-- Copyright (c) 1991-2002, The Numerical Algorithms Group Ltd. -- All rights reserved. -- Copyright (C) 2007-2009, 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. -- This file contains the constructors for the domains that cannot -- be written in ScratchpadII yet. They are not cached because they -- are very cheap to instantiate. -- SMW and SCM July 86 -- These have been substantially modified to work with the new -- runtime system. -- GDR, March 2008. import sys_-macros namespace BOOT $noCategoryDomains == '(Mode SubDomain) $nonLisplibDomains == APPEND($DomainNames,$noCategoryDomains) ++ Category ancestors for Record, Union, Mapping, and Enumeration domains. $commonCategoryAncestors == ['(SetCategory), '(BasicType), '(CoercibleTo (OutputForm))] ++ Default category packages for Record, Union, Mapping and ++ Enumeration domains. $commonCategoryDefaults == ['(SetCategory_& $), '(BasicType_& $), NIL] ++ The slot number in a domain shell that holds the first parameter to ++ a domain constructor. $FirstParamSlot == 6 --% Record -- Want to eventually have the elts and setelts. -- Record is a macro in BUILDOM LISP. It takes out the colons. isRecord type == type is ["Record",:.] ++ returns the code for the `n'th item recorded in a domain shell, ++ according to the old runtime system. Note that the old runtime ++ scheme is used only for the handful of constructors created ++ in this file. oldSlotCode: %Short -> %Short oldSlotCode n == 2 * ($FirstParamSlot + n) Record(:args) == srcArgs := [[":", second a, devaluate third a] for a in args] -- if we already have this instantiation in store, just hand it back. t := lassocShiftWithFunction(srcArgs, HGET($ConstructorCache,"Record"), "domainEqualList") => CDRwithIncrement t nargs := #args dom := newShell(nargs + 10) -- JHD added an extra slot to cache EQUAL methods dom.0 := ["Record", :srcArgs] dom.1 := ["lookupInTable",dom, [["=",[[$Boolean,"$","$"],:oldSlotCode nargs]], ["~=",[[$Boolean,"$","$"],:0]], ["coerce",[[$OutputForm,"$"],:oldSlotCode(nargs + 1)]]]] dom.2 := NIL dom.3 := ["RecordCategory",:QCDR dom.0] dom.4 := [$commonCategoryDefaults, $commonCategoryAncestors] dom.5 := nil for i in $FirstParamSlot.. for a in args repeat dom.i := third a dom.($FirstParamSlot + nargs) := [function RecordEqual, :dom] dom.($FirstParamSlot + nargs + 1) := [function RecordPrint, :dom] dom.($FirstParamSlot + nargs + 2) := [function Undef, :dom] -- following is cache for equality functions dom.($FirstParamSlot + nargs + 3) := if nargs <= 2 then [NIL,:NIL] else newShell nargs -- remember this instantiation for future re-use. haddProp($ConstructorCache,"Record",srcArgs,[1,:dom]) dom RecordEqual(x,y,dom) == nargs := #rest(dom.0) CONSP x => b:= SPADCALL(first x, first y, first(dom.(nargs + 9)) or first RPLACA(dom.(nargs + 9),findEqualFun(dom.$FirstParamSlot))) nargs = 1 => b b and SPADCALL(rest x, rest y, rest (dom.(nargs + 9)) or rest RPLACD(dom.(nargs + 9),findEqualFun(dom.($FirstParamSlot+1)))) VECP x => equalfuns := dom.(nargs + 9) and/[SPADCALL(x.i,y.i,equalfuns.i or _ (equalfuns.i:=findEqualFun(dom.($FirstParamSlot + i))))_ for i in 0..(nargs - 1)] error '"Bug: Silly record representation" RecordPrint(x,dom) == coerceRe2E(x,dom.3) coerceVal2E(x,m) == objValUnwrap coerceByFunction(objNewWrap(x,m),$OutputForm) findEqualFun(dom) == compiledLookup("=",[$Boolean,"$","$"],dom) coerceRe2E(x,source) == n := # rest source n = 1 => ["construct", ["=", source.1.1, coerceVal2E(first x,source.1.2)] ] n = 2 => ["construct", ["=", source.1.1, coerceVal2E(first x,source.1.2)], _ ["=", source.2.1, coerceVal2E(rest x,source.2.2)] ] VECP x => ['construct, :[["=",tag,coerceVal2E(x.i, fdom)] for i in 0.. for [.,tag,fdom] in rest source]] error '"Bug: ridiculous record representation" --% Union -- Want to eventually have the coerce to and from branch types. Union(:args) == srcArgs := [(a is [":",tag,d] => [":",tag,devaluate d]; devaluate a) for a in args] t := lassocShiftWithFunction(srcArgs,HGET($ConstructorCache,"Union"), "domainEqualList") => CDRwithIncrement t nargs := #args dom := newShell (nargs + 9) dom.0 := ["Union", :srcArgs] dom.1 := ["lookupInTable",dom, [["=",[[$Boolean,"$","$"],:oldSlotCode nargs]], ["~=",[[$Boolean,"$","$"],:0]], ["coerce",[[$OutputForm,"$"],:oldSlotCode (nargs+1)]]]] dom.2 := NIL dom.3 := ["UnionCategory",:QCDR dom.0] dom.4 := [$commonCategoryDefaults, $commonCategoryAncestors] dom.5 := nil for i in $FirstParamSlot.. for a in args repeat dom.i := a dom.($FirstParamSlot + nargs) := [function UnionEqual, :dom] dom.($FirstParamSlot + nargs + 1) := [function UnionPrint, :dom] dom.($FirstParamSlot + nargs + 2) := [function Undef, :dom] haddProp($ConstructorCache,"Union",srcArgs,[1,:dom]) dom UnionEqual(x, y, dom) == ["Union",:branches] := dom.0 predlist := mkPredList branches same := false for b in stripUnionTags branches for p in predlist while not same repeat typeFun := COERCE(["LAMBDA", '(_#1), p],"FUNCTION") FUNCALL(typeFun,x) and FUNCALL(typeFun,y) => STRINGP b => same := (x = y) if p is ["EQCAR", :.] then (x := rest x; y := rest y) same := SPADCALL(x, y, findEqualFun(evalDomain b)) same UnionPrint(x, dom) == coerceUn2E(x, dom.0) coerceUn2E(x,source) == ["Union",:branches] := source predlist := mkPredList branches byGeorge := byJane := GENSYM() for b in stripUnionTags branches for p in predlist repeat typeFun := COERCE(["LAMBDA", '(_#1), p],"FUNCTION") if FUNCALL(typeFun,x) then return if p is ["EQCAR", :.] then x := rest x -- STRINGP b => return x -- to catch "failed" etc. STRINGP b => byGeorge := x -- to catch "failed" etc. byGeorge := coerceVal2E(x,b) byGeorge = byJane => error '"Union bug: Cannot find appropriate branch for coerce to E" byGeorge --% Mapping -- Want to eventually have elt: ($, args) -> target Mapping(:args) == srcArgs := [devaluate a for a in args] t := lassocShiftWithFunction(srcArgs,HGET($ConstructorCache,"Mapping"), "domainEqualList") => CDRwithIncrement t nargs := #args dom := newShell(nargs + 9) dom.0 := ["Mapping", :srcArgs] dom.1 := ["lookupInTable",dom, [["=",[[$Boolean,"$","$"],:oldSlotCode nargs]], ["~=",[[$Boolean,"$","$"],:0]], ["coerce",[[$OutputForm,"$"],:oldSlotCode(nargs + 1)]]]] dom.2 := NIL dom.3 := '(SetCategory) dom.4 := [$commonCategoryDefaults, $commonCategoryAncestors] dom.5 := nil for i in $FirstParamSlot.. for a in args repeat dom.i := a dom.($FirstParamSlot + nargs) := [function MappingEqual, :dom] dom.($FirstParamSlot + nargs + 1) := [function MappingPrint, :dom] dom.($FirstParamSlot + nargs + 2) := [function Undef, :dom] haddProp($ConstructorCache,"Mapping",srcArgs,[1,:dom]) dom MappingEqual(x, y, dom) == EQ(x,y) MappingPrint(x, dom) == coerceMap2E(x) coerceMap2E(x) == -- nrlib domain ARRAYP rest x => ["theMap", BPINAME first x, if $testingSystem then 0 else REMAINDER(HASHEQ rest x, 1000)] -- aldor ["theMap", BPINAME first x ] --% Enumeration Enumeration(:"args") == t := lassocShiftWithFunction(args,HGET($ConstructorCache,"Enumeration"), "domainEqualList") => CDRwithIncrement t nargs := #args dom := newShell(nargs + 9) -- JHD added an extra slot to cache EQUAL methods dom.0 := ["Enumeration", :args] dom.1 := ["lookupInTable",dom, [["=",[[$Boolean,"$","$"],:oldSlotCode nargs]], ["~=",[[$Boolean,"$","$"],:0]], ["coerce",[[$OutputForm,"$"],:oldSlotCode(nargs+1)], [["$", $Symbol], :oldSlotCode(nargs+2)]] ]] dom.2 := NIL dom.3 := ["EnumerationCategory",:QCDR dom.0] dom.4 := [$commonCategoryDefaults, $commonCategoryAncestors] dom.5 := nil for i in $FirstParamSlot.. for a in args repeat dom.i := a dom.($FirstParamSlot + nargs) := [function EnumEqual, :dom] dom.($FirstParamSlot + nargs + 1) := [function EnumPrint, :dom] dom.($FirstParamSlot + nargs + 2) := [function createEnum, :dom] haddProp($ConstructorCache,"Enumeration",args,[1,:dom]) dom EnumEqual(e1,e2,dom) == e1=e2 EnumPrint(enum, dom) == (rest(dom.0)).enum createEnum(sym, dom) == args := rest(dom.0) val := -1 for v in args for i in 0.. repeat sym=v => return(val:=i) val<0 => userError ['"Cannot coerce",sym,'"to",["Enumeration",:args]] val --% INSTANTIATORS RecordCategory(:"x") == constructorCategory ["Record",:x] EnumerationCategory(:"x") == constructorCategory ["Enumeration",:x] UnionCategory(:"x") == constructorCategory ["Union",:x] constructorCategory (title is [op,:.]) == constructorFunction:= GETL(op,"makeFunctionList") or systemErrorHere ['"constructorCategory",title] [funlist,.]:= FUNCALL(constructorFunction,"$",title,$CategoryFrame) oplist:= [[[a,b],true,c] for [a,b,c] in funlist] cat:= JoinInner([eval ["SetCategory"],mkCategory("domain",oplist,nil,nil,nil)], $EmptyEnvironment) cat.(0):= title cat --mkMappingFunList(nam,mapForm,e) == [[],e] mkMappingFunList(nam,mapForm,e) == nargs := #rest mapForm dc := GENSYM() sigFunAlist:= [["=",[$Boolean,nam ,nam], ["ELT",dc,$FirstParamSlot + nargs]], ["~=",[$Boolean,nam,nam],["ELT",dc,0]], ["coerce",[$OutputForm,nam], ["ELT",dc,$FirstParamSlot + nargs + 1]]] [substitute(nam,dc,substituteDollarIfRepHack sigFunAlist),e] mkRecordFunList(nam,["Record",:Alist],e) == len:= #Alist dc := GENSYM() sigFunAlist:= [["construct",[nam,:[A for [.,a,A] in Alist]],"mkRecord"], ["=",[$Boolean,nam ,nam],["ELT",dc,$FirstParamSlot + len]], ["~=",[$Boolean,nam,nam],["ELT",dc,0]], ["coerce",[$OutputForm,nam],["ELT",dc,$FirstParamSlot+len+1]],: [["elt",[A,nam,PNAME a],["XLAM",["$1","$2"],["RECORDELT","$1",i,len]]] for i in 0.. for [.,a,A] in Alist],: [["setelt",[A,nam,PNAME a,A],["XLAM",["$1","$2","$3"], ["SETRECORDELT","$1",i, len,"$3"]]] for i in 0.. for [.,a,A] in Alist],: [["copy",[nam,nam],["XLAM",["$1"],["RECORDCOPY", "$1",len]]]]] [substitute(nam,dc,substituteDollarIfRepHack sigFunAlist),e] mkNewUnionFunList(name,form is ["Union",:listOfEntries],e) == nargs := #listOfEntries dc := name m := dollarIfRepHack name --2. create coercions from subtypes to subUnion cList:= [["=",[$Boolean,name ,name],["ELT",dc,$FirstParamSlot+nargs]], ["~=",[$Boolean,name,name],["ELT",dc,0]], ["coerce",[$OutputForm,name],["ELT",dc,$FirstParamSlot+nargs+1]],: ("append"/ [[["construct",[name,type],["XLAM",["#1"],["CONS",i,"#1"]]], ["elt",[type,name,tag],cdownFun], ["case",[$Boolean,name,tag], ["XLAM",["#1"],["QEQCAR","#1",i]]]] for [.,tag,type] in listOfEntries for i in 0..])] where cdownFun() == gg:=GENSYM() $InteractiveMode => ["XLAM",["#1"],["PROG1",["QCDR","#1"], ["check-union",["QEQCAR","#1",i],type,"#1"]]] ["XLAM",["#1"],["PROG2",["%LET",gg,"#1"],["QCDR",gg], ["check-union",["QEQCAR",gg,i],type,gg]]] [cList,e] mkEnumerationFunList(nam,["Enumeration",:SL],e) == len:= #SL dc := nam cList := [nil, ["=",[$Boolean,nam ,nam],["ELT",dc,$FirstParamSlot+len]], ["~=",[$Boolean,nam ,nam],["ELT",dc,0]], ["coerce",[nam, ["Symbol"]], ["ELT", dc,$FirstParamSlot+len+1]], ["coerce",[["OutputForm"],nam],["ELT",dc,$FirstParamSlot+len+2]]] [substitute(nam, dc, cList),e] mkUnionFunList(op,form is ["Union",:listOfEntries],e) == first listOfEntries is [":",.,.] => mkNewUnionFunList(op,form,e) nargs := #listOfEntries --1. create representations of subtypes predList:= mkPredList listOfEntries g:=GENSYM() --2. create coercions from subtypes to subUnion cList:= [["=",[$Boolean,g ,g],["ELT",op,$FirstParamSlot + nargs]], ["~=",[$Boolean,g,g],["ELT",op,0]], ["coerce",[$OutputForm,g],["ELT",op,$FirstParamSlot+nargs+1]],: ("append"/ [[["autoCoerce",[g,t],upFun], ["coerce",[t,g],cdownFun], ["autoCoerce",[t,g],downFun], --this should be removed eventually ["case",[$Boolean,g,t],typeFun]] for p in predList for t in listOfEntries])] where upFun() == p is ["EQCAR",x,n] => ["XLAM",["#1"],["CONS",n,"#1"]] ["XLAM",["#1"],"#1"] cdownFun() == gg:=GENSYM() if p is ["EQCAR",x,n] then ref:=["QCDR",gg] q:= ["QEQCAR", gg, n] else ref:=gg q:= substitute(gg,"#1",p) ["XLAM",["#1"],["PROG2",["%LET",gg,"#1"],ref, ["check-union",q,t,gg]]] downFun() == p is ["EQCAR",x,.] => ["XLAM",["#1"],["QCDR","#1"]] ["XLAM",["#1"],"#1"] typeFun() == p is ["EQCAR",x,n] => ["XLAM",["#1"],["QEQCAR",x,n]] ["XLAM",["#1"],p] cList:= substitute(dollarIfRepHack op,g,cList) [cList,e] --% for x in '((Record mkRecordFunList) (Union mkUnionFunList) (Mapping mkMappingFunList) (Enumeration mkEnumerationFunList)) repeat MAKEPROP(first x, "makeFunctionList", second x)