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|
-- Copyright (c) 1991-2002, The Numerical Algorithms Group Ltd.
-- All rights reserved.
-- Copyright (C) 2007-2011, 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
namespace BOOT
--%
$forceAdd := false
--% EXTERNAL ROUTINES
--These functions are called from outside this file to add a domain
-- or to get the current domains in scope;
addDomain(domain,e) ==
atom domain =>
domain="$EmptyMode" => e
domain="$NoValueMode" => e
not IDENTP domain or 2 < #(s:= STRINGIMAGE domain) and
char "#" = stringChar(s,0) and char "#" = stringChar(s,1) => e
symbolMember?(domain,getDomainsInScope e) => e
isLiteral(domain,e) => e
addNewDomain(domain,e)
(name:= first domain)='Category => e
domainMember(domain,getDomainsInScope e) => e
getmode(name,e) is ["Mapping",target,:.] and isCategoryForm(target,e)=>
addNewDomain(domain,e)
-- constructor? test needed for domains compiled with $bootStrapMode=true
isFunctor name or constructor? name => addNewDomain(domain,e)
-- ??? we should probably augment $DummyFunctorNames with CATEGORY
-- ??? so that we don't have to do this special check here. Investigate.
isQuasiquote domain => e
if not isCategoryForm(domain,e) and name ~= "Mapping" then
unknownTypeError name
e --is not a functor
domainMember(dom,domList) == or/[modeEqual(dom,d) for d in domList]
--% MODEMAP FUNCTIONS
--getTargetMode(x is [op,:argl],e) ==
-- CASES(#(mml:= getModemapList(op,#argl,e)),
-- (1 =>
-- ([[.,target,:.],:.]:= first mml; substituteForFormalArguments(argl,target))
-- ; 0 => MOAN(x," has no modemap"); systemError [x," has duplicate modemaps"]))
getModemap(x is [op,:.],e) ==
for modemap in get(op,'modemap,e) repeat
if u:= compApplyModemap(x,modemap,e) then return
([.,.,sl]:= u; applySubst(sl,modemap))
getUniqueSignature(form,e) ==
[[.,:sig],:.]:= getUniqueModemap(first form,#rest form,e) or return nil
sig
getUniqueModemap(op,numOfArgs,e) ==
1=#(mml:= getModemapList(op,numOfArgs,e)) => first mml
1<#mml =>
stackWarning('"%1 argument form of %2b has more than one modemap",
[numOfArgs,op])
first mml
nil
getModemapList(op,numOfArgs,e) ==
op is ['elt,D,op'] => getModemapListFromDomain(op',numOfArgs,D,e)
[mm for
(mm:= [[.,.,:sigl],:.]) in get(op,'modemap,e) | numOfArgs=#sigl]
getModemapListFromDomain(op,numOfArgs,D,e) ==
[mm
for (mm:= [[dc,:sig],:.]) in get(op,'modemap,e) | dc=D and #rest sig=
numOfArgs]
insertModemap(new,mmList) ==
null mmList => [new]
--isMoreSpecific(new,old:= first mmList) => [new,:mmList]
--[old,:insertModemap(new,rest mmList)]
[new,:mmList]
addModemap(op,mc,sig,pred,fn,$e) ==
$InteractiveMode => $e
if knownInfo pred then pred:=true
$insideCapsuleFunctionIfTrue=true =>
$CapsuleModemapFrame :=
addModemap0(op,mc,sig,pred,fn,$CapsuleModemapFrame)
$e
addModemap0(op,mc,sig,pred,fn,$e)
addModemapKnown(op,mc,sig,pred,fn,$e) ==
-- if knownInfo pred then pred:=true
-- that line is handled elsewhere
$insideCapsuleFunctionIfTrue=true =>
$CapsuleModemapFrame :=
addModemap0(op,mc,sig,pred,fn,$CapsuleModemapFrame)
$e
addModemap0(op,mc,sig,pred,fn,$e)
addModemap0(op,mc,sig,pred,fn,e) ==
--mc is the "mode of computation"; fn the "implementation"
$functorForm is ['CategoryDefaults,:.] and mc="$" => e
--don't put CD modemaps into environment
--fn is ['Subsumed,:.] => e -- don't skip subsumed modemaps
-- breaks -:($,$)->U($,failed) in DP
op='elt or op='setelt => addEltModemap(op,mc,sig,pred,fn,e)
addModemap1(op,mc,sig,pred,fn,e)
addEltModemap(op,mc,sig,pred,fn,e) ==
--hack to change selectors from strings to identifiers; and to
--add flag identifiers as literals in the envir
op='elt and sig is [:lt,sel] =>
string? sel =>
id:= makeSymbol sel
if $insideCapsuleFunctionIfTrue=true
then $e:= makeLiteral(id,$e)
else e:= makeLiteral(id,e)
addModemap1(op,mc,[:lt,id],pred,fn,e)
-- atom sel => systemErrorHere '"addEltModemap"
addModemap1(op,mc,sig,pred,fn,e)
op='setelt and sig is [:lt,sel,v] =>
string? sel =>
id:= makeSymbol sel
if $insideCapsuleFunctionIfTrue=true
then $e:= makeLiteral(id,$e)
else e:= makeLiteral(id,e)
addModemap1(op,mc,[:lt,id,v],pred,fn,e)
-- atom sel => systemError '"addEltModemap"
addModemap1(op,mc,sig,pred,fn,e)
systemErrorHere '"addEltModemap"
addModemap1(op,mc,sig,pred,fn,e) ==
--mc is the "mode of computation"; fn the "implementation"
if mc="Rep" then sig := substituteDollarIfRepHack sig
currentProplist:= getProplist(op,e) or nil
newModemapList:=
mkNewModemapList(mc,sig,pred,fn,symbolLassoc('modemap,currentProplist),e,nil)
newProplist:= augProplist(currentProplist,'modemap,newModemapList)
newProplist':= augProplist(newProplist,"FLUID",true)
unErrorRef op
--There may have been a warning about op having no value
addBinding(op,newProplist',e)
mkNewModemapList(mc,sig,pred,fn,curModemapList,e,filenameOrNil) ==
entry:= [map:= [mc,:sig],[pred,fn],:filenameOrNil]
listMember?(entry,curModemapList) => curModemapList
(oldMap:= assoc(map,curModemapList)) and oldMap is [.,[opred, =fn],:.] =>
$forceAdd => mergeModemap(entry,curModemapList,e)
opred=true => curModemapList
if pred ~= true and pred ~= opred then pred:= ["OR",pred,opred]
[if x=oldMap then [map,[pred,fn],:filenameOrNil] else x
--if new modemap less general, put at end; otherwise, at front
for x in curModemapList]
$InteractiveMode => insertModemap(entry,curModemapList)
mergeModemap(entry,curModemapList,e)
mergeModemap(entry is [[mc,:sig],[pred,:.],:.],modemapList,e) ==
for (mmtail:= [[[mc',:sig'],[pred',:.],:.],:.]) in tails modemapList repeat
mc=mc' or isSubset(mc,mc',e) =>
newmm:= nil
mm:= modemapList
while (not sameObject?(mm,mmtail)) repeat (newmm:= [first mm,:newmm]; mm:= rest mm)
if (mc=mc') and (sig=sig') then
--We only need one of these, unless the conditions are hairy
not $forceAdd and TruthP pred' =>
entry:=nil
--the new predicate buys us nothing
return modemapList
TruthP pred => mmtail:=rest mmtail
--the thing we matched against is useless, by comparison
modemapList:= append!(reverse! newmm,[entry,:mmtail])
entry:= nil
return modemapList
if entry then [:modemapList,entry] else modemapList
-- next definition RPLACs, and hence causes problems.
-- In ptic., SubResGcd in SparseUnivariatePolynomial is miscompiled
--mergeModemap(entry:=((mc,:sig),:.),modemapList,e) ==
-- for (mmtail:= (((mc',:sig'),:.),:.)) in tails modemapList do
-- mc=mc' or isSubset(mc,mc',e) =>
-- mmtail.rest := (first mmtail,: rest mmtail)
-- mmtail.first := entry
-- entry := nil
-- return modemapList
-- if entry then (:modemapList,entry) else modemapList
--substituteForRep(entry is [[mc,:sig],:.],curModemapList) ==
-- --change 'Rep to "$" unless the resulting signature is already in $
-- member(entry':= substitute("$",'Rep,entry),curModemapList) =>
-- [entry,:curModemapList]
-- [entry,entry',:curModemapList]
addNewDomain(domain,e) ==
augModemapsFromDomain(domain,domain,e)
augModemapsFromDomain(name,functorForm,e) ==
symbolMember?(KAR name or name,$DummyFunctorNames) => e
name=$Category or isCategoryForm(name,e) => e
listMember?(name,curDomainsInScope:= getDomainsInScope e) => e
if super := superType functorForm then
e := addNewDomain(super,e)
if innerDom:= listOrVectorElementMode name then e:= addDomain(innerDom,e)
if name is ["Union",:dl] then for d in stripUnionTags dl
repeat e:= addDomain(d,e)
augModemapsFromDomain1(name,functorForm,e)
augModemapsFromDomain1(name,functorForm,e) ==
property(KAR functorForm,"makeFunctionList") =>
addConstructorModemaps(name,functorForm,e)
atom functorForm and (catform:= getmode(functorForm,e)) =>
augModemapsFromCategory(name,name,functorForm,catform,e)
mappingForm:= getmodeOrMapping(KAR functorForm,e) =>
["Mapping",categoryForm,:functArgTypes]:= mappingForm
catform:= substituteCategoryArguments(rest functorForm,categoryForm)
augModemapsFromCategory(name,name,functorForm,catform,e)
stackMessage('"%1pb is an unknown mode",[functorForm])
e
substituteCategoryArguments(argl,catform) ==
argl:= substitute("$$","$",argl)
arglAssoc:= [[INTERNL("#",STRINGIMAGE i),:a] for i in 1.. for a in argl]
applySubst(arglAssoc,catform)
--Called, by compDefineFunctor, to add modemaps for $ that may
--be equivalent to those of Rep. We must check that these
--operations are not being redefined.
augModemapsFromCategoryRep(domainName,repDefn,functorBody,categoryForm,e) ==
[fnAlist,e]:= evalAndSub(domainName,domainName,domainName,categoryForm,e)
[repFnAlist,e]:= evalAndSub("Rep","Rep",repDefn,getmode(repDefn,e),e)
catform:= (categoryObject? categoryForm => categoryForm.0; categoryForm)
compilerMessage('"Adding %1p modemaps",[domainName])
e:= putDomainsInScope(domainName,e)
for [lhs:=[op,sig,:.],cond,fnsel] in fnAlist repeat
u:=assoc(substitute("Rep",domainName,lhs),repFnAlist)
u and not AMFCR_,redefinedList(op,functorBody) =>
fnsel' := third u
e:= addModemap(op,domainName,sig,cond,fnsel',e)
e:= addModemap(op,domainName,sig,cond,fnsel,e)
e
AMFCR_,redefinedList(op,l) == "OR"/[AMFCR_,redefined(op,u) for u in l]
AMFCR_,redefined(opname,u) ==
not(u is [op,:l]) => nil
op = 'DEF => opname = CAAR l
op in '(PROGN SEQ) => AMFCR_,redefinedList(opname,l)
op = '%when => "OR"/[AMFCR_,redefinedList(opname,rest u) for u in l]
augModemapsFromCategory(domainName,domainView,functorForm,categoryForm,e) ==
[fnAlist,e]:= evalAndSub(domainName,domainView,functorForm,categoryForm,e)
-- catform:= (categoryObject? categoryForm => categoryForm.0; categoryForm)
-- catform appears not to be used, so why set it?
--if not $InteractiveMode then
compilerMessage('"Adding %1p modemaps",[domainName])
e:= putDomainsInScope(domainName,e)
condlist:=[]
for [[op,sig,:.],cond,fnsel] in fnAlist repeat
-- e:= addModemap(op,domainName,sig,cond,fnsel,e)
---------next 5 lines commented out to avoid wasting time checking knownInfo on
---------conditions attached to each modemap being added, takes a very long time
---------instead conditions will be checked when maps are actually used
--v:=ASSOC(cond,condlist) =>
-- e:= addModemapKnown(op,domainName,sig,rest v,fnsel,e)
--$e:local := e -- $e is used by knownInfo
--if knownInfo cond then cond1:=true else cond1:=cond
--condlist:=[[cond,:cond1],:condlist]
e:= addModemapKnown(op,domainName,sig,cond,fnsel,e) -- cond was cond1
-- for u in sig | (not member(u,$DomainsInScope)) and
-- (cons? u) and
-- (not isCategoryForm(u,e)) do
-- e:= addNewDomain(u,e)
e
--subCatParametersInto(domainForm,catForm,e) ==
-- -- JHD 08/08/84 perhaps we are fortunate that it is not used
-- --this is particularly dirty and should be cleaned up, say, by wrapping
-- -- an appropriate lambda expression around mapping forms
-- domainForm is [op,:l] and l =>
-- get(op,'modemap,e) is [[[mc,:.],:.]] => applySubst(pairList(rest mc,l),catForm)
-- catForm
evalAndSub(domainName,viewName,functorForm,form,$e) ==
$lhsOfColon: local:= domainName
categoryObject? form =>
[substNames(domainName,viewName,functorForm,categoryExports form),$e]
--next lines necessary-- see MPOLY for which $ is actual arg. --- RDJ 3/83
if CONTAINED("$$",form) then $e:= put("$$","mode",get("$","mode",$e),$e)
opAlist:= getOperationAlist(domainName,functorForm,form)
substAlist:= substNames(domainName,viewName,functorForm,opAlist)
[substAlist,$e]
getOperationAlist(name,functorForm,form) ==
if atom name and niladicConstructorFromDB name then
functorForm:= [functorForm]
-- (null isConstructorForm functorForm) and (u:= isFunctor functorForm)
(u:= isFunctor functorForm) and not
($insideFunctorIfTrue and first functorForm=first $functorForm) => u
$insideFunctorIfTrue and name="$" =>
$domainShell => categoryExports $domainShell
systemError '"$ has no shell now"
T:= compMakeCategoryObject(form,$e) => ([.,.,$e]:= T; categoryExports T.expr)
stackMessage('"not a category form: %1bp",[form])
substNames(domainName,viewName,functorForm,opalist) ==
functorForm := substitute("$$","$", functorForm)
nameForDollar :=
isCategoryPackageName functorForm => second functorForm
domainName
[[:substitute("$","$$",substitute(nameForDollar,"$",modemapform)),
[sel, viewName,if domainName = "$" then pos else
modemapform.mmTarget]]
for [:modemapform,[sel,"$",pos]] in
applySubst(pairList($FormalMapVariableList,KDR functorForm),opalist)]
addConstructorModemaps(name,form is [functorName,:.],e) ==
$InteractiveMode: local:= nil
e:= putDomainsInScope(name,e) --frame
fn := property(functorName,"makeFunctionList")
[funList,e]:= FUNCALL(fn,name,form,e)
for [op,sig,opcode] in funList repeat
if opcode is [sel,dc,n] and sel='ELT then
nsig := substitute("$$$",name,sig)
nsig := substitute('$,"$$$",substitute("$$",'$,nsig))
opcode := [sel,dc,nsig]
e:= addModemap(op,name,sig,true,opcode,e)
e
--The way XLAMs work:
-- ((XLAM ($1 $2 $3) (%store (%vref $1 0) $3)) X "c" V) ==>
-- (%store (%vref X 0) V)
--
getDomainsInScope e ==
$insideCapsuleFunctionIfTrue=true => $CapsuleDomainsInScope
get("$DomainsInScope","special",e)
putDomainsInScope(x,e) ==
l:= getDomainsInScope e
if $verbose and listMember?(x,l) then
sayBrightly ['" Note: Domain ",x," already in scope"]
newValue := [x,:remove(l,x)]
$insideCapsuleFunctionIfTrue => ($CapsuleDomainsInScope:= newValue; e)
put("$DomainsInScope","special",newValue,e)
--% ADDINFORMATION CODE
--% This code adds various items to the special value of $Information,
--% in order to keep track of all the compiler's information about
--% various categories and similar objects
--% An actual piece of (unconditional) information can have one of 3 forms:
--% (ATTRIBUTE domainname attribute)
--% --These are only stored here
--% (SIGNATURE domainname operator signature)
--% --These are also stored as 'modemap' properties
--% (has domainname categoryexpression)
--% --These are also stored as 'value' properties
--% Conditional attributes are of the form
--% (%when
--% (condition info info ...)
--% ... )
--% where the condition looks like a 'has' clause, or the 'and' of several
--% 'has' clauses:
--% (has name categoryexpression)
--% (has name (ATTRIBUTE attribute))
--% (has name (SIGNATURE operator signature))
--% The use of two representations is admitted to be clumsy
import g_-util
namespace BOOT
printInfo $e ==
for u in get("$Information","special",$e) repeat PRETTYPRINT u
nil
addInformation(m,$e) ==
$Information: local := nil
info m where
info m ==
--Processes information from a mode declaration in compCapsule
atom m => nil
m is ["CATEGORY",.,:stuff] => for u in stuff repeat addInfo u
m is ["Join",:stuff] => for u in stuff repeat info u
nil
$e:=
put("$Information","special",[:$Information,:
get("$Information","special",$e)],$e)
$e
addInfo u ==
$Information:= [formatInfo u,:$Information]
formatInfo u ==
atom u => u
u is ["SIGNATURE",:v] => ["SIGNATURE","$",:v]
u is ["PROGN",:l] => ["PROGN",:[formatInfo v for v in l]]
u is ["ATTRIBUTE",v] =>
-- The parser can't tell between those attributes that really
-- are attributes, and those that are category names
atom v and isCategoryForm([v],$e) => ["has","$",[v]]
atom v => ["ATTRIBUTE","$",v]
isCategoryForm(v,$e) => ["has","$",v]
["ATTRIBUTE","$",v]
u is ["IF",a,b,c] =>
c="%noBranch" => ['%when,:liftCond [formatPred a,formatInfo b]]
b="%noBranch" => ['%when,:liftCond [["not",formatPred a],formatInfo c]]
['%when,:liftCond [formatPred a,formatInfo b],:
liftCond [["not",formatPred a],formatInfo c]]
systemError ['"formatInfo",u]
liftCond (clause is [ante,conseq]) ==
conseq is ['%when,:l] =>
[[lcAnd(ante,a),:b] for [a,:b] in l] where
lcAnd(pred,conj) ==
conj is ["and",:ll] => ["and",pred,:ll]
["and",pred,conj]
[clause]
formatPred u ==
--Assumes that $e is set up to point to an environment
u is ["has",a,b] =>
atom b and isCategoryForm([b],$e) => ["has",a,[b]]
atom b => ["has",a,["ATTRIBUTE",b]]
isCategoryForm(b,$e) => u
b is ["ATTRIBUTE",.] => u
b is ["SIGNATURE",:.] => u
["has",a,["ATTRIBUTE",b]]
atom u => u
u is ["and",:v] => ["and",:[formatPred w for w in v]]
systemError ['"formatPred",u]
chaseInferences(pred,$e) ==
foo hasToInfo pred where
foo pred ==
knownInfo pred => nil
$e:= actOnInfo(pred,$e)
pred:= infoToHas pred
for u in get("$Information","special",$e) repeat
u is ['%when,:l] =>
for [ante,:conseq] in l repeat
ante=pred => [foo w for w in conseq]
ante is ["and",:ante'] and listMember?(pred,ante') =>
ante':= remove(ante',pred)
v':=
# ante'=1 => first ante'
["and",:ante']
v':= ['%when,[v',:conseq]]
listMember?(v',get("$Information","special",$e)) => nil
$e:=
put("$Information","special",[v',:
get("$Information","special",$e)],$e)
nil
$e
hasToInfo (pred is ["has",a,b]) ==
b is ["SIGNATURE",:data] => ["SIGNATURE",a,:data]
b is ["ATTRIBUTE",c] => ["ATTRIBUTE",a,c]
pred
infoToHas a ==
a is ["SIGNATURE",b,:data] => ["has",b,["SIGNATURE",:data]]
a is ["ATTRIBUTE",b,c] => ["has",b,["ATTRIBUTE",c]]
a
++ Return true if we are certain that the information
++ denotated by `pred' is derivable from the current environment.
knownInfo pred ==
pred=true => true
listMember?(pred,get("$Information","special",$e)) => true
pred is ["OR",:l] => or/[knownInfo u for u in l]
pred is ["AND",:l] => and/[knownInfo u for u in l]
pred is ["or",:l] => or/[knownInfo u for u in l]
pred is ["and",:l] => and/[knownInfo u for u in l]
pred is ["ATTRIBUTE",name,attr] =>
v := compForMode(name,$EmptyMode,$e) or return
stackAndThrow('"can't find category of %1pb",[name])
[vv,.,.] := compMakeCategoryObject(v.mode,$e) or return
stackAndThrow('"can't make category of %1pb",[name])
listMember?(attr,vv.2) => true
x := assoc(attr,vv.2) => knownInfo second x
--format is a list of two elements: information, predicate
false
pred is ["has",name,cat] =>
cat is ["ATTRIBUTE",:a] => knownInfo ["ATTRIBUTE",name,:a]
cat is ["SIGNATURE",:a] => knownInfo ["SIGNATURE",name,:a]
-- unnamed category expressions imply structural checks.
cat is ["Join",:.] => and/[knownInfo ["has",name,c] for c in cat.args]
cat is ["CATEGORY",.,:atts] =>
and/[knownInfo hasToInfo ["has",name,att] for att in atts]
name is ['Union,:.] => false
-- we have a named category expression
v:= compForMode(name,$EmptyMode,$e) or return
stackAndThrow('"can't find category of %1pb",[name])
vmode := v.mode
cat = vmode => true
vmode is ["Join",:l] and listMember?(cat,l) => true
[vv,.,.]:= compMakeCategoryObject(vmode,$e) or return
stackAndThrow('"cannot find category %1pb",[vmode])
catlist := vv.4
listMember?(cat,first catlist) => true --checks princ. ancestors
(u:=assoc(cat,second catlist)) and knownInfo second u => true
-- previous line checks fundamental anscestors, we should check their
-- principal anscestors but this requires instantiating categories
or/[AncestorP(cat,[first u])
for u in second catlist | knownInfo second u] => true
false
pred is ["SIGNATURE",name,op,sig,:.] =>
v:= get(op,"modemap",$e)
for w in v repeat
ww:= CDAR w --the actual signature part
ww = sig =>
CAADR w = true => return true
false
--error '"knownInfo"
false
actOnInfo(u,$e) ==
null u => $e
u is ["PROGN",:l] => (for v in l repeat $e:= actOnInfo(v,$e); $e)
$e:=
put("$Information","special",Info:= [u,:get("$Information","special",$e)],$e
)
u is ['%when,:l] =>
--there is nowhere %else that this sort of thing exists
for [ante,:conseq] in l repeat
if listMember?(hasToInfo ante,Info) then for v in conseq repeat
$e:= actOnInfo(v,$e)
$e
u is ["ATTRIBUTE",name,att] =>
[vval,vmode,.]:= GetValue name
compilerMessage('"augmenting %1: %2p", [name,["ATTRIBUTE",att]])
key :=
-- FIXME: there should be a better to tell whether name
-- designates a domain, as opposed to a package
CONTAINED("$",vmode) => 'domain
'package
cat := ["CATEGORY",key,["ATTRIBUTE",att]]
$e:= put(name,"value",[vval,mkJoin(cat,vmode),nil],$e)
--there is nowhere %else that this sort of thing exists
u is ["SIGNATURE",name,operator,modemap,:q] =>
kind :=
q is ["constant"] => "CONST"
"ELT"
implem:=
(implem:=ASSOC([name,:modemap],get(operator,'modemap,$e))) =>
CADADR implem
name = "$" => [kind,name,-1]
[kind,name,substitute('$,name,modemap)]
$e:= addModemap(operator,name,modemap,true,implem,$e)
[vval,vmode,.]:= GetValue name
compilerMessage('"augmenting %1: %2p",
[name,["SIGNATURE",operator,modemap,:q]])
key :=
-- FIXME: there should be a better to tell whether name
-- designates a domain, as opposed to a package
CONTAINED("$",vmode) => 'domain
'package
cat:= ["CATEGORY",key,["SIGNATURE",operator,modemap,:q]]
$e:= put(name,"value",[vval,mkJoin(cat,vmode),nil],$e)
u is ["has",name,cat] =>
[vval,vmode,.]:= GetValue name
cat=vmode => $e --stating the already known
u:= compMakeCategoryObject(cat,$e) =>
--we are adding information about a category
[catvec,.,$e]:= u
[ocatvec,.,$e]:= compMakeCategoryObject(vmode,$e)
--we are adding a principal descendant of what was already known
listMember?(cat,first ocatvec.4) or
assoc(cat,second ocatvec.4) is [.,"T",.] => $e
--what was being asserted is an ancestor of what was known
if name="$"
then $e:= augModemapsFromCategory(name,name,name,cat,$e)
else
genDomainView(name,name,cat,"HasCategory")
-- a domain upgrade at function level is local to that function.
if not $insideCapsuleFunctionIfTrue and
not symbolMember?(name,$functorLocalParameters) then
$functorLocalParameters:=[:$functorLocalParameters,name]
compilerMessage('"augmenting %1: %2p", [name,cat])
$e:= put(name,"value",[vval,mkJoin(cat,vmode),nil],$e)
SAY("extension of ",vval," to ",cat," ignored")
$e
systemError ['"actOnInfo",u]
mkJoin(cat,mode) ==
mode is ['Join,:cats] => ['Join,cat,:cats]
['Join,cat,mode]
GetValue name ==
u:= get(name,"value",$e) => u
u:= comp(name,$EmptyMode,$e) => u --name may be a form
systemError [name,'" is not bound in the current environment"]
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