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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"
getOperationAlistFromLisplib x ==
-- used to be in clammed.boot. Moved on 1/24/94
--+
-- newType? x => GETDATABASE(x, 'OPERATIONALIST)
NRTgetOperationAlistFromLisplib x
NRTgetOperationAlistFromLisplib x ==
u := GETDATABASE(x, 'OPERATIONALIST)
-- u := removeZeroOneDestructively u
null u => u -- this can happen for Object
CAAR u = '_$unique => rest u
f:= addConsDB '(NIL T ELT)
for [op,:sigList] in u repeat
for items in tails sigList repeat
[sig,:r] := first items
if r is [.,:s] then
if s is [.,:t] then
if t is [.] then nil
else RPLACD(s,QCDDR f)
else RPLACD(r,QCDR f)
else RPLACD(first items,f)
RPLACA(items,addConsDB CAR items)
u and markUnique u
markUnique x ==
u := first x
RPLACA(x,'(_$unique))
RPLACD(x,[u,:rest x])
rest x
--=======================================================================
-- Instantiation/Run-Time Operations
--=======================================================================
stuffSlots(dollar,template) ==
_$: fluid := dollar
dollarTail := [dollar]
for i in 5..MAXINDEX template | item := template.i repeat
dollar.i :=
atom item => [SYMBOL_-FUNCTION item,:dollar]
item is ['QUOTE,x] =>
x is [.,.,:n] and FIXP n => ['goGet,item,:dollarTail]
['SETELT,dollar,i,['evalSlotDomain,item,dollar]]
item is ['CONS,:.] =>
item is [.,'IDENTITY,['FUNCALL,a,b]] =>
b = '$ => ['makeSpadConstant,eval a,dollar,i]
sayBrightlyNT '"Unexpected constant environment!!"
pp devaluate b
nil
sayBrightlyNT '"Unexpected constant format!!"
pp devaluate item
nil
sayBrightlyNT '"Unidentified stuff:"
pp item
--------------------> NEW DEFINITION (see interop.boot.pamphlet)
evalSlotDomain(u,dollar) ==
$returnNowhereFromGoGet: local := false
$ : fluid := dollar
$lookupDefaults : local := nil -- new world
u = '$ => dollar
u = "$$" => dollar
FIXP u =>
VECP (y := dollar.u) => y
y is ['SETELT,:.] => eval y--lazy domains need to marked; this is dangerous?
y is [v,:.] =>
VECP v => lazyDomainSet(y,dollar,u) --old style has [$,code,:lazyt]
constructor? v or MEMQ(v,'(Record Union Mapping)) =>
lazyDomainSet(y,dollar,u) --new style has lazyt
y
y
u is ['NRTEVAL,y] => eval y
u is ['QUOTE,y] => y
u is ['Record,:argl] =>
FUNCALL('Record0,[[tag,:evalSlotDomain(dom,dollar)]
for [.,tag,dom] in argl])
u is ['Union,:argl] and first argl is ['_:,.,.] =>
APPLY('Union,[['_:,tag,evalSlotDomain(dom,dollar)]
for [.,tag,dom] in argl])
u is [op,:argl] => APPLY(op,[evalSlotDomain(x,dollar) for x in argl])
systemErrorHere '"evalSlotDomain"
--=======================================================================
-- Loadtime Operations
--=======================================================================
setLoadTime alist ==
for [nam,:val] in alist repeat SET(nam,eval val)
setLoadTimeQ alist ==
for [nam,:val] in alist repeat SET(nam,val)
makeTemplate vec ==
--called at instantiation time by setLoadTime
--the form ['makeTemplate,MKQ $template] is recorded by compDefineFunctor1
-- $template is set below in NRTdescendCodeTran and NRTaddDeltaOpt
newVec := GETREFV SIZE vec
for index in 0..MAXINDEX vec repeat
item := vec.index
null item => nil
item is ['local,:.] => nil --this information used to for display of domains
newVec.index :=
atom item => item
null atom first item =>
[sig,dcIndex,op,:flag] := item
code := 4*index
if dcIndex > 0 then
code := code + 2 --means "bind"
else dcIndex := -dcIndex
if flag = 'CONST then code := code + 1 --means "constant"
sourceIndex := 8192*dcIndex + code
uniqueSig:= addConsDB sig
MKQ [op,uniqueSig,:sourceIndex]
item is ['CONS,:.] => item --constant case
MKQ item
newVec
makeOpDirect u ==
[nam,[addForm,:opList]] := u
opList = 'derived => 'derived
[[op,:[fn y for y in items]] for [op,:items] in opList] where fn y ==
[sig,:r] := y
uniqueSig := addConsDB sig
predCode := 0
isConstant := false
r is [subSig,pred,'Subsumed] => [uniqueSig,'subsumed,addConsDB subSig]
if r is [n,:s] then
slot :=
n is [p,:.] => p --the CDR is linenumber of function definition
n
if s is [pred,:t] then
predCode := (pred = 'T => 0; mkUniquePred pred)
if t is [='CONST,:.] then isConstant := true
index:= 8192*predCode
if NUMBERP slot and slot ^= 0 then index := index + 2*slot
if isConstant then index := index + 1
[uniqueSig,:index]
--=======================================================================
-- Creation of System Sig/Pred Vectors & Hash Tables
--=======================================================================
mkUniquePred pred == putPredHash addConsDB pred
putPredHash pred == --pred MUST have had addConsDB applied to it
if pred is [op,:u] and MEMQ(op,'(AND OR NOT)) then
for x in u repeat putPredHash x
k := HGET($predHash,pred) => k
HPUT($predHash,pred,$predVectorFrontier)
if $predVectorFrontier > MAXINDEX $predVector
then $predVector := extendVectorSize $predVector
$predVector.$predVectorFrontier := pred
$predVectorFrontier := $predVectorFrontier + 1
$predVectorFrontier - 1
extendVectorSize v ==
n:= MAXINDEX v
m:= (7*n)/5 -- make 40% longer
newVec := GETREFV m
for i in 0..n repeat newVec.i := v.i
newVec
mkSigPredVectors() ==
$predHash:= MAKE_-HASHTABLE 'UEQUAL
$consDB:= MAKE_-HASHTABLE 'UEQUAL
$predVectorFrontier:= 1 --slot 0 in vector will be vacant
$predVector:= GETREFV 100
for nam in allConstructors() |
null (GETDATABASE(nam, 'CONSTRUCTORKIND) = 'package) repeat
for [op,:sigList] in GETDATABASE(nam,'OPERATIONALIST) repeat
for [sig,:r] in sigList repeat
addConsDB sig
r is [.,pred,:.] => putPredHash addConsDB pred
'done
list2LongerVec(u,n) ==
vec := GETREFV ((7*n)/5) -- make 40% longer
for i in 0.. for x in u repeat vec.i := x
vec
squeezeConsDB u ==
fn u where fn u ==
VECP u => for i in 0..MAXINDEX u repeat fn u.i
PAIRP u =>
EQ(x := QCAR u,'QUOTE) => RPLAC(CADR u,addConsDB CADR u)
squeezeConsDB x
squeezeConsDB QCDR u
nil
u
mapConsDB x == [addConsDB y for y in x]
addConsDB x ==
min x where
min x ==
y:=HGET($consDB,x)
y => y
PAIRP x =>
for z in tails x repeat
u:=min CAR z
if not EQ(u,CAR z) then RPLACA(z,u)
HashCheck x
REFVECP x =>
for i in 0..MAXINDEX x repeat
x.i:=min (x.i)
HashCheck x
STRINGP x => HashCheck x
x
HashCheck x ==
y:=HGET($consDB,x)
y => y
HPUT($consDB,x,x)
x
x
--=======================================================================
-- Functions Creating Lisplib Information
--=======================================================================
NRTdescendCodeTran(u,condList) ==
--NRTbuildFunctor calls to fill $template slots with names of compiled functions
null u => nil
u is ['LIST] => nil
u is [op,.,i,a] and MEMQ(op,'(SETELT QSETREFV)) =>
null condList and a is ['CONS,fn,:.] =>
RPLACA(u,'LIST)
RPLACD(u,nil)
$template.i :=
fn = 'IDENTITY => a
fn is ['dispatchFunction,fn'] => fn'
fn
nil --code for this will be generated by the instantiator
u is ['COND,:c] =>
for [pred,:y] in c|y repeat NRTdescendCodeTran(first y,[pred,:condList])
u is ['PROGN,:c] => for x in c repeat NRTdescendCodeTran(x,condList)
nil
--=======================================================================
-- Miscellaneous Functions
--=======================================================================
NRTaddInner x ==
--called by genDeltaEntry and others that affect $NRTdeltaList
PROGN
atom x => nil
x is ['Record,:l] =>
for [.,.,y] in l repeat NRTinnerGetLocalIndex y
first x in '(Union Mapping _[_|_|_]) =>
for y in rest x repeat
y is [":",.,z] => NRTinnerGetLocalIndex z
NRTinnerGetLocalIndex y
x is ['SubDomain,y,:.] => NRTinnerGetLocalIndex y
getConstructorSignature x is [.,:ml] =>
for y in rest x for m in ml | not (y = '$) repeat
isCategoryForm(m,$CategoryFrame) => NRTinnerGetLocalIndex y
keyedSystemError("S2NR0003",[x])
x
-- NRTaddInner should call following function instead of NRTgetLocalIndex
-- This would prevent putting spurious items in $NRTdeltaList
NRTinnerGetLocalIndex x ==
atom x => x
-- following test should skip Unions, Records, Mapping
MEMQ(opOf x,'(Union Record Mapping _[_|_|_])) => NRTgetLocalIndex x
constructor?(x) => NRTgetLocalIndex x
NRTaddInner x
assignSlotToPred cond ==
--called by ProcessCond
cond is ['AND,:u] => ['AND,:[assignSlotToPred x for x in u]]
cond is ['OR,:u] => ['OR,:[assignSlotToPred x for x in u]]
cond is ['NOT,u] => ['NOT,assignSlotToPred u]
thisNeedsTOBeFilledIn()
measure() ==
pp MEASURE (f := SparseUnivariatePolynomial_;)
pp MEASURE (o := SparseUnivariatePolynomial_;opDirect)
pp MEASURE (t := SparseUnivariatePolynomial_;template)
pp measureCommon [o,t]
MEASURE [f,o,t]
measureCommon u ==
--measures bytes which ARE on $consDB
$table: local := MAKE_-HASHTABLE 'UEQUAL
fn(u,0) where fn(u,n) == n +
VECP u => +/[fn(u.i,0) for i in 0..MAXINDEX u]
HASH-TABLE-P u =>
+/[fn(key,0) + fn(HGET(u,key),0) for key in HKEYS u]
PAIRP u =>
HGET($table,u) => 0
m := fn(first u,0) + fn(rest u,0)
HGET($consDB,u) => 8 + m
HPUT($table,u,'T)
m
0
makeSpadConstant [fn,dollar,slot] ==
val := FUNCALL(fn,dollar)
u:= dollar.slot
RPLACA(u,function IDENTITY)
RPLACD(u,val)
val
|