-- Copyright (c) 1991-2002, The Numerical Algorithms Group Ltd. -- All rights reserved. -- Copyright (C) 2007-2010, 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 ggreater import macros import sys_-utility namespace BOOT module g_-util where isAtomicForm: %Form -> %Boolean getTypeOfSyntax: %Form -> %Mode pairList: (%List,%List) -> %List mkList: %List -> %List isSubDomain: (%Mode,%Mode) -> %Form expandToVMForm: %Thing -> %Thing --% --% Opcode expansion to VM codes. --% --% --% Iteration control structures --% --% Code generation for an iterator produces a sequence of --% length 5, whose components have the following meanings: --% 0. list of loop-wide variables and their initializers --% 1. list of body-wide variables and their initializers --% 2. update code for next iteration --% 3. predicate guarding loop body execution --% 4. loop termination predicate ++ Generate code that sequentially visits each component of a list. expandIN(x,l) == g := gensym() -- rest of the list yet to be visited [[[g,middleEndExpand l]], [[x,["CAR",g]]],[["SETQ",g,["CDR",g]]], nil,[["ATOM",g]]] expandON(x,l) == [[[x,middleEndExpand l]],nil,[["SETQ",x,["CDR",x]]],nil,[["ATOM",x]]] ++ Generate code that traverses an interval with lower bound 'lo', ++ arithmetic progression `step, and possible upper bound `final'. expandSTEP(id,lo,step,final)== lo := middleEndExpand lo step := middleEndExpand step final := middleEndExpand final loopvar := [[id,lo]] inc := isAtomicForm step => step g1 := gensym() loopvar := [:loopvar,[g1,step]] g1 final := atom final => final final is [hi] and isAtomicForm hi => hi g2 := gensym() loopvar := [:loopvar,[g2,:final]] g2 ex := final = nil => nil integer? inc => pred := MINUSP inc => "<" ">" [[pred,id,final]] [['COND,[['MINUSP,inc], ["<",id,final]],['T,[">",id,final]]]] suc := [["SETQ",id,["+",id,inc]]] [loopvar,nil,suc,nil,ex] ++ Generate code for iterators that filter out execution state ++ not satisfying predicate `p'. expandSUCHTHAT p == [nil,nil,nil,[middleEndExpand p],nil] ++ Generate code for iterators that stop loop iteration when the ++ state fails predicate `p'. expandWHILE p == [nil,nil,nil,nil,[["NOT",middleEndExpand p]]] expandUNTIL p == g := gensym() [[[g,false]],nil,[["SETQ",g,middleEndExpand p]],nil,[g]] expandInit(var,val) == [[[var,middleEndExpand val]],nil,nil,nil,nil] expandIterators iters == [toLisp it or leave "failed" for it in iters] where toLisp it == it is ["STEP",var,lo,inc,:hi] => expandSTEP(var,lo,inc,hi) it is ["IN",var,seq] => expandIN(var,seq) it is ["ON",var,seq] => expandON(var,seq) it is ["WHILE",pred] => expandWHILE pred it is [op,pred] and op in '(SUCHTHAT _|) => expandSUCHTHAT pred it is ["UNTIL",pred] => expandUNTIL pred it is ["%init",var,val] => expandInit(var,val) nil expandLoop(iters,body,ret) == itersCode := expandIterators iters itersCode = "failed" => systemErrorHere ["expandLoop",iters] body := middleEndExpand body itersCode := "coagulate"/itersCode where coagulate(it1,it2) == [append(it1.k,it2.k) for k in 0..4] [loopInits,bodyInits,cont,filters,exits] := itersCode -- Guard the execution of the body by the filters. if filters ~= nil then body := mkpf([:filters,body],"AND") -- If there is any body-wide initialization, now is the time. if bodyInits ~= nil then body := ["LET",bodyInits,body] exits := ["COND", [mkpf(exits,"OR"),["RETURN",ret]], [true,body]] body := ["LOOP",exits,:cont] -- Finally, set up loop-wide initializations. loopInits = nil => body ["LET",loopInits,body] ++ Generate code for list comprehension. expandCollect ["%collect",:iters,body] == val := gensym() -- result of the list comprehension -- Transform the body to build the list as we go. body := ["SETQ",val,["CONS",middleEndExpand body,val]] -- Initialize the variable holding the result; expand as -- if ordinary loop. But don't forget we built the result -- in reverse order. expandLoop([:iters,["%init",val,nil]],body,["NREVERSE",val]) ++ Generate code for plain loop. expandRepeat ["%repeat",:iters,body] == expandLoop(iters,body,["voidValue"]) expandGreaterEqual ["%ge",:args] == [">=",:expandToVMForm args] expandGreater ["%gt",:args] == [">",:expandToVMForm args] expandLessEqual ["%le",:args] == ["<=",:expandToVMForm args] expandLess ["%lt",:args] == ["<",:expandToVMForm args] -- Logical operators expandNot ["%not",arg] == ["NOT",expandToVMForm arg] expandAnd ["%and",:args] == ["AND",:expandToVMForm args] expandOr ["%or",:args] == ["OR",:expandToVMForm args] -- Arithmetic operations expandImul ["%imul",:args] == ["*",:expandToVMForm args] expandIadd ["%iadd",:args] == ["+",:expandToVMForm args] expandIsub ["%isub",:args] == ["-",:expandToVMForm args] expandIeq ["%ieq",:args] == ["EQL",:expandToVMForm args] -- Local variable bindings expandBind ["%bind",inits,body] == body := expandToVMForm body inits := [[first x,expandToVMForm second x] for x in inits] -- FIXME: we should consider turning LET* into LET or direct inlining. ["LET*",inits,body] -- Memory load/store expandDynval ["%dynval",:args] == ["SYMBOL-VALUE",:expandToVMForm args] expandStore ["%store",place,value] == place := expandToVMForm place value := expandToVMForm value cons? place => ["SETF",place,value] ["SETQ",place,value] ++ Table of opcode-expander pairs. for x in [ ["%not",:function expandNot], ["%and",:function expandAnd], ["%or",:function expandOr], ["%collect",:function expandCollect], ["%repeat",:function expandRepeat], ["%le",:function expandLessEqual], ["%lt",:function expandLess], ["%ge",:function expandGreaterEqual], ["%gt",:function expandGreater], ["%imul",:function expandImul], ["%iadd",:function expandIadd], ["%isub",:function expandIsub], ["%ieq",:function expandIeq], ["%bind",:function expandBind], ["%store",:function expandStore], ["%dynval",:function expandDynval] ] repeat MAKEPROP(first x,"%Expander", rest x) ++ Return the expander of a middle-end opcode, or nil if there is none. getOpcodeExpander op == op has %Expander ++ Expand all opcodes contained in the form `x' into a form ++ suitable for evaluation by the VM. expandToVMForm x == isAtomicForm x => x [op,:args] := x IDENTP op and (fun:= getOpcodeExpander op) => apply(fun,x,nil) op' := expandToVMForm op args' := expandToVMForm args EQ(op,op') and EQ(args,args') => x [op',:args'] ++ $interpOnly := false --% Utility Functions of General Use homogeneousListToVector(t,l) == makeSimpleArrayFromList(t,l) ++ tests if x is an identifier beginning with # isSharpVar x == IDENTP x and SCHAR(SYMBOL_-NAME x,0) = char "#" isSharpVarWithNum x == null isSharpVar x => nil (n := QCSIZE(p := PNAME x)) < 2 => nil ok := true c := 0 for i in 1..(n-1) while ok repeat d := p.i ok := digit? d => c := 10*c + DIG2FIX d if ok then c else nil ++ Returns true if `form' is either an atom or a quotation. isAtomicForm form == atom form or first form = "QUOTE" --% Sub-domains information handlers ++ If `dom' is a subdomain, return its immediate super-domain. superType: %Mode -> %Maybe %Mode superType dom == dom = "$" => superType $functorForm dom isnt [ctor,:args] => nil [super,.] := getSuperDomainFromDB ctor or return nil sublisFormal(args,super,$AtVariables) ++ If the domain designated by the domain form `dom' is a subdomain, ++ then return its defining predicate. Otherwise, return nil. domainVMPredicate dom == dom = "$" => domainVMPredicate $functorForm dom isnt [ctor,:args] => false [.,pred] := getSuperDomainFromDB ctor or return nil sublisFormal(args,pred,$AtVariables) ++ Return the root of the reflexive transitive closure of ++ the super-domain chain for the domain designated by the domain ++ form `d'. maximalSuperType: %Mode -> %Mode maximalSuperType d == d' := superType d => maximalSuperType d' d ++ Note that the functor `sub' instantiates to domains that ++ are subdomains of `super' instances restricted by the ++ predicate `pred'. noteSubDomainInfo: (%Symbol,%Instantiation,%Form) -> %Thing noteSubDomainInfo(sub,super,pred) == SETDATABASE(sub,"SUPERDOMAIN",[super,pred]) ++ Returns non-nil if `d1' is a sub-domain of `d2'. This is the ++ case when `d1' is transitively given by an instance of SubDomain ++ d1 == SubDomain(d2,pred) ++ The transitive closure of the predicate form is returned, where ++ the predicate parameter is `#1'. isSubDomain(d1,d2) == atom d1 or atom d2 => false -- 1. Easy, if by syntax constructs. d1 is ["SubDomain",=d2,pred] => pred -- 2. Just say no, if there is no hope. [sup,pred] := getSuperDomainFromDB first d1 or return false -- 3. We may be onto something. -- `sup' and `pred' are in most general form. We cannot just -- test for the functors, as different arguments may instantiate -- to super-domains. args := rest d1 sublisFormal(args,sup,$AtVariables) = d2 => sublisFormal(args,pred,$AtVariables) -- 4. Otherwise, lookup in the super-domain chain. pred' := isSubDomain(sup,d2) => MKPF([pred',sublisFormal(args,pred,$AtVariables)],"AND") -- 5. Lot of smoke, no fire. false --% mkList u == u => ["LIST",:u] nil ELEMN(x, n, d) == null x => d n = 1 => first x ELEMN(rest x, n-1, d) PPtoFile(x, fname) == stream := DEFIOSTREAM([['MODE, :'OUTPUT], ['FILE, :fname]], 80, 0) PRETTYPRINT(x, stream) SHUT stream x ScanOrPairVec(f, ob) == $seen: local := hashTable 'EQ CATCH('ScanOrPairVecAnswer, ScanOrInner(f, ob)) where ScanOrInner(f, ob) == HGET($seen, ob) => nil cons? ob => HPUT($seen, ob, true) ScanOrInner(f, QCAR ob) ScanOrInner(f, QCDR ob) nil VECP ob => HPUT($seen, ob, true) for i in 0..#ob-1 repeat ScanOrInner(f, ob.i) nil FUNCALL(f, ob) => THROW('ScanOrPairVecAnswer, true) nil ++ Query properties for an entity in a given environment. get: (%Thing,%Symbol,%List) -> %Thing get0: (%Thing,%Symbol,%List) -> %Thing get1: (%Thing,%Symbol,%List) -> %Thing get2: (%Thing,%Symbol) -> %Thing get(x,prop,e) == $InteractiveMode => get0(x,prop,e) get1(x,prop,e) get0(x,prop,e) == not atom x => get(QCAR x,prop,e) u:= QLASSQ(x,first QCAR e) => QLASSQ(prop,u) (tail:= rest QCAR e) and (u:= fastSearchCurrentEnv(x,tail)) => QLASSQ(prop,u) nil get1(x,prop,e) == --this is the old get not atom x => get(QCAR x,prop,e) prop="modemap" and $insideCapsuleFunctionIfTrue=true => LASSOC("modemap",getProplist(x,$CapsuleModemapFrame)) or get2(x,prop) LASSOC(prop,getProplist(x,e)) or get2(x,prop) get2(x,prop) == prop="modemap" and IDENTP x and constructor? x => (u := getConstructorModemapFromDB x) => [u] nil nil ++ Update properties of an entity in an environment. put: (%Thing,%Symbol,%Thing,%Env) -> %Env addBinding: (%Thing,%List,%Env) -> %Env addBindingInteractive: (%Thing, %List, %Env) -> %Env augProplistOf: (%Thing,%Symbol,%Thing,%Env) -> %List augProplist: (%List,%Symbol,%Thing) -> %List augProplistInteractive: (%List,%Symbol,%Thing) -> %List putIntSymTab: (%Thing,%Symbol,%Form,%Env) -> %Env addIntSymTabBinding: (%Thing,%List,%Env) -> %Env put(x,prop,val,e) == $InteractiveMode and not EQ(e,$CategoryFrame) => putIntSymTab(x,prop,val,e) --e must never be $CapsuleModemapFrame not atom x => put(first x,prop,val,e) newProplist := augProplistOf(x,prop,val,e) prop="modemap" and $insideCapsuleFunctionIfTrue=true => SAY ["**** modemap PUT on CapsuleModemapFrame: ",val] $CapsuleModemapFrame:= addBinding(x,augProplistOf(x,"modemap",val,$CapsuleModemapFrame), $CapsuleModemapFrame) e addBinding(x,newProplist,e) putIntSymTab(x,prop,val,e) == null atom x => putIntSymTab(first x,prop,val,e) pl0 := pl := search(x,e) pl := null pl => [[prop,:val]] u := ASSQ(prop,pl) => u.rest := val pl lp := LASTPAIR pl u := [[prop,:val]] lp.rest := u pl EQ(pl0,pl) => e addIntSymTabBinding(x,pl,e) addIntSymTabBinding(var,proplist,e is [[curContour,:.],:.]) == -- change proplist of var in e destructively u := ASSQ(var,curContour) => u.rest := proplist e first(e).first := [[var,:proplist],:curContour] e --% Syntax manipulation ++ Build a quasiquotation form for `x'. quasiquote x == ["[||]",x] ++ Extract the quoted form, otherwise return nil isQuasiquote m == m is ["[||]",y] => y ++ returns the inferred domain for the syntactic object t. getTypeOfSyntax t == atom t => IDENTP t => '(Identifier) (m := getBasicMode t) and not member(m,[$EmptyMode,$NoValueMode]) => ["Literal",m] $Syntax [op,:.] := t op = "Mapping" => '(MappingAst) op = "QUOTE" and #t = 2 and IDENTP second t => ["Literal",$Symbol] op = "IF" => '(IfAst) op = "REPEAT" => '(RepeatAst) op = "WHILE" => '(WhileAst) op = "IN" => '(InAst) op = "COLLECT" => '(CollectAst) op = "construct" => '(ConstructAst) op = "exit" => '(ExitAst) op = "return" => '(ReturnAst) op = "SEGMENT" => '(SegmentAst) op = "SEQ" => '(SequenceAst) op = "pretend" => '(PretendAst) op = "::" => '(CoerceAst) op = "@" => '(RestrictAst) op = "%LET" => '(LetAst) op = "|" => '(SuchThatAst) op = ":" => '(ColonAst) op = ":=" => '(LetAst) op = "%Comma" => '(CommaAst) op = "case" => '(CaseAst) op = "has" => '(HasAst) op = "is" => '(IsAst) op = "DEF" => '(DefinitionAst) op in '(MDEF %Macro) => '(MacroAst) op = "where" => '(WhereAst) op in '(ATTRIBUTE %Attribute) => '(AttributeAst) op = "Join" => '(JoinAst) op = "CAPSULE" => '(CapsuleAst) op in '(%Import import) => '(ImportAst) op in '(%Signature SIGNATURE) => '(SignatureAst) op = "CATEGORY" => '(CategoryAst) op = "where" => '(WhereAst) op = "[||]" => '(QuasiquoteAst) $Syntax --% -- Convert an arbitrary lisp object to canonical boolean. bool: %Thing -> %Boolean bool x == null null x TruthP x == --True if x is a predicate that's always true x is nil => nil x=true => true x is ['QUOTE,:.] => true nil --% Record and Union utils. stripUnionTags doms == [if dom is [":",.,dom'] then dom' else dom for dom in doms] isTaggedUnion u == u is ['Union,:tl] and tl and first tl is [":",.,.] and true getUnionOrRecordTags u == tags := nil if u is ['Union, :tl] or u is ['Record, :tl] then for t in tl repeat if t is [":",tag,.] then tags := [tag, :tags] tags --% Various lispy things Identity x == x length1? l == cons? l and not cons? QCDR l length2? l == cons? l and cons? (l := QCDR l) and not cons? QCDR l pairList(u,v) == [[x,:y] for x in u for y in v] -- GETALIST(alist,prop) == IFCDR assoc(prop,alist) GETALIST(alist,prop) == rest assoc(prop,alist) PUTALIST(alist,prop,val) == null alist => [[prop,:val]] pair := assoc(prop,alist) => rest pair = val => alist -- else we fall over Lucid's read-only storage feature again pair.rest := val alist LASTPAIR(alist).rest := [[prop,:val]] alist REMALIST(alist,prop) == null alist => alist alist is [[ =prop,:.],:r] => null r => NIL alist.first := first r alist.rest := rest r alist null rest alist => alist l := alist ok := true while ok repeat [.,[p,:.],:r] := l p = prop => ok := NIL l.rest := r if null (l := QCDR l) or null rest l then ok := NIL alist deleteLassoc(x,y) == y is [[a,:.],:y'] => EQ(x,a) => y' [first y,:deleteLassoc(x,y')] y --% association list functions deleteAssoc(x,y) == y is [[a,:.],:y'] => a=x => deleteAssoc(x,y') [first y,:deleteAssoc(x,y')] y deleteAssocWOC(x,y) == null y => y [[a,:.],:t]:= y x=a => t (fn(x,y);y) where fn(x,y is [h,:t]) == t is [[a,:.],:t1] => x=a => y.rest := t1 fn(x,t) nil insertWOC(x,y) == null y => [x] (fn(x,y); y) where fn(x,y is [h,:t]) == x=h => nil null t => y.rest := [h,:t] y.first := x fn(x,t) --% Miscellaneous Functions for Working with Strings fillerSpaces(n,:charPart) == n <= 0 => '"" MAKE_-FULL_-CVEC(n,IFCAR charPart or '" ") centerString(text,width,fillchar) == wid := entryWidth text wid >= width => text f := DIVIDE(width - wid,2) fill1 := "" for i in 1..(f.0) repeat fill1 := strconc(fillchar,fill1) fill2:= fill1 if f.1 ~= 0 then fill1 := strconc(fillchar,fill1) [fill1,text,fill2] stringPrefix?(pref,str) == -- sees if the first #pref letters of str are pref -- replaces STRINGPREFIXP null (string?(pref) and string?(str)) => NIL (lp := QCSIZE pref) = 0 => true lp > QCSIZE str => NIL ok := true i := 0 while ok and (i < lp) repeat not EQ(SCHAR(pref,i),SCHAR(str,i)) => ok := NIL i := i + 1 ok stringChar2Integer(str,pos) == -- replaces GETSTRINGDIGIT in UT LISP -- returns small integer represented by character in position pos -- in string str. Returns NIL if not a digit or other error. if IDENTP str then str := PNAME str null (string?(str) and integer?(pos) and (pos >= 0) and (pos < QCSIZE(str))) => NIL not digit?(d := SCHAR(str,pos)) => NIL DIG2FIX d dropLeadingBlanks str == str := object2String str l := QCSIZE str nb := NIL i := 0 while (i < l) and not nb repeat if SCHAR(str,i) ~= char " " then nb := i else i := i + 1 nb = 0 => str nb => SUBSTRING(str,nb,NIL) '"" concat(:l) == concatList l concatList [x,:y] == null y => x null x => concatList y concat1(x,concatList y) concat1(x,y) == null x => y atom x => (null y => x; atom y => [x,y]; [x,:y]) null y => x atom y => [:x,y] [:x,:y] --% BOOT ravel and reshape ravel a == a reshape(a,b) == a --% Some functions for algebra code boolODDP x == ODDP x --% Miscellaneous freeOfSharpVars x == atom x => not isSharpVarWithNum x freeOfSharpVars first x and freeOfSharpVars rest x listOfSharpVars x == atom x => (isSharpVarWithNum x => [x]; nil) union(listOfSharpVars first x,listOfSharpVars rest x) listOfPatternIds x == isPatternVar x => [x] atom x => nil x is ['QUOTE,:.] => nil UNIONQ(listOfPatternIds first x,listOfPatternIds rest x) isPatternVar v == -- a pattern variable consists of a star followed by a star or digit(s) IDENTP(v) and v in '(_*_* _*1 _*2 _*3 _*4 _*5 _*6 _*7 _*8 _*9 _*10 _*11 _*12 _*13 _*14 _*15 _*16 _*17 _*18 _*19 _*20) and true removeZeroOne x == -- replace all occurrences of (Zero) and (One) with -- 0 and 1 x = $Zero => 0 x = $One => 1 atom x => x [removeZeroOne first x,:removeZeroOne rest x] removeZeroOneDestructively t == -- replace all occurrences of (Zero) and (One) with -- 0 and 1 destructively t = $Zero => 0 t = $One => 1 atom t => t RPLNODE(t,removeZeroOneDestructively first t, removeZeroOneDestructively rest t) flattenSexpr s == null s => s atom s => s [f,:r] := s atom f => [f,:flattenSexpr r] [:flattenSexpr f,:flattenSexpr r] isLowerCaseLetter c == lowerCase? c isUpperCaseLetter c == upperCase? c isLetter c == alphabetic? c update() == runCommand strconc(textEditor(), '" ",STRINGIMAGE _/VERSION,'" ",STRINGIMAGE _/WSNAME,'" A") _/UPDATE() --% Inplace Merge Sort for Lists -- MBM April/88 -- listSort(pred,list) or listSort(pred,list,key) -- the pred function is a boolean valued function defining the ordering -- the key function extracts the key from an item for comparison by pred listSort(pred,list,:optional) == NOT functionp pred => error "listSort: first arg must be a function" NOT LISTP list => error "listSort: second argument must be a list" null optional => mergeSort(pred,function Identity,list,# list) key := first optional NOT functionp key => error "listSort: last arg must be a function" mergeSort(pred,key,list,# list) -- non-destructive merge sort using NOT GGREATERP as predicate MSORT list == listSort(function GLESSEQP, COPY_-LIST list) -- destructive merge sort using NOT GGREATERP as predicate NMSORT list == listSort(function GLESSEQP, list) -- non-destructive merge sort using ?ORDER as predicate orderList l == listSort(function _?ORDER, COPY_-LIST l) -- dummy defn until clean-up -- order l == orderList l mergeInPlace(f,g,p,q) == -- merge the two sorted lists p and q if null p then return p if null q then return q if FUNCALL(f,FUNCALL(g, QCAR p),FUNCALL(g, QCAR q)) then (r := t := p; p := QCDR p) else (r := t := q; q := QCDR q) while not null p and not null q repeat if FUNCALL(f,FUNCALL(g,QCAR p),FUNCALL(g,QCAR q)) then (t.rest := p; t := p; p := QCDR p) else (t.rest := q; t := q; q := QCDR q) if null p then t.rest := q else t.rest := p r mergeSort(f,g,p,n) == if n=2 and FUNCALL(f,FUNCALL(g,QCADR p),FUNCALL(g,QCAR p)) then t := p p := QCDR p p.rest := t t.rest := NIL if QSLESSP(n,3) then return p -- split the list p into p and q of equal length l := QSQUOTIENT(n,2) t := p for i in 1..l-1 repeat t := QCDR t q := rest t t.rest := NIL p := mergeSort(f,g,p,l) q := mergeSort(f,g,q,QSDIFFERENCE(n,l)) mergeInPlace(f,g,p,q) --% Throwing with glorious highlighting (maybe) spadThrow() == if $interpOnly and $mapName then putHist($mapName,'localModemap, nil, $e) THROW($SpadReaderTag,nil) spadThrowBrightly x == sayBrightly x spadThrow() --% Type Formatting Without Abbreviation formatUnabbreviatedSig sig == null sig => ['"() -> ()"] [target,:args] := dollarPercentTran sig target := formatUnabbreviated target null args => ['"() -> ",:target] null rest args => [:formatUnabbreviated QCAR args,'" -> ",:target] args := formatUnabbreviatedTuple args ['"(",:args,'") -> ",:target] formatUnabbreviatedTuple t == -- t is a list of types null t => t atom t => [t] t0 := formatUnabbreviated QCAR t null rest t => t0 [:t0,'",",:formatUnabbreviatedTuple QCDR t] formatUnabbreviated t == null t => ['"()"] atom t => [t] t is [p,sel,arg] and p = ":" => [sel,'": ",:formatUnabbreviated arg] t is ['Union,:args] => ['Union,'"(",:formatUnabbreviatedTuple args,'")"] t is ['Mapping,:args] => formatUnabbreviatedSig args t is ['Record,:args] => ['Record,'"(",:formatUnabbreviatedTuple args,'")"] t is [arg] => t t is [arg,arg1] => [arg,'" ",:formatUnabbreviated arg1] t is [arg,:args] => [arg,'"(",:formatUnabbreviatedTuple args,'")"] t sublisNQ(al,e) == atom al => e fn(al,e) where fn(al,e) == atom e => for x in al repeat EQ(first x,e) => return (e := rest x) e EQ(a := first e,'QUOTE) => e u := fn(al,a) v := fn(al,rest e) EQ(a,u) and EQ(rest e,v) => e [u,:v] opOf: %Thing -> %Thing opOf x == atom x => x first x getProplist: (%Thing,%Env) -> %List search: (%Thing,%Env) -> %List searchCurrentEnv: (%Thing,%List) -> %List searchTailEnv: (%Thing,%Env) -> %List getProplist(x,E) == not atom x => getProplist(first x,E) u:= search(x,E) => u --$InteractiveMode => nil --$InteractiveMode and (u:= search(x,$InteractiveFrame)) => u (pl:=search(x,$CategoryFrame)) => pl -- (pl:=PROPLIST x) => pl -- Above line commented out JHD/BMT 2.Aug.90 search(x,e is [curEnv,:tailEnv]) == searchCurrentEnv(x,curEnv) or searchTailEnv(x,tailEnv) searchCurrentEnv(x,currentEnv) == for contour in currentEnv repeat if u:= ASSQ(x,contour) then return (signal:= u) KDR signal searchTailEnv(x,e) == for env in e repeat signal:= for contour in env repeat if (u:= ASSQ(x,contour)) and ASSQ("FLUID",u) then return (signal:= u) if signal then return signal KDR signal augProplist(proplist,prop,val) == $InteractiveMode => augProplistInteractive(proplist,prop,val) while (proplist is [[ =prop,:.],:proplist']) repeat proplist:= proplist' val=(u:= LASSOC(prop,proplist)) => proplist null val => null u => proplist DELLASOS(prop,proplist) [[prop,:val],:proplist] augProplistOf(var,prop,val,e) == proplist:= getProplist(var,e) semchkProplist(var,proplist,prop,val) augProplist(proplist,prop,val) semchkProplist(x,proplist,prop,val) == prop="isLiteral" => LASSOC("value",proplist) or LASSOC("mode",proplist) => warnLiteral x prop in '(mode value) => LASSOC("isLiteral",proplist) => warnLiteral x addBinding(var,proplist,e is [[curContour,:tailContour],:tailEnv]) == EQ(proplist,getProplist(var,e)) => e $InteractiveMode => addBindingInteractive(var,proplist,e) if curContour is [[ =var,:.],:.] then curContour:= rest curContour --Previous line should save some space [[[lx,:curContour],:tailContour],:tailEnv] where lx:= [var,:proplist] addBindingInteractive(var,proplist,e is [[curContour,:.],:.]) == -- change proplist of var in e destructively u := ASSQ(var,curContour) => u.rest := proplist e first(e).first := [[var,:proplist],:curContour] e augProplistInteractive(proplist,prop,val) == u := ASSQ(prop,proplist) => u.rest := val proplist [[prop,:val],:proplist] position(x,l) == posn(x,l,0) where posn(x,l,n) == null l => -1 x=first l => n posn(x,rest l,n+1) insert(x,y) == member(x,y) => y [x,:y] after(u,v) == r:= u for x in u for y in v repeat r:= rest r r $blank == char ('_ ) trimString s == leftTrim rightTrim s leftTrim s == k := MAXINDEX s k < 0 => s s.0 = $blank => for i in 0..k while s.i = $blank repeat (j := i) SUBSTRING(s,j + 1,nil) s rightTrim s == -- assumed a non-empty string k := MAXINDEX s k < 0 => s s.k = $blank => for i in k..0 by -1 while s.i = $blank repeat (j := i) SUBSTRING(s,0,j) s pp x == PRETTYPRINT x x pr x == F_,PRINT_-ONE x nil quickAnd(a,b) == a = true => b b = true => a a = false or b = false => false simpBool ['AND,a,b] quickOr(a,b) == a = true or b = true => true b = false => a a = false => b simpCatPredicate simpBool ['OR,a,b] intern x == string? x => digit? x.0 => string2Integer x INTERN x x isDomain a == cons? a and VECP(first a) and member(first a.0, $domainTypeTokens) -- variables used by browser $htHash := MAKE_-HASH_-TABLE() $glossHash := MAKE_-HASH_-TABLE() $lispHash := MAKE_-HASH_-TABLE() $sysHash := MAKE_-HASH_-TABLE() $htSystemCommands := '( (boot . development) clear display (fin . development) edit help frame history load quit read set show synonym system trace what ) $currentSysList := [opOf x for x in $htSystemCommands] --see ht-root $outStream := nil $recheckingFlag := false --see transformAndRecheckComments $exposeFlag := false --if true, messages go to $outStream $exposeFlagHeading := false --see htcheck.boot $checkingXmptex? := false --see htcheck.boot $exposeDocHeading:= nil --see htcheck.boot $charPlus == char '_+ $charBlank == (char '_ ) $charLbrace == char '_{ $charRbrace == char '_} $charBack == char '_\ $charDash == char '_- $charTab == CODE_-CHAR(9) $charNewline == CODE_-CHAR(10) $charFauxNewline == CODE_-CHAR(25) $stringNewline == PNAME CODE_-CHAR(10) $stringFauxNewline == PNAME CODE_-CHAR(25) $charExclusions == [char 'a, char 'A] $charQuote == char '_' $charSemiColon == char '_; $charComma == char '_, $charPeriod == char '_. $checkPrenAlist := [[char '_(,:char '_)],[char '_{,:char '_}],[char '_[,:char '_]]] $charEscapeList:= [char '_%,char '_#,$charBack] $charIdentifierEndings := [char '__, char '_!, char '_?] $charSplitList := [$charComma,$charPeriod,char '_[, char '_],$charLbrace, $charRbrace, char '_(, char '_), char '_$, char '_%] $charDelimiters := [$charBlank, char '_(, char '_), $charBack] $HTspadmacros := '("\spadtype" "\spadcommand" "\spadop" "\spadfun" "\spadatt" "\spadsyscom" "\spad" "\s") $HTmacs := [ ['"\beginmenu",$charRbrace,'"menu",$charLbrace,'"\begin"], ['"\endmenu",$charRbrace,'"menu",$charLbrace,'"\end"], ['"\beginitems",$charRbrace,'"items",$charLbrace,'"\begin"], ['"\enditems",$charRbrace,'"items",$charLbrace,'"\end"], ['"\beginscroll",$charRbrace,'"scroll",$charLbrace,'"\begin"], ['"\endscroll",$charRbrace,'"scroll",$charLbrace,'"\end"]] $HTlinks := '( "\downlink" "\menulink" "\menudownlink" "\menuwindowlink" "\menumemolink") $HTlisplinks := '( "\lispdownlink" "\menulispdownlink" "\menulispwindowlink" "\menulispmemolink" "\lispwindowlink" "\lispmemolink") $beginEndList := '( "page" "items" "menu" "scroll" "verbatim" "detail") isDefaultPackageName x == (s := PNAME x).(MAXINDEX s) = char '_& -- gensym utils charDigitVal c == digits := '"0123456789" n := -1 for i in 0..#digits-1 while n < 0 repeat if c = digits.i then n := i n < 0 => error '"Character is not a digit" n gensymInt g == not GENSYMP g => error '"Need a GENSYM" p := PNAME g n := 0 for i in 2..#p-1 repeat n := 10 * n + charDigitVal p.i n ++ Returns a newly allocated domain shell (a simple vector) of length `n'. newShell: %Short -> SIMPLE_-ARRAY newShell n == MAKE_-ARRAY(n,KEYWORD::INITIAL_-ELEMENT,nil) ++ fetchs the item in the nth entry of a domain shell. getShellEntry: (%Shell,%Short) -> %Thing getShellEntry(s,i) == SVREF(s,i) ++ sets the nth nth entry of a domain shell to an item. setShellEntry: (%Shell,%Short,%Thing) -> %Thing setShellEntry(s,i,t) == SETF(SVREF(s,i),t) -- Push into the BOOT package when invoked in batch mode. AxiomCore::$sysScope := '"BOOT"