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\documentclass{article}
\usepackage{axiom}
\begin{document}
\title{\$SPAD/src/interp g-opt.boot}
\author{The Axiom Team}
\maketitle
\begin{abstract}
\end{abstract}
\eject
\tableofcontents
\eject
\section{License}
<<license>>=
-- Copyright (c) 1991-2002, The Numerical ALgorithms Group Ltd.
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are
-- met:
--
-- - Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
--
-- - Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in
-- the documentation and/or other materials provided with the
-- distribution.
--
-- - Neither the name of The Numerical ALgorithms Group Ltd. nor the
-- names of its contributors may be used to endorse or promote products
-- derived from this software without specific prior written permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
-- IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
-- TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
-- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER
-- OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
-- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
-- PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
@
<<*>>=
<<license>>
--% OPTIMIZER
optimizeFunctionDef(def) ==
if $reportOptimization then
sayBrightlyI bright '"Original LISP code:"
pp def
def' := optimize COPY def
if $reportOptimization then
sayBrightlyI bright '"Optimized LISP code:"
pp def'
sayBrightlyI bright '"Final LISP code:"
[name,[slamOrLam,args,body]] := def'
body':=
removeTopLevelCatch body where
removeTopLevelCatch body ==
body is ["CATCH",g,u] =>
removeTopLevelCatch replaceThrowByReturn(u,g)
body
replaceThrowByReturn(x,g) ==
fn(x,g)
x
fn(x,g) ==
x is ["THROW", =g,:u] =>
rplac(first x,"RETURN")
rplac(rest x,replaceThrowByReturn(u,g))
atom x => nil
replaceThrowByReturn(first x,g)
replaceThrowByReturn(rest x,g)
[name,[slamOrLam,args,body']]
optimize x ==
(opt x; x) where
opt x ==
atom x => nil
(y:= first x)='QUOTE => nil
y='CLOSEDFN => nil
y is [["XLAM",argl,body],:a] =>
optimize rest x
argl = "ignore" => RPLAC(first x,body)
if not (LENGTH argl<=LENGTH a) then
SAY '"length mismatch in XLAM expression"
PRETTYPRINT y
RPLAC(first x,optimize optXLAMCond SUBLIS(pairList(argl,a),body))
atom y =>
optimize rest x
y="true" => RPLAC(first x,'(QUOTE (QUOTE T)))
y="false" => RPLAC(first x,nil)
if first y="IF" then (RPLAC(first x,optIF2COND y); y:= first x)
op:= GETL(subrname first y,"OPTIMIZE") =>
(optimize rest x; RPLAC(first x,FUNCALL(op,optimize first x)))
RPLAC(first x,optimize first x)
optimize rest x
subrname u ==
IDENTP u => u
COMPILED_-FUNCTION_-P u or MBPIP u => BPINAME u
nil
optCatch (x is ["CATCH",g,a]) ==
$InteractiveMode => x
atom a => a
if a is ["SEQ",:s,["THROW", =g,u]] then
changeThrowToExit(s,g) where
changeThrowToExit(s,g) ==
atom s or MEMQ(first s,'(QUOTE SEQ REPEAT COLLECT)) => nil
s is ["THROW", =g,:u] => (rplac(first s,"EXIT"); rplac(rest s,u))
changeThrowToExit(first s,g)
changeThrowToExit(rest s,g)
rplac(rest a,[:s,["EXIT",u]])
["CATCH",y,a]:= optimize x
if hasNoThrows(a,g)
then (rplac(first x,first a); rplac(rest x,rest a)) where
hasNoThrows(a,g) ==
a is ["THROW", =g,:.] => false
atom a => true
hasNoThrows(first a,g) and hasNoThrows(rest a,g)
else
changeThrowToGo(a,g) where
changeThrowToGo(s,g) ==
atom s or first s='QUOTE => nil
s is ["THROW", =g,u] =>
changeThrowToGo(u,g)
rplac(first s,"PROGN")
rplac(rest s,[["LET",CADR g,u],["GO",CADR g]])
changeThrowToGo(first s,g)
changeThrowToGo(rest s,g)
rplac(first x,"SEQ")
rplac(rest x,[["EXIT",a],CADR g,["EXIT",CADR g]])
x
optSPADCALL(form is ['SPADCALL,:argl]) ==
null $InteractiveMode => form
-- last arg is function/env, but may be a form
argl is [:argl,fun] =>
fun is ['ELT,dom,slot] or fun is ['LISPELT,dom,slot] =>
optCall ['call,['ELT,dom,slot],:argl]
form
form
optCall (x is ["call",:u]) ==
-- destructively optimizes this new x
x:= optimize [u]
-- next should happen only as result of macro expansion
atom first x => first x
[fn,:a]:= first x
atom fn => (RPLAC(rest x,a); RPLAC(first x,fn))
fn is ["PAC",:.] => optPackageCall(x,fn,a)
fn is ["applyFun",name] =>
(RPLAC(first x,"SPADCALL"); RPLAC(rest x,[:a,name]); x)
fn is [q,R,n] and MEMQ(q,'(ELT QREFELT CONST)) =>
not $bootStrapMode and (w:= optCallSpecially(q,x,n,R)) => w
q="CONST" =>
--+
["spadConstant",R,n]
--putInLocalDomainReferences will change this to ELT or QREFELT
RPLAC(first x,"SPADCALL")
if $QuickCode then RPLACA(fn,"QREFELT")
RPLAC(rest x,[:a,fn])
x
systemErrorHere '"optCall"
optCallSpecially(q,x,n,R) ==
y:= LASSOC(R,$specialCaseKeyList) => optSpecialCall(x,y,n)
MEMQ(KAR R,$optimizableConstructorNames) => optSpecialCall(x,R,n)
(y:= get(R,"value",$e)) and
MEMQ(opOf y.expr,$optimizableConstructorNames) =>
optSpecialCall(x,y.expr,n)
(
(y:= lookup(R,$getDomainCode)) and ([op,y,prop]:= y) and
(yy:= LASSOC(y,$specialCaseKeyList)) =>
optSpecialCall(x,[op,yy,prop],n)) where
lookup(a,l) ==
null l => nil
[l',:l]:= l
l' is ["LET", =a,l',:.] => l'
lookup(a,l)
nil
optCallEval u ==
u is ["List",:.] => List Integer()
u is ["Vector",:.] => Vector Integer()
u is ["PrimitiveArray",:.] => PrimitiveArray Integer()
u is ["FactoredForm",:.] => FactoredForm Integer()
u is ["Matrix",:.] => Matrix Integer()
eval u
optCons (x is ["CONS",a,b]) ==
a="NIL" =>
b='NIL => (rplac(first x,'QUOTE); rplac(rest x,['NIL,:'NIL]); x)
b is ['QUOTE,:c] => (rplac(first x,'QUOTE); rplac(rest x,['NIL,:c]); x)
x
a is ['QUOTE,a'] =>
b='NIL => (rplac(first x,'QUOTE); rplac(rest x,[a',:'NIL]); x)
b is ['QUOTE,:c] => (rplac(first x,'QUOTE); rplac(rest x,[a',:c]); x)
x
x
optSpecialCall(x,y,n) ==
yval := optCallEval y
CAAAR x="CONST" =>
KAR yval.n = function Undef =>
keyedSystemError("S2GE0016",['"optSpecialCall",
'"invalid constant"])
MKQ yval.n
fn := GETL(compileTimeBindingOf first yval.n,'SPADreplace) =>
rplac(rest x,CDAR x)
rplac(first x,fn)
if fn is ["XLAM",:.] then x:=first optimize [x]
x is ["EQUAL",:args] => RPLACW(x,DEF_-EQUAL args)
--DEF-EQUAL is really an optimiser
x
[fn,:a]:= first x
RPLAC(first x,"SPADCALL")
if $QuickCode then RPLACA(fn,"QREFELT")
RPLAC(rest x,[:a,fn])
x
compileTimeBindingOf u ==
NULL(name:= BPINAME u) => keyedSystemError("S2OO0001",[u])
name="Undef" => MOAN "optimiser found unknown function"
name
optMkRecord ["mkRecord",:u] ==
u is [x] => ["LIST",x]
#u=2 => ["CONS",:u]
["VECTOR",:u]
optCond (x is ['COND,:l]) ==
if l is [a,[aa,b]] and TruthP aa and b is ["COND",:c] then
RPLACD(rest x,c)
if l is [[p1,:c1],[p2,:c2],:.] then
if (p1 is ['NULL,p1'] and p1' = p2) or (p2 is ['NULL,p2'] and p2' = p1) then
l:=[[p1,:c1],['(QUOTE T),:c2]]
RPLACD( x,l)
c1 is ['NIL] and p2 = '(QUOTE T) and first c2 = '(QUOTE T) =>
p1 is ['NULL,p1']=> return p1'
return ['NULL,p1]
l is [[p1,:c1],[p2,:c2],[p3,:c3]] and TruthP p3 =>
EqualBarGensym(c1,c3) =>
["COND",[["OR",p1,["NULL",p2]],:c1],[['QUOTE,true],:c2]]
EqualBarGensym(c1,c2) => ["COND",[["OR",p1,p2],:c1],[['QUOTE,true],:c3]]
x
for y in tails l repeat
while y is [[a1,c1],[a2,c2],:y'] and EqualBarGensym(c1,c2) repeat
a:=['OR,a1,a2]
RPLAC(first first y,a)
RPLAC(rest y,y')
x
AssocBarGensym(key,l) ==
for x in l repeat
PAIRP x =>
EqualBarGensym(key,CAR x) => return x
EqualBarGensym(x,y) ==
$GensymAssoc: nil
fn(x,y) where
fn(x,y) ==
x=y => true
GENSYMP x and GENSYMP y =>
z:= ASSOC(x,$GensymAssoc) => (y=rest z => true; false)
$GensymAssoc:= [[x,:y],:$GensymAssoc]
true
null x => y is [g] and GENSYMP g
null y => x is [g] and GENSYMP g
atom x or atom y => false
fn(first x,first y) and fn(rest x,rest y)
--Called early, to change IF to COND
optIF2COND ["IF",a,b,c] ==
b is "noBranch" => ["COND",[["NULL",a],c]]
c is "noBranch" => ["COND",[a,b]]
c is ["IF",:.] => ["COND",[a,b],:rest optIF2COND c]
c is ["COND",:p] => ["COND",[a,b],:p]
["COND",[a,b],[$true,c]]
optXLAMCond x ==
x is ["COND",u:= [p,c],:l] =>
(optPredicateIfTrue p => c; ["COND",u,:optCONDtail l])
atom x => x
RPLAC(first x,optXLAMCond first x)
RPLAC(rest x,optXLAMCond rest x)
x
optPredicateIfTrue p ==
p is ['QUOTE,:.] => true
p is [fn,x] and MEMQ(fn,$BasicPredicates) and FUNCALL(fn,x) => true
nil
optCONDtail l ==
null l => nil
[frst:= [p,c],:l']:= l
optPredicateIfTrue p => [[$true,c]]
null rest l => [frst,[$true,["CondError"]]]
[frst,:optCONDtail l']
optSEQ ["SEQ",:l] ==
tryToRemoveSEQ SEQToCOND getRidOfTemps l where
getRidOfTemps l ==
null l => nil
l is [["LET",g,x,:.],:r] and GENSYMP g and 2>numOfOccurencesOf(g,r) =>
getRidOfTemps substitute(x,g,r)
first l="/throwAway" => getRidOfTemps rest l
--this gets rid of unwanted labels generated by declarations in SEQs
[first l,:getRidOfTemps rest l]
SEQToCOND l ==
transform:= [[a,b] for x in l while (x is ["COND",[a,["EXIT",b]]])]
before:= take(#transform,l)
aft:= after(l,before)
null before => ["SEQ",:aft]
null aft => ["COND",:transform,'((QUOTE T) (conderr))]
true => ["COND",:transform,['(QUOTE T),optSEQ ["SEQ",:aft]]]
tryToRemoveSEQ l ==
l is ["SEQ",[op,a]] and MEMQ(op,'(EXIT RETURN THROW)) => a
l
optRECORDELT ["RECORDELT",name,ind,len] ==
len=1 =>
ind=0 => ["QCAR",name]
keyedSystemError("S2OO0002",[ind])
len=2 =>
ind=0 => ["QCAR",name]
ind=1 => ["QCDR",name]
keyedSystemError("S2OO0002",[ind])
["QVELT",name,ind]
optSETRECORDELT ["SETRECORDELT",name,ind,len,expr] ==
len=1 =>
ind=0 => ["PROGN",["RPLACA",name,expr],["QCAR",name]]
keyedSystemError("S2OO0002",[ind])
len=2 =>
ind=0 => ["PROGN",["RPLACA",name,expr],["QCAR",name]]
ind=1 => ["PROGN",["RPLACD",name,expr],["QCDR",name]]
keyedSystemError("S2OO0002",[ind])
["QSETVELT",name,ind,expr]
optRECORDCOPY ["RECORDCOPY",name,len] ==
len=1 => ["LIST",["CAR",name]]
len=2 => ["CONS",["CAR",name],["CDR",name]]
["MOVEVEC",["MAKE_-VEC",len],name]
--mkRecordAccessFunction(ind,len) ==
-- stringOfDs:= $EmptyString
-- for i in 0..(ind-1) do stringOfDs:= STRCONC(stringOfDs,PNAME "D")
-- prefix:= if ind=len-1 then PNAME "C" else PNAME "CA"
-- if $QuickCode then prefix:=STRCONC("Q",prefix)
-- INTERN(STRCONC(prefix,stringOfDs,PNAME "R"))
optSuchthat [.,:u] == ["SUCHTHAT",:u]
optMINUS u ==
u is ['MINUS,v] =>
NUMBERP v => -v
u
u
optQSMINUS u ==
u is ['QSMINUS,v] =>
NUMBERP v => -v
u
u
opt_- u ==
u is ['_-,v] =>
NUMBERP v => -v
u
u
optLESSP u ==
u is ['LESSP,a,b] =>
b = 0 => ['MINUSP,a]
['GREATERP,b,a]
u
optEQ u ==
u is ['EQ,l,r] =>
NUMBERP l and NUMBERP r => ['QUOTE,EQ(l,r)]
-- That undoes some weird work in Boolean to do with the definition of true
u
u
EVALANDFILEACTQ
(
for x in '( (call optCall) _
(SEQ optSEQ)_
(EQ optEQ)
(MINUS optMINUS)_
(QSMINUS optQSMINUS)_
(_- opt_-)_
(LESSP optLESSP)_
(SPADCALL optSPADCALL)_
(_| optSuchthat)_
(CATCH optCatch)_
(COND optCond)_
(mkRecord optMkRecord)_
(RECORDELT optRECORDELT)_
(SETRECORDELT optSETRECORDELT)_
(RECORDCOPY optRECORDCOPY)) _
repeat MAKEPROP(CAR x,'OPTIMIZE,CREATE_-SBC CADR x)
--much quicker to call functions if they have an SBC
)
@
\eject
\begin{thebibliography}{99}
\bibitem{1} nothing
\end{thebibliography}
\end{document}
|