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/*@bgen(jjtree) Generated By:JJTree: Do not edit this line. Java.jj */
/*@egen*//**
 * Support "JEP 455: Primitive Types in Patterns, instanceof, and switch (Preview)" (Java 23)
 *     Changes in InstanceOfExpression
 * Support "JEP 476: Module Import Declarations (Preview)" (Java 23)
 *     Changes in ImportDeclaration
 * Support "JEP 477: Implicitly Declared Classes and Instance Main Methods (Third Preview)" (Java 23)
 *     Changes in CompilationUnit, added new node ImplicitClassDeclaration
 * Andreas Dangel 07/2024
 *====================================================================
 * Support "JEP 447: Statements before super(...) (Preview)" (Java 22)
 *     Changes in ConstructorBlock
 * Support "JEP 456: Unnamed Variables & Patterns" (Java 22)
 *     This is now a regular language feature. Otherwise no changes.
 * Support "JEP 463: Implicitly Declared Classes and Instance Main Methods (Second Preview)" (Java 22)
 *     No changes.
 * Support "JEP 459: String Templates (Second Preview)" (Java 22)
 *     Use ASTTemplate.setContent instead of setImage.
 * Remove support for Record pattern in enhanced for statements. This was only a Java 20 Preview feature.
 * Remove support for ParenthesizedPatterns. This was only a Java 20 Preview feature.
 * Andreas Dangel 02/2024
 *====================================================================
 * Renamed various nodes:
 * ClassOrInterfaceType -> ClassType
 * ClassOrInterfaceDeclaration -> ClassDeclaration
 * ClassOrInterfaceBody -> ClassBody
 * AnyTypeDeclaration -> TypeDeclaration
 * MethodOrConstructorDeclaration -> ExecutableDeclaration
 * VariableDeclaratorId -> VariableId
 * Andreas Dangel 12/2023
 *====================================================================
 * Support "JEP 443: Unnamed Patterns and Variables" for Java 21 Preview.
 *    New AST nodes: ASTUnnamedPattern
 * Support "JEP 430: String Templates" for Java 21 Preview.
 *    New AST nodes: ASTTemplateExpression, ASTTemplate, ASTTemplateFragment
 * Promote "JEP 441: Pattern Matching for switch" as permanent language feature for Java 21.
 *    Renamed SwitchGuard to Guard.
 * Promote "JEP 440: Record Patterns" as permanent language feature for Java 21.
 *    Renamed ComponentPatternList to PatternList
 * Andreas Dangel 08/2023
 *====================================================================
 * Support "JEP 433: Pattern Matching for switch (Fourth Preview)" for Java 20 Preview
 *    SwitchLabel simplified
 * Support "JEP 432: Record Patterns (Second Preview)" for Java 20 Preview
 *    ForStatement allows record patterns
 *    Removed named record patterns (optional VariableDeclaratorId following the pattern)
 * Remove support for Java 18 preview language features
 *    GuardedPattern is removed
 * Andreas Dangel 02/2023
 *====================================================================
 * Support "JEP 427: Pattern Matching for switch (Third Preview)" for Java 19 Preview
 * Note: GuardedPattern is deprecated and only valid for 17-preview and 18-preview
   * New AST node: ASTSwitchGuard (production "Guard") - used within switch case labels for refining a pattern
 * Support "JEP 405: Record Patterns (Preview)" for Java 19 Preview
   * New AST node: ASTRecordPattern and ASTComponentPatternList (production "RecordStructurePattern")
 * Remove support for Java 17 preview language features
 * Andreas Dangel 07/2022
 *====================================================================
 * Improve module grammar.
 * Type names in "provides" directives are disambiguated like any other type name.
 * ASTName is made redundant and removed for good.
 * Cl\u00e9ment Fournier 03/2022
 *====================================================================
 * Support "JEP 420: Pattern Matching for switch (Second Preview)" for Java 18 Preview
 * There were no grammar changes between 18-preview and 17-preview
 * Remove support for Java 16 preview language features
 * Andreas Dangel 03/2022
 *====================================================================
 * Promote "JEP 409: Sealed Classes" as permanent language feature with Java 17.
 * Support "JEP 406: Pattern Matching for switch (Preview)" for Java 17 Preview.
 * Remove support for Java 15 preview language features
 * Andreas Dangel 07/2021
 *====================================================================
 * Fix #3117 - infinite loop when parsing invalid code nested in lambdas
 * Andreas Dangel 03/2021
 *====================================================================
 * Fix #3145 - parse exception with local records
 * Cl\u00e9ment Fournier 03/2021
 *====================================================================
 * Remove support for Java 14 preview language features
 * JEP 397: Sealed Classes (Second Preview) for Java16 Preview
 * JEP 395: Records for Java16
 * JEP 394: Pattern Matching for instanceof for Java16
 * Andreas Dangel 02/2021
 *====================================================================
 * Remove support for Java 13 preview language features.
 * Promote text blocks as a permanent language features with Java 15.
 * Support Pattern Matching for instanceof with Java 15 Preview.
 * Support Records with Java 15 Preview.
 * Support Local Records with Java 15 Preview.
 * Support Sealed Classes with Java 15 Preview.
 * Andreas Dangel 08/2020
 *====================================================================
 * Add support for record types introduced as a preview language
 * feature with Java 14. See JEP 359.
 * Andreas Dangel 02/2020
 *====================================================================
 * Add support for pattern matching for instance of introduced
 * as a preview language feature with Java 14. See JEP 305.
 * Cl\u00e9ment Fournier 02/2020
 *====================================================================
 * Switch Expressions are now a standard feature of Java 14.
 * Andreas Dangel 02/2020
 *====================================================================
 * Add support for the yield statement introduced as a preview language
 * feature with Java 13. See JEP 354.
 * Add support for text block literals introduces as a preview language
 * feature with Java 13. See JEP 355.
 * Andreas Dangel 08/2019
 *====================================================================
 * Fix #1848 Local classes should preserve their modifiers
 * Cl\u00e9ment Fournier 05/2019
 *====================================================================
 * Add support for Java 12 switch expressions and switch rules.
 * Andreas Dangel, Cl\u00e9ment Fournier 03/2019
 *====================================================================
 * Add support for Java 10 Local Variable Type Inference
 * See #743. In Java 10 mode, "var" as local variable type is handled special.
 * Andreas Dangel 04/2018
 *====================================================================
 * Fixes #888 [java] net.sourceforge.pmd.lang.ast.ParseException occurs with valid '<>' in Java 1.8 mode
 * Juan Martin Sotuyo Dodero 01/2018
 *====================================================================
 * Fixes #793 [java] Parser error with private method in nested classes in interfaces
 * Andreas Dangel 12/2017
 *====================================================================
 * Add support for Java 9 changes:
 * Private interface methods are only allowed with java9.
 * A single underscore "_" is an invalid identifier in java9.
 * Diamond operator for anonymous classes is only allowed with java9.
 * Add support for module-info.java.
 * Allow more concise try-with-resources statements with java9.
 * Andreas Dangel 09/2017
 *====================================================================
 * Add support for new Java 8 annotation locations.
 * Bugs #414, #415, #417
 * @Snap252 06/2017
 *====================================================================
 * Allow empty statements (";") between package, import
 * and type declarations.
 * Bug #378
 * Andreas Dangel 05/2017
 *====================================================================
 * Allow method references to specify generics also for
 * constructor references ("new").
 * Bug #309
 * Andreas Dangel 03/2017
 *====================================================================
 * Provide a better fix for CastExpression, getting rid of most hacks.
 * Bug #257
 *
 * Juan Martin Sotuyo Dodero 02/2017
 *====================================================================
 * Allow local classes to carry more than one annotation.
 * Bug #208
 *
 * Juan Martin Sotuyo Dodero 01/2017
 *====================================================================
 * Change lookahead for AnnotationMethodDeclaration in AnnotationTypeMemberDeclaration.
 * Bug #206
 *
 * Juan Martin Sotuyo Dodero 01/2017
 *====================================================================
 * Allow method references to specify generics.
 * Bug #207
 *
 * Juan Martin Sotuyo Dodero 01/2017
 *====================================================================
 * Simplify VariableDeclaratorId, forbidding illegal sequences such as
 * this[] and MyClass.this[]
 *
 * Juan Martin Sotuyo Dodero 10/2016
 *====================================================================
 * Improve lambda detection in PrimaryPrefix to improve parsing performance.
 *
 * Juan Martin Sotuyo Dodero 10/2016
 *====================================================================
 * Fix for regression introduced in previous changeset.
 * The syntactic lookahead was not properly handled by javacc,
 * so it was converted to a semantic one
 * Bug #1530
 *
 * Juan Martin Sotuyo Dodero 10/2016
 *====================================================================
 * Fix for an expression within an additive expression that was
 * wrongly taken as a cast expression.
 * Bug #1484
 *
 * Andreas Dangel 05/2016
 *====================================================================
 * Fix for Lambda expression with one variable
 * Bug #1470
 *
 * Andreas Dangel 04/2016
 *====================================================================
 * Added support for explicit receiver parameters.
 * Bug #1455
 *
 * Andreas Dangel 01/2016
 *====================================================================
 * Added capability for Tracking Tokens.
 *
 * Amit Kumar Prasad 10/2015
 *====================================================================
 * Fix for Cast Expression not detected properly in Return statements
 * Bug #1429
 *
 * Andreas Dangel 10/2015
 *====================================================================
 * Fix for Lambda expressions without variables.
 *
 * Andreas Dangel 11/2014
 *====================================================================
 * Fix for Lambda expressions with two or three variables.
 *
 * Andreas Dangel 07/2014
 *====================================================================
 * Added support for Java 8 language constructs.
 *
 * Andreas Dangel 01/2014
 * ===================================================================
 * Fix ForStatement to allow Annotations within the initializer.
 *
 * Andreas Dangel 01/2013
 * ===================================================================
 * Fix wrong consumption of modifiers (e.g. "final") in a for-each loop.
 * Check for wrong java usage when catching multiple exceptions.
 *
 * Andreas Dangel 12/2012
 * ===================================================================
 * Enhance grammar to use LocalVariableDeclaration in a for-each loop.
 * This enhances the symbol table to recognize variables declared in such
 * a for-each loop.
 *
 * Andreas Dangel 10/2012
 * ===================================================================
 * Fix parser problem #3530124 with generics
 *
 * Modified the grammar, so that the different usages of generics work.
 * Adjusted the rules, that use "super", as super is no longer a PrimarySuffix.
 * It's now either a ExplicitConstructorInvocation or a PrimaryPrefix.
 * See also test case ParserCornersTest/testParsersCases
 *
 * Andreas Dangel 05/2012
 * ===================================================================
 * Added support for Java 7 language constructs
 *
 * Dinesh Bolkensteyn (SonarSource), 10/2011
 * ===================================================================
 * Changed the CastLookahead production to use 3 lookaheads for primitive types as suggested by Andreas Dangel
 *
 * Brian Remedios 07/2011
 * ===================================================================
 * Added in support for assert as a name using lookaheads
 *
 * Tom Copeland, 09/03
 * ===================================================================
 * Copied over the changes made by Andrea Gini and Marco Savard to
 * support JDK 1.4 language constructs, i.e., asserts.
 * See the java1_4c.jj distributed in the javacc2.1/examples/JavaGrammers directory.
 * Made numerous other modifications to support PMD.
 *
 * Tom Copeland, 6/02
 * ===================================================================
 * This file is a modified version of one originally found in the
 * VTransformer Examples directory of JavaCC1_1. It has been
 * modified to accept Java source code for Java 1.2. Basically,
 * this means a new key word was added, 'strictfp', and that keyword
 * added to the appropriate productions and LOOKAHEADs (where other,
 * similar keywords are listed as possible choices). This involved
 * changing 11 lines.
 *
 * Some other minor changes were made, which can be found by doing
 * a search on 'DW, 7/99'.
 *
 * The goal of this effort was for the grammar to be able to parse
 * any legal Java 1.2 source code. It does not reject all illegal
 * cases, but neither did the original. Plus, when it comes to
 * the new 'strictfp' keyword, the Java Compiler from Sun (JDK1.2.1)
 * also does not reject all illegal cases, as defined by the
 * "Updates" document found at
 *       http://java.sun.com/docs/books/jls/strictfp-changes.pdf
 * (see the testcases.txt file for details).
 *
 * David Williams, 7/99
 * ===================================================================
 *
 *
 * Copyright (C) 1996, 1997 Sun Microsystems Inc.
 *
 * Use of this file and the system it is part of is constrained by the
 * file COPYRIGHT in the root directory of this system.  You may, however,
 * make any modifications you wish to this file.
 *
 * Java files generated by running JavaCC on this file (or modified versions
 * of this file) may be used in exactly the same manner as Java files
 * generated from any grammar developed by you.
 *
 * Author: Sriram Sankar
 * Date: 3/5/97
 *
 * This file contains a Java grammar and actions that implement a front-end.
 */

options {
  UNICODE_INPUT=true;
  CACHE_TOKENS = true;
  STATIC = false;
               
                 
                                                   

  // disable the calculation of expected tokens when a parse error occurs
  // depending on the possible allowed next tokens, this
  // could be expensive (see https://github.com/pmd/pmd/issues/3117)
  //ERROR_REPORTING = false;

  //DEBUG_PARSER = true;
  //DEBUG_LOOKAHEAD = true;
  //DEBUG_TOKEN_MANAGER = true;
}

PARSER_BEGIN(JavaParserImpl)
package net.sourceforge.pmd.lang.java.ast;
import java.util.ArrayDeque;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Deque;
import java.util.EnumSet;
import java.util.List;
import java.util.Set;
import java.util.Map;
import net.sourceforge.pmd.lang.ast.impl.javacc.JavaccToken;
import net.sourceforge.pmd.lang.ast.Node;
import net.sourceforge.pmd.lang.java.types.JPrimitiveType.PrimitiveTypeKind;

class JavaParserImpl/*@bgen(jjtree)*/implements JavaParserImplTreeConstants/*@egen*/ {/*@bgen(jjtree)*/
  protected JJTJavaParserImplState jjtree = new JJTJavaParserImplState();

/*@egen*/

  private int jdkVersion = 0;
  private boolean preview = false;

  public void setJdkVersion(int jdkVersion) {
   this.jdkVersion = jdkVersion;
  }

  public void setPreview(boolean preview) {
    this.preview = preview;
  }

  private void throwParseException(String message) {
    throw new net.sourceforge.pmd.lang.ast.ParseException(message).withLocation(token);
  }


  private boolean isRecordTypeSupported() {
    return jdkVersion >= 16;
  }

  private boolean localTypesSupported() {
    return isRecordTypeSupported();
  }

  /**
   * Keeps track during tree construction, whether we are currently building a switch label.
   * A switch label must not contain a LambdaExpression.
   * Unfortunately, we have added LambdaExpression as part of PrimaryPrefix, which is wrong.
   * To keep compatibility, this flag is used, whether a LambdaExpression should be parsed
   * in PrimaryPrefix.
   * See also comment at #Expression().
   */
  private boolean inSwitchLabel = false;

  // This is a semantic LOOKAHEAD to determine if we're dealing with an assert
  // Note that this can't be replaced with a syntactic lookahead
  // since "assert" isn't a string literal token
  private boolean isAssertStart() {
    if (jdkVersion <= 3) {
      return false;
    }

    return getToken(1).getImage().equals("assert");
  }

  private boolean isRecordStart() {
    return isRecordTypeSupported() && isKeyword("record") && isToken(2, IDENTIFIER);
  }

  private boolean isEnumStart() {
    return jdkVersion >= 5 && isKeyword("enum");
  }

  /**
   * Semantic lookahead to check if the next identifier is a
   * specific restricted keyword.
   *
   * 

Restricted keywords are: * var, yield, record, sealed, permits, "non" + "-" + "sealed" * *

enum and assert is used like restricted keywords, as they were not keywords * in the early java versions. */ private boolean isKeyword(String image) { return isKeyword(1, image); } private boolean isKeyword(int index, String image) { net.sourceforge.pmd.lang.ast.impl.javacc.JavaccToken token = getToken(index); return token.kind == IDENTIFIER && token.getImage().equals(image); } private boolean isToken(int index, int kind) { return getToken(index).kind == kind; } /** * Semantic lookahead which matches "non-sealed". * *

"non-sealed" cannot be a token, for several reasons: * It is only a keyword with java15 preview+, it consists actually * of several separate tokens, which are valid on their own. */ private boolean isNonSealedModifier() { if (isKeyword(1, "non") && isToken(2, MINUS) && isKeyword(3, "sealed")) { JavaccToken nonToken = getToken(1); JavaccToken minusToken = getToken(2); JavaccToken sealedToken = getToken(3); return nonToken.getReportLocation().getEndColumn() == minusToken.getReportLocation().getStartColumn() && minusToken.getReportLocation().getEndColumn() == sealedToken.getReportLocation().getStartColumn(); } return false; } private boolean classModifierForLocalTypesLookahead() { net.sourceforge.pmd.lang.ast.impl.javacc.JavaccToken next = getToken(1); return next.kind == AT || next.kind == PUBLIC || next.kind == PROTECTED || next.kind == PRIVATE || next.kind == ABSTRACT || next.kind == STATIC || next.kind == FINAL || next.kind == STRICTFP; } private boolean localTypeDeclAfterModifiers() { net.sourceforge.pmd.lang.ast.impl.javacc.JavaccToken next = getToken(1); return next.kind == CLASS || localTypesSupported() && ( next.kind == INTERFACE || next.kind == AT && isToken(2, INTERFACE) || next.kind == IDENTIFIER && next.getImage().equals("enum") || next.kind == IDENTIFIER && next.getImage().equals("record") && isToken(2, IDENTIFIER) ); } private boolean localTypeDeclGivenNextIsIdent() { return localTypesSupported() && (isRecordStart() || isEnumStart()); } /** * True if we're in a switch block, one precondition for parsing a yield * statement. */ private boolean inSwitchExprBlock = false; private boolean isYieldStart() { return inSwitchExprBlock && isKeyword("yield") && mayStartExprAfterYield(2); } private boolean mayStartExprAfterYield(final int offset) { // based off of https://hg.openjdk.java.net/jdk/jdk/file/bc3da0226ffa/src/jdk.compiler/share/classes/com/sun/tools/javac/parser/JavacParser.java#l2580 // please don't sue me JavaccToken token = getToken(offset); if (token == null) return false; // eof switch (token.kind) { case PLUS: case MINUS: case STRING_LITERAL: case CHARACTER_LITERAL: case INTEGER_LITERAL: case FLOATING_POINT_LITERAL: case HEX_FLOATING_POINT_LITERAL: case NULL: case IDENTIFIER: case TRUE: case FALSE: case NEW: case SWITCH: case THIS: case SUPER: return true; case INCR: case DECR: return getToken(offset + 1).kind != SEMICOLON; // eg yield++; case LPAREN: int lookahead = offset + 1; int balance = 1; JavaccToken t; while ((t = getToken(lookahead)) != null && balance > 0) { switch (t.kind) { case LPAREN: balance++; break; case RPAREN: balance--; break; case COMMA: if (balance == 1) return false; // a method call, eg yield(1, 2); } lookahead++; } // lambda: yield () -> {}; // method call: yield (); return t != null && (lookahead != offset + 2 // ie () || t.kind == LAMBDA); default: return false; } } private boolean shouldStartStatementInSwitch() { switch (getToken(1).kind) { case _DEFAULT: case CASE: case RBRACE: return false; default: return true; } } public Map getSuppressMap() { return token_source.getSuppressMap(); } public void setSuppressMarker(String marker) { token_source.setSuppressMarker(marker); } private void setLastTokenImage(AbstractJavaNode node) { node.setImage(getToken(0).getImage()); } private void fixLastToken() { AbstractJavaNode top = (AbstractJavaNode) jjtree.peekNode(); top.setLastToken(getToken(0)); } private void forceExprContext() { AbstractJavaNode top = jjtree.peekNode(); if (top instanceof ASTAmbiguousName) { // see doc on the method AbstractJavaNode replacement = (AbstractJavaNode) ((ASTAmbiguousName) top).forceExprContext(); jjtree.popNode(); jjtree.pushNode(replacement); } } private void pushEmptyModifierList() { ASTModifierList emptyMods = new ASTModifierList(JJTMODIFIERLIST); emptyMods.setDeclaredModifiers(Collections.emptySet()); JavaccToken tok = JavaccToken.implicitBefore(getToken(1)); emptyMods.setFirstToken(tok); emptyMods.setLastToken(tok); jjtree.pushNode(emptyMods); } private void insertEmptyModifierListWithAnnotations(AbstractJavaNode node, AbstractJavaNode nodeWithAnnotations) { ASTModifierList emptyMods = new ASTModifierList(JJTMODIFIERLIST); emptyMods.setDeclaredModifiers(Collections.emptySet()); JavaccToken tok = JavaccToken.implicitBefore(node.getFirstToken()); emptyMods.setFirstToken(tok); emptyMods.setLastToken(tok); List annotations = new ArrayList(); while (nodeWithAnnotations.getNumChildren() > 0 && nodeWithAnnotations.getChild(0) instanceof ASTAnnotation) { ASTAnnotation annotation = (ASTAnnotation) nodeWithAnnotations.getChild(0); nodeWithAnnotations.removeChildAtIndex(0); annotations.add(annotation); } for (int i = 0; i < annotations.size(); i++) { emptyMods.addChild(annotations.get(i), i); } if (!annotations.isEmpty()) { emptyMods.setFirstToken(annotations.get(0).getFirstToken()); emptyMods.setLastToken(annotations.get(annotations.size() - 1).getLastToken()); } node.insertChild(emptyMods, 0); } private void forceTypeContext() { AbstractJavaNode top = jjtree.peekNode(); if (top instanceof ASTAmbiguousName) { // see doc on the method AbstractJavaNode replacement = ((ASTAmbiguousName) top).forceTypeContext(); jjtree.popNode(); jjtree.pushNode(replacement); } } // make the top node the last child of the second node on the stack // If the stack ends with ..[A][B], then it becomes ..[A[B]] private void injectTop() { AbstractJavaNode top = (AbstractJavaNode) jjtree.popNode(); AbstractJavaNode prev = (AbstractJavaNode) jjtree.peekNode(); prev.addChild(top, prev.getNumChildren()); prev.setLastToken(top.getLastToken()); } /** * Keeps track during tree construction, whether we are currently building an * explicit constructor invocation. Then the PrimaryExpression that may prefix * a qualified super constructor call may not consume "super" tokens. */ private boolean inExplicitConstructorInvoc = false; } PARSER_END(JavaParserImpl) TOKEN_MGR_DECLS : { protected List comments = new ArrayList(); private Deque savedTemplateKind = new ArrayDeque(); private Deque braceDepthInTemplate = new ArrayDeque(); private int braceDepthCurrentTemplate; private boolean templateKind; private static final java.util.regex.Pattern TEXT_BLOCK_TEMPLATE_END_PATTERN = java.util.regex.Pattern.compile("^}[^\"]*\"\"\""); private static final java.util.regex.Pattern STRING_TEMPLATE_MID_OR_END_PATTERN = java.util.regex.Pattern.compile("^}(?:[^\"\\\\\n\r]|\\\\(?:[ntbrfs\\\\'\"]|[0-7][0-7]?|[0-3][0-7][0-7]))*(\\{|\")"); private void pushBrace() { braceDepthCurrentTemplate++; } private void pushTemplate(boolean isTextBlockTemplate) { braceDepthInTemplate.push(braceDepthCurrentTemplate); savedTemplateKind.push(templateKind); templateKind = isTextBlockTemplate; braceDepthCurrentTemplate = 1; } private boolean isInTemplate() { return braceDepthCurrentTemplate > 0; } private void popBrace() { if (!isInTemplate()) return; if (--braceDepthCurrentTemplate == 0) { // this brace ends the template popTemplate(); } } private void popTemplate() { boolean isInTextBlockTemplate = templateKind; if (!braceDepthInTemplate.isEmpty()) { braceDepthCurrentTemplate = braceDepthInTemplate.pop(); templateKind = savedTemplateKind.pop(); if (isInTextBlockTemplate) { SwitchTo(JavaTokenKinds.IN_TEXT_BLOCK_LITERAL); } else { SwitchTo(JavaTokenKinds.IN_STRING_TEMPLATE); } } else { SwitchTo(JavaTokenKinds.DEFAULT); } } private net.sourceforge.pmd.lang.ast.impl.javacc.JavaccToken rereadTokenAs(int kind, int length) { input_stream.backup(lengthOfMatch); try { for (int i = 0; i < length; i++) { input_stream.readChar(); } } catch (java.io.EOFException eofException) { throw new IllegalStateException(eofException); } jjmatchedKind = kind; return jjFillToken(); } private net.sourceforge.pmd.lang.ast.impl.javacc.JavaccToken handleBlock() { net.sourceforge.pmd.lang.ast.impl.javacc.JavaccToken matchedToken = rereadTokenAs(JavaTokenKinds.RBRACE, 1); if (!"}".equals(input_stream.getTokenImage())) { throw new IllegalStateException("Expected '}'"); } return matchedToken; } } /* WHITE SPACE */ SPECIAL_TOKEN : { // those are private, just for code organisation < #HORIZONTAL_WHITESPACE: [" ", "\t", "\f"] > | < #LINE_TERMINATOR: "\n" | "\r" | "\r\n" > // this one is pushed, notice the (..)+ construct, to avoid // creating one token per character | < WHITESPACE: ([" ", "\t", "\f", "\n", "\r"])+ > } /* COMMENTS */ SPECIAL_TOKEN : { < SINGLE_LINE_COMMENT: "//"(~["\n","\r"])* ("\n"|"\r"|"\r\n")? > { int startOfNOPMD = matchedToken.getImage().indexOf(suppressMarker); if (startOfNOPMD != -1) { suppressMap.put(matchedToken.getReportLocation().getStartLine(), matchedToken.getImage().substring(startOfNOPMD + suppressMarker.length())); } comments.add(new JavaComment(matchedToken)); } } MORE : { <"/**" ~["/"]> { input_stream.backup(1); } : IN_FORMAL_COMMENT | "/*" : IN_MULTI_LINE_COMMENT } SPECIAL_TOKEN : { { comments.add(new JavadocComment(matchedToken)); } : DEFAULT } SPECIAL_TOKEN : { { comments.add(new JavaComment(matchedToken)); } : DEFAULT } MORE : { < ~[] > } /* RESERVED WORDS AND LITERALS */ TOKEN : { < ABSTRACT: "abstract" > | < BOOLEAN: "boolean" > | < BREAK: "break" > | < BYTE: "byte" > | < CASE: "case" > | < CATCH: "catch" > | < CHAR: "char" > | < CLASS: "class" > | < CONST: "const" > | < CONTINUE: "continue" > | < _DEFAULT: "default" > | < DO: "do" > | < DOUBLE: "double" > | < ELSE: "else" > | < EXTENDS: "extends" > | < FALSE: "false" > | < FINAL: "final" > | < FINALLY: "finally" > | < FLOAT: "float" > | < FOR: "for" > | < GOTO: "goto" > | < IF: "if" > | < IMPLEMENTS: "implements" > | < IMPORT: "import" > | < INSTANCEOF: "instanceof" > | < INT: "int" > | < INTERFACE: "interface" > | < LONG: "long" > | < NATIVE: "native" > | < NEW: "new" > | < NULL: "null" > | < PACKAGE: "package"> | < PRIVATE: "private" > | < PROTECTED: "protected" > | < PUBLIC: "public" > | < RETURN: "return" > | < SHORT: "short" > | < STATIC: "static" > | < SUPER: "super" > | < SWITCH: "switch" > | < SYNCHRONIZED: "synchronized" > | < THIS: "this" > | < THROW: "throw" > | < THROWS: "throws" > | < TRANSIENT: "transient" > | < TRUE: "true" > | < TRY: "try" > | < VOID: "void" > | < VOLATILE: "volatile" > | < WHILE: "while" > | < STRICTFP: "strictfp" > } /* Restricted Keywords */ // Note: These are commented out, since these keywords // can still be used as identifiers. // see isKeyword() semantic lookup /* TOKEN : { < OPEN: "open" > | < MODULE: "module" > | < REQUIRES: "requires" > | < TRANSITIVE: "transitive" > | < EXPORTS: "exports" > | < OPENS: "opens" > | < TO: "to" > | < USES: "uses" > | < PROVIDES: "provides" > | < WITH: "with" > } */ /* LITERALS */ TOKEN : { < INTEGER_LITERAL: (["l","L"])? | (["l","L"])? | (["l","L"])? | (["l","L"])? > | < #DECIMAL_NUMERAL: ["1"-"9"] (("_")* ["0"-"9"])* > | < #HEX_NUMERAL: "0" ["x","X"] > | < #BINARY_NUMERAL: "0" ["b","B"] ["0","1"] (("_")* ["0","1"])* > | < #OCTAL_NUMERAL: "0" (("_")* ["0"-"7"])* > | < FLOATING_POINT_LITERAL: | > | < #DECIMAL_FLOATING_POINT_LITERAL: "." ()? ()? (["f","F", "d","D"])? | "." ()? (["f","F", "d","D"])? | (["f","F", "d","D"])? | ()? ["f","F", "d","D"] > | < #HEX_FLOATING_POINT_LITERAL: "0" ["x","X"] (".")? (["f","F", "d","D"])? | "0" ["x","X"] ()? "." (["f","F", "d","D"])? > | < #DIGIT_SEQ: ["0"-"9"] (("_")* ["0"-"9"])* > | < #HEX_DIGIT_SEQ: ["0"-"9","a"-"f","A"-"F"] (("_")* ["0"-"9","a"-"f","A"-"F"])* > | < #EXPONENT: ["e","E"] > | < #HEX_EXPONENT: ["p","P"] > | < #EXPONENT_TAIL: (["+","-"])? > | < CHARACTER_LITERAL: "'" ( ~["'", "\\","\n","\r"] | ) "'" > | < STRING_LITERAL: "\"" ()* "\"" > | < #STRING_CHARACTER: ~["\"","\\","\n","\r"] | > | < #STRING_ESCAPE: "\\" ( ["n","t","b","r","f","s","\\","'","\""] // octal escapes | ["0"-"7"] ( ["0"-"7"] )? | ["0"-"3"] ["0"-"7"] ["0"-"7"] ) > | < #TEXT_BLOCK_CHARACTER: ~["\\"] | | ("\\")? > | < #STRING_FRAGMENT: ()* > | < STRING_TEMPLATE_BEGIN: "\"" "\\{" > { pushTemplate(false); } } /* TEXT BLOCKS */ // note: Text Blocks need an own lexical state, so that we can reliably determine // the end of the text block (""") which is 3 characters long. MORE : { < "\"\"\"" ()* > : IN_TEXT_BLOCK_LITERAL } TOKEN : { : DEFAULT | { pushTemplate(true); }: DEFAULT } MORE : { < > } TOKEN: { < STRING_TEMPLATE_END: "\"" > : DEFAULT | < STRING_TEMPLATE_MID: "\\{" > { pushTemplate(false); } : DEFAULT } /* IDENTIFIERS */ TOKEN : { < IDENTIFIER : ( )* > // all chars for which Character.isJavaIdentifierStart is true | < #LETTER : ["$","A"-"Z","_","a"-"z","\u00a2"-"\u00a5","\u00aa","\u00b5","\u00ba", "\u00c0"-"\u00d6","\u00d8"-"\u00f6","\u00f8"-"\u021f","\u0222"-"\u0233","\u0250"-"\u02ad", "\u02b0"-"\u02b8","\u02bb"-"\u02c1","\u02d0"-"\u02d1","\u02e0"-"\u02e4","\u02ee","\u037a", "\u0386","\u0388"-"\u038a","\u038c","\u038e"-"\u03a1","\u03a3"-"\u03ce","\u03d0"-"\u03d7", "\u03da"-"\u03f3","\u0400"-"\u0481","\u048c"-"\u04c4","\u04c7"-"\u04c8","\u04cb"-"\u04cc", "\u04d0"-"\u04f5","\u04f8"-"\u04f9","\u0531"-"\u0556","\u0559","\u0561"-"\u0587", "\u05d0"-"\u05ea","\u05f0"-"\u05f2","\u0621"-"\u063a","\u0640"-"\u064a","\u0671"-"\u06d3", "\u06d5","\u06e5"-"\u06e6","\u06fa"-"\u06fc","\u0710","\u0712"-"\u072c","\u0780"-"\u07a5", "\u0905"-"\u0939","\u093d","\u0950","\u0958"-"\u0961","\u0985"-"\u098c","\u098f"-"\u0990", "\u0993"-"\u09a8","\u09aa"-"\u09b0","\u09b2","\u09b6"-"\u09b9","\u09dc"-"\u09dd", "\u09df"-"\u09e1","\u09f0"-"\u09f3","\u0a05"-"\u0a0a","\u0a0f"-"\u0a10","\u0a13"-"\u0a28", "\u0a2a"-"\u0a30","\u0a32"-"\u0a33","\u0a35"-"\u0a36","\u0a38"-"\u0a39","\u0a59"-"\u0a5c", "\u0a5e","\u0a72"-"\u0a74","\u0a85"-"\u0a8b","\u0a8d","\u0a8f"-"\u0a91","\u0a93"-"\u0aa8", "\u0aaa"-"\u0ab0","\u0ab2"-"\u0ab3","\u0ab5"-"\u0ab9","\u0abd","\u0ad0","\u0ae0", "\u0b05"-"\u0b0c","\u0b0f"-"\u0b10","\u0b13"-"\u0b28","\u0b2a"-"\u0b30","\u0b32"-"\u0b33", "\u0b36"-"\u0b39","\u0b3d","\u0b5c"-"\u0b5d","\u0b5f"-"\u0b61","\u0b85"-"\u0b8a", "\u0b8e"-"\u0b90","\u0b92"-"\u0b95","\u0b99"-"\u0b9a","\u0b9c","\u0b9e"-"\u0b9f", "\u0ba3"-"\u0ba4","\u0ba8"-"\u0baa","\u0bae"-"\u0bb5","\u0bb7"-"\u0bb9","\u0c05"-"\u0c0c", "\u0c0e"-"\u0c10","\u0c12"-"\u0c28","\u0c2a"-"\u0c33","\u0c35"-"\u0c39","\u0c60"-"\u0c61", "\u0c85"-"\u0c8c","\u0c8e"-"\u0c90","\u0c92"-"\u0ca8","\u0caa"-"\u0cb3","\u0cb5"-"\u0cb9", "\u0cde","\u0ce0"-"\u0ce1","\u0d05"-"\u0d0c","\u0d0e"-"\u0d10","\u0d12"-"\u0d28", "\u0d2a"-"\u0d39","\u0d60"-"\u0d61","\u0d85"-"\u0d96","\u0d9a"-"\u0db1","\u0db3"-"\u0dbb", "\u0dbd","\u0dc0"-"\u0dc6","\u0e01"-"\u0e30","\u0e32"-"\u0e33","\u0e3f"-"\u0e46", "\u0e81"-"\u0e82","\u0e84","\u0e87"-"\u0e88","\u0e8a","\u0e8d","\u0e94"-"\u0e97", "\u0e99"-"\u0e9f","\u0ea1"-"\u0ea3","\u0ea5","\u0ea7","\u0eaa"-"\u0eab","\u0ead"-"\u0eb0", "\u0eb2"-"\u0eb3","\u0ebd","\u0ec0"-"\u0ec4","\u0ec6","\u0edc"-"\u0edd","\u0f00", "\u0f40"-"\u0f47","\u0f49"-"\u0f6a","\u0f88"-"\u0f8b","\u1000"-"\u1021","\u1023"-"\u1027", "\u1029"-"\u102a","\u1050"-"\u1055","\u10a0"-"\u10c5","\u10d0"-"\u10f6","\u1100"-"\u1159", "\u115f"-"\u11a2","\u11a8"-"\u11f9","\u1200"-"\u1206","\u1208"-"\u1246","\u1248", "\u124a"-"\u124d","\u1250"-"\u1256","\u1258","\u125a"-"\u125d","\u1260"-"\u1286","\u1288", "\u128a"-"\u128d","\u1290"-"\u12ae","\u12b0","\u12b2"-"\u12b5","\u12b8"-"\u12be","\u12c0", "\u12c2"-"\u12c5","\u12c8"-"\u12ce","\u12d0"-"\u12d6","\u12d8"-"\u12ee","\u12f0"-"\u130e", "\u1310","\u1312"-"\u1315","\u1318"-"\u131e","\u1320"-"\u1346","\u1348"-"\u135a", "\u13a0"-"\u13f4","\u1401"-"\u166c","\u166f"-"\u1676","\u1681"-"\u169a","\u16a0"-"\u16ea", "\u1780"-"\u17b3","\u17db","\u1820"-"\u1877","\u1880"-"\u18a8","\u1e00"-"\u1e9b", "\u1ea0"-"\u1ef9","\u1d00"-"\u1eef","\u1f00"-"\u1f15","\u1f18"-"\u1f1d","\u1f20"-"\u1f45","\u1f48"-"\u1f4d", "\u1f50"-"\u1f57","\u1f59","\u1f5b","\u1f5d","\u1f5f"-"\u1f7d","\u1f80"-"\u1fb4", "\u1fb6"-"\u1fbc","\u1fbe","\u1fc2"-"\u1fc4","\u1fc6"-"\u1fcc","\u1fd0"-"\u1fd3", "\u1fd6"-"\u1fdb","\u1fe0"-"\u1fec","\u1ff2"-"\u1ff4","\u1ff6"-"\u1ffc","\u203f"-"\u2040", "\u207f","\u20a0"-"\u20af","\u2102","\u2107","\u210a"-"\u2113","\u2115","\u2119"-"\u211d", "\u2124","\u2126","\u2128","\u212a"-"\u212d","\u212f"-"\u2131","\u2133"-"\u2139", "\u2160"-"\u2183","\u3005"-"\u3007","\u3021"-"\u3029","\u3031"-"\u3035","\u3038"-"\u303a", "\u3041"-"\u3094","\u309d"-"\u309e","\u30a1"-"\u30fe","\u3105"-"\u312c","\u3131"-"\u318e", "\u31a0"-"\u31b7","\u3400"-"\u4db5","\u4e00"-"\u9fa5","\ua000"-"\ua48c","\ua490"-"\uabff","\uac00"-"\ud7a3", "\uf900"-"\ufa2d","\ufb00"-"\ufb06","\ufb13"-"\ufb17","\ufb1d","\ufb1f"-"\ufb28", "\ufb2a"-"\ufb36","\ufb38"-"\ufb3c","\ufb3e","\ufb40"-"\ufb41","\ufb43"-"\ufb44", "\ufb46"-"\ufbb1","\ufbd3"-"\ufd3d","\ufd50"-"\ufd8f","\ufd92"-"\ufdc7","\ufdf0"-"\ufdfb", "\ufe33"-"\ufe34","\ufe4d"-"\ufe4f","\ufe69","\ufe70"-"\ufe72","\ufe74","\ufe76"-"\ufefc", "\uff04","\uff21"-"\uff3a","\uff3f","\uff41"-"\uff5a","\uff65"-"\uffbe","\uffc2"-"\uffc7", "\uffca"-"\uffcf","\uffd2"-"\uffd7","\uffda"-"\uffdc","\uffe0"-"\uffe1","\uffe5"-"\uffe6"]> // all chars for which Character.isJavaIdentifierPart is true | < #PART_LETTER: ["\u0000"-"\b","\u000e"-"\u001b","$","0"-"9","A"-"Z","_","a"-"z", "\u007f"-"\u009f","\u00a2"-"\u00a5","\u00aa","\u00b5","\u00ba","\u00c0"-"\u00d6", "\u00d8"-"\u00f6","\u00f8"-"\u021f","\u0222"-"\u0233","\u0250"-"\u02ad","\u02b0"-"\u02b8", "\u02bb"-"\u02c1","\u02d0"-"\u02d1","\u02e0"-"\u02e4","\u02ee","\u0300"-"\u034e", "\u0360"-"\u0362","\u037a","\u0386","\u0388"-"\u038a","\u038c","\u038e"-"\u03a1", "\u03a3"-"\u03ce","\u03d0"-"\u03d7","\u03da"-"\u03f3","\u0400"-"\u0481","\u0483"-"\u0486", "\u048c"-"\u04c4","\u04c7"-"\u04c8","\u04cb"-"\u04cc","\u04d0"-"\u04f5","\u04f8"-"\u04f9", "\u0531"-"\u0556","\u0559","\u0561"-"\u0587","\u0591"-"\u05a1","\u05a3"-"\u05b9", "\u05bb"-"\u05bd","\u05bf","\u05c1"-"\u05c2","\u05c4","\u05d0"-"\u05ea","\u05f0"-"\u05f2", "\u0621"-"\u063a","\u0640"-"\u0655","\u0660"-"\u0669","\u0670"-"\u06d3","\u06d5"-"\u06dc", "\u06df"-"\u06e8","\u06ea"-"\u06ed","\u06f0"-"\u06fc","\u070f"-"\u072c","\u0730"-"\u074a", "\u0780"-"\u07b0","\u0901"-"\u0903","\u0905"-"\u0939","\u093c"-"\u094d","\u0950"-"\u0954", "\u0958"-"\u0963","\u0966"-"\u096f","\u0981"-"\u0983","\u0985"-"\u098c","\u098f"-"\u0990", "\u0993"-"\u09a8","\u09aa"-"\u09b0","\u09b2","\u09b6"-"\u09b9","\u09bc","\u09be"-"\u09c4", "\u09c7"-"\u09c8","\u09cb"-"\u09cd","\u09d7","\u09dc"-"\u09dd","\u09df"-"\u09e3", "\u09e6"-"\u09f3","\u0a02","\u0a05"-"\u0a0a","\u0a0f"-"\u0a10","\u0a13"-"\u0a28", "\u0a2a"-"\u0a30","\u0a32"-"\u0a33","\u0a35"-"\u0a36","\u0a38"-"\u0a39","\u0a3c", "\u0a3e"-"\u0a42","\u0a47"-"\u0a48","\u0a4b"-"\u0a4d","\u0a59"-"\u0a5c","\u0a5e", "\u0a66"-"\u0a74","\u0a81"-"\u0a83","\u0a85"-"\u0a8b","\u0a8d","\u0a8f"-"\u0a91", "\u0a93"-"\u0aa8","\u0aaa"-"\u0ab0","\u0ab2"-"\u0ab3","\u0ab5"-"\u0ab9","\u0abc"-"\u0ac5", "\u0ac7"-"\u0ac9","\u0acb"-"\u0acd","\u0ad0","\u0ae0","\u0ae6"-"\u0aef","\u0b01"-"\u0b03", "\u0b05"-"\u0b0c","\u0b0f"-"\u0b10","\u0b13"-"\u0b28","\u0b2a"-"\u0b30","\u0b32"-"\u0b33", "\u0b36"-"\u0b39","\u0b3c"-"\u0b43","\u0b47"-"\u0b48","\u0b4b"-"\u0b4d","\u0b56"-"\u0b57", "\u0b5c"-"\u0b5d","\u0b5f"-"\u0b61","\u0b66"-"\u0b6f","\u0b82"-"\u0b83","\u0b85"-"\u0b8a", "\u0b8e"-"\u0b90","\u0b92"-"\u0b95","\u0b99"-"\u0b9a","\u0b9c","\u0b9e"-"\u0b9f", "\u0ba3"-"\u0ba4","\u0ba8"-"\u0baa","\u0bae"-"\u0bb5","\u0bb7"-"\u0bb9","\u0bbe"-"\u0bc2", "\u0bc6"-"\u0bc8","\u0bca"-"\u0bcd","\u0bd7","\u0be7"-"\u0bef","\u0c01"-"\u0c03", "\u0c05"-"\u0c0c","\u0c0e"-"\u0c10","\u0c12"-"\u0c28","\u0c2a"-"\u0c33","\u0c35"-"\u0c39", "\u0c3e"-"\u0c44","\u0c46"-"\u0c48","\u0c4a"-"\u0c4d","\u0c55"-"\u0c56","\u0c60"-"\u0c61", "\u0c66"-"\u0c6f","\u0c82"-"\u0c83","\u0c85"-"\u0c8c","\u0c8e"-"\u0c90","\u0c92"-"\u0ca8", "\u0caa"-"\u0cb3","\u0cb5"-"\u0cb9","\u0cbe"-"\u0cc4","\u0cc6"-"\u0cc8","\u0cca"-"\u0ccd", "\u0cd5"-"\u0cd6","\u0cde","\u0ce0"-"\u0ce1","\u0ce6"-"\u0cef","\u0d02"-"\u0d03", "\u0d05"-"\u0d0c","\u0d0e"-"\u0d10","\u0d12"-"\u0d28","\u0d2a"-"\u0d39","\u0d3e"-"\u0d43", "\u0d46"-"\u0d48","\u0d4a"-"\u0d4d","\u0d57","\u0d60"-"\u0d61","\u0d66"-"\u0d6f", "\u0d82"-"\u0d83","\u0d85"-"\u0d96","\u0d9a"-"\u0db1","\u0db3"-"\u0dbb","\u0dbd", "\u0dc0"-"\u0dc6","\u0dca","\u0dcf"-"\u0dd4","\u0dd6","\u0dd8"-"\u0ddf","\u0df2"-"\u0df3", "\u0e01"-"\u0e3a","\u0e3f"-"\u0e4e","\u0e50"-"\u0e59","\u0e81"-"\u0e82","\u0e84", "\u0e87"-"\u0e88","\u0e8a","\u0e8d","\u0e94"-"\u0e97","\u0e99"-"\u0e9f","\u0ea1"-"\u0ea3", "\u0ea5","\u0ea7","\u0eaa"-"\u0eab","\u0ead"-"\u0eb9","\u0ebb"-"\u0ebd","\u0ec0"-"\u0ec4", "\u0ec6","\u0ec8"-"\u0ecd","\u0ed0"-"\u0ed9","\u0edc"-"\u0edd","\u0f00","\u0f18"-"\u0f19", "\u0f20"-"\u0f29","\u0f35","\u0f37","\u0f39","\u0f3e"-"\u0f47","\u0f49"-"\u0f6a", "\u0f71"-"\u0f84","\u0f86"-"\u0f8b","\u0f90"-"\u0f97","\u0f99"-"\u0fbc","\u0fc6", "\u1000"-"\u1021","\u1023"-"\u1027","\u1029"-"\u102a","\u102c"-"\u1032","\u1036"-"\u1039", "\u1040"-"\u1049","\u1050"-"\u1059","\u10a0"-"\u10c5","\u10d0"-"\u10f6","\u1100"-"\u1159", "\u115f"-"\u11a2","\u11a8"-"\u11f9","\u1200"-"\u1206","\u1208"-"\u1246","\u1248", "\u124a"-"\u124d","\u1250"-"\u1256","\u1258","\u125a"-"\u125d","\u1260"-"\u1286", "\u1288","\u128a"-"\u128d","\u1290"-"\u12ae","\u12b0","\u12b2"-"\u12b5","\u12b8"-"\u12be", "\u12c0","\u12c2"-"\u12c5","\u12c8"-"\u12ce","\u12d0"-"\u12d6","\u12d8"-"\u12ee", "\u12f0"-"\u130e","\u1310","\u1312"-"\u1315","\u1318"-"\u131e","\u1320"-"\u1346", "\u1348"-"\u135a","\u1369"-"\u1371","\u13a0"-"\u13f4","\u1401"-"\u166c","\u166f"-"\u1676", "\u1681"-"\u169a","\u16a0"-"\u16ea","\u1780"-"\u17d3","\u17db","\u17e0"-"\u17e9", "\u180b"-"\u180e","\u1810"-"\u1819","\u1820"-"\u1877","\u1880"-"\u18a9","\u1d00"-"\u1d7f","\u1e00"-"\u1e9b", "\u1ea0"-"\u1ef9","\u1f00"-"\u1f15","\u1f18"-"\u1f1d","\u1f20"-"\u1f45","\u1f48"-"\u1f4d", "\u1f50"-"\u1f57","\u1f59","\u1f5b","\u1f5d","\u1f5f"-"\u1f7d","\u1f80"-"\u1fb4", "\u1fb6"-"\u1fbc","\u1fbe","\u1fc2"-"\u1fc4","\u1fc6"-"\u1fcc","\u1fd0"-"\u1fd3", "\u1fd6"-"\u1fdb","\u1fe0"-"\u1fec","\u1ff2"-"\u1ff4","\u1ff6"-"\u1ffc","\u200c"-"\u200f", "\u202a"-"\u202e","\u203f"-"\u2040","\u206a"-"\u206f","\u207f","\u20a0"-"\u20af", "\u20d0"-"\u20dc","\u20e1","\u2102","\u2107","\u210a"-"\u2113","\u2115","\u2119"-"\u211d", "\u2124","\u2126","\u2128","\u212a"-"\u212d","\u212f"-"\u2131","\u2133"-"\u2139", "\u2160"-"\u2183","\u3005"-"\u3007","\u3021"-"\u302f","\u3031"-"\u3035","\u3038"-"\u303a", "\u3041"-"\u3094","\u3099"-"\u309a","\u309d"-"\u309e","\u30a1"-"\u30fe","\u3105"-"\u312c", "\u3131"-"\u318e","\u31a0"-"\u31b7","\u3400"-"\u4db5","\u4e00"-"\u9fa5","\ua000"-"\ua48c", "\ua490"-"\uabff", "\uac00"-"\ud7a3","\uf900"-"\ufa2d","\ufb00"-"\ufb06","\ufb13"-"\ufb17","\ufb1d"-"\ufb28", "\ufb2a"-"\ufb36","\ufb38"-"\ufb3c","\ufb3e","\ufb40"-"\ufb41","\ufb43"-"\ufb44", "\ufb46"-"\ufbb1","\ufbd3"-"\ufd3d","\ufd50"-"\ufd8f","\ufd92"-"\ufdc7","\ufdf0"-"\ufdfb", "\ufe20"-"\ufe23","\ufe33"-"\ufe34","\ufe4d"-"\ufe4f","\ufe69","\ufe70"-"\ufe72","\ufe74", "\ufe76"-"\ufefc","\ufeff","\uff04","\uff10"-"\uff19","\uff21"-"\uff3a","\uff3f", "\uff41"-"\uff5a","\uff65"-"\uffbe","\uffc2"-"\uffc7","\uffca"-"\uffcf","\uffd2"-"\uffd7", "\uffda"-"\uffdc","\uffe0"-"\uffe1","\uffe5"-"\uffe6","\ufff9"-"\ufffb"]> } /* SEPARATORS */ TOKEN : { < LPAREN: "(" > | < RPAREN: ")" > | < LBRACE: "{" > { pushBrace(); } | < RBRACE: "}" > { popBrace(); } | < LBRACKET: "[" > | < RBRACKET: "]" > | < SEMICOLON: ";" > | < COMMA: "," > | < DOT: "." > | < AT: "@" > } /* OPERATORS */ TOKEN : { < ASSIGN: "=" > | < LT: "<" > | < BANG: "!" > | < TILDE: "~" > | < HOOK: "?" > | < COLON: ":" > | < EQ: "==" > | < LE: "<=" > | < GE: ">=" > | < NE: "!=" > | < SC_OR: "||" > | < SC_AND: "&&" > | < INCR: "++" > | < DECR: "--" > | < PLUS: "+" > | < MINUS: "-" > | < STAR: "*" > | < SLASH: "/" > | < BIT_AND: "&" > | < BIT_OR: "|" > | < XOR: "^" > | < REM: "%" > | < LSHIFT: "<<" > // Notice the absence of >> or >>>, to not conflict with generics | < PLUSASSIGN: "+=" > | < MINUSASSIGN: "-=" > | < STARASSIGN: "*=" > | < SLASHASSIGN: "/=" > | < ANDASSIGN: "&=" > | < ORASSIGN: "|=" > | < XORASSIGN: "^=" > | < REMASSIGN: "%=" > | < LSHIFTASSIGN: "<<=" > | < RSIGNEDSHIFTASSIGN: ">>=" > | < RUNSIGNEDSHIFTASSIGN: ">>>=" > | < ELLIPSIS: "..." > | < LAMBDA: "->" > | < METHOD_REF: "::" > } /* >'s need special attention due to generics syntax. */ TOKEN : { < RUNSIGNEDSHIFT: ">>>" > { input_stream.backup(2); } | < RSIGNEDSHIFT: ">>" > { input_stream.backup(1); } | < GT: ">" > } /***************************************** * THE JAVA LANGUAGE GRAMMAR STARTS HERE * *****************************************/ /* * Program structuring syntax follows. */ ASTCompilationUnit CompilationUnit() : {/*@bgen(jjtree) CompilationUnit */ ASTCompilationUnit jjtn000 = new ASTCompilationUnit(JJTCOMPILATIONUNIT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) CompilationUnit */ try { /*@egen*/ [ LOOKAHEAD( ( Annotation() )* "package" ) PackageDeclaration() ( EmptyDeclaration() )* ] ( ImportDeclaration() ( EmptyDeclaration() )* )* // ModularCompilationUnit: // the module decl lookahead needs to be before the type declaration branch, // looking for annotations + "open" | "module" will fail faster if it's *not* // a module (most common case) [ LOOKAHEAD(ModuleDeclLahead()) ModuleDeclaration() ( EmptyDeclaration() )* ] // OrdinaryCompilationUnit: -> TopLevelClassOrInterfaceDeclaration ( TypeDeclaration() ( EmptyDeclaration() )* )* // SimpleCompilationUnit: [/*@bgen(jjtree) ImplicitClassDeclaration */ { ASTImplicitClassDeclaration jjtn002 = new ASTImplicitClassDeclaration(JJTIMPLICITCLASSDECLARATION); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ ( { pushEmptyModifierList(); }/*@bgen(jjtree) ClassBody */ { ASTClassBody jjtn001 = new ASTClassBody(JJTCLASSBODY); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ( ( LOOKAHEAD(3) ClassMemberDeclarationNoMethod() )* ModifierList() MethodDeclaration() ( ClassOrInterfaceBodyDeclaration() )* )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ )/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, true); } } /*@egen*/ ] /*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ { jjtn000.setComments(token_source.comments); return jjtn000; }/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } // see ClassOrInterfaceBodyDeclaration() void ClassMemberDeclarationNoMethod() : {} { ModifierList() ( LOOKAHEAD(3) ClassOrInterfaceDeclaration() | LOOKAHEAD({isKeyword("enum")}) EnumDeclaration() | LOOKAHEAD({isKeyword("record")}) RecordDeclaration() | LOOKAHEAD( [ TypeParameters() ] "(" ) ConstructorDeclaration() | LOOKAHEAD( Type() (AnnotationList() "[" "]")* ( "," | "=" | ";" ) ) FieldDeclaration() | LOOKAHEAD(2) AnnotationTypeDeclaration() ) } private void ModuleDeclLahead() : {} { (Annotation())* LOOKAHEAD({isKeyword("open") || isKeyword("module")}) } void PackageDeclaration() : {/*@bgen(jjtree) PackageDeclaration */ ASTPackageDeclaration jjtn000 = new ASTPackageDeclaration(JJTPACKAGEDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/String image;} {/*@bgen(jjtree) PackageDeclaration */ try { /*@egen*/ ModAnnotationList() "package" image=VoidName() { jjtn000.setImage(image); } ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ImportDeclaration() : {/*@bgen(jjtree) ImportDeclaration */ ASTImportDeclaration jjtn000 = new ASTImportDeclaration(JJTIMPORTDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/String image;} {/*@bgen(jjtree) ImportDeclaration */ try { /*@egen*/ "import" ( "static" {jjtn000.setStatic();} | LOOKAHEAD({isKeyword("module")}) {jjtn000.setModuleImport();} )? image=VoidName() { jjtn000.setImage(image); } [ "." "*" {jjtn000.setImportOnDemand();} ] ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } /* * Modifiers. We match all modifiers in a single rule to reduce the chances of * syntax errors for simple modifier mistakes. It will also enable us to give * better error messages. */ void ModifierList(): {/*@bgen(jjtree) ModifierList */ ASTModifierList jjtn000 = new ASTModifierList(JJTMODIFIERLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/ EnumSet modifiers = EnumSet.noneOf(JModifier.class); } {/*@bgen(jjtree) ModifierList */ try { /*@egen*/ ( LOOKAHEAD(2) ( "public" { modifiers.add(JModifier.PUBLIC); } | "static" { modifiers.add(JModifier.STATIC); } | "protected" { modifiers.add(JModifier.PROTECTED); } | "private" { modifiers.add(JModifier.PRIVATE); } | "final" { modifiers.add(JModifier.FINAL); } | "abstract" { modifiers.add(JModifier.ABSTRACT); } | "synchronized" { modifiers.add(JModifier.SYNCHRONIZED); } | "native" { modifiers.add(JModifier.NATIVE); } | "transient" { modifiers.add(JModifier.TRANSIENT); } | "volatile" { modifiers.add(JModifier.VOLATILE); } | "strictfp" { modifiers.add(JModifier.STRICTFP); } | "default" { modifiers.add(JModifier.DEFAULT); } | LOOKAHEAD({isKeyword("sealed")}) { modifiers.add(JModifier.SEALED); } | LOOKAHEAD({isNonSealedModifier()}) { modifiers.add(JModifier.NON_SEALED); } | Annotation() ) )* { jjtn000.setDeclaredModifiers(modifiers); }/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ { jjtree.injectRight(1); }/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ // inject the modifier node in the follower } /* * Declaration syntax follows. */ void TypeDeclaration() : {} { ModifierList() ( ClassOrInterfaceDeclaration() | AnnotationTypeDeclaration() | LOOKAHEAD({isKeyword("enum")}) EnumDeclaration() | LOOKAHEAD({isKeyword("record")}) RecordDeclaration() ) } void ClassOrInterfaceDeclaration() : {/*@bgen(jjtree) ClassDeclaration */ ASTClassDeclaration jjtn000 = new ASTClassDeclaration(JJTCLASSDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ClassDeclaration */ try { /*@egen*/ ( "class" | "interface" { jjtn000.setInterface(); } ) { jjtn000.setSimpleName(getToken(0).getImage()); } [ TypeParameters() ] [ ExtendsList() ] [ ImplementsList() ] [ LOOKAHEAD({isKeyword("permits")}) PermittedSubclasses() ] ClassOrInterfaceBody()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ExtendsList(): {/*@bgen(jjtree) ExtendsList */ ASTExtendsList jjtn000 = new ASTExtendsList(JJTEXTENDSLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ExtendsList */ try { /*@egen*/ "extends" AnnotatedClassOrInterfaceType() ( "," AnnotatedClassOrInterfaceType() )*/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ImplementsList(): {/*@bgen(jjtree) ImplementsList */ ASTImplementsList jjtn000 = new ASTImplementsList(JJTIMPLEMENTSLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ImplementsList */ try { /*@egen*/ "implements" AnnotatedClassOrInterfaceType() ( "," AnnotatedClassOrInterfaceType() )*/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void PermittedSubclasses() : {/*@bgen(jjtree) PermitsList */ ASTPermitsList jjtn000 = new ASTPermitsList(JJTPERMITSLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) PermitsList */ try { /*@egen*/ softKeyword("permits") ClassOrInterfaceType() ( "," ClassOrInterfaceType() )*/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void EnumDeclaration(): {/*@bgen(jjtree) EnumDeclaration */ ASTEnumDeclaration jjtn000 = new ASTEnumDeclaration(JJTENUMDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) EnumDeclaration */ try { /*@egen*/ softKeyword("enum") { jjtn000.setSimpleName(getToken(0).getImage()); } [ ImplementsList() ] EnumBody()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void EnumBody(): {/*@bgen(jjtree) EnumBody */ ASTEnumBody jjtn000 = new ASTEnumBody(JJTENUMBODY); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) EnumBody */ try { /*@egen*/ "{" [ EnumConstant() ( LOOKAHEAD(2) "," EnumConstant() )* ] [ "," { jjtn000.setTrailingComma(); } ] [ ";" { jjtn000.setSeparatorSemi(); } ( ClassOrInterfaceBodyDeclaration() )* ] "}"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void EnumConstant(): {/*@bgen(jjtree) EnumConstant */ ASTEnumConstant jjtn000 = new ASTEnumConstant(JJTENUMCONSTANT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) EnumConstant */ try { /*@egen*/ ModAnnotationList() VariableDeclaratorId() [ ArgumentList() ] [ AnonymousClassDeclaration() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void RecordDeclaration(): {/*@bgen(jjtree) RecordDeclaration */ ASTRecordDeclaration jjtn000 = new ASTRecordDeclaration(JJTRECORDDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) RecordDeclaration */ try { /*@egen*/ softKeyword("record") { jjtn000.setSimpleName(getToken(0).getImage()); } [ TypeParameters() ] RecordHeader() [ ImplementsList() ] RecordBody()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void RecordHeader() : {} { "(" RecordComponentList() ")" } void RecordComponentList() : {/*@bgen(jjtree) RecordComponentList */ ASTRecordComponentList jjtn000 = new ASTRecordComponentList(JJTRECORDCOMPONENTLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) RecordComponentList */ try { /*@egen*/ [ RecordComponent() ("," RecordComponent())* ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void RecordComponent(): {/*@bgen(jjtree) RecordComponent */ ASTRecordComponent jjtn000 = new ASTRecordComponent(JJTRECORDCOMPONENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) RecordComponent */ try { /*@egen*/ ModAnnotationList() FormalParamType() VariableDeclaratorId()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void RecordBody(): {/*@bgen(jjtree) RecordBody */ ASTRecordBody jjtn000 = new ASTRecordBody(JJTRECORDBODY); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) RecordBody */ try { /*@egen*/ "{" ( RecordBodyDeclaration() )* "}"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void RecordBodyDeclaration() : {} { LOOKAHEAD(CompactConstructorDeclarationLookahead()) ModifierList() CompactConstructorDeclaration() | ClassOrInterfaceBodyDeclaration() } private void CompactConstructorDeclarationLookahead() : {} { ModifierList() "{" } void CompactConstructorDeclaration(): {/*@bgen(jjtree) CompactConstructorDeclaration */ ASTCompactConstructorDeclaration jjtn000 = new ASTCompactConstructorDeclaration(JJTCOMPACTCONSTRUCTORDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) CompactConstructorDeclaration */ try { /*@egen*/ { jjtn000.setImage(token.getImage()); } Block()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void TypeParameters(): {/*@bgen(jjtree) TypeParameters */ ASTTypeParameters jjtn000 = new ASTTypeParameters(JJTTYPEPARAMETERS); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) TypeParameters */ try { /*@egen*/ "<" TypeParameter() ( "," TypeParameter() )* ">"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void TypeParameter(): {/*@bgen(jjtree) TypeParameter */ ASTTypeParameter jjtn000 = new ASTTypeParameter(JJTTYPEPARAMETER); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) TypeParameter */ try { /*@egen*/ AnnotationList() {setLastTokenImage(jjtn000);} [ "extends" IntersectionType() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ClassOrInterfaceBody() : {/*@bgen(jjtree) ClassBody */ ASTClassBody jjtn000 = new ASTClassBody(JJTCLASSBODY); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ClassBody */ try { /*@egen*/ "{" ( ClassOrInterfaceBodyDeclaration() )* "}"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ClassOrInterfaceBodyDeclaration() : {} { LOOKAHEAD(["static"] "{" ) Initializer() | ModifierList() ( LOOKAHEAD(3) ClassOrInterfaceDeclaration() | LOOKAHEAD({isKeyword("enum")}) EnumDeclaration() | LOOKAHEAD({isKeyword("record")}) RecordDeclaration() | LOOKAHEAD( [ TypeParameters() ] "(" ) ConstructorDeclaration() | LOOKAHEAD( Type() (AnnotationList() "[" "]")* ( "," | "=" | ";" ) ) FieldDeclaration() | LOOKAHEAD(2) MethodDeclaration() | LOOKAHEAD(2) AnnotationTypeDeclaration() ) |/*@bgen(jjtree) EmptyDeclaration */ { ASTEmptyDeclaration jjtn001 = new ASTEmptyDeclaration(JJTEMPTYDECLARATION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ";"/*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ } void FieldDeclaration() : {/*@bgen(jjtree) FieldDeclaration */ ASTFieldDeclaration jjtn000 = new ASTFieldDeclaration(JJTFIELDDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) FieldDeclaration */ try { /*@egen*/ Type() VariableDeclarator() ( "," VariableDeclarator() )* ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void VariableDeclarator() : {/*@bgen(jjtree) VariableDeclarator */ ASTVariableDeclarator jjtn000 = new ASTVariableDeclarator(JJTVARIABLEDECLARATOR); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) VariableDeclarator */ try { /*@egen*/ VariableIdWithDims() [ "=" VariableInitializer() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void VariableDeclaratorId() : {/*@bgen(jjtree) VariableId */ ASTVariableId jjtn000 = new ASTVariableId(JJTVARIABLEID); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) VariableId */ try { /*@egen*/ /*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ { jjtn000.setName(getToken(0).getImage()); }/*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void VariableIdWithDims() : {/*@bgen(jjtree) VariableId */ ASTVariableId jjtn000 = new ASTVariableId(JJTVARIABLEID); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) VariableId */ try { /*@egen*/ { jjtn000.setName(getToken(0).getImage()); } [ Dims() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ReceiverParameter(): {/*@bgen(jjtree) ReceiverParameter */ ASTReceiverParameter jjtn000 = new ASTReceiverParameter(JJTRECEIVERPARAMETER); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ReceiverParameter */ try { /*@egen*/ AnnotatedClassOrInterfaceType() [ "." ] "this"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void VariableInitializer() : {} { ArrayInitializer() | Expression() } void ArrayInitializer() : {/*@bgen(jjtree) ArrayInitializer */ ASTArrayInitializer jjtn000 = new ASTArrayInitializer(JJTARRAYINITIALIZER); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ArrayInitializer */ try { /*@egen*/ "{" [ VariableInitializer() ( LOOKAHEAD(2) "," VariableInitializer() )* ] [ "," ] "}"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void MethodDeclaration() : {/*@bgen(jjtree) MethodDeclaration */ ASTMethodDeclaration jjtn000 = new ASTMethodDeclaration(JJTMETHODDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) MethodDeclaration */ try { /*@egen*/ [ TypeParameters() ] ResultType() { jjtn000.setName(getToken(0).getImage()); } FormalParameters() [ Dims() ] [ ThrowsList() ] ( Block() | ";" )/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void FormalParameters() : {/*@bgen(jjtree) FormalParameters */ ASTFormalParameters jjtn000 = new ASTFormalParameters(JJTFORMALPARAMETERS); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) FormalParameters */ try { /*@egen*/ "(" [ ( LOOKAHEAD(ReceiverParameter()) ReceiverParameter() | FormalParameter() ) ( "," FormalParameter() )* ] ")"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void FormalParameter() : {/*@bgen(jjtree) FormalParameter */ ASTFormalParameter jjtn000 = new ASTFormalParameter(JJTFORMALPARAMETER); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) FormalParameter */ try { /*@egen*/ LocalVarModifierList() FormalParamType() ("|" FormalParamType())* // remove this stuff when #2202 is merged VariableIdWithDims()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void FormalParamType() : {} { PrimitiveType() [ LOOKAHEAD(2)/*@bgen(jjtree) #ArrayType( 2) */ { ASTArrayType jjtn001 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ VarargsDimensions()/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ ] | ClassOrInterfaceType() [ LOOKAHEAD(2)/*@bgen(jjtree) #ArrayType( 2) */ { ASTArrayType jjtn002 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ VarargsDimensions()/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, 2); } } /*@egen*/ ] } void VarargsDimensions() : {/*@bgen(jjtree) ArrayDimensions */ ASTArrayDimensions jjtn000 = new ASTArrayDimensions(JJTARRAYDIMENSIONS); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ArrayDimensions */ try { /*@egen*/ // like ArrayDimensions but allows for a varargs ellipsis at the end ("...") LOOKAHEAD(AnnotationList() "[") (LOOKAHEAD(AnnotationList() "[") ArrayTypeDim())+ [ VarargsDim() ] | VarargsDim()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void VarargsDim() : {/*@bgen(jjtree) ArrayTypeDim */ ASTArrayTypeDim jjtn000 = new ASTArrayTypeDim(JJTARRAYTYPEDIM); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ArrayTypeDim */ try { /*@egen*/ TypeAnnotListNoInject() "..."/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {jjtn000.setVarargs();}/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ConstructorDeclaration() : {/*@bgen(jjtree) ConstructorDeclaration */ ASTConstructorDeclaration jjtn000 = new ASTConstructorDeclaration(JJTCONSTRUCTORDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ConstructorDeclaration */ try { /*@egen*/ [ TypeParameters() ] {setLastTokenImage(jjtn000);} FormalParameters() [ ThrowsList() ] ConstructorBlock()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } private void ConstructorBlock() : {/*@bgen(jjtree) Block */ ASTBlock jjtn000 = new ASTBlock(JJTBLOCK); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) Block */ try { /*@egen*/ "{" ( LOOKAHEAD(ExplicitConstructorInvocation()) ExplicitConstructorInvocation() | ( LOOKAHEAD(2) BlockStatement() )* [ LOOKAHEAD(ExplicitConstructorInvocation()) ExplicitConstructorInvocation() ] ) ( BlockStatement() )* "}"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ExplicitConstructorInvocation() : {/*@bgen(jjtree) ExplicitConstructorInvocation */ ASTExplicitConstructorInvocation jjtn000 = new ASTExplicitConstructorInvocation(JJTEXPLICITCONSTRUCTORINVOCATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/boolean prev = inExplicitConstructorInvoc; inExplicitConstructorInvoc = true;} {/*@bgen(jjtree) ExplicitConstructorInvocation */ try { /*@egen*/ // We may only lookahead one token here, because: // * "this" or "super" can't appear in the primary expression in case of // qualified super call (last branch), or else compile error, so if we // see one of them, then the rest is necessarily the arguments // But: "this" may appear if it's qualified! // * No primary expression may start with "<", meaning we can use it to // know we're looking forward to type arguments ( LOOKAHEAD("<") TypeArguments() ( "this" | "super" {jjtn000.setIsSuper();} ) | LOOKAHEAD("this") "this" | LOOKAHEAD("super") "super" {jjtn000.setIsSuper();} | PrimaryExpression() "." [ TypeArguments() ] "super" {jjtn000.setIsSuper();} ) // reset this before parsing the arguments list {inExplicitConstructorInvoc = prev;} ArgumentList() ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void Initializer() : {/*@bgen(jjtree) Initializer */ ASTInitializer jjtn000 = new ASTInitializer(JJTINITIALIZER); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) Initializer */ try { /*@egen*/ [ "static" {jjtn000.setStatic();} ] Block()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } /* JLS: https://docs.oracle.com/javase/specs/jls/se8/html/jls-4.html#jls-4.3 ReferenceType: ClassOrInterfaceType TypeVariable ArrayType ClassOrInterfaceType: ClassType InterfaceType ClassType: {Annotation} Identifier [TypeArguments] ClassOrInterfaceType . {Annotation} Identifier [TypeArguments] InterfaceType: ClassType TypeVariable: {Annotation} Identifier ArrayType: PrimitiveType Dims ClassOrInterfaceType Dims TypeVariable Dims Dims: {Annotation} [ ] {{Annotation} [ ]} */ void IntersectionType() : {/*@bgen(jjtree) #IntersectionType( isIntersection) */ ASTIntersectionType jjtn000 = new ASTIntersectionType(JJTINTERSECTIONTYPE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/boolean isIntersection=false;} {/*@bgen(jjtree) #IntersectionType( isIntersection) */ try { /*@egen*/ AnnotatedType() ( "&" {isIntersection=true;} AnnotatedClassOrInterfaceType() )*/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, isIntersection); } } /*@egen*/ } void AnnotationList() : {} { (Annotation())* } void ModAnnotationList() : {/*@bgen(jjtree) ModifierList */ ASTModifierList jjtn000 = new ASTModifierList(JJTMODIFIERLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/jjtn000.setDeclaredModifiers(Collections.emptySet());} {/*@bgen(jjtree) ModifierList */ try { /*@egen*/ (Annotation())*/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } int TypeAnnotListNoInject() : {int num = 0;} { ( TypeAnnotation() {num++;} )* { return num; } } // Type annotation lists are by default injected in the // next node to be opened (most likely a type). // Sometimes (array dims), this need not be and TypeAnnotListNoInject // should be used. void TypeAnnotationList() : {int size=0;} { size=TypeAnnotListNoInject() { jjtree.injectRight(size); } } void AnnotatedType() : {} { TypeAnnotationList() Type() } void AnnotatedRefType() : {} { TypeAnnotationList() ReferenceType() } void AnnotatedClassOrInterfaceType() : {} { TypeAnnotationList() ClassOrInterfaceType() } /* * Type, name and expression syntax follows. * Type is the same as "UnannType" in JLS * * See https://docs.oracle.com/javase/specs/jls/se10/html/jls-8.html#jls-UnannType */ void Type() : {} { PrimitiveType() [ LOOKAHEAD(2)/*@bgen(jjtree) #ArrayType( 2) */ { ASTArrayType jjtn001 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ Dims()/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ ] | ClassOrInterfaceType() [ LOOKAHEAD(2)/*@bgen(jjtree) #ArrayType( 2) */ { ASTArrayType jjtn002 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ Dims()/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, 2); } } /*@egen*/ ] } void Dims() : {/*@bgen(jjtree) ArrayDimensions */ ASTArrayDimensions jjtn000 = new ASTArrayDimensions(JJTARRAYDIMENSIONS); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ArrayDimensions */ try { /*@egen*/ // the list of dimensions is flat, but annotations are // preserved within each specific dim. (ArrayTypeDim())+/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ArrayTypeDim(): {/*@bgen(jjtree) ArrayTypeDim */ ASTArrayTypeDim jjtn000 = new ASTArrayTypeDim(JJTARRAYTYPEDIM); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ArrayTypeDim */ try { /*@egen*/ TypeAnnotListNoInject() "[" "]"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ReferenceType() : {} { // We parse it that way because the right injection considers node openings, // which means if we want the annotations to belong to the element type, then // the ArrayType node needs to be opened after eg the PrimitiveType PrimitiveType()/*@bgen(jjtree) #ArrayType( 2) */ { ASTArrayType jjtn001 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ Dims()/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ | ClassOrInterfaceType() [ LOOKAHEAD(2)/*@bgen(jjtree) #ArrayType( 2) */ { ASTArrayType jjtn002 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ Dims()/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, 2); } } /*@egen*/ ] } /** * Parses a ClassOrInterfaceType. The production itself is #void, * but the node exists (declared inline within the production). */ void ClassOrInterfaceType() : {} { (LOOKAHEAD({jjtree.isInjectionPending()})/*@bgen(jjtree) ClassType */ { ASTClassType jjtn001 = new ASTClassType(JJTCLASSTYPE); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ // Perhaps surprisingly a type annotation binds to the closest segment // So in "@B Map.Entry", "@B" binds to "Map", and Map is required to be a type name. // If the annotation is not applicable to TYPE_USE then it doesn't compile // So if there are annotations pending injection here, then they're necessarily // type annotations, since otherwise they would have been consumed in the // annotation list of a declaration. // Eg in "public abstract @F int foo();", "@F" is part of the modifier list of the method. // but in "public abstract @F T foo();", "@F" is necessarily a type annotation, and indeed // is in a separate AnnotationList (it follows the type parameters so is not a modifier). // To sum it up, if we have annotations pending, then the first segment is necessarily // a type name, otherwise it wouldn't have compiled. So it's not ambiguous and we can // start fresh: "@B Map.Entry" will be unambiguously [[@B Map].Entry] ( { jjtn001.setSimpleName(getToken(0).getImage()); } [ TypeArguments() ])/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ | // Otherwise, for now we have no clue until the first type arguments // or annotation is found. The name is ambiguous between package or // type name unless type arguments are present, in which case we can // be sure that the last segment is a type name. AmbiguousName() [/*@bgen(jjtree) #ClassType( 2) */ { ASTClassType jjtn002 = new ASTClassType(JJTCLASSTYPE); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ TypeArguments()/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, 2); } } /*@egen*/ ] { // At this point the first ClassType may be on top of the stack, // but its image is not set. If it is on the stack we need to shrink the bounds // of the ambiguous name, or delete it. Node first = jjtree.peekNode(); if (first instanceof ASTClassType) { // then we saw type arguments, so the last segment is definitely a type name ASTAmbiguousName name = first.firstChild(ASTAmbiguousName.class); name.shrinkOrDeleteInParentSetImage(); } } ) /* Now if there are other segments, either the previous segment specified type arguments, or the next has an annotation. Either way we know that all the following segments is a type name. Each segment is parsed as its own ClassOrInterfaceType which encloses the previous one. The resulting structure appears left-recursive, but the parser just executes a loop. That scheme preserves the position of type arguments and annotations. See #1150. */ ( LOOKAHEAD(2) "." ClassTypeSegment() )* { forceTypeContext(); } } private void ClassTypeSegment() : {/*@bgen(jjtree) #ClassType( jjtree . nodeArity ( ) + 1) */ ASTClassType jjtn000 = new ASTClassType(JJTCLASSTYPE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) #ClassType( jjtree . nodeArity ( ) + 1) */ try { /*@egen*/ TypeAnnotListNoInject() // We'll enclose the previous segment { jjtn000.setSimpleName(getToken(0).getImage()); } [ TypeArguments() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, jjtree . nodeArity ( ) + 1); } } /*@egen*/ } void TypeArguments(): {/*@bgen(jjtree) TypeArguments */ ASTTypeArguments jjtn000 = new ASTTypeArguments(JJTTYPEARGUMENTS); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) TypeArguments */ try { /*@egen*/ LOOKAHEAD(2) "<" TypeArgument() ( "," TypeArgument() )* ">" | "<" ">"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void TypeArgument() : {} { TypeAnnotationList() (ReferenceType() | WildcardType()) } void WildcardType(): {/*@bgen(jjtree) WildcardType */ ASTWildcardType jjtn000 = new ASTWildcardType(JJTWILDCARDTYPE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) WildcardType */ try { /*@egen*/ "?" [ ("extends" | "super" {jjtn000.setLowerBound(true);}) AnnotatedRefType() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } /* JLS https://docs.oracle.com/javase/specs/jls/se10/html/jls-4.html#jls-PrimitiveType PrimitiveType: {Annotation} NumericType {Annotation} boolean NumericType: IntegralType FloatingPointType IntegralType: (one of) byte short int long char FloatingPointType: (one of) float double */ void PrimitiveType() : {/*@bgen(jjtree) PrimitiveType */ ASTPrimitiveType jjtn000 = new ASTPrimitiveType(JJTPRIMITIVETYPE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) PrimitiveType */ try { /*@egen*/ "boolean"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {jjtn000.setKind(PrimitiveTypeKind.BOOLEAN);} | "char"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {jjtn000.setKind(PrimitiveTypeKind.CHAR);} | "byte"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {jjtn000.setKind(PrimitiveTypeKind.BYTE);} | "short"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {jjtn000.setKind(PrimitiveTypeKind.SHORT);} | "int"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {jjtn000.setKind(PrimitiveTypeKind.INT);} | "long"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {jjtn000.setKind(PrimitiveTypeKind.LONG);} | "float"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {jjtn000.setKind(PrimitiveTypeKind.FLOAT);} | "double"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {jjtn000.setKind(PrimitiveTypeKind.DOUBLE);}/*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ResultType() : {} {/*@bgen(jjtree) VoidType */ { ASTVoidType jjtn001 = new ASTVoidType(JJTVOIDTYPE); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ "void"/*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ | AnnotatedType() } void ThrowsList() : {/*@bgen(jjtree) ThrowsList */ ASTThrowsList jjtn000 = new ASTThrowsList(JJTTHROWSLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ThrowsList */ try { /*@egen*/ "throws" AnnotatedClassOrInterfaceType() ( "," AnnotatedClassOrInterfaceType())*/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } /* * Expression syntax follows. */ void Expression() : /* * This expansion has been written this way instead of: * Assignment() | ConditionalExpression() * for performance reasons. * However, it is a weakening of the grammar for it allows the LHS of * assignments to be any conditional expression whereas it can only be * a primary expression. Consider adding a semantic predicate to work * around this. */ {/*@bgen(jjtree) #AssignmentExpression(> 1) */ ASTAssignmentExpression jjtn000 = new ASTAssignmentExpression(JJTASSIGNMENTEXPRESSION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/AssignmentOp op = null;} {/*@bgen(jjtree) #AssignmentExpression(> 1) */ try { /*@egen*/ ConditionalExpression() [ LOOKAHEAD(1) op=AssignmentOperator() {jjtn000.setOp(op);} Expression() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, jjtree.nodeArity() > 1); } } /*@egen*/ } AssignmentOp AssignmentOperator() : {} { "=" { return AssignmentOp.ASSIGN; } | "*=" { return AssignmentOp.MUL_ASSIGN; } | "/=" { return AssignmentOp.DIV_ASSIGN; } | "%=" { return AssignmentOp.MOD_ASSIGN; } | "+=" { return AssignmentOp.ADD_ASSIGN; } | "-=" { return AssignmentOp.SUB_ASSIGN; } | "<<=" { return AssignmentOp.LEFT_SHIFT_ASSIGN; } | ">>=" { return AssignmentOp.RIGHT_SHIFT_ASSIGN; } | ">>>=" { return AssignmentOp.UNSIGNED_RIGHT_SHIFT_ASSIGN; } | "&=" { return AssignmentOp.AND_ASSIGN; } | "^=" { return AssignmentOp.XOR_ASSIGN; } | "|=" { return AssignmentOp.OR_ASSIGN; } } void ConditionalExpression() : {/*@bgen(jjtree) #ConditionalExpression(> 1) */ ASTConditionalExpression jjtn000 = new ASTConditionalExpression(JJTCONDITIONALEXPRESSION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) #ConditionalExpression(> 1) */ try { /*@egen*/ ConditionalOrExpression() [LOOKAHEAD(1) "?" Expression() ":" ConditionalExpression() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, jjtree.nodeArity() > 1); } } /*@egen*/ } void ConditionalOrExpression() : {} { ConditionalAndExpression() (LOOKAHEAD(1)/*@bgen(jjtree) #InfixExpression( 2) */ { ASTInfixExpression jjtn001 = new ASTInfixExpression(JJTINFIXEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ("||" {jjtn001.setOp(BinaryOp.CONDITIONAL_OR);} ConditionalAndExpression())/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ )* } void ConditionalAndExpression() : {} { InclusiveOrExpression() (LOOKAHEAD(1)/*@bgen(jjtree) #InfixExpression( 2) */ { ASTInfixExpression jjtn001 = new ASTInfixExpression(JJTINFIXEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ("&&" {jjtn001.setOp(BinaryOp.CONDITIONAL_AND);} InclusiveOrExpression())/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ )* } void InclusiveOrExpression() : {} { ExclusiveOrExpression() (LOOKAHEAD(1)/*@bgen(jjtree) #InfixExpression( 2) */ { ASTInfixExpression jjtn001 = new ASTInfixExpression(JJTINFIXEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ("|" {jjtn001.setOp(BinaryOp.OR);} ExclusiveOrExpression())/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ )* } void ExclusiveOrExpression() : {} { AndExpression() (LOOKAHEAD(1)/*@bgen(jjtree) #InfixExpression( 2) */ { ASTInfixExpression jjtn001 = new ASTInfixExpression(JJTINFIXEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ("^" {jjtn001.setOp(BinaryOp.XOR);} AndExpression())/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ )* } void AndExpression() : {} { EqualityExpression() (LOOKAHEAD(1)/*@bgen(jjtree) #InfixExpression( 2) */ { ASTInfixExpression jjtn001 = new ASTInfixExpression(JJTINFIXEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ("&" {jjtn001.setOp(BinaryOp.AND);} EqualityExpression())/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ )* } void EqualityExpression() : {} { InstanceOfExpression() (LOOKAHEAD(1)/*@bgen(jjtree) #InfixExpression( 2) */ { ASTInfixExpression jjtn001 = new ASTInfixExpression(JJTINFIXEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ( ( "==" {jjtn001.setOp(BinaryOp.EQ);} | "!=" {jjtn001.setOp(BinaryOp.NE);} ) InstanceOfExpression() )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ )* } void Pattern() : {} { LOOKAHEAD((Annotation())* ReferenceType() "(") RecordPattern() | TypePattern() } void TypePattern(): {/*@bgen(jjtree) TypePattern */ ASTTypePattern jjtn000 = new ASTTypePattern(JJTTYPEPATTERN); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) TypePattern */ try { /*@egen*/ LocalVarModifierList() LocalVariableType() VariableDeclaratorId()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void RecordPattern(): {/*@bgen(jjtree) RecordPattern */ ASTRecordPattern jjtn000 = new ASTRecordPattern(JJTRECORDPATTERN); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) RecordPattern */ try { /*@egen*/ (Annotation())* ReferenceType() RecordStructurePattern()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void RecordStructurePattern() : {/*@bgen(jjtree) PatternList */ ASTPatternList jjtn000 = new ASTPatternList(JJTPATTERNLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) PatternList */ try { /*@egen*/ "(" [ ComponentPatternList() ] ")"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ComponentPatternList() : {} { ComponentPattern() ( "," ComponentPattern() )* } void ComponentPattern() : {} { LOOKAHEAD({isKeyword("_")}) UnnamedPattern() | Pattern() } void UnnamedPattern(): {/*@bgen(jjtree) UnnamedPattern */ ASTUnnamedPattern jjtn000 = new ASTUnnamedPattern(JJTUNNAMEDPATTERN); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) UnnamedPattern */ try { /*@egen*/ softKeyword("_")/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void InstanceOfExpression() : {} { RelationalExpression() [/*@bgen(jjtree) #InfixExpression( 2) */ { ASTInfixExpression jjtn003 = new ASTInfixExpression(JJTINFIXEXPRESSION); boolean jjtc003 = true; jjtree.openNodeScope(jjtn003); } try { /*@egen*/ ("instanceof" ( LOOKAHEAD(ReferenceType() "(") RecordPattern() | AnnotatedType() [/*@bgen(jjtree) #TypePattern( 2) */ { ASTTypePattern jjtn001 = new ASTTypePattern(JJTTYPEPATTERN); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ VariableDeclaratorId()/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ |/*@bgen(jjtree) #RecordPattern( 2) */ { ASTRecordPattern jjtn002 = new ASTRecordPattern(JJTRECORDPATTERN); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ RecordStructurePattern()/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, 2); } } /*@egen*/ ] | Pattern() ) { jjtn003.setOp(BinaryOp.INSTANCEOF); AbstractJavaNode top = jjtree.popNode(); if (top instanceof ASTPattern) { if (top instanceof ASTTypePattern && !(top.getChild(0) instanceof ASTModifierList)) { insertEmptyModifierListWithAnnotations(top, (AbstractJavaNode) top.getChild(0)); } top = new ASTPatternExpression((ASTPattern) top); } else { top = new ASTTypeExpression((ASTType) top); } jjtree.pushNode(top); }/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn003, 2); jjtc003 = false; } /*@egen*/ {} // manipulate node before it is closed. )/*@bgen(jjtree)*/ } catch (Throwable jjte003) { if (jjtc003) { jjtree.clearNodeScope(jjtn003); jjtc003 = false; } else { jjtree.popNode(); } if (jjte003 instanceof RuntimeException) { throw (RuntimeException)jjte003; } if (jjte003 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte003; } throw (Error)jjte003; } finally { if (jjtc003) { jjtree.closeNodeScope(jjtn003, 2); } } /*@egen*/ ] } void RelationalExpression() : {} { // There technically cannot be more than one, because it wouldn't compile // But we give it some leeway to not make the parser too knowledgeable // From the JLS: // For example, a" {jjtn001.setOp(BinaryOp.GT);} | "<=" {jjtn001.setOp(BinaryOp.LE);} | ">=" {jjtn001.setOp(BinaryOp.GE);} ) ShiftExpression() )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ )* } void ShiftExpression() : {} { AdditiveExpression() (LOOKAHEAD(1)/*@bgen(jjtree) #InfixExpression( 2) */ { ASTInfixExpression jjtn001 = new ASTInfixExpression(JJTINFIXEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ( ( "<<" {jjtn001.setOp(BinaryOp.LEFT_SHIFT);} | RSIGNEDSHIFT() {jjtn001.setOp(BinaryOp.RIGHT_SHIFT);} | RUNSIGNEDSHIFT() {jjtn001.setOp(BinaryOp.UNSIGNED_RIGHT_SHIFT);} ) AdditiveExpression() )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ )* } void AdditiveExpression() : {} { MultiplicativeExpression() (LOOKAHEAD(1)/*@bgen(jjtree) #InfixExpression( 2) */ { ASTInfixExpression jjtn001 = new ASTInfixExpression(JJTINFIXEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ( ( "+" {jjtn001.setOp(BinaryOp.ADD);} | "-" {jjtn001.setOp(BinaryOp.SUB);} ) MultiplicativeExpression() )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ )* } void MultiplicativeExpression() : {} { UnaryExpression() (LOOKAHEAD(1)/*@bgen(jjtree) #InfixExpression( 2) */ { ASTInfixExpression jjtn001 = new ASTInfixExpression(JJTINFIXEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ( ( "*" {jjtn001.setOp(BinaryOp.MUL);} | "/" {jjtn001.setOp(BinaryOp.DIV);} | "%" {jjtn001.setOp(BinaryOp.MOD);} ) UnaryExpression() )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ )* } // TODO update operator setting for those expressions void UnaryExpression() : {} {/*@bgen(jjtree) UnaryExpression */ { ASTUnaryExpression jjtn001 = new ASTUnaryExpression(JJTUNARYEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ (("+" {jjtn001.setOp(UnaryOp.UNARY_PLUS);} | "-" {jjtn001.setOp(UnaryOp.UNARY_MINUS);}) UnaryExpression())/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ | PrefixIncrementExpression() | UnaryExpressionNotPlusMinus() } void PrefixIncrementExpression() : {/*@bgen(jjtree) UnaryExpression */ ASTUnaryExpression jjtn000 = new ASTUnaryExpression(JJTUNARYEXPRESSION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) UnaryExpression */ try { /*@egen*/ ("++" {jjtn000.setOp(UnaryOp.PRE_INCREMENT);} | "--" {jjtn000.setOp(UnaryOp.PRE_DECREMENT);} ) PrimaryExpression()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void UnaryExpressionNotPlusMinus() : {} {/*@bgen(jjtree) UnaryExpression */ { ASTUnaryExpression jjtn001 = new ASTUnaryExpression(JJTUNARYEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ (( "~" {jjtn001.setOp(UnaryOp.COMPLEMENT);} | "!" {jjtn001.setOp(UnaryOp.NEGATION);}) UnaryExpression())/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ // There's no separate production for CastExpression, because that would force // us to repeat the lookahead // Those lookaheads are quite expensive, they're run to disambiguate between // ParenthesizedExpression and CastExpression. | LOOKAHEAD("(" TypeAnnotationList() PrimitiveType() ")")/*@bgen(jjtree) CastExpression */ { ASTCastExpression jjtn002 = new ASTCastExpression(JJTCASTEXPRESSION); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ ("(" AnnotatedType() ")" UnaryExpression())/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, true); } } /*@egen*/ // here we avoid looking ahead for a whole unary expression, instead just testing the token after ")" | LOOKAHEAD("(" IntersectionType() ")" UnaryExprNotPmStart() )/*@bgen(jjtree) CastExpression */ { ASTCastExpression jjtn003 = new ASTCastExpression(JJTCASTEXPRESSION); boolean jjtc003 = true; jjtree.openNodeScope(jjtn003); } try { /*@egen*/ ("(" IntersectionType() ")" UnaryExpressionNotPlusMinus())/*@bgen(jjtree)*/ } catch (Throwable jjte003) { if (jjtc003) { jjtree.clearNodeScope(jjtn003); jjtc003 = false; } else { jjtree.popNode(); } if (jjte003 instanceof RuntimeException) { throw (RuntimeException)jjte003; } if (jjte003 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte003; } throw (Error)jjte003; } finally { if (jjtc003) { jjtree.closeNodeScope(jjtn003, true); } } /*@egen*/ | PostfixExpression() | SwitchExpression() } private void UnaryExprNotPmStart() : {} { // Condensed FIRST set of UnaryExpressionNotPlusMinus // Avoid looking ahead for a whole UnaryExpressionNotPlusMinus, but just for a token "~" | "!" | "(" | "switch" | "new" | "this" | "super" | Literal() | "@" | | "void" | PrimitiveType() } void PostfixExpression() : {} { PrimaryExpression() [ LOOKAHEAD(1)/*@bgen(jjtree) #UnaryExpression( 1) */ { ASTUnaryExpression jjtn001 = new ASTUnaryExpression(JJTUNARYEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ("++"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn001, 1); jjtc001 = false; } /*@egen*/ {jjtn001.setOp(UnaryOp.POST_INCREMENT);} | "--"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn001, 1); jjtc001 = false; } /*@egen*/ {jjtn001.setOp(UnaryOp.POST_DECREMENT);} )/*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 1); } } /*@egen*/ ] } void SwitchExpression() : {/*@bgen(jjtree) SwitchExpression */ ASTSwitchExpression jjtn000 = new ASTSwitchExpression(JJTSWITCHEXPRESSION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/boolean prevInSwitchBlock = inSwitchExprBlock;} {/*@bgen(jjtree) SwitchExpression */ try { /*@egen*/ "switch" "(" Expression() ")" {inSwitchExprBlock = true;} SwitchBlock()/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {inSwitchExprBlock = prevInSwitchBlock;}/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } /** * A primary expression. This includes call chains, etc. * * A PrimaryPrefix corresponds to an unqualified primary expression, * e.g "new Foo()". Then, if any, suffixes of the form e.g. ".method()", * ".field" or "::ref" are added, each time enclosing the previous node. * Iteration stops after the first method reference, or we can't continue. * * The resulting subtree looks left-recursive, but the parsing is iterative. */ void PrimaryExpression() : {} { // the lookahead here stops iteration after the first method reference, // because nothing can be chained after a method reference. PrimaryPrefix() ( LOOKAHEAD(SuffixLAhead(), {!(jjtree.peekNode() instanceof ASTMethodReference)}) PrimarySuffix() )* {forceExprContext();} } /* Expressions that may be present at the start of a primary expression. */ void PrimaryPrefix() : {JavaccToken savedStart;} { Literal() |/*@bgen(jjtree) ThisExpression */ { ASTThisExpression jjtn001 = new ASTThisExpression(JJTTHISEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ "this"/*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ |/*@bgen(jjtree) #SuperExpression( true) */ { ASTSuperExpression jjtn002 = new ASTSuperExpression(JJTSUPEREXPRESSION); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ "super"/*@bgen(jjtree)*/ } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, true); } } /*@egen*/ ("." MemberSelector() | MethodReference()) | UnqualifiedAllocationExpr() |/*@bgen(jjtree) ClassLiteral */ { ASTClassLiteral jjtn004 = new ASTClassLiteral(JJTCLASSLITERAL); boolean jjtc004 = true; jjtree.openNodeScope(jjtn004); } try { /*@egen*/ (/*@bgen(jjtree) VoidType */ { ASTVoidType jjtn003 = new ASTVoidType(JJTVOIDTYPE); boolean jjtc003 = true; jjtree.openNodeScope(jjtn003); } try { /*@egen*/"void"/*@bgen(jjtree)*/ } finally { if (jjtc003) { jjtree.closeNodeScope(jjtn003, true); } } /*@egen*/ "." "class")/*@bgen(jjtree)*/ } finally { if (jjtc004) { jjtree.closeNodeScope(jjtn004, true); } } /*@egen*/ | LOOKAHEAD(1)/*@bgen(jjtree) #ArrayType(> 1) */ { ASTArrayType jjtn005 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc005 = true; jjtree.openNodeScope(jjtn005); } try { /*@egen*/ // suppress the warning here. (PrimitiveType() [ Dims() ] )/*@bgen(jjtree)*/ } catch (Throwable jjte005) { if (jjtc005) { jjtree.clearNodeScope(jjtn005); jjtc005 = false; } else { jjtree.popNode(); } if (jjte005 instanceof RuntimeException) { throw (RuntimeException)jjte005; } if (jjte005 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte005; } throw (Error)jjte005; } finally { if (jjtc005) { jjtree.closeNodeScope(jjtn005, jjtree.nodeArity() > 1); } } /*@egen*/ ( MethodReference() | "."/*@bgen(jjtree) #ClassLiteral( 1) */ { ASTClassLiteral jjtn006 = new ASTClassLiteral(JJTCLASSLITERAL); boolean jjtc006 = true; jjtree.openNodeScope(jjtn006); } try { /*@egen*/ "class"/*@bgen(jjtree)*/ } finally { if (jjtc006) { jjtree.closeNodeScope(jjtn006, 1); } } /*@egen*/ ) // If annotations start the expression, it's necessarily a method or ctor reference // This is because types in class literals or in qualified super/this may not be annotated | LOOKAHEAD("@") AnnotatedRefType() MethodReference() | LOOKAHEAD(LambdaLahead()) LambdaExpression() // Parenthesized expr, we need to adjust start/end tokens | "(" {savedStart = getToken(0);} Expression() ")" { AstImplUtil.bumpParenDepth((ASTExpression) jjtree.peekNode()); AbstractJavaNode top = (AbstractJavaNode) jjtree.peekNode(); top.setFirstToken(savedStart); top.setLastToken(getToken(0)); } // If it is an ambiguous name, then we may go on // into the next step, which is less restricted // than PrimarySuffix | AmbiguousName() [ LOOKAHEAD(Step2Lahead()) PrimaryStep2() ] } // This describes the cases where the PrimaryPrefix may fall // into PrimaryStep2, after seeing an AmbiguousName. Notice // that type arguments is still possible, as well as annotations // ("@") before an annotated array type, or qualified "this". // If we are in an explicit constructor invocation, then super is disallowed. private void Step2Lahead() : {} { "::" | "(" | "@" | "[" // the type arguments must be followed by what may complete a class type + method ref // otherwise we choke on eg `i < w >> 1`, because `< w >` matches type arguments | TypeArguments() ("[" | "." | "@" | "::") | LOOKAHEAD({!inExplicitConstructorInvoc}) "." | LOOKAHEAD({inExplicitConstructorInvoc}) "." ("class" | | TypeArguments() | "new" | "this") // not super in this case } private void SuffixLAhead() : {} { // this is simpler than the step 2 lookahead "::" | "[" | LOOKAHEAD({!inExplicitConstructorInvoc}) "." | LOOKAHEAD({inExplicitConstructorInvoc}) "." ( | TypeArguments() | "new") // not super or this in this case } // Step right after the *first* ambiguous name if any. // Then we have more options than a primary suffix, // we can still expect to have some class type and a // class literal, or some type arguments and a method reference void PrimaryStep2() : {} { // If we find type parameters, then we can only expect a method reference // class literals or qualifiers to static member access/call may not be parameterised {forceTypeContext();} TypeArguments() {injectTop();} ( "." ClassTypeSegment() )* [/*@bgen(jjtree) #ArrayType( 2) */ { ASTArrayType jjtn001 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ Dims()/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ ] MethodReference() | MethodReference() |/*@bgen(jjtree) #MethodCall( 2) */ { ASTMethodCall jjtn002 = new ASTMethodCall(JJTMETHODCALL); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ ArgumentList()/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, 2); } } /*@egen*/ | "." ( {forceTypeContext();}/*@bgen(jjtree) #ClassLiteral( 1) */ { ASTClassLiteral jjtn003 = new ASTClassLiteral(JJTCLASSLITERAL); boolean jjtc003 = true; jjtree.openNodeScope(jjtn003); } try { /*@egen*/ "class"/*@bgen(jjtree)*/ } finally { if (jjtc003) { jjtree.closeNodeScope(jjtn003, 1); } } /*@egen*/ // qualified this or super | {forceTypeContext();}/*@bgen(jjtree) #ThisExpression( 1) */ { ASTThisExpression jjtn004 = new ASTThisExpression(JJTTHISEXPRESSION); boolean jjtc004 = true; jjtree.openNodeScope(jjtn004); } try { /*@egen*/ "this"/*@bgen(jjtree)*/ } finally { if (jjtc004) { jjtree.closeNodeScope(jjtn004, 1); } } /*@egen*/ | {forceTypeContext();}/*@bgen(jjtree) #SuperExpression( 1) */ { ASTSuperExpression jjtn005 = new ASTSuperExpression(JJTSUPEREXPRESSION); boolean jjtc005 = true; jjtree.openNodeScope(jjtn005); } try { /*@egen*/ "super"/*@bgen(jjtree)*/ } finally { if (jjtc005) { jjtree.closeNodeScope(jjtn005, 1); } } /*@egen*/ // here we force the super to be followed by something, // "super" alone is not a valid expression ("." MemberSelector() | MethodReference()) | MemberSelector() | {forceExprContext();}/*@bgen(jjtree) #TemplateExpression( 2) */ { ASTTemplateExpression jjtn006 = new ASTTemplateExpression(JJTTEMPLATEEXPRESSION); boolean jjtc006 = true; jjtree.openNodeScope(jjtn006); } try { /*@egen*/ Template()/*@bgen(jjtree)*/ } catch (Throwable jjte006) { if (jjtc006) { jjtree.clearNodeScope(jjtn006); jjtc006 = false; } else { jjtree.popNode(); } if (jjte006 instanceof RuntimeException) { throw (RuntimeException)jjte006; } if (jjte006 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte006; } throw (Error)jjte006; } finally { if (jjtc006) { jjtree.closeNodeScope(jjtn006, 2); } } /*@egen*/ ) // catches the case where the ambig name is the start of an array type | LOOKAHEAD("@" | "[" "]") {forceTypeContext();}/*@bgen(jjtree) #ArrayType( 2) */ { ASTArrayType jjtn007 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc007 = true; jjtree.openNodeScope(jjtn007); } try { /*@egen*/ Dims()/*@bgen(jjtree)*/ } catch (Throwable jjte007) { if (jjtc007) { jjtree.clearNodeScope(jjtn007); jjtc007 = false; } else { jjtree.popNode(); } if (jjte007 instanceof RuntimeException) { throw (RuntimeException)jjte007; } if (jjte007 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte007; } throw (Error)jjte007; } finally { if (jjtc007) { jjtree.closeNodeScope(jjtn007, 2); } } /*@egen*/ (MethodReference() | "."/*@bgen(jjtree) #ClassLiteral( 1) */ { ASTClassLiteral jjtn008 = new ASTClassLiteral(JJTCLASSLITERAL); boolean jjtc008 = true; jjtree.openNodeScope(jjtn008); } try { /*@egen*/ "class"/*@bgen(jjtree)*/ } finally { if (jjtc008) { jjtree.closeNodeScope(jjtn008, 1); } } /*@egen*/ ) // and here, the array expr in an array access | {forceExprContext();} "[" Expression()/*@bgen(jjtree) #ArrayAccess( 2) */ { ASTArrayAccess jjtn009 = new ASTArrayAccess(JJTARRAYACCESS); boolean jjtc009 = true; jjtree.openNodeScope(jjtn009); } try { /*@egen*/ "]"/*@bgen(jjtree)*/ } finally { if (jjtc009) { jjtree.closeNodeScope(jjtn009, 2); } } /*@egen*/ } /** * Productions that may be present after a PrimaryPrefix. Basically * allows for call chains. We loop on this production in PrimaryExpression. */ void PrimarySuffix() : {} { MethodReference() | {forceExprContext();} "[" Expression()/*@bgen(jjtree) #ArrayAccess( 2) */ { ASTArrayAccess jjtn001 = new ASTArrayAccess(JJTARRAYACCESS); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ "]"/*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 2); } } /*@egen*/ | "." MemberSelector() } /** * Part of a primary suffix that immediately follows a dot. Also * part of step 2. */ void MemberSelector() : {} { /* JLS \u00a76.5.1: * A name is syntactically classified as an ExpressionName [...] as the * qualifying expression in a qualified class instance creation expression (\u00a715.9)* */ {forceExprContext();} QualifiedAllocationExpr() // if there are type arguments, this is a method call |/*@bgen(jjtree) #MethodCall( 3) */ { ASTMethodCall jjtn001 = new ASTMethodCall(JJTMETHODCALL); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ (TypeArguments() {setLastTokenImage(jjtn001);} ArgumentList())/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, 3); } } /*@egen*/ | LOOKAHEAD(2)/*@bgen(jjtree) #MethodCall( 2) */ { ASTMethodCall jjtn002 = new ASTMethodCall(JJTMETHODCALL); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ ( {setLastTokenImage(jjtn002);} ArgumentList())/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, 2); } } /*@egen*/ |/*@bgen(jjtree) #FieldAccess( 1) */ { ASTFieldAccess jjtn003 = new ASTFieldAccess(JJTFIELDACCESS); boolean jjtc003 = true; jjtree.openNodeScope(jjtn003); } try { /*@egen*/ (/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn003, 1); jjtc003 = false; } /*@egen*/ {setLastTokenImage(jjtn003);})/*@bgen(jjtree)*/ } finally { if (jjtc003) { jjtree.closeNodeScope(jjtn003, 1); } } /*@egen*/ } void MethodReference() : // LHS is injected {/*@bgen(jjtree) #MethodReference( jjtree . nodeArity ( ) + 1) */ ASTMethodReference jjtn000 = new ASTMethodReference(JJTMETHODREFERENCE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) #MethodReference( jjtree . nodeArity ( ) + 1) */ try { /*@egen*/ "::" [TypeArguments()] ( "new" | ) { jjtn000.setMethodName(getToken(0).getImage()); }/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, jjtree . nodeArity ( ) + 1); jjtc000 = false; } /*@egen*/ {/* empty, to set the image before jjtClose */}/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, jjtree . nodeArity ( ) + 1); } } /*@egen*/ } // This factorises the lookahead for a lambda expression // It's necessary because in all contexts a lambda may appear in, // the arguments could be interpreted as a variable reference, // or the start of a parenthesized expression private void LambdaLahead() : {} { LOOKAHEAD({!inSwitchLabel}) LambdaParameterList() "->" } // Lambda expressions are not a PrimaryExpression in the JLS, instead they're // separated from the AssignmentExpression production. Their use is restricted // to method and constructor call argument, cast operand, the RHS of assignments, // and the tail of a ternary expression // https://docs.oracle.com/javase/specs/jls/se9/html/jls-15.html#jls-15.27 // // To prevent LambdaExpressions in switch labels, the field #inSwitchLabel is used // as a workaround. void LambdaExpression(): {/*@bgen(jjtree) LambdaExpression */ ASTLambdaExpression jjtn000 = new ASTLambdaExpression(JJTLAMBDAEXPRESSION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/ } {/*@bgen(jjtree) LambdaExpression */ try { /*@egen*/ LambdaParameterList() "->" ( Expression() | Block() )/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void LambdaParameterList(): {/*@bgen(jjtree) LambdaParameterList */ ASTLambdaParameterList jjtn000 = new ASTLambdaParameterList(JJTLAMBDAPARAMETERLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) LambdaParameterList */ try { /*@egen*/ SimpleLambdaParam() | LOOKAHEAD("(" ("," | ")")) "(" [ SimpleLambdaParam() ( "," SimpleLambdaParam())* ] ")" | "(" [ LambdaParameter() ( "," LambdaParameter() )* ] ")"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void SimpleLambdaParam() : {/*@bgen(jjtree) LambdaParameter */ ASTLambdaParameter jjtn000 = new ASTLambdaParameter(JJTLAMBDAPARAMETER); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/pushEmptyModifierList();} {/*@bgen(jjtree) LambdaParameter */ try { /*@egen*/ VariableDeclaratorId()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void LambdaParameter(): {/*@bgen(jjtree) LambdaParameter */ ASTLambdaParameter jjtn000 = new ASTLambdaParameter(JJTLAMBDAPARAMETER); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) LambdaParameter */ try { /*@egen*/ LocalVarModifierList() // this weakens the grammar a bit [ LambdaParameterType() ] VariableIdWithDims()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } /** Returns true if this is "var". */ boolean LambdaParameterType() : {} { LOOKAHEAD( { jdkVersion >= 11 && isKeyword("var") } ) { return true; } | FormalParamType() { return false; } } void Template() : {/*@bgen(jjtree) Template */ ASTTemplate jjtn000 = new ASTTemplate(JJTTEMPLATE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) Template */ try { /*@egen*/ StringTemplate() | TextBlockTemplate() |/*@bgen(jjtree) TemplateFragment */ { ASTTemplateFragment jjtn001 = new ASTTemplateFragment(JJTTEMPLATEFRAGMENT); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ /*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ |/*@bgen(jjtree) TemplateFragment */ { ASTTemplateFragment jjtn002 = new ASTTemplateFragment(JJTTEMPLATEFRAGMENT); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ /*@bgen(jjtree)*/ } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, true); } } /*@egen*/ /*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void StringTemplate() : {} {/*@bgen(jjtree) TemplateFragment */ { ASTTemplateFragment jjtn001 = new ASTTemplateFragment(JJTTEMPLATEFRAGMENT); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ /*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ EmbeddedExpression() (LOOKAHEAD(2)/*@bgen(jjtree) TemplateFragment */ { ASTTemplateFragment jjtn002 = new ASTTemplateFragment(JJTTEMPLATEFRAGMENT); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ ( )/*@bgen(jjtree)*/ } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, true); } } /*@egen*/ EmbeddedExpression() )*/*@bgen(jjtree) TemplateFragment */ { ASTTemplateFragment jjtn003 = new ASTTemplateFragment(JJTTEMPLATEFRAGMENT); boolean jjtc003 = true; jjtree.openNodeScope(jjtn003); } try { /*@egen*/ ( )/*@bgen(jjtree)*/ } finally { if (jjtc003) { jjtree.closeNodeScope(jjtn003, true); } } /*@egen*/ } void TextBlockTemplate() : {} {/*@bgen(jjtree) TemplateFragment */ { ASTTemplateFragment jjtn001 = new ASTTemplateFragment(JJTTEMPLATEFRAGMENT); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ /*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ EmbeddedExpression() (LOOKAHEAD(2)/*@bgen(jjtree) TemplateFragment */ { ASTTemplateFragment jjtn002 = new ASTTemplateFragment(JJTTEMPLATEFRAGMENT); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ ( )/*@bgen(jjtree)*/ } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, true); } } /*@egen*/ EmbeddedExpression() )*/*@bgen(jjtree) TemplateFragment */ { ASTTemplateFragment jjtn003 = new ASTTemplateFragment(JJTTEMPLATEFRAGMENT); boolean jjtc003 = true; jjtree.openNodeScope(jjtn003); } try { /*@egen*/ ( )/*@bgen(jjtree)*/ } finally { if (jjtc003) { jjtree.closeNodeScope(jjtn003, true); } } /*@egen*/ } void EmbeddedExpression() : {} { [ Expression() ] } void Literal() : {} { NumericLiteral() | StringLiteral() | CharLiteral() |/*@bgen(jjtree) BooleanLiteral */ { ASTBooleanLiteral jjtn001 = new ASTBooleanLiteral(JJTBOOLEANLITERAL); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ("true"/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn001, true); jjtc001 = false; } /*@egen*/ { jjtn001.setTrue(); } | "false")/*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ |/*@bgen(jjtree) NullLiteral */ { ASTNullLiteral jjtn002 = new ASTNullLiteral(JJTNULLLITERAL); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ "null"/*@bgen(jjtree)*/ } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, true); } } /*@egen*/ } void NumericLiteral(): {/*@bgen(jjtree) NumericLiteral */ ASTNumericLiteral jjtn000 = new ASTNumericLiteral(JJTNUMERICLITERAL); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) NumericLiteral */ try { /*@egen*/ ( { jjtn000.setIntLiteral(); } | { jjtn000.setFloatLiteral(); } )/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ { setLastTokenImage(jjtn000); }/*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void CharLiteral(): {/*@bgen(jjtree) CharLiteral */ ASTCharLiteral jjtn000 = new ASTCharLiteral(JJTCHARLITERAL); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) CharLiteral */ try { /*@egen*/ /*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ { setLastTokenImage(jjtn000); }/*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void StringLiteral(): {/*@bgen(jjtree) StringLiteral */ ASTStringLiteral jjtn000 = new ASTStringLiteral(JJTSTRINGLITERAL); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) StringLiteral */ try { /*@egen*/ ( | { jjtn000.setTextBlock(); } )/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ { setLastTokenImage(jjtn000); }/*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ArgumentList() : {/*@bgen(jjtree) ArgumentList */ ASTArgumentList jjtn000 = new ASTArgumentList(JJTARGUMENTLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ArgumentList */ try { /*@egen*/ "(" [ Expression() ( "," Expression() )* ] ")"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } // more straightforward because can't be an array creation expr void QualifiedAllocationExpr() : {/*@bgen(jjtree) #ConstructorCall( jjtree . nodeArity ( ) + 1) */ ASTConstructorCall jjtn000 = new ASTConstructorCall(JJTCONSTRUCTORCALL); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) #ConstructorCall( jjtree . nodeArity ( ) + 1) */ try { /*@egen*/ "new" [ TypeArguments() ] AnnotatedClassOrInterfaceType() ArgumentList() [ AnonymousClassDeclaration() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, jjtree . nodeArity ( ) + 1); } } /*@egen*/ } void AnonymousClassDeclaration(): {/*@bgen(jjtree) AnonymousClassDeclaration */ ASTAnonymousClassDeclaration jjtn000 = new ASTAnonymousClassDeclaration(JJTANONYMOUSCLASSDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/ pushEmptyModifierList(); } {/*@bgen(jjtree) AnonymousClassDeclaration */ try { /*@egen*/ ClassOrInterfaceBody()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } // this is much weaker than the JLS but since we parse compilable code // the actual terms we get respect the JLS. // only used in PrimaryPrefix void UnqualifiedAllocationExpr() : { boolean isArrayInit=false; } {/*@bgen(jjtree) #ConstructorCall( ! isArrayInit) */ { ASTConstructorCall jjtn002 = new ASTConstructorCall(JJTCONSTRUCTORCALL); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ (/*@bgen(jjtree) #ArrayAllocation( isArrayInit) */ { ASTArrayAllocation jjtn001 = new ASTArrayAllocation(JJTARRAYALLOCATION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ( "new" [ TypeArguments() ] TypeAnnotationList() ( PrimitiveType() ArrayDimsAndInits(){isArrayInit=true;} | ClassOrInterfaceType() ( ArrayDimsAndInits() {isArrayInit=true;} | ArgumentList() [ AnonymousClassDeclaration() ] ) )/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn001, isArrayInit); jjtc001 = false; } /*@egen*/ {/*Empty unit, important*/} )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, isArrayInit); } } /*@egen*/ )/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, ! isArrayInit); } } /*@egen*/ } /* * The array dimensions are appended to the array type and they're both * enclosed into an ArrayType node. */ void ArrayDimsAndInits() : {} { LOOKAHEAD(TypeAnnotationList() "[" "]" )/*@bgen(jjtree) #ArrayType( 2) */ { ASTArrayType jjtn002 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ (/*@bgen(jjtree) ArrayDimensions */ { ASTArrayDimensions jjtn001 = new ASTArrayDimensions(JJTARRAYDIMENSIONS); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/((ArrayTypeDim())+)/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ )/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, 2); } } /*@egen*/ [ ArrayInitializer() ] |/*@bgen(jjtree) #ArrayType( 2) */ { ASTArrayType jjtn004 = new ASTArrayType(JJTARRAYTYPE); boolean jjtc004 = true; jjtree.openNodeScope(jjtn004); } try { /*@egen*/ (/*@bgen(jjtree) ArrayDimensions */ { ASTArrayDimensions jjtn003 = new ASTArrayDimensions(JJTARRAYDIMENSIONS); boolean jjtc003 = true; jjtree.openNodeScope(jjtn003); } try { /*@egen*/ (ArrayDimExpr())+/*@bgen(jjtree)*/ } catch (Throwable jjte003) { if (jjtc003) { jjtree.clearNodeScope(jjtn003); jjtc003 = false; } else { jjtree.popNode(); } if (jjte003 instanceof RuntimeException) { throw (RuntimeException)jjte003; } if (jjte003 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte003; } throw (Error)jjte003; } finally { if (jjtc003) { jjtree.closeNodeScope(jjtn003, true); } } /*@egen*/ )/*@bgen(jjtree)*/ } catch (Throwable jjte004) { if (jjtc004) { jjtree.clearNodeScope(jjtn004); jjtc004 = false; } else { jjtree.popNode(); } if (jjte004 instanceof RuntimeException) { throw (RuntimeException)jjte004; } if (jjte004 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte004; } throw (Error)jjte004; } finally { if (jjtc004) { jjtree.closeNodeScope(jjtn004, 2); } } /*@egen*/ } // may push either an ArrayDimExpr or ArrayTypeDim void ArrayDimExpr() : {boolean hasExpr=false;} {/*@bgen(jjtree) #ArrayTypeDim( ! hasExpr) */ { ASTArrayTypeDim jjtn002 = new ASTArrayTypeDim(JJTARRAYTYPEDIM); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ (/*@bgen(jjtree) #ArrayDimExpr( hasExpr) */ { ASTArrayDimExpr jjtn001 = new ASTArrayDimExpr(JJTARRAYDIMEXPR); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/(TypeAnnotListNoInject() "[" [ Expression() {hasExpr=true;} ] "]")/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, hasExpr); } } /*@egen*/ )/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, ! hasExpr); } } /*@egen*/ } /* * Statement syntax follows. */ void Statement() : {} { StatementNoIdent() // testing the hard cases last optimises the code gen // all the previous cases are trivial for the parser // because they start with a different token | LOOKAHEAD( { isYieldStart() } ) YieldStatement() | LOOKAHEAD( { isAssertStart() } ) AssertStatement() | LOOKAHEAD(2) LabeledStatement() |/*@bgen(jjtree) ExpressionStatement */ { ASTExpressionStatement jjtn001 = new ASTExpressionStatement(JJTEXPRESSIONSTATEMENT); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ( StatementExpression() ";" )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ } void StatementNoIdent() : {} { Block() | EmptyStatement() | SwitchStatement() | IfStatement() | WhileStatement() | DoStatement() | ForStatement() | BreakStatement() | ContinueStatement() | ReturnStatement() | ThrowStatement() | SynchronizedStatement() | TryStatement() } void LabeledStatement() : {/*@bgen(jjtree) LabeledStatement */ ASTLabeledStatement jjtn000 = new ASTLabeledStatement(JJTLABELEDSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) LabeledStatement */ try { /*@egen*/ { setLastTokenImage(jjtn000); } ":" Statement()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void Block() : {/*@bgen(jjtree) Block */ ASTBlock jjtn000 = new ASTBlock(JJTBLOCK); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) Block */ try { /*@egen*/ "{" ( BlockStatement() )* "}"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void BlockStatement() : {} // Note: this has been written this way to minimize lookaheads // This generates a table switch with very few lookaheads { LOOKAHEAD(1, "@" | "final" ) // this eagerly parses all modifiers and annotations. After that, either a local type declaration // or a local variable declaration follows. // This allows more modifiers for local variables than actually allowed // The ModifierList is adopted by the next node to open ModifierList() ( LOOKAHEAD({localTypeDeclAfterModifiers()}) LocalTypeDecl() | LOOKAHEAD({true}) LocalVariableDeclarationPendingModifiers() ";" { fixLastToken(); } ) | LOOKAHEAD(1, ) ( LOOKAHEAD({ localTypeDeclGivenNextIsIdent() }) ModifierList() LocalTypeDecl() | LOOKAHEAD({ isAssertStart() }) AssertStatement() | LOOKAHEAD({ isYieldStart() }) YieldStatement() | LOOKAHEAD({ getToken(2).kind == COLON }) LabeledStatement() | LOOKAHEAD(ReferenceType() ) LocalVariableDeclaration() ";" { fixLastToken(); } | LOOKAHEAD({true}) ExpressionStatement() ) | LOOKAHEAD(1, LocalTypeStartNoIdent()) ModifierList() LocalTypeDecl() | LOOKAHEAD(1) StatementNoIdent() | LOOKAHEAD(Type() ) LocalVariableDeclaration() ";" { fixLastToken(); } | LOOKAHEAD({true}) ExpressionStatement() } private void LocalTypeStartNoIdent() : // A lookahead {} { // notice: not default, not synchronized, not final "public" | "static" | "protected" | "private" | "abstract" | "native" | "transient" | "volatile" | "strictfp" | "class" | "interface" } void LocalTypeDecl() : {} // At the point this is called, a ModifierList is on the top of the stack, { // waiting for the next node to open. We want that node to be the type declaration, // not the wrapper statement node. ( ClassOrInterfaceDeclaration() | LOOKAHEAD({isKeyword("record")}) RecordDeclaration() | LOOKAHEAD({isKeyword("enum")}) EnumDeclaration() ) { // Wrap the type decl into a statement // This can't be done with regular jjtree constructs, as the ModifierList // is adopted by the first node to be opened. ASTTypeDeclaration type = (ASTTypeDeclaration) jjtree.popNode(); ASTLocalClassStatement stmt = new ASTLocalClassStatement(type); jjtree.pushNode(stmt); } } /* * See https://docs.oracle.com/javase/specs/jls/se10/html/jls-14.html#jls-14.4 */ void LocalVariableDeclaration() : {/*@bgen(jjtree) LocalVariableDeclaration */ ASTLocalVariableDeclaration jjtn000 = new ASTLocalVariableDeclaration(JJTLOCALVARIABLEDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) LocalVariableDeclaration */ try { /*@egen*/ LocalVarModifierList() LocalVariableType() VariableDeclarator() ( "," VariableDeclarator() )*/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void LocalVariableDeclarationPendingModifiers() : {/*@bgen(jjtree) LocalVariableDeclaration */ ASTLocalVariableDeclaration jjtn000 = new ASTLocalVariableDeclaration(JJTLOCALVARIABLEDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) LocalVariableDeclaration */ try { /*@egen*/ // no ModifierList, it's pending at this time LocalVariableType() VariableDeclarator() ( "," VariableDeclarator() )*/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } private void LocalVarModifierList() : {/*@bgen(jjtree) ModifierList */ ASTModifierList jjtn000 = new ASTModifierList(JJTMODIFIERLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/Set set = Collections.emptySet(); } {/*@bgen(jjtree) ModifierList */ try { /*@egen*/ ( "final" { set = ASTModifierList.JUST_FINAL; } | Annotation() )*/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {jjtn000.setDeclaredModifiers(set);}/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void LocalVariableType() : {} { LOOKAHEAD( { jdkVersion >= 10 && isKeyword("var") } ) | Type() } void EmptyStatement() : {/*@bgen(jjtree) EmptyStatement */ ASTEmptyStatement jjtn000 = new ASTEmptyStatement(JJTEMPTYSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) EmptyStatement */ try { /*@egen*/ ";"/*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void EmptyDeclaration() : {/*@bgen(jjtree) EmptyDeclaration */ ASTEmptyDeclaration jjtn000 = new ASTEmptyDeclaration(JJTEMPTYDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) EmptyDeclaration */ try { /*@egen*/ ";"/*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ExpressionStatement(): {/*@bgen(jjtree) ExpressionStatement */ ASTExpressionStatement jjtn000 = new ASTExpressionStatement(JJTEXPRESSIONSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ExpressionStatement */ try { /*@egen*/ StatementExpression() ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void StatementExpression() : {AssignmentOp op = null;} { PrefixIncrementExpression() |/*@bgen(jjtree) #AssignmentExpression(> 1) */ { ASTAssignmentExpression jjtn001 = new ASTAssignmentExpression(JJTASSIGNMENTEXPRESSION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ // using PostfixExpression here allows us to skip the part of the production tree // between Expression() and PostfixExpression() (PostfixExpression() [ op=AssignmentOperator() {jjtn001.setOp(op);} Expression() ])/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, jjtree.nodeArity() > 1); } } /*@egen*/ } void SwitchStatement(): {/*@bgen(jjtree) SwitchStatement */ ASTSwitchStatement jjtn000 = new ASTSwitchStatement(JJTSWITCHSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) SwitchStatement */ try { /*@egen*/ "switch" "(" Expression() ")" SwitchBlock()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void SwitchBlock() : {} { "{" ( LOOKAHEAD(SwitchLabel() ":") (SwitchFallthroughBranch())+ | (SwitchArrowBranch())* ) "}" } void SwitchArrowBranch(): {/*@bgen(jjtree) SwitchArrowBranch */ ASTSwitchArrowBranch jjtn000 = new ASTSwitchArrowBranch(JJTSWITCHARROWBRANCH); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) SwitchArrowBranch */ try { /*@egen*/ SwitchLabel() "->" (Expression() ";" | Block() | ThrowStatement())/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void SwitchFallthroughBranch(): {/*@bgen(jjtree) SwitchFallthroughBranch */ ASTSwitchFallthroughBranch jjtn000 = new ASTSwitchFallthroughBranch(JJTSWITCHFALLTHROUGHBRANCH); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) SwitchFallthroughBranch */ try { /*@egen*/ SwitchLabel() ":" // the lookahead is to prevent choosing BlockStatement when the token is "default", // which could happen as local class declarations accept the "default" modifier. (LOOKAHEAD({shouldStartStatementInSwitch()}) BlockStatement() )*/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void SwitchLabel() : {/*@bgen(jjtree) SwitchLabel */ ASTSwitchLabel jjtn000 = new ASTSwitchLabel(JJTSWITCHLABEL); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) SwitchLabel */ try { /*@egen*/ { inSwitchLabel = true; } ( "case" CaseLabelElement(jjtn000) ( "," CaseLabelElement(jjtn000) )* | "default" {jjtn000.setDefault();} )/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ { inSwitchLabel = false; }/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void CaseLabelElement(ASTSwitchLabel label) : {} {/*@bgen(jjtree) NullLiteral */ { ASTNullLiteral jjtn001 = new ASTNullLiteral(JJTNULLLITERAL); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ "null"/*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ [ "," "default" {label.setDefault();} ] | LOOKAHEAD(Pattern()) CasePattern() [ LOOKAHEAD({isKeyword("when")}) Guard() ] | CaseConstant() } void CaseConstant() : {} { ConditionalExpression() } void CasePattern() : {} { Pattern() } void Guard() : {/*@bgen(jjtree) Guard */ ASTGuard jjtn000 = new ASTGuard(JJTGUARD); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) Guard */ try { /*@egen*/ softKeyword("when") Expression()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void YieldStatement() : {/*@bgen(jjtree) YieldStatement */ ASTYieldStatement jjtn000 = new ASTYieldStatement(JJTYIELDSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/ } {/*@bgen(jjtree) YieldStatement */ try { /*@egen*/ Expression() ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void IfStatement() : /* * The disambiguating algorithm of JavaCC automatically binds dangling * else's to the innermost if statement. The LOOKAHEAD specification * is to tell JavaCC that we know what we are doing. */ {/*@bgen(jjtree) IfStatement */ ASTIfStatement jjtn000 = new ASTIfStatement(JJTIFSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) IfStatement */ try { /*@egen*/ "if" "(" Expression() ")" Statement() [ LOOKAHEAD(1) "else" {jjtn000.setHasElse();} Statement() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void WhileStatement() : {/*@bgen(jjtree) WhileStatement */ ASTWhileStatement jjtn000 = new ASTWhileStatement(JJTWHILESTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) WhileStatement */ try { /*@egen*/ "while" "(" Expression() ")" Statement()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void DoStatement() : {/*@bgen(jjtree) DoStatement */ ASTDoStatement jjtn000 = new ASTDoStatement(JJTDOSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) DoStatement */ try { /*@egen*/ "do" Statement() "while" "(" Expression() ")" ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ForStatement() : {JavaccToken t;} { t="for" "(" ( LOOKAHEAD(EnhancedForDeclaration() ":")/*@bgen(jjtree) ForeachStatement */ { ASTForeachStatement jjtn001 = new ASTForeachStatement(JJTFOREACHSTATEMENT); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ (EnhancedForDeclaration() ":" Expression() ")" Statement()/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn001, true); jjtc001 = false; } /*@egen*/ { jjtn001.setFirstToken(t); })/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ |/*@bgen(jjtree) ForStatement */ { ASTForStatement jjtn002 = new ASTForStatement(JJTFORSTATEMENT); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ ( [ ForInit() ] ";" [ Expression() ] ";" [ ForUpdate() ] ")" Statement()/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn002, true); jjtc002 = false; } /*@egen*/ { jjtn002.setFirstToken(t); } )/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, true); } } /*@egen*/ ) } void EnhancedForDeclaration() : {} { LocalVariableDeclaration() } void ForInit() : {/*@bgen(jjtree) ForInit */ ASTForInit jjtn000 = new ASTForInit(JJTFORINIT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ForInit */ try { /*@egen*/ LOOKAHEAD( LocalVariableDeclaration() ) LocalVariableDeclaration() | StatementExpressionList()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void StatementExpressionList() : {/*@bgen(jjtree) StatementExpressionList */ ASTStatementExpressionList jjtn000 = new ASTStatementExpressionList(JJTSTATEMENTEXPRESSIONLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) StatementExpressionList */ try { /*@egen*/ StatementExpression() ( "," StatementExpression() )*/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ForUpdate() : {/*@bgen(jjtree) ForUpdate */ ASTForUpdate jjtn000 = new ASTForUpdate(JJTFORUPDATE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ForUpdate */ try { /*@egen*/ StatementExpressionList()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void BreakStatement() : {/*@bgen(jjtree) BreakStatement */ ASTBreakStatement jjtn000 = new ASTBreakStatement(JJTBREAKSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) BreakStatement */ try { /*@egen*/ "break" [ { setLastTokenImage(jjtn000); } ] ";"/*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ContinueStatement() : {/*@bgen(jjtree) ContinueStatement */ ASTContinueStatement jjtn000 = new ASTContinueStatement(JJTCONTINUESTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ContinueStatement */ try { /*@egen*/ "continue" [ { setLastTokenImage(jjtn000); } ] ";"/*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ReturnStatement() : {/*@bgen(jjtree) ReturnStatement */ ASTReturnStatement jjtn000 = new ASTReturnStatement(JJTRETURNSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ReturnStatement */ try { /*@egen*/ "return" [ Expression() ] ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ThrowStatement() : {/*@bgen(jjtree) ThrowStatement */ ASTThrowStatement jjtn000 = new ASTThrowStatement(JJTTHROWSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ThrowStatement */ try { /*@egen*/ "throw" Expression() ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void SynchronizedStatement() : {/*@bgen(jjtree) SynchronizedStatement */ ASTSynchronizedStatement jjtn000 = new ASTSynchronizedStatement(JJTSYNCHRONIZEDSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) SynchronizedStatement */ try { /*@egen*/ "synchronized" "(" Expression() ")" Block()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void TryStatement() : /* * Semantic check required here to make sure that at least one * resource/finally/catch is present. */ {/*@bgen(jjtree) TryStatement */ ASTTryStatement jjtn000 = new ASTTryStatement(JJTTRYSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) TryStatement */ try { /*@egen*/ "try" (ResourceList())? Block() ( CatchClause() )* [ FinallyClause() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ResourceList(): {/*@bgen(jjtree) ResourceList */ ASTResourceList jjtn000 = new ASTResourceList(JJTRESOURCELIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ResourceList */ try { /*@egen*/ "(" Resource() (LOOKAHEAD(2) ";" Resource())* (";" {jjtn000.setTrailingSemi();})? ")"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void Resource() : {/*@bgen(jjtree) Resource */ ASTResource jjtn000 = new ASTResource(JJTRESOURCE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) Resource */ try { /*@egen*/ LOOKAHEAD(("final" | Annotation())* LocalVariableType() VariableDeclaratorId() "=" )/*@bgen(jjtree) LocalVariableDeclaration */ { ASTLocalVariableDeclaration jjtn001 = new ASTLocalVariableDeclaration(JJTLOCALVARIABLEDECLARATION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ( LocalVarModifierList() LocalVariableType() VariableDeclarator() )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ | PrimaryExpression() { Node top = jjtree.peekNode(); if (!(top instanceof ASTVariableAccess || top instanceof ASTFieldAccess || top instanceof ASTThisExpression)) throwParseException("Expected a variable or field access, but was a " + top.getXPathNodeName()); }/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ {}/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void CatchClause() : {/*@bgen(jjtree) CatchClause */ ASTCatchClause jjtn000 = new ASTCatchClause(JJTCATCHCLAUSE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) CatchClause */ try { /*@egen*/ "catch" "(" CatchParameter() ")" Block()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void CatchParameter(): {/*@bgen(jjtree) CatchParameter */ ASTCatchParameter jjtn000 = new ASTCatchParameter(JJTCATCHPARAMETER); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/boolean multi=false;} {/*@bgen(jjtree) CatchParameter */ try { /*@egen*/ LocalVarModifierList()/*@bgen(jjtree) #UnionType( multi) */ { ASTUnionType jjtn001 = new ASTUnionType(JJTUNIONTYPE); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ( AnnotatedClassOrInterfaceType() ( "|" AnnotatedClassOrInterfaceType() {multi=true;} )* )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, multi); } } /*@egen*/ VariableDeclaratorId()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void FinallyClause() : {/*@bgen(jjtree) FinallyClause */ ASTFinallyClause jjtn000 = new ASTFinallyClause(JJTFINALLYCLAUSE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) FinallyClause */ try { /*@egen*/ "finally" Block()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void AssertStatement() : {/*@bgen(jjtree) AssertStatement */ ASTAssertStatement jjtn000 = new ASTAssertStatement(JJTASSERTSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) AssertStatement */ try { /*@egen*/ Expression() [ ":" Expression() ] ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } /* We use productions to match >>>, >> and > so that we can keep the * type declaration syntax with generics clean */ void RUNSIGNEDSHIFT() : {} { LOOKAHEAD({ JavaTokenDocumentBehavior.getRealKind(getToken(1)) == RUNSIGNEDSHIFT}) ">" ">" ">" } void RSIGNEDSHIFT() : {} { LOOKAHEAD({ JavaTokenDocumentBehavior.getRealKind(getToken(1)) == RSIGNEDSHIFT}) ">" ">" } /* Annotation syntax follows. */ void Annotation(): {/*@bgen(jjtree) Annotation */ ASTAnnotation jjtn000 = new ASTAnnotation(JJTANNOTATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) Annotation */ try { /*@egen*/ "@" ClassName() [ AnnotationMemberList() ]/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void AnnotationMemberList(): {/*@bgen(jjtree) AnnotationMemberList */ ASTAnnotationMemberList jjtn000 = new ASTAnnotationMemberList(JJTANNOTATIONMEMBERLIST); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) AnnotationMemberList */ try { /*@egen*/ "(" ( LOOKAHEAD( "=") MemberValuePair() ( "," MemberValuePair() )* | [ ShorthandAnnotationValue() ] ) ")"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ShorthandAnnotationValue() : {/*@bgen(jjtree) MemberValuePair */ ASTMemberValuePair jjtn000 = new ASTMemberValuePair(JJTMEMBERVALUEPAIR); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/ jjtn000.setImage("value"); jjtn000.setShorthand(); } {/*@bgen(jjtree) MemberValuePair */ try { /*@egen*/ MemberValue()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void MemberValuePair(): {/*@bgen(jjtree) MemberValuePair */ ASTMemberValuePair jjtn000 = new ASTMemberValuePair(JJTMEMBERVALUEPAIR); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) MemberValuePair */ try { /*@egen*/ { setLastTokenImage(jjtn000); } "=" MemberValue()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void MemberValue() : {} { Annotation() | MemberValueArrayInitializer() | ConditionalExpression() // Constant expression } void MemberValueArrayInitializer(): {/*@bgen(jjtree) MemberValueArrayInitializer */ ASTMemberValueArrayInitializer jjtn000 = new ASTMemberValueArrayInitializer(JJTMEMBERVALUEARRAYINITIALIZER); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) MemberValueArrayInitializer */ try { /*@egen*/ "{" (MemberValue() ( LOOKAHEAD(2) "," MemberValue() )*)? [ "," ] "}"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } /* * We use that ghost production to factorise the check for JDK >= 1.8. */ void TypeAnnotation() : {} { Annotation() } /* Annotation Types. */ void AnnotationTypeDeclaration(): {/*@bgen(jjtree) AnnotationTypeDeclaration */ ASTAnnotationTypeDeclaration jjtn000 = new ASTAnnotationTypeDeclaration(JJTANNOTATIONTYPEDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) AnnotationTypeDeclaration */ try { /*@egen*/ "@" "interface" { jjtn000.setSimpleName(getToken(0).getImage()); } AnnotationTypeBody()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void AnnotationTypeBody(): {/*@bgen(jjtree) AnnotationTypeBody */ ASTAnnotationTypeBody jjtn000 = new ASTAnnotationTypeBody(JJTANNOTATIONTYPEBODY); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) AnnotationTypeBody */ try { /*@egen*/ "{" ( AnnotationTypeMemberDeclaration() )* "}"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void AnnotationTypeMemberDeclaration() : {} { ModifierList() ( LOOKAHEAD(Type() "(") AnnotationMethodDeclaration() | ClassOrInterfaceDeclaration() | LOOKAHEAD(3) EnumDeclaration() | AnnotationTypeDeclaration() | FieldDeclaration() ) |/*@bgen(jjtree) EmptyDeclaration */ { ASTEmptyDeclaration jjtn001 = new ASTEmptyDeclaration(JJTEMPTYDECLARATION); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ";"/*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ } void AnnotationMethodDeclaration() : {/*@bgen(jjtree) MethodDeclaration */ ASTMethodDeclaration jjtn000 = new ASTMethodDeclaration(JJTMETHODDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) MethodDeclaration */ try { /*@egen*/ Type() { jjtn000.setName(getToken(0).getImage()); }/*@bgen(jjtree) FormalParameters */ { ASTFormalParameters jjtn001 = new ASTFormalParameters(JJTFORMALPARAMETERS); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ("(" ")")/*@bgen(jjtree)*/ } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ [ Dims() ] [ DefaultValue() ] ";"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void DefaultValue(): {/*@bgen(jjtree) DefaultValue */ ASTDefaultValue jjtn000 = new ASTDefaultValue(JJTDEFAULTVALUE); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) DefaultValue */ try { /*@egen*/ "default" MemberValue()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ModuleDeclaration(): {/*@bgen(jjtree) ModuleDeclaration */ ASTModuleDeclaration jjtn000 = new ASTModuleDeclaration(JJTMODULEDECLARATION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) ModuleDeclaration */ try { /*@egen*/ AnnotationList() [LOOKAHEAD({isKeyword("open")}) {jjtn000.setOpen(true);}] LOOKAHEAD({isKeyword("module")}) ModuleName() "{" (ModuleDirective())* "}"/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void ModuleDirective() : {String packageName;} {/*@bgen(jjtree) ModuleRequiresDirective */ { ASTModuleRequiresDirective jjtn001 = new ASTModuleRequiresDirective(JJTMODULEREQUIRESDIRECTIVE); boolean jjtc001 = true; jjtree.openNodeScope(jjtn001); } try { /*@egen*/ ( LOOKAHEAD({isKeyword("requires")}) [ LOOKAHEAD({isKeyword("transitive")}) { jjtn001.setTransitive(); } | "static" { jjtn001.setStatic(); } ] ModuleName() ";" )/*@bgen(jjtree)*/ } catch (Throwable jjte001) { if (jjtc001) { jjtree.clearNodeScope(jjtn001); jjtc001 = false; } else { jjtree.popNode(); } if (jjte001 instanceof RuntimeException) { throw (RuntimeException)jjte001; } if (jjte001 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte001; } throw (Error)jjte001; } finally { if (jjtc001) { jjtree.closeNodeScope(jjtn001, true); } } /*@egen*/ |/*@bgen(jjtree) ModuleExportsDirective */ { ASTModuleExportsDirective jjtn002 = new ASTModuleExportsDirective(JJTMODULEEXPORTSDIRECTIVE); boolean jjtc002 = true; jjtree.openNodeScope(jjtn002); } try { /*@egen*/ ( LOOKAHEAD({isKeyword("exports")}) packageName=VoidNameNoLookahead() {jjtn002.setPackageName(packageName);} [ LOOKAHEAD({isKeyword("to")}) ModuleName() ("," ModuleName())* ] ";" )/*@bgen(jjtree)*/ } catch (Throwable jjte002) { if (jjtc002) { jjtree.clearNodeScope(jjtn002); jjtc002 = false; } else { jjtree.popNode(); } if (jjte002 instanceof RuntimeException) { throw (RuntimeException)jjte002; } if (jjte002 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte002; } throw (Error)jjte002; } finally { if (jjtc002) { jjtree.closeNodeScope(jjtn002, true); } } /*@egen*/ |/*@bgen(jjtree) ModuleOpensDirective */ { ASTModuleOpensDirective jjtn003 = new ASTModuleOpensDirective(JJTMODULEOPENSDIRECTIVE); boolean jjtc003 = true; jjtree.openNodeScope(jjtn003); } try { /*@egen*/ ( LOOKAHEAD({isKeyword("opens")}) packageName=VoidNameNoLookahead() {jjtn003.setPackageName(packageName);} [ LOOKAHEAD({isKeyword("to")}) ModuleName() ("," ModuleName())* ] ";" )/*@bgen(jjtree)*/ } catch (Throwable jjte003) { if (jjtc003) { jjtree.clearNodeScope(jjtn003); jjtc003 = false; } else { jjtree.popNode(); } if (jjte003 instanceof RuntimeException) { throw (RuntimeException)jjte003; } if (jjte003 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte003; } throw (Error)jjte003; } finally { if (jjtc003) { jjtree.closeNodeScope(jjtn003, true); } } /*@egen*/ |/*@bgen(jjtree) ModuleUsesDirective */ { ASTModuleUsesDirective jjtn004 = new ASTModuleUsesDirective(JJTMODULEUSESDIRECTIVE); boolean jjtc004 = true; jjtree.openNodeScope(jjtn004); } try { /*@egen*/ ( LOOKAHEAD({isKeyword("uses")}) ClassName() ";" )/*@bgen(jjtree)*/ } catch (Throwable jjte004) { if (jjtc004) { jjtree.clearNodeScope(jjtn004); jjtc004 = false; } else { jjtree.popNode(); } if (jjte004 instanceof RuntimeException) { throw (RuntimeException)jjte004; } if (jjte004 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte004; } throw (Error)jjte004; } finally { if (jjtc004) { jjtree.closeNodeScope(jjtn004, true); } } /*@egen*/ |/*@bgen(jjtree) ModuleProvidesDirective */ { ASTModuleProvidesDirective jjtn005 = new ASTModuleProvidesDirective(JJTMODULEPROVIDESDIRECTIVE); boolean jjtc005 = true; jjtree.openNodeScope(jjtn005); } try { /*@egen*/ ( LOOKAHEAD({isKeyword("provides")}) ClassName() LOOKAHEAD({isKeyword("with")}) ClassName() ("," ClassName() )* ";" )/*@bgen(jjtree)*/ } catch (Throwable jjte005) { if (jjtc005) { jjtree.clearNodeScope(jjtn005); jjtc005 = false; } else { jjtree.popNode(); } if (jjte005 instanceof RuntimeException) { throw (RuntimeException)jjte005; } if (jjte005 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte005; } throw (Error)jjte005; } finally { if (jjtc005) { jjtree.closeNodeScope(jjtn005, true); } } /*@egen*/ } void ModuleName(): {/*@bgen(jjtree) ModuleName */ ASTModuleName jjtn000 = new ASTModuleName(JJTMODULENAME); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/ String name; } {/*@bgen(jjtree) ModuleName */ try { /*@egen*/ name=VoidNameNoLookahead()/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ { jjtn000.setName(name); }/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void AmbiguousName(): {/*@bgen(jjtree) AmbiguousName */ ASTAmbiguousName jjtn000 = new ASTAmbiguousName(JJTAMBIGUOUSNAME); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/ String name; } {/*@bgen(jjtree) AmbiguousName */ try { /*@egen*/ name=VoidName()/*@bgen(jjtree)*/ { jjtree.closeNodeScope(jjtn000, true); jjtc000 = false; } /*@egen*/ { jjtn000.setImage(name); }/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } String VoidName() : /* * A lookahead of 2 is required below since "Name" can be followed * by a ".*" when used in the context of an "ImportDeclaration", * or with "this" or "super" in PrimaryPrefix (AmbiguousName). */ { StringBuilder s = new StringBuilder(); JavaccToken t; } { t= { s.append(t.getImage()); } ( LOOKAHEAD(2) "." t= { s.append('.').append(t.getImage()); } )* {return s.toString();} } String VoidNameNoLookahead() : { StringBuilder s = new StringBuilder(); JavaccToken t; } { t= { s.append(t.getImage()); } ( "." t= { s.append('.').append(t.getImage()); } )* {return s.toString();} } // Produces a ClassOrInterfaceType, possibly with an ambiguous LHS void ClassName() : {} { AmbiguousName() { forceTypeContext(); } } // This is used to get JJTree to generate a node. // Variable references are always ambiguous // when they're parsed, so they're not created // normally by jjtree, but rather by the disambiguation // hooks spread across the parser //noinspection UnusedProduction void VariableAccess(): {/*@bgen(jjtree) VariableAccess */ ASTVariableAccess jjtn000 = new ASTVariableAccess(JJTVARIABLEACCESS); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) VariableAccess */ try { /*@egen*/ /*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } // those are created manually void TypeExpression(): {/*@bgen(jjtree) TypeExpression */ ASTTypeExpression jjtn000 = new ASTTypeExpression(JJTTYPEEXPRESSION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) TypeExpression */ try { /*@egen*/ /*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void PatternExpression(): {/*@bgen(jjtree) PatternExpression */ ASTPatternExpression jjtn000 = new ASTPatternExpression(JJTPATTERNEXPRESSION); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) PatternExpression */ try { /*@egen*/ /*@bgen(jjtree)*/ } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void LocalClassStatement(): {/*@bgen(jjtree) LocalClassStatement */ ASTLocalClassStatement jjtn000 = new ASTLocalClassStatement(JJTLOCALCLASSSTATEMENT); boolean jjtc000 = true; jjtree.openNodeScope(jjtn000); /*@egen*/} {/*@bgen(jjtree) LocalClassStatement */ try { /*@egen*/ TypeDeclaration()/*@bgen(jjtree)*/ } catch (Throwable jjte000) { if (jjtc000) { jjtree.clearNodeScope(jjtn000); jjtc000 = false; } else { jjtree.popNode(); } if (jjte000 instanceof RuntimeException) { throw (RuntimeException)jjte000; } if (jjte000 instanceof net.sourceforge.pmd.lang.ast.ParseException) { throw (net.sourceforge.pmd.lang.ast.ParseException)jjte000; } throw (Error)jjte000; } finally { if (jjtc000) { jjtree.closeNodeScope(jjtn000, true); } } /*@egen*/ } void softKeyword(String name) : {} { { if (!getToken(0).getImageCs().contentEquals(name)) throwParseException("Expecting keyword '" + name + "'"); } }





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