-- 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. -- -- -- Abstract: -- This file defines the Boot grammar and parser. The parser -- is hand-written based on `parser combinators' technology. -- module '"boot-parser" import '"includer" import '"scanner" import '"ast" )package "BOOTTRAN" ++ true when the current function definition has its parameters ++ written round parenthesis. $sawParenthesizedHead := false bpFirstToken()== $stok:= if null $inputStream then shoeTokConstruct("ERROR","NOMORE",shoeTokPosn $stok) else CAR $inputStream $ttok:=shoeTokPart $stok true bpFirstTok()== $stok:= if null $inputStream then shoeTokConstruct("ERROR","NOMORE",shoeTokPosn $stok) else CAR $inputStream $ttok:=shoeTokPart $stok $bpParenCount>0 and EQCAR($stok,"KEY") => EQ($ttok,"SETTAB")=> $bpCount:=$bpCount+1 bpNext() EQ($ttok,"BACKTAB")=> $bpCount:=$bpCount-1 bpNext() EQ($ttok,"BACKSET")=> bpNext() true true bpNext() == $inputStream := CDR($inputStream) bpFirstTok() bpNextToken() == $inputStream := CDR($inputStream) bpFirstToken() bpState()== [$inputStream,$stack,$bpParenCount,$bpCount] --cons($inputStream,$stack) bpRestore(x)== $inputStream:=CAR x bpFirstToken() $stack:=CADR x $bpParenCount:=CADDR x $bpCount:=CADDDR x true bpPush x==$stack:=CONS(x,$stack) bpPushId()== $stack:=CONS(bfReName $ttok,$stack) bpPop1()== a:=CAR $stack $stack:=CDR $stack a bpPop2()== a:=CADR $stack RPLACD($stack,CDDR $stack) a bpPop3()== a:=CADDR $stack RPLACD(CDR $stack,CDDDR $stack) a bpIndentParenthesized f== $bpCount:local:=0 a:=$stok if bpEqPeek "OPAREN" then $bpParenCount:=$bpParenCount+1 bpNext() if APPLY(f,nil) and bpFirstTok() and (bpEqPeek "CPAREN" or bpParenTrap(a)) then $bpParenCount:=$bpParenCount-1 bpNextToken() $bpCount=0 => true $inputStream:=append( bpAddTokens $bpCount,$inputStream) bpFirstToken() $bpParenCount=0 => bpCancel() true true else if bpEqPeek "CPAREN" then bpPush bfTuple [] $bpParenCount:=$bpParenCount-1 bpNextToken() true else bpParenTrap(a) else false bpParenthesized f== a:=$stok if bpEqKey "OPAREN" then if APPLY(f,nil) and (bpEqKey "CPAREN" or bpParenTrap(a)) then true else if bpEqKey "CPAREN" then bpPush bfTuple [] true else bpParenTrap(a) else false bpBracket f== a:=$stok if bpEqKey "OBRACK" then if APPLY(f,nil) and (bpEqKey "CBRACK" or bpBrackTrap(a)) then bpPush bfBracket bpPop1 () else if bpEqKey "CBRACK" then bpPush [] else bpBrackTrap(a) else false bpPileBracketed f== if bpEqKey "SETTAB" then if bpEqKey "BACKTAB" then true else if APPLY(f,nil) and (bpEqKey "BACKTAB" or bpPileTrap()) then bpPush bfPile bpPop1() else false else false bpListof(f,str1,g)== if APPLY(f,nil) then if bpEqKey str1 and (APPLY(f,nil) or bpTrap()) then a:=$stack $stack:=nil while bpEqKey str1 and (APPLY(f,nil) or bpTrap()) repeat 0 $stack:=cons(NREVERSE $stack,a) bpPush FUNCALL(g, [bpPop3(),bpPop2(),:bpPop1()]) else true else false -- to do , bpListofFun(f,h,g)== if APPLY(f,nil) then if APPLY(h,nil) and (APPLY(f,nil) or bpTrap()) then a:=$stack $stack:=nil while APPLY(h,nil) and (APPLY(f,nil) or bpTrap()) repeat 0 $stack:=cons(NREVERSE $stack,a) bpPush FUNCALL(g, bfListOf [bpPop3(),bpPop2(),:bpPop1()]) else true else false bpList(f,str1,g)== if APPLY(f,nil) then if bpEqKey str1 and (APPLY(f,nil) or bpTrap()) then a:=$stack $stack:=nil while bpEqKey str1 and (APPLY(f,nil) or bpTrap()) repeat 0 $stack:=cons(NREVERSE $stack,a) bpPush FUNCALL(g, [bpPop3(),bpPop2(),:bpPop1()]) else bpPush FUNCALL(g, [bpPop1()]) else bpPush FUNCALL(g, []) bpOneOrMore f== APPLY(f,nil)=> a:=$stack $stack:=nil while APPLY(f,nil) repeat 0 $stack:=cons(NREVERSE $stack,a) bpPush cons(bpPop2(),bpPop1()) false -- s must transform the head of the stack bpAnyNo s== while APPLY(s,nil) repeat 0 true -- AndOr(k,p,f)= k p bpAndOr(keyword,p,f)== bpEqKey keyword and (APPLY(p,nil) or bpTrap()) and bpPush FUNCALL(f, bpPop1()) bpConditional f== if bpEqKey "IF" and (bpWhere() or bpTrap()) and (bpEqKey "BACKSET" or true) then if bpEqKey "SETTAB" then if bpEqKey "THEN" then (APPLY(f,nil) or bpTrap()) and bpElse(f) and bpEqKey "BACKTAB" else bpMissing "THEN" else if bpEqKey "THEN" then (APPLY(f,nil) or bpTrap()) and bpElse(f) else bpMissing "then" else false bpElse(f)== a:=bpState() if bpBacksetElse() then (APPLY(f,nil) or bpTrap()) and bpPush bfIf(bpPop3(),bpPop2(),bpPop1()) else bpRestore a bpPush bfIfThenOnly(bpPop2(),bpPop1()) bpBacksetElse()== if bpEqKey "BACKSET" then bpEqKey "ELSE" else bpEqKey "ELSE" bpEqPeek s == EQCAR($stok,"KEY") and EQ(s,$ttok) bpEqKey s == EQCAR($stok,"KEY") and EQ(s,$ttok) and bpNext() bpEqKeyNextTok s == EQCAR($stok,"KEY") and EQ(s,$ttok) and bpNextToken() bpPileTrap() == bpMissing "BACKTAB" bpBrackTrap(x) == bpMissingMate("]",x) bpParenTrap(x) == bpMissingMate(")",x) bpMissingMate(close,open)== bpSpecificErrorAtToken(open, '"possibly missing mate") bpMissing close bpMissing s== bpSpecificErrorHere(CONCAT(PNAME s,'" possibly missing")) throw TRAPPOINT "TRAPPED" bpCompMissing s == bpEqKey s or bpMissing s bpTrap()== bpGeneralErrorHere() throw TRAPPOINT "TRAPPED" bpRecoverTrap()== bpFirstToken() pos1 := shoeTokPosn $stok bpMoveTo 0 pos2 := shoeTokPosn $stok bpIgnoredFromTo(pos1, pos2) bpPush [['"pile syntax error"]] bpListAndRecover(f)== a:=$stack b:=nil $stack:=nil done:=false c:=$inputStream while not done repeat -- $trapped:local:=false found:=try APPLY(f,nil) catch TRAPPOINT if found="TRAPPED" then $inputStream:=c bpRecoverTrap() else if not found then $inputStream:=c bpGeneralErrorHere() bpRecoverTrap() if bpEqKey "BACKSET" then c:=$inputStream else if bpEqPeek "BACKTAB" or null $inputStream then done:=true else $inputStream:=c bpGeneralErrorHere() bpRecoverTrap() if bpEqPeek "BACKTAB" or null $inputStream then done:=true else bpNext() c:=$inputStream b:=cons(bpPop1(),b) $stack:=a bpPush NREVERSE b bpMoveTo n== null $inputStream => true bpEqPeek "BACKTAB" => n=0 => true bpNextToken() $bpCount:=$bpCount-1 bpMoveTo(n-1) bpEqPeek "BACKSET" => n=0 => true bpNextToken() bpMoveTo n bpEqPeek "SETTAB" => bpNextToken() bpMoveTo(n+1) bpEqPeek "OPAREN" => bpNextToken() $bpParenCount:=$bpParenCount+1 bpMoveTo n bpEqPeek "CPAREN" => bpNextToken() $bpParenCount:=$bpParenCount-1 bpMoveTo n bpNextToken() bpMoveTo n -- A fully qualified name could be interpreted as a left reduction -- of an '::' infix operator. At the moment, we don't use -- that general interpretation. -- When this routine is called, a symbol is already pushed on the -- stack. When this routine finished execution, we have either -- reduced a '::' and a name, or nothing. In either case, a -- symbol is present on the stack. bpQualifiedName() == bpEqPeek "COLON-COLON" => bpNext() EQCAR($stok, "ID") and bpPushId() and bpNext() and bpPush bfColonColon(bpPop2(), bpPop1()) false ++ Name: ++ ID ++ Name :: ID bpName() == EQCAR( $stok,"ID") => bpPushId() bpNext() bpAnyNo function bpQualifiedName false ++ Constant: ++ INTEGER ++ FLOAT ++ LISP ++ LISPEXPR ++ LINE ++ QUOTE S-Expression ++ STRING bpConstTok() == MEMQ(shoeTokType $stok, '(INTEGER FLOAT)) => bpPush $ttok bpNext() EQCAR($stok,"LISP")=> bpPush bfReadLisp $ttok and bpNext() EQCAR($stok,"LISPEXP")=> bpPush $ttok and bpNext() EQCAR($stok,"LINE")=> bpPush ["+LINE", $ttok] and bpNext() bpEqPeek "QUOTE" => bpNext() (bpSexp() or bpTrap()) and bpPush bfSymbol bpPop1() bpString() ++ Parse a module definitoin ++ Module: ++ MODULE QUOTE String bpModule() == bpEqKey "MODULE" => -- we really want to check that the next token is indeed -- a string. For the moment, we delay the type checking -- to the Lisp compiler/interpreter. That is likely to -- cause cryptic diagnostics. To be fixed. bpConstTok() and bpPush Module bpPop1() false ++ Parse a module import, or a import declaration for a foreign entity. ++ Import: ++ IMPORT Name for Signature ++ IMPORT QUOTE String bpImport() == bpEqKey "IMPORT" => (bpName() and (bpEqKey "FOR" or bpTrap()) and bpSignature() and bpPush ImportSignature(bpPop2(), bpPop1())) or -- we really want to check that the next token is indeed -- a string. For the moment, we delay the type checking -- to the Lisp compiler/interpreter. That is likely to -- cause cryptic diagnostics. To be fixed. (bpConstTok() and bpPush Import bpPop1()) false -- Parse a type alias defnition: -- type-alias-definition: -- identifier <=> logical-expression bpTypeAliasDefition() == (bpTerm() or bpTrap()) and bpEqKey "TDEF" and bpLogical() and bpPush TypeAlias(bpPop2(), bpPop1()) ++ Parse a signature declaration ++ Signature: ++ Name COLON Mapping bpSignature() == bpName() and bpEqKey "COLON" and bpMapping() and bpPush Signature(bpPop2(), bpPop1()) ++ Parse a mapping expression ++ Mapping: ++ (Name | IdList) -> Name bpMapping() == (bpName() or bpParenthesized function bpIdList) and bpEqKey "ARROW" and bpName() and bpPush Mapping(bpPop1(), bfUntuple bpPop1()) bpCancel()== a:=bpState() if bpEqKeyNextTok "SETTAB" then if bpCancel() then if bpEqKeyNextTok "BACKTAB" then true else bpRestore a false else if bpEqKeyNextTok "BACKTAB" then true else bpRestore a false else false bpAddTokens n== n=0 => nil n>0=> cons(shoeTokConstruct("KEY","SETTAB",shoeTokPosn $stok),bpAddTokens(n-1)) cons(shoeTokConstruct("KEY","BACKTAB",shoeTokPosn $stok),bpAddTokens(n+1)) bpExceptions()== bpEqPeek "DOT" or bpEqPeek "QUOTE" or bpEqPeek "OPAREN" or bpEqPeek "CPAREN" or bpEqPeek "SETTAB" or bpEqPeek "BACKTAB" or bpEqPeek "BACKSET" bpSexpKey()== EQCAR( $stok,"KEY") and not bpExceptions()=> a:=GET($ttok,"SHOEINF") null a=> bpPush $ttok and bpNext() bpPush a and bpNext() false bpAnyId()== bpEqKey "MINUS" and (EQCAR($stok,"INTEGER") or bpTrap()) and bpPush MINUS $ttok and bpNext() or bpSexpKey() or MEMQ(shoeTokType $stok, '(ID INTEGER STRING FLOAT)) and bpPush $ttok and bpNext() bpSexp()== bpAnyId() or bpEqKey "QUOTE" and (bpSexp() or bpTrap()) and bpPush bfSymbol bpPop1() or bpIndentParenthesized function bpSexp1 bpSexp1()== bpFirstTok() and bpSexp() and (bpEqKey "DOT" and bpSexp() and bpPush CONS (bpPop2(),bpPop1())or bpSexp1() and bpPush CONS (bpPop2(),bpPop1())) or bpPush nil bpPrimary1() == bpName() or bpDot() or bpConstTok() or bpConstruct() or bpCase() or bpStruct() or bpPDefinition() or bpBPileDefinition() bpPrimary()== bpFirstTok() and (bpPrimary1() or bpPrefixOperator()) bpDot()== bpEqKey "DOT" and bpPush bfDot () bpPrefixOperator()== EQCAR( $stok,"KEY") and GET($ttok,"SHOEPRE") and bpPushId() and bpNext() bpInfixOperator()== EQCAR( $stok,"KEY") and GET($ttok,"SHOEINF") and bpPushId() and bpNext() bpSelector()== bpEqKey "DOT" and (bpPrimary() and bpPush(bfElt(bpPop2(),bpPop1())) or bpPush bfSuffixDot bpPop1() ) bpOperator()== bpPrimary() and bpAnyNo function bpSelector bpApplication()== bpPrimary() and bpAnyNo function bpSelector and (bpApplication() and bpPush(bfApplication(bpPop2(),bpPop1())) or true) ++ Typing: ++ SimpleType ++ Mapping bpTyping() == bpApplication() and (bpEqKey "ARROW" and (bpApplication() or bpTrap()) and bpPush Mapping(bpPop1(), bfUntuple bpPop1()) or true) or bpMapping() ++ Tagged: ++ Name : Typing bpTagged()== bpApplication() and (bpEqKey "COLON" and (bpTyping() or bpTrap()) and bpPush bfTagged(bpPop2(),bpPop1()) or true) bpExpt()== bpRightAssoc('(POWER),function bpTagged) bpInfKey s== EQCAR( $stok,"KEY") and MEMBER($ttok,s) and bpPushId() and bpNext() bpInfGeneric s== bpInfKey s and (bpEqKey "BACKSET" or true) bpRightAssoc(o,p)== a:=bpState() if APPLY(p,nil) then while bpInfGeneric o and (bpRightAssoc(o,p) or bpTrap()) repeat bpPush bfInfApplication(bpPop2(),bpPop2(),bpPop1()) true else bpRestore a false bpLeftAssoc(operations,parser)== if APPLY(parser,nil) then while bpInfGeneric(operations) and (APPLY(parser,nil) or bpTrap()) repeat bpPush bfInfApplication(bpPop2(),bpPop2(),bpPop1()) true else false bpString()== EQ(shoeTokType $stok,"STRING") and bpPush(["QUOTE",INTERN $ttok]) and bpNext() bpThetaName() == if EQCAR( $stok,"ID") and GET($ttok,"SHOETHETA") then bpPushId() bpNext() else false bpReduceOperator()== bpInfixOperator() or bpString() or bpThetaName() bpReduce()== a:=bpState() if bpReduceOperator() and bpEqKey "SLASH" then bpEqPeek "OBRACK" => (bpDConstruct() or bpTrap()) and bpPush bfReduceCollect(bpPop2(),bpPop1()) (bpApplication() or bpTrap()) and bpPush bfReduce(bpPop2(),bpPop1()) else bpRestore a false bpTimes()== bpReduce() or bpLeftAssoc('(TIMES SLASH),function bpExpt) bpMinus()== bpInfGeneric '(MINUS) and (bpTimes() or bpTrap()) and bpPush(bfApplication(bpPop2(),bpPop1())) or bpTimes() bpArith()==bpLeftAssoc('(PLUS MINUS),function bpMinus) bpIs()== bpArith() and (bpInfKey '(IS ISNT) and (bpPattern() or bpTrap()) and bpPush bfISApplication(bpPop2(),bpPop2(),bpPop1()) or true) bpBracketConstruct(f)== bpBracket f and bpPush bfConstruct bpPop1 () bpCompare()== bpIs() and (bpInfKey '(SHOEEQ SHOENE LT LE GT GE IN) and (bpIs() or bpTrap()) and bpPush bfInfApplication(bpPop2(),bpPop2(),bpPop1()) or true) bpAnd()== bpLeftAssoc('(AND),function bpCompare) bpThrow() == bpEqKey "THROW" and bpApplication() and bpPush bfThrow bpPop1() ++ Try: ++ try Assign CatchItems bpTry() == bpEqKey "TRY" and bpAssign() and (bpEqKey "BACKSET" or true) and (bpEqKey "CATCH" or bpMissing "CATCH") and (bpPiledCatchItems() or bpSimpleCatch() or bpTrap()) and bpPush bfTry(bpPop2(), bpPop1()) ++ SimpleCatch: ++ catch Name bpSimpleCatch() == bpCatchItem() and bpPush [bpPop1()] bpPiledCatchItems() == bpPileBracketed function bpCatchItemList bpCatchItemList() == bpListAndRecover function bpCatchItem bpExceptionHead() == (bpName() or bpTrap()) and ((bpParenthesized function bpIdList and bpPush bfNameArgs (bpPop2(),bpPop1())) or bpName() and bpPush bfNameArgs(bpPop2(),bpPop1())) or true bpExceptionTail() == bpEqKey "EXIT" and (bpAssign() or bpTrap()) and bpPush Exit(bpPop2(),bpPop1()) ++ Exception: ++ ExpcetionHead ++ ExceptionHead => Assign bpException() == bpExceptionHead() and (bpExceptionTail() or true) ++ Catch: ++ catch Exception bpCatchItem() == (bpException() or bpTrap()) and bpPush %Catch bpPop1() bpReturn()== (bpEqKey "RETURN" and (bpAnd() or bpTrap()) and bpPush bfReturnNoName bpPop1()) or bpThrow() or bpAnd() bpLogical()== bpLeftAssoc('(OR),function bpReturn) bpExpression()== bpEqKey "COLON" and (bpLogical() and bpPush bfApplication ("COLON",bpPop1()) or bpTrap()) or bpLogical() bpStatement()== bpConditional function bpWhere or bpLoop() or bpExpression() or bpTry() bpLoop()== bpIterators() and (bpCompMissing "REPEAT" and (bpWhere() or bpTrap()) and bpPush bfLp(bpPop2(),bpPop1())) or bpEqKey "REPEAT" and (bpLogical() or bpTrap()) and bpPush bfLoop1 bpPop1 () bpSuchThat()==bpAndOr("BAR",function bpWhere,function bfSuchthat) bpWhile()==bpAndOr ("WHILE",function bpLogical,function bfWhile) bpUntil()==bpAndOr ("UNTIL",function bpLogical,function bfUntil) bpForIn()== bpEqKey "FOR" and (bpVariable() or bpTrap()) and (bpCompMissing "IN") and ((bpSeg() or bpTrap()) and (bpEqKey "BY" and (bpArith() or bpTrap()) and bpPush bfForInBy(bpPop3(),bpPop2(),bpPop1())) or bpPush bfForin(bpPop2(),bpPop1())) bpSeg()== bpArith() and (bpEqKey "SEG" and (bpArith() and bpPush(bfSegment2(bpPop2(),bpPop1())) or bpPush(bfSegment1(bpPop1()))) or true) bpIterator()== bpForIn() or bpSuchThat() or bpWhile() or bpUntil() bpIteratorList()==bpOneOrMore function bpIterator and bpPush bfIterators bpPop1 () bpCrossBackSet()== bpEqKey "CROSS" and (bpEqKey "BACKSET" or true) bpIterators()== bpListofFun(function bpIteratorList, function bpCrossBackSet,function bfCross) bpAssign()== a:=bpState() if bpStatement() then if bpEqPeek "BEC" then bpRestore a bpAssignment() or bpTrap() else true else bpRestore a false bpAssignment()== bpAssignVariable() and bpEqKey "BEC" and (bpAssign() or bpTrap()) and bpPush bfAssign (bpPop2(),bpPop1()) -- should only be allowed in sequences bpExit()== bpAssign() and (bpEqKey "EXIT" and ((bpWhere() or bpTrap()) and bpPush bfExit (bpPop2(),bpPop1())) or true) ++ returns true if the next token introduces a definition. bpBeginDefinition() == bpEqPeek "DEF" or $sawParenthesizedHead and bpEqPeek "COLON" bpDefinition()== a:=bpState() bpExit() => bpBeginDefinition() => bpRestore a bpDef() bpEqPeek "TDEF" => bpRestore a bpTypeAliasDefition() bpEqPeek "MDEF" => bpRestore a bpMdef() true bpRestore a false bpStoreName()== $op := car $stack $wheredefs := nil $typings := nil $returnType := true -- assume we may return anything true bpReturnType() == -- a return type is acceptable for a function definition only -- if its parameters are written in round parenthesis. -- In particular, we reject the situation `foo x:Integer == ...' $sawParenthesizedHead and bpEqKey "COLON" => bpApplication() or bpTrap() $returnType := bpPop1() true true bpDef() == bpName() and bpStoreName() and bpDefTail() and bpPush bfCompDef bpPop1 () bpDDef() == bpName() and bpDefTail() ++ Parse the remaining of a simple definition. bpSimpleDefinitionTail() == bpEqKey "DEF" and (bpWhere() or bpTrap()) and bpPush ConstantDefinition(bpPop2(), bpPop1()) ++ Parse the remaining of a compound definition. bpCompoundDefinitionTail() == bpVariable() and bpReturnType() and bpEqKey "DEF" and (bpWhere() or bpTrap()) and bpPush bfDefinition(bpPop3(),bpPop2(),bpPop1()) ++ Parse the remainding of a definition. When we reach this point ++ we know we must parse a definition and we have already parsed ++ the name of the main operator in the definition. bpDefTail() == bpSimpleDefinitionTail() or bpCompoundDefinitionTail() bpMDefTail()== -- bpEqKey "MDEF" and -- (bpWhere() or bpTrap()) -- and bpPush bfMDefinition1(bpPop2(),bpPop1()) -- or (bpVariable() or bpTrap()) and bpEqKey "MDEF" and (bpWhere() or bpTrap()) and bpPush bfMDefinition(bpPop3(),bpPop2(),bpPop1()) bpMdef()== bpName() and bpStoreName() and bpMDefTail() bpWhere()== bpDefinition() and (bpEqKey "WHERE" and (bpDefinitionItem() or bpTrap()) and bpPush bfWhere(bpPop1(),bpPop1()) or true) bpDefinitionItem()== a:=bpState() if bpDDef() then true else bpRestore a if bpBDefinitionPileItems() then true else bpRestore a if bpPDefinitionItems() then true else bpRestore a bpWhere() bpDefinitionPileItems()== bpListAndRecover function bpDefinitionItem and bpPush bfDefSequence bpPop1() bpBDefinitionPileItems()== bpPileBracketed function bpDefinitionPileItems bpSemiColonDefinition()==bpSemiListing (function bpDefinitionItem,function bfDefSequence) bpPDefinitionItems()==bpParenthesized function bpSemiColonDefinition bpComma()== bpModule() or bpImport() or bpTuple function bpWhere bpTuple(p)==bpListofFun(p,function bpCommaBackSet,function bfTuple) bpCommaBackSet()== bpEqKey "COMMA" and (bpEqKey "BACKSET" or true) bpSemiColon()==bpSemiListing (function bpComma,function bfSequence) bpSemiListing(p,f)==bpListofFun(p,function bpSemiBackSet,f) bpSemiBackSet()== bpEqKey "SEMICOLON" and (bpEqKey "BACKSET" or true) bpPDefinition()== bpIndentParenthesized function bpSemiColon bpPileItems()== bpListAndRecover function bpSemiColon and bpPush bfSequence bpPop1() bpBPileDefinition()== bpPileBracketed function bpPileItems bpIteratorTail()== (bpEqKey "REPEAT" or true) and bpIterators() --bpExpression()== bpLogical() bpConstruct()==bpBracket function bpConstruction bpConstruction()== bpComma() and (bpIteratorTail() and bpPush bfCollect (bpPop2(),bpPop1()) or bpPush bfTupleConstruct bpPop1()) bpDConstruct()==bpBracket function bpDConstruction bpDConstruction()== bpComma() and (bpIteratorTail() and bpPush bfDCollect (bpPop2(),bpPop1()) or bpPush bfDTuple bpPop1()) --PATTERN --bpNameOrDot() == bpName() or bpDot() or bpEqual() bpPattern()== bpBracketConstruct function bpPatternL or bpName() or bpConstTok() bpEqual()== bpEqKey "SHOEEQ" and (bpApplication() or bpConstTok() or bpTrap()) and bpPush bfEqual bpPop1() bpRegularPatternItem() == bpEqual() or bpConstTok() or bpDot() or bpName() and ((bpEqKey "BEC" and (bpPattern() or bpTrap()) and bpPush bfAssign(bpPop2(),bpPop1())) or true) or bpBracketConstruct function bpPatternL bpRegularPatternItemL()== bpRegularPatternItem() and bpPush [bpPop1()] bpRegularList()== bpListof(function bpRegularPatternItemL,"COMMA",function bfAppend) bpPatternColon()== bpEqKey "COLON" and (bpRegularPatternItem() or bpTrap()) and bpPush [bfColon bpPop1()] -- only one colon bpPatternL() == bpPatternList() and bpPush bfTuple bpPop1() bpPatternList()== if bpRegularPatternItemL() then while (bpEqKey "COMMA" and (bpRegularPatternItemL() or (bpPatternTail() and bpPush append(bpPop2(),bpPop1()) or bpTrap();false) )) repeat bpPush append(bpPop2(),bpPop1()) true else bpPatternTail() bpPatternTail()== bpPatternColon() and (bpEqKey "COMMA" and (bpRegularList() or bpTrap()) and bpPush append (bpPop2(),bpPop1()) or true) -- BOUND VARIABLE bpRegularBVItem() == bpBVString() or bpConstTok() or (bpName() and (bpEqKey "COLON" and (bpApplication() or bpTrap()) and bpPush bfTagged(bpPop2(), bpPop1()) or bpEqKey "BEC" and (bpPattern() or bpTrap()) and bpPush bfAssign(bpPop2(),bpPop1()) or (bpEqKey "IS" and (bpPattern() or bpTrap()) and bpPush bfAssign(bpPop2(),bpPop1())) or true)) or bpBracketConstruct function bpPatternL bpBVString()== EQ(shoeTokType $stok,"STRING") and bpPush(["BVQUOTE",INTERN $ttok]) and bpNext() bpRegularBVItemL() == bpRegularBVItem() and bpPush [bpPop1()] bpColonName()== bpEqKey "COLON" and (bpName() or bpBVString() or bpTrap()) -- at most one colon at end bpBoundVariablelist()== if bpRegularBVItemL() then while (bpEqKey "COMMA" and (bpRegularBVItemL() or (bpColonName() and bpPush bfColonAppend(bpPop2(),bpPop1()) or bpTrap();false) )) repeat bpPush append(bpPop2(),bpPop1()) true else bpColonName() and bpPush bfColonAppend(nil,bpPop1()) ++ Mark the start of parameter list enclosed in round parenthesis bpBeginParameterList() == $sawParenthesizedHead := false true ++ Mark the end of parameter list enclosed in round parenthesis bpEndParameterList() == $sawParenthesizedHead := true bpVariable()== bpBeginParameterList() and bpParenthesized function bpBoundVariablelist and bpPush bfTupleIf bpPop1() and bpEndParameterList() or bpBracketConstruct function bpPatternL or bpName() or bpConstTok() bpAssignVariable()== bpBracketConstruct function bpPatternL or bpAssignLHS() bpAssignLHS()== bpName() and (bpEqKey "COLON" and (bpApplication() or bpTrap()) and bpPush bfLocal(bpPop2(),bpPop1()) or bpEqKey "DOT" and bpList(function bpPrimary,"DOT", function bfListOf) and bpChecknull() and bpPush bfTuple(cons(bpPop2(),bpPop1())) or true) bpChecknull()== a:=bpPop1() if null a then bpTrap() else bpPush a bpStruct()== bpEqKey "STRUCTURE" and (bpName() or bpTrap()) and (bpEqKey "DEF" or bpTrap()) and bpTypeList() and bpPush bfStruct(bpPop2(),bpPop1()) bpTypeList() == bpPileBracketed function bpTypeItemList or bpTerm() and bpPush [bpPop1()] bpTypeItemList() == bpListAndRecover function bpTerm bpTerm() == (bpName() or bpTrap()) and ((bpParenthesized function bpIdList and bpPush bfNameArgs (bpPop2(),bpPop1())) or bpName() and bpPush bfNameArgs(bpPop2(),bpPop1())) or bpPush(bfNameOnly bpPop1()) bpIdList()== bpTuple function bpName bpCase()== bpEqKey "CASE" and (bpWhere() or bpTrap()) and (bpEqKey "OF" or bpMissing "OF") and bpPiledCaseItems() bpPiledCaseItems()== bpPileBracketed function bpCaseItemList and bpPush bfCase(bpPop2(),bpPop1()) bpCaseItemList()== bpListAndRecover function bpCaseItem bpCaseItem()== (bpTerm() or bpTrap()) and (bpEqKey "EXIT" or bpTrap()) and (bpWhere() or bpTrap()) and bpPush bfCaseItem (bpPop2(),bpPop1())