private static boolean tradForClauseParse(PsiBuilder builder, GroovyParser parser) {
PsiBuilder.Marker marker = builder.mark();
if (ParserUtils.getToken(builder, mSEMI)
|| (Declaration.parse(builder, false, parser) && ParserUtils.getToken(builder, mSEMI))) {
StrictContextExpression.parse(builder, parser);
ParserUtils.getToken(builder, mSEMI, GroovyBundle.message("semi.expected"));
ParserUtils.getToken(builder, mNLS);
if (!mRPAREN.equals(builder.getTokenType())) {
controlExpressionListParse(builder, parser);
}
} else {
marker.rollbackTo();
marker = builder.mark();
controlExpressionListParse(builder, parser);
ParserUtils.getToken(builder, mSEMI, GroovyBundle.message("semi.expected"));
StrictContextExpression.parse(builder, parser);
ParserUtils.getToken(builder, mSEMI, GroovyBundle.message("semi.expected"));
ParserUtils.getToken(builder, mNLS);
if (!mRPAREN.equals(builder.getTokenType())) {
controlExpressionListParse(builder, parser);
}
}
marker.done(FOR_TRADITIONAL_CLAUSE);
return true;
}
/*
* Parses list of control expression in for condition
*/
private static void controlExpressionListParse(PsiBuilder builder, GroovyParser parser) {
if (!StrictContextExpression.parse(builder, parser)) return;
while (mCOMMA.equals(builder.getTokenType())) {
if (ParserUtils.lookAhead(builder, mCOMMA, mNLS, mRPAREN)
|| ParserUtils.lookAhead(builder, mCOMMA, mRPAREN)) {
ParserUtils.getToken(builder, mCOMMA);
builder.error(GroovyBundle.message("expression.expected"));
} else {
ParserUtils.getToken(builder, mCOMMA);
}
ParserUtils.getToken(builder, mNLS);
if (!StrictContextExpression.parse(builder, parser)) {
ParserUtils.getToken(builder, mNLS);
if (!mRPAREN.equals(builder.getTokenType()) && !mSEMI.equals(builder.getTokenType())) {
builder.error(GroovyBundle.message("expression.expected"));
}
if (!mRPAREN.equals(builder.getTokenType())
&& !mSEMI.equals(builder.getTokenType())
&& !mCOMMA.equals(builder.getTokenType())
&& !mNLS.equals(builder.getTokenType())) {
builder.advanceLexer();
}
}
}
}
public boolean tryToSetUpGroovyFacetOnTheFly(final Module module) {
final Project project = module.getProject();
final Library[] libraries = getAllSDKLibraries(project);
if (libraries.length > 0) {
final Library library = libraries[0];
int result =
Messages.showOkCancelDialog(
GroovyBundle.message(
"groovy.like.library.found.text",
module.getName(),
library.getName(),
getSDKLibVersion(library)),
GroovyBundle.message("groovy.like.library.found"),
JetgroovyIcons.Groovy.Groovy_32x32);
if (result == Messages.OK) {
AccessToken accessToken = WriteAction.start();
try {
ModifiableRootModel model = ModuleRootManager.getInstance(module).getModifiableModel();
LibraryOrderEntry entry = model.addLibraryEntry(libraries[0]);
LibrariesUtil.placeEntryToCorrectPlace(model, entry);
model.commit();
return true;
} finally {
accessToken.finish();
}
}
}
return false;
}
public static boolean parse(
PsiBuilder builder, boolean isInClass, boolean isInAnnotation, GroovyParser parser) {
PsiBuilder.Marker declMarker = builder.mark();
// allows error messages
boolean modifiersParsed = Modifiers.parse(builder, parser);
final boolean methodStart = mLT == builder.getTokenType();
final IElementType type =
parseAfterModifiers(
builder, isInClass, isInAnnotation, parser, declMarker, modifiersParsed);
if (type == WRONGWAY) {
if (modifiersParsed && methodStart) {
declMarker.error(GroovyBundle.message("method.definitions.expected"));
return false;
}
declMarker.rollbackTo();
if (modifiersParsed) {
builder.error(GroovyBundle.message("variable.definitions.expected"));
}
return false;
}
if (type != null) {
declMarker.done(type);
} else {
declMarker.drop();
}
return true;
}
private static IElementType parseMethod(
PsiBuilder builder,
boolean isAnnotationMember,
boolean hasModifiers,
GroovyParser parser,
boolean constructor) {
// if we have no modifiers and current method is not constructor there is something wrong
if (!hasModifiers && !constructor) {
builder.error(GroovyBundle.message("method.definition.without.modifier"));
return GroovyElementTypes.WRONGWAY;
}
builder.advanceLexer();
ParameterList.parse(builder, GroovyTokenTypes.mRPAREN, parser);
ParserUtils.getToken(builder, GroovyTokenTypes.mNLS);
if (!ParserUtils.getToken(builder, GroovyTokenTypes.mRPAREN)) {
builder.error(GroovyBundle.message("rparen.expected"));
ThrowClause.parse(builder);
return methodType(isAnnotationMember, constructor);
}
if (isAnnotationMember && builder.getTokenType() == GroovyTokenTypes.kDEFAULT) {
ParserUtils.getToken(builder, GroovyTokenTypes.kDEFAULT);
ParserUtils.getToken(builder, GroovyTokenTypes.mNLS);
if (!AnnotationArguments.parseAnnotationMemberValueInitializer(builder, parser)) {
builder.error(GroovyBundle.message("annotation.initializer.expected"));
}
}
if (ParserUtils.lookAhead(builder, GroovyTokenTypes.mNLS, GroovyTokenTypes.kTHROWS)
|| ParserUtils.lookAhead(builder, GroovyTokenTypes.mNLS, GroovyTokenTypes.mLCURLY)) {
ParserUtils.getToken(builder, GroovyTokenTypes.mNLS);
}
if (isAnnotationMember && builder.getTokenType() == GroovyTokenTypes.kTHROWS) {
builder.error(GroovyBundle.message("throws.clause.is.not.allowed.in.at.interface"));
}
ThrowClause.parse(builder);
if (builder.getTokenType() == GroovyTokenTypes.mLCURLY
|| ParserUtils.lookAhead(builder, GroovyTokenTypes.mNLS, GroovyTokenTypes.mLCURLY)) {
ParserUtils.getToken(builder, GroovyTokenTypes.mNLS);
if (isAnnotationMember) {
builder.error(GroovyBundle.message("separator.or.rcurly.expected"));
}
if (constructor) {
ConstructorBody.parseConstructorBody(builder, parser);
} else {
OpenOrClosableBlock.parseOpenBlock(builder, parser);
}
}
return methodType(isAnnotationMember, constructor);
}
@Nullable
private static HighlightInfo checkRefInner(GrReferenceExpression ref) {
PsiElement refNameElement = ref.getReferenceNameElement();
if (refNameElement == null) return null;
boolean cannotBeDynamic = PsiUtil.isCompileStatic(ref) || isPropertyAccessInStaticMethod(ref);
GroovyResolveResult resolveResult = getBestResolveResult(ref);
if (resolveResult.getElement() != null) {
if (!isInspectionEnabled(ref.getContainingFile(), ref.getProject())) return null;
if (isStaticOk(resolveResult)) return null;
String message = GroovyBundle.message("cannot.reference.non.static", ref.getReferenceName());
return createAnnotationForRef(ref, cannotBeDynamic, message);
}
if (ResolveUtil.isKeyOfMap(ref) || isClassReference(ref)) {
return null;
}
if (!cannotBeDynamic) {
if (!isInspectionEnabled(ref.getContainingFile(), ref.getProject())) return null;
GrUnresolvedAccessInspection inspection =
getInstance(ref.getContainingFile(), ref.getProject());
if (!inspection.myHighlightIfGroovyObjectOverridden && areGroovyObjectMethodsOverridden(ref))
return null;
if (!inspection.myHighlightIfMissingMethodsDeclared && areMissingMethodsDeclared(ref))
return null;
if (GroovySuppressableInspectionTool.isElementToolSuppressedIn(ref, SHORT_NAME)) return null;
}
if (cannotBeDynamic || shouldHighlightAsUnresolved(ref)) {
HighlightInfo info =
createAnnotationForRef(
ref, cannotBeDynamic, GroovyBundle.message("cannot.resolve", ref.getReferenceName()));
LOG.assertTrue(info != null);
HighlightDisplayKey displayKey = HighlightDisplayKey.find(SHORT_NAME);
if (ref.getParent() instanceof GrMethodCall) {
registerStaticImportFix(ref, info, displayKey);
} else {
registerCreateClassByTypeFix(ref, info, displayKey);
registerAddImportFixes(ref, info, displayKey);
}
registerReferenceFixes(ref, info, cannotBeDynamic, displayKey);
UnresolvedReferenceQuickFixProvider.registerReferenceFixes(
ref, new QuickFixActionRegistrarAdapter(info, displayKey));
OrderEntryFix.registerFixes(new QuickFixActionRegistrarAdapter(info, displayKey), ref);
return info;
}
return null;
}
@Override
public void checkConfiguration() throws RuntimeConfigurationException {
final PsiClass toRun = getScriptClass();
if (toRun == null) {
throw new RuntimeConfigurationWarning(GroovyBundle.message("class.does.not.exist"));
}
if (toRun instanceof GrTypeDefinition) {
if (!GroovyRunnerUtil.canBeRunByGroovy(toRun)) {
throw new RuntimeConfigurationWarning(GroovyBundle.message("class.can't be executed"));
}
} else if (!(toRun instanceof GroovyScriptClass)) {
throw new RuntimeConfigurationWarning(GroovyBundle.message("script.file.is.not.groovy.file"));
}
}
private static void checkScriptField(AnnotationHolder holder, GrAnnotation annotation) {
final PsiAnnotationOwner owner = annotation.getOwner();
final GrMember container = PsiTreeUtil.getParentOfType(((PsiElement) owner), GrMember.class);
if (container != null) {
if (container.getContainingClass() instanceof GroovyScriptClass) {
holder.createErrorAnnotation(
annotation,
GroovyBundle.message("annotation.field.can.only.be.used.within.a.script.body"));
} else {
holder.createErrorAnnotation(
annotation, GroovyBundle.message("annotation.field.can.only.be.used.within.a.script"));
}
}
}
public static IElementType parseDefinitions(
@NotNull PsiBuilder builder,
boolean isInClass,
boolean isInAnnotation,
@Nullable String typeDefinitionName,
boolean hasModifiers,
boolean canBeTuple,
@NotNull GroovyParser parser) {
boolean isLParenth = builder.getTokenType() == GroovyTokenTypes.mLPAREN;
boolean isStringName =
builder.getTokenType() == GroovyTokenTypes.mSTRING_LITERAL
|| builder.getTokenType() == GroovyTokenTypes.mGSTRING_LITERAL;
if (builder.getTokenType() != GroovyTokenTypes.mIDENT && !isStringName && !isLParenth) {
builder.error(GroovyBundle.message("indentifier.or.string.or.left.parenth.literal.expected"));
return GroovyElementTypes.WRONGWAY;
}
if (isLParenth && !canBeTuple) {
builder.error(GroovyBundle.message("indentifier.or.string.or.left.parenth.literal.expected"));
return GroovyElementTypes.WRONGWAY;
}
if (isInAnnotation && isStringName) {
builder.error(GroovyBundle.message("string.name.unexpected"));
}
if (!isLParenth) { // id or string => method name
PsiBuilder.Marker varMarker = builder.mark();
final boolean isConstructor =
isInClass
&& !isInAnnotation
&& typeDefinitionName != null
&& builder.getTokenType() == GroovyTokenTypes.mIDENT
&& typeDefinitionName.equals(builder.getTokenText());
builder.advanceLexer();
if (GroovyTokenTypes.mLPAREN != builder.getTokenType()) {
varMarker.rollbackTo();
} else {
varMarker.drop();
return parseMethod(builder, isInAnnotation, hasModifiers, parser, isConstructor);
}
}
return parseVar(builder, isInClass, hasModifiers, parser, isLParenth);
}
public static void parse(PsiBuilder builder, GroovyParser parser) {
PsiBuilder.Marker annArgs = builder.mark();
if (!ParserUtils.getToken(builder, mLPAREN)) {
annArgs.done(ANNOTATION_ARGUMENTS);
return;
}
if (ParserUtils.lookAhead(builder, mIDENT, mASSIGN)) {
if (!parseAnnotationMemberValuePairs(builder, parser)) {
annArgs.rollbackTo();
return;
}
} else {
PsiBuilder.Marker pairMarker = builder.mark();
if (!parseAnnotationMemberValueInitializer(builder, parser)) {
pairMarker.drop();
} else {
pairMarker.done(ANNOTATION_MEMBER_VALUE_PAIR);
}
}
ParserUtils.getToken(builder, mNLS);
if (!ParserUtils.getToken(builder, mRPAREN)) {
builder.error(GroovyBundle.message("rparen.expected"));
}
annArgs.done(ANNOTATION_ARGUMENTS);
}
/*
* Parses Groovy-style 'in' clause
*/
private static boolean forInClauseParse(PsiBuilder builder, GroovyParser parser) {
PsiBuilder.Marker marker = builder.mark();
PsiBuilder.Marker declMarker = builder.mark();
if (ParserUtils.lookAhead(builder, mIDENT, kIN)) {
ParserUtils.eatElement(builder, PARAMETER);
declMarker.drop();
ParserUtils.getToken(builder, kIN);
if (!ShiftExpression.parse(builder, parser)) {
builder.error(GroovyBundle.message("expression.expected"));
}
marker.done(FOR_IN_CLAUSE);
return true;
}
if (DeclarationStart.parse(builder, parser)) {
if (Modifiers.parse(builder, parser)) {
TypeSpec.parse(builder);
return singleDeclNoInitParse(builder, marker, declMarker, parser);
}
}
if (TypeSpec.parse(builder)) {
return singleDeclNoInitParse(builder, marker, declMarker, parser);
}
declMarker.drop();
marker.drop();
return false;
}
@Nullable
private static HighlightInfo checkCodeRefInner(GrCodeReferenceElement refElement) {
if (PsiTreeUtil.getParentOfType(refElement, GroovyDocPsiElement.class) != null) return null;
PsiElement nameElement = refElement.getReferenceNameElement();
if (nameElement == null) return null;
if (isResolvedStaticImport(refElement)) return null;
GroovyResolveResult resolveResult = refElement.advancedResolve();
final PsiElement resolved = resolveResult.getElement();
if (!(refElement.getParent() instanceof GrPackageDefinition) && resolved == null) {
String message = GroovyBundle.message("cannot.resolve", refElement.getReferenceName());
HighlightInfo info =
HighlightInfo.newHighlightInfo(HighlightInfoType.WRONG_REF)
.range(nameElement)
.descriptionAndTooltip(message)
.create();
// todo implement for nested classes
HighlightDisplayKey displayKey = HighlightDisplayKey.find(SHORT_NAME);
registerCreateClassByTypeFix(refElement, info, displayKey);
registerAddImportFixes(refElement, info, displayKey);
UnresolvedReferenceQuickFixProvider.registerReferenceFixes(
refElement, new QuickFixActionRegistrarAdapter(info, displayKey));
OrderEntryFix.registerFixes(new QuickFixActionRegistrarAdapter(info, displayKey), refElement);
return info;
}
return null;
}
private static IElementType parseVar(
PsiBuilder builder,
boolean isInClass,
boolean hasModifiers,
GroovyParser parser,
boolean LParenth) {
// a = b, c = d
PsiBuilder.Marker varAssMarker = builder.mark();
final IElementType declarator = parseDeclarator(builder, LParenth);
if (declarator != GroovyElementTypes.WRONGWAY) {
final boolean wasAssignment = parseAssignment(builder, parser);
if (declarator == GroovyElementTypes.TUPLE_DECLARATION) {
varAssMarker.drop();
if (!wasAssignment && !hasModifiers) {
builder.error(GroovyBundle.message("assignment.expected"));
return GroovyElementTypes.WRONGWAY;
}
} else if (isInClass) { // a = b, c = d
varAssMarker.done(GroovyElementTypes.FIELD);
} else {
varAssMarker.done(GroovyElementTypes.VARIABLE);
}
while (ParserUtils.getToken(builder, GroovyTokenTypes.mCOMMA)) {
ParserUtils.getToken(builder, GroovyTokenTypes.mNLS);
if (GroovyElementTypes.WRONGWAY.equals(parseVariableOrField(builder, isInClass, parser))
&& declarator == GroovyTokenTypes.mIDENT) {
return GroovyElementTypes.VARIABLE_DEFINITION_ERROR; // parse b = d
}
}
if (isInClass && declarator == GroovyElementTypes.TUPLE_DECLARATION) {
builder.error(GroovyBundle.message("tuple.cant.be.placed.in.class"));
}
return GroovyElementTypes.VARIABLE_DEFINITION;
} else {
varAssMarker.drop();
builder.error(GroovyBundle.message("identifier.expected"));
return GroovyElementTypes.WRONGWAY;
}
}
public static boolean parseAnnotationMemberValueInitializer(
PsiBuilder builder, GroovyParser parser) {
if (builder.getTokenType() == mAT) {
return Annotation.parse(builder, parser);
} else if (builder.getTokenType() == mLBRACK) {
PsiBuilder.Marker marker = builder.mark();
ParserUtils.getToken(builder, mLBRACK);
while (parseAnnotationMemberValueInitializer(builder, parser)) {
if (builder.eof() || builder.getTokenType() == mRBRACK) break;
ParserUtils.getToken(builder, mCOMMA, GroovyBundle.message("comma.expected"));
}
ParserUtils.getToken(builder, mRBRACK, GroovyBundle.message("rbrack.expected"));
marker.done(ANNOTATION_ARRAY_INITIALIZER);
return true;
}
// check
return ConditionalExpression.parse(builder, parser) && !ParserUtils.getToken(builder, mASSIGN);
}
private static boolean parseAssignment(PsiBuilder builder, GroovyParser parser) {
if (ParserUtils.getToken(builder, GroovyTokenTypes.mASSIGN)) {
PsiBuilder.Marker marker = builder.mark();
ParserUtils.getToken(builder, GroovyTokenTypes.mNLS);
if (!AssignmentExpression.parse(builder, parser, true)) {
marker.rollbackTo();
builder.error(GroovyBundle.message("expression.expected"));
return false;
} else {
marker.drop();
return true;
}
}
return false;
}
private static boolean parseAnnotationMemberValueSinglePair(
PsiBuilder builder, GroovyParser parser) {
PsiBuilder.Marker annmvp = builder.mark();
if (!ParserUtils.getToken(builder, mIDENT)) {
annmvp.rollbackTo();
return false;
}
if (!ParserUtils.getToken(builder, mASSIGN)) {
annmvp.rollbackTo();
return false;
}
ParserUtils.getToken(builder, mNLS);
if (!parseAnnotationMemberValueInitializer(builder, parser)) {
builder.error(GroovyBundle.message("annotation.member.value.initializer.expected"));
}
annmvp.done(ANNOTATION_MEMBER_VALUE_PAIR);
return true;
}
private static boolean singleDeclNoInitParse(
PsiBuilder builder,
PsiBuilder.Marker marker,
PsiBuilder.Marker declMarker,
GroovyParser parser) {
if (ParserUtils.getToken(builder, mIDENT)) {
if (kIN.equals(builder.getTokenType()) || mCOLON.equals(builder.getTokenType())) {
declMarker.done(PARAMETER);
builder.advanceLexer();
if (!ShiftExpression.parse(builder, parser)) {
builder.error(GroovyBundle.message("expression.expected"));
}
marker.done(FOR_IN_CLAUSE);
return true;
} else {
marker.rollbackTo();
return false;
}
} else {
declMarker.drop();
marker.rollbackTo();
return false;
}
}
@NotNull
public String getText() {
return GroovyBundle.message("change.implements.and.extends.classes");
}
public boolean validateConfiguration(CompileScope compileScope) {
VirtualFile[] files = compileScope.getFiles(GroovyFileType.GROOVY_FILE_TYPE, true);
if (files.length == 0) return true;
final Set<String> scriptExtensions = GroovyFileTypeLoader.getCustomGroovyScriptExtensions();
final CompilerManager compilerManager = CompilerManager.getInstance(myProject);
Set<Module> modules = new HashSet<Module>();
for (VirtualFile file : files) {
if (scriptExtensions.contains(file.getExtension())
|| compilerManager.isExcludedFromCompilation(file)
|| CompilerConfiguration.getInstance(myProject).isResourceFile(file)) {
continue;
}
ProjectRootManager rootManager = ProjectRootManager.getInstance(myProject);
Module module = rootManager.getFileIndex().getModuleForFile(file);
if (module != null) {
modules.add(module);
}
}
Set<Module> nojdkModules = new HashSet<Module>();
for (Module module : modules) {
if (!GroovyUtils.isAcceptableModuleType(ModuleType.get(module))) continue;
final Sdk sdk = ModuleRootManager.getInstance(module).getSdk();
if (sdk == null || !(sdk.getSdkType() instanceof JavaSdkType)) {
nojdkModules.add(module);
continue;
}
if (!LibrariesUtil.hasGroovySdk(module)) {
if (!GroovyConfigUtils.getInstance().tryToSetUpGroovyFacetOntheFly(module)) {
Messages.showErrorDialog(
myProject,
GroovyBundle.message("cannot.compile.groovy.files.no.facet", module.getName()),
GroovyBundle.message("cannot.compile"));
ModulesConfigurator.showDialog(
module.getProject(), module.getName(), ClasspathEditor.NAME);
return false;
}
}
}
if (!nojdkModules.isEmpty()) {
final Module[] noJdkArray = nojdkModules.toArray(new Module[nojdkModules.size()]);
if (noJdkArray.length == 1) {
Messages.showErrorDialog(
myProject,
GroovyBundle.message("cannot.compile.groovy.files.no.sdk", noJdkArray[0].getName()),
GroovyBundle.message("cannot.compile"));
} else {
StringBuilder modulesList = new StringBuilder();
for (int i = 0; i < noJdkArray.length; i++) {
if (i > 0) modulesList.append(", ");
modulesList.append(noJdkArray[i].getName());
}
Messages.showErrorDialog(
myProject,
GroovyBundle.message("cannot.compile.groovy.files.no.sdk.mult", modulesList.toString()),
GroovyBundle.message("cannot.compile"));
}
return false;
}
final GroovyCompilerConfiguration configuration =
GroovyCompilerConfiguration.getInstance(myProject);
if (!configuration.transformsOk && needTransformCopying(compileScope)) {
final int result =
Messages.showYesNoDialog(
myProject,
"You seem to have global Groovy AST transformations defined in your project,\n"
+ "but they won't be applied to your code because they are not marked as compiler resources.\n"
+ "Do you want to add them to compiler resource list?\n"
+ "(you can do it yourself later in Settings | Compiler | Resource patterns)",
"AST Transformations found",
GroovyIcons.GROOVY_ICON_32x32);
if (result == 0) {
CompilerConfiguration.getInstance(myProject)
.addResourceFilePattern(AST_TRANSFORM_FILE_NAME);
} else {
configuration.transformsOk = true;
}
}
return true;
}
@Nullable
public static IElementType parseAfterModifiers(
PsiBuilder builder,
boolean isInClass,
boolean isInAnnotation,
GroovyParser parser,
PsiBuilder.Marker declMarker,
boolean modifiersParsed) {
if (modifiersParsed && mLT == builder.getTokenType()) {
TypeParameters.parse(builder);
PsiBuilder.Marker checkMarker = builder.mark(); // point to begin of type or variable
if (TypeSpec.parse(builder, true)
== fail) { // if type wasn't recognized trying parse VariableDeclaration
checkMarker.rollbackTo();
} else {
checkMarker.drop();
}
IElementType decl =
VariableDefinitions.parseDefinitions(
builder, isInClass, false, false, true, modifiersParsed, false, parser);
if (WRONGWAY.equals(decl)) {
return WRONGWAY;
}
return METHOD_DEFINITION;
}
if (modifiersParsed) {
PsiBuilder.Marker checkMarker = builder.mark(); // point to begin of type or variable
if (TypeSpec.parse(builder, false)
== fail) { // if type wasn't recognized trying parse VariableDeclaration
checkMarker.rollbackTo();
if (isInAnnotation) {
builder.error(GroovyBundle.message("type.expected"));
}
// current token isn't identifier
IElementType varDecl =
VariableDefinitions.parse(builder, isInClass, modifiersParsed, parser);
if (WRONGWAY.equals(varDecl)) {
return WRONGWAY;
}
return varDecl;
} else { // type was recognized, identifier here
// starts after type
IElementType varDeclarationTop =
VariableDefinitions.parse(builder, isInClass, modifiersParsed, false, parser);
if (WRONGWAY.equals(varDeclarationTop)) {
checkMarker.rollbackTo();
if (isInAnnotation) {
builder.error(GroovyBundle.message("type.expected"));
}
// starts before "type" identifier, here can't be tuple, because next token is identifier
// (we are in "type recognized" branch)
IElementType varDecl =
VariableDefinitions.parse(builder, isInClass, modifiersParsed, false, parser);
if (WRONGWAY.equals(varDecl)) {
return WRONGWAY;
} else {
return varDecl;
}
} else {
checkMarker.drop();
return varDeclarationTop;
}
}
} else {
// if definition starts with lower case letter than it can be just call expression
String text = builder.getTokenText();
if (!builder.eof()
&& !TokenSets.BUILT_IN_TYPE.contains(builder.getTokenType())
&& text != null
&& (Character.isLowerCase((text.charAt(0))) || !Character.isLetter(text.charAt(0)))
&& (ParserUtils.lookAhead(builder, mIDENT, mIDENT)
|| ParserUtils.lookAhead(builder, mIDENT, mLPAREN))) {
// call expression
return WRONGWAY;
}
boolean typeParsed = false;
if (!ParserUtils.lookAhead(builder, mIDENT, mLPAREN)) {
typeParsed = TypeSpec.parse(builder, true) != fail;
// type specification starts with upper case letter
if (!typeParsed) {
builder.error(GroovyBundle.message("type.specification.expected"));
return WRONGWAY;
}
}
IElementType varDef =
VariableDefinitions.parseDefinitions(
builder, isInClass, false, false, false, typeParsed, false, parser);
if (varDef != WRONGWAY) {
return varDef;
} else if (isInClass && typeParsed) {
return typeParsed ? null : WRONGWAY;
}
return WRONGWAY;
}
}
@Override
protected String buildErrorString(Object... args) {
return GroovyBundle.message("label.already.used", args);
}
