From e8bc9edd3c39170af038ab23b8cdca9ffd6f2d56 Mon Sep 17 00:00:00 2001 From: Harvey Harrison Date: Sat, 31 May 2014 13:39:08 -0700 Subject: gluegen: move all antlr grammars to a top-level directory /src/main/antlr/.. This gets the .g files unmixed from the non-generated java files for the cgram/jgram packages. Signed-off-by: Harvey Harrison --- src/java/com/jogamp/gluegen/cgram/GnuCEmitter.g | 1145 ---------------- src/java/com/jogamp/gluegen/cgram/GnuCParser.g | 878 ------------ src/java/com/jogamp/gluegen/cgram/GnuCTreeParser.g | 867 ------------ src/java/com/jogamp/gluegen/cgram/HeaderParser.g | 785 ----------- src/java/com/jogamp/gluegen/cgram/StdCParser.g | 1401 -------------------- src/java/com/jogamp/gluegen/jgram/JavaParser.g | 1315 ------------------ 6 files changed, 6391 deletions(-) delete mode 100644 src/java/com/jogamp/gluegen/cgram/GnuCEmitter.g delete mode 100644 src/java/com/jogamp/gluegen/cgram/GnuCParser.g delete mode 100644 src/java/com/jogamp/gluegen/cgram/GnuCTreeParser.g delete mode 100644 src/java/com/jogamp/gluegen/cgram/HeaderParser.g delete mode 100644 src/java/com/jogamp/gluegen/cgram/StdCParser.g delete mode 100644 src/java/com/jogamp/gluegen/jgram/JavaParser.g (limited to 'src/java') diff --git a/src/java/com/jogamp/gluegen/cgram/GnuCEmitter.g b/src/java/com/jogamp/gluegen/cgram/GnuCEmitter.g deleted file mode 100644 index 38ded36..0000000 --- a/src/java/com/jogamp/gluegen/cgram/GnuCEmitter.g +++ /dev/null @@ -1,1145 +0,0 @@ -/*%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - - Copyright (c) Non, Inc. 1998 -- All Rights Reserved - -PROJECT: C Compiler -MODULE: GnuCEmitter -FILE: GnuCEmitter.g - -AUTHOR: Monty Zukowski (jamz@cdsnet.net) April 28, 1998 - -DESCRIPTION: - - This tree grammar is for a Gnu C AST. - It turns the tree back into source code. - -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/ - - -header { - package com.jogamp.gluegen.cgram; - - import java.io.*; - import java.util.*; - - import antlr.CommonAST; - import antlr.DumpASTVisitor; -} - - -class GnuCEmitter extends GnuCTreeParser; - -options - { - importVocab = GNUC; - buildAST = false; - ASTLabelType = "TNode"; - - // Copied following options from java grammar. - codeGenMakeSwitchThreshold = 2; - codeGenBitsetTestThreshold = 3; - } - - -{ - - -int tabs = 0; -PrintStream currentOutput = System.out; -int lineNum = 1; -String currentSource = ""; -LineObject trueSourceFile; -final int lineDirectiveThreshold = Integer.MAX_VALUE; -PreprocessorInfoChannel preprocessorInfoChannel = null; -Stack sourceFiles = new Stack(); - -public GnuCEmitter( PreprocessorInfoChannel preprocChannel ) -{ - preprocessorInfoChannel = preprocChannel; -} - -void initializePrinting() -{ - Vector preprocs = preprocessorInfoChannel.extractLinesPrecedingTokenNumber( new Integer(1) ); - printPreprocs(preprocs); -/* if ( currentSource.equals("") ) { - trueSourceFile = new LineObject(currentSource); - currentOutput.println("# 1 \"" + currentSource + "\"\n"); - sourceFiles.push(trueSourceFile); - } -*/ -} - -void finalizePrinting() { - // flush any leftover preprocessing instructions to the stream - - printPreprocs( - preprocessorInfoChannel.extractLinesPrecedingTokenNumber( - new Integer( preprocessorInfoChannel.getMaxTokenNumber() + 1 ) )); - //print a newline so file ends at a new line - currentOutput.println(); -} - -void printPreprocs( Vector preprocs ) -{ - // if there was a preprocessingDirective previous to this token then - // print a newline and the directive, line numbers handled later - if ( preprocs.size() > 0 ) { - if ( trueSourceFile != null ) { - currentOutput.println(); //make sure we're starting a new line unless this is the first line directive - } - lineNum++; - Enumeration e = preprocs.elements(); - while (e.hasMoreElements()) - { - Object o = e.nextElement(); - if ( o.getClass().getName().equals("LineObject") ) { - LineObject l = (LineObject) o; - - // we always return to the trueSourceFile, we never enter it from another file - // force it to be returning if in fact we aren't currently in trueSourceFile - if (( trueSourceFile != null ) //trueSource exists - && ( !currentSource.equals(trueSourceFile.getSource()) ) //currently not in trueSource - && ( trueSourceFile.getSource().equals(l.getSource()) ) ) { //returning to trueSource - l.setEnteringFile( false ); - l.setReturningToFile( true ); - } - - - // print the line directive - currentOutput.println(l); - lineNum = l.getLine(); - currentSource = l.getSource(); - - - // the very first line directive always represents the true sourcefile - if ( trueSourceFile == null ) { - trueSourceFile = new LineObject(currentSource); - sourceFiles.push(trueSourceFile); - } - - // keep our own stack of files entered - if ( l.getEnteringFile() ) { - sourceFiles.push(l); - } - - // if returning to a file, pop the exited files off the stack - if ( l.getReturningToFile() ) { - LineObject top = (LineObject) sourceFiles.peek(); - while (( top != trueSourceFile ) && (! l.getSource().equals(top.getSource()) )) { - sourceFiles.pop(); - top = (LineObject) sourceFiles.peek(); - } - } - } - else { // it was a #pragma or such - currentOutput.println(o); - lineNum++; - } - } - } - -} - -void print( TNode t ) { - int tLineNum = t.getLocalLineNum(); - if ( tLineNum == 0 ) tLineNum = lineNum; - - Vector preprocs = preprocessorInfoChannel.extractLinesPrecedingTokenNumber((Integer)t.getAttribute("tokenNumber")); - printPreprocs(preprocs); - - if ( (lineNum != tLineNum) ) { - // we know we'll be newlines or a line directive or it probably - // is just the case that this token is on the next line - // either way start a new line and indent it - currentOutput.println(); - lineNum++; - printTabs(); - } - - if ( lineNum == tLineNum ){ - // do nothing special, we're at the right place - } - else { - int diff = tLineNum - lineNum; - if ( lineNum < tLineNum ) { - // print out the blank lines to bring us up to right line number - for ( ; lineNum < tLineNum ; lineNum++ ) { - currentOutput.println(); - } - printTabs(); - } - else { // just reset lineNum - lineNum = tLineNum; - } - } - currentOutput.print( t.getText() + " " ); -} - - -/* This was my attempt at being smart about line numbers - It didn't work quite right but I don't know why, I didn't - have enough test cases. Worked ok compiling rcs and ghostscript -*/ -void printAddingLineDirectives( TNode t ) { - int tLineNum = t.getLocalLineNum(); - String tSource = (String) t.getAttribute("source"); - - if ( tSource == null ) tSource = currentSource; - if ( tLineNum == 0 ) tLineNum = lineNum; - - Vector preprocs = preprocessorInfoChannel.extractLinesPrecedingTokenNumber((Integer)t.getAttribute("tokenNumber")); - printPreprocs(preprocs); - - if ( (lineNum != tLineNum) || !currentSource.equals(tSource) ) { - // we know we'll be newlines or a line directive or it probably - // is just the case that this token is on the next line - // either way start a new line and indent it - currentOutput.println(); - lineNum++; - printTabs(); - } - - if ( ( lineNum == tLineNum ) && ( currentSource.equals(tSource) ) ){ - // do nothing special, we're at the right place - } - else if ( currentSource.equals(tSource) ) { - int diff = tLineNum - lineNum; - if (diff > 0 && diff < lineDirectiveThreshold) { - // print out the blank lines to bring us up to right line number - for ( ; lineNum < tLineNum ; lineNum++ ) { - currentOutput.println(); - } - } - else { // print line directive to get us to right line number - // preserve flags 3 and 4 if present in current file - if ( ! sourceFiles.empty() ) { - LineObject l = (LineObject) sourceFiles.peek(); - StringBuilder tFlags = new StringBuilder(""); - if (l.getSystemHeader()) { - tFlags.append(" 3"); - } - if (l.getTreatAsC()) { - tFlags.append(" 4"); - } - currentOutput.println("# " + tLineNum + " \"" + tSource + "\"" + tFlags.toString()); - lineNum = tLineNum; - } - } - - printTabs(); - } - else { // different source - Enumeration sources = sourceFiles.elements(); - // see if we're returning to a file we entered earlier - boolean returningToEarlierFile = false; - while (sources.hasMoreElements()) { - LineObject l = (LineObject) sources.nextElement(); - if (l.getSource().equals(tSource)) { - returningToEarlierFile = true; - break; - } - } - if (returningToEarlierFile) { - // pop off the files we're exiting, but never pop the trueSourceFile - LineObject l = (LineObject) sourceFiles.peek(); - while ( ( l != trueSourceFile ) &&(! l.getSource().equals(tSource) ) ) { - sourceFiles.pop(); - l = (LineObject) sourceFiles.peek(); - } - - // put in the return flag, plus others as needed - StringBuilder tFlags = new StringBuilder(" 2"); - if (l.getSystemHeader()) { - tFlags.append(" 3"); - } - if (l.getTreatAsC()) { - tFlags.append(" 4"); - } - - currentOutput.println("# " + tLineNum + " \"" + tSource + "\"" + tFlags); - lineNum = tLineNum; - currentSource = tSource; - printTabs(); - } - else { // entering a file that wasn't in the original source - // pretend we're entering it from top of stack - currentOutput.println("# " + tLineNum + " \"" + tSource + "\"" + " 1"); - lineNum = tLineNum; - currentSource = tSource; - printTabs(); - } - } - currentOutput.print( t.getText() + " " ); -} - -/** It is not ok to print newlines from the String passed in as -it will screw up the line number handling **/ -void print( String s ) { - currentOutput.print( s + " " ); -} - -void printTabs() { - for ( int i = 0; i< tabs; i++ ) { - currentOutput.print( "\t" ); - } -} - -void commaSep( TNode t ) { - print( t ); - if ( t.getNextSibling() != null ) { - print( "," ); - } -} - - int traceDepth = 0; - public void reportError(RecognitionException ex) { - if ( ex != null) { - System.err.println("ANTLR Tree Parsing RecognitionException Error: " + ex.getClass().getName() + " " + ex ); - ex.printStackTrace(System.err); - } - } - public void reportError(NoViableAltException ex) { - System.err.println("ANTLR Tree Parsing NoViableAltException Error: " + ex.toString()); - TNode.printTree( ex.node ); - ex.printStackTrace(System.err); - } - public void reportError(MismatchedTokenException ex) { - if ( ex != null) { - TNode.printTree( ex.node ); - System.err.println("ANTLR Tree Parsing MismatchedTokenException Error: " + ex ); - ex.printStackTrace(System.err); - } - } - public void reportError(String s) { - System.err.println("ANTLR Error from String: " + s); - } - public void reportWarning(String s) { - System.err.println("ANTLR Warning from String: " + s); - } - protected void match(AST t, int ttype) throws MismatchedTokenException { - //System.out.println("match("+ttype+"); cursor is "+t); - super.match(t, ttype); - } - public void match(AST t, BitSet b) throws MismatchedTokenException { - //System.out.println("match("+b+"); cursor is "+t); - super.match(t, b); - } - protected void matchNot(AST t, int ttype) throws MismatchedTokenException { - //System.out.println("matchNot("+ttype+"); cursor is "+t); - super.matchNot(t, ttype); - } - public void traceIn(String rname, AST t) { - traceDepth += 1; - for (int x=0; x typeName - | expr - ) - rp:RPAREN { print( rp ); } - ) - | p:"__complex" { print( p ); } - ; - - -typedefName - : #(NTypedefName i:ID { print( i ); } ) - ; - - -structSpecifier - : #( a:"struct" { print( a ); } - structOrUnionBody - ) - ; - -unionSpecifier - : #( a:"union" { print( a ); } - structOrUnionBody - ) - ; - -structOrUnionBody - : ( (ID LCURLY) => i1:ID lc1:LCURLY { print( i1 ); print ( "{" ); tabs++; } - ( structDeclarationList )? - rc1:RCURLY { tabs--; print( rc1 ); } - | lc2:LCURLY { print( lc2 ); tabs++; } - ( structDeclarationList )? - rc2:RCURLY { tabs--; print( rc2 ); } - | i2:ID { print( i2 ); } - ) - ; - -structDeclarationList - : ( structDeclaration { print( ";" ); } - )+ - ; - - -structDeclaration - : specifierQualifierList structDeclaratorList - ; - - -specifierQualifierList - : ( - typeSpecifier - | typeQualifier - )+ - ; - - -structDeclaratorList - : structDeclarator - ( { print(","); } structDeclarator )* - ; - - -structDeclarator - : - #( NStructDeclarator - ( declarator )? - ( c:COLON { print( c ); } expr )? - ( attributeDecl )* - ) - ; - - -enumSpecifier - : #( a:"enum" { print( a ); } - ( i:ID { print( i ); } )? - ( lc:LCURLY { print( lc ); tabs++; } - enumList - rc:RCURLY { tabs--; print( rc ); } - )? - ) - ; - - -enumList - : - enumerator ( {print(",");} enumerator)* - ; - - -enumerator - : i:ID { print( i ); } - ( b:ASSIGN { print( b ); } - expr - )? - ; - - -attributeDecl: - #( a:"__attribute" { print( a ); } - (b:. { print( b ); } )* - ) - | #( n:NAsmAttribute { print( n ); } - lp:LPAREN { print( lp ); } - expr { print( ")" ); } - rp:RPAREN { print( rp ); } - ) - ; - -initDeclList - : initDecl - ( { print( "," ); } initDecl )* - ; - - -initDecl - { String declName = ""; } - : #(NInitDecl - declarator - ( attributeDecl )* - ( a:ASSIGN { print( a ); } - initializer - | b:COLON { print( b ); } - expr - )? - ) - ; - - -pointerGroup - : #( NPointerGroup - ( a:STAR { print( a ); } - ( typeQualifier )* - )+ - ) - ; - - - -idList - : i:ID { print( i ); } - ( c:COMMA { print( c ); } - id:ID { print( id ); } - )* - ; - - - -initializer - : #( NInitializer (initializerElementLabel)? expr ) - | lcurlyInitializer - ; - -initializerElementLabel - : #( NInitializerElementLabel - ( - ( l:LBRACKET { print( l ); } - expr - r:RBRACKET { print( r ); } - (a1:ASSIGN { print( a1 ); } )? - ) - | i1:ID c:COLON { print( i1 ); print( c ); } - | d:DOT i2:ID a2:ASSIGN { print( d ); print( i2 ); print( a2 ); } - ) - ) - ; - -lcurlyInitializer - : #(n:NLcurlyInitializer { print( n ); tabs++; } - initializerList - rc:RCURLY { tabs--; print( rc ); } - ) - ; - -initializerList - : ( i:initializer { commaSep( i ); } - )* - ; - - -declarator - : #( NDeclarator - ( pointerGroup )? - - ( id:ID { print( id ); } - | lp:LPAREN { print( lp ); } declarator rp:RPAREN { print( rp ); } - ) - - ( #( n:NParameterTypeList { print( n ); } - ( - parameterTypeList - | (idList)? - ) - r:RPAREN { print( r ); } - ) - | lb:LBRACKET { print( lb );} ( expr )? rb:RBRACKET { print( rb ); } - )* - ) - ; - - - -parameterTypeList - : ( parameterDeclaration - ( c:COMMA { print( c ); } - | s:SEMI { print( s ); } - )? - )+ - ( v:VARARGS { print( v ); } )? - ; - - - -parameterDeclaration - : #( NParameterDeclaration - declSpecifiers - (declarator | nonemptyAbstractDeclarator)? - ) - ; - - -functionDef - : #( NFunctionDef - ( functionDeclSpecifiers)? - declarator - (declaration - | v:VARARGS { print( v ); } - )* - compoundStatement - ) - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - -functionDeclSpecifiers - : - ( functionStorageClassSpecifier - | typeQualifier - | typeSpecifier - )+ - ; - -declarationList - : - ( //ANTLR doesn't know that declarationList properly eats all the declarations - //so it warns about the ambiguity - options { - warnWhenFollowAmbig = false; - } : - localLabelDecl - | declaration - )+ - ; - -localLabelDecl - : #(a:"__label__" { print( a ); } - ( i:ID { commaSep( i ); } - )+ - { print( ";" ); } - ) - ; - - - -compoundStatement - : #( cs:NCompoundStatement { print( cs ); tabs++; } - ( declarationList - | functionDef - )* - ( statementList )? - rc:RCURLY { tabs--; print( rc ); } - ) - - ; - -statementList - : ( statement )+ - ; - -statement - : statementBody - ; - -statementBody - : s:SEMI { print( s ); } - - | compoundStatement // Group of statements - - | #(NStatementExpr - expr { print( ";" ); } - ) // Expressions - -// Iteration statements: - - | #( w:"while" { print( w ); print( "(" ); } - expr { print( ")" ); } - statement ) - - | #( d:"do" { print( d ); } - statement - { print( " while ( " ); } - expr - { print( " );" ); } - ) - - | #( f:"for" { print( f ); print( "(" ); } - expr { print( ";" ); } - expr { print( ";" ); } - expr { print( ")" ); } - statement - ) - - -// Jump statements: - - | #( g:"goto" { print( g );} - expr { print( ";" ); } - ) - | c:"continue" { print( c ); print( ";" );} - | b:"break" { print( b ); print( ";" );} - | #( r:"return" { print( r ); } - ( expr )? - { print( ";" ); } - ) - - -// Labeled statements: - | #( NLabel - ni:ID { print( ni ); print( ":" ); } - ( statement )? - ) - - | #( - ca:"case" { print( ca ); } - expr { print( ":" ); } - (statement)? - ) - - | #( - de:"default" { print( de ); print( ":" ); } - (statement)? - ) - - - -// Selection statements: - - | #( i:"if" { print( i ); print( "(" ); } - expr { print( ")" ); } - statement - ( e:"else" { print( e ); } - statement - )? - ) - | #( sw:"switch" { print( sw ); print( "(" ); } - expr { print( ")" ); } - statement - ) - - - - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - - - - - - -expr - : - binaryExpr - | conditionalExpr - | castExpr - | unaryExpr - | postfixExpr - | primaryExpr - | emptyExpr - | compoundStatementExpr - | initializer - | rangeExpr - | gnuAsmExpr - ; - -emptyExpr - : NEmptyExpression - ; - -compoundStatementExpr - : #(l:LPAREN { print( l ); } - compoundStatement - r:RPAREN { print( r ); } - ) - ; - -rangeExpr - : #(NRangeExpr expr v:VARARGS{ print( v ); } expr) - ; - -gnuAsmExpr - : #(n:NGnuAsmExpr { print( n ); } - (v:"volatile" { print( v ); } )? - lp:LPAREN { print( lp ); } - stringConst - ( options { warnWhenFollowAmbig = false; }: - c1:COLON { print( c1 );} - (strOptExprPair - ( c2:COMMA { print( c2 ); } strOptExprPair)* - )? - ( options { warnWhenFollowAmbig = false; }: - c3:COLON { print( c3 ); } - (strOptExprPair - ( c4:COMMA { print( c4 ); } strOptExprPair)* - )? - )? - )? - ( c5:COLON { print( c5 ); } - stringConst - ( c6:COMMA { print( c6 ); } - stringConst - )* - )? - rp:RPAREN { print( rp ); } - ) - ; - -strOptExprPair - : stringConst - ( - l:LPAREN { print( l ); } - expr - r:RPAREN { print( r ); } - )? - ; - -binaryOperator - : ASSIGN - | DIV_ASSIGN - | PLUS_ASSIGN - | MINUS_ASSIGN - | STAR_ASSIGN - | MOD_ASSIGN - | RSHIFT_ASSIGN - | LSHIFT_ASSIGN - | BAND_ASSIGN - | BOR_ASSIGN - | BXOR_ASSIGN - | LOR - | LAND - | BOR - | BXOR - | BAND - | EQUAL - | NOT_EQUAL - | LT - | LTE - | GT - | GTE - | LSHIFT - | RSHIFT - | PLUS - | MINUS - | STAR - | DIV - | MOD - | NCommaExpr - ; - -binaryExpr - : b:binaryOperator - // no rules allowed as roots, so here I manually get - // the first and second children of the binary operator - // and then print them out in the right order - { TNode e1, e2; - e1 = (TNode) b.getFirstChild(); - e2 = (TNode) e1.getNextSibling(); - expr( e1 ); - print( b ); - expr( e2 ); - } - - ; - - -conditionalExpr - : #( q:QUESTION - expr { print( q ); } - ( expr )? - c:COLON { print( c ); } - expr - ) - ; - - -castExpr - : #( - c:NCast { print( c ); } - typeName - rp:RPAREN { print( rp ); } - expr - ) - ; - - -typeName - : specifierQualifierList (nonemptyAbstractDeclarator)? - ; - -nonemptyAbstractDeclarator - : #( NNonemptyAbstractDeclarator - ( pointerGroup - ( (lp1:LPAREN { print( lp1 ); } - ( nonemptyAbstractDeclarator - | parameterTypeList - )? - rp1:RPAREN { print( rp1 ); } - ) - | ( - lb1:LBRACKET { print( lb1 ); } - (expr)? - rb1:RBRACKET { print( rb1 ); } - ) - )* - - | ( (lp2:LPAREN { print( lp2 ); } - ( nonemptyAbstractDeclarator - | parameterTypeList - )? - rp2:RPAREN { print( rp2 ); } - ) - | ( - lb2:LBRACKET { print( lb2 ); } - (expr)? - rb2:RBRACKET { print( rb2 ); } - ) - )+ - ) - ) - ; - - - -unaryExpr - : #( i:INC { print( i ); } expr ) - | #( d:DEC { print( d ); } expr ) - | #( NUnaryExpr u:unaryOperator { print( u ); } expr) - | #( s:"sizeof" { print( s ); } - ( ( LPAREN typeName )=> - lps:LPAREN { print( lps ); } - typeName - rps:RPAREN { print( rps ); } - | expr - ) - ) - | #( a:"__alignof" { print( a ); } - ( ( LPAREN typeName )=> - lpa:LPAREN { print( lpa ); } - typeName - rpa:RPAREN { print( rpa ); } - | expr - ) - ) - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - - unaryOperator - : BAND - | STAR - | PLUS - | MINUS - | BNOT - | LNOT - | LAND - | "__real" - | "__imag" - ; - - -postfixExpr - : #( NPostfixExpr - primaryExpr - ( a:PTR b:ID { print( a ); print( b ); } - | c:DOT d:ID { print( c ); print( d ); } - | #( n:NFunctionCallArgs { print( n ); } - (argExprList)? - rp:RPAREN { print( rp ); } - ) - | lb:LBRACKET { print( lb ); } - expr - rb:RBRACKET { print( rb ); } - | f:INC { print( f ); } - | g:DEC { print( g ); } - )+ - ) - ; - - - -primaryExpr - : i:ID { print( i ); } - | n:Number { print( n ); } - | charConst - | stringConst - -// JTC: -// ID should catch the enumerator -// leaving it in gives ambiguous err -// | enumerator - - | #( eg:NExpressionGroup { print( eg ); } - expr { print( ")" ); } - ) - ; - - - -argExprList - : expr ( {print( "," );} expr )* - ; - - - -protected -charConst - : c:CharLiteral { print( c ); } - ; - - -protected -stringConst - : #( NStringSeq - ( - s:StringLiteral { print( s ); } - )+ - ) - ; - - -protected -intConst - : IntOctalConst - | LongOctalConst - | UnsignedOctalConst - | IntIntConst - | LongIntConst - | UnsignedIntConst - | IntHexConst - | LongHexConst - | UnsignedHexConst - ; - - -protected -floatConst - : FloatDoubleConst - | DoubleDoubleConst - | LongDoubleConst - ; - - - - - - - - - - diff --git a/src/java/com/jogamp/gluegen/cgram/GnuCParser.g b/src/java/com/jogamp/gluegen/cgram/GnuCParser.g deleted file mode 100644 index e8ca8c5..0000000 --- a/src/java/com/jogamp/gluegen/cgram/GnuCParser.g +++ /dev/null @@ -1,878 +0,0 @@ -/*%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - - Copyright (c) Non, Inc. 1998 -- All Rights Reserved - -PROJECT: C Compiler -MODULE: GnuCParser -FILE: GnuCParser.g - -AUTHOR: Monty Zukowski (jamz@cdsnet.net) April 28, 1998 - -DESCRIPTION: - This is a grammar for the GNU C compiler. It is a - grammar subclass of StdCParser, overriding only those - rules which are different from Standard C. - -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/ - - -header { - package com.jogamp.gluegen.cgram; - - import java.io.*; - - import antlr.CommonAST; - import antlr.DumpASTVisitor; -} - - -class GnuCParser extends StdCParser; - -options - { - k = 2; - exportVocab = GNUC; - buildAST = true; - ASTLabelType = "TNode"; - - // Copied following options from java grammar. - codeGenMakeSwitchThreshold = 2; - codeGenBitsetTestThreshold = 3; - } - - -{ - // Suppport C++-style single-line comments? - public static boolean CPPComments = true; - - // access to symbol table - public CSymbolTable symbolTable = new CSymbolTable(); - - // source for names to unnamed scopes - protected int unnamedScopeCounter = 0; - - public boolean isTypedefName(String name) { - boolean returnValue = false; - TNode node = symbolTable.lookupNameInCurrentScope(name); - for (; node != null; node = (TNode) node.getNextSibling() ) { - if(node.getType() == LITERAL_typedef) { - returnValue = true; - break; - } - } - return returnValue; - } - - - public String getAScopeName() { - return "" + (unnamedScopeCounter++); - } - - public void pushScope(String scopeName) { - symbolTable.pushScope(scopeName); - } - - public void popScope() { - symbolTable.popScope(); - } - - int traceDepth = 0; - public void reportError(RecognitionException ex) { - try { - System.err.println("ANTLR Parsing Error: "+ex + " token name:" + tokenNames[LA(1)]); - ex.printStackTrace(System.err); - } - catch (TokenStreamException e) { - System.err.println("ANTLR Parsing Error: "+ex); - ex.printStackTrace(System.err); - } - } - public void reportError(String s) { - System.err.println("ANTLR Parsing Error from String: " + s); - } - public void reportWarning(String s) { - System.err.println("ANTLR Parsing Warning from String: " + s); - } - public void match(int t) throws MismatchedTokenException { - boolean debugging = false; - - if ( debugging ) { - for (int x=0; x0)?" [inputState.guessing "+ inputState.guessing + "]":"")); - - } - - } - try { - if ( LA(1)!=t ) { - if ( debugging ){ - for (int x=0; x "+rname+"; LA(1)==("+ tokenNames[LT(1).getType()] - + ") " + LT(1).getText() + " [inputState.guessing "+ inputState.guessing + "]"); - } - catch (TokenStreamException e) { - } - } - public void traceOut(String rname) { - for (int x=0; x declaration - | ( functionPrefix )=> functionDef - | typelessDeclaration - | asm_expr - | SEMI - ; - -/* these two are here because GCC allows "cat = 13;" as a valid program! */ -functionPrefix - { String declName; } - : ( (functionDeclSpecifiers)=> ds:functionDeclSpecifiers - | //epsilon - ) - declName = d:declarator[true] - ( declaration )* (VARARGS)? ( SEMI )* - LCURLY - ; - -typelessDeclaration - { AST typeMissing = #[NTypeMissing]; } - : initDeclList[typeMissing] SEMI { ## = #( #[NTypeMissing], ##); } - ; - -initializer - : ( ( ( (initializerElementLabel)=> initializerElementLabel )? - ( assignExpr | lcurlyInitializer ) { ## = #( #[NInitializer], ## ); } - ) - | lcurlyInitializer - ) - ; - -// GCC allows more specific initializers -initializerElementLabel - : ( ( LBRACKET ((constExpr VARARGS)=> rangeExpr | constExpr) RBRACKET (ASSIGN)? ) - | ID COLON - | DOT ID ASSIGN - ) - { ## = #( #[NInitializerElementLabel], ##) ; } - ; - -// GCC allows empty initializer lists -lcurlyInitializer - : - LCURLY^ (initializerList ( COMMA! )? )? RCURLY - { ##.setType( NLcurlyInitializer ); } - ; - -initializerList - : initializer ( options{warnWhenFollowAmbig=false;}:COMMA! initializer )* - ; - - -declarator[boolean isFunctionDefinition] returns [String declName] - { declName = ""; } - : - ( pointerGroup )? - - ( id:ID { declName = id.getText(); } - | LPAREN declName = declarator[false] RPAREN - ) - - ( declaratorParamaterList[isFunctionDefinition, declName] - | LBRACKET ( expr )? RBRACKET - )* - { ## = #( #[NDeclarator], ## ); } - ; - -declaratorParamaterList[boolean isFunctionDefinition, String declName] - : - LPAREN^ - { - if (isFunctionDefinition) { - pushScope(declName); - } - else { - pushScope("!"+declName); - } - } - ( - (declSpecifiers)=> parameterTypeList - | (idList)? - ) - { - popScope(); - } - ( COMMA! )? - RPAREN - { ##.setType(NParameterTypeList); } - ; - -parameterTypeList - : parameterDeclaration - ( options { - warnWhenFollowAmbig = false; - } : - ( COMMA | SEMI ) - parameterDeclaration - )* - ( ( COMMA | SEMI ) - VARARGS - )? - ; - - -declarationList - : ( options { // this loop properly aborts when - // it finds a non-typedefName ID MBZ - warnWhenFollowAmbig = false; - } : - - localLabelDeclaration - | ( declarationPredictor )=> declaration - )+ - ; -localLabelDeclaration - : ( //GNU note: any __label__ declarations must come before regular declarations. - "__label__"^ ID (options{warnWhenFollowAmbig=false;}: COMMA! ID)* ( COMMA! )? ( SEMI! )+ - ) - ; - - -declaration - { AST ds1 = null; } - : ds:declSpecifiers { ds1 = astFactory.dupList(#ds); } - ( - initDeclList[ds1] - )? - ( SEMI )+ - { ## = #( #[NDeclaration], ##); } - - ; - -functionStorageClassSpecifier - : "extern" - | "static" - | "inline" - ; - -typeSpecifier [int specCount] returns [int retSpecCount] - { retSpecCount = specCount + 1; } - : - ( "void" - | "char" - | "short" - | "int" - | "long" - | "float" - | "double" - | "signed" - | "unsigned" - | "int8_t" - | "uint8_t" - | "int16_t" - | "uint16_t" - | "__int32" - | "int32_t" - | "wchar_t" - | "uint32_t" - | "__int64" - | "int64_t" - | "uint64_t" - | "ptrdiff_t" - | "intptr_t" - | "size_t" - | "uintptr_t" - | structOrUnionSpecifier ( options{warnWhenFollowAmbig=false;}: attributeDecl )* - | enumSpecifier - | { specCount==0 }? typedefName - | "typeof"^ LPAREN - ( ( typeName )=> typeName - | expr - ) - RPAREN - | "__complex" - ) - ; - - -structOrUnionSpecifier - { String scopeName; } - : sou:structOrUnion! - ( ( ID LCURLY )=> i:ID l:LCURLY - { - scopeName = #sou.getText() + " " + #i.getText(); - #l.setText(scopeName); - pushScope(scopeName); - } - ( structDeclarationList )? - { popScope();} - RCURLY - | l1:LCURLY - { - scopeName = getAScopeName(); - #l1.setText(scopeName); - pushScope(scopeName); - } - ( structDeclarationList )? - { popScope(); } - RCURLY - | ID - ) - { - ## = #( #sou, ## ); - } - ; - - -structDeclaration - : specifierQualifierList structDeclaratorList ( COMMA! )? ( SEMI! )+ - ; - -structDeclaratorList - : structDeclarator ( options{warnWhenFollowAmbig=false;}: COMMA! structDeclarator )* - ; - -structDeclarator - : ( declarator[false] )? - ( COLON constExpr )? - ( attributeDecl )* - { ## = #( #[NStructDeclarator], ##); } - ; - - - -enumSpecifier - : "enum"^ - ( ( ID LCURLY )=> i:ID LCURLY enumList[i.getText()] RCURLY - | LCURLY enumList["anonymous"] RCURLY - | ID - ) - ; -enumList[String enumName] - : enumerator[enumName] ( options{warnWhenFollowAmbig=false;}: COMMA! enumerator[enumName] )* ( COMMA! )? - ; - - -initDeclList[AST declarationSpecifiers] - : initDecl[declarationSpecifiers] - ( options{warnWhenFollowAmbig=false;}: COMMA! initDecl[declarationSpecifiers] )* - ( COMMA! )? - ; - -initDecl[AST declarationSpecifiers] - { String declName = ""; } - : declName = d:declarator[false] - { AST ds1, d1; - ds1 = astFactory.dupList(declarationSpecifiers); - d1 = astFactory.dupList(#d); - symbolTable.add(declName, #(null, ds1, d1) ); - } - ( attributeDecl )* - ( ASSIGN initializer - | COLON expr - )? - { ## = #( #[NInitDecl], ## ); } - ; - -attributeDecl - : "__attribute"^ LPAREN LPAREN attributeList RPAREN RPAREN - | "asm"^ LPAREN stringConst RPAREN { ##.setType( NAsmAttribute ); } - ; - -attributeList - : attribute ( options{warnWhenFollowAmbig=false;}: COMMA attribute)* ( COMMA )? - ; - -attribute - : ( ~(LPAREN | RPAREN | COMMA) - | LPAREN attributeList RPAREN - )* - ; -compoundStatement[String scopeName] - : LCURLY^ - - { - pushScope(scopeName); - } - ( //this ambiguity is ok, declarationList and nestedFunctionDef end properly - options { - warnWhenFollowAmbig = false; - } : - ( "typedef" | "__label__" | declaration )=> declarationList - | (nestedFunctionDef)=> nestedFunctionDef - )* - ( statementList )? - { popScope(); } - RCURLY - { ##.setType( NCompoundStatement ); ##.setAttribute( "scopeName", scopeName ); } - ; - -nestedFunctionDef - { String declName; } - : ( "auto" )? //only for nested functions - ( (functionDeclSpecifiers)=> ds:functionDeclSpecifiers - )? - declName = d:declarator[false] - { - AST d2, ds2; - d2 = astFactory.dupList(#d); - ds2 = astFactory.dupList(#ds); - symbolTable.add(declName, #(null, ds2, d2)); - pushScope(declName); - } - ( declaration )* - { popScope(); } - compoundStatement[declName] - { ## = #( #[NFunctionDef], ## );} - ; - -statement - : SEMI // Empty statements - - | compoundStatement[getAScopeName()] // Group of statements - - | expr SEMI! { ## = #( #[NStatementExpr], ## );} // Expressions - -// Iteration statements: - - | "while"^ LPAREN! expr RPAREN! statement - | "do"^ statement "while"! LPAREN! expr RPAREN! SEMI! - |! "for" - LPAREN ( e1:expr )? SEMI ( e2:expr )? SEMI ( e3:expr )? RPAREN - s:statement - { - if ( #e1 == null) { #e1 = (TNode) #[ NEmptyExpression ]; } - if ( #e2 == null) { #e2 = (TNode) #[ NEmptyExpression ]; } - if ( #e3 == null) { #e3 = (TNode) #[ NEmptyExpression ]; } - ## = #( #[LITERAL_for, "for"], #e1, #e2, #e3, #s ); - } - - -// Jump statements: - - | "goto"^ expr SEMI! - | "continue" SEMI! - | "break" SEMI! - | "return"^ ( expr )? SEMI! - - - | ID COLON! (options {warnWhenFollowAmbig=false;}: statement)? { ## = #( #[NLabel], ## ); } -// GNU allows range expressions in case statements - | "case"^ ((constExpr VARARGS)=> rangeExpr | constExpr) COLON! ( options{warnWhenFollowAmbig=false;}:statement )? - | "default"^ COLON! ( options{warnWhenFollowAmbig=false;}: statement )? - -// Selection statements: - - | "if"^ - LPAREN! expr RPAREN! statement - ( //standard if-else ambiguity - options { - warnWhenFollowAmbig = false; - } : - "else" statement )? - | "switch"^ LPAREN! expr RPAREN! statement - ; - - - -conditionalExpr - : logicalOrExpr - ( QUESTION^ (expr)? COLON conditionalExpr )? - ; - -rangeExpr //used in initializers only - : constExpr VARARGS constExpr - { ## = #(#[NRangeExpr], ##); } - ; - -castExpr - : ( LPAREN typeName RPAREN )=> - LPAREN^ typeName RPAREN ( castExpr | lcurlyInitializer ) - { ##.setType(NCast); } - - | unaryExpr - ; -nonemptyAbstractDeclarator - : ( - pointerGroup - ( (LPAREN - ( nonemptyAbstractDeclarator - | parameterTypeList - )? - ( COMMA! )? - RPAREN) - | (LBRACKET (expr)? RBRACKET) - )* - - | ( (LPAREN - ( nonemptyAbstractDeclarator - | parameterTypeList - )? - ( COMMA! )? - RPAREN) - | (LBRACKET (expr)? RBRACKET) - )+ - ) - { ## = #( #[NNonemptyAbstractDeclarator], ## ); } - - ; - - - -unaryExpr - : postfixExpr - | INC^ castExpr - | DEC^ castExpr - | u:unaryOperator castExpr { ## = #( #[NUnaryExpr], ## ); } - - | "sizeof"^ - ( ( LPAREN typeName )=> LPAREN typeName RPAREN - | unaryExpr - ) - | "__alignof"^ - ( ( LPAREN typeName )=> LPAREN typeName RPAREN - | unaryExpr - ) - | gnuAsmExpr - ; - -unaryOperator - : BAND - | STAR - | PLUS - | MINUS - | BNOT //also stands for complex conjugation - | LNOT - | LAND //for label dereference (&&label) - | "__real" - | "__imag" - ; - -gnuAsmExpr - : "asm"^ ("volatile")? - LPAREN stringConst - ( options { warnWhenFollowAmbig = false; }: - COLON (strOptExprPair ( COMMA strOptExprPair)* )? - ( options { warnWhenFollowAmbig = false; }: - COLON (strOptExprPair ( COMMA strOptExprPair)* )? - )? - )? - ( COLON stringConst ( COMMA stringConst)* )? - RPAREN - { ##.setType(NGnuAsmExpr); } - ; - -//GCC requires the PARENs -strOptExprPair - : stringConst ( LPAREN expr RPAREN )? - ; - - -primaryExpr - : ID - | Number - | charConst - | stringConst -// JTC: -// ID should catch the enumerator -// leaving it in gives ambiguous err -// | enumerator - | (LPAREN LCURLY) => LPAREN^ compoundStatement[getAScopeName()] RPAREN - | LPAREN^ expr RPAREN { ##.setType(NExpressionGroup); } - ; - - -{ - import java.io.*; - import java.util.*; - import antlr.*; -} - -class GnuCLexer extends StdCLexer; -options - { - k = 3; - importVocab = GNUC; - testLiterals = false; - } -tokens { - LITERAL___extension__ = "__extension__"; -} - -{ - public void initialize(String src) - { - setOriginalSource(src); - initialize(); - } - - public void initialize() - { - literals.put(new ANTLRHashString("__alignof__", this), new Integer(LITERAL___alignof)); - literals.put(new ANTLRHashString("__asm", this), new Integer(LITERAL_asm)); - literals.put(new ANTLRHashString("__asm__", this), new Integer(LITERAL_asm)); - literals.put(new ANTLRHashString("__attribute__", this), new Integer(LITERAL___attribute)); - literals.put(new ANTLRHashString("__complex__", this), new Integer(LITERAL___complex)); - literals.put(new ANTLRHashString("__const", this), new Integer(LITERAL_const)); - literals.put(new ANTLRHashString("__const__", this), new Integer(LITERAL_const)); - literals.put(new ANTLRHashString("__imag__", this), new Integer(LITERAL___imag)); - literals.put(new ANTLRHashString("__inline", this), new Integer(LITERAL_inline)); - literals.put(new ANTLRHashString("__inline__", this), new Integer(LITERAL_inline)); - literals.put(new ANTLRHashString("__real__", this), new Integer(LITERAL___real)); - literals.put(new ANTLRHashString("__signed", this), new Integer(LITERAL_signed)); - literals.put(new ANTLRHashString("__signed__", this), new Integer(LITERAL_signed)); - literals.put(new ANTLRHashString("__typeof", this), new Integer(LITERAL_typeof)); - literals.put(new ANTLRHashString("__typeof__", this), new Integer(LITERAL_typeof)); - literals.put(new ANTLRHashString("__volatile", this), new Integer(LITERAL_volatile)); - literals.put(new ANTLRHashString("__volatile__", this), new Integer(LITERAL_volatile)); - } - - - LineObject lineObject = new LineObject(); - String originalSource = ""; - PreprocessorInfoChannel preprocessorInfoChannel = new PreprocessorInfoChannel(); - int tokenNumber = 0; - boolean countingTokens = true; - int deferredLineCount = 0; - List defines = new ArrayList(); - - public void setCountingTokens(boolean ct) - { - countingTokens = ct; - if ( countingTokens ) { - tokenNumber = 0; - } - else { - tokenNumber = 1; - } - } - - public void setOriginalSource(String src) - { - originalSource = src; - lineObject.setSource(src); - } - public void setSource(String src) - { - lineObject.setSource(src); - } - - public PreprocessorInfoChannel getPreprocessorInfoChannel() - { - return preprocessorInfoChannel; - } - - public void setPreprocessingDirective(String pre) - { - preprocessorInfoChannel.addLineForTokenNumber( pre, new Integer(tokenNumber) ); - } - - public void addDefine(String name, String value) - { - defines.add(new Define(name, value)); - } - - /** Returns a list of Define objects corresponding to the - preprocessor definitions seen during parsing. */ - public List getDefines() { - return defines; - } - - protected Token makeToken(int t) - { - if ( t != Token.SKIP && countingTokens) { - tokenNumber++; - } - CToken tok = (CToken) super.makeToken(t); - tok.setLine(lineObject.line); - tok.setSource(lineObject.source); - tok.setTokenNumber(tokenNumber); - - lineObject.line += deferredLineCount; - deferredLineCount = 0; - return tok; - } - - public void deferredNewline() { - deferredLineCount++; - } - - public void newline() { - lineObject.newline(); - } - - - - - - -} -Whitespace - : ( ( ' ' | '\t' | '\014') - | "\r\n" { newline(); } - | ( '\n' | '\r' ) { newline(); } - ) { _ttype = Token.SKIP; } - ; - - -protected -Escape - : '\\' - ( options{warnWhenFollowAmbig=false;}: - ~('0'..'7' | 'x') - | ('0'..'3') ( options{warnWhenFollowAmbig=false;}: Digit )* - | ('4'..'7') ( options{warnWhenFollowAmbig=false;}: Digit )* - | 'x' ( options{warnWhenFollowAmbig=false;}: Digit | 'a'..'f' | 'A'..'F' )+ - ) - ; - -protected IntSuffix - : 'L' - | 'l' - | 'U' - | 'u' - | 'I' - | 'i' - | 'J' - | 'j' - ; -protected NumberSuffix - : - IntSuffix - | 'F' - | 'f' - ; - -Number - : ( ('-')? ( Digit )+ ( '.' | 'e' | 'E' ) )=> ('-')? ( Digit )+ - ( '.' ( Digit )* ( Exponent )? - | Exponent - ) - ( NumberSuffix - )* - - | ( "..." )=> "..." { _ttype = VARARGS; } - - | '.' { _ttype = DOT; } - ( ( Digit )+ ( Exponent )? - { _ttype = Number; } - ( NumberSuffix - )* - )? - - | '0' ( '0'..'7' )* - ( NumberSuffix - )* - - | ('-')? '1'..'9' ( Digit )* - ( NumberSuffix - )* - - | '0' ( 'x' | 'X' ) ( 'a'..'f' | 'A'..'F' | Digit )+ - ( IntSuffix - )* - ; - -IDMEAT - : - i:ID { - - if ( i.getType() == LITERAL___extension__ ) { - $setType(Token.SKIP); - } - else { - $setType(i.getType()); - } - - } - ; - -protected ID - options - { - testLiterals = true; - } - : ( 'a'..'z' | 'A'..'Z' | '_' | '$') - ( 'a'..'z' | 'A'..'Z' | '_' | '$' | '0'..'9' )* - ; - -WideCharLiteral - : - 'L' CharLiteral - { $setType(CharLiteral); } - ; - - - -WideStringLiteral - : - 'L' StringLiteral - { $setType(StringLiteral); } - ; - -StringLiteral - : - '"' - ( ('\\' ~('\n'))=> Escape - | ( '\r' { newline(); } - | '\n' { - newline(); - } - | '\\' '\n' { - newline(); - } - ) - | ~( '"' | '\r' | '\n' | '\\' ) - )* - '"' - ; - - - - diff --git a/src/java/com/jogamp/gluegen/cgram/GnuCTreeParser.g b/src/java/com/jogamp/gluegen/cgram/GnuCTreeParser.g deleted file mode 100644 index dbe2f98..0000000 --- a/src/java/com/jogamp/gluegen/cgram/GnuCTreeParser.g +++ /dev/null @@ -1,867 +0,0 @@ -/*%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - - Copyright (c) Non, Inc. 1998 -- All Rights Reserved - -PROJECT: C Compiler -MODULE: GnuCTreeParser -FILE: GnuCTreeParser.g - -AUTHOR: Monty Zukowski (jamz@cdsnet.net) April 28, 1998 - -DESCRIPTION: - - This tree grammar is for a Gnu C AST. No actions in it, - subclass to do something useful. - -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/ - - -header { - package com.jogamp.gluegen.cgram; - - import java.io.*; - - import antlr.CommonAST; - import antlr.DumpASTVisitor; -} - - -class GnuCTreeParser extends TreeParser; - -options - { - importVocab = GNUC; - buildAST = false; - ASTLabelType = "TNode"; - - // Copied following options from java grammar. - codeGenMakeSwitchThreshold = 2; - codeGenBitsetTestThreshold = 3; - } - - -{ - int traceDepth = 0; - public void reportError(RecognitionException ex) { - if ( ex != null) { - System.err.println("ANTLR Tree Parsing RecognitionException Error: " + ex.getClass().getName() + " " + ex ); - ex.printStackTrace(System.err); - } - } - public void reportError(NoViableAltException ex) { - System.err.println("ANTLR Tree Parsing NoViableAltException Error: " + ex.toString()); - TNode.printTree( ex.node ); - ex.printStackTrace(System.err); - } - public void reportError(MismatchedTokenException ex) { - if ( ex != null) { - TNode.printTree( ex.node ); - System.err.println("ANTLR Tree Parsing MismatchedTokenException Error: " + ex ); - ex.printStackTrace(System.err); - } - } - public void reportError(String s) { - System.err.println("ANTLR Error from String: " + s); - } - public void reportWarning(String s) { - System.err.println("ANTLR Warning from String: " + s); - } - protected void match(AST t, int ttype) throws MismatchedTokenException { - //System.out.println("match("+ttype+"); cursor is "+t); - super.match(t, ttype); - } - public void match(AST t, BitSet b) throws MismatchedTokenException { - //System.out.println("match("+b+"); cursor is "+t); - super.match(t, b); - } - protected void matchNot(AST t, int ttype) throws MismatchedTokenException { - //System.out.println("matchNot("+ttype+"); cursor is "+t); - super.matchNot(t, ttype); - } - public void traceIn(String rname, AST t) { - traceDepth += 1; - for (int x=0; x typeName - | expr - ) - RPAREN - ) - | "__complex" - ; - - -typedefName - : #(NTypedefName ID) - ; - - -structSpecifier - : #( "struct" structOrUnionBody ) - ; - -unionSpecifier - : #( "union" structOrUnionBody ) - ; - -structOrUnionBody - : ( (ID LCURLY) => ID LCURLY - ( structDeclarationList )? - RCURLY - | LCURLY - ( structDeclarationList )? - RCURLY - | ID - ) - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - - -structDeclarationList - : ( structDeclaration )+ - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - - - -structDeclaration - : specifierQualifierList structDeclaratorList - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - - - -specifierQualifierList - : ( - typeSpecifier - | typeQualifier - )+ - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - - - -structDeclaratorList - : ( structDeclarator )+ - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - - - -structDeclarator - : - #( NStructDeclarator - ( declarator )? - ( COLON expr )? - ( attributeDecl )* - ) - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - - - - -enumSpecifier - : #( "enum" - ( ID )? - ( LCURLY enumList RCURLY )? - ) - ; - - -enumList - : ( enumerator )+ - ; - - -enumerator - : ID ( ASSIGN expr )? - ; - - - -attributeDecl: - #( "__attribute" (.)* ) - | #( NAsmAttribute LPAREN expr RPAREN ) - ; - -initDeclList - : ( initDecl )+ - ; - - -initDecl - { String declName = ""; } - : #( NInitDecl - declarator - ( attributeDecl )* - ( ASSIGN initializer - | COLON expr - )? - ) - ; - - -pointerGroup - : #( NPointerGroup ( STAR ( typeQualifier )* )+ ) - ; - - - -idList - : ID ( COMMA ID )* - ; - - - -initializer - : #( NInitializer (initializerElementLabel)? expr ) - | lcurlyInitializer - ; - -initializerElementLabel - : #( NInitializerElementLabel - ( - ( LBRACKET expr RBRACKET (ASSIGN)? ) - | ID COLON - | DOT ID ASSIGN - ) - ) - ; - -lcurlyInitializer - : #( NLcurlyInitializer - initializerList - RCURLY - ) - ; - -initializerList - : ( initializer )* - ; - - -declarator - : #( NDeclarator - ( pointerGroup )? - - ( id:ID - | LPAREN declarator RPAREN - ) - - ( #( NParameterTypeList - ( - parameterTypeList - | (idList)? - ) - RPAREN - ) - | LBRACKET ( expr )? RBRACKET - )* - ) - ; - - - -parameterTypeList - : ( parameterDeclaration ( COMMA | SEMI )? )+ ( VARARGS )? - ; - - - -parameterDeclaration - : #( NParameterDeclaration - declSpecifiers - (declarator | nonemptyAbstractDeclarator)? - ) - ; - - -functionDef - : #( NFunctionDef - ( functionDeclSpecifiers)? - declarator - (declaration | VARARGS)* - compoundStatement - ) - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - -functionDeclSpecifiers - : - ( functionStorageClassSpecifier - | typeQualifier - | typeSpecifier - )+ - ; - -declarationList - : - ( //ANTLR doesn't know that declarationList properly eats all the declarations - //so it warns about the ambiguity - options { - warnWhenFollowAmbig = false; - } : - localLabelDecl - | declaration - )+ - ; - -localLabelDecl - : #("__label__" (ID)+ ) - ; - - - -compoundStatement - : #( NCompoundStatement - ( declarationList - | functionDef - )* - ( statementList )? - RCURLY - ) - ; - -statementList - : ( statement )+ - ; - -statement - : statementBody - ; - -statementBody - : SEMI // Empty statements - - | compoundStatement // Group of statements - - | #(NStatementExpr expr) // Expressions - -// Iteration statements: - - | #( "while" expr statement ) - | #( "do" statement expr ) - | #( "for" - expr expr expr - statement - ) - - -// Jump statements: - - | #( "goto" expr ) - | "continue" - | "break" - | #( "return" ( expr )? ) - - -// Labeled statements: - | #( NLabel ID (statement)? ) - | #( "case" expr (statement)? ) - | #( "default" (statement)? ) - - - -// Selection statements: - - | #( "if" - expr statement - ( "else" statement )? - ) - | #( "switch" expr statement ) - - - - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - - - - - - -expr - : assignExpr - | conditionalExpr - | logicalOrExpr - | logicalAndExpr - | inclusiveOrExpr - | exclusiveOrExpr - | bitAndExpr - | equalityExpr - | relationalExpr - | shiftExpr - | additiveExpr - | multExpr - | castExpr - | unaryExpr - | postfixExpr - | primaryExpr - | commaExpr - | emptyExpr - | compoundStatementExpr - | initializer - | rangeExpr - | gnuAsmExpr - ; - -commaExpr - : #(NCommaExpr expr expr) - ; - -emptyExpr - : NEmptyExpression - ; - -compoundStatementExpr - : #(LPAREN compoundStatement RPAREN) - ; - -rangeExpr - : #(NRangeExpr expr VARARGS expr) - ; - -gnuAsmExpr - : #(NGnuAsmExpr - ("volatile")? - LPAREN stringConst - ( options { warnWhenFollowAmbig = false; }: - COLON (strOptExprPair ( COMMA strOptExprPair)* )? - ( options { warnWhenFollowAmbig = false; }: - COLON (strOptExprPair ( COMMA strOptExprPair)* )? - )? - )? - ( COLON stringConst ( COMMA stringConst)* )? - RPAREN - ) - ; - -strOptExprPair - : stringConst ( LPAREN expr RPAREN )? - ; - -assignExpr - : #( ASSIGN expr expr) - | #( DIV_ASSIGN expr expr) - | #( PLUS_ASSIGN expr expr) - | #( MINUS_ASSIGN expr expr) - | #( STAR_ASSIGN expr expr) - | #( MOD_ASSIGN expr expr) - | #( RSHIFT_ASSIGN expr expr) - | #( LSHIFT_ASSIGN expr expr) - | #( BAND_ASSIGN expr expr) - | #( BOR_ASSIGN expr expr) - | #( BXOR_ASSIGN expr expr) - ; - - -conditionalExpr - : #( QUESTION expr (expr)? COLON expr ) - ; - - -logicalOrExpr - : #( LOR expr expr) - ; - - -logicalAndExpr - : #( LAND expr expr ) - ; - - -inclusiveOrExpr - : #( BOR expr expr ) - ; - - -exclusiveOrExpr - : #( BXOR expr expr ) - ; - - -bitAndExpr - : #( BAND expr expr ) - ; - - - -equalityExpr - : #( EQUAL expr expr) - | #( NOT_EQUAL expr expr) - ; - - -relationalExpr - : #( LT expr expr) - | #( LTE expr expr) - | #( GT expr expr) - | #( GTE expr expr) - ; - - - -shiftExpr - : #( LSHIFT expr expr) - | #( RSHIFT expr expr) - ; - - -additiveExpr - : #( PLUS expr expr) - | #( MINUS expr expr) - ; - - -multExpr - : #( STAR expr expr) - | #( DIV expr expr) - | #( MOD expr expr) - ; - - - -castExpr - : #( NCast typeName RPAREN expr) - ; - - -typeName - : specifierQualifierList (nonemptyAbstractDeclarator)? - ; - -nonemptyAbstractDeclarator - : #( NNonemptyAbstractDeclarator - ( pointerGroup - ( (LPAREN - ( nonemptyAbstractDeclarator - | parameterTypeList - )? - RPAREN) - | (LBRACKET (expr)? RBRACKET) - )* - - | ( (LPAREN - ( nonemptyAbstractDeclarator - | parameterTypeList - )? - RPAREN) - | (LBRACKET (expr)? RBRACKET) - )+ - ) - ) - ; - - - -unaryExpr - : #( INC expr ) - | #( DEC expr ) - | #( NUnaryExpr unaryOperator expr) - | #( "sizeof" - ( ( LPAREN typeName )=> LPAREN typeName RPAREN - | expr - ) - ) - | #( "__alignof" - ( ( LPAREN typeName )=> LPAREN typeName RPAREN - | expr - ) - ) - ; -/* -exception -catch [RecognitionException ex] - { - reportError(ex); - System.out.println("PROBLEM TREE:\n" - + _t.toStringList()); - if (_t!=null) {_t = _t.getNextSibling();} - } -*/ - - unaryOperator - : BAND - | STAR - | PLUS - | MINUS - | BNOT - | LNOT - | LAND - | "__real" - | "__imag" - ; - - -postfixExpr - : #( NPostfixExpr - primaryExpr - ( PTR ID - | DOT ID - | #( NFunctionCallArgs (argExprList)? RPAREN ) - | LBRACKET expr RBRACKET - | INC - | DEC - )+ - ) - ; - - - -primaryExpr - : ID - | Number - | charConst - | stringConst - -// JTC: -// ID should catch the enumerator -// leaving it in gives ambiguous err -// | enumerator - - | #( NExpressionGroup expr ) - ; - - - -argExprList - : ( expr )+ - ; - - - -protected -charConst - : CharLiteral - ; - - -protected -stringConst - : #(NStringSeq (StringLiteral)+) - ; - - -protected -intConst - : IntOctalConst - | LongOctalConst - | UnsignedOctalConst - | IntIntConst - | LongIntConst - | UnsignedIntConst - | IntHexConst - | LongHexConst - | UnsignedHexConst - ; - - -protected -floatConst - : FloatDoubleConst - | DoubleDoubleConst - | LongDoubleConst - ; - - - - - - - - - diff --git a/src/java/com/jogamp/gluegen/cgram/HeaderParser.g b/src/java/com/jogamp/gluegen/cgram/HeaderParser.g deleted file mode 100644 index 0b4d5ec..0000000 --- a/src/java/com/jogamp/gluegen/cgram/HeaderParser.g +++ /dev/null @@ -1,785 +0,0 @@ -/* - * Copyright (c) 2003 Sun Microsystems, Inc. All Rights Reserved. - * Copyright (c) 2010 JogAmp Community. All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: - * - * - Redistribution of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * - * - Redistribution 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 Sun Microsystems, Inc. or the names of - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * This software is provided "AS IS," without a warranty of any kind. ALL - * EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, - * INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A - * PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN - * MIDROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL NOT BE LIABLE FOR - * ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR - * DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL SUN OR - * ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, OR FOR - * DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR PUNITIVE - * DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF LIABILITY, - * ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, EVEN IF - * SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. - * - * You acknowledge that this software is not designed or intended for use - * in the design, construction, operation or maintenance of any nuclear - * facility. - * - * Sun gratefully acknowledges that this software was originally authored - * and developed by Kenneth Bradley Russell and Christopher John Kline. - */ - -header { - package com.jogamp.gluegen.cgram; - - import java.io.*; - import java.util.*; - - import antlr.CommonAST; - import com.jogamp.gluegen.cgram.types.*; -} - -class HeaderParser extends GnuCTreeParser; -options { - k = 1; -} - -{ - /** Name assigned to a anonymous EnumType (e.g., "enum { ... }"). */ - public static final String ANONYMOUS_ENUM_NAME = ""; - - boolean debug = false; - - public boolean getDebug() { - return debug; - } - - public void setDebug(boolean debug) { - this.debug = debug; - } - - /** Set the dictionary mapping typedef names to types for this - HeaderParser. Must be done before parsing. */ - public void setTypedefDictionary(TypeDictionary dict) { - this.typedefDictionary = dict; - } - - /** Returns the typedef dictionary this HeaderParser uses. */ - public TypeDictionary getTypedefDictionary() { - return typedefDictionary; - } - - /** Set the dictionary mapping struct names (i.e., the "foo" in - "struct foo { ... };") to types for this HeaderParser. Must be done - before parsing. */ - public void setStructDictionary(TypeDictionary dict) { - this.structDictionary = dict; - } - - /** Returns the struct name dictionary this HeaderParser uses. */ - public TypeDictionary getStructDictionary() { - return structDictionary; - } - - /** Get the canonicalization map, which is a regular HashMap - mapping Type to Type and which is used for looking up the unique - instances of e.g. pointer-to-structure types that have been typedefed - and therefore have names. */ - public Map getCanonMap() { - return canonMap; - } - - /** Pre-define the list of EnumTypes for this HeaderParser. Must be - done before parsing. */ - public void setEnums(List/**/ enumTypes) { - // FIXME: Need to take the input set of EnumTypes, extract all - // the enumerates from each EnumType, and fill in the enumHash - // so that each enumerate maps to the enumType to which it - // belongs. - throw new RuntimeException("setEnums is Unimplemented!"); - } - - /** Returns the EnumTypes this HeaderParser processed. */ - public List/**/ getEnums() { - return new ArrayList(enumHash.values()); - } - - /** Clears the list of functions this HeaderParser has parsed. - Useful when reusing the same HeaderParser for more than one - header file. */ - public void clearParsedFunctions() { - functions.clear(); - } - - /** Returns the list of FunctionSymbols this HeaderParser has parsed. */ - public List getParsedFunctions() { - return functions; - } - - private CompoundType lookupInStructDictionary(String typeName, - CompoundTypeKind kind, - int cvAttrs) { - CompoundType t = (CompoundType) structDictionary.get(typeName); - if (t == null) { - t = CompoundType.create(null, null, kind, cvAttrs); - t.setStructName(typeName); - structDictionary.put(typeName, t); - } - return t; - } - - private Type lookupInTypedefDictionary(String typeName) { - Type t = typedefDictionary.get(typeName); - if (t == null) { - throw new RuntimeException("Undefined reference to typedef name " + typeName); - } - return t; - } - - static class ParameterDeclaration { - private String id; - private Type type; - - ParameterDeclaration(String id, Type type) { - this.id = id; - this.type = type; - } - String id() { return id; } - Type type() { return type; } - } - - // A box for a Type. Allows type to be passed down to be modified by recursive rules. - static class TypeBox { - private Type origType; - private Type type; - private boolean isTypedef; - - TypeBox(Type type) { - this(type, false); - } - - TypeBox(Type type, boolean isTypedef) { - this.origType = type; - this.isTypedef = isTypedef; - } - - Type type() { - if (type == null) { - return origType; - } - return type; - } - void setType(Type type) { - this.type = type; - } - void reset() { - type = null; - } - - boolean isTypedef() { return isTypedef; } - - // for easier debugging - public String toString() { - String tStr = "Type=NULL_REF"; - if (type == origType) { - tStr = "Type=ORIG_TYPE"; - } else if (type != null) { - tStr = "Type: name=\"" + type.getCVAttributesString() + " " + - type.getName() + "\"; signature=\"" + type + "\"; class " + - type.getClass().getName(); - } - String oStr = "OrigType=NULL_REF"; - if (origType != null) { - oStr = "OrigType: name=\"" + origType.getCVAttributesString() + " " + - origType.getName() + "\"; signature=\"" + origType + "\"; class " + - origType.getClass().getName(); - } - return "<["+tStr + "] [" + oStr + "] " + " isTypedef=" + isTypedef+">"; - } - } - - private String getTypeString(Type t) { - StringBuilder sb = new StringBuilder(); - sb.append("["); - sb.append(t); - sb.append(", size: "); - if(null!=t) { - SizeThunk st = t.getSize(); - if(null!=st) { - sb.append(st.getClass().getName()); - } else { - sb.append("undef"); - } - } - sb.append("]"); - return sb.toString(); - } - - private void debugPrintln(String msg) { - if(debug) { - System.err.println(msg); - } - } - - private void debugPrint(String msg) { - if(debug) { - System.err.print(msg); - } - } - - private boolean doDeclaration; // Used to only process function typedefs - private String declId; - private List parameters; - private TypeDictionary typedefDictionary; - private TypeDictionary structDictionary; - private List/**/ functions = new ArrayList(); - // hash from name of an enumerated value to the EnumType to which it belongs - private HashMap/**/ enumHash = new HashMap(); - - // Storage class specifiers - private static final int AUTO = 1 << 0; - private static final int REGISTER = 1 << 1; - private static final int TYPEDEF = 1 << 2; - // Function storage class specifiers - private static final int EXTERN = 1 << 3; - private static final int STATIC = 1 << 4; - private static final int INLINE = 1 << 5; - // Type qualifiers - private static final int CONST = 1 << 6; - private static final int VOLATILE = 1 << 7; - private static final int SIGNED = 1 << 8; - private static final int UNSIGNED = 1 << 9; - - private void initDeclaration() { - doDeclaration = false; - declId = null; - } - - private void doDeclaration() { - doDeclaration = true; - } - - private void processDeclaration(Type returnType) { - if (doDeclaration) { - FunctionSymbol sym = new FunctionSymbol(declId, new FunctionType(null, null, returnType, 0)); - if (parameters != null) { // handle funcs w/ empty parameter lists (e.g., "foo()") - for (Iterator iter = parameters.iterator(); iter.hasNext(); ) { - ParameterDeclaration pd = (ParameterDeclaration) iter.next(); - sym.addArgument(pd.type(), pd.id()); - } - } - functions.add(sym); - } - } - - private int attrs2CVAttrs(int attrs) { - int cvAttrs = 0; - if ((attrs & CONST) != 0) { - cvAttrs |= CVAttributes.CONST; - } - if ((attrs & VOLATILE) != 0) { - cvAttrs |= CVAttributes.VOLATILE; - } - return cvAttrs; - } - - /** Helper routine which handles creating a pointer or array type - for [] expressions */ - private void handleArrayExpr(TypeBox tb, AST t) { - if (t != null) { - try { - int len = parseIntConstExpr(t); - tb.setType(canonicalize(new ArrayType(tb.type(), SizeThunk.mul(SizeThunk.constant(len), tb.type().getSize()), len, 0))); - return; - } catch (RecognitionException e) { - // Fall through - } - } - tb.setType(canonicalize(new PointerType(SizeThunk.POINTER, - tb.type(), - 0))); - } - - private int parseIntConstExpr(AST t) throws RecognitionException { - return intConstExpr(t); - } - - /** Utility function: creates a new EnumType with the given name, or - returns an existing one if it has already been created. */ - private EnumType getEnumType(String enumTypeName) { - EnumType enumType = null; - Iterator it = enumHash.values().iterator(); - while (it.hasNext()) { - EnumType potentialMatch = (EnumType)it.next(); - if (potentialMatch.getName().equals(enumTypeName)) { - enumType = potentialMatch; - break; - } - } - - if (enumType == null) { - // This isn't quite correct. In theory the enum should expand to - // the size of the largest element, so if there were a long long - // entry the enum should expand to e.g. int64. However, using - // "long" here (which is what used to be the case) was - // definitely incorrect and caused problems. - enumType = new EnumType(enumTypeName, SizeThunk.INT32); - } - - return enumType; - } - - // Map used to canonicalize types. For example, we may typedef - // struct foo { ... } *pfoo; subsequent references to struct foo* should - // point to the same PointerType object that had its name set to "pfoo". - private Map canonMap = new HashMap(); - private Type canonicalize(Type t) { - Type res = (Type) canonMap.get(t); - if (res != null) { - return res; - } - canonMap.put(t, t); - return t; - } -} - -declarator[TypeBox tb] returns [String s] { - initDeclaration(); - s = null; - List params = null; - String funcPointerName = null; - TypeBox dummyTypeBox = null; -} - : #( NDeclarator - ( pointerGroup[tb] )? - - ( id:ID { s = id.getText(); } - | LPAREN funcPointerName = declarator[dummyTypeBox] RPAREN - ) - - ( #( NParameterTypeList - ( - params = parameterTypeList - | (idList)? - ) - RPAREN - ) { - if (id != null) { - declId = id.getText(); - parameters = params; // FIXME: Ken, why are we setting this class member here? - doDeclaration(); - } else if ( funcPointerName != null ) { - /* TypeBox becomes function pointer in this case */ - FunctionType ft = new FunctionType(null, null, tb.type(), 0); - if (params == null) { - // If the function pointer has no declared parameters, it's a - // void function. I'm not sure if the parameter name is - // ever referenced anywhere when the type is VoidType, so - // just in case I'll set it to a comment string so it will - // still compile if written out to code anywhere. - ft.addArgument(new VoidType(0), "/*unnamed-void*/"); - } else { - for (Iterator iter = params.iterator(); iter.hasNext(); ) { - ParameterDeclaration pd = (ParameterDeclaration) iter.next(); - ft.addArgument(pd.type(), pd.id()); - } - } - tb.setType(canonicalize(new PointerType(SizeThunk.POINTER, - ft, - 0))); - s = funcPointerName; - } - } - | LBRACKET ( e:expr )? RBRACKET { handleArrayExpr(tb, e); } - )* - ) - ; - -typelessDeclaration { - TypeBox tb = null; -} - : #(NTypeMissing initDeclList[tb] SEMI) - ; - -declaration { - TypeBox tb = null; -} - : #( NDeclaration - tb = declSpecifiers - ( - initDeclList[tb] - )? - ( SEMI )+ - ) { processDeclaration(tb.type()); } - ; - -parameterTypeList returns [List l] { l = new ArrayList(); ParameterDeclaration decl = null; } - : ( decl = parameterDeclaration { if (decl != null) l.add(decl); } ( COMMA | SEMI )? )+ ( VARARGS )? - ; - -parameterDeclaration returns [ParameterDeclaration pd] { - Type t = null; - String decl = null; - pd = null; - TypeBox tb = null; -} - : #( NParameterDeclaration - tb = declSpecifiers - (decl = declarator[tb] | nonemptyAbstractDeclarator[tb])? - ) { pd = new ParameterDeclaration(decl, tb.type()); } - ; - -functionDef { - TypeBox tb = null; -} - : #( NFunctionDef - ( functionDeclSpecifiers)? - declarator[tb] - (declaration | VARARGS)* - compoundStatement - ) - ; - -declSpecifiers returns [TypeBox tb] { - tb = null; - Type t = null; - int x = 0; - int y = 0; -} - : ( y = storageClassSpecifier { x |= y; } - | y = typeQualifier { x |= y; } - | t = typeSpecifier[x] - )+ -{ - if (t == null && - (x & (SIGNED | UNSIGNED)) != 0) { - t = new IntType("int", SizeThunk.INTxx, ((x & UNSIGNED) != 0), attrs2CVAttrs(x)); - } - tb = new TypeBox(t, ((x & TYPEDEF) != 0)); -} - ; - -storageClassSpecifier returns [int x] { x = 0; } - : "auto" { x |= AUTO; } - | "register" { x |= REGISTER; } - | "typedef" { x |= TYPEDEF; } - | x = functionStorageClassSpecifier - ; - - -functionStorageClassSpecifier returns [int x] { x = 0; } - : "extern" { x |= EXTERN; } - | "static" { x |= STATIC; } - | "inline" { x |= INLINE; } - ; - - -typeQualifier returns [int x] { x = 0; } - : "const" { x |= CONST; } - | "volatile" { x |= VOLATILE; } - | "signed" { x |= SIGNED; } - | "unsigned" { x |= UNSIGNED; } - ; - -typeSpecifier[int attributes] returns [Type t] { - t = null; - int cvAttrs = attrs2CVAttrs(attributes); - boolean unsigned = ((attributes & UNSIGNED) != 0); -} - : "void" { t = new VoidType(cvAttrs); } - | "char" { t = new IntType("char" , SizeThunk.INT8, unsigned, cvAttrs); } - | "short" { t = new IntType("short", SizeThunk.INT16, unsigned, cvAttrs); } - | "int" { t = new IntType("int" , SizeThunk.INTxx, unsigned, cvAttrs); } - | "long" { t = new IntType("long" , SizeThunk.LONG, unsigned, cvAttrs); } - | "float" { t = new FloatType("float", SizeThunk.FLOAT, cvAttrs); } - | "double" { t = new DoubleType("double", SizeThunk.DOUBLE, cvAttrs); } - | "__int32" { t = new IntType("__int32", SizeThunk.INT32, unsigned, cvAttrs); } - | "__int64" { t = new IntType("__int64", SizeThunk.INT64, unsigned, cvAttrs); } - | "int8_t" { t = new IntType("int8_t", SizeThunk.INT8, false, cvAttrs); /* TS: always signed */ } - | "uint8_t" { t = new IntType("uint8_t", SizeThunk.INT8, true, cvAttrs); /* TS: always unsigned */ } - | "int16_t" { t = new IntType("int16_t", SizeThunk.INT16, false, cvAttrs); /* TS: always signed */ } - | "uint16_t" { t = new IntType("uint16_t", SizeThunk.INT16, true, cvAttrs); /* TS: always unsigned */ } - | "int32_t" { t = new IntType("int32_t", SizeThunk.INT32, false, cvAttrs); /* TS: always signed */ } - | "wchar_t" { t = new IntType("wchar_t", SizeThunk.INT32, false, cvAttrs); /* TS: always signed */ } - | "uint32_t" { t = new IntType("uint32_t", SizeThunk.INT32, true, cvAttrs, true); /* TS: always unsigned */ } - | "int64_t" { t = new IntType("int64_t", SizeThunk.INT64, false, cvAttrs); /* TS: always signed */ } - | "uint64_t" { t = new IntType("uint64_t", SizeThunk.INT64, true, cvAttrs, true); /* TS: always unsigned */ } - | "ptrdiff_t" { t = new IntType("ptrdiff_t", SizeThunk.POINTER, false, cvAttrs); /* TS: always signed */ } - | "intptr_t" { t = new IntType("intptr_t", SizeThunk.POINTER, false, cvAttrs); /* TS: always signed */ } - | "size_t" { t = new IntType("size_t", SizeThunk.POINTER, true, cvAttrs, true); /* TS: always unsigned */ } - | "uintptr_t" { t = new IntType("uintptr_t", SizeThunk.POINTER, true, cvAttrs, true); /* TS: always unsigned */ } - | t = structSpecifier[cvAttrs] ( attributeDecl )* - | t = unionSpecifier [cvAttrs] ( attributeDecl )* - | t = enumSpecifier [cvAttrs] - | t = typedefName [cvAttrs] - | #("typeof" LPAREN - ( (typeName )=> typeName - | expr - ) - RPAREN - ) - | "__complex" - ; - -typedefName[int cvAttrs] returns [Type t] { t = null; } - : #(NTypedefName id : ID) - { - Type tdict = lookupInTypedefDictionary(id.getText()); - t = canonicalize(tdict.getCVVariant(cvAttrs)); - debugPrintln("Adding typedef canon : [" + id.getText() + "] -> [" + tdict + "] -> "+getTypeString(t)); - } - ; - -structSpecifier[int cvAttrs] returns [Type t] { t = null; } - : #( "struct" t = structOrUnionBody[CompoundTypeKind.STRUCT, cvAttrs] ) - ; - -unionSpecifier[int cvAttrs] returns [Type t] { t = null; } - : #( "union" t = structOrUnionBody[CompoundTypeKind.UNION, cvAttrs] ) - ; - -structOrUnionBody[CompoundTypeKind kind, int cvAttrs] returns [CompoundType t] { - t = null; -} - : ( (ID LCURLY) => id:ID LCURLY { - t = (CompoundType) canonicalize(lookupInStructDictionary(id.getText(), kind, cvAttrs)); - } ( structDeclarationList[t] )? - RCURLY { t.setBodyParsed(); } - | LCURLY { t = CompoundType.create(null, null, kind, cvAttrs); } - ( structDeclarationList[t] )? - RCURLY { t.setBodyParsed(); } - | id2:ID { t = (CompoundType) canonicalize(lookupInStructDictionary(id2.getText(), kind, cvAttrs)); } - ) - ; - -structDeclarationList[CompoundType t] - : ( structDeclaration[t] )+ - ; - -structDeclaration[CompoundType containingType] { - Type t = null; - boolean addedAny = false; -} - : t = specifierQualifierList addedAny = structDeclaratorList[containingType, t] { - if (!addedAny) { - if (t != null) { - CompoundType ct = t.asCompound(); - if (ct.isUnion()) { - // Anonymous union - containingType.addField(new Field(null, t, null)); - } - } - } - } - ; - -specifierQualifierList returns [Type t] { - t = null; int x = 0; int y = 0; -} - : ( - t = typeSpecifier[x] - | y = typeQualifier { x |= y; } - )+ { - if (t == null && - (x & (SIGNED | UNSIGNED)) != 0) { - t = new IntType("int", SizeThunk.INTxx, ((x & UNSIGNED) != 0), attrs2CVAttrs(x)); - } -} - ; - -structDeclaratorList[CompoundType containingType, Type t] returns [boolean addedAny] { - addedAny = false; - boolean y = false; -} - : ( y = structDeclarator[containingType, t] { addedAny = y; })+ - ; - -structDeclarator[CompoundType containingType, Type t] returns [boolean addedAny] { - addedAny = false; - String s = null; - TypeBox tb = new TypeBox(t); -} - : - #( NStructDeclarator - ( s = declarator[tb] { containingType.addField(new Field(s, tb.type(), null)); addedAny = true; } )? - ( COLON expr { /* FIXME: bit types not handled yet */ } ) ? - ( attributeDecl )* - ) - ; - -// FIXME: this will not correctly set the name of the enumeration when -// encountering a declaration like this: -// -// typedef enum { } enumName; -// -// In this case calling getName() on the EnumType return value will -// incorrectly return HeaderParser.ANONYMOUS_ENUM_NAME instead of -// "enumName" -// -// I haven't implemented it yet because I'm not sure how to get the -// "enumName" *before* executing the enumList rule. -enumSpecifier [int cvAttrs] returns [Type t] { - t = null; -} - : #( "enum" - ( ( ID LCURLY )=> i:ID LCURLY enumList[(EnumType)(t = getEnumType(i.getText()))] RCURLY - | LCURLY enumList[(EnumType)(t = getEnumType(ANONYMOUS_ENUM_NAME))] RCURLY - | ID { t = getEnumType(i.getText()); } - ) - ) - ; - -enumList[EnumType enumeration] { - long defaultEnumerantValue = 0; -} - : ( defaultEnumerantValue = enumerator[enumeration, defaultEnumerantValue] )+ - ; - -enumerator[EnumType enumeration, long defaultValue] returns [long newDefaultValue] { - newDefaultValue = defaultValue; -} - : eName:ID ( ASSIGN eVal:expr )? { - long value = 0; - if (eVal != null) { - String vTxt = eVal.getAllChildrenText(); - if (enumHash.containsKey(vTxt)) { - EnumType oldEnumType = (EnumType) enumHash.get(vTxt); - value = oldEnumType.getEnumValue(vTxt); - } else { - try { - value = Long.decode(vTxt).longValue(); - } catch (NumberFormatException e) { - System.err.println("NumberFormatException: ID[" + eName.getText() + "], VALUE=[" + vTxt + "]"); - throw e; - } - } - } else { - value = defaultValue; - } - - newDefaultValue = value+1; - String eTxt = eName.getText(); - if (enumHash.containsKey(eTxt)) { - EnumType oldEnumType = (EnumType) enumHash.get(eTxt); - long oldValue = oldEnumType.getEnumValue(eTxt); - System.err.println("WARNING: redefinition of enumerated value '" + eTxt + "';" + - " existing definition is in enumeration '" + oldEnumType.getName() + - "' with value " + oldValue + " and new definition is in enumeration '" + - enumeration.getName() + "' with value " + value); - // remove old definition - oldEnumType.removeEnumerate(eTxt); - } - // insert new definition - enumeration.addEnum(eTxt, value); - enumHash.put(eTxt, enumeration); - debugPrintln("ENUM [" + enumeration.getName() + "]: " + eTxt + " = " + enumeration.getEnumValue(eTxt) + - " (new default = " + newDefaultValue + ")"); - } - ; - -initDeclList[TypeBox tb] - : ( initDecl[tb] )+ - ; - -initDecl[TypeBox tb] { - String declName = null; -} - : #( NInitDecl - declName = declarator[tb] { - debugPrintln("GOT declName: " + declName + " TB=" + tb); - } - ( attributeDecl )* - ( ASSIGN initializer - | COLON expr - )? - ) -{ - if ((declName != null) && (tb != null) && tb.isTypedef()) { - Type t = tb.type(); - debugPrint("Adding typedef mapping: [" + declName + "] -> "+getTypeString(t)); - if (!t.hasTypedefName()) { - t.setName(declName); - debugPrint(" - declName -> "+getTypeString(t)); - } else { - // copy type to preserve declName ! - t = (Type) t.clone(); - t.setName(declName); - debugPrint(" - copy -> "+getTypeString(t)); - } - t = canonicalize(t); - debugPrintln(" - canon -> "+getTypeString(t)); - typedefDictionary.put(declName, t); - // Clear out PointerGroup effects in case another typedef variant follows - tb.reset(); - } -} - ; - -pointerGroup[TypeBox tb] { int x = 0; int y = 0; } - : #( NPointerGroup ( STAR { x = 0; y = 0; } ( y = typeQualifier { x |= y; } )* - { - debugPrintln("IN PTR GROUP: TB=" + tb); - if (tb != null) { - tb.setType(canonicalize(new PointerType(SizeThunk.POINTER, - tb.type(), - attrs2CVAttrs(x)))); - } - } - )+ ) - ; - - -functionDeclSpecifiers - : - ( functionStorageClassSpecifier - | typeQualifier - | typeSpecifier[0] - )+ - ; - -typeName { - TypeBox tb = null; -} - : specifierQualifierList (nonemptyAbstractDeclarator[tb])? - ; - - -/* FIXME: the handling of types in this rule has not been well thought - out and is known to be incomplete. Currently it is only used to handle - pointerGroups for unnamed parameters. */ -nonemptyAbstractDeclarator[TypeBox tb] - : #( NNonemptyAbstractDeclarator - ( pointerGroup[tb] - ( (LPAREN - ( nonemptyAbstractDeclarator[tb] - | parameterTypeList - )? - RPAREN) - | (LBRACKET (e1:expr)? RBRACKET) { handleArrayExpr(tb, e1); } - )* - - | ( (LPAREN - ( nonemptyAbstractDeclarator[tb] - | parameterTypeList - )? - RPAREN) - | (LBRACKET (e2:expr)? RBRACKET) { handleArrayExpr(tb, e2); } - )+ - ) - ) - ; - -/* Helper routine for parsing expressions which evaluate to integer - constants. Can be made more complicated as necessary. */ -intConstExpr returns [int i] { i = -1; } - : n:Number { return Integer.parseInt(n.getText()); } - ; diff --git a/src/java/com/jogamp/gluegen/cgram/StdCParser.g b/src/java/com/jogamp/gluegen/cgram/StdCParser.g deleted file mode 100644 index 7b34656..0000000 --- a/src/java/com/jogamp/gluegen/cgram/StdCParser.g +++ /dev/null @@ -1,1401 +0,0 @@ -/*%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - - Copyright (c) Non, Inc. 1997 -- All Rights Reserved - -PROJECT: C Compiler -MODULE: Parser -FILE: stdc.g - -AUTHOR: John D. Mitchell (john@non.net), Jul 12, 1997 - -REVISION HISTORY: - - Name Date Description - ---- ---- ----------- - JDM 97.07.12 Initial version. - JTC 97.11.18 Declaration vs declarator & misc. hacking. - JDM 97.11.20 Fixed: declaration vs funcDef, - parenthesized expressions, - declarator iteration, - varargs recognition, - empty source file recognition, - and some typos. - - -DESCRIPTION: - - This grammar supports the Standard C language. - - Note clearly that this grammar does *NOT* deal with - preprocessor functionality (including things like trigraphs) - Nor does this grammar deal with multi-byte characters nor strings - containing multi-byte characters [these constructs are "exercises - for the reader" as it were :-)]. - - Please refer to the ISO/ANSI C Language Standard if you believe - this grammar to be in error. Please cite chapter and verse in any - correspondence to the author to back up your claim. - -TODO: - - - typedefName is commented out, needs a symbol table to resolve - ambiguity. - - - trees - -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/ - - -header { - package com.jogamp.gluegen.cgram; - - import java.io.*; - - import antlr.CommonAST; - import antlr.DumpASTVisitor; -} - - -class StdCParser extends Parser; - -options - { - k = 2; - exportVocab = STDC; - buildAST = true; - ASTLabelType = "TNode"; - - // Copied following options from java grammar. - codeGenMakeSwitchThreshold = 2; - codeGenBitsetTestThreshold = 3; - } - - -{ - // Suppport C++-style single-line comments? - public static boolean CPPComments = true; - - // access to symbol table - public CSymbolTable symbolTable = new CSymbolTable(); - - // source for names to unnamed scopes - protected int unnamedScopeCounter = 0; - - public boolean isTypedefName(String name) { - boolean returnValue = false; - TNode node = symbolTable.lookupNameInCurrentScope(name); - for (; node != null; node = (TNode) node.getNextSibling() ) { - if(node.getType() == LITERAL_typedef) { - returnValue = true; - break; - } - } - return returnValue; - } - - - public String getAScopeName() { - return "" + (unnamedScopeCounter++); - } - - public void pushScope(String scopeName) { - symbolTable.pushScope(scopeName); - } - - public void popScope() { - symbolTable.popScope(); - } - - int traceDepth = 0; - public void reportError(RecognitionException ex) { - try { - System.err.println("ANTLR Parsing Error: "+ex + " token name:" + tokenNames[LA(1)]); - ex.printStackTrace(System.err); - } - catch (TokenStreamException e) { - System.err.println("ANTLR Parsing Error: "+ex); - ex.printStackTrace(System.err); - } - } - public void reportError(String s) { - System.err.println("ANTLR Parsing Error from String: " + s); - } - public void reportWarning(String s) { - System.err.println("ANTLR Parsing Warning from String: " + s); - } - public void match(int t) throws MismatchedTokenException { - boolean debugging = false; - - if ( debugging ) { - for (int x=0; x0)?" [inputState.guessing "+ inputState.guessing + "]":"")); - - } - - } - try { - if ( LA(1)!=t ) { - if ( debugging ){ - for (int x=0; x "+rname+"; LA(1)==("+ tokenNames[LT(1).getType()] - + ") " + LT(1).getText() + " [inputState.guessing "+ inputState.guessing + "]"); - } - catch (TokenStreamException e) { - } - } - public void traceOut(String rname) { - for (int x=0; x declaration - | functionDef - | asm_expr - ; - - -asm_expr - : "asm"^ - ("volatile")? LCURLY! expr RCURLY! SEMI! - ; - - -declaration - { AST ds1 = null; } - : ds:declSpecifiers { ds1 = astFactory.dupList(#ds); } - ( - initDeclList[ds1] - )? - SEMI! - { ## = #( #[NDeclaration], ##); } - - ; - - -declSpecifiers - { int specCount=0; } - : ( options { // this loop properly aborts when - // it finds a non-typedefName ID MBZ - warnWhenFollowAmbig = false; - } : - s:storageClassSpecifier - | typeQualifier - | ( "struct" | "union" | "enum" | typeSpecifier[specCount] )=> - specCount = typeSpecifier[specCount] - )+ - ; - -storageClassSpecifier - : "auto" - | "register" - | "typedef" - | functionStorageClassSpecifier - ; - - -functionStorageClassSpecifier - : "extern" - | "static" - ; - - -typeQualifier - : "const" - | "volatile" - ; - -typeSpecifier [int specCount] returns [int retSpecCount] - { retSpecCount = specCount + 1; } - : - ( "void" - | "char" - | "short" - | "int" - | "long" - | "float" - | "double" - | "signed" - | "unsigned" - | "int8_t" - | "uint8_t" - | "int16_t" - | "uint16_t" - | "__int32" - | "int32_t" - | "wchar_t" - | "uint32_t" - | "__int64" - | "int64_t" - | "uint64_t" - | "ptrdiff_t" - | "intptr_t" - | "size_t" - | "uintptr_t" - | structOrUnionSpecifier - | enumSpecifier - | { specCount == 0 }? typedefName - ) - ; - - -typedefName - : { isTypedefName ( LT(1).getText() ) }? - i:ID { ## = #(#[NTypedefName], #i); } - ; - -structOrUnionSpecifier - { String scopeName; } - : sou:structOrUnion! - ( ( ID LCURLY )=> i:ID l:LCURLY - { - scopeName = #sou.getText() + " " + #i.getText(); - #l.setText(scopeName); - pushScope(scopeName); - } - structDeclarationList - { popScope();} - RCURLY! - | l1:LCURLY - { - scopeName = getAScopeName(); - #l1.setText(scopeName); - pushScope(scopeName); - } - structDeclarationList - { popScope(); } - RCURLY! - | ID - ) - { - ## = #( #sou, ## ); - } - ; - - -structOrUnion - : "struct" - | "union" - ; - - -structDeclarationList - : ( structDeclaration )+ - ; - - -structDeclaration - : specifierQualifierList structDeclaratorList ( SEMI! )+ - ; - - -specifierQualifierList - { int specCount = 0; } - : ( options { // this loop properly aborts when - // it finds a non-typedefName ID MBZ - warnWhenFollowAmbig = false; - } : - ( "struct" | "union" | "enum" | typeSpecifier[specCount] )=> - specCount = typeSpecifier[specCount] - | typeQualifier - )+ - ; - - -structDeclaratorList - : structDeclarator ( COMMA! structDeclarator )* - ; - - -structDeclarator - : - ( COLON constExpr - | declarator[false] ( COLON constExpr )? - ) - { ## = #( #[NStructDeclarator], ##); } - ; - - -enumSpecifier - : "enum"^ - ( ( ID LCURLY )=> i:ID LCURLY enumList[i.getText()] RCURLY! - | LCURLY enumList["anonymous"] RCURLY! - | ID - ) - ; - - -enumList[String enumName] - : enumerator[enumName] ( COMMA! enumerator[enumName] )* - ; - -enumerator[String enumName] - : i:ID { symbolTable.add( i.getText(), - #( null, - #[LITERAL_enum, "enum"], - #[ ID, enumName] - ) - ); - } - (ASSIGN constExpr)? - ; - - -initDeclList[AST declarationSpecifiers] - : initDecl[declarationSpecifiers] - ( COMMA! initDecl[declarationSpecifiers] )* - ; - - -initDecl[AST declarationSpecifiers] - { String declName = ""; } - : declName = d:declarator[false] - { AST ds1, d1; - ds1 = astFactory.dupList(declarationSpecifiers); - d1 = astFactory.dupList(#d); - symbolTable.add(declName, #(null, ds1, d1) ); - } - ( ASSIGN initializer - | COLON expr - )? - { ## = #( #[NInitDecl], ## ); } - - ; - -pointerGroup - : ( STAR ( typeQualifier )* )+ { ## = #( #[NPointerGroup], ##); } - ; - - - -idList - : ID ( COMMA! ID )* - ; - - -initializer - : ( assignExpr - | LCURLY initializerList ( COMMA! )? RCURLY! - ) - { ## = #( #[NInitializer], ## ); } - ; - - -initializerList - : initializer ( COMMA! initializer )* - ; - - -declarator[boolean isFunctionDefinition] returns [String declName] - { declName = ""; } - : - ( pointerGroup )? - - ( id:ID { declName = id.getText(); } - | LPAREN declName = declarator[false] RPAREN - ) - - ( ! LPAREN - { - if (isFunctionDefinition) { - pushScope(declName); - } - else { - pushScope("!"+declName); - } - } - ( - (declSpecifiers)=> p:parameterTypeList - { - ## = #( null, ##, #( #[NParameterTypeList], #p ) ); - } - - | (i:idList)? - { - ## = #( null, ##, #( #[NParameterTypeList], #i ) ); - } - ) - { - popScope(); - } - RPAREN - | LBRACKET ( constExpr )? RBRACKET - )* - { ## = #( #[NDeclarator], ## ); } - ; - -parameterTypeList - : parameterDeclaration - ( options { - warnWhenFollowAmbig = false; - } : - COMMA! - parameterDeclaration - )* - ( COMMA! - VARARGS - )? - ; - - -parameterDeclaration - { String declName; } - : ds:declSpecifiers - ( ( declarator[false] )=> declName = d:declarator[false] - { - AST d2, ds2; - d2 = astFactory.dupList(#d); - ds2 = astFactory.dupList(#ds); - symbolTable.add(declName, #(null, ds2, d2)); - } - | nonemptyAbstractDeclarator - )? - { - ## = #( #[NParameterDeclaration], ## ); - } - ; - -/* JTC: - * This handles both new and old style functions. - * see declarator rule to see differences in parameters - * and here (declaration SEMI)* is the param type decls for the - * old style. may want to do some checking to check for illegal - * combinations (but I assume all parsed code will be legal?) - */ - -functionDef - { String declName; } - : ( (functionDeclSpecifiers)=> ds:functionDeclSpecifiers - | //epsilon - ) - declName = d:declarator[true] - { - AST d2, ds2; - d2 = astFactory.dupList(#d); - ds2 = astFactory.dupList(#ds); - symbolTable.add(declName, #(null, ds2, d2)); - pushScope(declName); - } - ( declaration )* (VARARGS)? ( SEMI! )* - { popScope(); } - compoundStatement[declName] - { ## = #( #[NFunctionDef], ## );} - ; - -functionDeclSpecifiers - { int specCount = 0; } - : ( options { // this loop properly aborts when - // it finds a non-typedefName ID MBZ - warnWhenFollowAmbig = false; - } : - functionStorageClassSpecifier - | typeQualifier - | ( "struct" | "union" | "enum" | typeSpecifier[specCount] )=> - specCount = typeSpecifier[specCount] - )+ - ; - -declarationList - : ( options { // this loop properly aborts when - // it finds a non-typedefName ID MBZ - warnWhenFollowAmbig = false; - } : - ( declarationPredictor )=> declaration - )+ - ; - -declarationPredictor - : (options { //only want to look at declaration if I don't see typedef - warnWhenFollowAmbig = false; - }: - "typedef" - | declaration - ) - ; - - -compoundStatement[String scopeName] - : LCURLY! - { - pushScope(scopeName); - } - ( ( declarationPredictor)=> declarationList )? - ( statementList )? - { popScope(); } - RCURLY! - { ## = #( #[NCompoundStatement, scopeName], ##); } - ; - - -statementList - : ( statement )+ - ; -statement - : SEMI // Empty statements - - | compoundStatement[getAScopeName()] // Group of statements - - | expr SEMI! { ## = #( #[NStatementExpr], ## ); } // Expressions - -// Iteration statements: - - | "while"^ LPAREN! expr RPAREN! statement - | "do"^ statement "while"! LPAREN! expr RPAREN! SEMI! - |! "for" - LPAREN ( e1:expr )? SEMI ( e2:expr )? SEMI ( e3:expr )? RPAREN - s:statement - { - if ( #e1 == null) { #e1 = (TNode) #[ NEmptyExpression ]; } - if ( #e2 == null) { #e2 = (TNode) #[ NEmptyExpression ]; } - if ( #e3 == null) { #e3 = (TNode) #[ NEmptyExpression ]; } - ## = #( #[LITERAL_for, "for"], #e1, #e2, #e3, #s ); - } - - -// Jump statements: - - | "goto"^ ID SEMI! - | "continue" SEMI! - | "break" SEMI! - | "return"^ ( expr )? SEMI! - - -// Labeled statements: - | ID COLON! (options {warnWhenFollowAmbig=false;}:statement)? { ## = #( #[NLabel], ## ); } - | "case"^ constExpr COLON! statement - | "default"^ COLON! statement - - - -// Selection statements: - - | "if"^ - LPAREN! expr RPAREN! statement - ( //standard if-else ambiguity - options { - warnWhenFollowAmbig = false; - } : - "else" statement )? - | "switch"^ LPAREN! expr RPAREN! statement - ; - - - - - - -expr - : assignExpr (options { - /* MBZ: - COMMA is ambiguous between comma expressions and - argument lists. argExprList should get priority, - and it does by being deeper in the expr rule tree - and using (COMMA assignExpr)* - */ - warnWhenFollowAmbig = false; - } : - c:COMMA^ { #c.setType(NCommaExpr); } assignExpr - )* - ; - - -assignExpr - : conditionalExpr ( a:assignOperator! assignExpr { ## = #( #a, ## );} )? - ; - -assignOperator - : ASSIGN - | DIV_ASSIGN - | PLUS_ASSIGN - | MINUS_ASSIGN - | STAR_ASSIGN - | MOD_ASSIGN - | RSHIFT_ASSIGN - | LSHIFT_ASSIGN - | BAND_ASSIGN - | BOR_ASSIGN - | BXOR_ASSIGN - ; - - -conditionalExpr - : logicalOrExpr - ( QUESTION^ expr COLON! conditionalExpr )? - ; - - -constExpr - : conditionalExpr - ; - -logicalOrExpr - : logicalAndExpr ( LOR^ logicalAndExpr )* - ; - - -logicalAndExpr - : inclusiveOrExpr ( LAND^ inclusiveOrExpr )* - ; - -inclusiveOrExpr - : exclusiveOrExpr ( BOR^ exclusiveOrExpr )* - ; - - -exclusiveOrExpr - : bitAndExpr ( BXOR^ bitAndExpr )* - ; - - -bitAndExpr - : equalityExpr ( BAND^ equalityExpr )* - ; - - - -equalityExpr - : relationalExpr - ( ( EQUAL^ | NOT_EQUAL^ ) relationalExpr )* - ; - - -relationalExpr - : shiftExpr - ( ( LT^ | LTE^ | GT^ | GTE^ ) shiftExpr )* - ; - - - -shiftExpr - : additiveExpr - ( ( LSHIFT^ | RSHIFT^ ) additiveExpr )* - ; - - -additiveExpr - : multExpr - ( ( PLUS^ | MINUS^ ) multExpr )* - ; - - -multExpr - : castExpr - ( ( STAR^ | DIV^ | MOD^ ) castExpr )* - ; - - -castExpr - : ( LPAREN typeName RPAREN )=> - LPAREN! typeName RPAREN! ( castExpr ) - { ## = #( #[NCast, "("], ## ); } - - | unaryExpr - ; - - -typeName - : specifierQualifierList (nonemptyAbstractDeclarator)? - ; - -nonemptyAbstractDeclarator - : ( - pointerGroup - ( (LPAREN - ( nonemptyAbstractDeclarator - | parameterTypeList - )? - RPAREN) - | (LBRACKET (expr)? RBRACKET) - )* - - | ( (LPAREN - ( nonemptyAbstractDeclarator - | parameterTypeList - )? - RPAREN) - | (LBRACKET (expr)? RBRACKET) - )+ - ) - { ## = #( #[NNonemptyAbstractDeclarator], ## ); } - - ; - -/* JTC: - -LR rules: - -abstractDeclarator - : nonemptyAbstractDeclarator - | // null - ; - -nonemptyAbstractDeclarator - : LPAREN nonemptyAbstractDeclarator RPAREN - | abstractDeclarator LPAREN RPAREN - | abstractDeclarator (LBRACKET (expr)? RBRACKET) - | STAR abstractDeclarator - ; -*/ - -unaryExpr - : postfixExpr - | INC^ unaryExpr - | DEC^ unaryExpr - | u:unaryOperator castExpr { ## = #( #[NUnaryExpr], ## ); } - - | "sizeof"^ - ( ( LPAREN typeName )=> LPAREN typeName RPAREN - | unaryExpr - ) - ; - - -unaryOperator - : BAND - | STAR - | PLUS - | MINUS - | BNOT - | LNOT - ; - -postfixExpr - : primaryExpr - ( - postfixSuffix {## = #( #[NPostfixExpr], ## );} - )? - ; -postfixSuffix - : - ( PTR ID - | DOT ID - | functionCall - | LBRACKET expr RBRACKET - | INC - | DEC - )+ - ; - -functionCall - : - LPAREN^ (a:argExprList)? RPAREN - { - ##.setType( NFunctionCallArgs ); - } - ; - - -primaryExpr - : ID - | charConst - | intConst - | floatConst - | stringConst - -// JTC: -// ID should catch the enumerator -// leaving it in gives ambiguous err -// | enumerator - | LPAREN! expr RPAREN! { ## = #( #[NExpressionGroup, "("], ## ); } - ; - -argExprList - : assignExpr ( COMMA! assignExpr )* - ; - - - -protected -charConst - : CharLiteral - ; - - -protected -stringConst - : (StringLiteral)+ { ## = #(#[NStringSeq], ##); } - ; - - -protected -intConst - : IntOctalConst - | LongOctalConst - | UnsignedOctalConst - | IntIntConst - | LongIntConst - | UnsignedIntConst - | IntHexConst - | LongHexConst - | UnsignedHexConst - ; - - -protected -floatConst - : FloatDoubleConst - | DoubleDoubleConst - | LongDoubleConst - ; - - - - - - -dummy - : NTypedefName - | NInitDecl - | NDeclarator - | NStructDeclarator - | NDeclaration - | NCast - | NPointerGroup - | NExpressionGroup - | NFunctionCallArgs - | NNonemptyAbstractDeclarator - | NInitializer - | NStatementExpr - | NEmptyExpression - | NParameterTypeList - | NFunctionDef - | NCompoundStatement - | NParameterDeclaration - | NCommaExpr - | NUnaryExpr - | NLabel - | NPostfixExpr - | NRangeExpr - | NStringSeq - | NInitializerElementLabel - | NLcurlyInitializer - | NAsmAttribute - | NGnuAsmExpr - | NTypeMissing - ; - - - - - - -{ - import java.io.*; - import antlr.*; -} - -class StdCLexer extends Lexer; - -options - { - k = 3; - exportVocab = STDC; - testLiterals = false; - } - -{ - LineObject lineObject = new LineObject(); - String originalSource = ""; - PreprocessorInfoChannel preprocessorInfoChannel = new PreprocessorInfoChannel(); - int tokenNumber = 0; - boolean countingTokens = true; - int deferredLineCount = 0; - - public void setCountingTokens(boolean ct) - { - countingTokens = ct; - if ( countingTokens ) { - tokenNumber = 0; - } - else { - tokenNumber = 1; - } - } - - public void setOriginalSource(String src) - { - originalSource = src; - lineObject.setSource(src); - } - public void setSource(String src) - { - lineObject.setSource(src); - } - - public PreprocessorInfoChannel getPreprocessorInfoChannel() - { - return preprocessorInfoChannel; - } - - public void setPreprocessingDirective(String pre) - { - preprocessorInfoChannel.addLineForTokenNumber( pre, new Integer(tokenNumber) ); - } - - public void addDefine(String name, String value) - { - } - - protected Token makeToken(int t) - { - if ( t != Token.SKIP && countingTokens) { - tokenNumber++; - } - CToken tok = (CToken) super.makeToken(t); - tok.setLine(lineObject.line); - tok.setSource(lineObject.source); - tok.setTokenNumber(tokenNumber); - - lineObject.line += deferredLineCount; - deferredLineCount = 0; - return tok; - } - - public void deferredNewline() { - deferredLineCount++; - } - - public void newline() { - lineObject.newline(); - } - - - - - - -} - -protected -Vocabulary - : '\3'..'\377' - ; - - -/* Operators: */ - -ASSIGN : '=' ; -COLON : ':' ; -COMMA : ',' ; -QUESTION : '?' ; -SEMI : ';' ; -PTR : "->" ; - - -// DOT & VARARGS are commented out since they are generated as part of -// the Number rule below due to some bizarre lexical ambiguity shme. - -// DOT : '.' ; -protected -DOT:; - -// VARARGS : "..." ; -protected -VARARGS:; - - -LPAREN : '(' ; -RPAREN : ')' ; -LBRACKET : '[' ; -RBRACKET : ']' ; -LCURLY : '{' ; -RCURLY : '}' ; - -EQUAL : "==" ; -NOT_EQUAL : "!=" ; -LTE : "<=" ; -LT : "<" ; -GTE : ">=" ; -GT : ">" ; - -DIV : '/' ; -DIV_ASSIGN : "/=" ; -PLUS : '+' ; -PLUS_ASSIGN : "+=" ; -INC : "++" ; -MINUS : '-' ; -MINUS_ASSIGN : "-=" ; -DEC : "--" ; -STAR : '*' ; -STAR_ASSIGN : "*=" ; -MOD : '%' ; -MOD_ASSIGN : "%=" ; -RSHIFT : ">>" ; -RSHIFT_ASSIGN : ">>=" ; -LSHIFT : "<<" ; -LSHIFT_ASSIGN : "<<=" ; - -LAND : "&&" ; -LNOT : '!' ; -LOR : "||" ; - -BAND : '&' ; -BAND_ASSIGN : "&=" ; -BNOT : '~' ; -BOR : '|' ; -BOR_ASSIGN : "|=" ; -BXOR : '^' ; -BXOR_ASSIGN : "^=" ; - - -Whitespace - : ( ( '\003'..'\010' | '\t' | '\013' | '\f' | '\016'.. '\037' | '\177'..'\377' | ' ' ) - | "\r\n" { newline(); } - | ( '\n' | '\r' ) { newline(); } - ) { _ttype = Token.SKIP; } - ; - - -Comment - : "/*" - ( { LA(2) != '/' }? '*' - | "\r\n" { deferredNewline(); } - | ( '\r' | '\n' ) { deferredNewline(); } - | ~( '*'| '\r' | '\n' ) - )* - "*/" { _ttype = Token.SKIP; - } - ; - - -CPPComment - : - "//" ( ~('\n') )* - { - _ttype = Token.SKIP; - } - ; - -protected NonWhitespace - : (~('\r' | '\n'))* - ; - - -PREPROC_DIRECTIVE -options { - paraphrase = "a line directive"; -} - - : - '#' - ( ( "line" || (( ' ' | '\t' | '\014')+ '0'..'9')) => LineDirective - | ( (Space)* "define" (Space)* i:ID (Space)* (n:DefineExpr)? - nw:NonWhitespace - ("\r\n" | "\r" | "\n") ) { - if (n != null) { - //System.out.println("addDefine: #define " + i.getText() + " " + n.getText()); - addDefine(i.getText(), n.getText()); - } else { - setPreprocessingDirective("#define " + i.getText() + " " + nw.getText()); - } - } - | (~'\n')* { setPreprocessingDirective(getText()); } - ) - { - _ttype = Token.SKIP; - } - ; - -DefineExpr: - ((LPAREN) (Space)* (DefineExpr2) (Space)* (RPAREN)) | (DefineExpr2) -; - -DefineExpr2: - (Number) - ((Space)* (LSHIFT | RSHIFT | PLUS | MINUS | STAR | DIV | MOD) (Space)* (DefineExpr))? -; - - -protected Space: - ( ' ' | '\t' | '\014') - ; - -protected LineDirective -{ - boolean oldCountingTokens = countingTokens; - countingTokens = false; -} -: - { - lineObject = new LineObject(); - deferredLineCount = 0; - } - ("line")? //this would be for if the directive started "#line", but not there for GNU directives - (Space)+ - n:Number { lineObject.setLine(Integer.parseInt(n.getText())); } - (Space)+ - ( fn:StringLiteral { try { - lineObject.setSource(fn.getText().substring(1,fn.getText().length()-1)); - } - catch (StringIndexOutOfBoundsException e) { /*not possible*/ } - } - | fi:ID { lineObject.setSource(fi.getText()); } - )? - (Space)* - ("1" { lineObject.setEnteringFile(true); } )? - (Space)* - ("2" { lineObject.setReturningToFile(true); } )? - (Space)* - ("3" { lineObject.setSystemHeader(true); } )? - (Space)* - ("4" { lineObject.setTreatAsC(true); } )? - (~('\r' | '\n'))* - ("\r\n" | "\r" | "\n") - { - preprocessorInfoChannel.addLineForTokenNumber(new LineObject(lineObject), new Integer(tokenNumber)); - countingTokens = oldCountingTokens; - } - ; - - - -/* Literals: */ - -/* - * Note that we do NOT handle tri-graphs nor multi-byte sequences. - */ - - -/* - * Note that we can't have empty character constants (even though we - * can have empty strings :-). - */ -CharLiteral - : '\'' ( Escape | ~( '\'' ) ) '\'' - ; - - -/* - * Can't have raw imbedded newlines in string constants. Strict reading of - * the standard gives odd dichotomy between newlines & carriage returns. - * Go figure. - */ -StringLiteral - : '"' - ( Escape - | ( - '\r' { deferredNewline(); } - | '\n' { - deferredNewline(); - _ttype = BadStringLiteral; - } - | '\\' '\n' { - deferredNewline(); - } - ) - | ~( '"' | '\r' | '\n' | '\\' ) - )* - '"' - ; - - -protected BadStringLiteral - : // Imaginary token. - ; - - -/* - * Handle the various escape sequences. - * - * Note carefully that these numeric escape *sequences* are *not* of the - * same form as the C language numeric *constants*. - * - * There is no such thing as a binary numeric escape sequence. - * - * Octal escape sequences are either 1, 2, or 3 octal digits exactly. - * - * There is no such thing as a decimal escape sequence. - * - * Hexadecimal escape sequences are begun with a leading \x and continue - * until a non-hexadecimal character is found. - * - * No real handling of tri-graph sequences, yet. - */ - -protected -Escape - : '\\' - ( options{warnWhenFollowAmbig=false;}: - 'a' - | 'b' - | 'f' - | 'n' - | 'r' - | 't' - | 'v' - | '"' - | '\'' - | '\\' - | '?' - | ('0'..'3') ( options{warnWhenFollowAmbig=false;}: Digit ( options{warnWhenFollowAmbig=false;}: Digit )? )? - | ('4'..'7') ( options{warnWhenFollowAmbig=false;}: Digit )? - | 'x' ( options{warnWhenFollowAmbig=false;}: Digit | 'a'..'f' | 'A'..'F' )+ - ) - ; - - -/* Numeric Constants: */ - -protected -Digit - : '0'..'9' - ; - -protected -LongSuffix - : 'l' - | 'L' - ; - -protected -UnsignedSuffix - : 'u' - | 'U' - ; - -protected -FloatSuffix - : 'f' - | 'F' - ; - -protected -Exponent - : ( 'e' | 'E' ) ( '+' | '-' )? ( Digit )+ - ; - - -protected -DoubleDoubleConst:; - -protected -FloatDoubleConst:; - -protected -LongDoubleConst:; - -protected -IntOctalConst:; - -protected -LongOctalConst:; - -protected -UnsignedOctalConst:; - -protected -IntIntConst:; - -protected -LongIntConst:; - -protected -UnsignedIntConst:; - -protected -IntHexConst:; - -protected -LongHexConst:; - -protected -UnsignedHexConst:; - - - - -Number - : ( ( Digit )+ ( '.' | 'e' | 'E' ) )=> ( Digit )+ - ( '.' ( Digit )* ( Exponent )? - | Exponent - ) { _ttype = DoubleDoubleConst; } - ( FloatSuffix { _ttype = FloatDoubleConst; } - | LongSuffix { _ttype = LongDoubleConst; } - )? - - | ( "..." )=> "..." { _ttype = VARARGS; } - - | '.' { _ttype = DOT; } - ( ( Digit )+ ( Exponent )? - { _ttype = DoubleDoubleConst; } - ( FloatSuffix { _ttype = FloatDoubleConst; } - | LongSuffix { _ttype = LongDoubleConst; } - )? - )? - - | '0' ( '0'..'7' )* { _ttype = IntOctalConst; } - ( LongSuffix { _ttype = LongOctalConst; } - | UnsignedSuffix { _ttype = UnsignedOctalConst; } - )? - - | '1'..'9' ( Digit )* { _ttype = IntIntConst; } - ( LongSuffix { _ttype = LongIntConst; } - | UnsignedSuffix { _ttype = UnsignedIntConst; } - )? - - | '0' ( 'x' | 'X' ) ( 'a'..'f' | 'A'..'F' | Digit )+ - { _ttype = IntHexConst; } - ( LongSuffix { _ttype = LongHexConst; } - | UnsignedSuffix { _ttype = UnsignedHexConst; } - )? - ; - - -ID - options - { - testLiterals = true; - } - : ( 'a'..'z' | 'A'..'Z' | '_' ) - ( 'a'..'z' | 'A'..'Z' | '_' | '0'..'9' )* - ; - - diff --git a/src/java/com/jogamp/gluegen/jgram/JavaParser.g b/src/java/com/jogamp/gluegen/jgram/JavaParser.g deleted file mode 100644 index f67579e..0000000 --- a/src/java/com/jogamp/gluegen/jgram/JavaParser.g +++ /dev/null @@ -1,1315 +0,0 @@ -/* Java 1.3 Recognizer - * - * Run 'java Main [-showtree] directory-full-of-java-files' - * - * [The -showtree option pops up a Swing frame that shows - * the AST constructed from the parser.] - * - * Run 'java Main ' - * - * Contributing authors: - * John Mitchell johnm@non.net - * Terence Parr parrt@magelang.com - * John Lilley jlilley@empathy.com - * Scott Stanchfield thetick@magelang.com - * Markus Mohnen mohnen@informatik.rwth-aachen.de - * Peter Williams pete.williams@sun.com - * Allan Jacobs Allan.Jacobs@eng.sun.com - * Steve Messick messick@redhills.com - * John Pybus john@pybus.org - * - * Version 1.00 December 9, 1997 -- initial release - * Version 1.01 December 10, 1997 - * fixed bug in octal def (0..7 not 0..8) - * Version 1.10 August 1998 (parrt) - * added tree construction - * fixed definition of WS,comments for mac,pc,unix newlines - * added unary plus - * Version 1.11 (Nov 20, 1998) - * Added "shutup" option to turn off last ambig warning. - * Fixed inner class def to allow named class defs as statements - * synchronized requires compound not simple statement - * add [] after builtInType DOT class in primaryExpression - * "const" is reserved but not valid..removed from modifiers - * Version 1.12 (Feb 2, 1999) - * Changed LITERAL_xxx to xxx in tree grammar. - * Updated java.g to use tokens {...} now for 2.6.0 (new feature). - * - * Version 1.13 (Apr 23, 1999) - * Didn't have (stat)? for else clause in tree parser. - * Didn't gen ASTs for interface extends. Updated tree parser too. - * Updated to 2.6.0. - * Version 1.14 (Jun 20, 1999) - * Allowed final/abstract on local classes. - * Removed local interfaces from methods - * Put instanceof precedence where it belongs...in relationalExpr - * It also had expr not type as arg; fixed it. - * Missing ! on SEMI in classBlock - * fixed: (expr) + "string" was parsed incorrectly (+ as unary plus). - * fixed: didn't like Object[].class in parser or tree parser - * Version 1.15 (Jun 26, 1999) - * Screwed up rule with instanceof in it. :( Fixed. - * Tree parser didn't like (expr).something; fixed. - * Allowed multiple inheritance in tree grammar. oops. - * Version 1.16 (August 22, 1999) - * Extending an interface built a wacky tree: had extra EXTENDS. - * Tree grammar didn't allow multiple superinterfaces. - * Tree grammar didn't allow empty var initializer: {} - * Version 1.17 (October 12, 1999) - * ESC lexer rule allowed 399 max not 377 max. - * java.tree.g didn't handle the expression of synchronized - * statements. - * Version 1.18 (August 12, 2001) - * Terence updated to Java 2 Version 1.3 by - * observing/combining work of Allan Jacobs and Steve - * Messick. Handles 1.3 src. Summary: - * o primary didn't include boolean.class kind of thing - * o constructor calls parsed explicitly now: - * see explicitConstructorInvocation - * o add strictfp modifier - * o missing objBlock after new expression in tree grammar - * o merged local class definition alternatives, moved after declaration - * o fixed problem with ClassName.super.field - * o reordered some alternatives to make things more efficient - * o long and double constants were not differentiated from int/float - * o whitespace rule was inefficient: matched only one char - * o add an examples directory with some nasty 1.3 cases - * o made Main.java use buffered IO and a Reader for Unicode support - * o supports UNICODE? - * Using Unicode charVocabulay makes code file big, but only - * in the bitsets at the end. I need to make ANTLR generate - * unicode bitsets more efficiently. - * Version 1.19 (April 25, 2002) - * Terence added in nice fixes by John Pybus concerning floating - * constants and problems with super() calls. John did a nice - * reorg of the primary/postfix expression stuff to read better - * and makes f.g.super() parse properly (it was METHOD_CALL not - * a SUPER_CTOR_CALL). Also: - * - * o "finally" clause was a root...made it a child of "try" - * o Added stuff for asserts too for Java 1.4, but *commented out* - * as it is not backward compatible. - * - * Version 1.20 (October 27, 2002) - * - * Terence ended up reorging John Pybus' stuff to - * remove some nondeterminisms and some syntactic predicates. - * Note that the grammar is stricter now; e.g., this(...) must - * be the first statement. - * - * Trinary ?: operator wasn't working as array name: - * (isBig ? bigDigits : digits)[i]; - * - * Checked parser/tree parser on source for - * Resin-2.0.5, jive-2.1.1, jdk 1.3.1, Lucene, antlr 2.7.2a4, - * and the 110k-line jGuru server source. - * - * Version 1.21 (October 17, 2003) - * Fixed lots of problems including: - * Ray Waldin: add typeDefinition to interfaceBlock in java.tree.g - * He found a problem/fix with floating point that start with 0 - * Ray also fixed problem that (int.class) was not recognized. - * Thorsten van Ellen noticed that \n are allowed incorrectly in strings. - * TJP fixed CHAR_LITERAL analogously. - * - * Version 1.22 (April 14, 2004) - * Changed vocab to be ..\uFFFE to avoid -1 char. removed dummy VOCAB rule. - * - * This grammar is in the PUBLIC DOMAIN - */ - -header { - package com.jogamp.gluegen.jgram; - - import java.util.*; - - import antlr.CommonAST; -} - -class JavaParser extends Parser; - -options { - k = 2; // two token lookahead - exportVocab=Java; // Call its vocabulary "Java" - codeGenMakeSwitchThreshold = 2; // Some optimizations - codeGenBitsetTestThreshold = 3; - defaultErrorHandler = false; // Don't generate parser error handlers - buildAST = true; - //buildAST = false; -} - -tokens { - BLOCK; MODIFIERS; OBJBLOCK; SLIST; CTOR_DEF; METHOD_DEF; VARIABLE_DEF; - INSTANCE_INIT; STATIC_INIT; TYPE; CLASS_DEF; INTERFACE_DEF; - PACKAGE_DEF; ARRAY_DECLARATOR; EXTENDS_CLAUSE; IMPLEMENTS_CLAUSE; - PARAMETERS; PARAMETER_DEF; LABELED_STAT; TYPECAST; INDEX_OP; - POST_INC; POST_DEC; METHOD_CALL; EXPR; ARRAY_INIT; - IMPORT; UNARY_MINUS; UNARY_PLUS; CASE_GROUP; ELIST; FOR_INIT; FOR_CONDITION; - FOR_ITERATOR; EMPTY_STAT; FINAL="final"; ABSTRACT="abstract"; - STRICTFP="strictfp"; SUPER_CTOR_CALL; CTOR_CALL; -} - -{ - public void clearParsedEnumNames() { - enumNames.clear(); - } - - /** Returns the EnumTypes this HeaderParser processed. */ - public Set getParsedEnumNames() { - return enumNames; - } - - /** Clears the list of functions this HeaderParser has parsed. - Useful when reusing the same HeaderParser for more than one - header file. */ - public void clearParsedFunctionNames() { - functionNames.clear(); - } - - /** Returns the list of FunctionSymbols this HeaderParser has parsed. */ - public Set getParsedFunctionNames() { - return functionNames; - } - - private Set functionNames = new HashSet(); - // hash from name of an enumerated value to the EnumType to which it belongs - private Set enumNames = new HashSet(); - - private int blockDepth = 0; -} - -// Compilation Unit: In Java, this is a single file. This is the start -// rule for this parser -compilationUnit - : // A compilation unit starts with an optional package definition - ( packageDefinition - | /* nothing */ - ) - - // Next we have a series of zero or more import statements - ( importDefinition )* - - // Wrapping things up with any number of class or interface - // definitions - ( typeDefinition )* - - EOF! - ; - - -// Package statement: "package" followed by an identifier. -packageDefinition - options {defaultErrorHandler = true;} // let ANTLR handle errors - : p:"package"^ {#p.setType(PACKAGE_DEF);} identifier SEMI! - ; - - -// Import statement: import followed by a package or class name -importDefinition - options {defaultErrorHandler = true;} - : i:"import"^ {#i.setType(IMPORT);} identifierStar SEMI! - ; - -// A type definition in a file is either a class or interface definition. -typeDefinition - options {defaultErrorHandler = true;} - : m:modifiers! - ( classDefinition[#m] - | interfaceDefinition[#m] - ) - | SEMI! - ; - -/** A declaration is the creation of a reference or primitive-type variable - * Create a separate Type/Var tree for each var in the var list. - */ -declaration! - : m:modifiers t:typeSpec[false] v:variableDefinitions[#m,#t] - {#declaration = #v;} - ; - -// A type specification is a type name with possible brackets afterwards -// (which would make it an array type). -typeSpec[boolean addImagNode] - : classTypeSpec[addImagNode] - | builtInTypeSpec[addImagNode] - ; - -// A class type specification is a class type with possible brackets afterwards -// (which would make it an array type). -classTypeSpec[boolean addImagNode] - : identifier (lb:LBRACK^ {#lb.setType(ARRAY_DECLARATOR);} RBRACK!)* - { - if ( addImagNode ) { - #classTypeSpec = #(#[TYPE,"TYPE"], #classTypeSpec); - } - } - ; - -// A builtin type specification is a builtin type with possible brackets -// afterwards (which would make it an array type). -builtInTypeSpec[boolean addImagNode] - : builtInType (lb:LBRACK^ {#lb.setType(ARRAY_DECLARATOR);} RBRACK!)* - { - if ( addImagNode ) { - #builtInTypeSpec = #(#[TYPE,"TYPE"], #builtInTypeSpec); - } - } - ; - -// A type name. which is either a (possibly qualified) class name or -// a primitive (builtin) type -type - : identifier - | builtInType - ; - -// The primitive types. -builtInType - : "void" - | "boolean" - | "byte" - | "char" - | "short" - | "int" - | "float" - | "long" - | "double" - ; - -// A (possibly-qualified) java identifier. We start with the first IDENT -// and expand its name by adding dots and following IDENTS -identifier - : IDENT ( DOT^ IDENT )* - ; - -identifierStar - : IDENT - ( DOT^ IDENT )* - ( DOT^ STAR )? - ; - -// A list of zero or more modifiers. We could have used (modifier)* in -// place of a call to modifiers, but I thought it was a good idea to keep -// this rule separate so they can easily be collected in a Vector if -// someone so desires -modifiers - : ( modifier )* - {#modifiers = #([MODIFIERS, "MODIFIERS"], #modifiers);} - ; - -// modifiers for Java classes, interfaces, class/instance vars and methods -modifier - : "private" - | "public" - | "protected" - | "static" - | "transient" - | "final" - | "abstract" - | "native" - | "threadsafe" - | "synchronized" -// | "const" // reserved word, but not valid - | "volatile" - | "strictfp" - ; - -// Definition of a Java class -classDefinition![AST modifiers] - : "class" IDENT - // it _might_ have a superclass... - sc:superClassClause - // it might implement some interfaces... - ic:implementsClause - // now parse the body of the class - cb:classBlock - {#classDefinition = #(#[CLASS_DEF,"CLASS_DEF"], - modifiers,IDENT,sc,ic,cb);} - ; - -superClassClause! - : ( "extends" id:identifier )? - {#superClassClause = #(#[EXTENDS_CLAUSE,"EXTENDS_CLAUSE"],id);} - ; - -// Definition of a Java Interface -interfaceDefinition![AST modifiers] - : "interface" IDENT - // it might extend some other interfaces - ie:interfaceExtends - // now parse the body of the interface (looks like a class...) - cb:classBlock - {#interfaceDefinition = #(#[INTERFACE_DEF,"INTERFACE_DEF"], - modifiers,IDENT,ie,cb);} - ; - - -// This is the body of a class. You can have fields and extra semicolons, -// That's about it (until you see what a field is...) -classBlock - : LCURLY! { blockDepth++; } - ( field | SEMI! )* - RCURLY! { blockDepth--; } - {#classBlock = #([OBJBLOCK, "OBJBLOCK"], #classBlock);} - ; - -// An interface can extend several other interfaces... -interfaceExtends - : ( - e:"extends"! - identifier ( COMMA! identifier )* - )? - {#interfaceExtends = #(#[EXTENDS_CLAUSE,"EXTENDS_CLAUSE"], - #interfaceExtends);} - ; - -// A class can implement several interfaces... -implementsClause - : ( - i:"implements"! identifier ( COMMA! identifier )* - )? - {#implementsClause = #(#[IMPLEMENTS_CLAUSE,"IMPLEMENTS_CLAUSE"], - #implementsClause);} - ; - -// Now the various things that can be defined inside a class or interface... -// Note that not all of these are really valid in an interface (constructors, -// for example), and if this grammar were used for a compiler there would -// need to be some semantic checks to make sure we're doing the right thing... -field! - : // method, constructor, or variable declaration - mods:modifiers - ( h:ctorHead s:constructorBody // constructor - {#field = #(#[CTOR_DEF,"CTOR_DEF"], mods, h, s);} - - | cd:classDefinition[#mods] // inner class - {#field = #cd;} - - | id:interfaceDefinition[#mods] // inner interface - {#field = #id;} - - | t:typeSpec[false] // method or variable declaration(s) - ( fn:IDENT // the name of the method - - // parse the formal parameter declarations. - LPAREN! param:parameterDeclarationList RPAREN! - - rt:declaratorBrackets[#t] - - // get the list of exceptions that this method is - // declared to throw - (tc:throwsClause)? - - ( s2:compoundStatement | SEMI ) - {#field = #(#[METHOD_DEF,"METHOD_DEF"], - mods, - #(#[TYPE,"TYPE"],rt), - fn, - param, - tc, - s2); - if(blockDepth==1) { - functionNames.add(fn.getText()); } } - | v:variableDefinitions[#mods,#t] SEMI -// {#field = #(#[VARIABLE_DEF,"VARIABLE_DEF"], v);} - {#field = #v;} - ) - ) - - // "static { ... }" class initializer - | "static" s3:compoundStatement - {#field = #(#[STATIC_INIT,"STATIC_INIT"], s3);} - - // "{ ... }" instance initializer - | s4:compoundStatement - {#field = #(#[INSTANCE_INIT,"INSTANCE_INIT"], s4);} - ; - -constructorBody - : lc:LCURLY^ {#lc.setType(SLIST); blockDepth++; } - ( options { greedy=true; } : explicitConstructorInvocation)? - (statement)* - RCURLY! { blockDepth--; } - ; - -/** Catch obvious constructor calls, but not the expr.super(...) calls */ -explicitConstructorInvocation - : "this"! lp1:LPAREN^ argList RPAREN! SEMI! - {#lp1.setType(CTOR_CALL);} - | "super"! lp2:LPAREN^ argList RPAREN! SEMI! - {#lp2.setType(SUPER_CTOR_CALL);} - ; - -variableDefinitions[AST mods, AST t] - : variableDeclarator[getASTFactory().dupTree(mods), - getASTFactory().dupTree(t)] - ( COMMA! - variableDeclarator[getASTFactory().dupTree(mods), - getASTFactory().dupTree(t)] - )* - ; - -/** Declaration of a variable. This can be a class/instance variable, - * or a local variable in a method - * It can also include possible initialization. - */ -variableDeclarator![AST mods, AST t] - : id:IDENT d:declaratorBrackets[t] v:varInitializer - {#variableDeclarator = #(#[VARIABLE_DEF,"VARIABLE_DEF"], mods, #(#[TYPE,"TYPE"],d), id, v); - if(blockDepth==1) { - enumNames.add(id.getText()); - } - } - ; - -declaratorBrackets[AST typ] - : {#declaratorBrackets=typ;} - (lb:LBRACK^ {#lb.setType(ARRAY_DECLARATOR);} RBRACK!)* - ; - -varInitializer - : ( ASSIGN^ initializer )? - ; - -// This is an initializer used to set up an array. -arrayInitializer - : lc:LCURLY^ {#lc.setType(ARRAY_INIT); blockDepth++; } - ( initializer - ( - // CONFLICT: does a COMMA after an initializer start a new - // initializer or start the option ',' at end? - // ANTLR generates proper code by matching - // the comma as soon as possible. - options { - warnWhenFollowAmbig = false; - } - : - COMMA! initializer - )* - (COMMA!)? - )? - RCURLY! { blockDepth--; } - ; - - -// The two "things" that can initialize an array element are an expression -// and another (nested) array initializer. -initializer - : expression - | arrayInitializer - ; - -// This is the header of a method. It includes the name and parameters -// for the method. -// This also watches for a list of exception classes in a "throws" clause. -ctorHead - : IDENT // the name of the method - - // parse the formal parameter declarations. - LPAREN! parameterDeclarationList RPAREN! - - // get the list of exceptions that this method is declared to throw - (throwsClause)? - ; - -// This is a list of exception classes that the method is declared to throw -throwsClause - : "throws"^ identifier ( COMMA! identifier )* - ; - - -// A list of formal parameters -parameterDeclarationList - : ( parameterDeclaration ( COMMA! parameterDeclaration )* )? - {#parameterDeclarationList = #(#[PARAMETERS,"PARAMETERS"], - #parameterDeclarationList);} - ; - -// A formal parameter. -parameterDeclaration! - : pm:parameterModifier t:typeSpec[false] id:IDENT - pd:declaratorBrackets[#t] - {#parameterDeclaration = #(#[PARAMETER_DEF,"PARAMETER_DEF"], - pm, #([TYPE,"TYPE"],pd), id);} - ; - -parameterModifier - : (f:"final")? - {#parameterModifier = #(#[MODIFIERS,"MODIFIERS"], f);} - ; - -// Compound statement. This is used in many contexts: -// Inside a class definition prefixed with "static": -// it is a class initializer -// Inside a class definition without "static": -// it is an instance initializer -// As the body of a method -// As a completely indepdent braced block of code inside a method -// it starts a new scope for variable definitions - -compoundStatement - : lc:LCURLY^ {#lc.setType(SLIST); blockDepth++; } - // include the (possibly-empty) list of statements - (statement)* - RCURLY! { blockDepth--; } - ; - - -statement - // A list of statements in curly braces -- start a new scope! - : compoundStatement - - // declarations are ambiguous with "ID DOT" relative to expression - // statements. Must backtrack to be sure. Could use a semantic - // predicate to test symbol table to see what the type was coming - // up, but that's pretty hard without a symbol table ;) - | (declaration)=> declaration SEMI! - - // An expression statement. This could be a method call, - // assignment statement, or any other expression evaluated for - // side-effects. - | expression SEMI! - - // class definition - | m:modifiers! classDefinition[#m] - - // Attach a label to the front of a statement - | IDENT c:COLON^ {#c.setType(LABELED_STAT);} statement - - // If-else statement - | "if"^ LPAREN! expression RPAREN! statement - ( - // CONFLICT: the old "dangling-else" problem... - // ANTLR generates proper code matching - // as soon as possible. Hush warning. - options { - warnWhenFollowAmbig = false; - } - : - "else"! statement - )? - - // For statement - | "for"^ - LPAREN! - forInit SEMI! // initializer - forCond SEMI! // condition test - forIter // updater - RPAREN! - statement // statement to loop over - - // While statement - | "while"^ LPAREN! expression RPAREN! statement - - // do-while statement - | "do"^ statement "while"! LPAREN! expression RPAREN! SEMI! - - // get out of a loop (or switch) - | "break"^ (IDENT)? SEMI! - - // do next iteration of a loop - | "continue"^ (IDENT)? SEMI! - - // Return an expression - | "return"^ (expression)? SEMI! - - // switch/case statement - | "switch"^ LPAREN! expression RPAREN! LCURLY! { blockDepth++; } - ( casesGroup )* - RCURLY! { blockDepth--; } - - // exception try-catch block - | tryBlock - - // throw an exception - | "throw"^ expression SEMI! - - // synchronize a statement - | "synchronized"^ LPAREN! expression RPAREN! compoundStatement - - // asserts (uncomment if you want 1.4 compatibility) - // | "assert"^ expression ( COLON! expression )? SEMI! - - // empty statement - | s:SEMI {#s.setType(EMPTY_STAT);} - ; - -casesGroup - : ( // CONFLICT: to which case group do the statements bind? - // ANTLR generates proper code: it groups the - // many "case"/"default" labels together then - // follows them with the statements - options { - greedy = true; - } - : - aCase - )+ - caseSList - {#casesGroup = #([CASE_GROUP, "CASE_GROUP"], #casesGroup);} - ; - -aCase - : ("case"^ expression | "default") COLON! - ; - -caseSList - : (statement)* - {#caseSList = #(#[SLIST,"SLIST"],#caseSList);} - ; - -// The initializer for a for loop -forInit - // if it looks like a declaration, it is - : ( (declaration)=> declaration - // otherwise it could be an expression list... - | expressionList - )? - {#forInit = #(#[FOR_INIT,"FOR_INIT"],#forInit);} - ; - -forCond - : (expression)? - {#forCond = #(#[FOR_CONDITION,"FOR_CONDITION"],#forCond);} - ; - -forIter - : (expressionList)? - {#forIter = #(#[FOR_ITERATOR,"FOR_ITERATOR"],#forIter);} - ; - -// an exception handler try/catch block -tryBlock - : "try"^ compoundStatement - (handler)* - ( finallyClause )? - ; - -finallyClause - : "finally"^ compoundStatement - ; - -// an exception handler -handler - : "catch"^ LPAREN! parameterDeclaration RPAREN! compoundStatement - ; - - -// expressions -// Note that most of these expressions follow the pattern -// thisLevelExpression : -// nextHigherPrecedenceExpression -// (OPERATOR nextHigherPrecedenceExpression)* -// which is a standard recursive definition for a parsing an expression. -// The operators in java have the following precedences: -// lowest (13) = *= /= %= += -= <<= >>= >>>= &= ^= |= -// (12) ?: -// (11) || -// (10) && -// ( 9) | -// ( 8) ^ -// ( 7) & -// ( 6) == != -// ( 5) < <= > >= -// ( 4) << >> -// ( 3) +(binary) -(binary) -// ( 2) * / % -// ( 1) ++ -- +(unary) -(unary) ~ ! (type) -// [] () (method call) . (dot -- identifier qualification) -// new () (explicit parenthesis) -// -// the last two are not usually on a precedence chart; I put them in -// to point out that new has a higher precedence than '.', so you -// can validy use -// new Frame().show() -// -// Note that the above precedence levels map to the rules below... -// Once you have a precedence chart, writing the appropriate rules as below -// is usually very straightfoward - - - -// the mother of all expressions -expression - : assignmentExpression - {#expression = #(#[EXPR,"EXPR"],#expression);} - ; - - -// This is a list of expressions. -expressionList - : expression (COMMA! expression)* - {#expressionList = #(#[ELIST,"ELIST"], expressionList);} - ; - - -// assignment expression (level 13) -assignmentExpression - : conditionalExpression - ( ( ASSIGN^ - | PLUS_ASSIGN^ - | MINUS_ASSIGN^ - | STAR_ASSIGN^ - | DIV_ASSIGN^ - | MOD_ASSIGN^ - | SR_ASSIGN^ - | BSR_ASSIGN^ - | SL_ASSIGN^ - | BAND_ASSIGN^ - | BXOR_ASSIGN^ - | BOR_ASSIGN^ - ) - assignmentExpression - )? - ; - - -// conditional test (level 12) -conditionalExpression - : logicalOrExpression - ( QUESTION^ assignmentExpression COLON! conditionalExpression )? - ; - - -// logical or (||) (level 11) -logicalOrExpression - : logicalAndExpression (LOR^ logicalAndExpression)* - ; - - -// logical and (&&) (level 10) -logicalAndExpression - : inclusiveOrExpression (LAND^ inclusiveOrExpression)* - ; - - -// bitwise or non-short-circuiting or (|) (level 9) -inclusiveOrExpression - : exclusiveOrExpression (BOR^ exclusiveOrExpression)* - ; - - -// exclusive or (^) (level 8) -exclusiveOrExpression - : andExpression (BXOR^ andExpression)* - ; - - -// bitwise or non-short-circuiting and (&) (level 7) -andExpression - : equalityExpression (BAND^ equalityExpression)* - ; - - -// equality/inequality (==/!=) (level 6) -equalityExpression - : relationalExpression ((NOT_EQUAL^ | EQUAL^) relationalExpression)* - ; - - -// boolean relational expressions (level 5) -relationalExpression - : shiftExpression - ( ( ( LT^ - | GT^ - | LE^ - | GE^ - ) - shiftExpression - )* - | "instanceof"^ typeSpec[true] - ) - ; - - -// bit shift expressions (level 4) -shiftExpression - : additiveExpression ((SL^ | SR^ | BSR^) additiveExpression)* - ; - - -// binary addition/subtraction (level 3) -additiveExpression - : multiplicativeExpression ((PLUS^ | MINUS^) multiplicativeExpression)* - ; - - -// multiplication/division/modulo (level 2) -multiplicativeExpression - : unaryExpression ((STAR^ | DIV^ | MOD^ ) unaryExpression)* - ; - -unaryExpression - : INC^ unaryExpression - | DEC^ unaryExpression - | MINUS^ {#MINUS.setType(UNARY_MINUS);} unaryExpression - | PLUS^ {#PLUS.setType(UNARY_PLUS);} unaryExpression - | unaryExpressionNotPlusMinus - ; - -unaryExpressionNotPlusMinus - : BNOT^ unaryExpression - | LNOT^ unaryExpression - - // use predicate to skip cases like: (int.class) - | (LPAREN builtInTypeSpec[true] RPAREN) => - lpb:LPAREN^ {#lpb.setType(TYPECAST);} builtInTypeSpec[true] RPAREN! - unaryExpression - - // Have to backtrack to see if operator follows. If no operator - // follows, it's a typecast. No semantic checking needed to parse. - // if it _looks_ like a cast, it _is_ a cast; else it's a "(expr)" - | (LPAREN classTypeSpec[true] RPAREN unaryExpressionNotPlusMinus)=> - lp:LPAREN^ {#lp.setType(TYPECAST);} classTypeSpec[true] RPAREN! - unaryExpressionNotPlusMinus - - | postfixExpression - ; - -// qualified names, array expressions, method invocation, post inc/dec -postfixExpression - : - /* - "this"! lp1:LPAREN^ argList RPAREN! - {#lp1.setType(CTOR_CALL);} - - | "super"! lp2:LPAREN^ argList RPAREN! - {#lp2.setType(SUPER_CTOR_CALL);} - | - */ - primaryExpression - - ( - /* - options { - // the use of postfixExpression in SUPER_CTOR_CALL adds DOT - // to the lookahead set, and gives loads of false non-det - // warnings. - // shut them off. - generateAmbigWarnings=false; - } - : */ - DOT^ IDENT - ( lp:LPAREN^ {#lp.setType(METHOD_CALL);} - argList - RPAREN! - )? - | DOT^ "this" - - | DOT^ "super" - ( // (new Outer()).super() (create enclosing instance) - lp3:LPAREN^ argList RPAREN! - {#lp3.setType(SUPER_CTOR_CALL);} - | DOT^ IDENT - ( lps:LPAREN^ {#lps.setType(METHOD_CALL);} - argList - RPAREN! - )? - ) - | DOT^ newExpression - | lb:LBRACK^ {#lb.setType(INDEX_OP);} expression RBRACK! - )* - - ( // possibly add on a post-increment or post-decrement. - // allows INC/DEC on too much, but semantics can check - in:INC^ {#in.setType(POST_INC);} - | de:DEC^ {#de.setType(POST_DEC);} - )? - ; - -// the basic element of an expression -primaryExpression - : identPrimary ( options {greedy=true;} : DOT^ "class" )? - | constant - | "true" - | "false" - | "null" - | newExpression - | "this" - | "super" - | LPAREN! assignmentExpression RPAREN! - // look for int.class and int[].class - | builtInType - ( lbt:LBRACK^ {#lbt.setType(ARRAY_DECLARATOR);} RBRACK! )* - DOT^ "class" - ; - -/** Match a, a.b.c refs, a.b.c(...) refs, a.b.c[], a.b.c[].class, - * and a.b.c.class refs. Also this(...) and super(...). Match - * this or super. - */ -identPrimary - : IDENT - ( - options { - // .ident could match here or in postfixExpression. - // We do want to match here. Turn off warning. - greedy=true; - } - : DOT^ IDENT - )* - ( - options { - // ARRAY_DECLARATOR here conflicts with INDEX_OP in - // postfixExpression on LBRACK RBRACK. - // We want to match [] here, so greedy. This overcomes - // limitation of linear approximate lookahead. - greedy=true; - } - : ( lp:LPAREN^ {#lp.setType(METHOD_CALL);} argList RPAREN! ) - | ( options {greedy=true;} : - lbc:LBRACK^ {#lbc.setType(ARRAY_DECLARATOR);} RBRACK! - )+ - )? - ; - -/** object instantiation. - * Trees are built as illustrated by the following input/tree pairs: - * - * new T() - * - * new - * | - * T -- ELIST - * | - * arg1 -- arg2 -- .. -- argn - * - * new int[] - * - * new - * | - * int -- ARRAY_DECLARATOR - * - * new int[] {1,2} - * - * new - * | - * int -- ARRAY_DECLARATOR -- ARRAY_INIT - * | - * EXPR -- EXPR - * | | - * 1 2 - * - * new int[3] - * new - * | - * int -- ARRAY_DECLARATOR - * | - * EXPR - * | - * 3 - * - * new int[1][2] - * - * new - * | - * int -- ARRAY_DECLARATOR - * | - * ARRAY_DECLARATOR -- EXPR - * | | - * EXPR 1 - * | - * 2 - * - */ -newExpression - : "new"^ type - ( LPAREN! argList RPAREN! (classBlock)? - - //java 1.1 - // Note: This will allow bad constructs like - // new int[4][][3] {exp,exp}. - // There needs to be a semantic check here... - // to make sure: - // a) [ expr ] and [ ] are not mixed - // b) [ expr ] and an init are not used together - - | newArrayDeclarator (arrayInitializer)? - ) - ; - -argList - : ( expressionList - | /*nothing*/ - {#argList = #[ELIST,"ELIST"];} - ) - ; - -newArrayDeclarator - : ( - // CONFLICT: - // newExpression is a primaryExpression which can be - // followed by an array index reference. This is ok, - // as the generated code will stay in this loop as - // long as it sees an LBRACK (proper behavior) - options { - warnWhenFollowAmbig = false; - } - : - lb:LBRACK^ {#lb.setType(ARRAY_DECLARATOR);} - (expression)? - RBRACK! - )+ - ; - -constant - : NUM_INT - | CHAR_LITERAL - | STRING_LITERAL - | NUM_FLOAT - | NUM_LONG - | NUM_DOUBLE - ; - -//---------------------------------------------------------------------------- -// The Java scanner -//---------------------------------------------------------------------------- -class JavaLexer extends Lexer; - -options { - exportVocab=Java; // call the vocabulary "Java" - testLiterals=false; // don't automatically test for literals - k=4; // four characters of lookahead - charVocabulary='\u0003'..'\u7FFE'; - // without inlining some bitset tests, couldn't do unicode; - // I need to make ANTLR generate smaller bitsets; see - // bottom of JavaLexer.java - codeGenBitsetTestThreshold=20; -} - -// OPERATORS -QUESTION : '?' ; -LPAREN : '(' ; -RPAREN : ')' ; -LBRACK : '[' ; -RBRACK : ']' ; -LCURLY : '{' ; -RCURLY : '}' ; -COLON : ':' ; -COMMA : ',' ; -//DOT : '.' ; -ASSIGN : '=' ; -EQUAL : "==" ; -LNOT : '!' ; -BNOT : '~' ; -NOT_EQUAL : "!=" ; -DIV : '/' ; -DIV_ASSIGN : "/=" ; -PLUS : '+' ; -PLUS_ASSIGN : "+=" ; -INC : "++" ; -MINUS : '-' ; -MINUS_ASSIGN : "-=" ; -DEC : "--" ; -STAR : '*' ; -STAR_ASSIGN : "*=" ; -MOD : '%' ; -MOD_ASSIGN : "%=" ; -SR : ">>" ; -SR_ASSIGN : ">>=" ; -BSR : ">>>" ; -BSR_ASSIGN : ">>>=" ; -GE : ">=" ; -GT : ">" ; -SL : "<<" ; -SL_ASSIGN : "<<=" ; -LE : "<=" ; -LT : '<' ; -BXOR : '^' ; -BXOR_ASSIGN : "^=" ; -BOR : '|' ; -BOR_ASSIGN : "|=" ; -LOR : "||" ; -BAND : '&' ; -BAND_ASSIGN : "&=" ; -LAND : "&&" ; -SEMI : ';' ; - - -// Whitespace -- ignored -WS : ( ' ' - | '\t' - | '\f' - // handle newlines - | ( options {generateAmbigWarnings=false;} - : "\r\n" // Evil DOS - | '\r' // Macintosh - | '\n' // Unix (the right way) - ) - { newline(); } - )+ - { _ttype = Token.SKIP; } - ; - -// Single-line comments -SL_COMMENT - : "//" - (~('\n'|'\r'))* ('\n'|'\r'('\n')?)? - {$setType(Token.SKIP); newline();} - ; - -// multiple-line comments -ML_COMMENT - : "/*" - ( /* '\r' '\n' can be matched in one alternative or by matching - '\r' in one iteration and '\n' in another. I am trying to - handle any flavor of newline that comes in, but the language - that allows both "\r\n" and "\r" and "\n" to all be valid - newline is ambiguous. Consequently, the resulting grammar - must be ambiguous. I'm shutting this warning off. - */ - options { - generateAmbigWarnings=false; - } - : - { LA(2)!='/' }? '*' - | '\r' '\n' {newline();} - | '\r' {newline();} - | '\n' {newline();} - | ~('*'|'\n'|'\r') - )* - "*/" - {$setType(Token.SKIP);} - ; - - -// character literals -CHAR_LITERAL - : '\'' ( ESC | ~('\''|'\n'|'\r'|'\\') ) '\'' - ; - -// string literals -STRING_LITERAL - : '"' (ESC|~('"'|'\\'|'\n'|'\r'))* '"' - ; - - -// escape sequence -- note that this is protected; it can only be called -// from another lexer rule -- it will not ever directly return a token to -// the parser -// There are various ambiguities hushed in this rule. The optional -// '0'...'9' digit matches should be matched here rather than letting -// them go back to STRING_LITERAL to be matched. ANTLR does the -// right thing by matching immediately; hence, it's ok to shut off -// the FOLLOW ambig warnings. -protected -ESC - : '\\' - ( 'n' - | 'r' - | 't' - | 'b' - | 'f' - | '"' - | '\'' - | '\\' - | ('u')+ HEX_DIGIT HEX_DIGIT HEX_DIGIT HEX_DIGIT - | '0'..'3' - ( - options { - warnWhenFollowAmbig = false; - } - : '0'..'7' - ( - options { - warnWhenFollowAmbig = false; - } - : '0'..'7' - )? - )? - | '4'..'7' - ( - options { - warnWhenFollowAmbig = false; - } - : '0'..'7' - )? - ) - ; - - -// hexadecimal digit (again, note it's protected!) -protected -HEX_DIGIT - : ('0'..'9'|'A'..'F'|'a'..'f') - ; - - -// an identifier. Note that testLiterals is set to true! This means -// that after we match the rule, we look in the literals table to see -// if it's a literal or really an identifer -IDENT - options {testLiterals=true;} - : ('a'..'z'|'A'..'Z'|'_'|'$') ('a'..'z'|'A'..'Z'|'_'|'0'..'9'|'$')* - ; - - -// a numeric literal -NUM_INT - {boolean isDecimal=false; Token t=null;} - : '.' {_ttype = DOT;} - ( ('0'..'9')+ (EXPONENT)? (f1:FLOAT_SUFFIX {t=f1;})? - { - if (t != null && t.getText().toUpperCase().indexOf('F')>=0) { - _ttype = NUM_FLOAT; - } - else { - _ttype = NUM_DOUBLE; // assume double - } - } - )? - - | ( '0' {isDecimal = true;} // special case for just '0' - ( ('x'|'X') - ( // hex - // the 'e'|'E' and float suffix stuff look - // like hex digits, hence the (...)+ doesn't - // know when to stop: ambig. ANTLR resolves - // it correctly by matching immediately. It - // is therefor ok to hush warning. - options { - warnWhenFollowAmbig=false; - } - : HEX_DIGIT - )+ - - | //float or double with leading zero - (('0'..'9')+ ('.'|EXPONENT|FLOAT_SUFFIX)) => ('0'..'9')+ - - | ('0'..'7')+ // octal - )? - | ('1'..'9') ('0'..'9')* {isDecimal=true;} // non-zero decimal - ) - ( ('l'|'L') { _ttype = NUM_LONG; } - - // only check to see if it's a float if looks like decimal so far - | {isDecimal}? - ( '.' ('0'..'9')* (EXPONENT)? (f2:FLOAT_SUFFIX {t=f2;})? - | EXPONENT (f3:FLOAT_SUFFIX {t=f3;})? - | f4:FLOAT_SUFFIX {t=f4;} - ) - { - if (t != null && t.getText().toUpperCase() .indexOf('F') >= 0) { - _ttype = NUM_FLOAT; - } - else { - _ttype = NUM_DOUBLE; // assume double - } - } - )? - ; - - -// a couple protected methods to assist in matching floating point numbers -protected -EXPONENT - : ('e'|'E') ('+'|'-')? ('0'..'9')+ - ; - - -protected -FLOAT_SUFFIX - : 'f'|'F'|'d'|'D' - ; - -- cgit v1.2.3