPADLET |prop| (CAR |pair|)) (SPADLET |val| (CDR |pair|)) |pair| (SEQ (IF (BOOT-EQUAL |pair| (SPADLET |pair'| (|assoc| |prop| |p'|))) (EXIT |pair|)) (IF (AND (AND (SPADLET |val'| (KDR |pair'|)) (BOOT-EQUAL |prop| (QUOTE |value|))) (SPADLET |m| (|intersectionContour,unifiable| (CADR |val|) (CADR |val'|)))) (EXIT (CONS (QUOTE |value|) (CONS (|genSomeVariable|) (CONS |m| (CONS NIL NIL)))))) (EXIT (IF (BOOT-EQUAL |prop| (QUOTE |mode|)) (EXIT NIL)))))))))
-
-;;; *** |intersectionContour,buildModeAssoc| REDEFINED
-
-(DEFUN |intersectionContour,buildModeAssoc| (|varlist| |c| |c'|) (PROG (|mp|) (RETURN (SEQ (PROG (#0=#:G2802) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G2808 |varlist| (CDR #1#)) (|x| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |x| (CAR #1#)) NIL)) (NREVERSE0 #0#)) (SEQ (EXIT (COND ((SPADLET |mp| (|intersectionContour,modeCompare| (LASSOC |x| |c|) (LASSOC |x| |c'|))) (SETQ #0# (CONS (CONS |x| |mp|) #0#)))))))))))))
-
-;;; *** |intersectionContour,interProplist| REDEFINED
-
-(DEFUN |intersectionContour,interProplist| (|p| |p'|) (PROG (|pair'|) (RETURN (SEQ (APPEND (|intersectionContour,modeCompare| |p| |p'|) (PROG (#0=#:G2824) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G2830 |p| (CDR #1#)) (|pair| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |pair| (CAR #1#)) NIL)) (NREVERSE0 #0#)) (SEQ (EXIT (COND ((SPADLET |pair'| (|intersectionContour,compare| |pair| |p'|)) (SETQ #0# (CONS |pair'| #0#))))))))))))))
-
-;;; *** |intersectionContour,computeIntersection| REDEFINED
-
-(DEFUN |intersectionContour,computeIntersection| (|c| |c'|) (PROG (|varlist| |varlist'| |interVars| |unionVars| |diffVars| |modeAssoc| |x| |y| |proplist|) (RETURN (SEQ (SPADLET |varlist| (REMDUP (ASSOCLEFT |c|))) (SPADLET |varlist'| (REMDUP (ASSOCLEFT |c'|))) (SPADLET |interVars| (|intersection| |varlist| |varlist'|)) (SPADLET |unionVars| (|union| |varlist| |varlist'|)) (SPADLET |diffVars| (SETDIFFERENCE |unionVars| |interVars|)) (SPADLET |modeAssoc| (|intersectionContour,buildModeAssoc| |diffVars| |c| |c'|)) (EXIT (APPEND |modeAssoc| (PROG (#0=#:G2847) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G2854 |c| (CDR #1#)) (#2=#:G2731 NIL)) ((OR (ATOM #1#) (PROGN (SETQ #2# (CAR #1#)) NIL) (PROGN (PROGN (SPADLET |x| (CAR #2#)) (SPADLET |y| (CDR #2#)) #2#) NIL)) (NREVERSE0 #0#)) (SEQ (EXIT (COND ((AND (|member| |x| |interVars|) (SPADLET |proplist| (|intersectionContour,interProplist| |y| (LASSOC (SPADLET |$var| |x|) |c'|)))) (SETQ #0# (CONS (CONS |x| |proplist|) #0#)))))))))))))))
-
-;;; *** |intersectionContour| REDEFINED
-
-(DEFUN |intersectionContour| (|c| |c'|) (PROG (|$var|) (DECLARE (SPECIAL |$var|)) (RETURN (PROGN (SPADLET |$var| NIL) (|intersectionContour,computeIntersection| |c| |c'|)))))
-; --this loop will return NIL if not satisfied
-;
-;addContour(c,E is [cur,:tail]) ==
-; [NCONC(fn(c,E),cur),:tail] where
-; fn(c,e) ==
-; for [x,:proplist] in c repeat
-; fn1(x,proplist,getProplist(x,e)) where
-; fn1(x,p,ee) ==
-; for pv in p repeat fn3(x,pv,ee) where
-; fn3(x,pv,e) ==
-; [p,:v]:=pv;
-; if MEMBER(x,$getPutTrace) then
-; pp([x,"has",pv]);
-; if p="conditionalmode" then
-; RPLACA(pv,"mode");
-; --check for conflicts with earlier mode
-; if vv:=LASSOC("mode",e) then
-; if v ^=vv then
-; stackWarning ["The conditional modes ",
-; v," and ",vv," conflict"]
-; LIST c
-
-;;; *** |addContour,fn3| REDEFINED
-
-(DEFUN |addContour,fn3| (|x| |pv| |e|) (PROG (|p| |v| |vv|) (RETURN (SEQ (PROGN (SPADLET |p| (CAR |pv|)) (SPADLET |v| (CDR |pv|)) |pv|) (IF (|member| |x| |$getPutTrace|) (|pp| (CONS |x| (CONS (QUOTE |has|) (CONS |pv| NIL)))) NIL) (EXIT (IF (BOOT-EQUAL |p| (QUOTE |conditionalmode|)) (SEQ (RPLACA |pv| (QUOTE |mode|)) (EXIT (IF (SPADLET |vv| (LASSOC (QUOTE |mode|) |e|)) (IF (NEQUAL |v| |vv|) (|stackWarning| (CONS (QUOTE |The conditional modes |) (CONS |v| (CONS (QUOTE | and |) (CONS |vv| (CONS (QUOTE | conflict|) NIL)))))) NIL) NIL))) NIL))))))
-
-;;; *** |addContour,fn1| REDEFINED
-
-(DEFUN |addContour,fn1| (|x| |p| |ee|) (SEQ (DO ((#0=#:G2898 |p| (CDR #0#)) (|pv| NIL)) ((OR (ATOM #0#) (PROGN (SETQ |pv| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (|addContour,fn3| |x| |pv| |ee|))))))
-
-;;; *** |addContour,fn| REDEFINED
-
-(DEFUN |addContour,fn| (|c| |e|) (PROG (|x| |proplist|) (RETURN (SEQ (DO ((#0=#:G2917 |c| (CDR #0#)) (#1=#:G2908 NIL)) ((OR (ATOM #0#) (PROGN (SETQ #1# (CAR #0#)) NIL) (PROGN (PROGN (SPADLET |x| (CAR #1#)) (SPADLET |proplist| (CDR #1#)) #1#) NIL)) NIL) (SEQ (EXIT (|addContour,fn1| |x| |proplist| (|getProplist| |x| |e|))))) (EXIT (LIST |c|))))))
-
-;;; *** |addContour| REDEFINED
-
-(DEFUN |addContour| (|c| E) (PROG (|cur| |tail|) (RETURN (PROGN (SPADLET |cur| (CAR E)) (SPADLET |tail| (CDR E)) (CONS (NCONC (|addContour,fn| |c| E) |cur|) |tail|)))))
-;
-;makeCommonEnvironment(e,e') ==
-; interE makeSameLength(e,e') where --$ie:=
-; interE [e,e'] ==
-; rest e=rest e' => [interLocalE makeSameLength(first e,first e'),:rest e]
-; interE [rest e,rest e']
-; interLocalE [le,le'] ==
-; rest le=rest le' =>
-; [interC makeSameLength(first le,first le'),:rest le]
-; interLocalE [rest le,rest le']
-; interC [c,c'] ==
-; c=c' => c
-; interC [rest c,rest c']
-; makeSameLength(x,y) ==
-; fn(x,y,#x,#y) where
-; fn(x,y,nx,ny) ==
-; nx>ny => fn(rest x,y,nx-1,ny)
-; nx<ny => fn(x,rest y,nx,ny-1)
-; [x,y]
-
-;;; *** |makeCommonEnvironment,fn| REDEFINED
-
-(DEFUN |makeCommonEnvironment,fn| (|x| |y| |nx| |ny|) (SEQ (IF (> |nx| |ny|) (EXIT (|makeCommonEnvironment,fn| (CDR |x|) |y| (SPADDIFFERENCE |nx| 1) |ny|))) (IF (> |ny| |nx|) (EXIT (|makeCommonEnvironment,fn| |x| (CDR |y|) |nx| (SPADDIFFERENCE |ny| 1)))) (EXIT (CONS |x| (CONS |y| NIL)))))
-
-;;; *** |makeCommonEnvironment,makeSameLength| REDEFINED
-
-(DEFUN |makeCommonEnvironment,makeSameLength| (|x| |y|) (|makeCommonEnvironment,fn| |x| |y| (|#| |x|) (|#| |y|)))
-
-;;; *** |makeCommonEnvironment,interC| REDEFINED
-
-(DEFUN |makeCommonEnvironment,interC| (#0=#:G2954) (PROG (|c| |c'|) (RETURN (SEQ (PROGN (SPADLET |c| (CAR #0#)) (SPADLET |c'| (CADR #0#)) #0# (SEQ (IF (BOOT-EQUAL |c| |c'|) (EXIT |c|)) (EXIT (|makeCommonEnvironment,interC| (CONS (CDR |c|) (CONS (CDR |c'|) NIL))))))))))
-
-;;; *** |makeCommonEnvironment,interLocalE| REDEFINED
-
-(DEFUN |makeCommonEnvironment,interLocalE| (#0=#:G2968) (PROG (|le| |le'|) (RETURN (SEQ (PROGN (SPADLET |le| (CAR #0#)) (SPADLET |le'| (CADR #0#)) #0# (SEQ (IF (BOOT-EQUAL (CDR |le|) (CDR |le'|)) (EXIT (CONS (|makeCommonEnvironment,interC| (|makeCommonEnvironment,makeSameLength| (CAR |le|) (CAR |le'|))) (CDR |le|)))) (EXIT (|makeCommonEnvironment,interLocalE| (CONS (CDR |le|) (CONS (CDR |le'|) NIL))))))))))
-
-;;; *** |makeCommonEnvironment,interE| REDEFINED
-
-(DEFUN |makeCommonEnvironment,interE| (#0=#:G2982) (PROG (|e| |e'|) (RETURN (SEQ (PROGN (SPADLET |e| (CAR #0#)) (SPADLET |e'| (CADR #0#)) #0# (SEQ (IF (BOOT-EQUAL (CDR |e|) (CDR |e'|)) (EXIT (CONS (|makeCommonEnvironment,interLocalE| (|makeCommonEnvironment,makeSameLength| (CAR |e|) (CAR |e'|))) (CDR |e|)))) (EXIT (|makeCommonEnvironment,interE| (CONS (CDR |e|) (CONS (CDR |e'|) NIL))))))))))
-
-;;; *** |makeCommonEnvironment| REDEFINED
-
-(DEFUN |makeCommonEnvironment| (|e| |e'|) (|makeCommonEnvironment,interE| (|makeCommonEnvironment,makeSameLength| |e| |e'|)))
-;
-;printEnv E ==
-; for x in E for i in 1.. repeat
-; for y in x for j in 1.. repeat
-; SAY('"******CONTOUR ",j,'", LEVEL ",i,'":******")
-; for z in y repeat
-; TERPRI()
-; SAY("Properties Of: ",first z)
-; for u in rest z repeat
-; PRIN0 first u
-; printString ": "
-; PRETTYPRINT tran(rest u,first u) where
-; tran(val,prop) ==
-; prop="value" => DROP(-1,val)
-; val
-
-;;; *** |printEnv,tran| REDEFINED
-
-(DEFUN |printEnv,tran| (|val| |prop|) (SEQ (IF (BOOT-EQUAL |prop| (QUOTE |value|)) (EXIT (DROP (SPADDIFFERENCE 1) |val|))) (EXIT |val|)))
-
-;;; *** |printEnv| REDEFINED
-
-(DEFUN |printEnv| (E) (SEQ (DO ((#0=#:G3020 E (CDR #0#)) (|x| NIL) (|i| 1 (QSADD1 |i|))) ((OR (ATOM #0#) (PROGN (SETQ |x| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (DO ((#1=#:G3038 |x| (CDR #1#)) (|y| NIL) (|j| 1 (QSADD1 |j|))) ((OR (ATOM #1#) (PROGN (SETQ |y| (CAR #1#)) NIL)) NIL) (SEQ (EXIT (PROGN (SAY (MAKESTRING "******CONTOUR ") |j| (MAKESTRING ", LEVEL ") |i| (MAKESTRING ":******")) (DO ((#2=#:G3053 |y| (CDR #2#)) (|z| NIL)) ((OR (ATOM #2#) (PROGN (SETQ |z| (CAR #2#)) NIL)) NIL) (SEQ (EXIT (PROGN (TERPRI) (SAY (MAKESTRING "Properties Of: ") (CAR |z|)) (DO ((#3=#:G3065 (CDR |z|) (CDR #3#)) (|u| NIL)) ((OR (ATOM #3#) (PROGN (SETQ |u| (CAR #3#)) NIL)) NIL) (SEQ (EXIT (PROGN (PRIN0 (CAR |u|)) (|printString| (QUOTE |: |)) (PRETTYPRINT (|printEnv,tran| (CDR |u|) (CAR |u|))))))))))))))))))))
-;
-;prEnv E ==
-; for x in E for i in 1.. repeat
-; for y in x for j in 1.. repeat
-; SAY('"******CONTOUR ",j,'", LEVEL ",i,'":******")
-; for z in y | not LASSOC("modemap",rest z) repeat
-; TERPRI()
-; SAY("Properties Of: ",first z)
-; for u in rest z repeat
-; PRIN0 first u
-; printString ": "
-; PRETTYPRINT tran(rest u,first u) where
-; tran(val,prop) ==
-; prop="value" => DROP(-1,val)
-; val
-
-;;; *** |prEnv,tran| REDEFINED
-
-(DEFUN |prEnv,tran| (|val| |prop|) (SEQ (IF (BOOT-EQUAL |prop| (QUOTE |value|)) (EXIT (DROP (SPADDIFFERENCE 1) |val|))) (EXIT |val|)))
-
-;;; *** |prEnv| REDEFINED
-
-(DEFUN |prEnv| (E) (SEQ (DO ((#0=#:G3094 E (CDR #0#)) (|x| NIL) (|i| 1 (QSADD1 |i|))) ((OR (ATOM #0#) (PROGN (SETQ |x| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (DO ((#1=#:G3112 |x| (CDR #1#)) (|y| NIL) (|j| 1 (QSADD1 |j|))) ((OR (ATOM #1#) (PROGN (SETQ |y| (CAR #1#)) NIL)) NIL) (SEQ (EXIT (PROGN (SAY (MAKESTRING "******CONTOUR ") |j| (MAKESTRING ", LEVEL ") |i| (MAKESTRING ":******")) (DO ((#2=#:G3128 |y| (CDR #2#)) (|z| NIL)) ((OR (ATOM #2#) (PROGN (SETQ |z| (CAR #2#)) NIL)) NIL) (SEQ (EXIT (COND ((NULL (LASSOC (QUOTE |modemap|) (CDR |z|))) (PROGN (TERPRI) (SAY (MAKESTRING "Properties Of: ") (CAR |z|)) (DO ((#3=#:G3140 (CDR |z|) (CDR #3#)) (|u| NIL)) ((OR (ATOM #3#) (PROGN (SETQ |u| (CAR #3#)) NIL)) NIL) (SEQ (EXIT (PROGN (PRIN0 (CAR |u|)) (|printString| (QUOTE |: |)) (PRETTYPRINT (|prEnv,tran| (CDR |u|) (CAR |u|))))))))))))))))))))))
-;
-;prModemaps E ==
-; listOfOperatorsSeenSoFar:= nil
-; for x in E for i in 1.. repeat
-; for y in x for j in 1.. repeat
-; for z in y | null MEMBER(first z,listOfOperatorsSeenSoFar) and
-; (modemap:= LASSOC("modemap",rest z)) repeat
-; listOfOperatorsSeenSoFar:= [first z,:listOfOperatorsSeenSoFar]
-; TERPRI()
-; PRIN0 first z
-; printString ": "
-; PRETTYPRINT modemap
-
-;;; *** |prModemaps| REDEFINED
-
-(DEFUN |prModemaps| (E) (PROG (|modemap| |listOfOperatorsSeenSoFar|) (RETURN (SEQ (PROGN (SPADLET |listOfOperatorsSeenSoFar| NIL) (DO ((#0=#:G3160 E (CDR #0#)) (|x| NIL) (|i| 1 (QSADD1 |i|))) ((OR (ATOM #0#) (PROGN (SETQ |x| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (DO ((#1=#:G3175 |x| (CDR #1#)) (|y| NIL) (|j| 1 (QSADD1 |j|))) ((OR (ATOM #1#) (PROGN (SETQ |y| (CAR #1#)) NIL)) NIL) (SEQ (EXIT (DO ((#2=#:G3190 |y| (CDR #2#)) (|z| NIL)) ((OR (ATOM #2#) (PROGN (SETQ |z| (CAR #2#)) NIL)) NIL) (SEQ (EXIT (COND ((AND (NULL (|member| (CAR |z|) |listOfOperatorsSeenSoFar|)) (SPADLET |modemap| (LASSOC (QUOTE |modemap|) (CDR |z|)))) (PROGN (SPADLET |listOfOperatorsSeenSoFar| (CONS (CAR |z|) |listOfOperatorsSeenSoFar|)) (TERPRI) (PRIN0 (CAR |z|)) (|printString| (QUOTE |: |)) (PRETTYPRINT |modemap|))))))))))))))))))
-;
-;prTriple T ==
-; SAY '"Code:"
-; pp T.0
-; SAY '"Mode:"
-; pp T.1
-
-;;; *** |prTriple| REDEFINED
-
-(DEFUN |prTriple| (T$) (PROGN (SAY (MAKESTRING "Code:")) (|pp| (ELT T$ 0)) (SAY (MAKESTRING "Mode:")) (|pp| (ELT T$ 1))))
-;
-;TrimCF() ==
-; new:= nil
-; old:= CAAR $CategoryFrame
-; for u in old repeat
-; if not ASSQ(first u,new) then
-; uold:= rest u
-; unew:= nil
-; for v in uold repeat if not ASSQ(first v,unew) then unew:= [v,:unew]
-; new:= [[first u,:NREVERSE unew],:new]
-; $CategoryFrame:= [[NREVERSE new]]
-; nil
-
-;;; *** |TrimCF| REDEFINED
-
-(DEFUN |TrimCF| NIL (PROG (|old| |uold| |unew| |new|) (RETURN (SEQ (PROGN (SPADLET |new| NIL) (SPADLET |old| (CAAR |$CategoryFrame|)) (DO ((#0=#:G3211 |old| (CDR #0#)) (|u| NIL)) ((OR (ATOM #0#) (PROGN (SETQ |u| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (COND ((NULL (ASSQ (CAR |u|) |new|)) (SPADLET |uold| (CDR |u|)) (SPADLET |unew| NIL) (DO ((#1=#:G3220 |uold| (CDR #1#)) (|v| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |v| (CAR #1#)) NIL)) NIL) (SEQ (EXIT (COND ((NULL (ASSQ (CAR |v|) |unew|)) (SPADLET |unew| (CONS |v| |unew|))) ((QUOTE T) NIL))))) (SPADLET |new| (CONS (CONS (CAR |u|) (NREVERSE |unew|)) |new|))) ((QUOTE T) NIL))))) (SPADLET |$CategoryFrame| (CONS (CONS (NREVERSE |new|) NIL) NIL)) NIL)))))
-;
-;
-;--% PREDICATES
-;
-;
-;isConstantId(name,e) ==
-; IDENTP name =>
-; pl:= getProplist(name,e) =>
-; (LASSOC("value",pl) or LASSOC("mode",pl) => false; true)
-; true
-; false
-
-;;; *** |isConstantId| REDEFINED
-
-(DEFUN |isConstantId| (|name| |e|) (PROG (|pl|) (RETURN (COND ((IDENTP |name|) (COND ((SPADLET |pl| (|getProplist| |name| |e|)) (COND ((OR (LASSOC (QUOTE |value|) |pl|) (LASSOC (QUOTE |mode|) |pl|)) NIL) ((QUOTE T) (QUOTE T)))) ((QUOTE T) (QUOTE T)))) ((QUOTE T) NIL)))))
-;
-;isFalse() == nil
-
-;;; *** |isFalse| REDEFINED
-
-(DEFUN |isFalse| NIL NIL)
-;
-;isFluid s == atom s and "$"=(PNAME s).(0)
-
-;;; *** |isFluid| REDEFINED
-
-(DEFUN |isFluid| (|s|) (AND (ATOM |s|) (BOOT-EQUAL (QUOTE $) (ELT (PNAME |s|) 0))))
-;
-;isFunction(x,e) ==
-; get(x,"modemap",e) or GET(x,"SPECIAL") or x="case" or getmode(x,e) is [
-; "Mapping",:.]
-
-;;; *** |isFunction| REDEFINED
-
-(DEFUN |isFunction| (|x| |e|) (PROG (|ISTMP#1|) (RETURN (OR (|get| |x| (QUOTE |modemap|) |e|) (GETL |x| (QUOTE SPECIAL)) (BOOT-EQUAL |x| (QUOTE |case|)) (PROGN (SPADLET |ISTMP#1| (|getmode| |x| |e|)) (AND (PAIRP |ISTMP#1|) (EQ (QCAR |ISTMP#1|) (QUOTE |Mapping|))))))))
-;
-;isLiteral(x,e) == get(x,"isLiteral",e)
-
-;;; *** |isLiteral| REDEFINED
-
-(DEFUN |isLiteral| (|x| |e|) (|get| |x| (QUOTE |isLiteral|) |e|))
-;
-;makeLiteral(x,e) == put(x,"isLiteral","true",e)
-
-;;; *** |makeLiteral| REDEFINED
-
-(DEFUN |makeLiteral| (|x| |e|) (|put| |x| (QUOTE |isLiteral|) (QUOTE |true|) |e|))
-;
-;isSomeDomainVariable s ==
-; IDENTP s and #(x:= PNAME s)>2 and x.(0)="#" and x.(1)="#"
-
-;;; *** |isSomeDomainVariable| REDEFINED
-
-(DEFUN |isSomeDomainVariable| (|s|) (PROG (|x|) (RETURN (AND (IDENTP |s|) (> (|#| (SPADLET |x| (PNAME |s|))) 2) (BOOT-EQUAL (ELT |x| 0) (QUOTE |#|)) (BOOT-EQUAL (ELT |x| 1) (QUOTE |#|))))))
-;
-;isSubset(x,y,e) ==
-; x="$" and y="Rep" or x=y or
-; LASSOC(opOf x,get(opOf y,"Subsets",e) or GET(opOf y,"Subsets")) or
-; LASSOC(opOf x,get(opOf y,"SubDomain",e)) or
-; opOf(y)='Type or opOf(y)='Object
-
-;;; *** |isSubset| REDEFINED
-
-(DEFUN |isSubset| (|x| |y| |e|) (OR (AND (BOOT-EQUAL |x| (QUOTE $)) (BOOT-EQUAL |y| (QUOTE |Rep|))) (BOOT-EQUAL |x| |y|) (LASSOC (|opOf| |x|) (OR (|get| (|opOf| |y|) (QUOTE |Subsets|) |e|) (GETL (|opOf| |y|) (QUOTE |Subsets|)))) (LASSOC (|opOf| |x|) (|get| (|opOf| |y|) (QUOTE |SubDomain|) |e|)) (BOOT-EQUAL (|opOf| |y|) (QUOTE |Type|)) (BOOT-EQUAL (|opOf| |y|) (QUOTE |Object|))))
-;
-;isDomainInScope(domain,e) ==
-; domainList:= getDomainsInScope e
-; atom domain =>
-; MEMQ(domain,domainList) => true
-; not IDENTP domain or isSomeDomainVariable domain => true
-; false
-; (name:= first domain)="Category" => true
-; ASSQ(name,domainList) => true
-;-- null CDR domain or domainMember(domain,domainList) => true
-;-- false
-; isFunctor name => false
-; true --is not a functor
-
-;;; *** |isDomainInScope| REDEFINED
-
-(DEFUN |isDomainInScope| (|domain| |e|) (PROG (|domainList| |name|) (RETURN (PROGN (SPADLET |domainList| (|getDomainsInScope| |e|)) (COND ((ATOM |domain|) (COND ((MEMQ |domain| |domainList|) (QUOTE T)) ((OR (NULL (IDENTP |domain|)) (|isSomeDomainVariable| |domain|)) (QUOTE T)) ((QUOTE T) NIL))) ((BOOT-EQUAL (SPADLET |name| (CAR |domain|)) (QUOTE |Category|)) (QUOTE T)) ((ASSQ |name| |domainList|) (QUOTE T)) ((|isFunctor| |name|) NIL) ((QUOTE T) (QUOTE T)))))))
-;
-;isSymbol x == IDENTP x or x=nil
-
-;;; *** |isSymbol| REDEFINED
-
-(DEFUN |isSymbol| (|x|) (OR (IDENTP |x|) (NULL |x|)))
-;
-;isSimple x ==
-; atom x or $InteractiveMode => true
-; x is [op,:argl] and
-; isSideEffectFree op and (and/[isSimple y for y in argl])
-
-;;; *** |isSimple| REDEFINED
-
-(DEFUN |isSimple| (|x|) (PROG (|op| |argl|) (RETURN (SEQ (COND ((OR (ATOM |x|) |$InteractiveMode|) (QUOTE T)) ((QUOTE T) (AND (PAIRP |x|) (PROGN (SPADLET |op| (QCAR |x|)) (SPADLET |argl| (QCDR |x|)) (QUOTE T)) (|isSideEffectFree| |op|) (PROG (#0=#:G3282) (SPADLET #0# (QUOTE T)) (RETURN (DO ((#1=#:G3288 NIL (NULL #0#)) (#2=#:G3289 |argl| (CDR #2#)) (|y| NIL)) ((OR #1# (ATOM #2#) (PROGN (SETQ |y| (CAR #2#)) NIL)) #0#) (SEQ (EXIT (SETQ #0# (AND #0# (|isSimple| |y|)))))))))))))))
-;
-;isSideEffectFree op ==
-; MEMBER(op,$SideEffectFreeFunctionList) or op is ["elt",.,op'] and
-; isSideEffectFree op'
-
-;;; *** |isSideEffectFree| REDEFINED
-
-(DEFUN |isSideEffectFree| (|op|) (PROG (|ISTMP#1| |ISTMP#2| |op'|) (RETURN (OR (|member| |op| |$SideEffectFreeFunctionList|) (AND (PAIRP |op|) (EQ (QCAR |op|) (QUOTE |elt|)) (PROGN (SPADLET |ISTMP#1| (QCDR |op|)) (AND (PAIRP |ISTMP#1|) (PROGN (SPADLET |ISTMP#2| (QCDR |ISTMP#1|)) (AND (PAIRP |ISTMP#2|) (EQ (QCDR |ISTMP#2|) NIL) (PROGN (SPADLET |op'| (QCAR |ISTMP#2|)) (QUOTE T)))))) (|isSideEffectFree| |op'|))))))
-;
-;isAlmostSimple x ==
-; --returns (<new predicate> . <list of assignments>) or nil
-; $assignmentList: local --$assigmentList is only used in this function
-; transform:=
-; fn x where
-; fn x ==
-; atom x or null rest x => x
-; [op,y,:l]:= x
-; op="has" => x
-; op="is" => x
-; op="LET" =>
-; IDENTP y => (setAssignment LIST x; y)
-; true => (setAssignment [["LET",g:= genVariable(),:l],["LET",y,g]]; g)
-; isSideEffectFree op => [op,:mapInto(rest x,"fn")]
-; true => $assignmentList:= "failed"
-; setAssignment x ==
-; $assignmentList="failed" => nil
-; $assignmentList:= [:$assignmentList,:x]
-; $assignmentList="failed" => nil
-; wrapSEQExit [:$assignmentList,transform]
-
-;;; *** |isAlmostSimple,setAssignment| REDEFINED
-
-(DEFUN |isAlmostSimple,setAssignment| (|x|) (SEQ (IF (BOOT-EQUAL |$assignmentList| (QUOTE |failed|)) (EXIT NIL)) (EXIT (SPADLET |$assignmentList| (APPEND |$assignmentList| |x|)))))
-;;; *** |isAlmostSimple,fn| REDEFINED
-(DEFUN |isAlmostSimple,fn| (|x|) (PROG (|op| |y| |l| |g|) (RETURN (SEQ (IF (OR (ATOM |x|) (NULL (CDR |x|))) (EXIT |x|)) (PROGN (SPADLET |op| (CAR |x|)) (SPADLET |y| (CADR |x|)) (SPADLET |l| (CDDR |x|)) |x|) (IF (BOOT-EQUAL |op| (QUOTE |has|)) (EXIT |x|)) (IF (BOOT-EQUAL |op| (QUOTE |is|)) (EXIT |x|)) (IF (BOOT-EQUAL |op| (QUOTE LET)) (EXIT (SEQ (IF (IDENTP |y|) (EXIT (SEQ (|isAlmostSimple,setAssignment| (LIST |x|)) (EXIT |y|)))) (EXIT (IF (QUOTE T) (EXIT (SEQ (|isAlmostSimple,setAssignment| (CONS (CONS (QUOTE LET) (CONS (SPADLET |g| (|genVariable|)) |l|)) (CONS (CONS (QUOTE LET) (CONS |y| (CONS |g| NIL))) NIL))) (EXIT |g|)))))))) (IF (|isSideEffectFree| |op|) (EXIT (CONS |op| (|mapInto| (CDR |x|) (QUOTE |isAlmostSimple,fn|))))) (EXIT (IF (QUOTE T) (EXIT (SPADLET |$assignmentList| (QUOTE |failed|)))))))))
-
-;;; *** |isAlmostSimple| REDEFINED
-
-(DEFUN |isAlmostSimple| (|x|) (PROG (|$assignmentList| |transform|) (DECLARE (SPECIAL |$assignmentList|)) (RETURN (PROGN (SPADLET |$assignmentList| NIL) (SPADLET |transform| (|isAlmostSimple,fn| |x|)) (COND ((BOOT-EQUAL |$assignmentList| (QUOTE |failed|)) NIL) ((QUOTE T) (|wrapSEQExit| (APPEND |$assignmentList| (CONS |transform| NIL)))))))))
-;
-;incExitLevel u ==
-; adjExitLevel(u,1,1)
-; u
-
-;;; *** |incExitLevel| REDEFINED
-
-(DEFUN |incExitLevel| (|u|) (PROGN (|adjExitLevel| |u| 1 1) |u|))
-;
-;decExitLevel u ==
-; (adjExitLevel(u,1,-1); removeExit0 u) where
-; removeExit0 x ==
-; atom x => x
-; x is ["exit",0,u] => removeExit0 u
-; [removeExit0 first x,:removeExit0 rest x]
-
-;;; *** |decExitLevel,removeExit0| REDEFINED
-
-(DEFUN |decExitLevel,removeExit0| (|x|) (PROG (|ISTMP#1| |ISTMP#2| |u|) (RETURN (SEQ (IF (ATOM |x|) (EXIT |x|)) (IF (AND (PAIRP |x|) (EQ (QCAR |x|) (QUOTE |exit|)) (PROGN (SPADLET |ISTMP#1| (QCDR |x|)) (AND (PAIRP |ISTMP#1|) (EQUAL (QCAR |ISTMP#1|) 0) (PROGN (SPADLET |ISTMP#2| (QCDR |ISTMP#1|)) (AND (PAIRP |ISTMP#2|) (EQ (QCDR |ISTMP#2|) NIL) (PROGN (SPADLET |u| (QCAR |ISTMP#2|)) (QUOTE T))))))) (EXIT (|decExitLevel,removeExit0| |u|))) (EXIT (CONS (|decExitLevel,removeExit0| (CAR |x|)) (|decExitLevel,removeExit0| (CDR |x|))))))))
-
-;;; *** |decExitLevel| REDEFINED
-
-(DEFUN |decExitLevel| (|u|) (PROGN (|adjExitLevel| |u| 1 (SPADDIFFERENCE 1)) (|decExitLevel,removeExit0| |u|)))
-;
-;adjExitLevel(x,seqnum,inc) ==
-; atom x => x
-; x is [op,:l] and MEMQ(op,'(SEQ REPEAT COLLECT)) =>
-; for u in l repeat adjExitLevel(u,seqnum+1,inc)
-; x is ["exit",n,u] =>
-; (adjExitLevel(u,seqnum,inc); seqnum>n => x; rplac(CADR x,n+inc))
-; x is [op,:l] => for u in l repeat adjExitLevel(u,seqnum,inc)
-
-;;; *** |adjExitLevel| REDEFINED
-
-(DEFUN |adjExitLevel| (|x| |seqnum| |inc|) (PROG (|ISTMP#1| |n| |ISTMP#2| |u| |op| |l|) (RETURN (SEQ (COND ((ATOM |x|) |x|) ((AND (PAIRP |x|) (PROGN (SPADLET |op| (QCAR |x|)) (SPADLET |l| (QCDR |x|)) (QUOTE T)) (MEMQ |op| (QUOTE (SEQ REPEAT COLLECT)))) (DO ((#0=#:G3401 |l| (CDR #0#)) (|u| NIL)) ((OR (ATOM #0#) (PROGN (SETQ |u| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (|adjExitLevel| |u| (PLUS |seqnum| 1) |inc|))))) ((AND (PAIRP |x|) (EQ (QCAR |x|) (QUOTE |exit|)) (PROGN (SPADLET |ISTMP#1| (QCDR |x|)) (AND (PAIRP |ISTMP#1|) (PROGN (SPADLET |n| (QCAR |ISTMP#1|)) (SPADLET |ISTMP#2| (QCDR |ISTMP#1|)) (AND (PAIRP |ISTMP#2|) (EQ (QCDR |ISTMP#2|) NIL) (PROGN (SPADLET |u| (QCAR |ISTMP#2|)) (QUOTE T))))))) (|adjExitLevel| |u| |seqnum| |inc|) (COND ((> |seqnum| |n|) |x|) ((QUOTE T) (|rplac| (CADR |x|) (PLUS |n| |inc|))))) ((AND (PAIRP |x|) (PROGN (SPADLET |op| (QCAR |x|)) (SPADLET |l| (QCDR |x|)) (QUOTE T))) (DO ((#1=#:G3410 |l| (CDR #1#)) (|u| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |u| (CAR #1#)) NIL)) NIL) (SEQ (EXIT (|adjExitLevel| |u| |seqnum| |inc|))))))))))
-;
-;wrapSEQExit l ==
-; null rest l => first l
-; [:c,x]:= [incExitLevel u for u in l]
-; ["SEQ",:c,["exit",1,x]]
-
-;;; *** |wrapSEQExit| REDEFINED
-
-(DEFUN |wrapSEQExit| (|l|) (PROG (|LETTMP#1| |LETTMP#2| |x| |c|) (RETURN (SEQ (COND ((NULL (CDR |l|)) (CAR |l|)) ((QUOTE T) (SPADLET |LETTMP#1| (PROG (#0=#:G3441) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G3446 |l| (CDR #1#)) (|u| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |u| (CAR #1#)) NIL)) (NREVERSE0 #0#)) (SEQ (EXIT (SETQ #0# (CONS (|incExitLevel| |u|) #0#)))))))) (SPADLET |LETTMP#2| (REVERSE |LETTMP#1|)) (SPADLET |x| (CAR |LETTMP#2|)) (SPADLET |c| (NREVERSE (CDR |LETTMP#2|))) (CONS (QUOTE SEQ) (APPEND |c| (CONS (CONS (QUOTE |exit|) (CONS 1 (CONS |x| NIL))) NIL)))))))))
-;
-;
-;--% UTILITY FUNCTIONS
-;
-;--appendOver x == "append"/x
-;
-;removeEnv t == [t.expr,t.mode,$EmptyEnvironment] -- t is a triple
-
-;;; *** |removeEnv| REDEFINED
-
-(DEFUN |removeEnv| (|t|) (CONS (CAR |t|) (CONS (CADR |t|) (CONS |$EmptyEnvironment| NIL))))
-;
-;-- This function seems no longer used
-;--ordinsert(x,l) ==
-;-- null l => [x]
-;-- x=first l => l
-;-- _?ORDER(x,first l) => [x,:l]
-;-- [first l,:ordinsert(x,rest l)]
-;
-;makeNonAtomic x ==
-; atom x => [x]
-; x
-
-;;; *** |makeNonAtomic| REDEFINED
-
-(DEFUN |makeNonAtomic| (|x|) (COND ((ATOM |x|) (CONS |x| NIL)) ((QUOTE T) |x|)))
-;
-;flatten(l,key) ==
-; null l => nil
-; first l is [k,:r] and k=key => [:r,:flatten(rest l,key)]
-; [first l,:flatten(rest l,key)]
-
-;;; *** |flatten| REDEFINED
-
-(DEFUN |flatten| (|l| |key|) (PROG (|ISTMP#1| |k| |r|) (RETURN (COND ((NULL |l|) NIL) ((AND (PROGN (SPADLET |ISTMP#1| (CAR |l|)) (AND (PAIRP |ISTMP#1|) (PROGN (SPADLET |k| (QCAR |ISTMP#1|)) (SPADLET |r| (QCDR |ISTMP#1|)) (QUOTE T)))) (BOOT-EQUAL |k| |key|)) (APPEND |r| (|flatten| (CDR |l|) |key|))) ((QUOTE T) (CONS (CAR |l|) (|flatten| (CDR |l|) |key|)))))))
-;
-;genDomainVar() ==
-; $Index:= $Index+1
-; INTERNL STRCONC("#D",STRINGIMAGE $Index)
-
-;;; *** |genDomainVar| REDEFINED
-
-(DEFUN |genDomainVar| NIL (PROGN (SPADLET |$Index| (PLUS |$Index| 1)) (INTERNL (STRCONC (QUOTE |#D|) (STRINGIMAGE |$Index|)))))
-;
-;genVariable() ==
-; INTERNL STRCONC("#G",STRINGIMAGE ($genSDVar:= $genSDVar+1))
-
-;;; *** |genVariable| REDEFINED
-
-(DEFUN |genVariable| NIL (INTERNL (STRCONC (QUOTE |#G|) (STRINGIMAGE (SPADLET |$genSDVar| (PLUS |$genSDVar| 1))))))
-;
-;genSomeVariable() ==
-; INTERNL STRCONC("##",STRINGIMAGE ($genSDVar:= $genSDVar+1))
-
-;;; *** |genSomeVariable| REDEFINED
-
-(DEFUN |genSomeVariable| NIL (INTERNL (STRCONC (QUOTE |##|) (STRINGIMAGE (SPADLET |$genSDVar| (PLUS |$genSDVar| 1))))))
-;
-;listOfIdentifiersIn x ==
-; IDENTP x => [x]
-; x is [op,:l] => REMDUP ("append"/[listOfIdentifiersIn y for y in l])
-; nil
-
-;;; *** |listOfIdentifiersIn| REDEFINED
-
-(DEFUN |listOfIdentifiersIn| (|x|) (PROG (|op| |l|) (RETURN (SEQ (COND ((IDENTP |x|) (CONS |x| NIL)) ((AND (PAIRP |x|) (PROGN (SPADLET |op| (QCAR |x|)) (SPADLET |l| (QCDR |x|)) (QUOTE T))) (REMDUP (PROG (#0=#:G3499) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G3504 |l| (CDR #1#)) (|y| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |y| (CAR #1#)) NIL)) #0#) (SEQ (EXIT (SETQ #0# (APPEND #0# (|listOfIdentifiersIn| |y|)))))))))) ((QUOTE T) NIL))))))
-;
-;mapInto(x,fn) == [FUNCALL(fn,y) for y in x]
-
-;;; *** |mapInto| REDEFINED
-
-(DEFUN |mapInto| (|x| |fn|) (PROG NIL (RETURN (SEQ (PROG (#0=#:G3520) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G3525 |x| (CDR #1#)) (|y| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |y| (CAR #1#)) NIL)) (NREVERSE0 #0#)) (SEQ (EXIT (SETQ #0# (CONS (FUNCALL |fn| |y|) #0#)))))))))))
-;
-;numOfOccurencesOf(x,y) ==
-; fn(x,y,0) where
-; fn(x,y,n) ==
-; null y => 0
-; x=y => n+1
-; atom y => n
-; fn(x,first y,n)+fn(x,rest y,n)
-
-;;; *** |numOfOccurencesOf,fn| REDEFINED
-
-(DEFUN |numOfOccurencesOf,fn| (|x| |y| |n|) (SEQ (IF (NULL |y|) (EXIT 0)) (IF (BOOT-EQUAL |x| |y|) (EXIT (PLUS |n| 1))) (IF (ATOM |y|) (EXIT |n|)) (EXIT (PLUS (|numOfOccurencesOf,fn| |x| (CAR |y|) |n|) (|numOfOccurencesOf,fn| |x| (CDR |y|) |n|)))))
-
-;;; *** |numOfOccurencesOf| REDEFINED
-
-(DEFUN |numOfOccurencesOf| (|x| |y|) (|numOfOccurencesOf,fn| |x| |y| 0))
-;
-;compilerMessage x ==
-; $PrintCompilerMessageIfTrue => APPLX("SAY",x)
-
-;;; *** |compilerMessage| REDEFINED
-
-(DEFUN |compilerMessage| (|x|) (SEQ (COND (|$PrintCompilerMessageIfTrue| (EXIT (APPLX (QUOTE SAY) |x|))))))
-;
-;printDashedLine() ==
-; SAY
-; '"--------------------------------------------------------------------------"
-
-;;; *** |printDashedLine| REDEFINED
-
-(DEFUN |printDashedLine| NIL (SAY (MAKESTRING "--------------------------------------------------------------------------")))
-;
-;stackSemanticError(msg,expr) ==
-; BUMPERRORCOUNT "semantic"
-; if $insideCapsuleFunctionIfTrue then msg:= [$op,": ",:msg]
-; if atom msg then msg:= LIST msg
-; entry:= [msg,expr]
-; if not MEMBER(entry,$semanticErrorStack) then $semanticErrorStack:=
-; [entry,:$semanticErrorStack]
-; $scanIfTrue and $insideCapsuleFunctionIfTrue=true and #$semanticErrorStack-
-; $initCapsuleErrorCount>3 => THROW("compCapsuleBody",nil)
-; nil
-
-;;; *** |stackSemanticError| REDEFINED
-
-(DEFUN |stackSemanticError| (|msg| |expr|) (PROG (|entry|) (RETURN (PROGN (BUMPERRORCOUNT (QUOTE |semantic|)) (COND (|$insideCapsuleFunctionIfTrue| (SPADLET |msg| (CONS |$op| (CONS (QUOTE |: |) |msg|))))) (COND ((ATOM |msg|) (SPADLET |msg| (LIST |msg|)))) (SPADLET |entry| (CONS |msg| (CONS |expr| NIL))) (COND ((NULL (|member| |entry| |$semanticErrorStack|)) (SPADLET |$semanticErrorStack| (CONS |entry| |$semanticErrorStack|)))) (COND ((AND |$scanIfTrue| (BOOT-EQUAL |$insideCapsuleFunctionIfTrue| (QUOTE T)) (> (SPADDIFFERENCE (|#| |$semanticErrorStack|) |$initCapsuleErrorCount|) 3)) (THROW (QUOTE |compCapsuleBody|) NIL)) ((QUOTE T) NIL))))))
-;
-;stackWarning msg ==
-; if $insideCapsuleFunctionIfTrue then msg:= [$op,": ",:msg]
-; if not MEMBER(msg,$warningStack) then $warningStack:= [msg,:$warningStack]
-; nil
-
-;;; *** |stackWarning| REDEFINED
-
-(DEFUN |stackWarning| (|msg|) (PROGN (COND (|$insideCapsuleFunctionIfTrue| (SPADLET |msg| (CONS |$op| (CONS (QUOTE |: |) |msg|))))) (COND ((NULL (|member| |msg| |$warningStack|)) (SPADLET |$warningStack| (CONS |msg| |$warningStack|)))) NIL))
-;
-;unStackWarning msg ==
-; if $insideCapsuleFunctionIfTrue then msg:= [$op,": ",:msg]
-; $warningStack:= EFFACE(msg,$warningStack)
-; nil
-
-;;; *** |unStackWarning| REDEFINED
-
-(DEFUN |unStackWarning| (|msg|) (PROGN (COND (|$insideCapsuleFunctionIfTrue| (SPADLET |msg| (CONS |$op| (CONS (QUOTE |: |) |msg|))))) (SPADLET |$warningStack| (EFFACE |msg| |$warningStack|)) NIL))
-;
-;stackMessage msg ==
-; $compErrorMessageStack:= [msg,:$compErrorMessageStack]
-; nil
-
-;;; *** |stackMessage| REDEFINED
-
-(DEFUN |stackMessage| (|msg|) (PROGN (SPADLET |$compErrorMessageStack| (CONS |msg| |$compErrorMessageStack|)) NIL))
-;
-;stackMessageIfNone msg ==
-; --used in situations such as compForm where the earliest message is wanted
-; if null $compErrorMessageStack then $compErrorMessageStack:=
-; [msg,:$compErrorMessageStack]
-; nil
-
-;;; *** |stackMessageIfNone| REDEFINED
-
-(DEFUN |stackMessageIfNone| (|msg|) (PROGN (COND ((NULL |$compErrorMessageStack|) (SPADLET |$compErrorMessageStack| (CONS |msg| |$compErrorMessageStack|)))) NIL))
-;
-;stackAndThrow msg ==
-; $compErrorMessageStack:= [msg,:$compErrorMessageStack]
-; THROW("compOrCroak",nil)
-
-;;; *** |stackAndThrow| REDEFINED
-
-(DEFUN |stackAndThrow| (|msg|) (PROGN (SPADLET |$compErrorMessageStack| (CONS |msg| |$compErrorMessageStack|)) (THROW (QUOTE |compOrCroak|) NIL)))
-;
-;printString x == PRINTEXP (STRINGP x => x; PNAME x)
-
-;;; *** |printString| REDEFINED
-
-(DEFUN |printString| (|x|) (PRINTEXP (COND ((STRINGP |x|) |x|) ((QUOTE T) (PNAME |x|)))))
-;
-;printAny x == if atom x then printString x else PRIN0 x
-
-;;; *** |printAny| REDEFINED
-
-(DEFUN |printAny| (|x|) (COND ((ATOM |x|) (|printString| |x|)) ((QUOTE T) (PRIN0 |x|))))
-;
-;printSignature(before,op,[target,:argSigList]) ==
-; printString before
-; printString op
-; printString ": _("
-; if argSigList then
-; printAny first argSigList
-; for m in rest argSigList repeat (printString ","; printAny m)
-; printString "_) -> "
-; printAny target
-; TERPRI()
-
-;;; *** |printSignature| REDEFINED
-
-(DEFUN |printSignature| (|before| |op| #0=#:G3594) (PROG (|target| |argSigList|) (RETURN (SEQ (PROGN (SPADLET |target| (CAR #0#)) (SPADLET |argSigList| (CDR #0#)) (|printString| |before|) (|printString| |op|) (|printString| (QUOTE |: (|)) (COND (|argSigList| (|printAny| (CAR |argSigList|)) (DO ((#1=#:G3608 (CDR |argSigList|) (CDR #1#)) (|m| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |m| (CAR #1#)) NIL)) NIL) (SEQ (EXIT (PROGN (|printString| (QUOTE |,|)) (|printAny| |m|))))))) (|printString| (QUOTE |) -> |)) (|printAny| |target|) (TERPRI))))))
-;
-;pmatch(s,p) == pmatchWithSl(s,p,"ok")
-
-;;; *** |pmatch| REDEFINED
-
-(DEFUN |pmatch| (|s| |p|) (|pmatchWithSl| |s| |p| (QUOTE |ok|)))
-;
-;pmatchWithSl(s,p,al) ==
-; s=$EmptyMode => nil
-; s=p => al
-; v:= ASSOC(p,al) => s=rest v or al
-; MEMQ(p,$PatternVariableList) => [[p,:s],:al]
-; null atom p and null atom s and (al':= pmatchWithSl(first s,first p,al)) and
-; pmatchWithSl(rest s,rest p,al')
-
-;;; *** |pmatchWithSl| REDEFINED
-
-(DEFUN |pmatchWithSl| (|s| |p| |al|) (PROG (|v| |al'|) (RETURN (COND ((BOOT-EQUAL |s| |$EmptyMode|) NIL) ((BOOT-EQUAL |s| |p|) |al|) ((SPADLET |v| (|assoc| |p| |al|)) (OR (BOOT-EQUAL |s| (CDR |v|)) |al|)) ((MEMQ |p| |$PatternVariableList|) (CONS (CONS |p| |s|) |al|)) ((QUOTE T) (AND (NULL (ATOM |p|)) (NULL (ATOM |s|)) (SPADLET |al'| (|pmatchWithSl| (CAR |s|) (CAR |p|) |al|)) (|pmatchWithSl| (CDR |s|) (CDR |p|) |al'|)))))))
-;
-;elapsedTime() ==
-; currentTime:= TEMPUS_-FUGIT()
-; elapsedSeconds:= (currentTime-$previousTime)*1.0/$timerTicksPerSecond
-; $previousTime:= currentTime
-; elapsedSeconds
-
-;;; *** |elapsedTime| REDEFINED
-
-(DEFUN |elapsedTime| NIL (PROG (|currentTime| |elapsedSeconds|) (RETURN (PROGN (SPADLET |currentTime| (TEMPUS-FUGIT)) (SPADLET |elapsedSeconds| (QUOTIENT (TIMES (SPADDIFFERENCE |currentTime| |$previousTime|) 1.0) |$timerTicksPerSecond|)) (SPADLET |$previousTime| |currentTime|) |elapsedSeconds|))))
-;
-;addStats([a,b],[c,d]) == [a+c,b+d]
-
-;;; *** |addStats| REDEFINED
-
-(DEFUN |addStats| (#0=#:G3635 #1=#:G3644) (PROG (|c| |d| |a| |b|) (RETURN (PROGN (SPADLET |c| (CAR #1#)) (SPADLET |d| (CADR #1#)) (SPADLET |a| (CAR #0#)) (SPADLET |b| (CADR #0#)) (CONS (PLUS |a| |c|) (CONS (PLUS |b| |d|) NIL))))))
-;
-;printStats [byteCount,elapsedSeconds] ==
-; timeString := normalizeStatAndStringify elapsedSeconds
-; if byteCount = 0 then SAY('"Time: ",timeString,'" SEC.") else
-; SAY('"Size: ",byteCount,'" BYTES Time: ",timeString,'" SEC.")
-; TERPRI()
-; nil
-
-;;; *** |printStats| REDEFINED
-
-(DEFUN |printStats| (#0=#:G3665) (PROG (|byteCount| |elapsedSeconds| |timeString|) (RETURN (PROGN (SPADLET |byteCount| (CAR #0#)) (SPADLET |elapsedSeconds| (CADR #0#)) (SPADLET |timeString| (|normalizeStatAndStringify| |elapsedSeconds|)) (COND ((EQL |byteCount| 0) (SAY (MAKESTRING "Time: ") |timeString| (MAKESTRING " SEC."))) ((QUOTE T) (SAY (MAKESTRING "Size: ") |byteCount| (MAKESTRING " BYTES Time: ") |timeString| (MAKESTRING " SEC.")))) (TERPRI) NIL))))
-;
-;extendsCategoryForm(domain,form,form') ==
-; --is domain of category form also of category form'?
-; --domain is only used for SubsetCategory resolution.
-; --and ensuring that X being a Ring means that it
-; --satisfies (Algebra X)
-; form=form' => true
-; form=$Category => nil
-; form' is ["Join",:l] => and/[extendsCategoryForm(domain,form,x) for x in l]
-; form' is ["CATEGORY",.,:l] =>
-; and/[extendsCategoryForm(domain,form,x) for x in l]
-; form' is ["SubsetCategory",cat,dom] =>
-; extendsCategoryForm(domain,form,cat) and isSubset(domain,dom,$e)
-; form is ["Join",:l] => or/[extendsCategoryForm(domain,x,form') for x in l]
-; form is ["CATEGORY",.,:l] =>
-; MEMBER(form',l) or
-; stackWarning ["not known that ",form'," is of mode ",form] or true
-; isCategoryForm(form,$EmptyEnvironment) =>
-; --Constructs the associated vector
-; formVec:=(compMakeCategoryObject(form,$e)).expr
-; --Must be $e to pick up locally bound domains
-; form' is ["SIGNATURE",op,args,:.] =>
-; ASSOC([op,args],formVec.(1)) or
-; ASSOC(SUBSTQ(domain,"$",[op,args]),
-; SUBSTQ(domain,"$",formVec.(1)))
-; form' is ["ATTRIBUTE",at] =>
-; ASSOC(at,formVec.2) or
-; ASSOC(SUBSTQ(domain,"$",at),SUBSTQ(domain,"$",formVec.2))
-; form' is ["IF",:.] => true --temporary hack so comp won't fail
-; -- Are we dealing with an Aldor category? If so use the "has" function ...
-; # formVec = 1 => newHasTest(form,form')
-; catvlist:= formVec.4
-; MEMBER(form',first catvlist) or
-; MEMBER(form',SUBSTQ(domain,"$",first catvlist)) or
-; (or/
-; [extendsCategoryForm(domain,SUBSTQ(domain,"$",cat),form')
-; for [cat,:.] in CADR catvlist])
-; nil
-
-;;; *** |extendsCategoryForm| REDEFINED
-
-(DEFUN |extendsCategoryForm| (|domain| |form| |form'|) (PROG (|dom| |l| |formVec| |op| |ISTMP#2| |args| |ISTMP#1| |at| |catvlist| |cat|) (RETURN (SEQ (COND ((BOOT-EQUAL |form| |form'|) (QUOTE T)) ((BOOT-EQUAL |form| |$Category|) NIL) ((AND (PAIRP |form'|) (EQ (QCAR |form'|) (QUOTE |Join|)) (PROGN (SPADLET |l| (QCDR |form'|)) (QUOTE T))) (PROG (#0=#:G3729) (SPADLET #0# (QUOTE T)) (RETURN (DO ((#1=#:G3735 NIL (NULL #0#)) (#2=#:G3736 |l| (CDR #2#)) (|x| NIL)) ((OR #1# (ATOM #2#) (PROGN (SETQ |x| (CAR #2#)) NIL)) #0#) (SEQ (EXIT (SETQ #0# (AND #0# (|extendsCategoryForm| |domain| |form| |x|))))))))) ((AND (PAIRP |form'|) (EQ (QCAR |form'|) (QUOTE CATEGORY)) (PROGN (SPADLET |ISTMP#1| (QCDR |form'|)) (AND (PAIRP |ISTMP#1|) (PROGN (SPADLET |l| (QCDR |ISTMP#1|)) (QUOTE T))))) (PROG (#3=#:G3743) (SPADLET #3# (QUOTE T)) (RETURN (DO ((#4=#:G3749 NIL (NULL #3#)) (#5=#:G3750 |l| (CDR #5#)) (|x| NIL)) ((OR #4# (ATOM #5#) (PROGN (SETQ |x| (CAR #5#)) NIL)) #3#) (SEQ (EXIT (SETQ #3# (AND #3# (|extendsCategoryForm| |domain| |form| |x|))))))))) ((AND (PAIRP |form'|) (EQ (QCAR |form'|) (QUOTE |SubsetCategory|)) (PROGN (SPADLET |ISTMP#1| (QCDR |form'|)) (AND (PAIRP |ISTMP#1|) (PROGN (SPADLET |cat| (QCAR |ISTMP#1|)) (SPADLET |ISTMP#2| (QCDR |ISTMP#1|)) (AND (PAIRP |ISTMP#2|) (EQ (QCDR |ISTMP#2|) NIL) (PROGN (SPADLET |dom| (QCAR |ISTMP#2|)) (QUOTE T))))))) (AND (|extendsCategoryForm| |domain| |form| |cat|) (|isSubset| |domain| |dom| |$e|))) ((AND (PAIRP |form|) (EQ (QCAR |form|) (QUOTE |Join|)) (PROGN (SPADLET |l| (QCDR |form|)) (QUOTE T))) (PROG (#6=#:G3757) (SPADLET #6# NIL) (RETURN (DO ((#7=#:G3763 NIL #6#) (#8=#:G3764 |l| (CDR #8#)) (|x| NIL)) ((OR #7# (ATOM #8#) (PROGN (SETQ |x| (CAR #8#)) NIL)) #6#) (SEQ (EXIT (SETQ #6# (OR #6# (|extendsCategoryForm| |domain| |x| |form'|))))))))) ((AND (PAIRP |form|) (EQ (QCAR |form|) (QUOTE CATEGORY)) (PROGN (SPADLET |ISTMP#1| (QCDR |form|)) (AND (PAIRP |ISTMP#1|) (PROGN (SPADLET |l| (QCDR |ISTMP#1|)) (QUOTE T))))) (OR (|member| |form'| |l|) (|stackWarning| (CONS (QUOTE |not known that |) (CONS |form'| (CONS (QUOTE | is of mode |) (CONS |form| NIL))))) (QUOTE T))) ((|isCategoryForm| |form| |$EmptyEnvironment|) (SPADLET |formVec| (CAR (|compMakeCategoryObject| |form| |$e|))) (COND ((AND (PAIRP |form'|) (EQ (QCAR |form'|) (QUOTE SIGNATURE)) (PROGN (SPADLET |ISTMP#1| (QCDR |form'|)) (AND (PAIRP |ISTMP#1|) (PROGN (SPADLET |op| (QCAR |ISTMP#1|)) (SPADLET |ISTMP#2| (QCDR |ISTMP#1|)) (AND (PAIRP |ISTMP#2|) (PROGN (SPADLET |args| (QCAR |ISTMP#2|)) (QUOTE T))))))) (OR (|assoc| (CONS |op| (CONS |args| NIL)) (ELT |formVec| 1)) (|assoc| (SUBSTQ |domain| (QUOTE $) (CONS |op| (CONS |args| NIL))) (SUBSTQ |domain| (QUOTE $) (ELT |formVec| 1))))) ((AND (PAIRP |form'|) (EQ (QCAR |form'|) (QUOTE ATTRIBUTE)) (PROGN (SPADLET |ISTMP#1| (QCDR |form'|)) (AND (PAIRP |ISTMP#1|) (EQ (QCDR |ISTMP#1|) NIL) (PROGN (SPADLET |at| (QCAR |ISTMP#1|)) (QUOTE T))))) (OR (|assoc| |at| (ELT |formVec| 2)) (|assoc| (SUBSTQ |domain| (QUOTE $) |at|) (SUBSTQ |domain| (QUOTE $) (ELT |formVec| 2))))) ((AND (PAIRP |form'|) (EQ (QCAR |form'|) (QUOTE IF))) (QUOTE T)) ((EQL (|#| |formVec|) 1) (|newHasTest| |form| |form'|)) ((QUOTE T) (SPADLET |catvlist| (ELT |formVec| 4)) (OR (|member| |form'| (CAR |catvlist|)) (|member| |form'| (SUBSTQ |domain| (QUOTE $) (CAR |catvlist|))) (PROG (#9=#:G3771) (SPADLET #9# NIL) (RETURN (DO ((#10=#:G3778 NIL #9#) (#11=#:G3779 (CADR |catvlist|) (CDR #11#)) (#12=#:G3724 NIL)) ((OR #10# (ATOM #11#) (PROGN (SETQ #12# (CAR #11#)) NIL) (PROGN (PROGN (SPADLET |cat| (CAR #12#)) #12#) NIL)) #9#) (SEQ (EXIT (SETQ #9# (OR #9# (|extendsCategoryForm| |domain| (SUBSTQ |domain| (QUOTE $) |cat|) |form'|)))))))))))) ((QUOTE T) NIL))))))
-;
-;getmode(x,e) ==
-; prop:=getProplist(x,e)
-; u:= LASSQ("value",prop) => u.mode
-; LASSQ("mode",prop)
-
-;;; *** |getmode| REDEFINED
-
-(DEFUN |getmode| (|x| |e|) (PROG (|prop| |u|) (RETURN (PROGN (SPADLET |prop| (|getProplist| |x| |e|)) (COND ((SPADLET |u| (LASSQ (QUOTE |value|) |prop|)) (CADR |u|)) ((QUOTE T) (LASSQ (QUOTE |mode|) |prop|)))))))
-;
-;getmodeOrMapping(x,e) ==
-; u:= getmode(x,e) => u
-; (u:= get(x,"modemap",e)) is [[[.,:map],.],:.] => ["Mapping",:map]
-; nil
-
-;;; *** |getmodeOrMapping| REDEFINED
-
-(DEFUN |getmodeOrMapping| (|x| |e|) (PROG (|u| |ISTMP#1| |ISTMP#2| |ISTMP#3| |map| |ISTMP#4|) (RETURN (COND ((SPADLET |u| (|getmode| |x| |e|)) |u|) ((PROGN (SPADLET |ISTMP#1| (SPADLET |u| (|get| |x| (QUOTE |modemap|) |e|))) (AND (PAIRP |ISTMP#1|) (PROGN (SPADLET |ISTMP#2| (QCAR |ISTMP#1|)) (AND (PAIRP |ISTMP#2|) (PROGN (SPADLET |ISTMP#3| (QCAR |ISTMP#2|)) (AND (PAIRP |ISTMP#3|) (PROGN (SPADLET |map| (QCDR |ISTMP#3|)) (QUOTE T)))) (PROGN (SPADLET |ISTMP#4| (QCDR |ISTMP#2|)) (AND (PAIRP |ISTMP#4|) (EQ (QCDR |ISTMP#4|) NIL))))))) (CONS (QUOTE |Mapping|) |map|)) ((QUOTE T) NIL)))))
-;
-;outerProduct l ==
-; --of a list of lists
-; null l => LIST nil
-; "append"/[[[x,:y] for y in outerProduct rest l] for x in first l]
-
-;;; *** |outerProduct| REDEFINED
-
-(DEFUN |outerProduct| (|l|) (PROG NIL (RETURN (SEQ (COND ((NULL |l|) (LIST NIL)) ((QUOTE T) (PROG (#0=#:G3855) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G3860 (CAR |l|) (CDR #1#)) (|x| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |x| (CAR #1#)) NIL)) #0#) (SEQ (EXIT (SETQ #0# (APPEND #0# (PROG (#2=#:G3870) (SPADLET #2# NIL) (RETURN (DO ((#3=#:G3875 (|outerProduct| (CDR |l|)) (CDR #3#)) (|y| NIL)) ((OR (ATOM #3#) (PROGN (SETQ |y| (CAR #3#)) NIL)) (NREVERSE0 #2#)) (SEQ (EXIT (SETQ #2# (CONS (CONS |x| |y|) #2#))))))))))))))))))))
-;
-;sublisR(al,u) ==
-; atom u => u
-; y:= RASSOC(t:= [sublisR(al,x) for x in u],al) => y
-; true => t
-
-;;; *** |sublisR| REDEFINED
-
-(DEFUN |sublisR| (|al| |u|) (PROG (|t| |y|) (RETURN (SEQ (COND ((ATOM |u|) |u|) ((SPADLET |y| (|rassoc| (SPADLET |t| (PROG (#0=#:G3891) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G3896 |u| (CDR #1#)) (|x| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |x| (CAR #1#)) NIL)) (NREVERSE0 #0#)) (SEQ (EXIT (SETQ #0# (CONS (|sublisR| |al| |x|) #0#)))))))) |al|)) |y|) ((QUOTE T) |t|))))))
-;
-;substituteOp(op',op,x) ==
-; atom x => x
-; [(op=(f:= first x) => op'; f),:[substituteOp(op',op,y) for y in rest x]]
-
-;;; *** |substituteOp| REDEFINED
-
-(DEFUN |substituteOp| (|op'| |op| |x|) (PROG (|f|) (RETURN (SEQ (COND ((ATOM |x|) |x|) ((QUOTE T) (CONS (COND ((BOOT-EQUAL |op| (SPADLET |f| (CAR |x|))) |op'|) ((QUOTE T) |f|)) (PROG (#0=#:G3914) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G3919 (CDR |x|) (CDR #1#)) (|y| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |y| (CAR #1#)) NIL)) (NREVERSE0 #0#)) (SEQ (EXIT (SETQ #0# (CONS (|substituteOp| |op'| |op| |y|) #0#))))))))))))))
-;
-;--substituteForFormalArguments(argl,expr) ==
-;-- SUBLIS([[v,:a] for a in argl for v in $FormalMapVariableList],expr)
-;
-; -- following is only intended for substituting in domains slots 1 and 4
-; -- signatures and categories
-;sublisV(p,e) ==
-; (atom p => e; suba(p,e)) where
-; suba(p,e) ==
-; STRINGP e => e
-; -- no need to descend vectors unless they are categories
-; --REFVECP e => LIST2REFVEC [suba(p,e.i) for i in 0..MAXINDEX e]
-; isCategory e => LIST2REFVEC [suba(p,e.i) for i in 0..MAXINDEX e]
-; atom e => (y:= ASSQ(e,p) => rest y; e)
-; u:= suba(p,QCAR e)
-; v:= suba(p,QCDR e)
-; EQ(QCAR e,u) and EQ(QCDR e,v) => e
-; [u,:v]
-
-;;; *** |sublisV,suba| REDEFINED
-
-(DEFUN |sublisV,suba| (|p| |e|) (PROG (|y| |u| |v|) (RETURN (SEQ (IF (STRINGP |e|) (EXIT |e|)) (IF (|isCategory| |e|) (EXIT (LIST2REFVEC (PROG (#0=#:G3936) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G3941 (MAXINDEX |e|)) (|i| 0 (QSADD1 |i|))) ((QSGREATERP |i| #1#) (NREVERSE0 #0#)) (SEQ (EXIT (SETQ #0# (CONS (|sublisV,suba| |p| (ELT |e| |i|)) #0#)))))))))) (IF (ATOM |e|) (EXIT (SEQ (IF (SPADLET |y| (ASSQ |e| |p|)) (EXIT (CDR |y|))) (EXIT |e|)))) (SPADLET |u| (|sublisV,suba| |p| (QCAR |e|))) (SPADLET |v| (|sublisV,suba| |p| (QCDR |e|))) (IF (AND (EQ (QCAR |e|) |u|) (EQ (QCDR |e|) |v|)) (EXIT |e|)) (EXIT (CONS |u| |v|))))))
-
-;;; *** |sublisV| REDEFINED
-
-(DEFUN |sublisV| (|p| |e|) (COND ((ATOM |p|) |e|) ((QUOTE T) (|sublisV,suba| |p| |e|))))
-;
-;--% DEBUGGING PRINT ROUTINES used in breaks
-;
-;_?MODEMAPS x == _?modemaps x
-
-;;; *** ?MODEMAPS REDEFINED
-
-(DEFUN ?MODEMAPS (|x|) (|?modemaps| |x|))
-;_?modemaps x ==
-; env:=
-; $insideCapsuleFunctionIfTrue=true => $CapsuleModemapFrame
-; $f
-; x="all" => displayModemaps env
-; displayOpModemaps(x,old2NewModemaps get(x,"modemap",env))
-
-;;; *** |?modemaps| REDEFINED
-
-(DEFUN |?modemaps| (|x|) (PROG (|env|) (RETURN (PROGN (SPADLET |env| (COND ((BOOT-EQUAL |$insideCapsuleFunctionIfTrue| (QUOTE T)) |$CapsuleModemapFrame|) ((QUOTE T) |$f|))) (COND ((BOOT-EQUAL |x| (QUOTE |all|)) (|displayModemaps| |env|)) ((QUOTE T) (|displayOpModemaps| |x| (|old2NewModemaps| (|get| |x| (QUOTE |modemap|) |env|)))))))))
-;old2NewModemaps x ==
-; [[dcSig,pred] for [dcSig,[pred,:.],:.] in x]
-
-;;; *** |old2NewModemaps| REDEFINED
-
-(DEFUN |old2NewModemaps| (|x|) (PROG (|dcSig| |pred|) (RETURN (SEQ (PROG (#0=#:G3975) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G3981 |x| (CDR #1#)) (#2=#:G3966 NIL)) ((OR (ATOM #1#) (PROGN (SETQ #2# (CAR #1#)) NIL) (PROGN (PROGN (SPADLET |dcSig| (CAR #2#)) (SPADLET |pred| (CAADR #2#)) #2#) NIL)) (NREVERSE0 #0#)) (SEQ (EXIT (SETQ #0# (CONS (CONS |dcSig| (CONS |pred| NIL)) #0#)))))))))))
-;
-;traceUp() ==
-; atom $x => sayBrightly "$x is an atom"
-; for y in rest $x repeat
-; u:= comp(y,$EmptyMode,$f) =>
-; sayBrightly [y,'" ==> mode",'%b,u.mode,'%d]
-; sayBrightly [y,'" does not compile"]
-
-;;; *** |traceUp| REDEFINED
-
-(DEFUN |traceUp| NIL (PROG (|u|) (RETURN (SEQ (COND ((ATOM |$x|) (|sayBrightly| (MAKESTRING "$x is an atom"))) ((QUOTE T) (DO ((#0=#:G3999 (CDR |$x|) (CDR #0#)) (|y| NIL)) ((OR (ATOM #0#) (PROGN (SETQ |y| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (COND ((SPADLET |u| (|comp| |y| |$EmptyMode| |$f|)) (|sayBrightly| (CONS |y| (CONS (MAKESTRING " ==> mode") (CONS (QUOTE |%b|) (CONS (CADR |u|) (CONS (QUOTE |%d|) NIL))))))) ((QUOTE T) (|sayBrightly| (CONS |y| (CONS (MAKESTRING " does not compile") NIL))))))))))))))
-;
-;_?M x == _?m x
-
-;;; *** ?M REDEFINED
-
-(DEFUN ?M (|x|) (|?m| |x|))
-;_?m x ==
-; u:= comp(x,$EmptyMode,$f) => u.mode
-; nil
-
-;;; *** |?m| REDEFINED
-
-(DEFUN |?m| (|x|) (PROG (|u|) (RETURN (COND ((SPADLET |u| (|comp| |x| |$EmptyMode| |$f|)) (CADR |u|)) ((QUOTE T) NIL)))))
-;
-;traceDown() ==
-; mmList:= getFormModemaps($x,$f) =>
-; for mm in mmList repeat if u:= qModemap mm then return u
-; sayBrightly "no modemaps for $x"
-
-;;; *** |traceDown| REDEFINED
-
-(DEFUN |traceDown| NIL (PROG (|mmList| |u|) (RETURN (SEQ (COND ((SPADLET |mmList| (|getFormModemaps| |$x| |$f|)) (DO ((#0=#:G4021 |mmList| (CDR #0#)) (|mm| NIL)) ((OR (ATOM #0#) (PROGN (SETQ |mm| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (COND ((SPADLET |u| (|qModemap| |mm|)) (RETURN |u|)) ((QUOTE T) NIL)))))) ((QUOTE T) (|sayBrightly| (MAKESTRING "no modemaps for $x"))))))))
-;
-;qModemap mm ==
-; sayBrightly ['%b,"modemap",'%d,:formatModemap mm]
-; [[dc,target,:sl],[pred,:.]]:= mm
-; and/[qArg(a,m) for a in rest $x for m in sl] => target
-; sayBrightly ['%b,"fails",'%d,'%l]
-
-;;; *** |qModemap| REDEFINED
-
-(DEFUN |qModemap| (|mm|) (PROG (|dc| |target| |sl| |pred|) (RETURN (SEQ (PROGN (|sayBrightly| (CONS (QUOTE |%b|) (CONS (MAKESTRING "modemap") (CONS (QUOTE |%d|) (|formatModemap| |mm|))))) (SPADLET |dc| (CAAR |mm|)) (SPADLET |target| (CADAR |mm|)) (SPADLET |sl| (CDDAR |mm|)) (SPADLET |pred| (CAADR |mm|)) (COND ((PROG (#0=#:G4038) (SPADLET #0# (QUOTE T)) (RETURN (DO ((#1=#:G4045 NIL (NULL #0#)) (#2=#:G4046 (CDR |$x|) (CDR #2#)) (|a| NIL) (#3=#:G4047 |sl| (CDR #3#)) (|m| NIL)) ((OR #1# (ATOM #2#) (PROGN (SETQ |a| (CAR #2#)) NIL) (ATOM #3#) (PROGN (SETQ |m| (CAR #3#)) NIL)) #0#) (SEQ (EXIT (SETQ #0# (AND #0# (|qArg| |a| |m|)))))))) |target|) ((QUOTE T) (|sayBrightly| (CONS (QUOTE |%b|) (CONS (MAKESTRING "fails") (CONS (QUOTE |%d|) (CONS (QUOTE |%l|) NIL))))))))))))
-;
-;qArg(a,m) ==
-; yesOrNo:=
-; u:= comp(a,m,$f) => "yes"
-; "no"
-; sayBrightly [a," --> ",m,'%b,yesOrNo,'%d]
-; yesOrNo="yes"
-
-;;; *** |qArg| REDEFINED
-
-(DEFUN |qArg| (|a| |m|) (PROG (|u| |yesOrNo|) (RETURN (PROGN (SPADLET |yesOrNo| (COND ((SPADLET |u| (|comp| |a| |m| |$f|)) (QUOTE |yes|)) ((QUOTE T) (QUOTE |no|)))) (|sayBrightly| (CONS |a| (CONS (MAKESTRING " --> ") (CONS |m| (CONS (QUOTE |%b|) (CONS |yesOrNo| (CONS (QUOTE |%d|) NIL))))))) (BOOT-EQUAL |yesOrNo| (QUOTE |yes|))))))
-;
-;_?COMP x == _?comp x
-
-;;; *** ?COMP REDEFINED
-
-(DEFUN ?COMP (|x|) (|?comp| |x|))
-;_?comp x ==
-; msg:=
-; u:= comp(x,$EmptyMode,$f) =>
-; [MAKESTRING "compiles to mode",'%b,u.mode,'%d]
-; nil
-; sayBrightly msg
-
-;;; *** |?comp| REDEFINED
-
-(DEFUN |?comp| (|x|) (PROG (|u| |msg|) (RETURN (PROGN (SPADLET |msg| (COND ((SPADLET |u| (|comp| |x| |$EmptyMode| |$f|)) (CONS (MAKESTRING "compiles to mode") (CONS (QUOTE |%b|) (CONS (CADR |u|) (CONS (QUOTE |%d|) NIL))))) ((QUOTE T) NIL))) (|sayBrightly| |msg|)))))
-;
-;_?domains() == pp getDomainsInScope $f
-
-;;; *** |?domains| REDEFINED
-
-(DEFUN |?domains| NIL (|pp| (|getDomainsInScope| |$f|)))
-;_?DOMAINS() == ?domains()
-
-;;; *** ?DOMAINS REDEFINED
-
-(DEFUN ?DOMAINS NIL (|?domains|))
-;
-;_?mode x == displayProplist(x,[["mode",:getmode(x,$f)]])
-
-;;; *** |?mode| REDEFINED
-
-(DEFUN |?mode| (|x|) (|displayProplist| |x| (CONS (CONS (QUOTE |mode|) (|getmode| |x| |$f|)) NIL)))
-;_?MODE x == _?mode x
-
-;;; *** ?MODE REDEFINED
-
-(DEFUN ?MODE (|x|) (|?mode| |x|))
-;
-;_?properties x == displayProplist(x,getProplist(x,$f))
-
-;;; *** |?properties| REDEFINED
-
-(DEFUN |?properties| (|x|) (|displayProplist| |x| (|getProplist| |x| |$f|)))
-;_?PROPERTIES x == _?properties x
-
-;;; *** ?PROPERTIES REDEFINED
-
-(DEFUN ?PROPERTIES (|x|) (|?properties| |x|))
-;
-;_?value x == displayProplist(x,[["value",:get(x,"value",$f)]])
-
-;;; *** |?value| REDEFINED
-
-(DEFUN |?value| (|x|) (|displayProplist| |x| (CONS (CONS (QUOTE |value|) (|get| |x| (QUOTE |value|) |$f|)) NIL)))
-;_?VALUE x == _?value x
-
-;;; *** ?VALUE REDEFINED
-
-(DEFUN ?VALUE (|x|) (|?value| |x|))
-;
-;displayProplist(x,alist) ==
-; sayBrightly ["properties of",'%b,x,'%d,":"]
-; fn alist where
-; fn alist ==
-; alist is [[prop,:val],:l] =>
-; if prop="value" then val:= [val.expr,val.mode,'"..."]
-; sayBrightly [" ",'%b,prop,'%d,": ",val]
-; fn deleteAssoc(prop,l)
-
-;;; *** |displayProplist,fn| REDEFINED
-
-(DEFUN |displayProplist,fn| (|alist|) (PROG (|ISTMP#1| |prop| |l| |val|) (RETURN (SEQ (IF (AND (PAIRP |alist|) (PROGN (SPADLET |ISTMP#1| (QCAR |alist|)) (AND (PAIRP |ISTMP#1|) (PROGN (SPADLET |prop| (QCAR |ISTMP#1|)) (SPADLET |val| (QCDR |ISTMP#1|)) (QUOTE T)))) (PROGN (SPADLET |l| (QCDR |alist|)) (QUOTE T))) (EXIT (SEQ (IF (BOOT-EQUAL |prop| (QUOTE |value|)) (SPADLET |val| (CONS (CAR |val|) (CONS (CADR |val|) (CONS (MAKESTRING "...") NIL)))) NIL) (|sayBrightly| (CONS (MAKESTRING " ") (CONS (QUOTE |%b|) (CONS |prop| (CONS (QUOTE |%d|) (CONS (MAKESTRING ": ") (CONS |val| NIL))))))) (EXIT (|displayProplist,fn| (|deleteAssoc| |prop| |l|))))))))))
-
-;;; *** |displayProplist| REDEFINED
-
-(DEFUN |displayProplist| (|x| |alist|) (PROGN (|sayBrightly| (CONS (MAKESTRING "properties of") (CONS (QUOTE |%b|) (CONS |x| (CONS (QUOTE |%d|) (CONS (MAKESTRING ":") NIL)))))) (|displayProplist,fn| |alist|)))
-;
-;displayModemaps E ==
-; listOfOperatorsSeenSoFar:= nil
-; for x in E for i in 1.. repeat
-; for y in x for j in 1.. repeat
-; for z in y | null MEMBER(first z,listOfOperatorsSeenSoFar) and
-; (modemaps:= LASSOC("modemap",rest z)) repeat
-; listOfOperatorsSeenSoFar:= [first z,:listOfOperatorsSeenSoFar]
-; displayOpModemaps(first z,modemaps)
-
-;;; *** |displayModemaps| REDEFINED
-
-(DEFUN |displayModemaps| (E) (PROG (|modemaps| |listOfOperatorsSeenSoFar|) (RETURN (SEQ (PROGN (SPADLET |listOfOperatorsSeenSoFar| NIL) (DO ((#0=#:G4136 E (CDR #0#)) (|x| NIL) (|i| 1 (QSADD1 |i|))) ((OR (ATOM #0#) (PROGN (SETQ |x| (CAR #0#)) NIL)) NIL) (SEQ (EXIT (DO ((#1=#:G4148 |x| (CDR #1#)) (|y| NIL) (|j| 1 (QSADD1 |j|))) ((OR (ATOM #1#) (PROGN (SETQ |y| (CAR #1#)) NIL)) NIL) (SEQ (EXIT (DO ((#2=#:G4160 |y| (CDR #2#)) (|z| NIL)) ((OR (ATOM #2#) (PROGN (SETQ |z| (CAR #2#)) NIL)) NIL) (SEQ (EXIT (COND ((AND (NULL (|member| (CAR |z|) |listOfOperatorsSeenSoFar|)) (SPADLET |modemaps| (LASSOC (QUOTE |modemap|) (CDR |z|)))) (PROGN (SPADLET |listOfOperatorsSeenSoFar| (CONS (CAR |z|) |listOfOperatorsSeenSoFar|)) (|displayOpModemaps| (CAR |z|) |modemaps|))))))))))))))))))
-;
-;--% General object traversal functions
-;
-;GEQSUBSTLIST(old, new, body) ==
-; GEQNSUBSTLIST(old, new, GCOPY body)
-
-;;; *** GEQSUBSTLIST REDEFINED
-
-(DEFUN GEQSUBSTLIST (|old| |new| |body|) (GEQNSUBSTLIST |old| |new| (GCOPY |body|)))
-;
-;GEQNSUBSTLIST(old, new, body) ==
-; or/[:[EQ(o,n) for o in old] for n in new] =>
-; mid := [GENSYM() for o in old]
-; GEQNSUBSTLIST(old, mid, body)
-; GEQNSUBSTLIST(mid, new, body)
-; alist := [[o,:n] for o in old for n in new]
-; traverse(function GSUBSTinner, alist, body) where
-; GSUBSTinner(alist, ob) ==
-; (pr := ASSQ(ob, alist)) => CDR pr
-; ob
-
-;;; *** |GEQNSUBSTLIST,GSUBSTinner| REDEFINED
-
-(DEFUN |GEQNSUBSTLIST,GSUBSTinner| (|alist| |ob|) (PROG (|pr|) (RETURN (SEQ (IF (SPADLET |pr| (ASSQ |ob| |alist|)) (EXIT (CDR |pr|))) (EXIT |ob|)))))
-
-;;; *** GEQNSUBSTLIST REDEFINED
-
-(DEFUN GEQNSUBSTLIST (|old| |new| |body|) (PROG (|mid| |alist|) (RETURN (SEQ (COND ((REDUCE-N (QUOTE OR2) NIL (PROG (#0=#:G4183) (SPADLET #0# NIL) (RETURN (DO ((#1=#:G4188 |new| (CDR #1#)) (|n| NIL)) ((OR (ATOM #1#) (PROGN (SETQ |n| (CAR #1#)) NIL)) #0#) (SEQ (EXIT (SETQ #0# (APPEND #0# (PROG (#2=#:G4198) (SPADLET #2# NIL) (RETURN (DO ((#3=#:G4203 |old| (CDR #3#)) (|o| NIL)) ((OR (ATOM #3#) (PROGN (SETQ |o| (CAR #3#)) NIL)) (NREVERSE0 #2#)) (SEQ (EXIT (SETQ #2# (CONS (EQ |o| |n|) #2#)))))))))))))) NIL) (SPADLET |mid| (PROG (#4=#:G4213) (SPADLET #4# NIL) (RETURN (DO ((#5=#:G4218 |old| (CDR #5#)) (|o| NIL)) ((OR (ATOM #5#) (PROGN (SETQ |o| (CAR #5#)) NIL)) (NREVERSE0 #4#)) (SEQ (EXIT (SETQ #4# (CONS (GENSYM) #4#)))))))) (GEQNSUBSTLIST |old| |mid| |body|) (GEQNSUBSTLIST |mid| |new| |body|)) ((QUOTE T) (SPADLET |alist| (PROG (#6=#:G4229) (SPADLET #6# NIL) (RETURN (DO ((#7=#:G4235 |old| (CDR #7#)) (|o| NIL) (#8=#:G4236 |new| (CDR #8#)) (|n| NIL)) ((OR (ATOM #7#) (PROGN (SETQ |o| (CAR #7#)) NIL) (ATOM #8#) (PROGN (SETQ |n| (CAR #8#)) NIL)) (NREVERSE0 #6#)) (SEQ (EXIT (SETQ #6# (CONS (CONS |o| |n|) #6#)))))))) (|traverse| (|function| |GEQNSUBSTLIST,GSUBSTinner|) |alist| |body|)))))))
-;
-;GCOPY ob == COPY ob -- for now
-
-;;; *** GCOPY REDEFINED
-
-(DEFUN GCOPY (|ob|) (COPY |ob|))
-;
-;traverse(fn, arg, ob) ==
-; $seen: local := MAKE_-HASHTABLE 'EQ
-; $notseen: local := GENSYM()
-;
-; traverseInner(ob, fn, arg) where
-; traverseInner(ob, fn, arg) ==
-; e := HGET($seen, ob, $notseen)
-; not EQ(e, $notseen) => e
-;
-; nob := FUNCALL(fn, arg, ob)
-; HPUT($seen, ob, nob)
-; not EQ(nob, ob) => nob
-; PAIRP ob =>
-; ne:=traverseInner(QCAR ob, fn, arg)
-; if not EQ(ne,QCAR ob) then QRPLACA(ob, ne)
-; ne:=traverseInner(QCDR ob, fn, arg)
-; if not EQ(ne,QCDR ob) then QRPLACD(ob, ne)
-; ob
-; VECP ob =>
-; n := QVMAXINDEX ob
-; for i in 0..n repeat
-; e:=QVELT(ob,i)
-; ne:=traverseInner(e, fn, arg)
-; if not EQ(ne,e) then QSETVELT(ob,i,ne)
-; ob
-; HASHTABLEP ob =>
-; keys := HKEYS ob
-; for k in keys repeat
-; e := HGET(ob, k)
-; nk := traverseInner(k, fn, arg)
-; ne := traverseInner(e, fn, arg)
-; if not EQ(k,nk) or not EQ(e,ne) then
-; HREM(ob, k)
-; HPUT(ob, nk, ne)
-; ob
-; PAPPP ob =>
-; for i in 1..PA_-SPEC_-COUNT ob repeat
-; s := PA_-SPEC(ob, i)
-; not PAIRP s =>
-; ns := traverseInner(s,fn,arg)
-; if not EQ(s,ns) then
-; SET_-PA_-SPEC(ob,i,ns)
-; ns := traverseInner(QCDR s, fn, arg)
-; if not EQ(ns,QCDR s) then
-; apply(SET_-PA_-SPEC, [ob,i,QCAR s,:ns])
-; ob
-; ob
-
-;;; *** |traverse,traverseInner| REDEFINED
-
-(DEFUN |traverse,traverseInner| (|ob| |fn| |arg|) (PROG (|nob| |n| |keys| |e| |nk| |ne| |s| |ns|) (RETURN (SEQ (SPADLET |e| (HGET |$seen| |ob| |$notseen|)) (IF (NULL (EQ |e| |$notseen|)) (EXIT |e|)) (SPADLET |nob| (FUNCALL |fn| |arg| |ob|)) (HPUT |$seen| |ob| |nob|) (IF (NULL (EQ |nob| |ob|)) (EXIT |nob|)) (IF (PAIRP |ob|) (EXIT (SEQ (SPADLET |ne| (|traverse,traverseInner| (QCAR |ob|) |fn| |arg|)) (IF (NULL (EQ |ne| (QCAR |ob|))) (QRPLACA |ob| |ne|) NIL) (SPADLET |ne| (|traverse,traverseInner| (QCDR |ob|) |fn| |arg|)) (IF (NULL (EQ |ne| (QCDR |ob|))) (QRPLACD |ob| |ne|) NIL) (EXIT |ob|)))) (IF (VECP |ob|) (EXIT (SEQ (SPADLET |n| (QVMAXINDEX |ob|)) (DO ((|i| 0 (QSADD1 |i|))) ((QSGREATERP |i| |n|) NIL) (SEQ (SPADLET |e| (QVELT |ob| |i|)) (SPADLET |ne| (|traverse,traverseInner| |e| |fn| |arg|)) (EXIT (IF (NULL (EQ |ne| |e|)) (QSETVELT |ob| |i| |ne|) NIL)))) (EXIT |ob|)))) (IF (HASHTABLEP |ob|) (EXIT (SEQ (SPADLET |keys| (HKEYS |ob|)) (DO ((#0=#:G4276 |keys| (CDR #0#)) (|k| NIL)) ((OR (ATOM #0#) (PROGN (SETQ |k| (CAR #0#)) NIL)) NIL) (SEQ (SPADLET |e| (HGET |ob| |k|)) (SPADLET |nk| (|traverse,traverseInner| |k| |fn| |arg|)) (SPADLET |ne| (|traverse,traverseInner| |e| |fn| |arg|)) (EXIT (IF (OR (NULL (EQ |k| |nk|)) (NULL (EQ |e| |ne|))) (SEQ (HREM |ob| |k|) (EXIT (HPUT |ob| |nk| |ne|))) NIL)))) (EXIT |ob|)))) (IF (PAPPP |ob|) (EXIT (SEQ (DO ((#1=#:G4285 (PA-SPEC-COUNT |ob|)) (|i| 1 (QSADD1 |i|))) ((QSGREATERP |i| #1#) NIL) (SEQ (SPADLET |s| (PA-SPEC |ob| |i|)) (IF (NULL (PAIRP |s|)) (EXIT (SEQ (SPADLET |ns| (|traverse,traverseInner| |s| |fn| |arg|)) (EXIT (IF (NULL (EQ |s| |ns|)) (SET-PA-SPEC |ob| |i| |ns|) NIL))))) (SPADLET |ns| (|traverse,traverseInner| (QCDR |s|) |fn| |arg|)) (EXIT (IF (NULL (EQ |ns| (QCDR |s|))) (APPLY SET-PA-SPEC (CONS |ob| (CONS |i| (CONS (QCAR |s|) |ns|)))) NIL)))) (EXIT |ob|)))) (EXIT |ob|)))))
-
-;;; *** |traverse| REDEFINED
-
-(DEFUN |traverse| (|fn| |arg| |ob|) (PROG (|$seen| |$notseen|) (DECLARE (SPECIAL |$seen| |$notseen|)) (RETURN (PROGN (SPADLET |$seen| (MAKE-HASHTABLE (QUOTE EQ))) (SPADLET |$notseen| (GENSYM)) (|traverse,traverseInner| |ob| |fn| |arg|)))))
-;;;Boot translation finished for c-util.boot
-@
\eject
\begin{thebibliography}{99}
\bibitem{1} nothing