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|
-- Copyright (c) 1991-2002, The Numerical ALgorithms Group Ltd.
-- All rights reserved.
-- Copyright (C) 2007-2015, 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 nruncomp
namespace BOOT
$returnNowhereFromGoGet := false
showSummary dom ==
showPredicates dom
showAttributes dom
showFrom dom
showImp dom
--=======================================================================
-- Show Where Functions in Domain are Implemented
--=======================================================================
showImp(dom,:options) ==
sayBrightly '"-------------Operation summary-----------------"
missingOnlyFlag := KAR options
domainForm := devaluate dom
[nam,:$domainArgs] := domainForm
$predicateList: local := getConstructorPredicates nam
predVector := domainPredicates dom
u := getDomainOpTable(dom,true)
--sort into 4 groups: domain exports, unexports, default exports, others
for (x := [.,.,:key]) in u repeat
key = domainForm => domexports := [x,:domexports]
integer? key => unexports := [x,:unexports]
defaultPackageForm? key => defexports := [x,:defexports]
key is 'nowhere => nowheres := [x,:nowheres]
key is 'constant => constants := [x,:constants]
others := [x,:others] --add chain domains go here
sayBrightly
nowheres => ['"Functions exported but not implemented by",
:bright form2String domainForm,'":"]
[:bright form2String domainForm,'"implements all exported operations"]
showDomainsOp1(nowheres,'nowhere)
missingOnlyFlag => 'done
--first display those exported by the domain, then add chain guys
u := [:domexports,:constants,:reverse! sortBy(function CDDR,others)]
while u repeat
[.,.,:key] := first u
sayBrightly
key is 'constant =>
["Constants implemented by",:bright form2String key,'":"]
["Functions implemented by",:bright form2String key,'":"]
u := showDomainsOp1(u,key)
u := reverse! sortBy(function CDDR,defexports)
while u repeat
[.,.,:key] := first u
defop := makeSymbol(subString((s := PNAME first key),0,maxIndex s))
domainForm := [defop,:CDDR key]
sayBrightly ["Default functions from",:bright form2String domainForm,'":"]
u := showDomainsOp1(u,key)
u := reverse! sortBy(function CDDR,unexports)
while u repeat
[.,.,:key] := first u
sayBrightly ["Not exported: "]
u := showDomainsOp1(u,key)
--=======================================================================
-- Show Information Directly From Domains
--=======================================================================
showFrom(D,:option) ==
ops := KAR option
alist := nil
domainForm := devaluate D
[nam,:.] := domainForm
$predicateList: local := getConstructorPredicates nam
for (opSig := [op,sig]) in getDomainSigs1(D,ops) repeat
u := from?(D,op,sig)
x := assoc(u,alist) => x.rest := [opSig,:rest x]
alist := [[u,opSig],:alist]
for [conform,:l] in alist repeat
sayBrightly concat('"From ",form2String conform,'":")
for [op,sig] in l repeat sayBrightly ['" ",:formatOpSignature(op,sig)]
--=======================================================================
-- Functions implementing showFrom
--=======================================================================
getDomainOps D ==
conname := insantiationCtor D
$predicateList: local := getConstructorPredicates conname
removeDuplicates listSort(function GLESSEQP,ASSOCLEFT getDomainOpTable(D,nil))
getDomainSigs(D,:option) ==
conname := instantiationCtor D
$predicateList: local := getConstructorPredicates conname
getDomainSigs1(D,first option)
getDomainSigs1(D,ops) == listSort(function GLESSEQP,u) where
u() == [x for x in getDomainOpTable(D,nil)
| null ops or symbolMember?(first x,ops)]
getDomainDocs(D,:option) ==
conname := instantiationCtor D
$predicateList: local := getConstructorPredicates conname
ops := KAR option
[[op,sig,:getInheritanceByDoc(D,op,sig)] for [op,sig] in getDomainSigs1(D,ops)]
--=======================================================================
-- Getting Inheritance Info from Documentation in Lisplib
--=======================================================================
from?(D,op,sig) == KAR KDR getInheritanceByDoc(D,op,sig)
getExtensionsOfDomain domain ==
u := getDomainExtensionsOfDomain domain
cats := getCategoriesOfDomain domain
for x in u repeat
cats := union(cats,getCategoriesOfDomain eval x)
[:u,:cats]
getDomainExtensionsOfDomain domain ==
acc := nil
d := domain
while (u := devaluateSlotDomain(5,d)) repeat
acc := [u,:acc]
d := eval u
acc
devaluateSlotDomain(u,dollar) ==
u = '$ => devaluate dollar
integer? u and vector? (y := dollar.u) => devaluate y
u is ['%eval,y] => MKQ eval y
u is ['QUOTE,y] => u
u is [op,:argl] => [op,:[devaluateSlotDomain(x,dollar) for x in argl]]
devaluate evalSlotDomain(u,dollar)
getCategoriesOfDomain domain ==
predkeyVec := first vectorRef(domain,4)
catforms := second vectorRef(domain,4)
[fn for i in 0..maxIndex predkeyVec | test] where
test() == arrayRef(predkeyVec,i) and
(x := vectorRef(catforms,i)) isnt ['DomainSubstitutionMacro,:.]
fn() ==
vector? x => devaluate x
devaluateSlotDomain(x,domain)
getInheritanceByDoc(D,op,sig,:options) ==
--gets inheritance and documentation information by looking in the LISPLIB
--for each ancestor of the domain
catList := KAR options or getExtensionsOfDomain D
getDocDomainForOpSig(op,sig,devaluate D,D) or
or/[fn for x in catList] or '(NIL NIL)
where fn() == getDocDomainForOpSig(op,sig,substDomainArgs(D,x),D)
getDocDomainForOpSig(op,sig,dollar,D) ==
(u := LASSOC(op,getConstructorDocumentationFromDB first dollar))
and (doc := or/[[d,dollar] for [s,:d] in u | compareSig(sig,s,D,dollar)])
--=======================================================================
-- Functions implementing showImp
--=======================================================================
showDomainsOp1(u,key) ==
while u and first u is [op,sig,: =key] repeat
sayBrightly ['" ",:formatOpSignature(op,sig)]
u := rest u
u
getDomainRefName(dom,nam) ==
cons? nam => [getDomainRefName(dom,x) for x in nam]
not integer? nam => nam
slot := dom.nam
vector? slot => slot.0
slot is ['%store,:.] =>
getDomainRefName(dom,getDomainSeteltForm slot)
slot
getDomainSeteltForm ['%store,.,form] ==
form is ['evalSlotDomain,u,d] => devaluateSlotDomain(u,d)
vector? form => systemError()
form
showPredicates dom ==
sayBrightly '"--------------------Predicate summary-------------------"
conname := instantiationCtor dom
predvector := domainPredicates dom
predicateList := getConstructorPredicates conname
for i in 1.. for p in predicateList repeat
prefix :=
testBitVector(predvector,i) => '"true : "
'"false: "
sayBrightly [prefix,:pred2English p]
showAttributes dom ==
sayBrightly '"--------------------Attribute summary-------------------"
conname := instantiationCtor dom
abb := getConstructorAbbreviation conname
predvector := domainPredicates dom
for [a,:p] in vectorRef(dom,2) repeat
prefix :=
testBitVector(predvector,p) => '"true : "
'"false: "
sayBrightly concat(prefix,form2String a)
showGoGet dom ==
numvec := CDDR vectorRef(dom,4)
for i in $NRTbase..maxIndex dom | (slot := vectorRef(dom,i)) is ['newGoGet,dol,index,:op] repeat
numOfArgs := arrayRef(numvec,index)
whereNumber := arrayRef(numvec,index := index + 1)
signumList :=
[formatLazyDomainForm(dom,arrayRef(numvec,index + i)) for i in 0..numOfArgs]
index := index + numOfArgs + 1
namePart :=
concat(bright "from",form2String formatLazyDomainForm(dom,whereNumber))
sayBrightly [i,'": ",:formatOpSignature(op,signumList),:namePart]
formatLazyDomain(dom,x) ==
vector? x => devaluate x
x is [dollar,slotNumber,:form] => formatLazyDomainForm(dom,form)
systemError nil
formatLazyDomainForm(dom,x) ==
x = 0 => ["$"]
integer? x => formatLazyDomain(dom,dom.x)
x isnt [.,:.] => x
x is ['%eval,y] => (y isnt [.,:.] => [y]; y)
[first x,:[formatLazyDomainForm(dom,y) for y in rest x]]
--=======================================================================
-- Display Template
--=======================================================================
dc(:r) ==
con := KAR r
options := KDR r
ok := constructorDB con or (con := abbreviation? con)
null ok =>
sayBrightly '"Format is: dc(<constructor name or abbreviation>,option)"
sayBrightly
'"options are: all (default), slots, atts, cats, data, ops, optable"
option := KAR options
option = 'all or null option => dcAll con
option = 'slots => dcSlots con
option = 'atts => dcAtts con
option = 'cats => dcCats con
option = 'data => dcData con
option = 'ops => dcOps con
option = 'size => dcSize( con,'full)
option = 'optable => dcOpTable con
dcSlots con ==
name := abbreviation? con or con
$infovec: local := getInfovec name
template := $infovec.0
for i in $AddChainIndex..maxIndex template repeat
sayBrightlyNT bright i
item := template.i
item is [n,:op] and integer? n => dcOpLatchPrint(op,n)
null item and i > 5 => sayBrightly ['"arg ",strconc('"#",toString(i - 5))]
item isnt [.,:.] => sayBrightly ['"fun ",item]
item is ['%constant,[a,.]] => sayBrightly ['"constant ",a]
sayBrightly concat('"lazy ",form2String formatSlotDomain i)
dcOpLatchPrint(op,index) ==
numvec := getCodeVector()
numOfArgs := numvec.index
whereNumber := numvec.(index := index + 1)
signumList := dcSig(numvec,index + 1,numOfArgs)
index := index + numOfArgs + 1
namePart := concat(bright "from",
dollarPercentTran form2String formatSlotDomain whereNumber)
sayBrightly ['"latch",:formatOpSignature(op,signumList),:namePart]
getInfovec name ==
u := property(name,'infovec) => u
dbLoaded? constructorDB name => nil
fullLibName := getConstructorModuleFromDB name or return nil
startTimingProcess 'load
loadLibNoUpdate(name, name, fullLibName)
property(name,'infovec)
getOpSegment index ==
numOfArgs := (vec := getCodeVector()).index
[vec.i for i in index..(index + numOfArgs + 3)]
getCodeVector() ==
proto4 := $infovec.3
u := CDDR proto4
vector? u => u --old style
rest u --new style
formatSlotDomain x ==
x = 0 => ["$"]
x = 2 => ["$$"]
integer? x =>
val := $infovec.0.x
null val => [strconc('"#",toString (x - 5))]
formatSlotDomain val
x isnt [.,:.] => x
x is ['%eval,y] => (y isnt [.,:.] => [y]; y)
[first x,:[formatSlotDomain y for y in rest x]]
--=======================================================================
-- Display OpTable
--=======================================================================
dcOpTable con ==
name := abbreviation? con or con
$infovec: local := getInfovec name
template := $infovec.0
$predvec: local := getConstructorPredicates con
opTable := $infovec.1
for i in 0..maxIndex opTable repeat
op := opTable.i
i := i + 1
startIndex := opTable.i
stopIndex :=
i + 1 > maxIndex opTable => maxIndex getCodeVector()
opTable.(i + 2)
curIndex := startIndex
while curIndex < stopIndex repeat
curIndex := dcOpPrint(op,curIndex)
dcOpPrint(op,index) ==
numvec := getCodeVector()
segment := getOpSegment index
numOfArgs := numvec.index
index := index + 1
predNumber := numvec.index
index := index + 1
signumList := dcSig(numvec,index,numOfArgs)
index := index + numOfArgs + 1
slotNumber := numvec.index
suffix :=
predNumber = 0 => nil
[:bright '"if",:pred2English $predvec.(predNumber - 1)]
kind := 'ELT
namePart := bright
slotNumber = 0 => '"subsumed by next entry"
slotNumber = 1 => '"missing"
name := $infovec.0.slotNumber
name isnt [.,:.] => name
name is ['%constant,[impl,"$"]] =>
kind := 'CONST
impl
'"looked up"
sayBrightly [:formatOpSignature(op,signumList,kind),:namePart, :suffix]
index + 1
dcSig(numvec,index,numOfArgs) ==
[formatSlotDomain numvec.(index + i) for i in 0..numOfArgs]
dcPreds con ==
name := abbreviation? con or con
$infovec: local := getInfovec name
$predvec:= getConstructorPredicates con
for i in 0..maxIndex $predvec repeat
sayBrightlyNT bright (i + 1)
sayBrightly pred2English $predvec.i
dcAtts con ==
name := abbreviation? con or con
$infovec: local := getInfovec name
$predvec:= getConstructorPredicates con
attList := $infovec.2
for [a,:predNumber] in attList for i in 0.. repeat
sayBrightlyNT bright i
suffix :=
predNumber = 0 => nil
[:bright '"if",:pred2English $predvec.(predNumber - 1)]
sayBrightly [a,:suffix]
dcCats con ==
name := abbreviation? con or con
$infovec: local := getInfovec name
u := $infovec.3
vector? CDDR u => dcCats1 con --old style slot4
$predvec:= getConstructorPredicates con
catpredvec := first u
catinfo := second u
catvec := third u
for i in 0..maxIndex catvec repeat
sayBrightlyNT bright i
form := catvec.i
predNumber := catpredvec.i
suffix :=
predNumber = 0 => nil
[:bright '"if",:pred2English $predvec.(predNumber - 1)]
extra :=
null (info := catinfo.i) => nil
ident? info => bright '"package"
bright '"instantiated"
sayBrightly concat(form2String formatSlotDomain form,suffix,extra)
dcCats1 con ==
$predvec:= getConstructorPredicates con
u := $infovec.3
catvec := second u
catinfo := first u
for i in 0..maxIndex catvec repeat
sayBrightlyNT bright i
[form,:predNumber] := catvec.i
suffix :=
predNumber = 0 => nil
[:bright '"if",:pred2English $predvec.(predNumber - 1)]
extra :=
null (info := catinfo.i) => nil
ident? info => bright '"package"
bright '"instantiated"
sayBrightly concat(form2String formatSlotDomain form,suffix,extra)
dcData con ==
name := abbreviation? con or con
$infovec: local := getInfovec name
sayBrightly '"Operation data from slot 1"
PRINT_-FULL $infovec.1
vec := getCodeVector()
vec := (cons? vec => rest vec; vec)
sayBrightly ['"Information vector has ",# vec,'" entries"]
dcData1 vec
dcData1 vec ==
n := maxIndex vec
tens := n quo 10
for i in 0..tens repeat
start := 10*i
sayBrightlyNT rightJustifyString(toString start,6)
sayBrightlyNT '" |"
for j in start..MIN(start + 9,n) repeat
sayBrightlyNT rightJustifyString(STRINGIMAGE vec.j,6)
sayNewLine()
vec
dcSize(:options) ==
con := KAR options
options := rest options
null con => dcSizeAll()
quiet := 'quiet in options
full := 'full in options
name := abbreviation? con or con
infovec := getInfovec name
template := infovec.0
maxindex := maxIndex template
latch := 0 --# of go get slots
lazy := 0 --# of lazy domain slots
fun := 0 --# of function slots
lazyNodes := 0 --# of nodes needed for lazy domain slots
for i in $AddChainIndex..maxindex repeat
(item := template.i) isnt [.,:.] => fun := fun + 1
integer? first item => latch := latch + 1
'T =>
lazy := lazy + 1
lazyNodes := lazyNodes + numberOfNodes item
tSize := sum(vectorSize(1 + maxindex),nodeSize(lazyNodes + latch))
-- functions are free in the template vector
oSize := vectorSize(# infovec.1)
aSize := numberOfNodes infovec.2
slot4 := infovec.3
catvec :=
vector? CDDR slot4 => second slot4
third slot4
n := maxIndex catvec
cSize := sum(nodeSize(2),vectorSize(# first slot4),vectorSize(n + 1),
nodeSize(+/[numberOfNodes catvec.i for i in 0..n]))
codeVector :=
vector? CDDR slot4 => CDDR slot4
CDDDR slot4
vSize := halfWordSize(# codeVector)
itotal := sum(tSize,oSize,aSize,cSize,vSize)
if null quiet then sayBrightly ['"infovec total = ",itotal,'" BYTES"]
if null quiet then
lookupFun := getLookupFun infovec
suffix := (lookupFun = 'lookupIncomplete => '"incomplete"; '"complete")
sayBrightly ['"template = ",tSize]
sayBrightly ['"operations = ",oSize,'" (",suffix,'")"]
sayBrightly ['"attributes = ",aSize]
sayBrightly ['"categories = ",cSize]
sayBrightly ['"data vector = ",vSize]
if null quiet then
sayBrightly ['"number of function slots (one extra node) = ",fun]
sayBrightly ['"number of latch slots (2 extra nodes) = ",latch]
sayBrightly ['"number of lazy slots (no extra nodes) = ",lazy]
sayBrightly ['"size of domain vectors = ",1 + maxindex,'" slots"]
vtotal := itotal + nodeSize(fun) --fun slot is ($ . function)
vtotal := vtotal + nodeSize(2 * latch) --latch slot is (newGoGet $ . code)
--NOTE: lazy slots require no cost --lazy slot is lazyDomainForm
if null quiet then sayBrightly ['"domain size = ",vtotal,'" BYTES"]
etotal := nodeSize(fun + 2 * latch) + vectorSize(1 + maxindex)
if null quiet then sayBrightly ['"cost per instantiation = ",etotal,'" BYTES"]
vtotal
dcSizeAll() ==
count := 0
total := 0
for x in allConstructors() | cons? property(x,'infovec) repeat
count := count + 1
s := dcSize(x,'quiet)
sayBrightly [s,'" : ",x]
total := total + s
sayBrightly '"------------total-------------"
sayBrightly [count," constructors; ",total," BYTES"]
sum(:l) == +/l
nodeSize(n) == 12 * n
vectorSize(n) == 4 * (1 + n)
halfWordSize(n) ==
n < 128 => n quo 2
n < 256 => n
2 * n
numberOfNodes(x) ==
x isnt [.,:.] => 0
1 + numberOfNodes first x + numberOfNodes rest x
template con ==
con := abbreviation? con or con
ppTemplate getInfovec(con).0
ppTemplate vec ==
for i in 0..maxIndex vec repeat
sayBrightlyNT bright i
pp vec.i
infovec con ==
con := abbreviation? con or con
u := getInfovec con
sayBrightly '"---------------slot 0 is template-------------------"
ppTemplate u.0
sayBrightly '"---------------slot 1 is op table-------------------"
PRINT_-FULL u.1
sayBrightly '"---------------slot 2 is attribute list-------------"
PRINT_-FULL u.2
sayBrightly '"---------------slot 3.0 is catpredvec---------------"
PRINT_-FULL u.3.0
sayBrightly '"---------------slot 3.1 is catinfovec---------------"
PRINT_-FULL u.3.1
sayBrightly '"---------------slot 3.2 is catvec-------------------"
PRINT_-FULL u.3.2
sayBrightly '"---------------tail of slot 3 is datavector---------"
dcData1 CDDDR u.3
'done
dcAll con ==
con := abbreviation? con or con
$infovec : local := getInfovec con
complete? :=
#$infovec = 4 => false
$infovec.4 = 'lookupComplete
sayBrightly '"----------------Template-----------------"
dcSlots con
sayBrightly
complete? => '"----------Complete Ops----------------"
'"----------Incomplete Ops---------------"
dcOpTable con
sayBrightly '"----------------Atts-----------------"
dcAtts con
sayBrightly '"----------------Preds-----------------"
dcPreds con
sayBrightly '"----------------Cats-----------------"
dcCats con
sayBrightly '"----------------Data------------------"
dcData con
sayBrightly '"----------------Size------------------"
dcSize(con,'full)
'done
dcOps conname ==
for [op,:u] in reverse getConstructorOperationsFromDB conname repeat
for [sig,slot,pred,key,:.] in u repeat
suffix :=
pred isnt [.,:.] => nil
concat('" if ",pred2English pred)
key is 'Subsumed =>
sayBrightly [:formatOpSignature(op,sig),'" subsumed by ",:formatOpSignature(op,slot),:suffix]
sayBrightly [:formatOpSignature(op,sig,key),:suffix]
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