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|
-- Copyright (c) 1991-2002, The Numerical Algorithms Group Ltd.
-- All rights reserved.
-- Copyright (C) 2007-2010, Gabriel Dos Reis.
-- 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.
import c_-util
import hashcode
namespace BOOT
-- note domainObjects are now (dispatchVector hashCode . domainVector)
-- lazy oldAxiomDomainObjects are (dispatchVector hashCode (Call form) . backptr),
-- pre oldAxiomCategory is (dispatchVector . (cat form))
-- oldAxiomCategory objects are (dispatchVector . ( (cat form) hash defaultpack parentlist))
hashCode? x == integer? x
$domainTypeTokens := ['lazyOldAxiomDomain, 'oldAxiomDomain, 'oldAxiomPreCategory,
'oldAxiomCategory, 0]
-- The name game.
-- The compiler produces names that are of the form:
-- a) cons(0, <string>)
-- b) cons(1, type-name, arg-names...)
-- c) cons(2, arg-names...)
-- d) cons(3, value)
-- NB: (c) is for tuple-ish constructors,
-- and (d) is for dependent types.
DNameStringID := 0
DNameApplyID := 1
DNameTupleID := 2
DNameOtherID := 3
DNameToSExpr1 dname ==
null dname => error "unexpected domain name"
first dname = DNameStringID =>
INTERN(CompStrToString rest dname)
name0 := DNameToSExpr1 second dname
args := rest rest dname
name0 = '_-_> =>
froms := first args
froms := MAPCAR(function DNameToSExpr, rest froms)
ret := second args -- a tuple
ret := DNameToSExpr second ret -- contents
['Mapping,:[ret,:froms]]
name0 = 'Union or name0 = 'Record =>
sxs := MAPCAR(function DNameToSExpr, rest first args)
[name0,:sxs]
name0 = 'Enumeration =>
[name0,:MAPCAR(function DNameFixEnum, rest first args)]
[name0,:MAPCAR(function DNameToSExpr, args)]
DNameToSExpr dname ==
first dname = DNameOtherID =>
rest dname
sx := DNameToSExpr1 dname
cons? sx => sx
[sx]
DNameFixEnum arg == CompStrToString rest arg
SExprToDName(sexpr, cosigVal) ==
-- is it a non-type valued object?
NOT cosigVal => [DNameOtherID, :sexpr]
if first sexpr = '_: then sexpr := third sexpr
first sexpr = 'Mapping =>
args := [ SExprToDName(sx,true) for sx in rest sexpr]
[DNameApplyID,
[DNameStringID,: StringToCompStr '"->"],
[DNameTupleID, : rest args],
[DNameTupleID, first args]]
name0 := [DNameStringID, : StringToCompStr symbolName first sexpr]
first sexpr = 'Union or first sexpr = 'Record =>
[DNameApplyID, name0,
[DNameTupleID,: [ SExprToDName(sx,true) for sx in rest sexpr]]]
newCosig := rest getDualSignatureFromDB first sexpr
[DNameApplyID, name0,
: MAPCAR(function SExprToDName, rest sexpr, newCosig)]
-- local garbage because Compiler strings are null terminated
StringToCompStr(str) ==
strconc(str, charString abstractChar 0)
CompStrToString(str) ==
subString(str, 0, #str - 1)
-- local garbage ends
runOldAxiomFunctor(:allArgs) ==
[:args,env] := allArgs
getConstructorKindFromDB env = "category" =>
[$oldAxiomPreCategoryDispatch,: [env, :args]]
dom:=apply(env, args)
makeOldAxiomDispatchDomain dom
makeLazyOldAxiomDispatchDomain domform ==
attribute? domform =>
[$attributeDispatch, domform, hashString(symbolName domform)]
getConstructorKindFromDB opOf domform = "category" =>
[$oldAxiomPreCategoryDispatch,: domform]
dd := [$lazyOldAxiomDomainDispatch, hashTypeForm(domform,0), domform]
NCONC(dd,dd) -- installs back pointer to head of domain.
dd
makeOldAxiomDispatchDomain dom ==
cons? dom => dom
[$oldAxiomDomainDispatch,hashTypeForm(dom.0,0),:dom]
closeOldAxiomFunctor(name) ==
[function runOldAxiomFunctor,:SYMBOL_-FUNCTION name]
lazyOldAxiomDomainLookupExport(domenv, self, op, sig, box, skipdefaults, env) ==
dom := instantiate domenv
SPADCALL(rest dom, self, op, sig, box, skipdefaults, first dom.3)
lazyOldAxiomDomainHashCode(domenv, env) == first domenv
lazyOldAxiomDomainDevaluate(domenv, env) ==
dom := instantiate domenv
SPADCALL(rest dom, first dom.1)
lazyOldAxiomAddChild(domenv, kid, env) ==
[$lazyOldAxiomDomainDispatch,:domenv]
$lazyOldAxiomDomainDispatch :=
VECTOR('lazyOldAxiomDomain,
[function lazyOldAxiomDomainDevaluate],
[nil],
[function lazyOldAxiomDomainLookupExport],
[function lazyOldAxiomDomainHashCode],
[function lazyOldAxiomAddChild])
-- old Axiom pre category objects are just (dispatch . catform)
-- where catform is ('categoryname,: evaluated args)
-- old Axiom category objects are (dispatch . [catform, hashcode, defaulting package, parent vector, dom])
oldAxiomPreCategoryBuild(catform, dom, env) ==
pack := oldAxiomCategoryDefaultPackage(catform, dom)
[$oldAxiomCategoryDispatch,
:[catform, hashTypeForm(catform,0), pack, oldAxiomPreCategoryParents(catform,dom), dom]]
oldAxiomPreCategoryHashCode(catform, env) == hashTypeForm(catform,0)
oldAxiomCategoryDefaultPackage(catform, dom) ==
hasDefaultPackage opOf catform
oldAxiomPreCategoryDevaluate([op,:args], env) ==
SExprToDName([op,:devaluateList args], true)
$oldAxiomPreCategoryDispatch :=
VECTOR('oldAxiomPreCategory,
[function oldAxiomPreCategoryDevaluate],
[nil],
[nil],
[function oldAxiomPreCategoryHashCode],
[function oldAxiomPreCategoryBuild],
[nil])
oldAxiomCategoryDevaluate([[op,:args],:.], env) ==
SExprToDName([op,:devaluateList args], true)
oldAxiomPreCategoryParents(catform,dom) ==
vars := ["$",:rest getConstructorFormFromDB opOf catform]
vals := [dom,:rest catform]
-- parents := getConstructorParentsFromDB opOf catform
parents := parentsOf opOf catform
PROGV(vars, vals,
LIST2VEC
[eval quoteCatOp cat for [cat,:pred] in parents | eval pred])
quoteCatOp cat ==
atom cat => MKQ cat
['LIST, MKQ first cat,: rest cat]
oldAxiomCategoryLookupExport(catenv, self, op, sig, box, env) ==
[catform,hash, pack,:.] := catenv
opIsHasCat op => if EQL(sig, hash) then [self] else nil
null(pack) => nil
if not vector? pack then
pack:=apply(pack, [self, :rest catform])
catenv.rest.rest.first := pack
fun := basicLookup(op, sig, pack, self) => [fun]
nil
oldAxiomCategoryParentCount([.,.,.,parents,.], env) == # parents
oldAxiomCategoryNthParent([.,.,.,parvec,dom], n, env) ==
catform := parvec.(n-1)
VECTORP KAR catform => catform
newcat := oldAxiomPreCategoryBuild(catform,dom,nil)
parvec.(n-1) := newcat
newcat
oldAxiomCategoryBuild([catform,:.], dom, env) ==
oldAxiomPreCategoryBuild(catform,dom, env)
oldAxiomCategoryHashCode([.,hash,:.], env) == hash
$oldAxiomCategoryDispatch :=
VECTOR('oldAxiomCategory,
[function oldAxiomCategoryDevaluate],
[nil],
[function oldAxiomCategoryLookupExport],
[function oldAxiomCategoryHashCode],
[function oldAxiomCategoryBuild], -- builder ??
[function oldAxiomCategoryParentCount],
[function oldAxiomCategoryNthParent]) -- 1 indexed
attributeDevaluate(attrObj, env) ==
[name, hash] := attrObj
StringToCompStr symbolName name
attributeLookupExport(attrObj, self, op, sig, box, env) ==
[name, hash] := attrObj
opIsHasCat op => if EQL(hash, sig) then [self] else nil
attributeHashCode(attrObj, env) ==
[name, hash] := attrObj
hash
attributeCategoryBuild(attrObj, dom, env) ==
[name, hash] := attrObj
[$attributeDispatch, name, hash]
attributeCategoryParentCount(attrObj, env) == 0
attributeNthParent(attrObj, env) == nil
$attributeDispatch :=
VECTOR('attribute,
[function attributeDevaluate],
[nil],
[function attributeLookupExport],
[function attributeHashCode],
[function attributeCategoryBuild], -- builder ??
[function attributeCategoryParentCount],
[function attributeNthParent]) -- 1 indexed
orderedDefaults(conform,domform) ==
$depthAssocCache : local := hashTable 'EQ
conList := [x for x in orderCatAnc (op := opOf conform) | hasDefaultPackage op]
acc := nil
ancestors := ancestorsOf(conform,domform)
for x in conList repeat
for y in ancestors | x = CAAR y repeat acc := [y,:acc]
nreverse acc
instantiate domenv ==
-- following is a patch for a bug in runtime.as
-- has a lazy dispatch vector with an instantiated domenv
VECTORP rest domenv => [$oldAxiomDomainDispatch ,: domenv]
callForm := second domenv
oldDom := CDDR domenv
[functor,:args] := callForm
-- if null(fn := GETL(functor,'instantiate)) then
-- ofn := SYMBOL_-FUNCTION functor
-- loadFunctor functor
-- fn := SYMBOL_-FUNCTION functor
-- SETF(SYMBOL_-FUNCTION functor, ofn)
-- PUT(functor, 'instantiate, fn)
-- domvec := apply(fn, args)
domvec := apply(functor, args)
oldDom.first := $oldAxiomDomainDispatch
oldDom.rest := [second oldDom,: domvec]
oldDom
hashTypeForm([fn,: args], percentHash) ==
hashType([fn,:devaluateList args], percentHash)
$hashOp1 := hashString '"1"
$hashOp0 := hashString '"0"
$hashOpApply := hashString '"apply"
$hashOpSet := hashString '"set!"
$hashSeg := hashString '".."
$hashPercent := hashString '"%"
oldAxiomDomainLookupExport _
(domenv, self, op, sig, box, skipdefaults, env) ==
domainVec := rest domenv
if hashCode? op then
EQL(op, $hashOp1) => op := 'One
EQL(op, $hashOp0) => op := 'Zero
EQL(op, $hashOpApply) => op := 'elt
EQL(op, $hashOpSet) => op := 'setelt
EQL(op, $hashSeg) => op := 'SEGMENT
constant := nil
if hashCode? sig and self and EQL(sig, getDomainHash self) then
sig := '($)
constant := true
val :=
skipdefaults =>
oldCompLookupNoDefaults(op, sig, domainVec, self)
oldCompLookup(op, sig, domainVec, self)
null val => val
if constant then val := SPADCALL val
box.first := val
box
oldAxiomDomainHashCode(domenv, env) == first domenv
oldAxiomDomainHasCategory(domenv, cat, env) ==
HasAttribute(domvec := rest domenv, cat) or
HasCategory(domvec, devaluate cat)
oldAxiomDomainDevaluate(domenv, env) ==
SExprToDName(rest domenv.0, 'T)
oldAxiomAddChild(domenv, child, env) == [$oldAxiomDomainDispatch,:domenv]
$oldAxiomDomainDispatch :=
VECTOR('oldAxiomDomain,
[function oldAxiomDomainDevaluate],
[nil],
[function oldAxiomDomainLookupExport],
[function oldAxiomDomainHashCode],
[function oldAxiomAddChild])
basicLookupCheckDefaults(op,sig,domain,dollar) ==
box := [nil]
not vector?(dispatch := first dollar) => error "bad domain format"
lookupFun := dispatch.3
dispatch.0 = 0 => -- new compiler domain object
hashPercent :=
vector? dollar => hashType(dollar.0,0)
hashType(dollar,0)
hashSig :=
hashCode? sig => sig
hashType( ['Mapping,:sig], hashPercent)
if symbol? op then op := hashString symbolName op
first SPADCALL(rest dollar, dollar, op, hashSig, box, not $lookupDefaults, lookupFun)
first SPADCALL(rest dollar, dollar, op, sig, box, not $lookupDefaults, lookupFun)
$hasCatOpHash := hashString '"%%"
opIsHasCat op ==
hashCode? op => EQL(op, $hasCatOpHash)
op = "%%"
-- has cat questions lookup up twice if false
-- replace with following ?
-- not(opIsHasCat op) and
-- (u := lookupInDomainVector(op,sig,domvec,domvec)) => u
oldCompLookup(op, sig, domvec, dollar) ==
$lookupDefaults:local := nil
u := lookupInDomainVector(op,sig,domvec,dollar) => u
$lookupDefaults := true
lookupInDomainVector(op,sig,domvec,dollar)
oldCompLookupNoDefaults(op, sig, domvec, dollar) ==
$lookupDefaults:local := nil
lookupInDomainVector(op,sig,domvec,dollar)
hashNewLookupInTable(op,sig,dollar,[domain,opvec],flag) ==
opIsHasCat op =>
HasCategory(domain, sig)
if hashCode? op and EQL(op, $hashOp1) then op := 'One
if hashCode? op and EQL(op, $hashOp0) then op := 'Zero
hashPercent :=
vector? dollar => hashType(dollar.0,0)
hashType(dollar,0)
if hashCode? sig and EQL(sig, hashPercent) then
sig := hashType('(Mapping $), hashPercent)
dollar = nil => systemError()
$lookupDefaults = true =>
hashNewLookupInCategories(op,sig,domain,dollar) --lookup first in my cats
or newLookupInAddChain(op,sig,domain,dollar)
--fast path when called from newGoGet
success := false
if $monitorNewWorld then
sayLooking(concat('"---->",form2String devaluate domain,
'"----> searching op table for:","%l"," "),op,sig,dollar)
someMatch := false
numvec := getDomainByteVector domain
predvec := domain.3
max := MAXINDEX opvec
k := getOpCode(op,opvec,max) or return
flag => newLookupInAddChain(op,sig,domain,dollar)
nil
maxIndex := MAXINDEX numvec
start := opvec.k
finish :=
QSGREATERP(max,k) => opvec.(QSPLUS(k,2))
maxIndex
if QSGREATERP(finish,maxIndex) then systemError '"limit too large"
numArgs := if hashCode? sig then -1 else (#sig)-1
success := nil
$isDefaultingPackage: local :=
-- use special defaulting handler when dollar non-trivial
dollar ~= domain and isDefaultPackageForm? devaluate domain
while finish > start repeat
PROGN
i := start
numTableArgs :=numvec.i
predIndex := numvec.(i := QSADD1 i)
(predIndex ~= 0) and null testBitVector(predvec,predIndex) => nil
exportSig :=
[newExpandTypeSlot(numvec.(i + j + 1),
dollar,domain) for j in 0..numTableArgs]
sig ~= hashType(['Mapping,: exportSig],hashPercent) => nil --signifies no match
loc := numvec.(i + numTableArgs + 2)
loc = 1 => (someMatch := true)
loc = 0 =>
start := QSPLUS(start,QSPLUS(numTableArgs,4))
i := start + 2
someMatch := true --mark so that if subsumption fails, look for original
subsumptionSig :=
[newExpandTypeSlot(numvec.(QSPLUS(i,j)),
dollar,domain) for j in 0..numTableArgs]
if $monitorNewWorld then
sayBrightly [formatOpSignature(op,sig),'"--?-->",
formatOpSignature(op,subsumptionSig)]
nil
slot := domain.loc
cons? slot =>
slot.op = 'newGoGet => someMatch:=true
--treat as if operation were not there
--if EQ(QCAR slot,'newGoGet) then
-- UNWIND_-PROTECT --break infinite recursion
-- ((SETELT(domain,loc,'skip); slot := replaceGoGetSlot rest slot),
-- if domain.loc = 'skip then domain.loc := slot)
return (success := slot)
slot = 'skip => --recursive call from above 'replaceGoGetSlot
return (success := newLookupInAddChain(op,sig,domain,dollar))
systemError '"unexpected format"
start := QSPLUS(start,QSPLUS(numTableArgs,4))
(success ~= 'failed) and success =>
if $monitorNewWorld then
sayLooking1('"<----",uu) where uu() ==
cons? success => [first success,:devaluate rest success]
success
success
subsumptionSig and (u:= basicLookup(op,subsumptionSig,domain,dollar)) => u
flag or someMatch => newLookupInAddChain(op,sig,domain,dollar)
nil
hashNewLookupInCategories(op,sig,dom,dollar) ==
slot4 := dom.4
catVec := second slot4
# catVec = 0 => nil --early exit if no categories
integer? KDR catVec.0 =>
newLookupInCategories1(op,sig,dom,dollar) --old style
$lookupDefaults : local := nil
if $monitorNewWorld = true then sayBrightly concat('"----->",
form2String devaluate dom,'"-----> searching default packages for ",op)
predvec := dom.3
packageVec := first slot4
--the next three lines can go away with new category world
varList := ['$,:$FormalMapVariableList]
valueList := [dom,:[dom.(5+i) for i in 1..(# rest dom.0)]]
valueList := [MKQ val for val in valueList]
nsig := MSUBST(dom.0,dollar.0,sig)
for i in 0..MAXINDEX packageVec |
(entry := packageVec.i) and entry ~= true repeat
package :=
vector? entry =>
if $monitorNewWorld then
sayLooking1('"already instantiated cat package",entry)
entry
IDENTP entry =>
cat := catVec.i
packageForm := nil
if not GETL(entry,'LOADED) then loadLib entry
infovec := GETL(entry,'infovec)
success :=
--vector? infovec => ----new world
true => ----new world
opvec := infovec.1
max := MAXINDEX opvec
code := getOpCode(op,opvec,max)
null code => nil
byteVector := CDDDR infovec.3
endPos :=
code+2 > max => # byteVector
opvec.(code+2)
--not nrunNumArgCheck(#sig.source,byteVector,opvec.code,endPos) => nil
--numOfArgs := byteVector.(opvec.code)
--numOfArgs ~= #sig.source => nil
packageForm := [entry,'$,:rest cat]
package := evalSlotDomain(packageForm,dom)
packageVec.i := package
package
----old world
table := HGET($Slot1DataBase,entry) or systemError nil
(u := LASSQ(op,table))
and (v := or/[rest x for x in u]) =>
packageForm := [entry,'$,:rest cat]
package := evalSlotDomain(packageForm,dom)
packageVec.i := package
package
nil
null success =>
if $monitorNewWorld = true then
sayBrightlyNT '" not in: "
pp (packageForm and devaluate package or entry)
nil
if $monitorNewWorld then
sayLooking1('"candidate default package instantiated: ",success)
success
entry
null package => nil
if $monitorNewWorld then
sayLooking1('"Looking at instantiated package ",package)
res := basicLookup(op,sig,package,dollar) =>
if $monitorNewWorld = true then
sayBrightly '"candidate default package succeeds"
return res
if $monitorNewWorld = true then
sayBrightly '"candidate fails -- continuing to search categories"
nil
HasAttribute(domain,attrib) ==
hashPercent :=
vector? domain => hashType(domain.0,0)
hashType(domain,0)
isDomain domain =>
FIXP((first domain).0) =>
-- following call to hashType was missing 2nd arg.
-- getDomainHash domain added on 4/01/94 by RSS
basicLookup("%%",hashType(attrib, hashPercent),domain,domain)
HasAttribute(CDDR domain, attrib)
-->
isNewWorldDomain domain => newHasAttribute(domain,attrib)
--+
(u := LASSOC(attrib,domain.2)) and lookupPred(first u,domain,domain)
newHasAttribute(domain,attrib) ==
hashPercent :=
vector? domain => hashType(domain.0,0)
hashType(domain,0)
predIndex :=
hashCode? attrib =>
-- following call to hashType was missing 2nd arg.
-- hashPercent added by PAB 15/4/94
or/[x for x in domain.2 | attrib = hashType(first x, hashPercent)]
LASSOC(attrib,domain.2)
predIndex =>
predIndex = 0 => true
predvec := domain.3
testBitVector(predvec,predIndex)
false
newHasCategory(domain,catform) ==
catform = $Type or catform = $Category => true
catform is ["Join",:cats] =>
and/[newHasCategory(domain,cat) for cat in cats]
slot4 := domain.4
auxvec := first slot4
catvec := second slot4
$isDefaultingPackage: local := isDefaultPackageForm? devaluate domain
#catvec > 0 and integer? KDR catvec.0 => --old style
predIndex := lazyMatchAssocV1(catform,catvec,domain)
null predIndex => false
predIndex = 0 => true
predvec := QVELT(domain,3)
testBitVector(predvec,predIndex)
lazyMatchAssocV(catform,auxvec,catvec,domain) --new style
getCatForm(catvec, index, domain) ==
integer?(form := QVELT(catvec,index)) => domain.form
form
HasSignature(domain,[op,sig]) ==
compiledLookup(op,sig,domain)
HasCategory(domain,catform') ==
catform' is ['SIGNATURE,:f] => HasSignature(domain,f)
catform' is ['ATTRIBUTE,f] => HasAttribute(domain,f)
isDomain domain =>
FIXP((first domain).0) =>
catform' := devaluate catform'
basicLookup("%%",catform',domain,domain)
HasCategory(CDDR domain, catform')
catform:= devaluate catform'
isNewWorldDomain domain => newHasCategory(domain,catform)
domain0:=domain.0 -- handles old style domains, Record, Union etc.
slot4 := domain.4
catlist := slot4.1
member(catform,catlist) or
opOf(catform) in '(Object Type) or --temporary hack
or/[compareSigEqual(catform,cat,domain0,domain) for cat in catlist]
--systemDependentMkAutoload(fn,cnam) ==
-- FBOUNDP(cnam) => "next"
-- SETF(SYMBOL_-FUNCTION cnam,mkAutoLoad(fn, cnam))
domainEqual(a,b) ==
vector? a and vector? b and a.0 = b.0
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