com.fitbur.snakeyaml.parser.ParserImpl Maven / Gradle / Ivy
/**
* Copyright (c) 2008, http://www.snakeyaml.org
*
* 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 com.fitbur.snakeyaml.parser;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import com.fitbur.snakeyaml.DumperOptions.Version;
import com.fitbur.snakeyaml.error.Mark;
import com.fitbur.snakeyaml.error.YAMLException;
import com.fitbur.snakeyaml.events.AliasEvent;
import com.fitbur.snakeyaml.events.DocumentEndEvent;
import com.fitbur.snakeyaml.events.DocumentStartEvent;
import com.fitbur.snakeyaml.events.Event;
import com.fitbur.snakeyaml.events.ImplicitTuple;
import com.fitbur.snakeyaml.events.MappingEndEvent;
import com.fitbur.snakeyaml.events.MappingStartEvent;
import com.fitbur.snakeyaml.events.ScalarEvent;
import com.fitbur.snakeyaml.events.SequenceEndEvent;
import com.fitbur.snakeyaml.events.SequenceStartEvent;
import com.fitbur.snakeyaml.events.StreamEndEvent;
import com.fitbur.snakeyaml.events.StreamStartEvent;
import com.fitbur.snakeyaml.nodes.Tag;
import com.fitbur.snakeyaml.reader.StreamReader;
import com.fitbur.snakeyaml.scanner.Scanner;
import com.fitbur.snakeyaml.scanner.ScannerImpl;
import com.fitbur.snakeyaml.tokens.AliasToken;
import com.fitbur.snakeyaml.tokens.AnchorToken;
import com.fitbur.snakeyaml.tokens.BlockEntryToken;
import com.fitbur.snakeyaml.tokens.DirectiveToken;
import com.fitbur.snakeyaml.tokens.ScalarToken;
import com.fitbur.snakeyaml.tokens.StreamEndToken;
import com.fitbur.snakeyaml.tokens.StreamStartToken;
import com.fitbur.snakeyaml.tokens.TagToken;
import com.fitbur.snakeyaml.tokens.TagTuple;
import com.fitbur.snakeyaml.tokens.Token;
import com.fitbur.snakeyaml.util.ArrayStack;
/**
*
* # The following YAML grammar is LL(1) and is parsed by a recursive descent
* parser.
* stream ::= STREAM-START implicit_document? explicit_document* STREAM-END
* implicit_document ::= block_node DOCUMENT-END*
* explicit_document ::= DIRECTIVE* DOCUMENT-START block_node? DOCUMENT-END*
* block_node_or_indentless_sequence ::=
* ALIAS
* | properties (block_content | indentless_block_sequence)?
* | block_content
* | indentless_block_sequence
* block_node ::= ALIAS
* | properties block_content?
* | block_content
* flow_node ::= ALIAS
* | properties flow_content?
* | flow_content
* properties ::= TAG ANCHOR? | ANCHOR TAG?
* block_content ::= block_collection | flow_collection | SCALAR
* flow_content ::= flow_collection | SCALAR
* block_collection ::= block_sequence | block_mapping
* flow_collection ::= flow_sequence | flow_mapping
* block_sequence ::= BLOCK-SEQUENCE-START (BLOCK-ENTRY block_node?)* BLOCK-END
* indentless_sequence ::= (BLOCK-ENTRY block_node?)+
* block_mapping ::= BLOCK-MAPPING_START
* ((KEY block_node_or_indentless_sequence?)?
* (VALUE block_node_or_indentless_sequence?)?)*
* BLOCK-END
* flow_sequence ::= FLOW-SEQUENCE-START
* (flow_sequence_entry FLOW-ENTRY)*
* flow_sequence_entry?
* FLOW-SEQUENCE-END
* flow_sequence_entry ::= flow_node | KEY flow_node? (VALUE flow_node?)?
* flow_mapping ::= FLOW-MAPPING-START
* (flow_mapping_entry FLOW-ENTRY)*
* flow_mapping_entry?
* FLOW-MAPPING-END
* flow_mapping_entry ::= flow_node | KEY flow_node? (VALUE flow_node?)?
* FIRST sets:
* stream: { STREAM-START }
* explicit_document: { DIRECTIVE DOCUMENT-START }
* implicit_document: FIRST(block_node)
* block_node: { ALIAS TAG ANCHOR SCALAR BLOCK-SEQUENCE-START BLOCK-MAPPING-START FLOW-SEQUENCE-START FLOW-MAPPING-START }
* flow_node: { ALIAS ANCHOR TAG SCALAR FLOW-SEQUENCE-START FLOW-MAPPING-START }
* block_content: { BLOCK-SEQUENCE-START BLOCK-MAPPING-START FLOW-SEQUENCE-START FLOW-MAPPING-START SCALAR }
* flow_content: { FLOW-SEQUENCE-START FLOW-MAPPING-START SCALAR }
* block_collection: { BLOCK-SEQUENCE-START BLOCK-MAPPING-START }
* flow_collection: { FLOW-SEQUENCE-START FLOW-MAPPING-START }
* block_sequence: { BLOCK-SEQUENCE-START }
* block_mapping: { BLOCK-MAPPING-START }
* block_node_or_indentless_sequence: { ALIAS ANCHOR TAG SCALAR BLOCK-SEQUENCE-START BLOCK-MAPPING-START FLOW-SEQUENCE-START FLOW-MAPPING-START BLOCK-ENTRY }
* indentless_sequence: { ENTRY }
* flow_collection: { FLOW-SEQUENCE-START FLOW-MAPPING-START }
* flow_sequence: { FLOW-SEQUENCE-START }
* flow_mapping: { FLOW-MAPPING-START }
* flow_sequence_entry: { ALIAS ANCHOR TAG SCALAR FLOW-SEQUENCE-START FLOW-MAPPING-START KEY }
* flow_mapping_entry: { ALIAS ANCHOR TAG SCALAR FLOW-SEQUENCE-START FLOW-MAPPING-START KEY }
*
*
* Since writing a recursive-descendant parser is a straightforward task, we do
* not give many comments here.
*/
public final class ParserImpl implements Parser {
private static final Map DEFAULT_TAGS = new HashMap();
static {
DEFAULT_TAGS.put("!", "!");
DEFAULT_TAGS.put("!!", Tag.PREFIX);
}
private final Scanner scanner;
private Event currentEvent;
private final ArrayStack states;
private final ArrayStack marks;
private Production state;
private VersionTagsTuple directives;
public ParserImpl(StreamReader reader) {
this.scanner = new ScannerImpl(reader);
currentEvent = null;
directives = new VersionTagsTuple(null, new HashMap(DEFAULT_TAGS));
states = new ArrayStack(100);
marks = new ArrayStack(10);
state = new ParseStreamStart();
}
/**
* Check the type of the next event.
*/
public boolean checkEvent(Event.ID choices) {
peekEvent();
if (currentEvent != null) {
if (currentEvent.is(choices)) {
return true;
}
}
return false;
}
/**
* Get the next event.
*/
public Event peekEvent() {
if (currentEvent == null) {
if (state != null) {
currentEvent = state.produce();
}
}
return currentEvent;
}
/**
* Get the next event and proceed further.
*/
public Event getEvent() {
peekEvent();
Event value = currentEvent;
currentEvent = null;
return value;
}
/**
*
* stream ::= STREAM-START implicit_document? explicit_document* STREAM-END
* implicit_document ::= block_node DOCUMENT-END*
* explicit_document ::= DIRECTIVE* DOCUMENT-START block_node? DOCUMENT-END*
*
*/
private class ParseStreamStart implements Production {
public Event produce() {
// Parse the stream start.
StreamStartToken token = (StreamStartToken) scanner.getToken();
Event event = new StreamStartEvent(token.getStartMark(), token.getEndMark());
// Prepare the next state.
state = new ParseImplicitDocumentStart();
return event;
}
}
private class ParseImplicitDocumentStart implements Production {
public Event produce() {
// Parse an implicit document.
if (!scanner.checkToken(Token.ID.Directive, Token.ID.DocumentStart, Token.ID.StreamEnd)) {
directives = new VersionTagsTuple(null, DEFAULT_TAGS);
Token token = scanner.peekToken();
Mark startMark = token.getStartMark();
Mark endMark = startMark;
Event event = new DocumentStartEvent(startMark, endMark, false, null, null);
// Prepare the next state.
states.push(new ParseDocumentEnd());
state = new ParseBlockNode();
return event;
} else {
Production p = new ParseDocumentStart();
return p.produce();
}
}
}
private class ParseDocumentStart implements Production {
public Event produce() {
// Parse any extra document end indicators.
while (scanner.checkToken(Token.ID.DocumentEnd)) {
scanner.getToken();
}
// Parse an explicit document.
Event event;
if (!scanner.checkToken(Token.ID.StreamEnd)) {
Token token = scanner.peekToken();
Mark startMark = token.getStartMark();
VersionTagsTuple tuple = processDirectives();
if (!scanner.checkToken(Token.ID.DocumentStart)) {
throw new ParserException(null, null, "expected '', but found "
+ scanner.peekToken().getTokenId(), scanner.peekToken().getStartMark());
}
token = scanner.getToken();
Mark endMark = token.getEndMark();
event = new DocumentStartEvent(startMark, endMark, true, tuple.getVersion(),
tuple.getTags());
states.push(new ParseDocumentEnd());
state = new ParseDocumentContent();
} else {
// Parse the end of the stream.
StreamEndToken token = (StreamEndToken) scanner.getToken();
event = new StreamEndEvent(token.getStartMark(), token.getEndMark());
if (!states.isEmpty()) {
throw new YAMLException("Unexpected end of stream. States left: " + states);
}
if (!marks.isEmpty()) {
throw new YAMLException("Unexpected end of stream. Marks left: " + marks);
}
state = null;
}
return event;
}
}
private class ParseDocumentEnd implements Production {
public Event produce() {
// Parse the document end.
Token token = scanner.peekToken();
Mark startMark = token.getStartMark();
Mark endMark = startMark;
boolean explicit = false;
if (scanner.checkToken(Token.ID.DocumentEnd)) {
token = scanner.getToken();
endMark = token.getEndMark();
explicit = true;
}
Event event = new DocumentEndEvent(startMark, endMark, explicit);
// Prepare the next state.
state = new ParseDocumentStart();
return event;
}
}
private class ParseDocumentContent implements Production {
public Event produce() {
Event event;
if (scanner.checkToken(Token.ID.Directive, Token.ID.DocumentStart,
Token.ID.DocumentEnd, Token.ID.StreamEnd)) {
event = processEmptyScalar(scanner.peekToken().getStartMark());
state = states.pop();
return event;
} else {
Production p = new ParseBlockNode();
return p.produce();
}
}
}
@SuppressWarnings("unchecked")
private VersionTagsTuple processDirectives() {
Version yamlVersion = null;
HashMap tagHandles = new HashMap();
while (scanner.checkToken(Token.ID.Directive)) {
@SuppressWarnings("rawtypes")
DirectiveToken token = (DirectiveToken) scanner.getToken();
if (token.getName().equals("YAML")) {
if (yamlVersion != null) {
throw new ParserException(null, null, "found duplicate YAML directive",
token.getStartMark());
}
List value = (List) token.getValue();
Integer major = value.get(0);
if (major != 1) {
throw new ParserException(null, null,
"found incompatible YAML document (version 1.* is required)",
token.getStartMark());
}
Integer minor = value.get(1);
switch (minor) {
case 0:
yamlVersion = Version.V1_0;
break;
default:
yamlVersion = Version.V1_1;
break;
}
} else if (token.getName().equals("TAG")) {
List value = (List) token.getValue();
String handle = value.get(0);
String prefix = value.get(1);
if (tagHandles.containsKey(handle)) {
throw new ParserException(null, null, "duplicate tag handle " + handle,
token.getStartMark());
}
tagHandles.put(handle, prefix);
}
}
if (yamlVersion != null || !tagHandles.isEmpty()) {
// directives in the document found - drop the previous
for (String key : DEFAULT_TAGS.keySet()) {
// do not overwrite re-defined tags
if (!tagHandles.containsKey(key)) {
tagHandles.put(key, DEFAULT_TAGS.get(key));
}
}
directives = new VersionTagsTuple(yamlVersion, tagHandles);
}
return directives;
}
/**
*
* block_node_or_indentless_sequence ::= ALIAS
* | properties (block_content | indentless_block_sequence)?
* | block_content
* | indentless_block_sequence
* block_node ::= ALIAS
* | properties block_content?
* | block_content
* flow_node ::= ALIAS
* | properties flow_content?
* | flow_content
* properties ::= TAG ANCHOR? | ANCHOR TAG?
* block_content ::= block_collection | flow_collection | SCALAR
* flow_content ::= flow_collection | SCALAR
* block_collection ::= block_sequence | block_mapping
* flow_collection ::= flow_sequence | flow_mapping
*
*/
private class ParseBlockNode implements Production {
public Event produce() {
return parseNode(true, false);
}
}
private Event parseFlowNode() {
return parseNode(false, false);
}
private Event parseBlockNodeOrIndentlessSequence() {
return parseNode(true, true);
}
private Event parseNode(boolean block, boolean indentlessSequence) {
Event event;
Mark startMark = null;
Mark endMark = null;
Mark tagMark = null;
if (scanner.checkToken(Token.ID.Alias)) {
AliasToken token = (AliasToken) scanner.getToken();
event = new AliasEvent(token.getValue(), token.getStartMark(), token.getEndMark());
state = states.pop();
} else {
String anchor = null;
TagTuple tagTokenTag = null;
if (scanner.checkToken(Token.ID.Anchor)) {
AnchorToken token = (AnchorToken) scanner.getToken();
startMark = token.getStartMark();
endMark = token.getEndMark();
anchor = token.getValue();
if (scanner.checkToken(Token.ID.Tag)) {
TagToken tagToken = (TagToken) scanner.getToken();
tagMark = tagToken.getStartMark();
endMark = tagToken.getEndMark();
tagTokenTag = tagToken.getValue();
}
} else if (scanner.checkToken(Token.ID.Tag)) {
TagToken tagToken = (TagToken) scanner.getToken();
startMark = tagToken.getStartMark();
tagMark = startMark;
endMark = tagToken.getEndMark();
tagTokenTag = tagToken.getValue();
if (scanner.checkToken(Token.ID.Anchor)) {
AnchorToken token = (AnchorToken) scanner.getToken();
endMark = token.getEndMark();
anchor = token.getValue();
}
}
String tag = null;
if (tagTokenTag != null) {
String handle = tagTokenTag.getHandle();
String suffix = tagTokenTag.getSuffix();
if (handle != null) {
if (!directives.getTags().containsKey(handle)) {
throw new ParserException("while parsing a node", startMark,
"found undefined tag handle " + handle, tagMark);
}
tag = directives.getTags().get(handle) + suffix;
} else {
tag = suffix;
}
}
if (startMark == null) {
startMark = scanner.peekToken().getStartMark();
endMark = startMark;
}
event = null;
boolean implicit = tag == null || tag.equals("!");
if (indentlessSequence && scanner.checkToken(Token.ID.BlockEntry)) {
endMark = scanner.peekToken().getEndMark();
event = new SequenceStartEvent(anchor, tag, implicit, startMark, endMark,
Boolean.FALSE);
state = new ParseIndentlessSequenceEntry();
} else {
if (scanner.checkToken(Token.ID.Scalar)) {
ScalarToken token = (ScalarToken) scanner.getToken();
endMark = token.getEndMark();
ImplicitTuple implicitValues;
if ((token.getPlain() && tag == null) || "!".equals(tag)) {
implicitValues = new ImplicitTuple(true, false);
} else if (tag == null) {
implicitValues = new ImplicitTuple(false, true);
} else {
implicitValues = new ImplicitTuple(false, false);
}
event = new ScalarEvent(anchor, tag, implicitValues, token.getValue(),
startMark, endMark, token.getStyle());
state = states.pop();
} else if (scanner.checkToken(Token.ID.FlowSequenceStart)) {
endMark = scanner.peekToken().getEndMark();
event = new SequenceStartEvent(anchor, tag, implicit, startMark, endMark,
Boolean.TRUE);
state = new ParseFlowSequenceFirstEntry();
} else if (scanner.checkToken(Token.ID.FlowMappingStart)) {
endMark = scanner.peekToken().getEndMark();
event = new MappingStartEvent(anchor, tag, implicit, startMark, endMark,
Boolean.TRUE);
state = new ParseFlowMappingFirstKey();
} else if (block && scanner.checkToken(Token.ID.BlockSequenceStart)) {
endMark = scanner.peekToken().getStartMark();
event = new SequenceStartEvent(anchor, tag, implicit, startMark, endMark,
Boolean.FALSE);
state = new ParseBlockSequenceFirstEntry();
} else if (block && scanner.checkToken(Token.ID.BlockMappingStart)) {
endMark = scanner.peekToken().getStartMark();
event = new MappingStartEvent(anchor, tag, implicit, startMark, endMark,
Boolean.FALSE);
state = new ParseBlockMappingFirstKey();
} else if (anchor != null || tag != null) {
// Empty scalars are allowed even if a tag or an anchor is
// specified.
event = new ScalarEvent(anchor, tag, new ImplicitTuple(implicit, false), "",
startMark, endMark, (char) 0);
state = states.pop();
} else {
String node;
if (block) {
node = "block";
} else {
node = "flow";
}
Token token = scanner.peekToken();
throw new ParserException("while parsing a " + node + " node", startMark,
"expected the node content, but found " + token.getTokenId(),
token.getStartMark());
}
}
}
return event;
}
// block_sequence ::= BLOCK-SEQUENCE-START (BLOCK-ENTRY block_node?)*
// BLOCK-END
private class ParseBlockSequenceFirstEntry implements Production {
public Event produce() {
Token token = scanner.getToken();
marks.push(token.getStartMark());
return new ParseBlockSequenceEntry().produce();
}
}
private class ParseBlockSequenceEntry implements Production {
public Event produce() {
if (scanner.checkToken(Token.ID.BlockEntry)) {
BlockEntryToken token = (BlockEntryToken) scanner.getToken();
if (!scanner.checkToken(Token.ID.BlockEntry, Token.ID.BlockEnd)) {
states.push(new ParseBlockSequenceEntry());
return new ParseBlockNode().produce();
} else {
state = new ParseBlockSequenceEntry();
return processEmptyScalar(token.getEndMark());
}
}
if (!scanner.checkToken(Token.ID.BlockEnd)) {
Token token = scanner.peekToken();
throw new ParserException("while parsing a block collection", marks.pop(),
"expected , but found " + token.getTokenId(),
token.getStartMark());
}
Token token = scanner.getToken();
Event event = new SequenceEndEvent(token.getStartMark(), token.getEndMark());
state = states.pop();
marks.pop();
return event;
}
}
// indentless_sequence ::= (BLOCK-ENTRY block_node?)+
private class ParseIndentlessSequenceEntry implements Production {
public Event produce() {
if (scanner.checkToken(Token.ID.BlockEntry)) {
Token token = scanner.getToken();
if (!scanner.checkToken(Token.ID.BlockEntry, Token.ID.Key, Token.ID.Value,
Token.ID.BlockEnd)) {
states.push(new ParseIndentlessSequenceEntry());
return new ParseBlockNode().produce();
} else {
state = new ParseIndentlessSequenceEntry();
return processEmptyScalar(token.getEndMark());
}
}
Token token = scanner.peekToken();
Event event = new SequenceEndEvent(token.getStartMark(), token.getEndMark());
state = states.pop();
return event;
}
}
private class ParseBlockMappingFirstKey implements Production {
public Event produce() {
Token token = scanner.getToken();
marks.push(token.getStartMark());
return new ParseBlockMappingKey().produce();
}
}
private class ParseBlockMappingKey implements Production {
public Event produce() {
if (scanner.checkToken(Token.ID.Key)) {
Token token = scanner.getToken();
if (!scanner.checkToken(Token.ID.Key, Token.ID.Value, Token.ID.BlockEnd)) {
states.push(new ParseBlockMappingValue());
return parseBlockNodeOrIndentlessSequence();
} else {
state = new ParseBlockMappingValue();
return processEmptyScalar(token.getEndMark());
}
}
if (!scanner.checkToken(Token.ID.BlockEnd)) {
Token token = scanner.peekToken();
throw new ParserException("while parsing a block mapping", marks.pop(),
"expected , but found " + token.getTokenId(),
token.getStartMark());
}
Token token = scanner.getToken();
Event event = new MappingEndEvent(token.getStartMark(), token.getEndMark());
state = states.pop();
marks.pop();
return event;
}
}
private class ParseBlockMappingValue implements Production {
public Event produce() {
if (scanner.checkToken(Token.ID.Value)) {
Token token = scanner.getToken();
if (!scanner.checkToken(Token.ID.Key, Token.ID.Value, Token.ID.BlockEnd)) {
states.push(new ParseBlockMappingKey());
return parseBlockNodeOrIndentlessSequence();
} else {
state = new ParseBlockMappingKey();
return processEmptyScalar(token.getEndMark());
}
}
state = new ParseBlockMappingKey();
Token token = scanner.peekToken();
return processEmptyScalar(token.getStartMark());
}
}
/**
*
* flow_sequence ::= FLOW-SEQUENCE-START
* (flow_sequence_entry FLOW-ENTRY)*
* flow_sequence_entry?
* FLOW-SEQUENCE-END
* flow_sequence_entry ::= flow_node | KEY flow_node? (VALUE flow_node?)?
* Note that while production rules for both flow_sequence_entry and
* flow_mapping_entry are equal, their interpretations are different.
* For `flow_sequence_entry`, the part `KEY flow_node? (VALUE flow_node?)?`
* generate an inline mapping (set syntax).
*
*/
private class ParseFlowSequenceFirstEntry implements Production {
public Event produce() {
Token token = scanner.getToken();
marks.push(token.getStartMark());
return new ParseFlowSequenceEntry(true).produce();
}
}
private class ParseFlowSequenceEntry implements Production {
private boolean first = false;
public ParseFlowSequenceEntry(boolean first) {
this.first = first;
}
public Event produce() {
if (!scanner.checkToken(Token.ID.FlowSequenceEnd)) {
if (!first) {
if (scanner.checkToken(Token.ID.FlowEntry)) {
scanner.getToken();
} else {
Token token = scanner.peekToken();
throw new ParserException("while parsing a flow sequence", marks.pop(),
"expected ',' or ']', but got " + token.getTokenId(),
token.getStartMark());
}
}
if (scanner.checkToken(Token.ID.Key)) {
Token token = scanner.peekToken();
Event event = new MappingStartEvent(null, null, true, token.getStartMark(),
token.getEndMark(), Boolean.TRUE);
state = new ParseFlowSequenceEntryMappingKey();
return event;
} else if (!scanner.checkToken(Token.ID.FlowSequenceEnd)) {
states.push(new ParseFlowSequenceEntry(false));
return parseFlowNode();
}
}
Token token = scanner.getToken();
Event event = new SequenceEndEvent(token.getStartMark(), token.getEndMark());
state = states.pop();
marks.pop();
return event;
}
}
private class ParseFlowSequenceEntryMappingKey implements Production {
public Event produce() {
Token token = scanner.getToken();
if (!scanner.checkToken(Token.ID.Value, Token.ID.FlowEntry, Token.ID.FlowSequenceEnd)) {
states.push(new ParseFlowSequenceEntryMappingValue());
return parseFlowNode();
} else {
state = new ParseFlowSequenceEntryMappingValue();
return processEmptyScalar(token.getEndMark());
}
}
}
private class ParseFlowSequenceEntryMappingValue implements Production {
public Event produce() {
if (scanner.checkToken(Token.ID.Value)) {
Token token = scanner.getToken();
if (!scanner.checkToken(Token.ID.FlowEntry, Token.ID.FlowSequenceEnd)) {
states.push(new ParseFlowSequenceEntryMappingEnd());
return parseFlowNode();
} else {
state = new ParseFlowSequenceEntryMappingEnd();
return processEmptyScalar(token.getEndMark());
}
} else {
state = new ParseFlowSequenceEntryMappingEnd();
Token token = scanner.peekToken();
return processEmptyScalar(token.getStartMark());
}
}
}
private class ParseFlowSequenceEntryMappingEnd implements Production {
public Event produce() {
state = new ParseFlowSequenceEntry(false);
Token token = scanner.peekToken();
return new MappingEndEvent(token.getStartMark(), token.getEndMark());
}
}
/**
*
* flow_mapping ::= FLOW-MAPPING-START
* (flow_mapping_entry FLOW-ENTRY)*
* flow_mapping_entry?
* FLOW-MAPPING-END
* flow_mapping_entry ::= flow_node | KEY flow_node? (VALUE flow_node?)?
*
*/
private class ParseFlowMappingFirstKey implements Production {
public Event produce() {
Token token = scanner.getToken();
marks.push(token.getStartMark());
return new ParseFlowMappingKey(true).produce();
}
}
private class ParseFlowMappingKey implements Production {
private boolean first = false;
public ParseFlowMappingKey(boolean first) {
this.first = first;
}
public Event produce() {
if (!scanner.checkToken(Token.ID.FlowMappingEnd)) {
if (!first) {
if (scanner.checkToken(Token.ID.FlowEntry)) {
scanner.getToken();
} else {
Token token = scanner.peekToken();
throw new ParserException("while parsing a flow mapping", marks.pop(),
"expected ',' or '}', but got " + token.getTokenId(),
token.getStartMark());
}
}
if (scanner.checkToken(Token.ID.Key)) {
Token token = scanner.getToken();
if (!scanner.checkToken(Token.ID.Value, Token.ID.FlowEntry,
Token.ID.FlowMappingEnd)) {
states.push(new ParseFlowMappingValue());
return parseFlowNode();
} else {
state = new ParseFlowMappingValue();
return processEmptyScalar(token.getEndMark());
}
} else if (!scanner.checkToken(Token.ID.FlowMappingEnd)) {
states.push(new ParseFlowMappingEmptyValue());
return parseFlowNode();
}
}
Token token = scanner.getToken();
Event event = new MappingEndEvent(token.getStartMark(), token.getEndMark());
state = states.pop();
marks.pop();
return event;
}
}
private class ParseFlowMappingValue implements Production {
public Event produce() {
if (scanner.checkToken(Token.ID.Value)) {
Token token = scanner.getToken();
if (!scanner.checkToken(Token.ID.FlowEntry, Token.ID.FlowMappingEnd)) {
states.push(new ParseFlowMappingKey(false));
return parseFlowNode();
} else {
state = new ParseFlowMappingKey(false);
return processEmptyScalar(token.getEndMark());
}
} else {
state = new ParseFlowMappingKey(false);
Token token = scanner.peekToken();
return processEmptyScalar(token.getStartMark());
}
}
}
private class ParseFlowMappingEmptyValue implements Production {
public Event produce() {
state = new ParseFlowMappingKey(false);
return processEmptyScalar(scanner.peekToken().getStartMark());
}
}
/**
*
* block_mapping ::= BLOCK-MAPPING_START
* ((KEY block_node_or_indentless_sequence?)?
* (VALUE block_node_or_indentless_sequence?)?)*
* BLOCK-END
*
*/
private Event processEmptyScalar(Mark mark) {
return new ScalarEvent(null, null, new ImplicitTuple(true, false), "", mark, mark, (char) 0);
}
}
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