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1319 lines
35 KiB
1319 lines
35 KiB
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header "pre_include_hpp" {
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#include "driver.h"
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#include "JavaAST.hpp"
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#include <qlistview.h>
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#include <kdebug.h>
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#define SET_POSITION(ast,t)\
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{ \
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RefJavaAST(ast)->setLine( t->getLine() );\
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RefJavaAST(ast)->setColumn( t->getColumn() ); \
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}
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}
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options {
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language="Cpp";
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}
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/** Java 1.3 Recognizer
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*
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* Run 'java Main [-showtree] directory-full-of-java-files'
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*
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* [The -showtree option pops up a Swing frame that shows
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* the AST constructed from the parser.]
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*
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* Run 'java Main <directory full of java files>'
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*
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* Contributing authors:
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* John Mitchell johnm@non.net
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* Terence Parr parrt@magelang.com
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* John Lilley jlilley@empathy.com
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* Scott Stanchfield thetick@magelang.com
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* Markus Mohnen mohnen@informatik.rwth-aachen.de
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* Peter Williams pete.williams@sun.com
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* Allan Jacobs Allan.Jacobs@eng.sun.com
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* Steve Messick messick@redhills.com
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* John Pybus john@pybus.org
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*
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* Version 1.00 December 9, 1997 -- initial release
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* Version 1.01 December 10, 1997
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* fixed bug in octal def (0..7 not 0..8)
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* Version 1.10 August 1998 (parrt)
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* added tree construction
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* fixed definition of WS,comments for mac,pc,unix newlines
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* added unary plus
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* Version 1.11 (Nov 20, 1998)
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* Added "shutup" option to turn off last ambig warning.
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* Fixed inner class def to allow named class defs as statements
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* synchronized requires compound not simple statement
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* add [] after builtInType DOT class in primaryExpression
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* "const" is reserved but not valid..removed from modifiers
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* Version 1.12 (Feb 2, 1999)
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* Changed LITERAL_xxx to xxx in tree grammar.
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* Updated java.g to use tokens {...} now for 2.6.0 (new feature).
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*
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* Version 1.13 (Apr 23, 1999)
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* Didn't have (stat)? for else clause in tree parser.
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* Didn't gen ASTs for interface extends. Updated tree parser too.
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* Updated to 2.6.0.
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* Version 1.14 (Jun 20, 1999)
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* Allowed final/abstract on local classes.
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* Removed local interfaces from methods
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* Put instanceof precedence where it belongs...in relationalExpr
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* It also had expr not type as arg; fixed it.
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* Missing ! on SEMI in classBlock
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* fixed: (expr) + "string" was parsed incorrectly (+ as unary plus).
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* fixed: didn't like Object[].class in parser or tree parser
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* Version 1.15 (Jun 26, 1999)
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* Screwed up rule with instanceof in it. :( Fixed.
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* Tree parser didn't like (expr).something; fixed.
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* Allowed multiple inheritance in tree grammar. oops.
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* Version 1.16 (August 22, 1999)
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* Extending an interface built a wacky tree: had extra EXTENDS.
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* Tree grammar didn't allow multiple superinterfaces.
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* Tree grammar didn't allow empty var initializer: {}
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* Version 1.17 (October 12, 1999)
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* ESC lexer rule allowed 399 max not 377 max.
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* java.tree.g didn't handle the expression of synchronized
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* statements.
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* Version 1.18 (August 12, 2001)
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* Terence updated to Java 2 Version 1.3 by
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* observing/combining work of Allan Jacobs and Steve
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* Messick. Handles 1.3 src. Summary:
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* o primary didn't include boolean.class kind of thing
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* o constructor calls parsed explicitly now:
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* see explicitConstructorInvocation
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* o add strictfp modifier
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* o missing objBlock after new expression in tree grammar
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* o merged local class definition alternatives, moved after declaration
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* o fixed problem with ClassName.super.field
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* o reordered some alternatives to make things more efficient
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* o long and double constants were not differentiated from int/float
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* o whitespace rule was inefficient: matched only one char
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* o add an examples directory with some nasty 1.3 cases
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* o made Main.java use buffered IO and a Reader for Unicode support
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* o supports UNICODE?
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* Using Unicode charVocabulay makes code file big, but only
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* in the bitsets at the end. I need to make ANTLR generate
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* unicode bitsets more efficiently.
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* Version 1.19 (April 25, 2002)
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* Terence added in nice fixes by John Pybus concerning floating
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* constants and problems with super() calls. John did a nice
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* reorg of the primary/postfix expression stuff to read better
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* and makes f.g.super() parse properly (it was METHOD_CALL not
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* a SUPER_CTOR_CALL). Also:
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*
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* o "finally" clause was a root...made it a child of "try"
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* o Added stuff for asserts too for Java 1.4, but *commented out*
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* as it is not backward compatible.
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*
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* Version 1.20 (October 27, 2002)
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*
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* Terence ended up reorging John Pybus' stuff to
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* remove some nondeterminisms and some syntactic predicates.
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* Note that the grammar is stricter now; e.g., this(...) must
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* be the first statement.
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*
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* Trinary ?: operator wasn't working as array name:
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* (isBig ? bigDigits : digits)[i];
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*
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* Checked parser/tree parser on source for
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* Resin-2.0.5, jive-2.1.1, jdk 1.3.1, Lucene, antlr 2.7.2a4,
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* and the 110k-line jGuru server source.
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*
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* Version tracking now done with following ID:
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*
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* $Id$
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*
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* This grammar is in the PUBLIC DOMAIN
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*/
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class JavaRecognizer extends Parser;
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options {
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k = 2; // two token lookahead
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exportVocab=Java; // Call its vocabulary "Java"
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codeGenMakeSwitchThreshold = 2; // Some optimizations
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codeGenBitsetTestThreshold = 3;
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defaultErrorHandler = true;
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buildAST = true;
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ASTLabelType = "RefJavaAST";
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}
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tokens {
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BLOCK; MODIFIERS; OBJBLOCK; SLIST; CTOR_DEF; METHOD_DEF; VARIABLE_DEF;
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INSTANCE_INIT; STATIC_INIT; TYPE; CLASS_DEF; INTERFACE_DEF;
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PACKAGE_DEF; ARRAY_DECLARATOR; EXTENDS_CLAUSE; IMPLEMENTS_CLAUSE;
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PARAMETERS; PARAMETER_DEF; LABELED_STAT; TYPECAST; INDEX_OP;
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POST_INC; POST_DEC; METHOD_CALL; EXPR; ARRAY_INIT;
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IMPORT; UNARY_MINUS; UNARY_PLUS; CASE_GROUP; ELIST; FOR_INIT; FOR_CONDITION;
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FOR_ITERATOR; EMPTY_STAT; FINAL="final"; ABSTRACT="abstract";
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STRICTFP="strictfp"; SUPER_CTOR_CALL; CTOR_CALL;
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}
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{
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private:
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Driver* m_driver;
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public:
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void setDriver( Driver* d ) { m_driver = d; }
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void setFileName( const QString& fileName ) { m_driver->currentFileName() = fileName; }
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void reportError( const ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex ){
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m_driver->addProblem( m_driver->currentFileName(), Problem( QString::fromLocal8Bit(ex.getMessage().c_str()), ex.getLine(), ex.getColumn()) );
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}
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void reportError( const ANTLR_USE_NAMESPACE(std)string& errorMessage ){
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m_driver->addProblem( m_driver->currentFileName(), Problem( QString::fromLocal8Bit(errorMessage.c_str()), LT(1)->getLine(), LT(1)->getColumn()) );
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}
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void reportMessage( const ANTLR_USE_NAMESPACE(std)string& message ){
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m_driver->addProblem( m_driver->currentFileName(), Problem( QString::fromLocal8Bit(message.c_str()), LT(1)->getLine(), LT(1)->getColumn()) );
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}
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}
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// Compilation Unit: In Java, this is a single file. This is the start
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// rule for this parser
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compilationUnit
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: // A compilation unit starts with an optional package definition
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( packageDefinition
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| /* nothing */
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)
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// Next we have a series of zero or more import statements
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( importDefinition )*
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// Wrapping things up with any number of class or interface
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// definitions
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( typeDefinition )*
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EOF!
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;
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// Package statement: "package" followed by an identifier.
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packageDefinition
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options {defaultErrorHandler = true;} // let ANTLR handle errors
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: p:"package"^ {#p->setType(PACKAGE_DEF);} identifier SEMI!
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;
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// Import statement: import followed by a package or class name
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importDefinition
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options {defaultErrorHandler = true;}
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: i:"import"^ {#i->setType(IMPORT);} identifierStar SEMI!
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;
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// A type definition in a file is either a class or interface definition.
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typeDefinition
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options {defaultErrorHandler = true;}
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: m:modifiers!
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( classDefinition[#m]
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| interfaceDefinition[#m]
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)
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| SEMI!
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;
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/** A declaration is the creation of a reference or primitive-type variable
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* Create a separate Type/Var tree for each var in the var list.
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*/
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declaration!
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: m:modifiers t:typeSpec[false] v:variableDefinitions[#m,#t]
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{#declaration = #v;}
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;
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// A type specification is a type name with possible brackets afterwards
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// (which would make it an array type).
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typeSpec[bool addImagNode]
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: classTypeSpec[addImagNode]
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| builtInTypeSpec[addImagNode]
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;
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// A class type specification is a class type with possible brackets afterwards
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// (which would make it an array type).
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classTypeSpec[bool addImagNode]
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: identifier (lb:LBRACK^ {#lb->setType(ARRAY_DECLARATOR);} RBRACK!)*
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{
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if ( addImagNode ) {
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#classTypeSpec = #(#[TYPE,"TYPE"], #classTypeSpec);
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}
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}
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;
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// A builtin type specification is a builtin type with possible brackets
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// afterwards (which would make it an array type).
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builtInTypeSpec[bool addImagNode]
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: builtInType (lb:LBRACK^ {#lb->setType(ARRAY_DECLARATOR);} RBRACK!)*
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{
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if ( addImagNode ) {
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#builtInTypeSpec = #(#[TYPE,"TYPE"], #builtInTypeSpec);
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}
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}
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;
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// A type name. which is either a (possibly qualified) class name or
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// a primitive (builtin) type
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type
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: identifier
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| builtInType
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;
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// The primitive types.
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builtInType
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: "void"
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| "boolean"
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| "byte"
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| "char"
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| "short"
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| "int"
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| "float"
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| "long"
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| "double"
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;
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// A (possibly-qualified) java identifier. We start with the first IDENT
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// and expand its name by adding dots and following IDENTS
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identifier
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: IDENT ( DOT^ IDENT )*
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;
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identifierStar
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: IDENT
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( DOT^ IDENT )*
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( DOT^ STAR )?
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;
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// A list of zero or more modifiers. We could have used (modifier)* in
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// place of a call to modifiers, but I thought it was a good idea to keep
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// this rule separate so they can easily be collected in a Vector if
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// someone so desires
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modifiers
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: ( modifier )*
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{#modifiers = #([MODIFIERS, "MODIFIERS"], #modifiers);}
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;
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// modifiers for Java classes, interfaces, class/instance vars and methods
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modifier
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: "private"
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| "public"
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| "protected"
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| "static"
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| "transient"
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| "final"
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| "abstract"
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| "native"
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| "threadsafe"
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| "synchronized"
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// | "const" // reserved word, but not valid
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| "volatile"
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| "strictfp"
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;
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// Definition of a Java class
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classDefinition![RefJavaAST modifiers]
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: "class" IDENT
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// it _might_ have a superclass...
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sc:superClassClause
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// it might implement some interfaces...
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ic:implementsClause
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// now parse the body of the class
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cb:classBlock
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{#classDefinition = #(#[CLASS_DEF,"CLASS_DEF"],
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modifiers,IDENT,sc,ic,cb);}
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;
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superClassClause!
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: ( "extends" id:identifier )?
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{#superClassClause = #(#[EXTENDS_CLAUSE,"EXTENDS_CLAUSE"],id);}
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;
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// Definition of a Java Interface
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interfaceDefinition![RefJavaAST modifiers]
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: "interface" IDENT
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// it might extend some other interfaces
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ie:interfaceExtends
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// now parse the body of the interface (looks like a class...)
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cb:classBlock
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{#interfaceDefinition = #(#[INTERFACE_DEF,"INTERFACE_DEF"],
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modifiers,IDENT,ie,cb);}
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;
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// This is the body of a class. You can have fields and extra semicolons,
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// That's about it (until you see what a field is...)
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classBlock
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: LCURLY!
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( field | SEMI! )*
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RCURLY!
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{#classBlock = #([OBJBLOCK, "OBJBLOCK"], #classBlock);}
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;
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// An interface can extend several other interfaces...
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interfaceExtends
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: (
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e:"extends"!
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identifier ( COMMA! identifier )*
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)?
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{#interfaceExtends = #(#[EXTENDS_CLAUSE,"EXTENDS_CLAUSE"],
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#interfaceExtends);}
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;
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// A class can implement several interfaces...
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implementsClause
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: (
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i:"implements"! identifier ( COMMA! identifier )*
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)?
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{#implementsClause = #(#[IMPLEMENTS_CLAUSE,"IMPLEMENTS_CLAUSE"],
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#implementsClause);}
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;
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|
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// Now the various things that can be defined inside a class or interface...
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// Note that not all of these are really valid in an interface (constructors,
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// for example), and if this grammar were used for a compiler there would
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// need to be some semantic checks to make sure we're doing the right thing...
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field!
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: // method, constructor, or variable declaration
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mods:modifiers
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( h:ctorHead s:constructorBody // constructor
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{#field = #(#[CTOR_DEF,"CTOR_DEF"], mods, h, s);}
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|
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| cd:classDefinition[#mods] // inner class
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{#field = #cd;}
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|
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| id:interfaceDefinition[#mods] // inner interface
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{#field = #id;}
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|
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| t:typeSpec[false] // method or variable declaration(s)
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( IDENT // the name of the method
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|
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// parse the formal parameter declarations.
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LPAREN! param:parameterDeclarationList RPAREN!
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rt:declaratorBrackets[#t]
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// get the list of exceptions that this method is
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// declared to throw
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(tc:throwsClause)?
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( s2:compoundStatement | SEMI )
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{#field = #(#[METHOD_DEF,"METHOD_DEF"],
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mods,
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#(#[TYPE,"TYPE"],rt),
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IDENT,
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param,
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tc,
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s2);}
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| v:variableDefinitions[#mods,#t] SEMI
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// {#field = #(#[VARIABLE_DEF,"VARIABLE_DEF"], v);}
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{#field = #v;}
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)
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)
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|
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// "static { ... }" class initializer
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| "static" s3:compoundStatement
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{#field = #(#[STATIC_INIT,"STATIC_INIT"], s3);}
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|
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// "{ ... }" instance initializer
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| s4:compoundStatement
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{#field = #(#[INSTANCE_INIT,"INSTANCE_INIT"], s4);}
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|
;
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|
|
constructorBody
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|
: lc:LCURLY^ {#lc->setType(SLIST);}
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|
( options { greedy=true; } : explicitConstructorInvocation)?
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|
(statement)*
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|
RCURLY!
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;
|
|
|
|
/** Catch obvious constructor calls, but not the expr.super(...) calls */
|
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explicitConstructorInvocation
|
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: "this"! lp1:LPAREN^ argList RPAREN! SEMI!
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{#lp1->setType(CTOR_CALL);}
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|
| "super"! lp2:LPAREN^ argList RPAREN! SEMI!
|
|
{#lp2->setType(SUPER_CTOR_CALL);}
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|
;
|
|
|
|
variableDefinitions[RefJavaAST mods, RefJavaAST t]
|
|
: variableDeclarator[(RefJavaAST)getASTFactory()->dupTree((antlr::RefAST)mods),
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(RefJavaAST)getASTFactory()->dupTree((antlr::RefAST)t)]
|
|
( COMMA!
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variableDeclarator[(RefJavaAST)getASTFactory()->dupTree((antlr::RefAST)mods),
|
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(RefJavaAST)getASTFactory()->dupTree((antlr::RefAST)t)]
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|
)*
|
|
;
|
|
|
|
/** 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![RefJavaAST mods, RefJavaAST t]
|
|
: id:IDENT d:declaratorBrackets[t] v:varInitializer
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{#variableDeclarator = #(#[VARIABLE_DEF,"VARIABLE_DEF"], mods, #(#[TYPE,"TYPE"],d), id, v);}
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|
;
|
|
|
|
declaratorBrackets[RefJavaAST typ]
|
|
: {#declaratorBrackets=typ;}
|
|
(lb:LBRACK^ {#lb->setType(ARRAY_DECLARATOR);} RBRACK!)*
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|
;
|
|
|
|
varInitializer
|
|
: ( ASSIGN^ initializer )?
|
|
;
|
|
|
|
// This is an initializer used to set up an array.
|
|
arrayInitializer
|
|
: lc:LCURLY^ {#lc->setType(ARRAY_INIT);}
|
|
( 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
|
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)*
|
|
(COMMA!)?
|
|
)?
|
|
RCURLY!
|
|
;
|
|
|
|
// 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);}
|
|
// include the (possibly-empty) list of statements
|
|
(statement)*
|
|
RCURLY!
|
|
;
|
|
|
|
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!
|
|
( casesGroup )*
|
|
RCURLY!
|
|
|
|
// 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
|
|
|
|
| ( // subrule allows option to shut off warnings
|
|
options {
|
|
// "(int" ambig with postfixExpr due to lack of sequence
|
|
// info in linear approximate LL(k). It's ok. Shut up.
|
|
generateAmbigWarnings=false;
|
|
}
|
|
: // If typecast is built in type, must be numeric operand
|
|
// Also, no reason to backtrack if type keyword like int, float...
|
|
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
|
|
//----------------------------------------------------------------------------
|
|
{
|
|
#include <string>
|
|
}
|
|
class JavaLexer extends Lexer;
|
|
|
|
options {
|
|
exportVocab=Java; // call the vocabulary "Java"
|
|
testLiterals=false; // don't automatically test for literals
|
|
defaultErrorHandler=false;
|
|
k=4; // four characters of lookahead
|
|
// charVocabulary='\u0003'..'\uFFFF';
|
|
charVocabulary='\u0003'..'\u00FF';
|
|
// without inlining some bitset tests, couldn't do unicode;
|
|
// I need to make ANTLR generate smaller bitsets; see
|
|
// bottom of JavaLexer.java
|
|
codeGenBitsetTestThreshold=20;
|
|
}
|
|
{
|
|
private:
|
|
Driver* m_driver;
|
|
|
|
public:
|
|
void setDriver( Driver* d ) { m_driver = d; }
|
|
void setFileName( const QString& fileName ) { m_driver->currentFileName() = fileName; }
|
|
|
|
virtual void reportError( const ANTLR_USE_NAMESPACE(antlr)RecognitionException& ex ){
|
|
m_driver->addProblem( m_driver->currentFileName(), Problem( QString::fromLocal8Bit(ex.getMessage().c_str()), ex.getLine(), ex.getColumn()) );
|
|
}
|
|
|
|
virtual void reportError( const ANTLR_USE_NAMESPACE(std)string& errorMessage ){
|
|
m_driver->addProblem( m_driver->currentFileName(), Problem( QString::fromLocal8Bit(errorMessage.c_str()), getLine(), getColumn()) );
|
|
}
|
|
|
|
virtual void reportWarning( const ANTLR_USE_NAMESPACE(std)string& warnMessage ){
|
|
m_driver->addProblem( m_driver->currentFileName(), Problem( QString::fromLocal8Bit(warnMessage.c_str()), getLine(), getColumn()) );
|
|
}
|
|
}
|
|
|
|
// 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(); }
|
|
)+
|
|
{ $setType(ANTLR_USE_NAMESPACE(antlr)Token::SKIP); }
|
|
;
|
|
|
|
// Single-line comments
|
|
SL_COMMENT
|
|
: "//"
|
|
(~('\n'|'\r'))* ('\n'|'\r'('\n')?)
|
|
{
|
|
$setType(ANTLR_USE_NAMESPACE(antlr)Token::SKIP);
|
|
newline();
|
|
}
|
|
;
|
|
|
|
// multiple-line comments
|
|
ML_COMMENT
|
|
: "/*"
|
|
( /* '\r' '\n' can be matched in one alternative or by matching
|
|
'\r' in one iteration and '\n' in another. I am trying to
|
|
handle any flavor of newline that comes in, but the language
|
|
that allows both "\r\n" and "\r" and "\n" to all be valid
|
|
newline is ambiguous. Consequently, the resulting grammar
|
|
must be ambiguous. I'm shutting this warning off.
|
|
*/
|
|
options {
|
|
generateAmbigWarnings=false;
|
|
}
|
|
:
|
|
{ LA(2)!='/' }? '*'
|
|
| '\r' '\n' {newline();}
|
|
| '\r' {newline();}
|
|
| '\n' {newline();}
|
|
| ~('*'|'\n'|'\r')
|
|
)*
|
|
"*/"
|
|
{$setType(ANTLR_USE_NAMESPACE(antlr)Token::SKIP);}
|
|
;
|
|
|
|
// character literals
|
|
CHAR_LITERAL
|
|
: '\'' ( ESC | ~'\'' ) '\''
|
|
;
|
|
|
|
// string literals
|
|
STRING_LITERAL
|
|
: '"' (ESC|~('"'|'\\'))* '"'
|
|
;
|
|
|
|
// 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')
|
|
;
|
|
|
|
// a dummy rule to force vocabulary to be all characters (except special
|
|
// ones that ANTLR uses internally (0 to 2)
|
|
protected
|
|
VOCAB
|
|
: '\3'..'\377'
|
|
;
|
|
|
|
// 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
|
|
{
|
|
bool isDecimal = false;
|
|
ANTLR_USE_NAMESPACE(antlr)RefToken t = ANTLR_USE_NAMESPACE(antlr)nullToken;
|
|
}
|
|
: '.' {_ttype = DOT;}
|
|
( ('0'..'9')+ (EXPONENT)? (f1:FLOAT_SUFFIX {t=f1;})?
|
|
{
|
|
if ( t &&
|
|
(t->getText().find('f') != ANTLR_USE_NAMESPACE(std)string::npos ||
|
|
t->getText().find('F') != ANTLR_USE_NAMESPACE(std)string::npos ) ) {
|
|
_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
|
|
)+
|
|
| ('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 &&
|
|
(t->getText().find('f') != ANTLR_USE_NAMESPACE(std)string::npos ||
|
|
t->getText().find('F') != ANTLR_USE_NAMESPACE(std)string::npos ) ) {
|
|
_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'
|
|
;
|
|
|