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* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.codehaus.groovy.antlr.treewalker;
import antlr.collections.AST;
import org.codehaus.groovy.antlr.AntlrASTProcessor;
import org.codehaus.groovy.antlr.GroovySourceAST;
import org.codehaus.groovy.antlr.parser.GroovyTokenTypes;
import java.util.ArrayList;
import java.util.List;
/**
* Helper Class for Antlr AST traversal and visitation.
*
* @author Jeremy Rayner
*/
public abstract class TraversalHelper implements AntlrASTProcessor {
protected List unvisitedNodes;
private final Visitor v;
public TraversalHelper(Visitor visitor) {
this.unvisitedNodes = new ArrayList();
this.v = visitor;
}
protected void setUp(GroovySourceAST ast) {
v.setUp();
}
protected void tearDown(GroovySourceAST ast) {
v.tearDown();
}
protected void push(GroovySourceAST ast) {
v.push(ast);
}
protected GroovySourceAST pop() {
return v.pop();
}
protected void visitNode(GroovySourceAST ast, int n) {
if (ast != null) {
switch (ast.getType()) {
case GroovyTokenTypes.ABSTRACT : v.visitAbstract(ast,n); break;
case GroovyTokenTypes.ANNOTATION : v.visitAnnotation(ast,n); break;
case GroovyTokenTypes.ANNOTATIONS : v.visitAnnotations(ast,n); break;
case GroovyTokenTypes.ANNOTATION_ARRAY_INIT : v.visitAnnotationArrayInit(ast,n); break; // obsolete?
case GroovyTokenTypes.ANNOTATION_DEF : v.visitAnnotationDef(ast,n); break;
case GroovyTokenTypes.ANNOTATION_FIELD_DEF : v.visitAnnotationFieldDef(ast,n); break;
case GroovyTokenTypes.ANNOTATION_MEMBER_VALUE_PAIR : v.visitAnnotationMemberValuePair(ast,n); break;
case GroovyTokenTypes.ARRAY_DECLARATOR : v.visitArrayDeclarator(ast,n); break;
case GroovyTokenTypes.ASSIGN : v.visitAssign(ast,n); break;
case GroovyTokenTypes.AT : v.visitAt(ast,n); break;
case GroovyTokenTypes.BAND : v.visitBand(ast,n); break;
case GroovyTokenTypes.BAND_ASSIGN : v.visitBandAssign(ast,n); break;
case GroovyTokenTypes.BIG_SUFFIX : v.visitBigSuffix(ast,n); break;
case GroovyTokenTypes.BLOCK : v.visitBlock(ast,n); break;
case GroovyTokenTypes.BNOT : v.visitBnot(ast,n); break;
case GroovyTokenTypes.BOR : v.visitBor(ast,n); break;
case GroovyTokenTypes.BOR_ASSIGN : v.visitBorAssign(ast,n); break;
case GroovyTokenTypes.BSR : v.visitBsr(ast,n); break;
case GroovyTokenTypes.BSR_ASSIGN : v.visitBsrAssign(ast,n); break;
case GroovyTokenTypes.BXOR : v.visitBxor(ast,n); break;
case GroovyTokenTypes.BXOR_ASSIGN : v.visitBxorAssign(ast,n); break;
case GroovyTokenTypes.CASE_GROUP : v.visitCaseGroup(ast,n); break;
case GroovyTokenTypes.CLASS_DEF : v.visitClassDef(ast,n); break;
case GroovyTokenTypes.CLOSABLE_BLOCK : v.visitClosedBlock(ast,n); break;
case GroovyTokenTypes.CLOSABLE_BLOCK_OP : v.visitClosureOp(ast,n); break;
case GroovyTokenTypes.CLOSURE_LIST : v.visitClosureList(ast,n); break;
case GroovyTokenTypes.COLON : v.visitColon(ast,n); break;
case GroovyTokenTypes.COMMA : v.visitComma(ast,n); break;
case GroovyTokenTypes.COMPARE_TO : v.visitCompareTo(ast,n); break;
case GroovyTokenTypes.CTOR_CALL : v.visitCtorCall(ast,n); break;
case GroovyTokenTypes.CTOR_IDENT : v.visitCtorIdent(ast,n); break;
case GroovyTokenTypes.DEC : v.visitDec(ast,n); break;
case GroovyTokenTypes.DIGIT : v.visitDigit(ast,n); break;
case GroovyTokenTypes.DIV : v.visitDiv(ast,n); break;
case GroovyTokenTypes.DIV_ASSIGN : v.visitDivAssign(ast,n); break;
case GroovyTokenTypes.DOLLAR : v.visitDollar(ast,n); break;
case GroovyTokenTypes.DOLLAR_REGEXP_CTOR_END : v.visitRegexpCtorEnd(ast,n); break;
case GroovyTokenTypes.DOLLAR_REGEXP_LITERAL : v.visitRegexpLiteral(ast,n); break;
case GroovyTokenTypes.DOLLAR_REGEXP_SYMBOL : v.visitRegexpSymbol(ast,n); break;
case GroovyTokenTypes.DOT : v.visitDot(ast,n); break;
case GroovyTokenTypes.DYNAMIC_MEMBER : v.visitDynamicMember(ast,n); break;
case GroovyTokenTypes.ELIST : v.visitElist(ast,n); break;
case GroovyTokenTypes.EMPTY_STAT : v.visitEmptyStat(ast,n); break;
case GroovyTokenTypes.ENUM_CONSTANT_DEF : v.visitEnumConstantDef(ast,n); break;
case GroovyTokenTypes.ENUM_DEF : v.visitEnumDef(ast,n); break;
case GroovyTokenTypes.EOF : v.visitEof(ast,n); break;
case GroovyTokenTypes.EQUAL : v.visitEqual(ast,n); break;
case GroovyTokenTypes.ESC : v.visitEsc(ast,n); break;
case GroovyTokenTypes.EXPONENT : v.visitExponent(ast,n); break;
case GroovyTokenTypes.EXPR : v.visitExpr(ast,n); break;
case GroovyTokenTypes.EXTENDS_CLAUSE : v.visitExtendsClause(ast,n); break;
case GroovyTokenTypes.FINAL : v.visitFinal(ast,n); break;
case GroovyTokenTypes.FLOAT_SUFFIX : v.visitFloatSuffix(ast,n); break;
case GroovyTokenTypes.FOR_CONDITION : v.visitForCondition(ast,n); break;
case GroovyTokenTypes.FOR_EACH_CLAUSE : v.visitForEachClause(ast,n); break;
case GroovyTokenTypes.FOR_INIT : v.visitForInit(ast,n); break;
case GroovyTokenTypes.FOR_IN_ITERABLE : v.visitForInIterable(ast,n); break;
case GroovyTokenTypes.FOR_ITERATOR : v.visitForIterator(ast,n); break;
case GroovyTokenTypes.GE : v.visitGe(ast,n); break;
case GroovyTokenTypes.GT : v.visitGt(ast,n); break;
case GroovyTokenTypes.HEX_DIGIT : v.visitHexDigit(ast,n); break;
case GroovyTokenTypes.IDENT : v.visitIdent(ast,n); break;
case GroovyTokenTypes.IMPLEMENTS_CLAUSE : v.visitImplementsClause(ast,n); break;
case GroovyTokenTypes.IMPLICIT_PARAMETERS : v.visitImplicitParameters(ast,n); break;
case GroovyTokenTypes.IMPORT : v.visitImport(ast,n); break;
case GroovyTokenTypes.INC : v.visitInc(ast,n); break;
case GroovyTokenTypes.INDEX_OP : v.visitIndexOp(ast,n); break;
case GroovyTokenTypes.INSTANCE_INIT : v.visitInstanceInit(ast,n); break;
case GroovyTokenTypes.INTERFACE_DEF : v.visitInterfaceDef(ast,n); break;
case GroovyTokenTypes.LABELED_ARG : v.visitLabeledArg(ast,n); break;
case GroovyTokenTypes.LABELED_STAT : v.visitLabeledStat(ast,n); break;
case GroovyTokenTypes.LAND : v.visitLand(ast,n); break;
case GroovyTokenTypes.LBRACK : v.visitLbrack(ast,n); break;
case GroovyTokenTypes.LCURLY : v.visitLcurly(ast,n); break;
case GroovyTokenTypes.LE : v.visitLe(ast,n); break;
case GroovyTokenTypes.LETTER : v.visitLetter(ast,n); break;
case GroovyTokenTypes.LIST_CONSTRUCTOR : v.visitListConstructor(ast,n); break;
case GroovyTokenTypes.LITERAL_as : v.visitLiteralAs(ast,n); break;
case GroovyTokenTypes.LITERAL_assert : v.visitLiteralAssert(ast,n); break;
case GroovyTokenTypes.LITERAL_boolean : v.visitLiteralBoolean(ast,n); break;
case GroovyTokenTypes.LITERAL_break : v.visitLiteralBreak(ast,n); break;
case GroovyTokenTypes.LITERAL_byte : v.visitLiteralByte(ast,n); break;
case GroovyTokenTypes.LITERAL_case : v.visitLiteralCase(ast,n); break;
case GroovyTokenTypes.LITERAL_catch : v.visitLiteralCatch(ast,n); break;
case GroovyTokenTypes.LITERAL_char : v.visitLiteralChar(ast,n); break;
case GroovyTokenTypes.LITERAL_class : v.visitLiteralClass(ast,n); break;
case GroovyTokenTypes.LITERAL_continue : v.visitLiteralContinue(ast,n); break;
case GroovyTokenTypes.LITERAL_def : v.visitLiteralDef(ast,n); break;
case GroovyTokenTypes.LITERAL_default : v.visitLiteralDefault(ast,n); break;
case GroovyTokenTypes.LITERAL_double : v.visitLiteralDouble(ast,n); break;
case GroovyTokenTypes.LITERAL_else : v.visitLiteralElse(ast,n); break;
case GroovyTokenTypes.LITERAL_enum : v.visitLiteralEnum(ast,n); break;
case GroovyTokenTypes.LITERAL_extends : v.visitLiteralExtends(ast,n); break;
case GroovyTokenTypes.LITERAL_false : v.visitLiteralFalse(ast,n); break;
case GroovyTokenTypes.LITERAL_finally : v.visitLiteralFinally(ast,n); break;
case GroovyTokenTypes.LITERAL_float : v.visitLiteralFloat(ast,n); break;
case GroovyTokenTypes.LITERAL_for : v.visitLiteralFor(ast,n); break;
case GroovyTokenTypes.LITERAL_if : v.visitLiteralIf(ast,n); break;
case GroovyTokenTypes.LITERAL_implements : v.visitLiteralImplements(ast,n); break;
case GroovyTokenTypes.LITERAL_import : v.visitLiteralImport(ast,n); break;
case GroovyTokenTypes.LITERAL_in : v.visitLiteralIn(ast,n); break;
case GroovyTokenTypes.LITERAL_instanceof : v.visitLiteralInstanceof(ast,n); break;
case GroovyTokenTypes.LITERAL_int : v.visitLiteralInt(ast,n); break;
case GroovyTokenTypes.LITERAL_interface : v.visitLiteralInterface(ast,n); break;
case GroovyTokenTypes.LITERAL_long : v.visitLiteralLong(ast,n); break;
case GroovyTokenTypes.LITERAL_native : v.visitLiteralNative(ast,n); break;
case GroovyTokenTypes.LITERAL_new : v.visitLiteralNew(ast,n); break;
case GroovyTokenTypes.LITERAL_null : v.visitLiteralNull(ast,n); break;
case GroovyTokenTypes.LITERAL_package : v.visitLiteralPackage(ast,n); break;
case GroovyTokenTypes.LITERAL_private : v.visitLiteralPrivate(ast,n); break;
case GroovyTokenTypes.LITERAL_protected : v.visitLiteralProtected(ast,n); break;
case GroovyTokenTypes.LITERAL_public : v.visitLiteralPublic(ast,n); break;
case GroovyTokenTypes.LITERAL_return : v.visitLiteralReturn(ast,n); break;
case GroovyTokenTypes.LITERAL_short : v.visitLiteralShort(ast,n); break;
case GroovyTokenTypes.LITERAL_static : v.visitLiteralStatic(ast,n); break;
case GroovyTokenTypes.LITERAL_super : v.visitLiteralSuper(ast,n); break;
case GroovyTokenTypes.LITERAL_switch : v.visitLiteralSwitch(ast,n); break;
case GroovyTokenTypes.LITERAL_synchronized : v.visitLiteralSynchronized(ast,n); break;
case GroovyTokenTypes.LITERAL_this : v.visitLiteralThis(ast,n); break;
case GroovyTokenTypes.LITERAL_threadsafe : v.visitLiteralThreadsafe(ast,n); break;
case GroovyTokenTypes.LITERAL_throw : v.visitLiteralThrow(ast,n); break;
case GroovyTokenTypes.LITERAL_throws : v.visitLiteralThrows(ast,n); break;
case GroovyTokenTypes.LITERAL_transient : v.visitLiteralTransient(ast,n); break;
case GroovyTokenTypes.LITERAL_true : v.visitLiteralTrue(ast,n); break;
case GroovyTokenTypes.LITERAL_try : v.visitLiteralTry(ast,n); break;
case GroovyTokenTypes.LITERAL_void : v.visitLiteralVoid(ast,n); break;
case GroovyTokenTypes.LITERAL_volatile : v.visitLiteralVolatile(ast,n); break;
case GroovyTokenTypes.LITERAL_while : v.visitLiteralWhile(ast,n); break;
case GroovyTokenTypes.LNOT : v.visitLnot(ast,n); break;
case GroovyTokenTypes.LOR : v.visitLor(ast,n); break;
case GroovyTokenTypes.LPAREN : v.visitLparen(ast,n); break;
case GroovyTokenTypes.LT : v.visitLt(ast,n); break;
case GroovyTokenTypes.MAP_CONSTRUCTOR : v.visitMapConstructor(ast,n); break;
case GroovyTokenTypes.MEMBER_POINTER : v.visitMemberPointer(ast,n); break;
case GroovyTokenTypes.METHOD_CALL : v.visitMethodCall(ast,n); break;
case GroovyTokenTypes.METHOD_DEF : v.visitMethodDef(ast,n); break;
case GroovyTokenTypes.MINUS : v.visitMinus(ast,n); break;
case GroovyTokenTypes.MINUS_ASSIGN : v.visitMinusAssign(ast,n); break;
case GroovyTokenTypes.ML_COMMENT : v.visitMlComment(ast,n); break;
case GroovyTokenTypes.MOD : v.visitMod(ast,n); break;
case GroovyTokenTypes.MODIFIERS : v.visitModifiers(ast,n); break;
case GroovyTokenTypes.MOD_ASSIGN : v.visitModAssign(ast,n); break;
case GroovyTokenTypes.NLS : v.visitNls(ast,n); break;
case GroovyTokenTypes.NOT_EQUAL : v.visitNotEqual(ast,n); break;
case GroovyTokenTypes.NULL_TREE_LOOKAHEAD : v.visitNullTreeLookahead(ast,n); break;
case GroovyTokenTypes.MULTICATCH : v.visitMultiCatch(ast,n); break;
case GroovyTokenTypes.MULTICATCH_TYPES : v.visitMultiCatchTypes(ast,n); break;
case GroovyTokenTypes.NUM_BIG_DECIMAL : v.visitNumBigDecimal(ast,n); break;
case GroovyTokenTypes.NUM_BIG_INT : v.visitNumBigInt(ast,n); break;
case GroovyTokenTypes.NUM_DOUBLE : v.visitNumDouble(ast,n); break;
case GroovyTokenTypes.NUM_FLOAT : v.visitNumFloat(ast,n); break;
case GroovyTokenTypes.NUM_INT : v.visitNumInt(ast,n); break;
case GroovyTokenTypes.NUM_LONG : v.visitNumLong(ast,n); break;
case GroovyTokenTypes.OBJBLOCK : v.visitObjblock(ast,n); break;
case GroovyTokenTypes.ONE_NL : v.visitOneNl(ast,n); break;
case GroovyTokenTypes.OPTIONAL_DOT : v.visitOptionalDot(ast,n); break;
case GroovyTokenTypes.PACKAGE_DEF : v.visitPackageDef(ast,n); break;
case GroovyTokenTypes.PARAMETERS : v.visitParameters(ast,n); break;
case GroovyTokenTypes.PARAMETER_DEF : v.visitParameterDef(ast,n); break;
case GroovyTokenTypes.PLUS : v.visitPlus(ast,n); break;
case GroovyTokenTypes.PLUS_ASSIGN : v.visitPlusAssign(ast,n); break;
case GroovyTokenTypes.POST_DEC : v.visitPostDec(ast,n); break;
case GroovyTokenTypes.POST_INC : v.visitPostInc(ast,n); break;
case GroovyTokenTypes.QUESTION : v.visitQuestion(ast,n); break;
case GroovyTokenTypes.RANGE_EXCLUSIVE : v.visitRangeExclusive(ast,n); break;
case GroovyTokenTypes.RANGE_INCLUSIVE : v.visitRangeInclusive(ast,n); break;
case GroovyTokenTypes.RBRACK : v.visitRbrack(ast,n); break;
case GroovyTokenTypes.RCURLY : v.visitRcurly(ast,n); break;
case GroovyTokenTypes.REGEXP_CTOR_END : v.visitRegexpCtorEnd(ast,n); break;
case GroovyTokenTypes.REGEXP_LITERAL : v.visitRegexpLiteral(ast,n); break;
case GroovyTokenTypes.REGEXP_SYMBOL : v.visitRegexpSymbol(ast,n); break;
case GroovyTokenTypes.REGEX_FIND : v.visitRegexFind(ast,n); break;
case GroovyTokenTypes.REGEX_MATCH : v.visitRegexMatch(ast,n); break;
case GroovyTokenTypes.RPAREN : v.visitRparen(ast,n); break;
case GroovyTokenTypes.SELECT_SLOT : v.visitSelectSlot(ast,n); break;
case GroovyTokenTypes.SEMI : v.visitSemi(ast,n); break;
case GroovyTokenTypes.SH_COMMENT : v.visitShComment(ast,n); break;
case GroovyTokenTypes.SL : v.visitSl(ast,n); break;
case GroovyTokenTypes.SLIST : v.visitSlist(ast,n); break;
case GroovyTokenTypes.SL_ASSIGN : v.visitSlAssign(ast,n); break;
case GroovyTokenTypes.SL_COMMENT : v.visitSlComment(ast,n); break;
case GroovyTokenTypes.SPREAD_ARG : v.visitSpreadArg(ast,n); break;
case GroovyTokenTypes.SPREAD_DOT : v.visitSpreadDot(ast,n); break;
case GroovyTokenTypes.SPREAD_MAP_ARG : v.visitSpreadMapArg(ast,n); break;
case GroovyTokenTypes.SR : v.visitSr(ast,n); break;
case GroovyTokenTypes.SR_ASSIGN : v.visitSrAssign(ast,n); break;
case GroovyTokenTypes.STAR : v.visitStar(ast,n); break;
case GroovyTokenTypes.STAR_ASSIGN : v.visitStarAssign(ast,n); break;
case GroovyTokenTypes.STAR_STAR : v.visitStarStar(ast,n); break;
case GroovyTokenTypes.STAR_STAR_ASSIGN : v.visitStarStarAssign(ast,n); break;
case GroovyTokenTypes.STATIC_IMPORT : v.visitStaticImport(ast,n); break;
case GroovyTokenTypes.STATIC_INIT : v.visitStaticInit(ast,n); break;
case GroovyTokenTypes.STRICTFP : v.visitStrictfp(ast,n); break;
case GroovyTokenTypes.STRING_CH : v.visitStringCh(ast,n); break;
case GroovyTokenTypes.STRING_CONSTRUCTOR : v.visitStringConstructor(ast,n); break;
case GroovyTokenTypes.STRING_CTOR_END : v.visitStringCtorEnd(ast,n); break;
case GroovyTokenTypes.STRING_CTOR_MIDDLE : v.visitStringCtorMiddle(ast,n); break;
case GroovyTokenTypes.STRING_CTOR_START : v.visitStringCtorStart(ast,n); break;
case GroovyTokenTypes.STRING_LITERAL : v.visitStringLiteral(ast,n); break;
case GroovyTokenTypes.STRING_NL : v.visitStringNl(ast,n); break;
case GroovyTokenTypes.SUPER_CTOR_CALL : v.visitSuperCtorCall(ast,n); break;
case GroovyTokenTypes.TRAIT_DEF : v.visitTraitDef(ast,n); break;
case GroovyTokenTypes.TRIPLE_DOT : v.visitTripleDot(ast,n); break;
case GroovyTokenTypes.TYPE : v.visitType(ast,n); break;
case GroovyTokenTypes.TYPECAST : v.visitTypecast(ast,n); break;
case GroovyTokenTypes.TYPE_ARGUMENT : v.visitTypeArgument(ast,n); break;
case GroovyTokenTypes.TYPE_ARGUMENTS : v.visitTypeArguments(ast,n); break;
case GroovyTokenTypes.TYPE_LOWER_BOUNDS : v.visitTypeLowerBounds(ast,n); break;
case GroovyTokenTypes.TYPE_PARAMETER : v.visitTypeParameter(ast,n); break;
case GroovyTokenTypes.TYPE_PARAMETERS : v.visitTypeParameters(ast,n); break;
case GroovyTokenTypes.TYPE_UPPER_BOUNDS : v.visitTypeUpperBounds(ast,n); break;
case GroovyTokenTypes.UNARY_MINUS : v.visitUnaryMinus(ast,n); break;
case GroovyTokenTypes.UNARY_PLUS : v.visitUnaryPlus(ast,n); break;
case GroovyTokenTypes.UNUSED_CONST : v.visitUnusedConst(ast,n); break;
case GroovyTokenTypes.UNUSED_DO : v.visitUnusedDo(ast,n); break;
case GroovyTokenTypes.UNUSED_GOTO : v.visitUnusedGoto(ast,n); break;
case GroovyTokenTypes.VARIABLE_DEF : v.visitVariableDef(ast,n); break;
case GroovyTokenTypes.VARIABLE_PARAMETER_DEF : v.visitVariableParameterDef(ast,n); break;
case GroovyTokenTypes.VOCAB : v.visitVocab(ast,n); break;
case GroovyTokenTypes.WILDCARD_TYPE : v.visitWildcardType(ast,n); break;
case GroovyTokenTypes.WS : v.visitWs(ast,n); break;
default : v.visitDefault(ast,n); break;
}
} else {
// the supplied AST was null
v.visitDefault(null,n);
}
}
protected abstract void accept(GroovySourceAST currentNode);
protected void accept_v_FirstChildsFirstChild_v_Child2_Child3_v_Child4_v___v_LastChild(GroovySourceAST t) {
openingVisit(t);
GroovySourceAST expr2 = t.childAt(0);
skip(expr2);
accept(expr2.childAt(0));
closingVisit(t);
GroovySourceAST sibling = (GroovySourceAST) expr2.getNextSibling();
boolean firstSList = true;
while (sibling != null) {
if (!firstSList) {
subsequentVisit(t);
}
firstSList = false;
accept(sibling);
sibling = (GroovySourceAST) sibling.getNextSibling();
}
}
protected void accept_v_FirstChildsFirstChild_v_RestOfTheChildren(GroovySourceAST t) {
openingVisit(t);
GroovySourceAST expr = t.childAt(0);
skip(expr);
accept(expr.childAt(0));
closingVisit(t);
acceptSiblings(expr);
}
protected void accept_FirstChild_v_SecondChild(GroovySourceAST t) {
accept(t.childAt(0));
subsequentVisit(t);
accept(t.childAt(1));
}
protected void accept_FirstChild_v_SecondChild_v(GroovySourceAST t) {
accept(t.childAt(0));
openingVisit(t);
accept(t.childAt(1));
closingVisit(t);
}
protected void accept_SecondChild_v_ThirdChild_v(GroovySourceAST t) {
accept(t.childAt(1));
openingVisit(t);
accept(t.childAt(2));
closingVisit(t);
}
protected void accept_FirstChild_v_SecondChildsChildren_v(GroovySourceAST t) {
accept(t.childAt(0));
openingVisit(t);
GroovySourceAST secondChild = t.childAt(1);
if (secondChild != null) {
acceptChildren(secondChild);
}
closingVisit(t);
}
protected void accept_v_FirstChild_SecondChild_v_ThirdChild_v(GroovySourceAST t) {
openingVisit(t);
accept(t.childAt(0));
accept(t.childAt(1));
subsequentVisit(t);
accept(t.childAt(2));
closingVisit(t);
}
protected void accept_FirstChild_v_SecondChild_v_ThirdChild_v(GroovySourceAST t) {
accept(t.childAt(0));
openingVisit(t);
accept(t.childAt(1));
subsequentVisit(t);
accept(t.childAt(2));
closingVisit(t);
}
protected void accept_FirstSecondAndThirdChild_v_v_ForthChild(GroovySourceAST t) {
GroovySourceAST child1 = (GroovySourceAST) t.getFirstChild();
if (child1 != null) {
accept(child1);
GroovySourceAST child2 = (GroovySourceAST) child1.getNextSibling();
if (child2 != null) {
accept(child2);
GroovySourceAST child3 = (GroovySourceAST) child2.getNextSibling();
if (child3 != null) {
accept(child3);
openingVisit(t);
GroovySourceAST child4 = (GroovySourceAST) child3.getNextSibling();
if (child4 != null) {
subsequentVisit(t);
accept(child4);
}
}
}
}
}
protected void accept_v_FirstChild_2ndv_SecondChild_v___LastChild_v(GroovySourceAST t) {
openingVisit(t);
GroovySourceAST child = (GroovySourceAST) t.getFirstChild();
if (child != null) {
accept(child);
GroovySourceAST sibling = (GroovySourceAST) child.getNextSibling();
if (sibling != null) {
secondVisit(t);
accept(sibling);
sibling = (GroovySourceAST) sibling.getNextSibling();
while (sibling != null) {
subsequentVisit(t);
accept(sibling);
sibling = (GroovySourceAST) sibling.getNextSibling();
}
}
}
closingVisit(t);
}
protected void accept_v_FirstChild_v_SecondChild_v___LastChild_v(GroovySourceAST t) {
openingVisit(t);
GroovySourceAST child = (GroovySourceAST) t.getFirstChild();
if (child != null) {
accept(child);
GroovySourceAST sibling = (GroovySourceAST) child.getNextSibling();
while (sibling != null) {
subsequentVisit(t);
accept(sibling);
sibling = (GroovySourceAST) sibling.getNextSibling();
}
}
closingVisit(t);
}
protected void accept_v_FirstChild_v(GroovySourceAST t) {
openingVisit(t);
accept(t.childAt(0));
closingVisit(t);
}
protected void accept_v_Siblings_v(GroovySourceAST t) {
openingVisit(t);
acceptSiblings(t);
closingVisit(t);
}
protected void accept_v_AllChildren_v_Siblings(GroovySourceAST t) {
openingVisit(t);
acceptChildren(t);
closingVisit(t);
acceptSiblings(t);
}
protected void accept_v_AllChildren_v(GroovySourceAST t) {
openingVisit(t);
acceptChildren(t);
closingVisit(t);
}
protected void accept_FirstChild_v_RestOfTheChildren(GroovySourceAST t) {
accept(t.childAt(0));
openingVisit(t);
closingVisit(t);
acceptSiblings(t.childAt(0));
}
protected void accept_FirstChild_v_RestOfTheChildren_v_LastChild(GroovySourceAST t) {
int count = 0;
accept(t.childAt(0));
count++;
openingVisit(t);
if (t.childAt(0) != null) {
GroovySourceAST sibling = (GroovySourceAST) t.childAt(0).getNextSibling();
while (sibling != null) {
if (count == t.getNumberOfChildren() - 1) {
closingVisit(t);
}
accept(sibling);
count++;
sibling = (GroovySourceAST) sibling.getNextSibling();
}
}
}
protected void accept_FirstChild_v_RestOfTheChildren_v(GroovySourceAST t) {
accept(t.childAt(0));
openingVisit(t);
acceptSiblings(t.childAt(0));
closingVisit(t);
}
protected void accept_v_FirstChild_v_RestOfTheChildren(GroovySourceAST t) {
accept_v_FirstChild_v(t);
acceptSiblings(t.childAt(0));
}
protected void accept_v_FirstChild_v_RestOfTheChildren_v(GroovySourceAST t) {
openingVisit(t);
accept(t.childAt(0));
subsequentVisit(t);
acceptSiblings(t.childAt(0));
closingVisit(t);
}
protected void acceptSiblings(GroovySourceAST t) {
if (t != null) {
GroovySourceAST sibling = (GroovySourceAST) t.getNextSibling();
while (sibling != null) {
accept(sibling);
sibling = (GroovySourceAST) sibling.getNextSibling();
}
}
}
protected void acceptChildren(GroovySourceAST t) {
if (t != null) {
GroovySourceAST child = (GroovySourceAST) t.getFirstChild();
if (child != null) {
accept(child);
acceptSiblings(child);
}
}
}
protected void skip(GroovySourceAST expr) {
unvisitedNodes.remove(expr);
}
protected void openingVisit(GroovySourceAST t) {
unvisitedNodes.remove(t);
int n = Visitor.OPENING_VISIT;
visitNode(t, n);
}
protected void secondVisit(GroovySourceAST t) {
int n = Visitor.SECOND_VISIT;
visitNode(t, n);
}
protected void subsequentVisit(GroovySourceAST t) {
int n = Visitor.SUBSEQUENT_VISIT;
visitNode(t, n);
}
protected void closingVisit(GroovySourceAST t) {
int n = Visitor.CLOSING_VISIT;
visitNode(t, n);
}
public AST process(AST t) {
GroovySourceAST node = (GroovySourceAST) t;
// process each node in turn
setUp(node);
accept(node);
acceptSiblings(node);
tearDown(node);
return null;
}
}
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