org.jetbrains.kotlin.parsing.KotlinParsing Maven / Gradle / Ivy
/*
* Copyright 2010-2017 JetBrains s.r.o.
*
* Licensed 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.jetbrains.kotlin.parsing;
import com.intellij.lang.PsiBuilder;
import com.intellij.lang.WhitespacesBinders;
import com.intellij.openapi.diagnostic.Logger;
import com.intellij.psi.tree.IElementType;
import com.intellij.psi.tree.TokenSet;
import org.jetbrains.annotations.Contract;
import org.jetbrains.annotations.NotNull;
import org.jetbrains.annotations.Nullable;
import org.jetbrains.kotlin.lexer.KtKeywordToken;
import org.jetbrains.kotlin.lexer.KtTokens;
import static org.jetbrains.kotlin.KtNodeTypes.*;
import static org.jetbrains.kotlin.lexer.KtTokens.*;
import static org.jetbrains.kotlin.parsing.KotlinParsing.AnnotationParsingMode.*;
import static org.jetbrains.kotlin.parsing.KotlinWhitespaceAndCommentsBindersKt.PRECEDING_ALL_BINDER;
import static org.jetbrains.kotlin.parsing.KotlinWhitespaceAndCommentsBindersKt.TRAILING_ALL_BINDER;
public class KotlinParsing extends AbstractKotlinParsing {
private static final TokenSet GT_COMMA_COLON_SET = TokenSet.create(GT, COMMA, COLON);
private static final Logger LOG = Logger.getInstance(KotlinParsing.class);
private static final TokenSet TOP_LEVEL_DECLARATION_FIRST = TokenSet.create(
TYPE_ALIAS_KEYWORD, INTERFACE_KEYWORD, CLASS_KEYWORD, OBJECT_KEYWORD,
FUN_KEYWORD, VAL_KEYWORD, PACKAGE_KEYWORD);
private static final TokenSet TOP_LEVEL_DECLARATION_FIRST_SEMICOLON_SET =
TokenSet.orSet(TOP_LEVEL_DECLARATION_FIRST, TokenSet.create(SEMICOLON));
private static final TokenSet LT_EQ_SEMICOLON_TOP_LEVEL_DECLARATION_FIRST_SET =
TokenSet.orSet(TokenSet.create(LT, EQ, SEMICOLON), TOP_LEVEL_DECLARATION_FIRST);
private static final TokenSet DECLARATION_FIRST = TokenSet.orSet(TOP_LEVEL_DECLARATION_FIRST,
TokenSet.create(INIT_KEYWORD, GET_KEYWORD, SET_KEYWORD, CONSTRUCTOR_KEYWORD));
private static final TokenSet CLASS_NAME_RECOVERY_SET = TokenSet.orSet(TokenSet.create(LT, LPAR, COLON, LBRACE),
TOP_LEVEL_DECLARATION_FIRST);
private static final TokenSet TYPE_PARAMETER_GT_RECOVERY_SET = TokenSet.create(WHERE_KEYWORD, LPAR, COLON, LBRACE, GT);
public static final TokenSet PARAMETER_NAME_RECOVERY_SET = TokenSet.create(COLON, EQ, COMMA, RPAR, VAL_KEYWORD, VAR_KEYWORD);
private static final TokenSet PACKAGE_NAME_RECOVERY_SET = TokenSet.create(DOT, EOL_OR_SEMICOLON);
private static final TokenSet IMPORT_RECOVERY_SET = TokenSet.create(AS_KEYWORD, DOT, EOL_OR_SEMICOLON);
private static final TokenSet TYPE_REF_FIRST = TokenSet.create(LBRACKET, IDENTIFIER, LPAR, HASH, DYNAMIC_KEYWORD);
private static final TokenSet LBRACE_RBRACE_TYPE_REF_FIRST_SET =
TokenSet.orSet(TokenSet.create(LBRACE, RBRACE), TYPE_REF_FIRST);
private static final TokenSet COLON_COMMA_LBRACE_RBRACE_TYPE_REF_FIRST_SET =
TokenSet.orSet(TokenSet.create(COLON, COMMA, LBRACE, RBRACE), TYPE_REF_FIRST);
private static final TokenSet RECEIVER_TYPE_TERMINATORS = TokenSet.create(DOT, SAFE_ACCESS);
private static final TokenSet VALUE_PARAMETER_FIRST =
TokenSet.orSet(
TokenSet.create(IDENTIFIER, LBRACKET, VAL_KEYWORD, VAR_KEYWORD),
TokenSet.andNot(MODIFIER_KEYWORDS, TokenSet.create(FUN_KEYWORD))
);
private static final TokenSet LAMBDA_VALUE_PARAMETER_FIRST =
TokenSet.orSet(
TokenSet.create(IDENTIFIER, LBRACKET),
TokenSet.andNot(MODIFIER_KEYWORDS, TokenSet.create(FUN_KEYWORD))
);
private static final TokenSet SOFT_KEYWORDS_AT_MEMBER_START = TokenSet.create(CONSTRUCTOR_KEYWORD, INIT_KEYWORD);
private static final TokenSet ANNOTATION_TARGETS = TokenSet.create(
FILE_KEYWORD, FIELD_KEYWORD, GET_KEYWORD, SET_KEYWORD, PROPERTY_KEYWORD,
RECEIVER_KEYWORD, PARAM_KEYWORD, SETPARAM_KEYWORD, DELEGATE_KEYWORD);
private static final TokenSet BLOCK_DOC_COMMENT_SET = TokenSet.create(BLOCK_COMMENT, DOC_COMMENT);
private static final TokenSet SEMICOLON_SET = TokenSet.create(SEMICOLON);
private static final TokenSet COMMA_COLON_GT_SET = TokenSet.create(COMMA, COLON, GT);
private static final TokenSet IDENTIFIER_RBRACKET_LBRACKET_SET = TokenSet.create(IDENTIFIER, RBRACKET, LBRACKET);
private static final TokenSet LBRACE_RBRACE_SET = TokenSet.create(LBRACE, RBRACE);
private static final TokenSet COMMA_SEMICOLON_RBRACE_SET = TokenSet.create(COMMA, SEMICOLON, RBRACE);
private static final TokenSet VALUE_ARGS_RECOVERY_SET = TokenSet.create(LBRACE, SEMICOLON, RPAR, EOL_OR_SEMICOLON, RBRACE);
private static final TokenSet PROPERTY_NAME_FOLLOW_SET =
TokenSet.create(COLON, EQ, LBRACE, RBRACE, SEMICOLON, VAL_KEYWORD, VAR_KEYWORD, FUN_KEYWORD, CLASS_KEYWORD);
private static final TokenSet PROPERTY_NAME_FOLLOW_MULTI_DECLARATION_RECOVERY_SET = TokenSet.orSet(PROPERTY_NAME_FOLLOW_SET, PARAMETER_NAME_RECOVERY_SET);
private static final TokenSet PROPERTY_NAME_FOLLOW_FUNCTION_OR_PROPERTY_RECOVERY_SET = TokenSet.orSet(PROPERTY_NAME_FOLLOW_SET, LBRACE_RBRACE_SET, TOP_LEVEL_DECLARATION_FIRST);
private static final TokenSet IDENTIFIER_EQ_COLON_SEMICOLON_SET = TokenSet.create(IDENTIFIER, EQ, COLON, SEMICOLON);
private static final TokenSet COMMA_RPAR_COLON_EQ_SET = TokenSet.create(COMMA, RPAR, COLON, EQ);
private static final TokenSet ACCESSOR_FIRST_OR_PROPERTY_END =
TokenSet.orSet(MODIFIER_KEYWORDS, TokenSet.create(AT, GET_KEYWORD, SET_KEYWORD, FIELD_KEYWORD, EOL_OR_SEMICOLON, RBRACE));
private static final TokenSet RPAR_IDENTIFIER_COLON_LBRACE_EQ_SET = TokenSet.create(RPAR, IDENTIFIER, COLON, LBRACE, EQ);
private static final TokenSet COMMA_COLON_RPAR_SET = TokenSet.create(COMMA, COLON, RPAR);
private static final TokenSet RPAR_COLON_LBRACE_EQ_SET = TokenSet.create(RPAR, COLON, LBRACE, EQ);
private static final TokenSet LBRACKET_LBRACE_RBRACE_LPAR_SET = TokenSet.create(LBRACKET, LBRACE, RBRACE, LPAR);
private static final TokenSet FUNCTION_NAME_FOLLOW_SET = TokenSet.create(LT, LPAR, RPAR, COLON, EQ);
private static final TokenSet FUNCTION_NAME_RECOVERY_SET = TokenSet.orSet(TokenSet.create(LT, LPAR, RPAR, COLON, EQ), LBRACE_RBRACE_SET, TOP_LEVEL_DECLARATION_FIRST);
private static final TokenSet VALUE_PARAMETERS_FOLLOW_SET = TokenSet.create(EQ, LBRACE, RBRACE, SEMICOLON, RPAR);
private static final TokenSet LPAR_VALUE_PARAMETERS_FOLLOW_SET = TokenSet.orSet(TokenSet.create(LPAR), VALUE_PARAMETERS_FOLLOW_SET);
private static final TokenSet
LPAR_LBRACE_COLON_CONSTRUCTOR_KEYWORD_SET = TokenSet.create(LPAR, LBRACE, COLON, CONSTRUCTOR_KEYWORD);
private static final TokenSet definitelyOutOfReceiverSet = TokenSet.orSet(
TokenSet.create(EQ, COLON, LBRACE, RBRACE, BY_KEYWORD),
TOP_LEVEL_DECLARATION_FIRST
);
private final static TokenSet EOL_OR_SEMICOLON_RBRACE_SET = TokenSet.create(EOL_OR_SEMICOLON, RBRACE);
private final static TokenSet CLASS_INTERFACE_SET = TokenSet.create(CLASS_KEYWORD, INTERFACE_KEYWORD);
static KotlinParsing createForTopLevel(SemanticWhitespaceAwarePsiBuilder builder) {
return new KotlinParsing(builder, true, true);
}
static KotlinParsing createForTopLevelNonLazy(SemanticWhitespaceAwarePsiBuilder builder) {
return new KotlinParsing(builder, true, false);
}
private static KotlinParsing createForByClause(SemanticWhitespaceAwarePsiBuilder builder, boolean isLazy) {
return new KotlinParsing(new SemanticWhitespaceAwarePsiBuilderForByClause(builder), false, isLazy);
}
private final KotlinExpressionParsing myExpressionParsing;
private final FirstBefore lastDotAfterReceiverLParPattern = new FirstBefore(
new AtSet(RECEIVER_TYPE_TERMINATORS),
new AbstractTokenStreamPredicate() {
@Override
public boolean matching(boolean topLevel) {
if (topLevel && atSet(definitelyOutOfReceiverSet)) {
return true;
}
return topLevel && !at(QUEST) && !at(LPAR) && !at(RPAR);
}
}
);
private final LastBefore lastDotAfterReceiverNotLParPattern = new LastBefore(
new AtSet(RECEIVER_TYPE_TERMINATORS),
new AbstractTokenStreamPredicate() {
@Override
public boolean matching(boolean topLevel) {
if (topLevel && (atSet(definitelyOutOfReceiverSet) || at(LPAR))) return true;
if (topLevel && at(IDENTIFIER)) {
IElementType lookahead = lookahead(1);
return lookahead != LT && lookahead != DOT && lookahead != SAFE_ACCESS && lookahead != QUEST;
}
return false;
}
});
private KotlinParsing(SemanticWhitespaceAwarePsiBuilder builder, boolean isTopLevel, boolean isLazy) {
super(builder, isLazy);
myExpressionParsing = isTopLevel
? new KotlinExpressionParsing(builder, this, isLazy)
: new KotlinExpressionParsing(builder, this, isLazy) {
@Override
protected boolean parseCallWithClosure() {
if (((SemanticWhitespaceAwarePsiBuilderForByClause) builder).getStackSize() > 0) {
return super.parseCallWithClosure();
}
return false;
}
@Override
protected KotlinParsing create(SemanticWhitespaceAwarePsiBuilder builder) {
return createForByClause(builder, isLazy);
}
};
}
/*
* [start] kotlinFile
* : preamble toplevelObject* [eof]
* ;
*/
void parseFile() {
PsiBuilder.Marker fileMarker = mark();
parsePreamble();
while (!eof()) {
parseTopLevelDeclaration();
}
checkUnclosedBlockComment();
fileMarker.done(KT_FILE);
}
private void checkUnclosedBlockComment() {
if (BLOCK_DOC_COMMENT_SET.contains(myBuilder.rawLookup(-1))) {
int startOffset = myBuilder.rawTokenTypeStart(-1);
int endOffset = myBuilder.rawTokenTypeStart(0);
CharSequence tokenChars = myBuilder.getOriginalText().subSequence(startOffset, endOffset);
if (!(tokenChars.length() > 2 && tokenChars.subSequence(tokenChars.length() - 2, tokenChars.length()).toString().equals("*/"))) {
PsiBuilder.Marker marker = myBuilder.mark();
marker.error("Unclosed comment");
marker.setCustomEdgeTokenBinders(WhitespacesBinders.GREEDY_RIGHT_BINDER, null);
}
}
}
void parseTypeCodeFragment() {
PsiBuilder.Marker marker = mark();
parseTypeRef();
checkForUnexpectedSymbols();
marker.done(TYPE_CODE_FRAGMENT);
}
void parseExpressionCodeFragment() {
PsiBuilder.Marker marker = mark();
myExpressionParsing.parseExpression();
checkForUnexpectedSymbols();
marker.done(EXPRESSION_CODE_FRAGMENT);
}
void parseBlockCodeFragment() {
PsiBuilder.Marker marker = mark();
PsiBuilder.Marker blockMarker = mark();
if (at(PACKAGE_KEYWORD) || at(IMPORT_KEYWORD)) {
PsiBuilder.Marker err = mark();
parsePreamble();
err.error("Package directive and imports are forbidden in code fragments");
}
myExpressionParsing.parseStatements();
checkForUnexpectedSymbols();
blockMarker.done(BLOCK);
marker.done(BLOCK_CODE_FRAGMENT);
}
void parseLambdaExpression() {
myExpressionParsing.parseFunctionLiteral(/* preferBlock = */ false, /* collapse = */false);
}
void parseBlockExpression() {
parseBlock(/* collapse = */ false);
}
void parseScript() {
PsiBuilder.Marker fileMarker = mark();
parsePreamble();
PsiBuilder.Marker scriptMarker = mark();
PsiBuilder.Marker blockMarker = mark();
myExpressionParsing.parseStatements(/*isScriptTopLevel = */true);
checkForUnexpectedSymbols();
blockMarker.done(BLOCK);
blockMarker.setCustomEdgeTokenBinders(PRECEDING_ALL_BINDER, TRAILING_ALL_BINDER);
scriptMarker.done(SCRIPT);
scriptMarker.setCustomEdgeTokenBinders(PRECEDING_ALL_BINDER, TRAILING_ALL_BINDER);
fileMarker.done(KT_FILE);
}
private void checkForUnexpectedSymbols() {
while (!eof()) {
errorAndAdvance("Unexpected symbol");
}
}
/*
*preamble
* : fileAnnotationList? packageDirective? import*
* ;
*/
private void parsePreamble() {
PsiBuilder.Marker firstEntry = mark();
/*
* fileAnnotationList
* : fileAnnotations*
*/
parseFileAnnotationList(FILE_ANNOTATIONS_BEFORE_PACKAGE);
/*
* packageDirective
* : modifiers "package" SimpleName{"."} SEMI?
* ;
*/
PsiBuilder.Marker packageDirective = mark();
parseModifierList(TokenSet.EMPTY);
if (at(PACKAGE_KEYWORD)) {
advance(); // PACKAGE_KEYWORD
parsePackageName();
firstEntry.drop();
consumeIf(SEMICOLON);
packageDirective.done(PACKAGE_DIRECTIVE);
}
else {
// When package directive is omitted we should not report error on non-file annotations at the beginning of the file.
// So, we rollback the parsing position and reparse file annotation list without report error on non-file annotations.
firstEntry.rollbackTo();
parseFileAnnotationList(FILE_ANNOTATIONS_WHEN_PACKAGE_OMITTED);
packageDirective = mark();
packageDirective.done(PACKAGE_DIRECTIVE);
// Need to skip everything but shebang comment to allow comments at the start of the file to be bound to the first declaration.
packageDirective.setCustomEdgeTokenBinders(BindFirstShebangWithWhitespaceOnly.INSTANCE, null);
}
parseImportDirectives();
}
/* SimpleName{"."} */
private void parsePackageName() {
PsiBuilder.Marker qualifiedExpression = mark();
boolean simpleName = true;
while (true) {
if (myBuilder.newlineBeforeCurrentToken()) {
errorWithRecovery("Package name must be a '.'-separated identifier list placed on a single line", PACKAGE_NAME_RECOVERY_SET);
break;
}
if (at(DOT)) {
advance(); // DOT
qualifiedExpression.error("Package name must be a '.'-separated identifier list");
qualifiedExpression = mark();
continue;
}
PsiBuilder.Marker nsName = mark();
boolean simpleNameFound = expect(IDENTIFIER, "Package name must be a '.'-separated identifier list", PACKAGE_NAME_RECOVERY_SET);
if (simpleNameFound) {
nsName.done(REFERENCE_EXPRESSION);
}
else {
nsName.drop();
}
if (!simpleName) {
PsiBuilder.Marker precedingMarker = qualifiedExpression.precede();
qualifiedExpression.done(DOT_QUALIFIED_EXPRESSION);
qualifiedExpression = precedingMarker;
}
if (at(DOT)) {
advance(); // DOT
if (simpleName && !simpleNameFound) {
qualifiedExpression.drop();
qualifiedExpression = mark();
}
else {
simpleName = false;
}
}
else {
break;
}
}
qualifiedExpression.drop();
}
/*
* import
* : "import" SimpleName{"."} ("." "*" | "as" SimpleName)? SEMI?
* ;
*/
private void parseImportDirective() {
assert _at(IMPORT_KEYWORD);
PsiBuilder.Marker importDirective = mark();
advance(); // IMPORT_KEYWORD
if (closeImportWithErrorIfNewline(importDirective, null, "Expecting qualified name")) {
return;
}
if (!at(IDENTIFIER)) {
PsiBuilder.Marker error = mark();
skipUntil(TokenSet.create(EOL_OR_SEMICOLON));
error.error("Expecting qualified name");
importDirective.done(IMPORT_DIRECTIVE);
consumeIf(SEMICOLON);
return;
}
PsiBuilder.Marker qualifiedName = mark();
PsiBuilder.Marker reference = mark();
advance(); // IDENTIFIER
reference.done(REFERENCE_EXPRESSION);
while (at(DOT) && lookahead(1) != MUL) {
advance(); // DOT
if (closeImportWithErrorIfNewline(importDirective, null, "Import must be placed on a single line")) {
qualifiedName.drop();
return;
}
reference = mark();
if (expect(IDENTIFIER, "Qualified name must be a '.'-separated identifier list", IMPORT_RECOVERY_SET)) {
reference.done(REFERENCE_EXPRESSION);
}
else {
reference.drop();
}
PsiBuilder.Marker precede = qualifiedName.precede();
qualifiedName.done(DOT_QUALIFIED_EXPRESSION);
qualifiedName = precede;
}
qualifiedName.drop();
if (at(DOT)) {
advance(); // DOT
assert _at(MUL);
advance(); // MUL
if (at(AS_KEYWORD)) {
PsiBuilder.Marker as = mark();
advance(); // AS_KEYWORD
if (closeImportWithErrorIfNewline(importDirective, null, "Expecting identifier")) {
as.drop();
return;
}
consumeIf(IDENTIFIER);
as.done(IMPORT_ALIAS);
as.precede().error("Cannot rename all imported items to one identifier");
}
}
if (at(AS_KEYWORD)) {
PsiBuilder.Marker alias = mark();
advance(); // AS_KEYWORD
if (closeImportWithErrorIfNewline(importDirective, alias, "Expecting identifier")) {
return;
}
expect(IDENTIFIER, "Expecting identifier", SEMICOLON_SET);
alias.done(IMPORT_ALIAS);
}
consumeIf(SEMICOLON);
importDirective.done(IMPORT_DIRECTIVE);
importDirective.setCustomEdgeTokenBinders(null, TrailingCommentsBinder.INSTANCE);
}
private boolean closeImportWithErrorIfNewline(
PsiBuilder.Marker importDirective,
@Nullable PsiBuilder.Marker importAlias,
String errorMessage) {
if (myBuilder.newlineBeforeCurrentToken()) {
if (importAlias != null) {
importAlias.done(IMPORT_ALIAS);
}
error(errorMessage);
importDirective.done(IMPORT_DIRECTIVE);
return true;
}
return false;
}
private void parseImportDirectives() {
PsiBuilder.Marker importList = mark();
if (!at(IMPORT_KEYWORD)) {
// this is necessary to allow comments at the start of the file to be bound to the first declaration
importList.setCustomEdgeTokenBinders(DoNotBindAnything.INSTANCE, null);
}
while (at(IMPORT_KEYWORD)) {
parseImportDirective();
}
importList.done(IMPORT_LIST);
}
/*
* toplevelObject
* : package
* : class
* : extension
* : function
* : property
* : typeAlias
* : object
* ;
*/
private void parseTopLevelDeclaration() {
if (at(SEMICOLON)) {
advance(); // SEMICOLON
return;
}
PsiBuilder.Marker decl = mark();
if (at(CONTEXT_KEYWORD)) {
parseContextReceiverList();
}
ModifierDetector detector = new ModifierDetector();
parseModifierList(detector, TokenSet.EMPTY);
IElementType declType = parseCommonDeclaration(detector, NameParsingMode.REQUIRED, DeclarationParsingMode.MEMBER_OR_TOPLEVEL);
if (declType == null && at(LBRACE)) {
error("Expecting a top level declaration");
parseBlock();
declType = FUN;
}
if (declType == null && at(IMPORT_KEYWORD)) {
error("imports are only allowed in the beginning of file");
parseImportDirectives();
decl.drop();
}
else if (declType == null) {
errorAndAdvance("Expecting a top level declaration");
decl.drop();
}
else {
closeDeclarationWithCommentBinders(decl, declType, true);
}
}
public IElementType parseCommonDeclaration(
@NotNull ModifierDetector detector,
@NotNull NameParsingMode nameParsingModeForObject,
@NotNull DeclarationParsingMode declarationParsingMode
) {
switch (getTokenId()) {
case CLASS_KEYWORD_Id:
case INTERFACE_KEYWORD_Id:
return parseClass(detector.isEnumDetected(), true);
case FUN_KEYWORD_Id:
return parseFunction();
case VAL_KEYWORD_Id:
case VAR_KEYWORD_Id:
return parseProperty(declarationParsingMode);
case TYPE_ALIAS_KEYWORD_Id:
return parseTypeAlias();
case OBJECT_KEYWORD_Id:
parseObject(nameParsingModeForObject, true);
return OBJECT_DECLARATION;
case IDENTIFIER_Id:
if (detector.isEnumDetected() && declarationParsingMode.canBeEnumUsedAsSoftKeyword) {
return parseClass(true, false);
}
}
return null;
}
/*
* (modifier | annotation)*
*/
boolean parseModifierList(@NotNull TokenSet noModifiersBefore) {
return parseModifierList(null, noModifiersBefore);
}
void parseAnnotationsList(@NotNull TokenSet noModifiersBefore) {
doParseModifierList(null, TokenSet.EMPTY, AnnotationParsingMode.DEFAULT, noModifiersBefore);
}
/**
* (modifier | annotation)*
*
* Feeds modifiers (not annotations) into the passed consumer, if it is not null
*
* @param noModifiersBefore is a token set with elements indicating when met them
* that previous token must be parsed as an identifier rather than modifier
*/
boolean parseModifierList(@Nullable Consumer tokenConsumer, @NotNull TokenSet noModifiersBefore) {
return doParseModifierList(tokenConsumer, MODIFIER_KEYWORDS, AnnotationParsingMode.DEFAULT, noModifiersBefore);
}
private void parseFunctionTypeValueParameterModifierList() {
doParseModifierList(null, RESERVED_VALUE_PARAMETER_MODIFIER_KEYWORDS, NO_ANNOTATIONS, NO_MODIFIER_BEFORE_FOR_VALUE_PARAMETER);
}
private void parseTypeModifierList() {
doParseModifierList(null, TYPE_MODIFIER_KEYWORDS, TYPE_CONTEXT, TokenSet.EMPTY);
}
private void parseTypeArgumentModifierList() {
doParseModifierList(null, TYPE_ARGUMENT_MODIFIER_KEYWORDS, NO_ANNOTATIONS, COMMA_COLON_GT_SET);
}
private boolean doParseModifierListBody(
@Nullable Consumer tokenConsumer,
@NotNull TokenSet modifierKeywords,
@NotNull AnnotationParsingMode annotationParsingMode,
@NotNull TokenSet noModifiersBefore
) {
boolean empty = true;
PsiBuilder.Marker beforeAnnotationMarker;
while (!eof()) {
if (at(AT) && annotationParsingMode.allowAnnotations) {
beforeAnnotationMarker = mark();
boolean isAnnotationParsed = parseAnnotationOrList(annotationParsingMode);
if (!isAnnotationParsed && !annotationParsingMode.withSignificantWhitespaceBeforeArguments) {
beforeAnnotationMarker.rollbackTo();
// try parse again, but with significant whitespace
doParseModifierListBody(tokenConsumer, modifierKeywords, WITH_SIGNIFICANT_WHITESPACE_BEFORE_ARGUMENTS, noModifiersBefore);
empty = false;
break;
} else {
beforeAnnotationMarker.drop();
}
}
else if (tryParseModifier(tokenConsumer, noModifiersBefore, modifierKeywords)) {
// modifier advanced
}
else {
break;
}
empty = false;
}
return empty;
}
private boolean doParseModifierList(
@Nullable Consumer tokenConsumer,
@NotNull TokenSet modifierKeywords,
@NotNull AnnotationParsingMode annotationParsingMode,
@NotNull TokenSet noModifiersBefore
) {
PsiBuilder.Marker list = mark();
boolean empty = doParseModifierListBody(
tokenConsumer,
modifierKeywords,
annotationParsingMode,
noModifiersBefore
);
if (empty) {
list.drop();
}
else {
list.done(MODIFIER_LIST);
}
return !empty;
}
private boolean tryParseModifier(
@Nullable Consumer tokenConsumer,
@NotNull TokenSet noModifiersBefore,
@NotNull TokenSet modifierKeywords
) {
PsiBuilder.Marker marker = mark();
if (atSet(modifierKeywords)) {
IElementType lookahead = lookahead(1);
if (at(FUN_KEYWORD) && lookahead != INTERFACE_KEYWORD) {
marker.rollbackTo();
return false;
}
if (lookahead != null && !noModifiersBefore.contains(lookahead)) {
IElementType tt = tt();
if (tokenConsumer != null) {
tokenConsumer.consume(tt);
}
advance(); // MODIFIER
marker.collapse(tt);
return true;
}
}
marker.rollbackTo();
return false;
}
/*
* contextReceiverList
* : "context" "(" (contextReceiver{","})+ ")"
*/
private void parseContextReceiverList() {
assert _at(CONTEXT_KEYWORD);
PsiBuilder.Marker contextReceiverList = mark();
advance(); // CONTEXT_KEYWORD
if (at(LPAR)) {
advance(); // LPAR
while (true) {
if (at(COMMA)) {
errorAndAdvance("Expecting a type reference");
}
parseContextReceiver();
if (at(RPAR)) {
advance();
break;
}
if (at(COMMA)) {
advance();
} else {
if (!at(RPAR)) {
error("Expecting comma or ')'");
break;
}
}
}
contextReceiverList.done(CONTEXT_RECEIVER_LIST);
} else {
errorWithRecovery("Expecting context receivers", TokenSet.EMPTY);
contextReceiverList.drop();
}
}
/*
* contextReceiver
* : label? typeReference
*/
private void parseContextReceiver() {
PsiBuilder.Marker contextReceiver = mark();
if (myExpressionParsing.isAtLabelDefinitionOrMissingIdentifier()) {
myExpressionParsing.parseLabelDefinition();
}
parseTypeRef();
contextReceiver.done(CONTEXT_RECEIVER);
}
/*
* fileAnnotationList
* : ("[" "file:" annotationEntry+ "]")*
* ;
*/
private void parseFileAnnotationList(AnnotationParsingMode mode) {
if (!mode.isFileAnnotationParsingMode) {
LOG.error("expected file annotation parsing mode, but:" + mode);
}
PsiBuilder.Marker fileAnnotationsList = mark();
if (parseAnnotations(mode)) {
fileAnnotationsList.done(FILE_ANNOTATION_LIST);
}
else {
fileAnnotationsList.drop();
}
}
/*
* annotations
* : (annotation | annotationList)*
* ;
*/
boolean parseAnnotations(AnnotationParsingMode mode) {
if (!parseAnnotationOrList(mode)) return false;
while (parseAnnotationOrList(mode)) {
// do nothing
}
return true;
}
/*
* annotation
* : "@" (annotationUseSiteTarget ":")? unescapedAnnotation
* ;
*
* annotationList
* : "@" (annotationUseSiteTarget ":")? "[" unescapedAnnotation+ "]"
* ;
*
* annotationUseSiteTarget
* : "file"
* : "field"
* : "property"
* : "get"
* : "set"
* : "param"
* : "setparam"
* ;
*/
private boolean parseAnnotationOrList(AnnotationParsingMode mode) {
if (at(AT)) {
IElementType nextRawToken = myBuilder.rawLookup(1);
IElementType tokenToMatch = nextRawToken;
boolean isTargetedAnnotation = false;
if ((nextRawToken == IDENTIFIER || ANNOTATION_TARGETS.contains(nextRawToken)) && lookahead(2) == COLON) {
tokenToMatch = lookahead(3);
isTargetedAnnotation = true;
}
else if (lookahead(1) == COLON) {
// recovery for "@:ann"
isTargetedAnnotation = true;
tokenToMatch = lookahead(2);
}
if (tokenToMatch == IDENTIFIER) {
return parseAnnotation(mode);
}
else if (tokenToMatch == LBRACKET) {
return parseAnnotationList(mode);
}
else {
if (isTargetedAnnotation) {
if (lookahead(1) == COLON) {
errorAndAdvance("Expected annotation identifier after ':'", 2); // AT, COLON
}
else {
errorAndAdvance("Expected annotation identifier after ':'", 3); // AT, (ANNOTATION TARGET KEYWORD), COLON
}
}
else {
errorAndAdvance("Expected annotation identifier after '@'", 1); // AT
}
}
return true;
}
return false;
}
private boolean parseAnnotationList(AnnotationParsingMode mode) {
assert _at(AT);
PsiBuilder.Marker annotation = mark();
myBuilder.disableNewlines();
advance(); // AT
if (!parseAnnotationTargetIfNeeded(mode)) {
annotation.rollbackTo();
myBuilder.restoreNewlinesState();
return false;
}
assert _at(LBRACKET);
advance(); // LBRACKET
if (!at(IDENTIFIER) && !at(AT)) {
error("Expecting a list of annotations");
}
else {
while (at(IDENTIFIER) || at(AT)) {
if (at(AT)) {
errorAndAdvance("No '@' needed in annotation list"); // AT
continue;
}
parseAnnotation(DEFAULT);
while (at(COMMA)) {
errorAndAdvance("No commas needed to separate annotations");
}
}
}
expect(RBRACKET, "Expecting ']' to close the annotation list");
myBuilder.restoreNewlinesState();
annotation.done(ANNOTATION);
return true;
}
// Returns true if we should continue parse annotation
private boolean parseAnnotationTargetIfNeeded(AnnotationParsingMode mode) {
String expectedAnnotationTargetBeforeColon = "Expected annotation target before ':'";
if (at(COLON)) {
// recovery for "@:ann"
errorAndAdvance(expectedAnnotationTargetBeforeColon); // COLON
return true;
}
KtKeywordToken targetKeyword = atTargetKeyword();
if (mode == FILE_ANNOTATIONS_WHEN_PACKAGE_OMITTED && !(targetKeyword == FILE_KEYWORD && lookahead(1) == COLON)) {
return false;
}
if (lookahead(1) == COLON && targetKeyword == null && at(IDENTIFIER)) {
// recovery for "@fil:ann"
errorAndAdvance(expectedAnnotationTargetBeforeColon); // IDENTIFIER
advance(); // COLON
return true;
}
if (targetKeyword == null && mode.isFileAnnotationParsingMode) {
parseAnnotationTarget(FILE_KEYWORD);
}
else if (targetKeyword != null) {
parseAnnotationTarget(targetKeyword);
}
return true;
}
private void parseAnnotationTarget(KtKeywordToken keyword) {
String message = "Expecting \"" + keyword.getValue() + COLON.getValue() + "\" prefix for " + keyword.getValue() + " annotations";
PsiBuilder.Marker marker = mark();
if (!expect(keyword, message)) {
marker.drop();
}
else {
marker.done(ANNOTATION_TARGET);
}
expect(COLON, message, IDENTIFIER_RBRACKET_LBRACKET_SET);
}
@Nullable
private KtKeywordToken atTargetKeyword() {
for (IElementType target : ANNOTATION_TARGETS.getTypes()) {
if (at(target)) return (KtKeywordToken) target;
}
return null;
}
/*
* annotation
* : "@" (annotationUseSiteTarget ":")? unescapedAnnotation
* ;
*
* unescapedAnnotation
* : SimpleName{"."} typeArguments? valueArguments?
* ;
*/
private boolean parseAnnotation(AnnotationParsingMode mode) {
assert _at(IDENTIFIER) ||
// We have "@ann" or "@:ann" or "@ :ann", but not "@ ann"
// (it's guaranteed that call sites do not allow the latter case)
(_at(AT) && (!isNextRawTokenCommentOrWhitespace() || lookahead(1) == COLON))
: "Invalid annotation prefix";
PsiBuilder.Marker annotation = mark();
boolean atAt = at(AT);
if (atAt) {
advance(); // AT
}
if (atAt && !parseAnnotationTargetIfNeeded(mode)) {
annotation.rollbackTo();
return false;
}
PsiBuilder.Marker reference = mark();
PsiBuilder.Marker typeReference = mark();
parseUserType();
typeReference.done(TYPE_REFERENCE);
reference.done(CONSTRUCTOR_CALLEE);
parseTypeArgumentList();
boolean whitespaceAfterAnnotation = WHITE_SPACE_OR_COMMENT_BIT_SET.contains(myBuilder.rawLookup(-1));
boolean shouldBeParsedNextAsFunctionalType = at(LPAR) && whitespaceAfterAnnotation && mode.withSignificantWhitespaceBeforeArguments;
if (at(LPAR) && !shouldBeParsedNextAsFunctionalType) {
myExpressionParsing.parseValueArgumentList();
/*
* There are two problem cases relating to parsing of annotations on a functional type:
* - Annotation on a functional type was parsed correctly with the capture parentheses of the functional type,
* e.g. @Anno () -> Unit
* ^ Parse error only here: Type expected
* - It wasn't parsed, e.g. @Anno (x: kotlin.Any) -> Unit
* ^ Parse error: Expecting ')'
*
* In both cases, parser should rollback to start parsing of annotation and tries parse it with significant whitespace.
* A marker is set here which means that we must to rollback.
*/
if (mode.typeContext && (getLastToken() != RPAR || at(ARROW))) {
annotation.done(ANNOTATION_ENTRY);
return false;
}
}
annotation.done(ANNOTATION_ENTRY);
return true;
}
private boolean isNextRawTokenCommentOrWhitespace() {
return WHITE_SPACE_OR_COMMENT_BIT_SET.contains(myBuilder.rawLookup(1));
}
public enum NameParsingMode {
REQUIRED,
ALLOWED,
PROHIBITED
}
/*
* class
* : modifiers ("class" | "interface") SimpleName
* typeParameters?
* primaryConstructor?
* (":" annotations delegationSpecifier{","})?
* typeConstraints
* (classBody? | enumClassBody)
* ;
*
* primaryConstructor
* : (modifiers "constructor")? ("(" functionParameter{","} ")")
* ;
*
* object
* : "object" SimpleName? primaryConstructor? ":" delegationSpecifier{","}? classBody?
* ;
*/
private IElementType parseClassOrObject(
boolean object,
NameParsingMode nameParsingMode,
boolean optionalBody,
boolean enumClass,
boolean expectKindKeyword
) {
if (expectKindKeyword) {
if (object) {
assert _at(OBJECT_KEYWORD);
}
else {
assert _atSet(CLASS_INTERFACE_SET);
}
advance(); // CLASS_KEYWORD, INTERFACE_KEYWORD or OBJECT_KEYWORD
}
else {
assert enumClass : "Currently classifiers without class/interface/object are only allowed for enums";
error("'class' keyword is expected after 'enum'");
}
if (nameParsingMode == NameParsingMode.REQUIRED) {
expect(IDENTIFIER, "Name expected", CLASS_NAME_RECOVERY_SET);
}
else {
assert object : "Must be an object to be nameless";
if (at(IDENTIFIER)) {
if (nameParsingMode == NameParsingMode.PROHIBITED) {
errorAndAdvance("An object expression cannot bind a name");
}
else {
assert nameParsingMode == NameParsingMode.ALLOWED;
advance();
}
}
}
boolean typeParametersDeclared = parseTypeParameterList(TYPE_PARAMETER_GT_RECOVERY_SET);
PsiBuilder.Marker beforeConstructorModifiers = mark();
PsiBuilder.Marker primaryConstructorMarker = mark();
boolean hasConstructorModifiers = parseModifierList(TokenSet.EMPTY);
// Some modifiers found, but no parentheses following: class has already ended, and we are looking at something else
if (hasConstructorModifiers && !atSet(LPAR_LBRACE_COLON_CONSTRUCTOR_KEYWORD_SET)) {
beforeConstructorModifiers.rollbackTo();
return object ? OBJECT_DECLARATION : CLASS;
}
// We are still inside a class declaration
beforeConstructorModifiers.drop();
boolean hasConstructorKeyword = at(CONSTRUCTOR_KEYWORD);
if (hasConstructorKeyword) {
advance(); // CONSTRUCTOR_KEYWORD
}
if (at(LPAR)) {
parseValueParameterList(false, /* typeRequired = */ true, LBRACE_RBRACE_SET);
primaryConstructorMarker.done(PRIMARY_CONSTRUCTOR);
}
else if (hasConstructorModifiers || hasConstructorKeyword) {
// A comprehensive error message for cases like:
// class A private : Foo
// or
// class A private {
primaryConstructorMarker.done(PRIMARY_CONSTRUCTOR);
if (hasConstructorKeyword) {
error("Expecting primary constructor parameter list");
}
else {
error("Expecting 'constructor' keyword");
}
}
else {
primaryConstructorMarker.drop();
}
if (at(COLON)) {
advance(); // COLON
parseDelegationSpecifierList();
}
OptionalMarker whereMarker = new OptionalMarker(object);
parseTypeConstraintsGuarded(typeParametersDeclared);
whereMarker.error("Where clause is not allowed for objects");
if (at(LBRACE)) {
if (enumClass) {
parseEnumClassBody();
}
else {
parseClassBody();
}
}
else if (!optionalBody) {
PsiBuilder.Marker fakeBody = mark();
error("Expecting a class body");
fakeBody.done(CLASS_BODY);
}
return object ? OBJECT_DECLARATION : CLASS;
}
private IElementType parseClass(boolean enumClass, boolean expectKindKeyword) {
return parseClassOrObject(false, NameParsingMode.REQUIRED, true, enumClass, expectKindKeyword);
}
void parseObject(NameParsingMode nameParsingMode, boolean optionalBody) {
parseClassOrObject(true, nameParsingMode, optionalBody, false, true);
}
/*
* enumClassBody
* : "{" enumEntries (";" members)? "}"
* ;
*/
private void parseEnumClassBody() {
if (!at(LBRACE)) return;
PsiBuilder.Marker body = mark();
myBuilder.enableNewlines();
advance(); // LBRACE
if (!parseEnumEntries() && !at(RBRACE)) {
error("Expecting ';' after the last enum entry or '}' to close enum class body");
}
parseMembers();
expect(RBRACE, "Expecting '}' to close enum class body");
myBuilder.restoreNewlinesState();
body.done(CLASS_BODY);
}
/**
* enumEntries
* : enumEntry{","}?
* ;
*
* @return true if enum regular members can follow, false otherwise
*/
private boolean parseEnumEntries() {
while (!eof() && !at(RBRACE)) {
switch (parseEnumEntry()) {
case FAILED:
// Special case without any enum entries but with possible members after semicolon
if (at(SEMICOLON)) {
advance();
return true;
}
else {
return false;
}
case NO_DELIMITER:
return false;
case COMMA_DELIMITER:
break;
case SEMICOLON_DELIMITER:
return true;
}
}
return false;
}
private enum ParseEnumEntryResult {
FAILED,
NO_DELIMITER,
COMMA_DELIMITER,
SEMICOLON_DELIMITER
}
/*
* enumEntry
* : modifiers SimpleName ("(" arguments ")")? classBody?
* ;
*/
private ParseEnumEntryResult parseEnumEntry() {
PsiBuilder.Marker entry = mark();
parseModifierList(COMMA_SEMICOLON_RBRACE_SET);
if (!atSet(SOFT_KEYWORDS_AT_MEMBER_START) && at(IDENTIFIER)) {
advance(); // IDENTIFIER
if (at(LPAR)) {
// Arguments should be parsed here
// Also, "fake" constructor call tree is created,
// with empty type name inside
PsiBuilder.Marker initializerList = mark();
PsiBuilder.Marker delegatorSuperCall = mark();
PsiBuilder.Marker callee = mark();
PsiBuilder.Marker typeReference = mark();
PsiBuilder.Marker type = mark();
PsiBuilder.Marker referenceExpr = mark();
referenceExpr.done(ENUM_ENTRY_SUPERCLASS_REFERENCE_EXPRESSION);
type.done(USER_TYPE);
typeReference.done(TYPE_REFERENCE);
callee.done(CONSTRUCTOR_CALLEE);
myExpressionParsing.parseValueArgumentList();
delegatorSuperCall.done(SUPER_TYPE_CALL_ENTRY);
initializerList.done(INITIALIZER_LIST);
}
if (at(LBRACE)) {
parseClassBody();
}
boolean commaFound = at(COMMA);
if (commaFound) {
advance();
}
boolean semicolonFound = at(SEMICOLON);
if (semicolonFound) {
advance();
}
// Probably some helper function
closeDeclarationWithCommentBinders(entry, ENUM_ENTRY, true);
return semicolonFound
? ParseEnumEntryResult.SEMICOLON_DELIMITER
: (commaFound ? ParseEnumEntryResult.COMMA_DELIMITER : ParseEnumEntryResult.NO_DELIMITER);
}
else {
entry.rollbackTo();
return ParseEnumEntryResult.FAILED;
}
}
/*
* classBody
* : ("{" members "}")?
* ;
*/
private void parseClassBody() {
PsiBuilder.Marker body = mark();
myBuilder.enableNewlines();
if (expect(LBRACE, "Expecting a class body")) {
parseMembers();
expect(RBRACE, "Missing '}");
}
myBuilder.restoreNewlinesState();
body.done(CLASS_BODY);
}
/**
* members
* : memberDeclaration*
* ;
*/
private void parseMembers() {
while (!eof() && !at(RBRACE)) {
parseMemberDeclaration();
}
}
/*
* memberDeclaration
* : modifiers memberDeclaration'
* ;
*
* memberDeclaration'
* : companionObject
* : secondaryConstructor
* : function
* : property
* : class
* : extension
* : typeAlias
* : anonymousInitializer
* : object
* ;
*/
private void parseMemberDeclaration() {
if (at(SEMICOLON)) {
advance(); // SEMICOLON
return;
}
PsiBuilder.Marker decl = mark();
if (at(CONTEXT_KEYWORD)) {
parseContextReceiverList();
}
ModifierDetector detector = new ModifierDetector();
parseModifierList(detector, TokenSet.EMPTY);
IElementType declType = parseMemberDeclarationRest(detector);
if (declType == null) {
errorWithRecovery("Expecting member declaration", TokenSet.EMPTY);
decl.drop();
}
else {
closeDeclarationWithCommentBinders(decl, declType, true);
}
}
private IElementType parseMemberDeclarationRest(@NotNull ModifierDetector modifierDetector) {
IElementType declType = parseCommonDeclaration(
modifierDetector,
modifierDetector.isCompanionDetected() ? NameParsingMode.ALLOWED : NameParsingMode.REQUIRED,
DeclarationParsingMode.MEMBER_OR_TOPLEVEL
);
if (declType != null) return declType;
if (at(INIT_KEYWORD)) {
advance(); // init
if (at(LBRACE)) {
parseBlock();
}
else {
mark().error("Expecting '{' after 'init'");
}
declType = CLASS_INITIALIZER;
}
else if (at(CONSTRUCTOR_KEYWORD)) {
parseSecondaryConstructor();
declType = SECONDARY_CONSTRUCTOR;
}
else if (at(LBRACE)) {
error("Expecting member declaration");
parseBlock();
declType = FUN;
}
return declType;
}
/*
* secondaryConstructor
* : modifiers "constructor" valueParameters (":" constructorDelegationCall)? block
* constructorDelegationCall
* : "this" valueArguments
* : "super" valueArguments
*/
private void parseSecondaryConstructor() {
assert _at(CONSTRUCTOR_KEYWORD);
advance(); // CONSTRUCTOR_KEYWORD
if (at(LPAR)) {
parseValueParameterList(false, /*typeRequired = */ true, VALUE_ARGS_RECOVERY_SET);
}
else {
errorWithRecovery("Expecting '('", TokenSet.orSet(VALUE_ARGS_RECOVERY_SET, TokenSet.create(COLON)));
}
if (at(COLON)) {
advance(); // COLON
PsiBuilder.Marker delegationCall = mark();
if (at(THIS_KEYWORD) || at(SUPER_KEYWORD)) {
parseThisOrSuper();
myExpressionParsing.parseValueArgumentList();
}
else {
error("Expecting a 'this' or 'super' constructor call");
PsiBuilder.Marker beforeWrongDelegationCallee = null;
if (!at(LPAR)) {
beforeWrongDelegationCallee = mark();
advance(); // wrong delegation callee
}
myExpressionParsing.parseValueArgumentList();
if (beforeWrongDelegationCallee != null) {
if (at(LBRACE)) {
beforeWrongDelegationCallee.drop();
}
else {
beforeWrongDelegationCallee.rollbackTo();
}
}
}
delegationCall.done(CONSTRUCTOR_DELEGATION_CALL);
}
else {
// empty constructor delegation call
PsiBuilder.Marker emptyDelegationCall = mark();
mark().done(CONSTRUCTOR_DELEGATION_REFERENCE);
emptyDelegationCall.done(CONSTRUCTOR_DELEGATION_CALL);
}
if (at(LBRACE)) {
parseBlock();
}
}
private void parseThisOrSuper() {
assert _at(THIS_KEYWORD) || _at(SUPER_KEYWORD);
PsiBuilder.Marker mark = mark();
advance(); // THIS_KEYWORD | SUPER_KEYWORD
mark.done(CONSTRUCTOR_DELEGATION_REFERENCE);
}
/*
* typeAlias
* : modifiers "typealias" SimpleName typeParameters? "=" type
* ;
*/
private IElementType parseTypeAlias() {
assert _at(TYPE_ALIAS_KEYWORD);
advance(); // TYPE_ALIAS_KEYWORD
expect(IDENTIFIER, "Type name expected", LT_EQ_SEMICOLON_TOP_LEVEL_DECLARATION_FIRST_SET);
parseTypeParameterList(TYPE_PARAMETER_GT_RECOVERY_SET);
if (at(WHERE_KEYWORD)) {
PsiBuilder.Marker error = mark();
parseTypeConstraints();
error.error("Type alias parameters can't have bounds");
}
expect(EQ, "Expecting '='", TOP_LEVEL_DECLARATION_FIRST_SEMICOLON_SET);
parseTypeRef();
consumeIf(SEMICOLON);
return TYPEALIAS;
}
enum DeclarationParsingMode {
MEMBER_OR_TOPLEVEL(false, true, true),
LOCAL(true, false, false),
SCRIPT_TOPLEVEL(true, true, false);
public final boolean destructuringAllowed;
public final boolean accessorsAllowed;
public final boolean canBeEnumUsedAsSoftKeyword;
DeclarationParsingMode(boolean destructuringAllowed, boolean accessorsAllowed, boolean canBeEnumUsedAsSoftKeyword) {
this.destructuringAllowed = destructuringAllowed;
this.accessorsAllowed = accessorsAllowed;
this.canBeEnumUsedAsSoftKeyword = canBeEnumUsedAsSoftKeyword;
}
}
/*
* variableDeclarationEntry
* : SimpleName (":" type)?
* ;
*
* property
* : modifiers ("val" | "var")
* typeParameters?
* (type ".")?
* ("(" variableDeclarationEntry{","} ")" | variableDeclarationEntry)
* typeConstraints
* ("by" | "=" expression SEMI?)?
* (getter? setter? | setter? getter?) SEMI?
* ;
*/
public IElementType parseProperty(DeclarationParsingMode mode) {
assert (at(VAL_KEYWORD) || at(VAR_KEYWORD));
advance();
boolean typeParametersDeclared = at(LT) && parseTypeParameterList(IDENTIFIER_EQ_COLON_SEMICOLON_SET);
myBuilder.disableJoiningComplexTokens();
PsiBuilder.Marker receiver = mark();
boolean receiverTypeDeclared = parseReceiverType("property", PROPERTY_NAME_FOLLOW_SET);
boolean multiDeclaration = at(LPAR);
errorIf(receiver, multiDeclaration && receiverTypeDeclared, "Receiver type is not allowed on a destructuring declaration");
boolean isNameOnTheNextLine = eol();
PsiBuilder.Marker beforeName = mark();
if (multiDeclaration) {
PsiBuilder.Marker multiDecl = mark();
parseMultiDeclarationName(PROPERTY_NAME_FOLLOW_SET, PROPERTY_NAME_FOLLOW_MULTI_DECLARATION_RECOVERY_SET);
errorIf(multiDecl, !mode.destructuringAllowed, "Destructuring declarations are only allowed for local variables/values");
}
else {
parseFunctionOrPropertyName(receiverTypeDeclared, "property", PROPERTY_NAME_FOLLOW_SET, PROPERTY_NAME_FOLLOW_FUNCTION_OR_PROPERTY_RECOVERY_SET, /*nameRequired = */ true);
}
myBuilder.restoreJoiningComplexTokensState();
boolean noTypeReference = true;
if (at(COLON)) {
noTypeReference = false;
PsiBuilder.Marker type = mark();
advance(); // COLON
parseTypeRef();
errorIf(type, multiDeclaration, "Type annotations are not allowed on destructuring declarations");
}
parseTypeConstraintsGuarded(typeParametersDeclared);
if (!parsePropertyDelegateOrAssignment() && isNameOnTheNextLine && noTypeReference && !receiverTypeDeclared) {
// Do not parse property identifier on the next line if declaration is invalid
// In most cases this identifier relates to next statement/declaration
beforeName.rollbackTo();
error("Expecting property name or receiver type");
return PROPERTY;
}
beforeName.drop();
if (mode.accessorsAllowed) {
// It's only needed for non-local properties, because in local ones:
// "val a = 1; b" must not be an infix call of b on "val ...;"
myBuilder.enableNewlines();
boolean hasNewLineWithSemicolon = consumeIf(SEMICOLON) && myBuilder.newlineBeforeCurrentToken();
myBuilder.restoreNewlinesState();
if (!hasNewLineWithSemicolon) {
PropertyComponentKind.Collector alreadyRead = new PropertyComponentKind.Collector();
PropertyComponentKind propertyComponentKind = parsePropertyComponent(alreadyRead);
while (propertyComponentKind != null) {
alreadyRead.collect(propertyComponentKind);
propertyComponentKind = parsePropertyComponent(alreadyRead);
}
if (!atSet(EOL_OR_SEMICOLON_RBRACE_SET)) {
if (getLastToken() != SEMICOLON) {
errorUntil(
"Property getter or setter expected",
TokenSet.orSet(DECLARATION_FIRST, TokenSet.create(EOL_OR_SEMICOLON, LBRACE, RBRACE)));
}
}
else {
consumeIf(SEMICOLON);
}
}
}
return multiDeclaration ? DESTRUCTURING_DECLARATION : PROPERTY;
}
private boolean parsePropertyDelegateOrAssignment() {
if (at(BY_KEYWORD)) {
parsePropertyDelegate();
return true;
}
else if (at(EQ)) {
advance(); // EQ
myExpressionParsing.parseExpression();
return true;
}
return false;
}
/*
* propertyDelegate
* : "by" expression
* ;
*/
private void parsePropertyDelegate() {
assert _at(BY_KEYWORD);
PsiBuilder.Marker delegate = mark();
advance(); // BY_KEYWORD
myExpressionParsing.parseExpression();
delegate.done(PROPERTY_DELEGATE);
}
/*
* (SimpleName (":" type){","})
*/
public void parseMultiDeclarationName(TokenSet follow, TokenSet recoverySet) {
// Parsing multi-name, e.g.
// val (a, b) = foo()
myBuilder.disableNewlines();
advance(); // LPAR
if (!atSet(follow)) {
while (true) {
if (at(COMMA)) {
errorAndAdvance("Expecting a name");
}
else if (at(RPAR)) { // For declaration similar to `val () = somethingCall()`
error("Expecting a name");
break;
}
PsiBuilder.Marker property = mark();
parseModifierList(COMMA_RPAR_COLON_EQ_SET);
expect(IDENTIFIER, "Expecting a name", recoverySet);
if (at(COLON)) {
advance(); // COLON
parseTypeRef(follow);
}
property.done(DESTRUCTURING_DECLARATION_ENTRY);
if (!at(COMMA)) break;
advance(); // COMMA
if (at(RPAR)) break;
}
}
expect(RPAR, "Expecting ')'", follow);
myBuilder.restoreNewlinesState();
}
private enum PropertyComponentKind {
GET,
SET,
FIELD;
static class Collector {
private final boolean[] collected = { false, false, false };
public void collect(PropertyComponentKind kind) {
collected[kind.ordinal()] = true;
}
public boolean contains(PropertyComponentKind kind) {
return collected[kind.ordinal()];
}
}
}
/*
* propertyComponent
* : modifiers ("get" | "set")
* :
* ( "get" "(" ")"
* |
* "set" "(" modifiers parameter ")"
* |
* "field"
* ) functionBody
* ;
*/
@Nullable
private PropertyComponentKind parsePropertyComponent(PropertyComponentKind.Collector notAllowedKind) {
PsiBuilder.Marker propertyComponent = mark();
parseModifierList(TokenSet.EMPTY);
PropertyComponentKind propertyComponentKind;
if (at(GET_KEYWORD)) {
propertyComponentKind = PropertyComponentKind.GET;
}
else if (at(SET_KEYWORD)) {
propertyComponentKind = PropertyComponentKind.SET;
}
else if (at(FIELD_KEYWORD)) {
propertyComponentKind = PropertyComponentKind.FIELD;
}
else {
propertyComponent.rollbackTo();
return null;
}
if (notAllowedKind.contains(propertyComponentKind)) {
propertyComponent.rollbackTo();
return null;
}
advance(); // GET_KEYWORD, SET_KEYWORD or FIELD_KEYWORD
if (!at(LPAR) && propertyComponentKind != PropertyComponentKind.FIELD) {
// Account for Jet-114 (val a : int get {...})
if (!atSet(ACCESSOR_FIRST_OR_PROPERTY_END)) {
errorUntil("Accessor body expected", TokenSet.orSet(ACCESSOR_FIRST_OR_PROPERTY_END, TokenSet.create(LBRACE, LPAR, EQ)));
}
else {
closeDeclarationWithCommentBinders(propertyComponent, PROPERTY_ACCESSOR, true);
return propertyComponentKind;
}
}
myBuilder.disableNewlines();
if (propertyComponentKind != PropertyComponentKind.FIELD) {
expect(LPAR, "Expecting '('", RPAR_IDENTIFIER_COLON_LBRACE_EQ_SET);
if (propertyComponentKind == PropertyComponentKind.SET) {
PsiBuilder.Marker parameterList = mark();
PsiBuilder.Marker setterParameter = mark();
parseModifierList(COMMA_COLON_RPAR_SET);
expect(IDENTIFIER, "Expecting parameter name", RPAR_COLON_LBRACE_EQ_SET);
if (at(COLON)) {
advance(); // COLON
parseTypeRef();
}
setterParameter.done(VALUE_PARAMETER);
if (at(COMMA)) {
advance(); // COMMA
}
parameterList.done(VALUE_PARAMETER_LIST);
}
if (!at(RPAR)) {
errorUntil("Expecting ')'", TokenSet.create(RPAR, COLON, LBRACE, RBRACE, EQ, EOL_OR_SEMICOLON));
}
if (at(RPAR)) {
advance();
}
}
myBuilder.restoreNewlinesState();
if (at(COLON)) {
advance();
parseTypeRef();
}
if (propertyComponentKind != PropertyComponentKind.FIELD) {
parseFunctionContract();
parseFunctionBody();
} else if (at(EQ)) {
advance();
myExpressionParsing.parseExpression();
consumeIf(SEMICOLON);
}
if (propertyComponentKind == PropertyComponentKind.FIELD) {
closeDeclarationWithCommentBinders(propertyComponent, BACKING_FIELD, true);
} else {
closeDeclarationWithCommentBinders(propertyComponent, PROPERTY_ACCESSOR, true);
}
return propertyComponentKind;
}
@NotNull
private IElementType parseFunction() {
return parseFunction(false);
}
/*
* function
* : modifiers "fun" typeParameters?
* (type ".")?
* SimpleName
* typeParameters? functionParameters (":" type)?
* typeConstraints
* functionBody?
* ;
*/
@Contract("false -> !null")
IElementType parseFunction(boolean failIfIdentifierExists) {
assert _at(FUN_KEYWORD);
advance(); // FUN_KEYWORD
// Recovery for the case of class A { fun| }
if (at(RBRACE)) {
error("Function body expected");
return FUN;
}
boolean typeParameterListOccurred = false;
if (at(LT)) {
parseTypeParameterList(LBRACKET_LBRACE_RBRACE_LPAR_SET);
typeParameterListOccurred = true;
}
myBuilder.disableJoiningComplexTokens();
boolean receiverFound = parseReceiverType("function", FUNCTION_NAME_FOLLOW_SET);
if (at(IDENTIFIER) && failIfIdentifierExists) {
myBuilder.restoreJoiningComplexTokensState();
return null;
}
// function as expression has no name
parseFunctionOrPropertyName(receiverFound, "function", FUNCTION_NAME_FOLLOW_SET, FUNCTION_NAME_RECOVERY_SET, /*nameRequired = */ false);
myBuilder.restoreJoiningComplexTokensState();
if (at(LT)) {
PsiBuilder.Marker error = mark();
parseTypeParameterList(LPAR_VALUE_PARAMETERS_FOLLOW_SET);
if (typeParameterListOccurred) {
int finishIndex = myBuilder.rawTokenIndex();
error.rollbackTo();
error = mark();
advance(finishIndex - myBuilder.rawTokenIndex());
error.error("Only one type parameter list is allowed for a function");
}
else {
error.drop();
}
typeParameterListOccurred = true;
}
if (at(LPAR)) {
parseValueParameterList(false, /* typeRequired = */ false, VALUE_PARAMETERS_FOLLOW_SET);
}
else {
error("Expecting '('");
}
if (at(COLON)) {
advance(); // COLON
parseTypeRef();
}
boolean functionContractOccurred = parseFunctionContract();
parseTypeConstraintsGuarded(typeParameterListOccurred);
if (!functionContractOccurred) {
parseFunctionContract();
}
if (at(SEMICOLON)) {
advance(); // SEMICOLON
}
else if (at(EQ) || at(LBRACE)) {
parseFunctionBody();
}
return FUN;
}
/*
* (type "." | annotations)?
*/
private boolean parseReceiverType(String title, TokenSet nameFollow) {
PsiBuilder.Marker annotations = mark();
boolean annotationsPresent = parseAnnotations(DEFAULT);
int lastDot = lastDotAfterReceiver();
boolean receiverPresent = lastDot != -1;
if (annotationsPresent) {
if (receiverPresent) {
annotations.rollbackTo();
}
else {
annotations.error("Annotations are not allowed in this position");
}
}
else {
annotations.drop();
}
if (!receiverPresent) return false;
createTruncatedBuilder(lastDot).parseTypeRefWithoutIntersections();
if (atSet(RECEIVER_TYPE_TERMINATORS)) {
advance(); // expectation
}
else {
errorWithRecovery("Expecting '.' before a " + title + " name", nameFollow);
}
return true;
}
private int lastDotAfterReceiver() {
AbstractTokenStreamPattern pattern = at(LPAR) ? lastDotAfterReceiverLParPattern : lastDotAfterReceiverNotLParPattern;
pattern.reset();
return matchTokenStreamPredicate(pattern);
}
/*
* IDENTIFIER
*/
private void parseFunctionOrPropertyName(boolean receiverFound, String title, TokenSet nameFollow, TokenSet recoverySet, boolean nameRequired) {
if (!nameRequired && atSet(nameFollow)) return; // no name
if (expect(IDENTIFIER)) {
return;
}
errorWithRecovery(
"Expecting " + title + " name" + (!receiverFound ? " or receiver type" : ""),
recoverySet
);
}
/*
* functionBody
* : block
* : "=" element
* ;
*/
private void parseFunctionBody() {
if (at(LBRACE)) {
parseBlock();
}
else if (at(EQ)) {
advance(); // EQ
myExpressionParsing.parseExpression();
consumeIf(SEMICOLON);
}
else {
error("Expecting function body");
}
}
/*
* block
* : "{" (expressions)* "}"
* ;
*/
void parseBlock() {
parseBlock(/*collapse*/ true);
}
private void parseBlock(boolean collapse) {
PsiBuilder.Marker lazyBlock = mark();
myBuilder.enableNewlines();
boolean hasOpeningBrace = expect(LBRACE, "Expecting '{' to open a block");
boolean canCollapse = collapse && hasOpeningBrace && isLazy;
if (canCollapse) {
advanceBalancedBlock();
}
else {
myExpressionParsing.parseStatements();
expect(RBRACE, "Expecting '}'");
}
myBuilder.restoreNewlinesState();
if (canCollapse) {
lazyBlock.collapse(BLOCK);
}
else {
lazyBlock.done(BLOCK);
}
}
public void advanceBalancedBlock() {
int braceCount = 1;
while (!eof()) {
if (_at(LBRACE)) {
braceCount++;
}
else if (_at(RBRACE)) {
braceCount--;
}
advance();
if (braceCount == 0) {
break;
}
}
}
/*
* delegationSpecifier{","}
*/
private void parseDelegationSpecifierList() {
PsiBuilder.Marker list = mark();
while (true) {
if (at(COMMA)) {
errorAndAdvance("Expecting a delegation specifier");
continue;
}
parseDelegationSpecifier();
if (!at(COMMA)) break;
advance(); // COMMA
}
list.done(SUPER_TYPE_LIST);
}
/*
* delegationSpecifier
* : constructorInvocation // type and constructor arguments
* : userType
* : explicitDelegation
* ;
*
* explicitDelegation
* : userType "by" element
* ;
*/
private void parseDelegationSpecifier() {
PsiBuilder.Marker delegator = mark();
PsiBuilder.Marker reference = mark();
parseTypeRef();
if (at(BY_KEYWORD)) {
reference.drop();
advance(); // BY_KEYWORD
createForByClause(myBuilder, isLazy).myExpressionParsing.parseExpression();
delegator.done(DELEGATED_SUPER_TYPE_ENTRY);
}
else if (at(LPAR)) {
reference.done(CONSTRUCTOR_CALLEE);
myExpressionParsing.parseValueArgumentList();
delegator.done(SUPER_TYPE_CALL_ENTRY);
}
else {
reference.drop();
delegator.done(SUPER_TYPE_ENTRY);
}
}
/*
* typeParameters
* : ("<" typeParameter{","} ">"
* ;
*/
private boolean parseTypeParameterList(TokenSet recoverySet) {
boolean result = false;
if (at(LT)) {
PsiBuilder.Marker list = mark();
myBuilder.disableNewlines();
advance(); // LT
while (true) {
if (at(COMMA)) errorAndAdvance("Expecting type parameter declaration");
parseTypeParameter();
if (!at(COMMA)) break;
advance(); // COMMA
if (at(GT)) {
break;
}
}
expect(GT, "Missing '>'", recoverySet);
myBuilder.restoreNewlinesState();
result = true;
list.done(TYPE_PARAMETER_LIST);
}
return result;
}
/*
* typeConstraints
* : ("where" typeConstraint{","})?
* ;
*/
private void parseTypeConstraintsGuarded(boolean typeParameterListOccurred) {
PsiBuilder.Marker error = mark();
boolean constraints = parseTypeConstraints();
errorIf(error, constraints && !typeParameterListOccurred, "Type constraints are not allowed when no type parameters declared");
}
private boolean parseTypeConstraints() {
if (at(WHERE_KEYWORD)) {
parseTypeConstraintList();
return true;
}
return false;
}
/*
* typeConstraint{","}
*/
private void parseTypeConstraintList() {
assert _at(WHERE_KEYWORD);
advance(); // WHERE_KEYWORD
PsiBuilder.Marker list = mark();
while (true) {
if (at(COMMA)) errorAndAdvance("Type constraint expected");
parseTypeConstraint();
if (!at(COMMA)) break;
advance(); // COMMA
}
list.done(TYPE_CONSTRAINT_LIST);
}
/*
* typeConstraint
* : annotations SimpleName ":" type
* ;
*/
private void parseTypeConstraint() {
PsiBuilder.Marker constraint = mark();
parseAnnotations(DEFAULT);
PsiBuilder.Marker reference = mark();
if (expect(IDENTIFIER, "Expecting type parameter name", COLON_COMMA_LBRACE_RBRACE_TYPE_REF_FIRST_SET)) {
reference.done(REFERENCE_EXPRESSION);
}
else {
reference.drop();
}
expect(COLON, "Expecting ':' before the upper bound", LBRACE_RBRACE_TYPE_REF_FIRST_SET);
parseTypeRef();
constraint.done(TYPE_CONSTRAINT);
}
private boolean parseFunctionContract() {
if (at(CONTRACT_KEYWORD)) {
myExpressionParsing.parseContractDescriptionBlock();
return true;
}
return false;
}
/*
* typeParameter
* : modifiers SimpleName (":" userType)?
* ;
*/
private void parseTypeParameter() {
if (atSet(TYPE_PARAMETER_GT_RECOVERY_SET)) {
error("Type parameter declaration expected");
return;
}
PsiBuilder.Marker mark = mark();
parseModifierList(GT_COMMA_COLON_SET);
expect(IDENTIFIER, "Type parameter name expected", TokenSet.EMPTY);
if (at(COLON)) {
advance(); // COLON
parseTypeRef();
}
mark.done(TYPE_PARAMETER);
}
/*
* type
* : typeModifiers typeReference
* ;
*
* typeReference
* : functionType
* : userType
* : nullableType
* : "dynamic"
* ;
*
* nullableType
* : typeReference "?"
* ;
*/
void parseTypeRef() {
parseTypeRef(TokenSet.EMPTY);
}
void parseTypeRefWithoutIntersections() {
parseTypeRef(TokenSet.EMPTY, /* allowSimpleIntersectionTypes */ false);
}
void parseTypeRef(TokenSet extraRecoverySet) {
parseTypeRef(extraRecoverySet, /* allowSimpleIntersectionTypes */ true);
}
private void parseTypeRef(TokenSet extraRecoverySet, boolean allowSimpleIntersectionTypes) {
PsiBuilder.Marker typeRefMarker = parseTypeRefContents(extraRecoverySet, allowSimpleIntersectionTypes);
typeRefMarker.done(TYPE_REFERENCE);
}
// The extraRecoverySet is needed for the foo(bar(z)) case, to tell whether we should stop
// on expression-indicating symbols or not
private PsiBuilder.Marker parseTypeRefContents(TokenSet extraRecoverySet, boolean allowSimpleIntersectionTypes) {
PsiBuilder.Marker typeRefMarker = mark();
parseTypeModifierList();
IElementType lookahead = lookahead(1);
IElementType lookahead2 = lookahead(2);
boolean typeBeforeDot = true;
boolean withContextReceiver = at(CONTEXT_KEYWORD) && lookahead == LPAR;
boolean wasFunctionTypeParsed = false;
PsiBuilder.Marker contextReceiversStart = mark();
if (withContextReceiver) {
parseContextReceiverList();
}
PsiBuilder.Marker typeElementMarker = mark();
if (at(IDENTIFIER) && !(lookahead == DOT && lookahead2 == IDENTIFIER) && lookahead != LT && at(DYNAMIC_KEYWORD)) {
PsiBuilder.Marker dynamicType = mark();
advance(); // DYNAMIC_KEYWORD
dynamicType.done(DYNAMIC_TYPE);
}
else if (at(IDENTIFIER) || at(PACKAGE_KEYWORD) || atParenthesizedMutableForPlatformTypes(0)) {
parseUserType();
}
else if (at(LPAR)) {
PsiBuilder.Marker functionOrParenthesizedType = mark();
// This may be a function parameter list or just a parenthesized type
advance(); // LPAR
parseTypeRefContents(TokenSet.EMPTY, /* allowSimpleIntersectionTypes */ true).drop(); // parenthesized types, no reference element around it is needed
if (at(RPAR) && lookahead(1) != ARROW) {
// It's a parenthesized type
// (A)
advance();
functionOrParenthesizedType.drop();
}
else {
// This must be a function type
// (A, B) -> C
// or
// (a : A) -> C
functionOrParenthesizedType.rollbackTo();
parseFunctionType(contextReceiversStart.precede());
wasFunctionTypeParsed = true;
}
}
else {
errorWithRecovery("Type expected",
TokenSet.orSet(TOP_LEVEL_DECLARATION_FIRST,
TokenSet.create(EQ, COMMA, GT, RBRACKET, DOT, RPAR, RBRACE, LBRACE, SEMICOLON),
extraRecoverySet));
typeBeforeDot = false;
}
// Disabling token merge is required for cases like
// Int?.(Foo) -> Bar
myBuilder.disableJoiningComplexTokens();
typeElementMarker = parseNullableTypeSuffix(typeElementMarker);
myBuilder.restoreJoiningComplexTokensState();
boolean wasIntersection = false;
if (allowSimpleIntersectionTypes && at(AND)) {
PsiBuilder.Marker leftTypeRef = typeElementMarker;
typeElementMarker = typeElementMarker.precede();
PsiBuilder.Marker intersectionType = leftTypeRef.precede();
leftTypeRef.done(TYPE_REFERENCE);
advance(); // &
parseTypeRef(extraRecoverySet, /* allowSimpleIntersectionTypes */ true);
intersectionType.done(INTERSECTION_TYPE);
wasIntersection = true;
}
if (typeBeforeDot && at(DOT) && !wasIntersection && !wasFunctionTypeParsed) {
// This is a receiver for a function type
// A.(B) -> C
// ^
PsiBuilder.Marker functionType = contextReceiversStart.precede();
PsiBuilder.Marker receiverTypeRef = typeElementMarker.precede();
PsiBuilder.Marker receiverType = receiverTypeRef.precede();
receiverTypeRef.done(TYPE_REFERENCE);
receiverType.done(FUNCTION_TYPE_RECEIVER);
advance(); // DOT
if (at(LPAR)) {
parseFunctionType(functionType);
}
else {
functionType.drop();
error("Expecting function type");
}
wasFunctionTypeParsed = true;
}
if (withContextReceiver && !wasFunctionTypeParsed) {
errorWithRecovery("Function type expected expected",
TokenSet.orSet(TOP_LEVEL_DECLARATION_FIRST,
TokenSet.create(EQ, COMMA, GT, RBRACKET, DOT, RPAR, RBRACE, LBRACE, SEMICOLON),
extraRecoverySet));
}
typeElementMarker.drop();
contextReceiversStart.drop();
return typeRefMarker;
}
@NotNull
private PsiBuilder.Marker parseNullableTypeSuffix(@NotNull PsiBuilder.Marker typeElementMarker) {
// ?: is joined regardless of joining state
while (at(QUEST) && myBuilder.rawLookup(1) != COLON) {
PsiBuilder.Marker precede = typeElementMarker.precede();
advance(); // QUEST
typeElementMarker.done(NULLABLE_TYPE);
typeElementMarker = precede;
}
return typeElementMarker;
}
/*
* userType
* : simpleUserType{"."}
* ;
*
* recovers on platform types:
* - Foo!
* - (Mutable)List!
* - Array<(out) Foo>!
*/
private void parseUserType() {
PsiBuilder.Marker userType = mark();
if (at(PACKAGE_KEYWORD)) {
PsiBuilder.Marker keyword = mark();
advance(); // PACKAGE_KEYWORD
keyword.error("Expecting an element");
expect(DOT, "Expecting '.'", TokenSet.create(IDENTIFIER, LBRACE, RBRACE));
}
PsiBuilder.Marker reference = mark();
while (true) {
recoverOnParenthesizedWordForPlatformTypes(0, "Mutable", true);
if (expect(IDENTIFIER, "Expecting type name",
TokenSet.orSet(KotlinExpressionParsing.EXPRESSION_FIRST, KotlinExpressionParsing.EXPRESSION_FOLLOW, DECLARATION_FIRST))) {
reference.done(REFERENCE_EXPRESSION);
}
else {
reference.drop();
break;
}
parseTypeArgumentList();
recoverOnPlatformTypeSuffix();
if (!at(DOT)) {
break;
}
if (lookahead(1) == LPAR && !atParenthesizedMutableForPlatformTypes(1)) {
// This may be a receiver for a function type
// Int.(Int) -> Int
break;
}
PsiBuilder.Marker precede = userType.precede();
userType.done(USER_TYPE);
userType = precede;
advance(); // DOT
reference = mark();
}
userType.done(USER_TYPE);
}
private boolean atParenthesizedMutableForPlatformTypes(int offset) {
return recoverOnParenthesizedWordForPlatformTypes(offset, "Mutable", false);
}
private boolean recoverOnParenthesizedWordForPlatformTypes(int offset, String word, boolean consume) {
// Array<(out) Foo>! or (Mutable)List!
if (lookahead(offset) == LPAR && lookahead(offset + 1) == IDENTIFIER && lookahead(offset + 2) == RPAR && lookahead(offset + 3) == IDENTIFIER) {
PsiBuilder.Marker error = mark();
advance(offset);
advance(); // LPAR
if (!word.equals(myBuilder.getTokenText())) {
// something other than "out" / "Mutable"
error.rollbackTo();
return false;
}
else {
advance(); // IDENTIFIER('out')
advance(); // RPAR
if (consume) {
error.error("Unexpected tokens");
}
else {
error.rollbackTo();
}
return true;
}
}
return false;
}
private void recoverOnPlatformTypeSuffix() {
// Recovery for platform types
if (at(EXCL)) {
PsiBuilder.Marker error = mark();
advance(); // EXCL
error.error("Unexpected token");
}
}
/*
* (optionalProjection type){","}
*/
private void parseTypeArgumentList() {
if (!at(LT)) return;
PsiBuilder.Marker list = mark();
tryParseTypeArgumentList(TokenSet.EMPTY);
list.done(TYPE_ARGUMENT_LIST);
}
boolean tryParseTypeArgumentList(TokenSet extraRecoverySet) {
myBuilder.disableNewlines();
advance(); // LT
while (true) {
PsiBuilder.Marker projection = mark();
recoverOnParenthesizedWordForPlatformTypes(0, "out", true);
// Currently we do not allow annotations on star projections and probably we should not
// Annotations on other kinds of type arguments should be parsed as common type annotations (within parseTypeRef call)
parseTypeArgumentModifierList();
if (at(MUL)) {
advance(); // MUL
}
else {
parseTypeRef(extraRecoverySet);
}
projection.done(TYPE_PROJECTION);
if (!at(COMMA)) break;
advance(); // COMMA
if (at(GT)) {
break;
}
}
boolean atGT = at(GT);
if (!atGT) {
error("Expecting a '>'");
}
else {
advance(); // GT
}
myBuilder.restoreNewlinesState();
return atGT;
}
/*
* functionType
* : (type ".")? "(" parameter{","}? ")" "->" type?
* ;
*/
private void parseFunctionType(PsiBuilder.Marker functionType) {
parseFunctionTypeContents(functionType).done(FUNCTION_TYPE);
}
private PsiBuilder.Marker parseFunctionTypeContents(PsiBuilder.Marker functionType) {
assert _at(LPAR) : tt();
parseValueParameterList(true, /* typeRequired = */ true, TokenSet.EMPTY);
expect(ARROW, "Expecting '->' to specify return type of a function type", TYPE_REF_FIRST);
parseTypeRef();
return functionType;
}
private static final TokenSet NO_MODIFIER_BEFORE_FOR_VALUE_PARAMETER = TokenSet.create(COMMA, COLON, EQ, RPAR);
/*
* functionParameters
* : "(" functionParameter{","}? ")"
* ;
*
* functionParameter
* : modifiers functionParameterRest
* ;
*
* functionParameterRest
* : parameter ("=" element)?
* ;
*/
private void parseValueParameterList(boolean isFunctionTypeContents, boolean typeRequired, TokenSet recoverySet) {
assert _at(LPAR);
PsiBuilder.Marker parameters = mark();
myBuilder.disableNewlines();
advance(); // LPAR
if (!at(RPAR) && !atSet(recoverySet)) {
while (true) {
if (at(COMMA)) {
errorAndAdvance("Expecting a parameter declaration");
}
else if (at(RPAR)) {
break;
}
if (isFunctionTypeContents) {
if (!tryParseValueParameter(typeRequired)) {
PsiBuilder.Marker valueParameter = mark();
parseFunctionTypeValueParameterModifierList();
parseTypeRef();
closeDeclarationWithCommentBinders(valueParameter, VALUE_PARAMETER, false);
}
}
else {
parseValueParameter(typeRequired);
}
if (at(COMMA)) {
advance(); // COMMA
}
else if (at(COLON)) {
// recovery for the case "fun bar(x: Array : Int)" when we've just parsed "x: Array"
// error should be reported in the `parseValueParameter` call
//noinspection UnnecessaryContinue
continue;
}
else {
if (!at(RPAR)) error("Expecting comma or ')'");
if (!atSet(isFunctionTypeContents ? LAMBDA_VALUE_PARAMETER_FIRST : VALUE_PARAMETER_FIRST)) break;
}
}
}
expect(RPAR, "Expecting ')'", recoverySet);
myBuilder.restoreNewlinesState();
parameters.done(VALUE_PARAMETER_LIST);
}
/*
* functionParameter
* : modifiers ("val" | "var")? parameter ("=" element)?
* ;
*/
private boolean tryParseValueParameter(boolean typeRequired) {
return parseValueParameter(true, typeRequired);
}
public void parseValueParameter(boolean typeRequired) {
parseValueParameter(false, typeRequired);
}
private boolean parseValueParameter(boolean rollbackOnFailure, boolean typeRequired) {
PsiBuilder.Marker parameter = mark();
parseModifierList(NO_MODIFIER_BEFORE_FOR_VALUE_PARAMETER);
if (at(VAR_KEYWORD) || at(VAL_KEYWORD)) {
advance(); // VAR_KEYWORD | VAL_KEYWORD
}
if (!parseFunctionParameterRest(typeRequired) && rollbackOnFailure) {
parameter.rollbackTo();
return false;
}
closeDeclarationWithCommentBinders(parameter, VALUE_PARAMETER, false);
return true;
}
/*
* functionParameterRest
* : parameter ("=" element)?
* ;
*/
private boolean parseFunctionParameterRest(boolean typeRequired) {
boolean noErrors = true;
// Recovery for the case 'fun foo(Array) {}'
// Recovery for the case 'fun foo(: Int) {}'
if ((at(IDENTIFIER) && lookahead(1) == LT) || at(COLON)) {
error("Parameter name expected");
if (at(COLON)) {
// We keep noErrors == true so that unnamed parameters starting with ":" are not rolled back during parsing of functional types
advance(); // COLON
}
else {
noErrors = false;
}
parseTypeRef();
}
else {
expect(IDENTIFIER, "Parameter name expected", PARAMETER_NAME_RECOVERY_SET);
if (at(COLON)) {
advance(); // COLON
if (at(IDENTIFIER) && lookahead(1) == COLON) {
// recovery for the case "fun foo(x: y: Int)" when we're at "y: " it's likely that this is a name of the next parameter,
// not a type reference of the current one
error("Type reference expected");
return false;
}
parseTypeRef();
}
else if (typeRequired) {
errorWithRecovery("Parameters must have type annotation", PARAMETER_NAME_RECOVERY_SET);
noErrors = false;
}
}
if (at(EQ)) {
advance(); // EQ
myExpressionParsing.parseExpression();
}
return noErrors;
}
@Override
protected KotlinParsing create(SemanticWhitespaceAwarePsiBuilder builder) {
return createForTopLevel(builder);
}
/*package*/ static class ModifierDetector implements Consumer {
private boolean enumDetected = false;
private boolean companionDetected = false;
@Override
public void consume(IElementType item) {
if (item == KtTokens.ENUM_KEYWORD) {
enumDetected = true;
}
else if (item == KtTokens.COMPANION_KEYWORD) {
companionDetected = true;
}
}
public boolean isEnumDetected() {
return enumDetected;
}
public boolean isCompanionDetected() {
return companionDetected;
}
}
enum AnnotationParsingMode {
DEFAULT(false, true, false, false),
FILE_ANNOTATIONS_BEFORE_PACKAGE(true, true, false, false),
FILE_ANNOTATIONS_WHEN_PACKAGE_OMITTED(true, true, false, false),
TYPE_CONTEXT(false, true, true, false),
WITH_SIGNIFICANT_WHITESPACE_BEFORE_ARGUMENTS(false, true, true, true),
NO_ANNOTATIONS(false, false, false, false);
final boolean isFileAnnotationParsingMode;
final boolean allowAnnotations;
final boolean withSignificantWhitespaceBeforeArguments;
final boolean typeContext;
AnnotationParsingMode(
boolean isFileAnnotationParsingMode,
boolean allowAnnotations,
boolean typeContext,
boolean withSignificantWhitespaceBeforeArguments
) {
this.isFileAnnotationParsingMode = isFileAnnotationParsingMode;
this.allowAnnotations = allowAnnotations;
this.typeContext = typeContext;
this.withSignificantWhitespaceBeforeArguments = withSignificantWhitespaceBeforeArguments;
}
}
}