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-- Copyright (c) 1991-2002, The Numerical Algorithms Group Ltd.
-- All rights reserved.
-- Copyright (C) 2007-2008, 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
)package "BOOT"

++
$insideCompileBodyIfTrue := false

--=======================================================
--             Lookup From Interpreter
--=======================================================

NRTevalDomain form ==
  form is ['SETELT,:.] => eval form
  evalDomain form

--------------------> NEW DEFINITION (see interop.boot.pamphlet)
compiledLookup(op,sig,dollar) ==
--called by coerceByFunction, evalForm, findEqualFun, findUniqueOpInDomain,
--  getFunctionFromDomain, optDeltaEntry, retractByFunction
  if not VECP dollar then dollar := NRTevalDomain dollar
  basicLookup(op,sig,dollar,dollar)

--------------------> NEW DEFINITION (see interop.boot.pamphlet)
basicLookup(op,sig,domain,dollar) ==
  item := domain.1
  CONSP item and first item in '(lookupInDomain lookupInTable) => 
    lookupInDomainVector(op,sig,domain,dollar)
  ----------new world code follows------------
  u := lookupInDomainAndDefaults(op,sig,domain,dollar,false) => u
  lookupInDomainAndDefaults(op,sig,domain,dollar,true)

compiledLookupCheck(op,sig,dollar) ==
  fn := compiledLookup(op,sig,dollar)

  -- NEW COMPILER COMPATIBILITY ON

  if      (fn = nil)  and (op = "^") then
    fn := compiledLookup("**",sig,dollar)
  else if (fn = nil)  and (op = "**") then
    fn := compiledLookup("^",sig,dollar)

  -- NEW COMPILER COMPATIBILITY OFF

  fn = nil =>
    keyedSystemError("S2NR0001",[op,formatSignature sig,dollar.0])
  fn

--=======================================================
--                 Lookup From Compiled Code
--=======================================================
goGet(:l) ==
  [:arglist,env] := l
  arglist is ['goGet,:.] => stop()
  [[.,[op,initSig,:code]],thisDomain] := env
  domainSlot := QSQUOTIENT(code,8192)
  code1 := QSREMAINDER(code,8192)
  if QSODDP code1 then isConstant := true
  code2 := QSQUOTIENT(code1,2)
  if QSODDP code2 then explicitLookupDomainIfTrue := true
  index := QSQUOTIENT(code2,2)
  kind := (isConstant = true => 'CONST; 'ELT)
  sig := [NRTreplaceLocalTypes(s,thisDomain) for s in initSig]
  sig := substDomainArgs(thisDomain,sig)
  lookupDomain :=
     domainSlot = 0 => thisDomain
     thisDomain.domainSlot -- where we look for the operation
  if PAIRP lookupDomain then lookupDomain := NRTevalDomain lookupDomain
  dollar :=                             -- what matches $ in signatures
    explicitLookupDomainIfTrue => lookupDomain
    thisDomain
  if PAIRP dollar then dollar := NRTevalDomain dollar
  fn:= basicLookup(op,sig,lookupDomain,dollar)
  fn = nil => keyedSystemError("S2NR0001",[op,sig,lookupDomain.0])
  val:= APPLY(first fn,[:arglist,rest fn])
  setShellEntry(thisDomain,index,fn)
  val

NRTreplaceLocalTypes(t,dom) ==
   atom t =>
     not INTEGERP t => t
     t:= dom.t
     if PAIRP t then t:= NRTevalDomain t
     t.0
   MEMQ(CAR t,'(Mapping Union Record _:)) =>
      [CAR t,:[NRTreplaceLocalTypes(x,dom) for x in rest t]]
   t

substDomainArgs(domain,object) ==
    form := devaluate domain
    SUBLISLIS([form,:rest form],["$$",:$FormalMapVariableList],object)

--=======================================================
--       Lookup Function in Slot 1 (via SPADCALL)
--=======================================================
domainTableLookup(op,sig,dollar,env) == lookupInTable(op,sig,dollar,env)
lookupInTable(op,sig,dollar,[domain,table]) ==
  EQ(table,'derived) => lookupInAddChain(op,sig,domain,dollar)
  success := false
  someMatch := false
  while not success for [sig1,:code] in LASSQ(op,table) repeat
    success :=
      null compareSig(sig,sig1,dollar.0,domain) => false
      code is ['subsumed,a] =>
            subsumptionSig :=
               EQSUBSTLIST(rest(domain.0),$FormalMapVariableList,a)
            someMatch:=true
            false
      predIndex := QSQUOTIENT(code,8192)
      predIndex ^= 0 and null lookupPred($predVector.predIndex,dollar,domain)
        => false
      loc := QSQUOTIENT(QSREMAINDER(code,8192),2)
      loc = 0 =>
        someMatch := true
        nil
      slot := domain.loc
      EQCAR(slot,'goGet) =>
        lookupDisplay(op,sig,domain,'" !! goGet found, will ignore")
        lookupInAddChain(op,sig,domain,dollar) or 'failed
      NULL slot =>
        lookupDisplay(op,sig,domain,'" !! null slot entry, continuing")
        lookupInAddChain(op,sig,domain,dollar) or 'failed
      lookupDisplay(op,sig,domain,'" !! found in NEW table!!")
      slot
  NE(success,'failed) and success => success
  subsumptionSig and (u:= SPADCALL(op,subsumptionSig,dollar,domain.1)) => u
  someMatch => lookupInAddChain(op,sig,domain,dollar)
  nil

--=======================================================
--       Lookup Addlist (from lookupInDomainTable or lookupInDomain)
--=======================================================
lookupInAddChain(op,sig,addFormDomain,dollar) ==
  addFunction:=lookupInDomain(op,sig,addFormDomain,dollar,5)
  defaultingFunction addFunction =>
     lookupInCategories(op,sig,addFormDomain,dollar) or addFunction
  addFunction or lookupInCategories(op,sig,addFormDomain,dollar)


defaultingFunction op ==
  not(op is [.,:dom]) => false
  not VECP dom => false
  not (#dom > 0) => false
  not (dom.0 is [packageName,:.]) => false
  not IDENTP packageName => false
  pname := PNAME packageName
  pname.(MAXINDEX pname) = char "&"

--=======================================================
--   Lookup In Domain (from lookupInAddChain)
--=======================================================
lookupInDomain(op,sig,addFormDomain,dollar,index) ==
  addFormCell := addFormDomain.index =>
    INTEGERP KAR addFormCell =>
      or/[lookupInDomain(op,sig,addFormDomain,dollar,i) for i in addFormCell]
    if not VECP addFormCell then addFormCell := eval addFormCell
    lookupInDomainVector(op,sig,addFormCell,dollar)
  nil

--------------------> NEW DEFINITION (see interop.boot.pamphlet)
lookupInDomainVector(op,sig,domain,dollar) ==
  slot1 := domain.1
  SPADCALL(op,sig,dollar,slot1)


++ same as lookupInDomainVector except that the use of defaults
++ (either in category packages or add-chains) is controlled
++ by `useDefaults'.
lookupInDomainAndDefaults(op,sig,domain,dollar,useDefaults) ==
  savedLookupDefaults := $lookupDefaults
  $lookupDefaults := useDefaults
  fun := lookupInDomainVector(op,sig,domain,dollar)
  $lookupDefaults := savedLookupDefaults
  fun

--=======================================================
--       Category Default Lookup (from goGet or lookupInAddChain)
--=======================================================
lookupInCategories(op,sig,dom,dollar) ==
  catformList := dom.4.0
  varList := ["$",:$FormalMapVariableList]
  nsig := MSUBST(dom.0,dollar.0,sig)
  -- the following lines don't need to check for predicates because
  -- this code (the old runtime scheme) is used only for
  -- builtin constructors -- their predicates are always true.
  r := or/[lookupInDomainVector(op,nsig,
              eval EQSUBSTLIST(valueList,varList,catform),dollar)
        for catform in catformList | not null catform] where
           valueList() ==
              [MKQ dom,:[MKQ dom.(5+i) for i in 1..(#rest catform)]]
  r or lookupDisplay(op,sig,'"category defaults",'"-- not found")

--=======================================================
--                       Predicates
--=======================================================
lookupPred(pred,dollar,domain) ==
  pred = true => true
  pred = 'asserted => false
  pred is ['AND,:pl] or pred is ['and,:pl] =>
    and/[lookupPred(p,dollar,domain) for p in pl]
  pred is ['OR,:pl] or pred is ['or,:pl] =>
    or/[lookupPred(p,dollar,domain) for p in pl]
  pred is ['NOT,p] or pred is ['not,p] => not lookupPred(p,dollar,domain)
  pred is ['is,dom1,dom2] => domainEqual(dom1,dom2)
  pred is ['has,a,b] =>
    VECP a =>
      keyedSystemError("S2GE0016",['"lookupPred",
        '"vector as  first argument to has"])
    a := eval mkEvalable substDollarArgs(dollar,domain,a)
    b := substDollarArgs(dollar,domain,b)
    HasCategory(a,b)
  keyedSystemError("S2NR0002",[pred])

substDollarArgs(dollar,domain,object) ==
    form := devaluate domain
    SUBLISLIS([devaluate dollar,:rest form],
                ["$",:$FormalMapVariableList],object)

compareSig(sig,tableSig,dollar,domain) ==
  not (#sig = #tableSig) => false
  null (target := first sig)
   or lazyCompareSigEqual(target,first tableSig,dollar,domain) =>
     and/[lazyCompareSigEqual(s,t,dollar,domain)
              for s in rest sig for t in rest tableSig]

lazyCompareSigEqual(s,tslot,dollar,domain) ==
  tslot = '$ => s = "$" or s = devaluate dollar
  INTEGERP tslot and PAIRP(lazyt:=domain.tslot) and PAIRP s =>
      lazyt is [.,.,.,[.,item,.]] and
        item is [.,[functorName,:.]] and functorName = CAR s =>
          compareSigEqual(s,(NRTevalDomain lazyt).0,dollar,domain)
      nil
  compareSigEqual(s,NRTreplaceLocalTypes(tslot,domain),dollar,domain)


compareSigEqual(s,t,dollar,domain) ==
  EQUAL(s,t) => true
  ATOM t =>
    u :=
      EQ(t,'$) => dollar
      isSharpVar t =>
        VECP domain => ELT(rest domain.0,POSN1(t,$FormalMapVariableList))
        ELT(rest domain,POSN1(t,$FormalMapVariableList))
      STRINGP t and IDENTP s => (s := PNAME s; t)
      nil
    s = '$ => compareSigEqual(dollar,u,dollar,domain)
    u => compareSigEqual(s,u,dollar,domain)
    EQUAL(s,u)
  EQ(s,'$) => compareSigEqual(dollar,t,dollar,domain)
  ATOM s => nil
  #s ^= #t => nil
  match := true
  for u in s for v in t repeat
    not compareSigEqual(u,v,dollar,domain) => return(match:=false)
  match

-----------------------Compiler for Interpreter---------------------------------
NRTcompileEvalForm(opName,sigTail,dcVector) ==
  u := NRTcompiledLookup(opName,sigTail,dcVector)
  not ($insideCompileBodyIfTrue = true) => MKQ u
  k := NRTgetMinivectorIndex(u,opName,sigTail,dcVector)
  ['ELT,"$$$",k]  --$$$ denotes minivector

--------------------> NEW DEFINITION (see interop.boot.pamphlet)
NRTcompiledLookup(op,sig,dom) ==
  if CONTAINED('_#,sig) then
      sig := [NRTtypeHack t for t in sig]
  compiledLookupCheck(op,sig,dom)

NRTtypeHack t ==
  ATOM t => t
  CAR t = '_# => # CADR t
  [CAR t,:[NRTtypeHack tt for tt in CDR t]]

NRTgetMinivectorIndex(u,op,sig,domVector) ==
  s := # $minivector
  k := or/[k for k in 0..(s-1)
        for x in $minivector | EQ(x,u)] => k
  $minivector := [:$minivector,u]
  if $compilingInputFile then
    $minivectorCode := [:$minivectorCode,[op,sig,devaluate domVector]]
--  pp '"-- minivectorCode -->"
--  pp $minivectorCode
  s

NRTisRecurrenceRelation(op,body,minivectorName) ==
  -- returns [body p1 p2 ... pk] for a k-term recurrence relation
  -- where the n-th term is computed using the (n-1)st,...,(n-k)th
  -- whose values are initially computed using the expressions
  -- p1,...,pk respectively; body has #2,#3,... in place of
  -- f(k-1),f(k-2),...

  body isnt ['COND,:pcl] => false
  -- body should have a conditional expression which
  -- gives k boundary values, one general term plus possibly an
  -- "out of domain" condition
--pcl is [:.,[ ''T,:mess]] and not (CONTAINED('throwMessage,mess) or
--  CONTAINED('throwKeyedMsg,mess)) => NIL
  pcl := [x for x in pcl | not (x is [''T,:mess] and
    (CONTAINED('throwMessage,mess) or
      CONTAINED('throwKeyedMsg,mess)))]
  integer := EVALFUN $Integer
  iequalSlot:=compiledLookupCheck("=",'((Boolean) $ $),integer)
  lesspSlot:=compiledLookupCheck("<",'((Boolean) $ $),integer)
  bf := '(Boolean)
  notpSlot:= compiledLookupCheck("not",'((Boolean)(Boolean)),EVALFUN bf)
  for [p,c] in pcl repeat
    p is ['SPADCALL,sharpVar,n1,['ELT,=minivectorName,slot]]
      and EQ(iequalSlot,$minivector.slot) =>
        initList:= [[n1,:c],:initList]
        sharpList := insert(sharpVar,sharpList)
        n:=n1
    miscList:= [[p,c],:miscList]
  miscList isnt [[generalPred,generalTerm]] or sharpList isnt [sharpArg] =>
      return false
    --first general term starts at n

  --Must have at least one special value; insist that they be consecutive
  null initList => false
  specialValues:= MSORT ASSOCLEFT initList
  or/[null INTEGERP n for n in specialValues] => false
  minIndex:= "MIN"/specialValues
  not (and/[i=x for i in minIndex..(minIndex+n-1) for x in specialValues]) =>
    sayKeyedMsg("S2IX0005",
      ["append"/[['" ",sv]  for sv in specialValues]])
    return nil

  --Determine the order k of the recurrence and index n of first general term
  k:= #specialValues
  n:= k+minIndex
  --Check general predicate
  predOk :=
    generalPred is '(QUOTE T) => true
    generalPred is ['SPADCALL,m,=sharpArg,['ELT,=minivectorName,slot]]
      and EQ(lesspSlot,$minivector.slot)=> m+1
    generalPred is ['SPADCALL,['SPADCALL,=sharpArg,m,
      ['ELT,=minivectorName,slot]], ['ELT,=minivectorName,notSlot]]
        and EQ(lesspSlot,$minivector.slot)
          and EQ(notpSlot,$minivector.notSlot) => m
    generalPred is ['NOT,['SPADCALL,=sharpArg,m,['ELT,=minivectorName, =lesspSlot]]]
      and EQ(lesspSlot,$minivector.slot) => m
    return nil
  INTEGERP predOk and predOk ^= n =>
    sayKeyedMsg("S2IX0006",[n,m])
    return nil

  --Check general term for references to just the k previous values
  diffCell:=compiledLookupCheck("-",'($ $ $),integer)
  diffSlot := or/[i for i in 0.. for x in $minivector | EQ(x,diffCell)]
                or return nil
  --Check general term for references to just the k previous values
  sharpPosition := PARSE_-INTEGER SUBSTRING(sharpArg,1,nil)
  al:= mkDiffAssoc(op,generalTerm,k,sharpPosition,sharpArg,diffSlot,minivectorName)
  null al => false
  "$failed" in al => false
  body:= generalTerm
  for [a,:b] in al repeat
    body:= substitute(b,a,body)
  result:= [body,sharpArg,n-1,:NREVERSE [LASSOC(i,initList) or
      systemErrorHere('"NRTisRecurrenceRelation")
        for i in minIndex..(n-1)]]

mkDiffAssoc(op,body,k,sharpPosition,sharpArg,diffSlot,vecname) ==
  -- returns alist which should not have any entries = $failed
  -- form substitution list of the form:
  -- ( ((f (,DIFFERENCE #1 1)) . #2) ((f (,DIFFERENCE #1 2)) . #3) ...)
  --   but also checking that all difference values lie in 1..k
  atom body => nil
  body is ['COND,:pl] =>
    "union"/[mkDiffAssoc(op,c,k,sharpPosition,sharpArg,diffSlot,vecname) for [p,c] in pl]
  body is [fn,:argl] =>
    (fn = op) and argl.(sharpPosition-1) is
      ['SPADCALL,=sharpArg,n,['ELT,=vecname,=diffSlot]] =>
          NUMP n and n > 0 and n <= k =>
            [[body,:$TriangleVariableList.n]]
          ['$failed]
    "union"/[mkDiffAssoc(op,x,k,sharpPosition,sharpArg,diffSlot,vecname) for x in argl]
  systemErrorHere '"mkDiffAssoc"