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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 simpbool
import g_-util
namespace BOOT
hasCat(domainOrCatName,catName) ==
catName="Type" -- every domain is a Type
or constructorHasCategoryFromDB [domainOrCatName,:catName]
showCategoryTable con ==
[[b,:val] for (key :=[a,:b]) in HKEYS _*HASCATEGORY_-HASH_*
| a = con and (val := HGET(_*HASCATEGORY_-HASH_*,key))]
displayCategoryTable(:options) ==
conList := IFCAR options
SETQ($ct,hashTable 'EQ)
for (key:=[a,:b]) in HKEYS _*HASCATEGORY_-HASH_* repeat
HPUT($ct,a,[[b,:HGET(_*HASCATEGORY_-HASH_*,key)],:HGET($ct,a)])
for id in HKEYS $ct | null conList or MEMQ(id,conList) repeat
sayMSG [:bright id,'"extends:"]
PRINT HGET($ct,id)
genCategoryTable() ==
SETQ(_*ANCESTORS_-HASH_*, hashTable 'EQ)
SETQ(_*HASCATEGORY_-HASH_*,hashTable 'EQUAL)
genTempCategoryTable()
domainList:=
[con for con in allConstructors()
| getConstructorKindFromDB con = "domain"]
domainTable:= [addDomainToTable(con,getConstrCat catl) for con
in domainList | catl := getConstructorCategoryFromDB con]
-- $nonLisplibDomains, $noCategoryDomains are set in BUILDOM BOOT
specialDs := SETDIFFERENCE($nonLisplibDomains,$noCategoryDomains)
domainTable:= [:[addDomainToTable(id, getConstrCat eval([id]).3)
for id in specialDs], :domainTable]
for [id,:entry] in domainTable repeat
for [a,:b] in encodeCategoryAlist(id,entry) repeat
HPUT(_*HASCATEGORY_-HASH_*,[id,:a],b)
simpTempCategoryTable()
-- compressHashTable _*ANCESTORS_-HASH_*
simpCategoryTable()
-- compressHashTable _*HASCATEGORY_-HASH_*
simpTempCategoryTable() ==
for id in HKEYS _*ANCESTORS_-HASH_* repeat
for (u:=[a,:b]) in getConstructorAncestorsFromDB id repeat
u.rest := simpHasPred b
simpCategoryTable() == main where
main() ==
for key in HKEYS _*HASCATEGORY_-HASH_* repeat
entry := HGET(_*HASCATEGORY_-HASH_*,key)
null entry => HREM(_*HASCATEGORY_-HASH_*,key)
change :=
atom opOf entry => simpHasPred entry
[[x,:npred] for [x,:pred] in entry | npred := simpHasPred pred]
HPUT(_*HASCATEGORY_-HASH_*,key,change)
simpHasPred(pred,:options) == main where
main() ==
$hasArgs: local := IFCDR IFCAR options
simp pred
simp pred ==
pred is [op,:r] =>
op = "has" => simpHas(pred,first r,second r)
op = 'HasCategory => simp ["has",first r,simpDevaluate second r]
op = 'HasSignature =>
[op,sig] := simpDevaluate second r
["has",first r,['SIGNATURE,op,sig]]
op = 'HasAttribute =>
form := ["has",a := first r,['ATTRIBUTE,b := simpDevaluate second r]]
simpHasAttribute(form,a,b)
op in '(AND OR NOT) =>
null (u := MKPF([simp p for p in r],op)) => nil
u is '(QUOTE T) => true
simpBool u
op = 'hasArgs => ($hasArgs => $hasArgs = r; pred)
null r and opOf op = "has" => simp first pred
pred is '(QUOTE T) => true
op1 := LASSOC(op,'((and . AND)(or . OR)(not . NOT))) => simp [op1,:r]
simp first pred --REMOVE THIS HACK !!!!
pred in '(T etc) => pred
null pred => nil
pred
simpDevaluate a == eval substitute('QUOTE,'devaluate,a)
simpHas(pred,a,b) ==
b is ['ATTRIBUTE,attr] => simpHasAttribute(pred,a,attr)
b is ['SIGNATURE,op,sig] => simpHasSignature(pred,a,op,sig)
IDENTP a or hasIdent b => pred
npred := evalHas pred
IDENTP npred or null hasIdent npred => npred
pred
evalHas (pred := ["has",d,cat]) ==
x := hasCat(first d,first cat)
y := rest cat =>
npred := or/[p for [args,:p] in x | y = args] => simp npred
false --if not there, it is false
x
simpHasSignature(pred,conform,op,sig) == --eval w/o loading
IDENTP conform => pred
[conname,:args] := conform
n := #sig
u := LASSOC(op,getConstructorOperationsFromDB conname)
candidates := [x for (x := [sig1,:.]) in u | #sig1 = #sig] or return false
match := or/[x for (x := [sig1,:.]) in candidates
| sig = sublisFormal(args,sig1)] or return false
simpHasPred(match is [sig,.,:p] and sublisFormal(args,p) or true)
simpHasAttribute(pred,conform,attr) == --eval w/o loading
IDENTP conform => pred
conname := opOf conform
getConstructorKindFromDB conname = "category" =>
simpCatHasAttribute(conform,attr)
asharpConstructorName? conname =>
p := LASSOC(attr,getConstructorAttributesFromDB conname) =>
simpHasPred sublisFormal(rest conform,p)
infovec := dbInfovec conname
k := LASSOC(attr,infovec.2) or return nil --if not listed then false
k = 0 => true
$domain => kTestPred k --from koOps
predvec := $predvec or sublisFormal(rest conform,
getConstructorPredicatesFromDB conname)
simpHasPred predvec.(k - 1)
simpCatHasAttribute(domform,attr) ==
conform := getConstructorForm opOf domform
catval := eval mkEvalable conform
if atom KDR attr then attr := IFCAR attr
pred :=
u := LASSOC(attr,catval . 2) => first u
return false --exit: not there
pred = true => true
eval SUBLISLIS(rest domform,rest conform,pred)
hasIdent pred ==
pred is [op,:r] =>
op = 'QUOTE => false
or/[hasIdent x for x in r]
pred = '_$ => false
IDENTP pred => true
false
addDomainToTable(id,catl) ==
alist:= nil
for cat in catl repeat
cat is ['CATEGORY,:.] => nil
cat is ['IF,pred,cat1,:.] =>
newAlist:=
[[a,:quickAnd(pred,b)] for [a,:b] in getCategoryExtensionAlist0 cat1]
alist:= [:alist,:newAlist]
alist:= [:alist,:getCategoryExtensionAlist0 cat]
[id,:alist]
domainHput(table,key:=[id,:a],b) ==
HPUT(table,key,b)
genTempCategoryTable() ==
--generates hashtable with key=categoryName and value of the form
-- ((form . pred) ..) meaning that
-- "IF pred THEN ofCategory(key,form)"
-- where form can involve #1, #2, ... the parameters of key
for con in allConstructors() repeat
getConstructorKindFromDB con = "category" =>
addToCategoryTable con
for id in HKEYS _*ANCESTORS_-HASH_* repeat
item := HGET(_*ANCESTORS_-HASH_*, id)
for (u:=[.,:b]) in item repeat
u.rest := simpCatPredicate simpBool b
HPUT(_*ANCESTORS_-HASH_*,id,listSort(function GLESSEQP,item))
addToCategoryTable con ==
-- adds an entry to $tempCategoryTable with key=con and alist entries
u := CAAR getConstructorModemapFromDB con --domain
alist := getCategoryExtensionAlist u
HPUT(_*ANCESTORS_-HASH_*,first u,alist)
alist
encodeCategoryAlist(id,alist) ==
newAl:= nil
for [a,:b] in alist repeat
[key,:argl] := a
newEntry:=
argl => [[argl,:b]]
b
u:= assoc(key,newAl) =>
argl => u.rest := encodeUnion(id,first newEntry,rest u)
if newEntry ~= rest u then
p:= moreGeneralCategoryPredicate(id,newEntry,rest u) => u.rest := p
sayMSG '"Duplicate entries:"
PRINT [newEntry,rest u]
newAl:= [[key,:newEntry],:newAl]
newAl
encodeUnion(id,new:=[a,:b],alist) ==
u := assoc(a,alist) =>
u.rest := moreGeneralCategoryPredicate(id,b,rest u)
alist
[new,:alist]
moreGeneralCategoryPredicate(id,new,old) ==
old = 'T or new = 'T => 'T
old is ["has",a,b] and new is ["has",=a,c] =>
tempExtendsCat(b,c) => new
tempExtendsCat(c,b) => old
['OR,old,new]
mkCategoryOr(new,old)
mkCategoryOr(new,old) ==
old is ['OR,:l] => simpCategoryOr(new,l)
['OR,old,new]
simpCategoryOr(new,l) ==
newExtendsAnOld:= false
anOldExtendsNew:= false
["has",a,b] := new
newList:= nil
for pred in l repeat
pred is ["has",=a,c] =>
tempExtendsCat(c,b) => anOldExtendsNew:= true
if tempExtendsCat(b,c) then newExtendsAnOld:= true
newList:= [pred,:newList]
newList:= [pred,:newList]
if not newExtendsAnOld then newList:= [new,:newList]
newList is [.] => first newList
['OR,:newList]
tempExtendsCat(b,c) ==
or/[first c = a for [[a,:.],:.] in getConstructorAncestorsFromDB first b]
getCategoryExtensionAlist0 cform ==
[[cform,:'T],:getCategoryExtensionAlist cform]
getCategoryExtensionAlist cform ==
--avoids substitution as much as possible
u:= getConstructorAncestorsFromDB first cform => formalSubstitute(cform,u)
mkCategoryExtensionAlist cform
formalSubstitute(form:=[.,:argl],u) ==
isFormalArgumentList argl => u
EQSUBSTLIST(argl,$FormalMapVariableList,u)
isFormalArgumentList argl ==
and/[x=fa for x in argl for fa in $FormalMapVariableList]
mkCategoryExtensionAlist cform ==
not cons? cform => nil
cop := first cform
MEMQ(cop, $CategoryNames) => mkCategoryExtensionAlistBasic cform
catlist := formalSubstitute(cform, first getConstructorExports(cform, true))
extendsList:= nil
for [cat,:pred] in catlist repeat
newList := getCategoryExtensionAlist0 cat
finalList :=
pred = 'T => newList
[[a,:quickAnd(b,pred)] for [a,:b] in newList]
extendsList:= catPairUnion(extendsList,finalList,cop,cat)
extendsList
-- following code to handle Unions Records Mapping etc.
mkCategoryExtensionAlistBasic cform ==
cop := first cform
--category:= eval cform
category := -- changed by RSS on 7/29/87
macrop cop => eval cform
apply(cop, rest cform)
extendsList:= [[x,:'T] for x in category.4.0]
for [cat,pred,:.] in category.4.1 repeat
newList := getCategoryExtensionAlist0 cat
finalList :=
pred = 'T => newList
[[a,:quickAnd(b,pred)] for [a,:b] in newList]
extendsList:= catPairUnion(extendsList,finalList,cop,cat)
extendsList
catPairUnion(oldList,newList,op,cat) ==
for pair in newList repeat
u:= assoc(first pair,oldList) =>
rest u = rest pair => nil
u.rest := addConflict(rest pair,rest u) where addConflict(new,old) ==
quickOr(new,old)
oldList:= [pair,:oldList]
oldList
simpCatPredicate p ==
p is ['OR,:l] =>
(u:= simpOrUnion l) is [p] => p
['OR,:u]
p
simpOrUnion l ==
if l then simpOrUnion1(first l,simpOrUnion rest l)
else l
simpOrUnion1(x,l) ==
null l => [x]
p:= mergeOr(x,first l) => [p,:rest l]
[first l,:simpOrUnion1(x,rest l)]
mergeOr(x,y) ==
x is ["has",a,b] and y is ["has",=a,c] =>
testExtend(b,c) => y
testExtend(c,b) => x
nil
nil
testExtend(a:=[op,:argl],b) ==
(u:= getConstructorAncestorsFromDB op) and (val:= LASSOC(b,u)) =>
formalSubstitute(a,val)
nil
getConstrCat(x) ==
-- gets a different representation of the constructorCategory from the
-- lisplib, which is a list of named categories or conditions
x:= if x is ['Join,:y] then y else [x]
cats:= NIL
for y in x repeat
y is ['CATEGORY,.,:z] =>
for zz in z repeat cats := makeCatPred(zz, cats, true)
cats:= [y,:cats]
cats:= nreverse cats
cats
makeCatPred(zz, cats, thePred) ==
if zz is ['IF,curPred := ["has",z1,z2],ats,.] then
ats := if ats is ['PROGN,:atl] then atl else [ats]
for at in ats repeat
if at is ['ATTRIBUTE,z3] and cons? z3 and
constructor? first z3 then
cats:= [['IF,quickAnd(["has",z1,z2], thePred),z3,'%noBranch],:cats]
at is ['IF, pred, :.] =>
cats := makeCatPred(at, cats, curPred)
cats
getConstructorExports(conform,:options) == categoryParts(conform,
getConstructorCategoryFromDB opOf conform,IFCAR options)
categoryParts(conform,category,:options) == main where
main() ==
cons? := IFCAR options --means to include constructors as well
$attrlist: local := nil
$oplist : local := nil
$conslist: local := nil
conname := opOf conform
for x in exportsOf(category) repeat build(x,true)
$attrlist := listSort(function GLESSEQP,$attrlist)
$oplist := listSort(function GLESSEQP,$oplist)
res := [$attrlist,:$oplist]
if cons? then res := [listSort(function GLESSEQP,$conslist),:res]
if getConstructorKindFromDB conname = "category" then
tvl := TAKE(#rest conform,$TriangleVariableList)
res := SUBLISLIS($FormalMapVariableList,tvl,res)
res
build(item,pred) ==
item is ['SIGNATURE,op,sig,:.] => $oplist := [[opOf op,sig,:pred],:$oplist]
--note: opOf is needed!!! Bug in compiler puts in (One) and (Zero)
item is ['ATTRIBUTE,attr] =>
constructor? opOf attr =>
$conslist := [[attr,:pred],:$conslist]
nil
opOf attr = 'nothing => 'skip
$attrlist := [[opOf attr,IFCDR attr,:pred],:$attrlist]
item is ['TYPE,op,type] =>
$oplist := [[op,[type],:pred],:$oplist]
item is ['IF,pred1,s1,s2] =>
build(s1,quickAnd(pred,pred1))
s2 => build(s2,quickAnd(pred,['NOT,pred1]))
null item => 'ok
item = "%noBranch" => 'ok
item is ['PROGN,:r] => for x in r repeat build(x,pred)
systemError '"build error"
exportsOf(target) ==
target is ['CATEGORY,.,:r] => r
target is ['Join,:r,f] =>
for x in r repeat $conslist := [[x,:true],:$conslist]
exportsOf f
$conslist := [[target,:true],:$conslist]
nil
--------------------> NEW DEFINITION (override in patches.lisp.pamphlet)
compressHashTable ht ==
-- compresses hash table ht, to give maximal sharing of cells
sayBrightlyNT '"compressing hash table..."
$found: local := hashTable 'EQUAL
for x in HKEYS ht repeat compressSexpr(HGET(ht,x),nil,nil)
sayBrightly "done"
ht
compressSexpr(x,left,right) ==
-- recursive version of compressHashTable
atom x => nil
u:= HGET($found,x) =>
left => left.first := u
right => right.rest := u
nil
compressSexpr(first x,x,nil)
compressSexpr(rest x,nil,x)
HPUT($found,x,x)
squeezeList(l) ==
-- changes the list l, so that is has maximal sharing of cells
$found:local:= NIL
squeeze1 l
squeeze1(l) ==
-- recursive version of squeezeList
x:= first l
y:=
atom x => x
z:= member(x,$found) => first z
$found:= [x,:$found]
squeeze1 x
l.first := y
x:= rest l
y:=
atom x => x
z:= member(x,$found) => first z
$found:= [x,:$found]
squeeze1 x
l.rest := y
updateCategoryTable(cname,kind) ==
$updateCatTableIfTrue =>
kind = 'package => nil
kind = 'category => updateCategoryTableForCategory(cname)
updateCategoryTableForDomain(cname,getConstrCat(
getConstructorCategoryFromDB cname))
--+
kind = 'domain =>
updateCategoryTableForDomain(cname,getConstrCat(
getConstructorCategoryFromDB cname))
updateCategoryTableForCategory(cname) ==
clearTempCategoryTable([[cname,'category]])
addToCategoryTable(cname)
for id in HKEYS _*ANCESTORS_-HASH_* repeat
for (u:=[.,:b]) in getConstructorAncestorsFromDB id repeat
u.rest := simpCatPredicate simpBool b
updateCategoryTableForDomain(cname,category) ==
clearCategoryTable(cname)
[cname,:domainEntry]:= addDomainToTable(cname,category)
for [a,:b] in encodeCategoryAlist(cname,domainEntry) repeat
HPUT(_*HASCATEGORY_-HASH_*,[cname,:a],b)
$doNotCompressHashTableIfTrue = true => _*HASCATEGORY_-HASH_*
-- compressHashTable _*HASCATEGORY_-HASH_*
clearCategoryTable($cname) ==
MAPHASH('clearCategoryTable1,_*HASCATEGORY_-HASH_*)
clearCategoryTable1(key,val) ==
(first key=$cname)=> HREM(_*HASCATEGORY_-HASH_*,key)
nil
clearTempCategoryTable(catNames) ==
for key in HKEYS(_*ANCESTORS_-HASH_*) repeat
MEMQ(key,catNames) => nil
extensions:= nil
for (extension:= [catForm,:.]) in getConstructorAncestorsFromDB key
repeat
MEMQ(first catForm,catNames) => nil
extensions:= [extension,:extensions]
HPUT(_*ANCESTORS_-HASH_*,key,extensions)
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