/* * Copyright (c) 2005-2007 Henri Sivonen * Copyright (c) 2007-2010 Mozilla Foundation * Portions of comments Copyright 2004-2008 Apple Computer, Inc., Mozilla * Foundation, and Opera Software ASA. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ /* * The comments following this one that use the same comment syntax as this * comment are quotes from the WHATWG HTML 5 spec as of 2 June 2007 * amended as of June 18 2008. * That document came with this statement: * "© Copyright 2004-2008 Apple Computer, Inc., Mozilla Foundation, and * Opera Software ASA. You are granted a license to use, reproduce and * create derivative works of this document." */ package nu.validator.htmlparser.impl; import nu.validator.htmlparser.annotation.Const; import nu.validator.htmlparser.annotation.Inline; import nu.validator.htmlparser.annotation.Local; import nu.validator.htmlparser.annotation.NoLength; import nu.validator.htmlparser.common.EncodingDeclarationHandler; import nu.validator.htmlparser.common.Interner; import nu.validator.htmlparser.common.TokenHandler; import nu.validator.htmlparser.common.XmlViolationPolicy; import org.xml.sax.ErrorHandler; import org.xml.sax.Locator; import org.xml.sax.SAXException; import org.xml.sax.SAXParseException; /** * An implementation of * http://www.whatwg.org/specs/web-apps/current-work/multipage/tokenization.html * * This class implements the Locator interface. This is not an * incidental implementation detail: Users of this class are encouraged to make * use of the Locator nature. * * By default, the tokenizer may report data that XML 1.0 bans. The tokenizer * can be configured to treat these conditions as fatal or to coerce the infoset * to something that XML 1.0 allows. * * @version $Id$ * @author hsivonen */ public class Tokenizer implements Locator { private static final int DATA_AND_RCDATA_MASK = ~1; public static final int DATA = 0; public static final int RCDATA = 1; public static final int SCRIPT_DATA = 2; public static final int PLAINTEXT = 3; private static final int TAG_OPEN = 4; private static final int CLOSE_TAG_OPEN = 5; private static final int TAG_NAME = 6; private static final int BEFORE_ATTRIBUTE_NAME = 7; private static final int ATTRIBUTE_NAME = 8; private static final int AFTER_ATTRIBUTE_NAME = 9; private static final int BEFORE_ATTRIBUTE_VALUE = 10; private static final int ATTRIBUTE_VALUE_DOUBLE_QUOTED = 11; private static final int ATTRIBUTE_VALUE_SINGLE_QUOTED = 12; private static final int ATTRIBUTE_VALUE_UNQUOTED = 13; private static final int AFTER_ATTRIBUTE_VALUE_QUOTED = 14; private static final int BOGUS_COMMENT = 15; private static final int MARKUP_DECLARATION_OPEN = 16; private static final int DOCTYPE = 17; private static final int BEFORE_DOCTYPE_NAME = 18; private static final int DOCTYPE_NAME = 19; private static final int AFTER_DOCTYPE_NAME = 20; private static final int BEFORE_DOCTYPE_PUBLIC_IDENTIFIER = 21; private static final int DOCTYPE_PUBLIC_IDENTIFIER_DOUBLE_QUOTED = 22; private static final int DOCTYPE_PUBLIC_IDENTIFIER_SINGLE_QUOTED = 23; private static final int AFTER_DOCTYPE_PUBLIC_IDENTIFIER = 24; private static final int BEFORE_DOCTYPE_SYSTEM_IDENTIFIER = 25; private static final int DOCTYPE_SYSTEM_IDENTIFIER_DOUBLE_QUOTED = 26; private static final int DOCTYPE_SYSTEM_IDENTIFIER_SINGLE_QUOTED = 27; private static final int AFTER_DOCTYPE_SYSTEM_IDENTIFIER = 28; private static final int BOGUS_DOCTYPE = 29; private static final int COMMENT_START = 30; private static final int COMMENT_START_DASH = 31; private static final int COMMENT = 32; private static final int COMMENT_END_DASH = 33; private static final int COMMENT_END = 34; private static final int COMMENT_END_SPACE = 35; private static final int COMMENT_END_BANG = 36; private static final int NON_DATA_END_TAG_NAME = 37; private static final int MARKUP_DECLARATION_HYPHEN = 38; private static final int MARKUP_DECLARATION_OCTYPE = 39; private static final int DOCTYPE_UBLIC = 40; private static final int DOCTYPE_YSTEM = 41; private static final int CONSUME_CHARACTER_REFERENCE = 42; private static final int CONSUME_NCR = 43; private static final int CHARACTER_REFERENCE_TAIL = 44; private static final int HEX_NCR_LOOP = 45; private static final int DECIMAL_NRC_LOOP = 46; private static final int HANDLE_NCR_VALUE = 47; private static final int SELF_CLOSING_START_TAG = 48; private static final int CDATA_START = 49; private static final int CDATA_SECTION = 50; private static final int CDATA_RSQB = 51; private static final int CDATA_RSQB_RSQB = 52; private static final int SCRIPT_DATA_LESS_THAN_SIGN = 53; private static final int SCRIPT_DATA_ESCAPE_START = 54; private static final int SCRIPT_DATA_ESCAPE_START_DASH = 55; private static final int SCRIPT_DATA_ESCAPED = 56; private static final int SCRIPT_DATA_ESCAPED_DASH = 57; private static final int SCRIPT_DATA_ESCAPED_DASH_DASH = 58; private static final int BOGUS_COMMENT_HYPHEN = 59; public static final int RAWTEXT = 60; private static final int RAWTEXT_RCDATA_LESS_THAN_SIGN = 61; private static final int AFTER_DOCTYPE_PUBLIC_KEYWORD = 62; private static final int BETWEEN_DOCTYPE_PUBLIC_AND_SYSTEM_IDENTIFIERS = 63; private static final int AFTER_DOCTYPE_SYSTEM_KEYWORD = 64; private static final int SCRIPT_DATA_ESCAPED_LESS_THAN_SIGN = 65; private static final int SCRIPT_DATA_DOUBLE_ESCAPE_START = 66; private static final int SCRIPT_DATA_DOUBLE_ESCAPED = 67; private static final int SCRIPT_DATA_DOUBLE_ESCAPED_LESS_THAN_SIGN = 68; private static final int SCRIPT_DATA_DOUBLE_ESCAPED_DASH = 69; private static final int SCRIPT_DATA_DOUBLE_ESCAPED_DASH_DASH = 70; private static final int SCRIPT_DATA_DOUBLE_ESCAPE_END = 71; private static final int CHARACTER_REFERENCE_HILO_LOOKUP = 72; /** * Magic value for UTF-16 operations. */ private static final int LEAD_OFFSET = (0xD800 - (0x10000 >> 10)); /** * UTF-16 code unit array containing less than and greater than for emitting * those characters on certain parse errors. */ private static final @NoLength char[] LT_GT = { '<', '>' }; /** * UTF-16 code unit array containing less than and solidus for emitting * those characters on certain parse errors. */ private static final @NoLength char[] LT_SOLIDUS = { '<', '/' }; /** * UTF-16 code unit array containing ]] for emitting those characters on * state transitions. */ private static final @NoLength char[] RSQB_RSQB = { ']', ']' }; /** * Array version of U+FFFD. */ private static final @NoLength char[] REPLACEMENT_CHARACTER = { '\uFFFD' }; // [NOCPP[ /** * Array version of space. */ private static final @NoLength char[] SPACE = { ' ' }; // ]NOCPP] /** * Array version of line feed. */ private static final @NoLength char[] LF = { '\n' }; /** * Buffer growth parameter. */ private static final int BUFFER_GROW_BY = 1024; /** * "CDATA[" as char[] */ private static final @NoLength char[] CDATA_LSQB = "CDATA[".toCharArray(); /** * "octype" as char[] */ private static final @NoLength char[] OCTYPE = "octype".toCharArray(); /** * "ublic" as char[] */ private static final @NoLength char[] UBLIC = "ublic".toCharArray(); /** * "ystem" as char[] */ private static final @NoLength char[] YSTEM = "ystem".toCharArray(); private static final char[] TITLE_ARR = { 't', 'i', 't', 'l', 'e' }; private static final char[] SCRIPT_ARR = { 's', 'c', 'r', 'i', 'p', 't' }; private static final char[] STYLE_ARR = { 's', 't', 'y', 'l', 'e' }; private static final char[] PLAINTEXT_ARR = { 'p', 'l', 'a', 'i', 'n', 't', 'e', 'x', 't' }; private static final char[] XMP_ARR = { 'x', 'm', 'p' }; private static final char[] TEXTAREA_ARR = { 't', 'e', 'x', 't', 'a', 'r', 'e', 'a' }; private static final char[] IFRAME_ARR = { 'i', 'f', 'r', 'a', 'm', 'e' }; private static final char[] NOEMBED_ARR = { 'n', 'o', 'e', 'm', 'b', 'e', 'd' }; private static final char[] NOSCRIPT_ARR = { 'n', 'o', 's', 'c', 'r', 'i', 'p', 't' }; private static final char[] NOFRAMES_ARR = { 'n', 'o', 'f', 'r', 'a', 'm', 'e', 's' }; /** * The token handler. */ protected final TokenHandler tokenHandler; protected EncodingDeclarationHandler encodingDeclarationHandler; // [NOCPP[ /** * The error handler. */ protected ErrorHandler errorHandler; // ]NOCPP] /** * Whether the previous char read was CR. */ protected boolean lastCR; protected int stateSave; private int returnStateSave; protected int index; private boolean forceQuirks; private char additional; private int entCol; private int firstCharKey; private int lo; private int hi; private int candidate; private int strBufMark; private int prevValue; protected int value; private boolean seenDigits; protected int cstart; /** * The SAX public id for the resource being tokenized. (Only passed to back * as part of locator data.) */ private String publicId; /** * The SAX system id for the resource being tokenized. (Only passed to back * as part of locator data.) */ private String systemId; /** * Buffer for short identifiers. */ private char[] strBuf; /** * Number of significant chars in strBuf. */ private int strBufLen; /** * -1 to indicate that strBuf is used or otherwise * an offset to the main buffer. */ // private int strBufOffset = -1; /** * Buffer for long strings. */ private char[] longStrBuf; /** * Number of significant chars in longStrBuf. */ private int longStrBufLen; /** * -1 to indicate that longStrBuf is used or * otherwise an offset to the main buffer. */ // private int longStrBufOffset = -1; /** * Buffer for expanding NCRs falling into the Basic Multilingual Plane. */ private final char[] bmpChar; /** * Buffer for expanding astral NCRs. */ private final char[] astralChar; /** * The element whose end tag closes the current CDATA or RCDATA element. */ protected ElementName endTagExpectation = null; private char[] endTagExpectationAsArray; /** * true if tokenizing an end tag */ protected boolean endTag; /** * The current tag token name. */ private ElementName tagName = null; /** * The current attribute name. */ protected AttributeName attributeName = null; // [NOCPP[ /** * Whether comment tokens are emitted. */ private boolean wantsComments = false; /** * true when HTML4-specific additional errors are requested. */ protected boolean html4; /** * Whether the stream is past the first 512 bytes. */ private boolean metaBoundaryPassed; // ]NOCPP] /** * The name of the current doctype token. */ private @Local String doctypeName; /** * The public id of the current doctype token. */ private String publicIdentifier; /** * The system id of the current doctype token. */ private String systemIdentifier; /** * The attribute holder. */ private HtmlAttributes attributes; // [NOCPP[ /** * The policy for vertical tab and form feed. */ private XmlViolationPolicy contentSpacePolicy = XmlViolationPolicy.ALTER_INFOSET; /** * The policy for comments. */ private XmlViolationPolicy commentPolicy = XmlViolationPolicy.ALTER_INFOSET; private XmlViolationPolicy xmlnsPolicy = XmlViolationPolicy.ALTER_INFOSET; private XmlViolationPolicy namePolicy = XmlViolationPolicy.ALTER_INFOSET; private boolean html4ModeCompatibleWithXhtml1Schemata; private final boolean newAttributesEachTime; // ]NOCPP] private int mappingLangToXmlLang; private boolean shouldSuspend; protected boolean confident; private int line; private Interner interner; // [NOCPP[ protected LocatorImpl ampersandLocation; public Tokenizer(TokenHandler tokenHandler, boolean newAttributesEachTime) { this.tokenHandler = tokenHandler; this.encodingDeclarationHandler = null; this.newAttributesEachTime = newAttributesEachTime; this.bmpChar = new char[1]; this.astralChar = new char[2]; this.tagName = null; this.attributeName = null; this.doctypeName = null; this.publicIdentifier = null; this.systemIdentifier = null; this.attributes = null; } // ]NOCPP] /** * The constructor. * * @param tokenHandler * the handler for receiving tokens */ public Tokenizer(TokenHandler tokenHandler) { this.tokenHandler = tokenHandler; this.encodingDeclarationHandler = null; // [NOCPP[ this.newAttributesEachTime = false; // ]NOCPP] this.bmpChar = new char[1]; this.astralChar = new char[2]; this.tagName = null; this.attributeName = null; this.doctypeName = null; this.publicIdentifier = null; this.systemIdentifier = null; this.attributes = null; } public void setInterner(Interner interner) { this.interner = interner; } public void initLocation(String newPublicId, String newSystemId) { this.systemId = newSystemId; this.publicId = newPublicId; } void destructor() { Portability.releaseArray(bmpChar); Portability.releaseArray(astralChar); } // [NOCPP[ /** * Returns the mappingLangToXmlLang. * * @return the mappingLangToXmlLang */ public boolean isMappingLangToXmlLang() { return mappingLangToXmlLang == AttributeName.HTML_LANG; } /** * Sets the mappingLangToXmlLang. * * @param mappingLangToXmlLang * the mappingLangToXmlLang to set */ public void setMappingLangToXmlLang(boolean mappingLangToXmlLang) { this.mappingLangToXmlLang = mappingLangToXmlLang ? AttributeName.HTML_LANG : AttributeName.HTML; } /** * Sets the error handler. * * @see org.xml.sax.XMLReader#setErrorHandler(org.xml.sax.ErrorHandler) */ public void setErrorHandler(ErrorHandler eh) { this.errorHandler = eh; } public ErrorHandler getErrorHandler() { return this.errorHandler; } /** * Sets the commentPolicy. * * @param commentPolicy * the commentPolicy to set */ public void setCommentPolicy(XmlViolationPolicy commentPolicy) { this.commentPolicy = commentPolicy; } /** * Sets the contentNonXmlCharPolicy. * * @param contentNonXmlCharPolicy * the contentNonXmlCharPolicy to set */ public void setContentNonXmlCharPolicy( XmlViolationPolicy contentNonXmlCharPolicy) { if (contentNonXmlCharPolicy != XmlViolationPolicy.ALLOW) { throw new IllegalArgumentException( "Must use ErrorReportingTokenizer to set contentNonXmlCharPolicy to non-ALLOW."); } } /** * Sets the contentSpacePolicy. * * @param contentSpacePolicy * the contentSpacePolicy to set */ public void setContentSpacePolicy(XmlViolationPolicy contentSpacePolicy) { this.contentSpacePolicy = contentSpacePolicy; } /** * Sets the xmlnsPolicy. * * @param xmlnsPolicy * the xmlnsPolicy to set */ public void setXmlnsPolicy(XmlViolationPolicy xmlnsPolicy) { if (xmlnsPolicy == XmlViolationPolicy.FATAL) { throw new IllegalArgumentException("Can't use FATAL here."); } this.xmlnsPolicy = xmlnsPolicy; } public void setNamePolicy(XmlViolationPolicy namePolicy) { this.namePolicy = namePolicy; } /** * Sets the html4ModeCompatibleWithXhtml1Schemata. * * @param html4ModeCompatibleWithXhtml1Schemata * the html4ModeCompatibleWithXhtml1Schemata to set */ public void setHtml4ModeCompatibleWithXhtml1Schemata( boolean html4ModeCompatibleWithXhtml1Schemata) { this.html4ModeCompatibleWithXhtml1Schemata = html4ModeCompatibleWithXhtml1Schemata; } // ]NOCPP] // For the token handler to call /** * Sets the tokenizer state and the associated element name. This should * only ever used to put the tokenizer into one of the states that have * a special end tag expectation. * * @param specialTokenizerState * the tokenizer state to set * @param endTagExpectation * the expected end tag for transitioning back to normal */ public void setStateAndEndTagExpectation(int specialTokenizerState, @Local String endTagExpectation) { this.stateSave = specialTokenizerState; if (specialTokenizerState == Tokenizer.DATA) { return; } char[] asArray = Portability.newCharArrayFromLocal(endTagExpectation); this.endTagExpectation = ElementName.elementNameByBuffer(asArray, 0, asArray.length, interner); Portability.releaseArray(asArray); endTagExpectationToArray(); } /** * Sets the tokenizer state and the associated element name. This should * only ever used to put the tokenizer into one of the states that have * a special end tag expectation. * * @param specialTokenizerState * the tokenizer state to set * @param endTagExpectation * the expected end tag for transitioning back to normal */ public void setStateAndEndTagExpectation(int specialTokenizerState, ElementName endTagExpectation) { this.stateSave = specialTokenizerState; this.endTagExpectation = endTagExpectation; endTagExpectationToArray(); } private void endTagExpectationToArray() { switch (endTagExpectation.group) { case TreeBuilder.TITLE: endTagExpectationAsArray = TITLE_ARR; return; case TreeBuilder.SCRIPT: endTagExpectationAsArray = SCRIPT_ARR; return; case TreeBuilder.STYLE: endTagExpectationAsArray = STYLE_ARR; return; case TreeBuilder.PLAINTEXT: endTagExpectationAsArray = PLAINTEXT_ARR; return; case TreeBuilder.XMP: endTagExpectationAsArray = XMP_ARR; return; case TreeBuilder.TEXTAREA: endTagExpectationAsArray = TEXTAREA_ARR; return; case TreeBuilder.IFRAME: endTagExpectationAsArray = IFRAME_ARR; return; case TreeBuilder.NOEMBED: endTagExpectationAsArray = NOEMBED_ARR; return; case TreeBuilder.NOSCRIPT: endTagExpectationAsArray = NOSCRIPT_ARR; return; case TreeBuilder.NOFRAMES: endTagExpectationAsArray = NOFRAMES_ARR; return; default: assert false: "Bad end tag expectation."; return; } } /** * For C++ use only. */ public void setLineNumber(int line) { this.line = line; } // start Locator impl /** * @see org.xml.sax.Locator#getLineNumber() */ @Inline public int getLineNumber() { return line; } // [NOCPP[ /** * @see org.xml.sax.Locator#getColumnNumber() */ @Inline public int getColumnNumber() { return -1; } /** * @see org.xml.sax.Locator#getPublicId() */ public String getPublicId() { return publicId; } /** * @see org.xml.sax.Locator#getSystemId() */ public String getSystemId() { return systemId; } // end Locator impl // end public API public void notifyAboutMetaBoundary() { metaBoundaryPassed = true; } void turnOnAdditionalHtml4Errors() { html4 = true; } // ]NOCPP] HtmlAttributes emptyAttributes() { // [NOCPP[ if (newAttributesEachTime) { return new HtmlAttributes(mappingLangToXmlLang); } else { // ]NOCPP] return HtmlAttributes.EMPTY_ATTRIBUTES; // [NOCPP[ } // ]NOCPP] } @Inline private void clearStrBufAndAppend(char c) { strBuf[0] = c; strBufLen = 1; } @Inline private void clearStrBuf() { strBufLen = 0; } /** * Appends to the smaller buffer. * * @param c * the UTF-16 code unit to append */ private void appendStrBuf(char c) { if (strBufLen == strBuf.length) { char[] newBuf = new char[strBuf.length + Tokenizer.BUFFER_GROW_BY]; System.arraycopy(strBuf, 0, newBuf, 0, strBuf.length); Portability.releaseArray(strBuf); strBuf = newBuf; } strBuf[strBufLen++] = c; } /** * The smaller buffer as a String. Currently only used for error reporting. * *

* C++ memory note: The return value must be released. * * @return the smaller buffer as a string */ protected String strBufToString() { return Portability.newStringFromBuffer(strBuf, 0, strBufLen); } /** * Returns the short buffer as a local name. The return value is released in * emitDoctypeToken(). * * @return the smaller buffer as local name */ private void strBufToDoctypeName() { doctypeName = Portability.newLocalNameFromBuffer(strBuf, 0, strBufLen, interner); } /** * Emits the smaller buffer as character tokens. * * @throws SAXException * if the token handler threw */ private void emitStrBuf() throws SAXException { if (strBufLen > 0) { tokenHandler.characters(strBuf, 0, strBufLen); } } @Inline private void clearLongStrBuf() { longStrBufLen = 0; } @Inline private void clearLongStrBufAndAppend(char c) { longStrBuf[0] = c; longStrBufLen = 1; } /** * Appends to the larger buffer. * * @param c * the UTF-16 code unit to append */ private void appendLongStrBuf(char c) { if (longStrBufLen == longStrBuf.length) { char[] newBuf = new char[longStrBufLen + (longStrBufLen >> 1)]; System.arraycopy(longStrBuf, 0, newBuf, 0, longStrBuf.length); Portability.releaseArray(longStrBuf); longStrBuf = newBuf; } longStrBuf[longStrBufLen++] = c; } @Inline private void appendSecondHyphenToBogusComment() throws SAXException { // [NOCPP[ switch (commentPolicy) { case ALTER_INFOSET: // detachLongStrBuf(); appendLongStrBuf(' '); // FALLTHROUGH case ALLOW: warn("The document is not mappable to XML 1.0 due to two consecutive hyphens in a comment."); // ]NOCPP] appendLongStrBuf('-'); // [NOCPP[ break; case FATAL: fatal("The document is not mappable to XML 1.0 due to two consecutive hyphens in a comment."); break; } // ]NOCPP] } // [NOCPP[ private void maybeAppendSpaceToBogusComment() throws SAXException { switch (commentPolicy) { case ALTER_INFOSET: // detachLongStrBuf(); appendLongStrBuf(' '); // FALLTHROUGH case ALLOW: warn("The document is not mappable to XML 1.0 due to a trailing hyphen in a comment."); break; case FATAL: fatal("The document is not mappable to XML 1.0 due to a trailing hyphen in a comment."); break; } } // ]NOCPP] @Inline private void adjustDoubleHyphenAndAppendToLongStrBufAndErr(char c) throws SAXException { errConsecutiveHyphens(); // [NOCPP[ switch (commentPolicy) { case ALTER_INFOSET: // detachLongStrBuf(); longStrBufLen--; appendLongStrBuf(' '); appendLongStrBuf('-'); // FALLTHROUGH case ALLOW: warn("The document is not mappable to XML 1.0 due to two consecutive hyphens in a comment."); // ]NOCPP] appendLongStrBuf(c); // [NOCPP[ break; case FATAL: fatal("The document is not mappable to XML 1.0 due to two consecutive hyphens in a comment."); break; } // ]NOCPP] } private void appendLongStrBuf(char[] buffer, int offset, int length) { int reqLen = longStrBufLen + length; if (longStrBuf.length < reqLen) { char[] newBuf = new char[reqLen + (reqLen >> 1)]; System.arraycopy(longStrBuf, 0, newBuf, 0, longStrBuf.length); Portability.releaseArray(longStrBuf); longStrBuf = newBuf; } System.arraycopy(buffer, offset, longStrBuf, longStrBufLen, length); longStrBufLen = reqLen; } /** * Append the contents of the smaller buffer to the larger one. */ @Inline private void appendStrBufToLongStrBuf() { appendLongStrBuf(strBuf, 0, strBufLen); } /** * The larger buffer as a string. * *

* C++ memory note: The return value must be released. * * @return the larger buffer as a string */ private String longStrBufToString() { return Portability.newStringFromBuffer(longStrBuf, 0, longStrBufLen); } /** * Emits the current comment token. * * @param pos * TODO * * @throws SAXException */ private void emitComment(int provisionalHyphens, int pos) throws SAXException { // [NOCPP[ if (wantsComments) { // ]NOCPP] // if (longStrBufOffset != -1) { // tokenHandler.comment(buf, longStrBufOffset, longStrBufLen // - provisionalHyphens); // } else { tokenHandler.comment(longStrBuf, 0, longStrBufLen - provisionalHyphens); // } // [NOCPP[ } // ]NOCPP] cstart = pos + 1; } /** * Flushes coalesced character tokens. * * @param buf * TODO * @param pos * TODO * * @throws SAXException */ protected void flushChars(@NoLength char[] buf, int pos) throws SAXException { if (pos > cstart) { tokenHandler.characters(buf, cstart, pos - cstart); } cstart = Integer.MAX_VALUE; } /** * Reports an condition that would make the infoset incompatible with XML * 1.0 as fatal. * * @param message * the message * @throws SAXException * @throws SAXParseException */ public void fatal(String message) throws SAXException { SAXParseException spe = new SAXParseException(message, this); if (errorHandler != null) { errorHandler.fatalError(spe); } throw spe; } /** * Reports a Parse Error. * * @param message * the message * @throws SAXException */ public void err(String message) throws SAXException { if (errorHandler == null) { return; } SAXParseException spe = new SAXParseException(message, this); errorHandler.error(spe); } public void errTreeBuilder(String message) throws SAXException { ErrorHandler eh = null; if (tokenHandler instanceof TreeBuilder) { TreeBuilder treeBuilder = (TreeBuilder) tokenHandler; eh = treeBuilder.getErrorHandler(); } if (eh == null) { eh = errorHandler; } if (eh == null) { return; } SAXParseException spe = new SAXParseException(message, this); eh.error(spe); } /** * Reports a warning * * @param message * the message * @throws SAXException */ public void warn(String message) throws SAXException { if (errorHandler == null) { return; } SAXParseException spe = new SAXParseException(message, this); errorHandler.warning(spe); } /** * */ private void resetAttributes() { // [NOCPP[ if (newAttributesEachTime) { // ]NOCPP] attributes = null; // [NOCPP[ } else { attributes.clear(mappingLangToXmlLang); } // ]NOCPP] } private void strBufToElementNameString() { // if (strBufOffset != -1) { // return ElementName.elementNameByBuffer(buf, strBufOffset, strBufLen); // } else { tagName = ElementName.elementNameByBuffer(strBuf, 0, strBufLen, interner); // } } private int emitCurrentTagToken(boolean selfClosing, int pos) throws SAXException { cstart = pos + 1; maybeErrSlashInEndTag(selfClosing); stateSave = Tokenizer.DATA; HtmlAttributes attrs = (attributes == null ? HtmlAttributes.EMPTY_ATTRIBUTES : attributes); if (endTag) { /* * When an end tag token is emitted, the content model flag must be * switched to the PCDATA state. */ maybeErrAttributesOnEndTag(attrs); tokenHandler.endTag(tagName); Portability.delete(attributes); } else { tokenHandler.startTag(tagName, attrs, selfClosing); } tagName.release(); tagName = null; resetAttributes(); /* * The token handler may have called setStateAndEndTagExpectation * and changed stateSave since the start of this method. */ return stateSave; } private void attributeNameComplete() throws SAXException { // if (strBufOffset != -1) { // attributeName = AttributeName.nameByBuffer(buf, strBufOffset, // strBufLen, namePolicy != XmlViolationPolicy.ALLOW); // } else { attributeName = AttributeName.nameByBuffer(strBuf, 0, strBufLen // [NOCPP[ , namePolicy != XmlViolationPolicy.ALLOW // ]NOCPP] , interner); // } if (attributes == null) { attributes = new HtmlAttributes(mappingLangToXmlLang); } /* * When the user agent leaves the attribute name state (and before * emitting the tag token, if appropriate), the complete attribute's * name must be compared to the other attributes on the same token; if * there is already an attribute on the token with the exact same name, * then this is a parse error and the new attribute must be dropped, * along with the value that gets associated with it (if any). */ if (attributes.contains(attributeName)) { errDuplicateAttribute(); attributeName.release(); attributeName = null; } } private void addAttributeWithoutValue() throws SAXException { noteAttributeWithoutValue(); // [NOCPP[ if (metaBoundaryPassed && AttributeName.CHARSET == attributeName && ElementName.META == tagName) { err("A \u201Ccharset\u201D attribute on a \u201Cmeta\u201D element found after the first 512 bytes."); } // ]NOCPP] if (attributeName != null) { // [NOCPP[ if (html4) { if (attributeName.isBoolean()) { if (html4ModeCompatibleWithXhtml1Schemata) { attributes.addAttribute(attributeName, attributeName.getLocal(AttributeName.HTML), xmlnsPolicy); } else { attributes.addAttribute(attributeName, "", xmlnsPolicy); } } else { err("Attribute value omitted for a non-boolean attribute. (HTML4-only error.)"); attributes.addAttribute(attributeName, "", xmlnsPolicy); } } else { if (AttributeName.SRC == attributeName || AttributeName.HREF == attributeName) { warn("Attribute \u201C" + attributeName.getLocal(AttributeName.HTML) + "\u201D without an explicit value seen. The attribute may be dropped by IE7."); } // ]NOCPP] attributes.addAttribute(attributeName, Portability.newEmptyString() // [NOCPP[ , xmlnsPolicy // ]NOCPP] ); // [NOCPP[ } // ]NOCPP] attributeName = null; // attributeName has been adopted by the // |attributes| object } } private void addAttributeWithValue() throws SAXException { // [NOCPP[ if (metaBoundaryPassed && ElementName.META == tagName && AttributeName.CHARSET == attributeName) { err("A \u201Ccharset\u201D attribute on a \u201Cmeta\u201D element found after the first 512 bytes."); } // ]NOCPP] if (attributeName != null) { String val = longStrBufToString(); // Ownership transferred to // HtmlAttributes // [NOCPP[ if (!endTag && html4 && html4ModeCompatibleWithXhtml1Schemata && attributeName.isCaseFolded()) { val = newAsciiLowerCaseStringFromString(val); } // ]NOCPP] attributes.addAttribute(attributeName, val // [NOCPP[ , xmlnsPolicy // ]NOCPP] ); attributeName = null; // attributeName has been adopted by the // |attributes| object } } // [NOCPP[ private static String newAsciiLowerCaseStringFromString(String str) { if (str == null) { return null; } char[] buf = new char[str.length()]; for (int i = 0; i < str.length(); i++) { char c = str.charAt(i); if (c >= 'A' && c <= 'Z') { c += 0x20; } buf[i] = c; } return new String(buf); } protected void startErrorReporting() throws SAXException { } // ]NOCPP] public void start() throws SAXException { initializeWithoutStarting(); tokenHandler.startTokenization(this); // [NOCPP[ startErrorReporting(); // ]NOCPP] } public boolean tokenizeBuffer(UTF16Buffer buffer) throws SAXException { int state = stateSave; int returnState = returnStateSave; char c = '\u0000'; shouldSuspend = false; lastCR = false; int start = buffer.getStart(); /** * The index of the last char read from buf. */ int pos = start - 1; /** * The index of the first char in buf that is * part of a coalesced run of character tokens or * Integer.MAX_VALUE if there is not a current run being * coalesced. */ switch (state) { case DATA: case RCDATA: case SCRIPT_DATA: case PLAINTEXT: case RAWTEXT: case CDATA_SECTION: case SCRIPT_DATA_ESCAPED: case SCRIPT_DATA_ESCAPE_START: case SCRIPT_DATA_ESCAPE_START_DASH: case SCRIPT_DATA_ESCAPED_DASH: case SCRIPT_DATA_ESCAPED_DASH_DASH: case SCRIPT_DATA_DOUBLE_ESCAPE_START: case SCRIPT_DATA_DOUBLE_ESCAPED: case SCRIPT_DATA_DOUBLE_ESCAPED_LESS_THAN_SIGN: case SCRIPT_DATA_DOUBLE_ESCAPED_DASH: case SCRIPT_DATA_DOUBLE_ESCAPED_DASH_DASH: case SCRIPT_DATA_DOUBLE_ESCAPE_END: cstart = start; break; default: cstart = Integer.MAX_VALUE; break; } /** * The number of chars in buf that have * meaning. (The rest of the array is garbage and should not be * examined.) */ pos = stateLoop(state, c, pos, buffer.getBuffer(), false, returnState, buffer.getEnd()); if (pos == buffer.getEnd()) { // exiting due to end of buffer buffer.setStart(pos); } else { buffer.setStart(pos + 1); } return lastCR; } // WARNING When editing this, makes sure the bytecode length shown by javap // stays under 8000 bytes! @SuppressWarnings("unused") private int stateLoop(int state, char c, int pos, @NoLength char[] buf, boolean reconsume, int returnState, int endPos) throws SAXException { /* * Idioms used in this code: * * * Consuming the next input character * * To consume the next input character, the code does this: if (++pos == * endPos) { break stateloop; } c = checkChar(buf, pos); * * * Staying in a state * * When there's a state that the tokenizer may stay in over multiple * input characters, the state has a wrapper |for(;;)| loop and staying * in the state continues the loop. * * * Switching to another state * * To switch to another state, the code sets the state variable to the * magic number of the new state. Then it either continues stateloop or * breaks out of the state's own wrapper loop if the target state is * right after the current state in source order. (This is a partial * workaround for Java's lack of goto.) * * * Reconsume support * * The spec sometimes says that an input character is reconsumed in * another state. If a state can ever be entered so that an input * character can be reconsumed in it, the state's code starts with an * |if (reconsume)| that sets reconsume to false and skips over the * normal code for consuming a new character. * * To reconsume the current character in another state, the code sets * |reconsume| to true and then switches to the other state. * * * Emitting character tokens * * This method emits character tokens lazily. Whenever a new range of * character tokens starts, the field cstart must be set to the start * index of the range. The flushChars() method must be called at the end * of a range to flush it. * * * U+0000 handling * * The various states have to handle the replacement of U+0000 with * U+FFFD. However, if U+0000 would be reconsumed in another state, the * replacement doesn't need to happen, because it's handled by the * reconsuming state. * * * LF handling * * Every state needs to increment the line number upon LF unless the LF * gets reconsumed by another state which increments the line number. * * * CR handling * * Every state needs to handle CR unless the CR gets reconsumed and is * handled by the reconsuming state. The CR needs to be handled as if it * were and LF, the lastCR field must be set to true and then this * method must return. The IO driver will then swallow the next * character if it is an LF to coalesce CRLF. */ stateloop: for (;;) { switch (state) { case DATA: dataloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } switch (c) { case '&': /* * U+0026 AMPERSAND (&) Switch to the character * reference in data state. */ flushChars(buf, pos); clearStrBufAndAppend(c); setAdditionalAndRememberAmpersandLocation('\u0000'); returnState = state; state = Tokenizer.CONSUME_CHARACTER_REFERENCE; continue stateloop; case '<': /* * U+003C LESS-THAN SIGN (<) Switch to the tag * open state. */ flushChars(buf, pos); state = Tokenizer.TAG_OPEN; break dataloop; // FALL THROUGH continue // stateloop; case '\u0000': emitReplacementCharacter(buf, pos); continue; case '\r': emitCarriageReturn(buf, pos); break stateloop; case '\n': silentLineFeed(); default: /* * Anything else Emit the input character as a * character token. * * Stay in the data state. */ continue; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case TAG_OPEN: tagopenloop: for (;;) { /* * The behavior of this state depends on the content * model flag. */ if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * If the content model flag is set to the PCDATA state * Consume the next input character: */ if (c >= 'A' && c <= 'Z') { /* * U+0041 LATIN CAPITAL LETTER A through to U+005A * LATIN CAPITAL LETTER Z Create a new start tag * token, */ endTag = false; /* * set its tag name to the lowercase version of the * input character (add 0x0020 to the character's * code point), */ clearStrBufAndAppend((char) (c + 0x20)); /* then switch to the tag name state. */ state = Tokenizer.TAG_NAME; /* * (Don't emit the token yet; further details will * be filled in before it is emitted.) */ break tagopenloop; // continue stateloop; } else if (c >= 'a' && c <= 'z') { /* * U+0061 LATIN SMALL LETTER A through to U+007A * LATIN SMALL LETTER Z Create a new start tag * token, */ endTag = false; /* * set its tag name to the input character, */ clearStrBufAndAppend(c); /* then switch to the tag name state. */ state = Tokenizer.TAG_NAME; /* * (Don't emit the token yet; further details will * be filled in before it is emitted.) */ break tagopenloop; // continue stateloop; } switch (c) { case '!': /* * U+0021 EXCLAMATION MARK (!) Switch to the * markup declaration open state. */ state = Tokenizer.MARKUP_DECLARATION_OPEN; continue stateloop; case '/': /* * U+002F SOLIDUS (/) Switch to the close tag * open state. */ state = Tokenizer.CLOSE_TAG_OPEN; continue stateloop; case '?': /* * U+003F QUESTION MARK (?) Parse error. */ errProcessingInstruction(); /* * Switch to the bogus comment state. */ clearLongStrBufAndAppend(c); state = Tokenizer.BOGUS_COMMENT; continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Parse error. */ errLtGt(); /* * Emit a U+003C LESS-THAN SIGN character token * and a U+003E GREATER-THAN SIGN character * token. */ tokenHandler.characters(Tokenizer.LT_GT, 0, 2); /* Switch to the data state. */ cstart = pos + 1; state = Tokenizer.DATA; continue stateloop; default: /* * Anything else Parse error. */ errBadCharAfterLt(c); /* * Emit a U+003C LESS-THAN SIGN character token */ tokenHandler.characters(Tokenizer.LT_GT, 0, 1); /* * and reconsume the current input character in * the data state. */ cstart = pos; state = Tokenizer.DATA; reconsume = true; continue stateloop; } } // FALL THROUGH DON'T REORDER case TAG_NAME: tagnameloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); strBufToElementNameString(); state = Tokenizer.BEFORE_ATTRIBUTE_NAME; break stateloop; case '\n': silentLineFeed(); case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * Switch to the before attribute name state. */ strBufToElementNameString(); state = Tokenizer.BEFORE_ATTRIBUTE_NAME; break tagnameloop; // continue stateloop; case '/': /* * U+002F SOLIDUS (/) Switch to the self-closing * start tag state. */ strBufToElementNameString(); state = Tokenizer.SELF_CLOSING_START_TAG; continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * tag token. */ strBufToElementNameString(); state = emitCurrentTagToken(false, pos); if (shouldSuspend) { break stateloop; } /* * Switch to the data state. */ continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru default: if (c >= 'A' && c <= 'Z') { /* * U+0041 LATIN CAPITAL LETTER A through to * U+005A LATIN CAPITAL LETTER Z Append the * lowercase version of the current input * character (add 0x0020 to the character's * code point) to the current tag token's * tag name. */ c += 0x20; } /* * Anything else Append the current input * character to the current tag token's tag * name. */ appendStrBuf(c); /* * Stay in the tag name state. */ continue; } } // FALLTHRU DON'T REORDER case BEFORE_ATTRIBUTE_NAME: beforeattributenameloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE Stay * in the before attribute name state. */ continue; case '/': /* * U+002F SOLIDUS (/) Switch to the self-closing * start tag state. */ state = Tokenizer.SELF_CLOSING_START_TAG; continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * tag token. */ state = emitCurrentTagToken(false, pos); if (shouldSuspend) { break stateloop; } /* * Switch to the data state. */ continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru case '\"': case '\'': case '<': case '=': /* * U+0022 QUOTATION MARK (") U+0027 APOSTROPHE * (') U+003C LESS-THAN SIGN (<) U+003D EQUALS * SIGN (=) Parse error. */ errBadCharBeforeAttributeNameOrNull(c); /* * Treat it as per the "anything else" entry * below. */ default: /* * Anything else Start a new attribute in the * current tag token. */ if (c >= 'A' && c <= 'Z') { /* * U+0041 LATIN CAPITAL LETTER A through to * U+005A LATIN CAPITAL LETTER Z Set that * attribute's name to the lowercase version * of the current input character (add * 0x0020 to the character's code point) */ c += 0x20; } /* * Set that attribute's name to the current * input character, */ clearStrBufAndAppend(c); /* * and its value to the empty string. */ // Will do later. /* * Switch to the attribute name state. */ state = Tokenizer.ATTRIBUTE_NAME; break beforeattributenameloop; // continue stateloop; } } // FALLTHRU DON'T REORDER case ATTRIBUTE_NAME: attributenameloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); attributeNameComplete(); state = Tokenizer.AFTER_ATTRIBUTE_NAME; break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * Switch to the after attribute name state. */ attributeNameComplete(); state = Tokenizer.AFTER_ATTRIBUTE_NAME; continue stateloop; case '/': /* * U+002F SOLIDUS (/) Switch to the self-closing * start tag state. */ attributeNameComplete(); addAttributeWithoutValue(); state = Tokenizer.SELF_CLOSING_START_TAG; continue stateloop; case '=': /* * U+003D EQUALS SIGN (=) Switch to the before * attribute value state. */ attributeNameComplete(); state = Tokenizer.BEFORE_ATTRIBUTE_VALUE; break attributenameloop; // continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * tag token. */ attributeNameComplete(); addAttributeWithoutValue(); state = emitCurrentTagToken(false, pos); if (shouldSuspend) { break stateloop; } /* * Switch to the data state. */ continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru case '\"': case '\'': case '<': /* * U+0022 QUOTATION MARK (") U+0027 APOSTROPHE * (') U+003C LESS-THAN SIGN (<) Parse error. */ errQuoteOrLtInAttributeNameOrNull(c); /* * Treat it as per the "anything else" entry * below. */ default: if (c >= 'A' && c <= 'Z') { /* * U+0041 LATIN CAPITAL LETTER A through to * U+005A LATIN CAPITAL LETTER Z Append the * lowercase version of the current input * character (add 0x0020 to the character's * code point) to the current attribute's * name. */ c += 0x20; } /* * Anything else Append the current input * character to the current attribute's name. */ appendStrBuf(c); /* * Stay in the attribute name state. */ continue; } } // FALLTHRU DON'T REORDER case BEFORE_ATTRIBUTE_VALUE: beforeattributevalueloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE Stay * in the before attribute value state. */ continue; case '"': /* * U+0022 QUOTATION MARK (") Switch to the * attribute value (double-quoted) state. */ clearLongStrBuf(); state = Tokenizer.ATTRIBUTE_VALUE_DOUBLE_QUOTED; break beforeattributevalueloop; // continue stateloop; case '&': /* * U+0026 AMPERSAND (&) Switch to the attribute * value (unquoted) state and reconsume this * input character. */ clearLongStrBuf(); state = Tokenizer.ATTRIBUTE_VALUE_UNQUOTED; noteUnquotedAttributeValue(); reconsume = true; continue stateloop; case '\'': /* * U+0027 APOSTROPHE (') Switch to the attribute * value (single-quoted) state. */ clearLongStrBuf(); state = Tokenizer.ATTRIBUTE_VALUE_SINGLE_QUOTED; continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Parse error. */ errAttributeValueMissing(); /* * Emit the current tag token. */ addAttributeWithoutValue(); state = emitCurrentTagToken(false, pos); if (shouldSuspend) { break stateloop; } /* * Switch to the data state. */ continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru case '<': case '=': case '`': /* * U+003C LESS-THAN SIGN (<) U+003D EQUALS SIGN * (=) U+0060 GRAVE ACCENT (`) */ errLtOrEqualsOrGraveInUnquotedAttributeOrNull(c); /* * Treat it as per the "anything else" entry * below. */ default: // [NOCPP[ errHtml4NonNameInUnquotedAttribute(c); // ]NOCPP] /* * Anything else Append the current input * character to the current attribute's value. */ clearLongStrBufAndAppend(c); /* * Switch to the attribute value (unquoted) * state. */ state = Tokenizer.ATTRIBUTE_VALUE_UNQUOTED; noteUnquotedAttributeValue(); continue stateloop; } } // FALLTHRU DON'T REORDER case ATTRIBUTE_VALUE_DOUBLE_QUOTED: attributevaluedoublequotedloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume the next input character: */ switch (c) { case '"': /* * U+0022 QUOTATION MARK (") Switch to the after * attribute value (quoted) state. */ addAttributeWithValue(); state = Tokenizer.AFTER_ATTRIBUTE_VALUE_QUOTED; break attributevaluedoublequotedloop; // continue stateloop; case '&': /* * U+0026 AMPERSAND (&) Switch to the character * reference in attribute value state, with the * additional allowed character being U+0022 * QUOTATION MARK ("). */ clearStrBufAndAppend(c); setAdditionalAndRememberAmpersandLocation('\"'); returnState = state; state = Tokenizer.CONSUME_CHARACTER_REFERENCE; continue stateloop; case '\r': appendLongStrBufCarriageReturn(); break stateloop; case '\n': appendLongStrBufLineFeed(); continue; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append the current input * character to the current attribute's value. */ appendLongStrBuf(c); /* * Stay in the attribute value (double-quoted) * state. */ continue; } } // FALLTHRU DON'T REORDER case AFTER_ATTRIBUTE_VALUE_QUOTED: afterattributevaluequotedloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); state = Tokenizer.BEFORE_ATTRIBUTE_NAME; break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * Switch to the before attribute name state. */ state = Tokenizer.BEFORE_ATTRIBUTE_NAME; continue stateloop; case '/': /* * U+002F SOLIDUS (/) Switch to the self-closing * start tag state. */ state = Tokenizer.SELF_CLOSING_START_TAG; break afterattributevaluequotedloop; // continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * tag token. */ state = emitCurrentTagToken(false, pos); if (shouldSuspend) { break stateloop; } /* * Switch to the data state. */ continue stateloop; default: /* * Anything else Parse error. */ errNoSpaceBetweenAttributes(); /* * Reconsume the character in the before * attribute name state. */ state = Tokenizer.BEFORE_ATTRIBUTE_NAME; reconsume = true; continue stateloop; } } // FALLTHRU DON'T REORDER case SELF_CLOSING_START_TAG: if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '>': /* * U+003E GREATER-THAN SIGN (>) Set the self-closing * flag of the current tag token. Emit the current * tag token. */ // [NOCPP[ errHtml4XmlVoidSyntax(); // ]NOCPP] state = emitCurrentTagToken(true, pos); if (shouldSuspend) { break stateloop; } /* * Switch to the data state. */ continue stateloop; default: /* Anything else Parse error. */ errSlashNotFollowedByGt(); /* * Reconsume the character in the before attribute * name state. */ state = Tokenizer.BEFORE_ATTRIBUTE_NAME; reconsume = true; continue stateloop; } // XXX reorder point case ATTRIBUTE_VALUE_UNQUOTED: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); addAttributeWithValue(); state = Tokenizer.BEFORE_ATTRIBUTE_NAME; break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * Switch to the before attribute name state. */ addAttributeWithValue(); state = Tokenizer.BEFORE_ATTRIBUTE_NAME; continue stateloop; case '&': /* * U+0026 AMPERSAND (&) Switch to the character * reference in attribute value state, with the * additional allowed character being U+003E * GREATER-THAN SIGN (>) */ clearStrBufAndAppend(c); setAdditionalAndRememberAmpersandLocation('>'); returnState = state; state = Tokenizer.CONSUME_CHARACTER_REFERENCE; continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * tag token. */ addAttributeWithValue(); state = emitCurrentTagToken(false, pos); if (shouldSuspend) { break stateloop; } /* * Switch to the data state. */ continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru case '<': case '\"': case '\'': case '=': case '`': /* * U+0022 QUOTATION MARK (") U+0027 APOSTROPHE * (') U+003C LESS-THAN SIGN (<) U+003D EQUALS * SIGN (=) U+0060 GRAVE ACCENT (`) Parse error. */ errUnquotedAttributeValOrNull(c); /* * Treat it as per the "anything else" entry * below. */ // fall through default: // [NOCPP] errHtml4NonNameInUnquotedAttribute(c); // ]NOCPP] /* * Anything else Append the current input * character to the current attribute's value. */ appendLongStrBuf(c); /* * Stay in the attribute value (unquoted) state. */ continue; } } // XXX reorder point case AFTER_ATTRIBUTE_NAME: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE Stay * in the after attribute name state. */ continue; case '/': /* * U+002F SOLIDUS (/) Switch to the self-closing * start tag state. */ addAttributeWithoutValue(); state = Tokenizer.SELF_CLOSING_START_TAG; continue stateloop; case '=': /* * U+003D EQUALS SIGN (=) Switch to the before * attribute value state. */ state = Tokenizer.BEFORE_ATTRIBUTE_VALUE; continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * tag token. */ addAttributeWithoutValue(); state = emitCurrentTagToken(false, pos); if (shouldSuspend) { break stateloop; } /* * Switch to the data state. */ continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru case '\"': case '\'': case '<': errQuoteOrLtInAttributeNameOrNull(c); /* * Treat it as per the "anything else" entry * below. */ default: addAttributeWithoutValue(); /* * Anything else Start a new attribute in the * current tag token. */ if (c >= 'A' && c <= 'Z') { /* * U+0041 LATIN CAPITAL LETTER A through to * U+005A LATIN CAPITAL LETTER Z Set that * attribute's name to the lowercase version * of the current input character (add * 0x0020 to the character's code point) */ c += 0x20; } /* * Set that attribute's name to the current * input character, */ clearStrBufAndAppend(c); /* * and its value to the empty string. */ // Will do later. /* * Switch to the attribute name state. */ state = Tokenizer.ATTRIBUTE_NAME; continue stateloop; } } // XXX reorder point case BOGUS_COMMENT: boguscommentloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume every character up to and including the first * U+003E GREATER-THAN SIGN character (>) or the end of * the file (EOF), whichever comes first. Emit a comment * token whose data is the concatenation of all the * characters starting from and including the character * that caused the state machine to switch into the * bogus comment state, up to and including the * character immediately before the last consumed * character (i.e. up to the character just before the * U+003E or EOF character). (If the comment was started * by the end of the file (EOF), the token is empty.) * * Switch to the data state. * * If the end of the file was reached, reconsume the EOF * character. */ switch (c) { case '>': emitComment(0, pos); state = Tokenizer.DATA; continue stateloop; case '-': appendLongStrBuf(c); state = Tokenizer.BOGUS_COMMENT_HYPHEN; break boguscommentloop; case '\r': appendLongStrBufCarriageReturn(); break stateloop; case '\n': appendLongStrBufLineFeed(); continue; case '\u0000': c = '\uFFFD'; // fall thru default: appendLongStrBuf(c); continue; } } // FALLTHRU DON'T REORDER case BOGUS_COMMENT_HYPHEN: boguscommenthyphenloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); switch (c) { case '>': // [NOCPP[ maybeAppendSpaceToBogusComment(); // ]NOCPP] emitComment(0, pos); state = Tokenizer.DATA; continue stateloop; case '-': appendSecondHyphenToBogusComment(); continue boguscommenthyphenloop; case '\r': appendLongStrBufCarriageReturn(); state = Tokenizer.BOGUS_COMMENT; break stateloop; case '\n': appendLongStrBufLineFeed(); state = Tokenizer.BOGUS_COMMENT; continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru default: appendLongStrBuf(c); state = Tokenizer.BOGUS_COMMENT; continue stateloop; } } // XXX reorder point case MARKUP_DECLARATION_OPEN: markupdeclarationopenloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * If the next two characters are both U+002D * HYPHEN-MINUS characters (-), consume those two * characters, create a comment token whose data is the * empty string, and switch to the comment start state. * * Otherwise, if the next seven characters are an ASCII * case-insensitive match for the word "DOCTYPE", then * consume those characters and switch to the DOCTYPE * state. * * Otherwise, if the insertion mode is * "in foreign content" and the current node is not an * element in the HTML namespace and the next seven * characters are an case-sensitive match for the string * "[CDATA[" (the five uppercase letters "CDATA" with a * U+005B LEFT SQUARE BRACKET character before and * after), then consume those characters and switch to * the CDATA section state. * * Otherwise, is is a parse error. Switch to the bogus * comment state. The next character that is consumed, * if any, is the first character that will be in the * comment. */ switch (c) { case '-': clearLongStrBufAndAppend(c); state = Tokenizer.MARKUP_DECLARATION_HYPHEN; break markupdeclarationopenloop; // continue stateloop; case 'd': case 'D': clearLongStrBufAndAppend(c); index = 0; state = Tokenizer.MARKUP_DECLARATION_OCTYPE; continue stateloop; case '[': if (tokenHandler.isInForeign()) { clearLongStrBufAndAppend(c); index = 0; state = Tokenizer.CDATA_START; continue stateloop; } else { // fall through } default: errBogusComment(); clearLongStrBuf(); state = Tokenizer.BOGUS_COMMENT; reconsume = true; continue stateloop; } } // FALLTHRU DON'T REORDER case MARKUP_DECLARATION_HYPHEN: markupdeclarationhyphenloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); switch (c) { case '\u0000': break stateloop; case '-': clearLongStrBuf(); state = Tokenizer.COMMENT_START; break markupdeclarationhyphenloop; // continue stateloop; default: errBogusComment(); state = Tokenizer.BOGUS_COMMENT; reconsume = true; continue stateloop; } } // FALLTHRU DON'T REORDER case COMMENT_START: commentstartloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Comment start state * * * Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Switch to the comment * start dash state. */ appendLongStrBuf(c); state = Tokenizer.COMMENT_START_DASH; continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Parse error. */ errPrematureEndOfComment(); /* Emit the comment token. */ emitComment(0, pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '\r': appendLongStrBufCarriageReturn(); state = Tokenizer.COMMENT; break stateloop; case '\n': appendLongStrBufLineFeed(); state = Tokenizer.COMMENT; break commentstartloop; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append the input character to * the comment token's data. */ appendLongStrBuf(c); /* * Switch to the comment state. */ state = Tokenizer.COMMENT; break commentstartloop; // continue stateloop; } } // FALLTHRU DON'T REORDER case COMMENT: commentloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Comment state Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Switch to the comment * end dash state */ appendLongStrBuf(c); state = Tokenizer.COMMENT_END_DASH; break commentloop; // continue stateloop; case '\r': appendLongStrBufCarriageReturn(); break stateloop; case '\n': appendLongStrBufLineFeed(); continue; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append the input character to * the comment token's data. */ appendLongStrBuf(c); /* * Stay in the comment state. */ continue; } } // FALLTHRU DON'T REORDER case COMMENT_END_DASH: commentenddashloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Comment end dash state Consume the next input * character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Switch to the comment * end state */ appendLongStrBuf(c); state = Tokenizer.COMMENT_END; break commentenddashloop; // continue stateloop; case '\r': appendLongStrBufCarriageReturn(); state = Tokenizer.COMMENT; break stateloop; case '\n': appendLongStrBufLineFeed(); state = Tokenizer.COMMENT; continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append a U+002D HYPHEN-MINUS * (-) character and the input character to the * comment token's data. */ appendLongStrBuf(c); /* * Switch to the comment state. */ state = Tokenizer.COMMENT; continue stateloop; } } // FALLTHRU DON'T REORDER case COMMENT_END: commentendloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Comment end dash state Consume the next input * character: */ switch (c) { case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the comment * token. */ emitComment(2, pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '-': /* U+002D HYPHEN-MINUS (-) Parse error. */ /* * Append a U+002D HYPHEN-MINUS (-) character to * the comment token's data. */ adjustDoubleHyphenAndAppendToLongStrBufAndErr(c); /* * Stay in the comment end state. */ continue; case ' ': case '\t': case '\u000C': /* * Parse error. Append two U+002D HYPHEN-MINUS * (-) characters and the input character to the * comment token's data. Switch to the comment * end space state. */ adjustDoubleHyphenAndAppendToLongStrBufAndErr(c); state = Tokenizer.COMMENT_END_SPACE; break commentendloop; // continue stateloop; case '\r': adjustDoubleHyphenAndAppendToLongStrBufCarriageReturn(); state = Tokenizer.COMMENT_END_SPACE; break stateloop; case '\n': adjustDoubleHyphenAndAppendToLongStrBufLineFeed(); state = Tokenizer.COMMENT_END_SPACE; break commentendloop; // continue stateloop; case '!': errHyphenHyphenBang(); appendLongStrBuf(c); state = Tokenizer.COMMENT_END_BANG; continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Append two U+002D HYPHEN-MINUS (-) characters * and the input character to the comment * token's data. */ adjustDoubleHyphenAndAppendToLongStrBufAndErr(c); /* * Switch to the comment state. */ state = Tokenizer.COMMENT; continue stateloop; } } case COMMENT_END_SPACE: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Comment end space state * * Consume the next input character: */ switch (c) { case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the comment * token. */ emitComment(0, pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '-': /* * U+002D HYPHEN-MINUS (-) Switch to the comment * end dash state. */ appendLongStrBuf(c); /* * Switch to the comment end dash state. */ state = Tokenizer.COMMENT_END_DASH; continue stateloop; case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * Append the input character to the comment * token's data. Stay in the comment end space * state. */ appendLongStrBuf(c); continue; case '\r': appendLongStrBufCarriageReturn(); break stateloop; case '\n': appendLongStrBufLineFeed(); continue; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append the input character to * the comment token's data. Switch to the * comment state. */ appendLongStrBuf(c); /* * Switch to the comment state. */ state = Tokenizer.COMMENT; continue stateloop; } } // XXX reorder point case COMMENT_END_BANG: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Comment end bang state * * Consume the next input character: */ switch (c) { case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the comment * token. */ emitComment(3, pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '-': /* * Append two U+002D HYPHEN-MINUS (-) characters * and a U+0021 EXCLAMATION MARK (!) character * to the comment token's data. */ appendLongStrBuf(c); /* * Switch to the comment end dash state. */ state = Tokenizer.COMMENT_END_DASH; continue stateloop; case '\r': appendLongStrBufCarriageReturn(); break stateloop; case '\n': appendLongStrBufLineFeed(); continue; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append two U+002D HYPHEN-MINUS * (-) characters, a U+0021 EXCLAMATION MARK (!) * character, and the input character to the * comment token's data. Switch to the comment * state. */ appendLongStrBuf(c); /* * Switch to the comment state. */ state = Tokenizer.COMMENT; continue stateloop; } } // XXX reorder point case COMMENT_START_DASH: if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Comment start dash state * * Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Switch to the comment end * state */ appendLongStrBuf(c); state = Tokenizer.COMMENT_END; continue stateloop; case '>': errPrematureEndOfComment(); /* Emit the comment token. */ emitComment(1, pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '\r': appendLongStrBufCarriageReturn(); state = Tokenizer.COMMENT; break stateloop; case '\n': appendLongStrBufLineFeed(); state = Tokenizer.COMMENT; continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Append a U+002D HYPHEN-MINUS character (-) and * the current input character to the comment * token's data. */ appendLongStrBuf(c); /* * Switch to the comment state. */ state = Tokenizer.COMMENT; continue stateloop; } // XXX reorder point case MARKUP_DECLARATION_OCTYPE: markupdeclarationdoctypeloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); if (index < 6) { // OCTYPE.length char folded = c; if (c >= 'A' && c <= 'Z') { folded += 0x20; } if (folded == Tokenizer.OCTYPE[index]) { appendLongStrBuf(c); } else { errBogusComment(); state = Tokenizer.BOGUS_COMMENT; reconsume = true; continue stateloop; } index++; continue; } else { state = Tokenizer.DOCTYPE; reconsume = true; break markupdeclarationdoctypeloop; // continue stateloop; } } // FALLTHRU DON'T REORDER case DOCTYPE: doctypeloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } initDoctypeFields(); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); state = Tokenizer.BEFORE_DOCTYPE_NAME; break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * Switch to the before DOCTYPE name state. */ state = Tokenizer.BEFORE_DOCTYPE_NAME; break doctypeloop; // continue stateloop; default: /* * Anything else Parse error. */ errMissingSpaceBeforeDoctypeName(); /* * Reconsume the current character in the before * DOCTYPE name state. */ state = Tokenizer.BEFORE_DOCTYPE_NAME; reconsume = true; break doctypeloop; // continue stateloop; } } // FALLTHRU DON'T REORDER case BEFORE_DOCTYPE_NAME: beforedoctypenameloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE Stay * in the before DOCTYPE name state. */ continue; case '>': /* * U+003E GREATER-THAN SIGN (>) Parse error. */ errNamelessDoctype(); /* * Create a new DOCTYPE token. Set its * force-quirks flag to on. */ forceQuirks = true; /* * Emit the token. */ emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru default: if (c >= 'A' && c <= 'Z') { /* * U+0041 LATIN CAPITAL LETTER A through to * U+005A LATIN CAPITAL LETTER Z Create a * new DOCTYPE token. Set the token's name * to the lowercase version of the input * character (add 0x0020 to the character's * code point). */ c += 0x20; } /* Anything else Create a new DOCTYPE token. */ /* * Set the token's name name to the current * input character. */ clearStrBufAndAppend(c); /* * Switch to the DOCTYPE name state. */ state = Tokenizer.DOCTYPE_NAME; break beforedoctypenameloop; // continue stateloop; } } // FALLTHRU DON'T REORDER case DOCTYPE_NAME: doctypenameloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); strBufToDoctypeName(); state = Tokenizer.AFTER_DOCTYPE_NAME; break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * Switch to the after DOCTYPE name state. */ strBufToDoctypeName(); state = Tokenizer.AFTER_DOCTYPE_NAME; break doctypenameloop; // continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * DOCTYPE token. */ strBufToDoctypeName(); emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru default: /* * U+0041 LATIN CAPITAL LETTER A through to * U+005A LATIN CAPITAL LETTER Z Append the * lowercase version of the input character (add * 0x0020 to the character's code point) to the * current DOCTYPE token's name. */ if (c >= 'A' && c <= 'Z') { c += 0x0020; } /* * Anything else Append the current input * character to the current DOCTYPE token's * name. */ appendStrBuf(c); /* * Stay in the DOCTYPE name state. */ continue; } } // FALLTHRU DON'T REORDER case AFTER_DOCTYPE_NAME: afterdoctypenameloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE Stay * in the after DOCTYPE name state. */ continue; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * DOCTYPE token. */ emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case 'p': case 'P': index = 0; state = Tokenizer.DOCTYPE_UBLIC; break afterdoctypenameloop; // continue stateloop; case 's': case 'S': index = 0; state = Tokenizer.DOCTYPE_YSTEM; continue stateloop; default: /* * Otherwise, this is the parse error. */ bogusDoctype(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ // done by bogusDoctype(); /* * Switch to the bogus DOCTYPE state. */ state = Tokenizer.BOGUS_DOCTYPE; continue stateloop; } } // FALLTHRU DON'T REORDER case DOCTYPE_UBLIC: doctypeublicloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * If the six characters starting from the current input * character are an ASCII case-insensitive match for the * word "PUBLIC", then consume those characters and * switch to the before DOCTYPE public identifier state. */ if (index < 5) { // UBLIC.length char folded = c; if (c >= 'A' && c <= 'Z') { folded += 0x20; } if (folded != Tokenizer.UBLIC[index]) { bogusDoctype(); // forceQuirks = true; state = Tokenizer.BOGUS_DOCTYPE; reconsume = true; continue stateloop; } index++; continue; } else { state = Tokenizer.AFTER_DOCTYPE_PUBLIC_KEYWORD; reconsume = true; break doctypeublicloop; // continue stateloop; } } // FALLTHRU DON'T REORDER case AFTER_DOCTYPE_PUBLIC_KEYWORD: afterdoctypepublickeywordloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); state = Tokenizer.BEFORE_DOCTYPE_PUBLIC_IDENTIFIER; break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * Switch to the before DOCTYPE public * identifier state. */ state = Tokenizer.BEFORE_DOCTYPE_PUBLIC_IDENTIFIER; break afterdoctypepublickeywordloop; // FALL THROUGH continue stateloop case '"': /* * U+0022 QUOTATION MARK (") Parse Error. */ errNoSpaceBetweenDoctypePublicKeywordAndQuote(); /* * Set the DOCTYPE token's public identifier to * the empty string (not missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE public identifier * (double-quoted) state. */ state = Tokenizer.DOCTYPE_PUBLIC_IDENTIFIER_DOUBLE_QUOTED; continue stateloop; case '\'': /* * U+0027 APOSTROPHE (') Parse Error. */ errNoSpaceBetweenDoctypePublicKeywordAndQuote(); /* * Set the DOCTYPE token's public identifier to * the empty string (not missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE public identifier * (single-quoted) state. */ state = Tokenizer.DOCTYPE_PUBLIC_IDENTIFIER_SINGLE_QUOTED; continue stateloop; case '>': /* U+003E GREATER-THAN SIGN (>) Parse error. */ errExpectedPublicId(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; default: bogusDoctype(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ // done by bogusDoctype(); /* * Switch to the bogus DOCTYPE state. */ state = Tokenizer.BOGUS_DOCTYPE; continue stateloop; } } // FALLTHRU DON'T REORDER case BEFORE_DOCTYPE_PUBLIC_IDENTIFIER: beforedoctypepublicidentifierloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE Stay * in the before DOCTYPE public identifier * state. */ continue; case '"': /* * U+0022 QUOTATION MARK (") Set the DOCTYPE * token's public identifier to the empty string * (not missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE public identifier * (double-quoted) state. */ state = Tokenizer.DOCTYPE_PUBLIC_IDENTIFIER_DOUBLE_QUOTED; break beforedoctypepublicidentifierloop; // continue stateloop; case '\'': /* * U+0027 APOSTROPHE (') Set the DOCTYPE token's * public identifier to the empty string (not * missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE public identifier * (single-quoted) state. */ state = Tokenizer.DOCTYPE_PUBLIC_IDENTIFIER_SINGLE_QUOTED; continue stateloop; case '>': /* U+003E GREATER-THAN SIGN (>) Parse error. */ errExpectedPublicId(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; default: bogusDoctype(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ // done by bogusDoctype(); /* * Switch to the bogus DOCTYPE state. */ state = Tokenizer.BOGUS_DOCTYPE; continue stateloop; } } // FALLTHRU DON'T REORDER case DOCTYPE_PUBLIC_IDENTIFIER_DOUBLE_QUOTED: doctypepublicidentifierdoublequotedloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '"': /* * U+0022 QUOTATION MARK (") Switch to the after * DOCTYPE public identifier state. */ publicIdentifier = longStrBufToString(); state = Tokenizer.AFTER_DOCTYPE_PUBLIC_IDENTIFIER; break doctypepublicidentifierdoublequotedloop; // continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Parse error. */ errGtInPublicId(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ publicIdentifier = longStrBufToString(); emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '\r': appendLongStrBufCarriageReturn(); break stateloop; case '\n': appendLongStrBufLineFeed(); continue; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append the current input * character to the current DOCTYPE token's * public identifier. */ appendLongStrBuf(c); /* * Stay in the DOCTYPE public identifier * (double-quoted) state. */ continue; } } // FALLTHRU DON'T REORDER case AFTER_DOCTYPE_PUBLIC_IDENTIFIER: afterdoctypepublicidentifierloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); state = Tokenizer.BETWEEN_DOCTYPE_PUBLIC_AND_SYSTEM_IDENTIFIERS; break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * Switch to the between DOCTYPE public and * system identifiers state. */ state = Tokenizer.BETWEEN_DOCTYPE_PUBLIC_AND_SYSTEM_IDENTIFIERS; break afterdoctypepublicidentifierloop; // continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * DOCTYPE token. */ emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '"': /* * U+0022 QUOTATION MARK (") Parse error. */ errNoSpaceBetweenPublicAndSystemIds(); /* * Set the DOCTYPE token's system identifier to * the empty string (not missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE system identifier * (double-quoted) state. */ state = Tokenizer.DOCTYPE_SYSTEM_IDENTIFIER_DOUBLE_QUOTED; continue stateloop; case '\'': /* * U+0027 APOSTROPHE (') Parse error. */ errNoSpaceBetweenPublicAndSystemIds(); /* * Set the DOCTYPE token's system identifier to * the empty string (not missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE system identifier * (single-quoted) state. */ state = Tokenizer.DOCTYPE_SYSTEM_IDENTIFIER_SINGLE_QUOTED; continue stateloop; default: bogusDoctype(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ // done by bogusDoctype(); /* * Switch to the bogus DOCTYPE state. */ state = Tokenizer.BOGUS_DOCTYPE; continue stateloop; } } // FALLTHRU DON'T REORDER case BETWEEN_DOCTYPE_PUBLIC_AND_SYSTEM_IDENTIFIERS: betweendoctypepublicandsystemidentifiersloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE Stay * in the between DOCTYPE public and system * identifiers state. */ continue; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * DOCTYPE token. */ emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '"': /* * U+0022 QUOTATION MARK (") Set the DOCTYPE * token's system identifier to the empty string * (not missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE system identifier * (double-quoted) state. */ state = Tokenizer.DOCTYPE_SYSTEM_IDENTIFIER_DOUBLE_QUOTED; break betweendoctypepublicandsystemidentifiersloop; // continue stateloop; case '\'': /* * U+0027 APOSTROPHE (') Set the DOCTYPE token's * system identifier to the empty string (not * missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE system identifier * (single-quoted) state. */ state = Tokenizer.DOCTYPE_SYSTEM_IDENTIFIER_SINGLE_QUOTED; continue stateloop; default: bogusDoctype(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ // done by bogusDoctype(); /* * Switch to the bogus DOCTYPE state. */ state = Tokenizer.BOGUS_DOCTYPE; continue stateloop; } } // FALLTHRU DON'T REORDER case DOCTYPE_SYSTEM_IDENTIFIER_DOUBLE_QUOTED: doctypesystemidentifierdoublequotedloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '"': /* * U+0022 QUOTATION MARK (") Switch to the after * DOCTYPE system identifier state. */ systemIdentifier = longStrBufToString(); state = Tokenizer.AFTER_DOCTYPE_SYSTEM_IDENTIFIER; continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Parse error. */ errGtInSystemId(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ systemIdentifier = longStrBufToString(); emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '\r': appendLongStrBufCarriageReturn(); break stateloop; case '\n': appendLongStrBufLineFeed(); continue; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append the current input * character to the current DOCTYPE token's * system identifier. */ appendLongStrBuf(c); /* * Stay in the DOCTYPE system identifier * (double-quoted) state. */ continue; } } // FALLTHRU DON'T REORDER case AFTER_DOCTYPE_SYSTEM_IDENTIFIER: afterdoctypesystemidentifierloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE Stay * in the after DOCTYPE system identifier state. */ continue; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit the current * DOCTYPE token. */ emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; default: /* * Switch to the bogus DOCTYPE state. (This does * not set the DOCTYPE token's force-quirks flag * to on.) */ bogusDoctypeWithoutQuirks(); state = Tokenizer.BOGUS_DOCTYPE; break afterdoctypesystemidentifierloop; // continue stateloop; } } // FALLTHRU DON'T REORDER case BOGUS_DOCTYPE: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume the next input character: */ switch (c) { case '>': /* * U+003E GREATER-THAN SIGN (>) Emit that * DOCTYPE token. */ emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '\r': silentCarriageReturn(); break stateloop; case '\n': silentLineFeed(); // fall thru default: /* * Anything else Stay in the bogus DOCTYPE * state. */ continue; } } // XXX reorder point case DOCTYPE_YSTEM: doctypeystemloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Otherwise, if the six characters starting from the * current input character are an ASCII case-insensitive * match for the word "SYSTEM", then consume those * characters and switch to the before DOCTYPE system * identifier state. */ if (index < 5) { // YSTEM.length char folded = c; if (c >= 'A' && c <= 'Z') { folded += 0x20; } if (folded != Tokenizer.YSTEM[index]) { bogusDoctype(); state = Tokenizer.BOGUS_DOCTYPE; reconsume = true; continue stateloop; } index++; continue stateloop; } else { state = Tokenizer.AFTER_DOCTYPE_SYSTEM_KEYWORD; reconsume = true; break doctypeystemloop; // continue stateloop; } } // FALLTHRU DON'T REORDER case AFTER_DOCTYPE_SYSTEM_KEYWORD: afterdoctypesystemkeywordloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); state = Tokenizer.BEFORE_DOCTYPE_SYSTEM_IDENTIFIER; break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * Switch to the before DOCTYPE public * identifier state. */ state = Tokenizer.BEFORE_DOCTYPE_SYSTEM_IDENTIFIER; break afterdoctypesystemkeywordloop; // FALL THROUGH continue stateloop case '"': /* * U+0022 QUOTATION MARK (") Parse Error. */ errNoSpaceBetweenDoctypeSystemKeywordAndQuote(); /* * Set the DOCTYPE token's system identifier to * the empty string (not missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE public identifier * (double-quoted) state. */ state = Tokenizer.DOCTYPE_SYSTEM_IDENTIFIER_DOUBLE_QUOTED; continue stateloop; case '\'': /* * U+0027 APOSTROPHE (') Parse Error. */ errNoSpaceBetweenDoctypeSystemKeywordAndQuote(); /* * Set the DOCTYPE token's public identifier to * the empty string (not missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE public identifier * (single-quoted) state. */ state = Tokenizer.DOCTYPE_SYSTEM_IDENTIFIER_SINGLE_QUOTED; continue stateloop; case '>': /* U+003E GREATER-THAN SIGN (>) Parse error. */ errExpectedPublicId(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; default: bogusDoctype(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ // done by bogusDoctype(); /* * Switch to the bogus DOCTYPE state. */ state = Tokenizer.BOGUS_DOCTYPE; continue stateloop; } } // FALLTHRU DON'T REORDER case BEFORE_DOCTYPE_SYSTEM_IDENTIFIER: beforedoctypesystemidentifierloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\r': silentCarriageReturn(); break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE Stay * in the before DOCTYPE system identifier * state. */ continue; case '"': /* * U+0022 QUOTATION MARK (") Set the DOCTYPE * token's system identifier to the empty string * (not missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE system identifier * (double-quoted) state. */ state = Tokenizer.DOCTYPE_SYSTEM_IDENTIFIER_DOUBLE_QUOTED; continue stateloop; case '\'': /* * U+0027 APOSTROPHE (') Set the DOCTYPE token's * system identifier to the empty string (not * missing), */ clearLongStrBuf(); /* * then switch to the DOCTYPE system identifier * (single-quoted) state. */ state = Tokenizer.DOCTYPE_SYSTEM_IDENTIFIER_SINGLE_QUOTED; break beforedoctypesystemidentifierloop; // continue stateloop; case '>': /* U+003E GREATER-THAN SIGN (>) Parse error. */ errExpectedSystemId(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; default: bogusDoctype(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ // done by bogusDoctype(); /* * Switch to the bogus DOCTYPE state. */ state = Tokenizer.BOGUS_DOCTYPE; continue stateloop; } } // FALLTHRU DON'T REORDER case DOCTYPE_SYSTEM_IDENTIFIER_SINGLE_QUOTED: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\'': /* * U+0027 APOSTROPHE (') Switch to the after * DOCTYPE system identifier state. */ systemIdentifier = longStrBufToString(); state = Tokenizer.AFTER_DOCTYPE_SYSTEM_IDENTIFIER; continue stateloop; case '>': errGtInSystemId(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ systemIdentifier = longStrBufToString(); emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '\r': appendLongStrBufCarriageReturn(); break stateloop; case '\n': appendLongStrBufLineFeed(); continue; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append the current input * character to the current DOCTYPE token's * system identifier. */ appendLongStrBuf(c); /* * Stay in the DOCTYPE system identifier * (double-quoted) state. */ continue; } } // XXX reorder point case DOCTYPE_PUBLIC_IDENTIFIER_SINGLE_QUOTED: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '\'': /* * U+0027 APOSTROPHE (') Switch to the after * DOCTYPE public identifier state. */ publicIdentifier = longStrBufToString(); state = Tokenizer.AFTER_DOCTYPE_PUBLIC_IDENTIFIER; continue stateloop; case '>': errGtInPublicId(); /* * Set the DOCTYPE token's force-quirks flag to * on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ publicIdentifier = longStrBufToString(); emitDoctypeToken(pos); /* * Switch to the data state. */ state = Tokenizer.DATA; continue stateloop; case '\r': appendLongStrBufCarriageReturn(); break stateloop; case '\n': appendLongStrBufLineFeed(); continue; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append the current input * character to the current DOCTYPE token's * public identifier. */ appendLongStrBuf(c); /* * Stay in the DOCTYPE public identifier * (single-quoted) state. */ continue; } } // XXX reorder point case CDATA_START: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); if (index < 6) { // CDATA_LSQB.length if (c == Tokenizer.CDATA_LSQB[index]) { appendLongStrBuf(c); } else { errBogusComment(); state = Tokenizer.BOGUS_COMMENT; reconsume = true; continue stateloop; } index++; continue; } else { cstart = pos; // start coalescing state = Tokenizer.CDATA_SECTION; reconsume = true; break; // FALL THROUGH continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case CDATA_SECTION: cdatasectionloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } switch (c) { case ']': flushChars(buf, pos); state = Tokenizer.CDATA_RSQB; break cdatasectionloop; // FALL THROUGH case '\u0000': emitReplacementCharacter(buf, pos); continue; case '\r': emitCarriageReturn(buf, pos); break stateloop; case '\n': silentLineFeed(); // fall thru default: continue; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case CDATA_RSQB: cdatarsqb: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); switch (c) { case ']': state = Tokenizer.CDATA_RSQB_RSQB; break cdatarsqb; default: tokenHandler.characters(Tokenizer.RSQB_RSQB, 0, 1); cstart = pos; state = Tokenizer.CDATA_SECTION; reconsume = true; continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case CDATA_RSQB_RSQB: if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); switch (c) { case '>': cstart = pos + 1; state = Tokenizer.DATA; continue stateloop; default: tokenHandler.characters(Tokenizer.RSQB_RSQB, 0, 2); cstart = pos; state = Tokenizer.CDATA_SECTION; reconsume = true; continue stateloop; } // XXX reorder point case ATTRIBUTE_VALUE_SINGLE_QUOTED: attributevaluesinglequotedloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume the next input character: */ switch (c) { case '\'': /* * U+0027 APOSTROPHE (') Switch to the after * attribute value (quoted) state. */ addAttributeWithValue(); state = Tokenizer.AFTER_ATTRIBUTE_VALUE_QUOTED; continue stateloop; case '&': /* * U+0026 AMPERSAND (&) Switch to the character * reference in attribute value state, with the * + additional allowed character being U+0027 * APOSTROPHE ('). */ clearStrBufAndAppend(c); setAdditionalAndRememberAmpersandLocation('\''); returnState = state; state = Tokenizer.CONSUME_CHARACTER_REFERENCE; break attributevaluesinglequotedloop; // continue stateloop; case '\r': appendLongStrBufCarriageReturn(); break stateloop; case '\n': appendLongStrBufLineFeed(); continue; case '\u0000': c = '\uFFFD'; // fall thru default: /* * Anything else Append the current input * character to the current attribute's value. */ appendLongStrBuf(c); /* * Stay in the attribute value (double-quoted) * state. */ continue; } } // FALLTHRU DON'T REORDER case CONSUME_CHARACTER_REFERENCE: if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); if (c == '\u0000') { break stateloop; } /* * Unlike the definition is the spec, this state does not * return a value and never requires the caller to * backtrack. This state takes care of emitting characters * or appending to the current attribute value. It also * takes care of that in the case when consuming the * character reference fails. */ /* * This section defines how to consume a character * reference. This definition is used when parsing character * references in text and in attributes. * * The behavior depends on the identity of the next * character (the one immediately after the U+0026 AMPERSAND * character): */ switch (c) { case ' ': case '\t': case '\n': case '\r': // we'll reconsume! case '\u000C': case '<': case '&': emitOrAppendStrBuf(returnState); if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos; } state = returnState; reconsume = true; continue stateloop; case '#': /* * U+0023 NUMBER SIGN (#) Consume the U+0023 NUMBER * SIGN. */ appendStrBuf('#'); state = Tokenizer.CONSUME_NCR; continue stateloop; default: if (c == additional) { emitOrAppendStrBuf(returnState); state = returnState; reconsume = true; continue stateloop; } if (c >= 'a' && c <= 'z') { firstCharKey = c - 'a' + 26; } else if (c >= 'A' && c <= 'Z') { firstCharKey = c - 'A'; } else { // No match /* * If no match can be made, then this is a parse * error. */ errNoNamedCharacterMatch(); emitOrAppendStrBuf(returnState); if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos; } state = returnState; reconsume = true; continue stateloop; } // Didn't fail yet appendStrBuf(c); state = Tokenizer.CHARACTER_REFERENCE_HILO_LOOKUP; // FALL THROUGH continue stateloop; } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case CHARACTER_REFERENCE_HILO_LOOKUP: { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); if (c == '\u0000') { break stateloop; } /* * The data structure is as follows: * * HILO_ACCEL is a two-dimensional int array whose major * index corresponds to the second character of the * character reference (code point as index) and the * minor index corresponds to the first character of the * character reference (packed so that A-Z runs from 0 * to 25 and a-z runs from 26 to 51). This layout makes * it easier to use the sparseness of the data structure * to omit parts of it: The second dimension of the * table is null when no character reference starts with * the character corresponding to that row. * * The int value HILO_ACCEL (by these indeces) is zero * if there exists no character reference starting with * that two-letter prefix. Otherwise, the value is an * int that packs two shorts so that the higher short is * the index of the highest character reference name * with that prefix in NAMES and the lower short * corresponds to the index of the lowest character * reference name with that prefix. (It happens that the * first two character reference names share their * prefix so the packed int cannot be 0 by packing the * two shorts.) * * NAMES is an array of byte arrays where each byte * array encodes the name of a character references as * ASCII. The names omit the first two letters of the * name. (Since storing the first two letters would be * redundant with the data contained in HILO_ACCEL.) The * entries are lexically sorted. * * For a given index in NAMES, the same index in VALUES * contains the corresponding expansion as an array of * two UTF-16 code units (either the character and * U+0000 or a suggogate pair). */ int hilo = 0; if (c <= 'z') { @Const @NoLength int[] row = NamedCharacters.HILO_ACCEL[c]; if (row != null) { hilo = row[firstCharKey]; } } if (hilo == 0) { /* * If no match can be made, then this is a parse * error. */ errNoNamedCharacterMatch(); emitOrAppendStrBuf(returnState); if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos; } state = returnState; reconsume = true; continue stateloop; } // Didn't fail yet appendStrBuf(c); lo = hilo & 0xFFFF; hi = hilo >> 16; entCol = -1; candidate = -1; strBufMark = 0; state = Tokenizer.CHARACTER_REFERENCE_TAIL; // FALL THROUGH continue stateloop; } case CHARACTER_REFERENCE_TAIL: outer: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); if (c == '\u0000') { break stateloop; } entCol++; /* * Consume the maximum number of characters possible, * with the consumed characters matching one of the * identifiers in the first column of the named * character references table (in a case-sensitive * manner). */ loloop: for (;;) { if (hi < lo) { break outer; } if (entCol == NamedCharacters.NAMES[lo].length) { candidate = lo; strBufMark = strBufLen; lo++; } else if (entCol > NamedCharacters.NAMES[lo].length) { break outer; } else if (c > NamedCharacters.NAMES[lo][entCol]) { lo++; } else { break loloop; } } hiloop: for (;;) { if (hi < lo) { break outer; } if (entCol == NamedCharacters.NAMES[hi].length) { break hiloop; } if (entCol > NamedCharacters.NAMES[hi].length) { break outer; } else if (c < NamedCharacters.NAMES[hi][entCol]) { hi--; } else { break hiloop; } } if (hi < lo) { break outer; } appendStrBuf(c); continue; } // TODO warn about apos (IE) and TRADE (Opera) if (candidate == -1) { // reconsume deals with CR, LF or nul /* * If no match can be made, then this is a parse error. */ errNoNamedCharacterMatch(); emitOrAppendStrBuf(returnState); if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos; } state = returnState; reconsume = true; continue stateloop; } else { // c can't be CR, LF or nul if we got here byte[] candidateArr = NamedCharacters.NAMES[candidate]; if (candidateArr.length == 0 || candidateArr[candidateArr.length - 1] != ';') { /* * If the last character matched is not a U+003B * SEMICOLON (;), there is a parse error. */ if ((returnState & DATA_AND_RCDATA_MASK) != 0) { /* * If the entity is being consumed as part of an * attribute, and the last character matched is * not a U+003B SEMICOLON (;), */ char ch; if (strBufMark == strBufLen) { ch = c; } else { // if (strBufOffset != -1) { // ch = buf[strBufOffset + strBufMark]; // } else { ch = strBuf[strBufMark]; // } } if ((ch >= '0' && ch <= '9') || (ch >= 'A' && ch <= 'Z') || (ch >= 'a' && ch <= 'z')) { /* * and the next character is in the range * U+0030 DIGIT ZERO to U+0039 DIGIT NINE, * U+0041 LATIN CAPITAL LETTER A to U+005A * LATIN CAPITAL LETTER Z, or U+0061 LATIN * SMALL LETTER A to U+007A LATIN SMALL * LETTER Z, then, for historical reasons, * all the characters that were matched * after the U+0026 AMPERSAND (&) must be * unconsumed, and nothing is returned. */ errNoNamedCharacterMatch(); appendStrBufToLongStrBuf(); state = returnState; reconsume = true; continue stateloop; } } if ((returnState & DATA_AND_RCDATA_MASK) != 0) { errUnescapedAmpersandInterpretedAsCharacterReference(); } else { errNotSemicolonTerminated(); } } /* * Otherwise, return a character token for the character * corresponding to the entity name (as given by the * second column of the named character references * table). */ @Const @NoLength char[] val = NamedCharacters.VALUES[candidate]; // See if the first slot holds a high surrogate if ((val[0] & 0xFC00) == 0xD800) { emitOrAppendTwo(val, returnState); } else { emitOrAppendOne(val, returnState); } // this is so complicated! if (strBufMark < strBufLen) { // if (strBufOffset != -1) { // if ((returnState & (~1)) != 0) { // for (int i = strBufMark; i < strBufLen; i++) { // appendLongStrBuf(buf[strBufOffset + i]); // } // } else { // tokenHandler.characters(buf, strBufOffset // + strBufMark, strBufLen // - strBufMark); // } // } else { if ((returnState & DATA_AND_RCDATA_MASK) != 0) { for (int i = strBufMark; i < strBufLen; i++) { appendLongStrBuf(strBuf[i]); } } else { tokenHandler.characters(strBuf, strBufMark, strBufLen - strBufMark); } // } } if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos; } state = returnState; reconsume = true; continue stateloop; /* * If the markup contains I'm ¬it; I tell you, the * entity is parsed as "not", as in, I'm ¬it; I tell * you. But if the markup was I'm ∉ I tell you, * the entity would be parsed as "notin;", resulting in * I'm ∉ I tell you. */ } // XXX reorder point case CONSUME_NCR: if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); prevValue = -1; value = 0; seenDigits = false; /* * The behavior further depends on the character after the * U+0023 NUMBER SIGN: */ switch (c) { case 'x': case 'X': /* * U+0078 LATIN SMALL LETTER X U+0058 LATIN CAPITAL * LETTER X Consume the X. * * Follow the steps below, but using the range of * characters U+0030 DIGIT ZERO through to U+0039 * DIGIT NINE, U+0061 LATIN SMALL LETTER A through * to U+0066 LATIN SMALL LETTER F, and U+0041 LATIN * CAPITAL LETTER A, through to U+0046 LATIN CAPITAL * LETTER F (in other words, 0-9, A-F, a-f). * * When it comes to interpreting the number, * interpret it as a hexadecimal number. */ appendStrBuf(c); state = Tokenizer.HEX_NCR_LOOP; continue stateloop; default: /* * Anything else Follow the steps below, but using * the range of characters U+0030 DIGIT ZERO through * to U+0039 DIGIT NINE (i.e. just 0-9). * * When it comes to interpreting the number, * interpret it as a decimal number. */ state = Tokenizer.DECIMAL_NRC_LOOP; reconsume = true; // FALL THROUGH continue stateloop; } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case DECIMAL_NRC_LOOP: decimalloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } // Deal with overflow gracefully if (value < prevValue) { value = 0x110000; // Value above Unicode range but // within int // range } prevValue = value; /* * Consume as many characters as match the range of * characters given above. */ if (c >= '0' && c <= '9') { seenDigits = true; value *= 10; value += c - '0'; continue; } else if (c == ';') { if (seenDigits) { if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos + 1; } state = Tokenizer.HANDLE_NCR_VALUE; // FALL THROUGH continue stateloop; break decimalloop; } else { errNoDigitsInNCR(); appendStrBuf(';'); emitOrAppendStrBuf(returnState); if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos + 1; } state = returnState; continue stateloop; } } else { /* * If no characters match the range, then don't * consume any characters (and unconsume the U+0023 * NUMBER SIGN character and, if appropriate, the X * character). This is a parse error; nothing is * returned. * * Otherwise, if the next character is a U+003B * SEMICOLON, consume that too. If it isn't, there * is a parse error. */ if (!seenDigits) { errNoDigitsInNCR(); emitOrAppendStrBuf(returnState); if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos; } state = returnState; reconsume = true; continue stateloop; } else { errCharRefLacksSemicolon(); if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos; } state = Tokenizer.HANDLE_NCR_VALUE; reconsume = true; // FALL THROUGH continue stateloop; break decimalloop; } } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case HANDLE_NCR_VALUE: // WARNING previous state sets reconsume // XXX inline this case if the method size can take it handleNcrValue(returnState); state = returnState; continue stateloop; // XXX reorder point case HEX_NCR_LOOP: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); // Deal with overflow gracefully if (value < prevValue) { value = 0x110000; // Value above Unicode range but // within int // range } prevValue = value; /* * Consume as many characters as match the range of * characters given above. */ if (c >= '0' && c <= '9') { seenDigits = true; value *= 16; value += c - '0'; continue; } else if (c >= 'A' && c <= 'F') { seenDigits = true; value *= 16; value += c - 'A' + 10; continue; } else if (c >= 'a' && c <= 'f') { seenDigits = true; value *= 16; value += c - 'a' + 10; continue; } else if (c == ';') { if (seenDigits) { if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos + 1; } state = Tokenizer.HANDLE_NCR_VALUE; continue stateloop; } else { errNoDigitsInNCR(); appendStrBuf(';'); emitOrAppendStrBuf(returnState); if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos + 1; } state = returnState; continue stateloop; } } else { /* * If no characters match the range, then don't * consume any characters (and unconsume the U+0023 * NUMBER SIGN character and, if appropriate, the X * character). This is a parse error; nothing is * returned. * * Otherwise, if the next character is a U+003B * SEMICOLON, consume that too. If it isn't, there * is a parse error. */ if (!seenDigits) { errNoDigitsInNCR(); emitOrAppendStrBuf(returnState); if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos; } state = returnState; reconsume = true; continue stateloop; } else { errCharRefLacksSemicolon(); if ((returnState & DATA_AND_RCDATA_MASK) == 0) { cstart = pos; } state = Tokenizer.HANDLE_NCR_VALUE; reconsume = true; continue stateloop; } } } // XXX reorder point case PLAINTEXT: plaintextloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } switch (c) { case '\u0000': emitReplacementCharacter(buf, pos); continue; case '\r': emitCarriageReturn(buf, pos); break stateloop; case '\n': silentLineFeed(); default: /* * Anything else Emit the current input * character as a character token. Stay in the * RAWTEXT state. */ continue; } } // XXX reorder point case SCRIPT_DATA: scriptdataloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } switch (c) { case '<': /* * U+003C LESS-THAN SIGN (<) Switch to the * script data less-than sign state. */ flushChars(buf, pos); returnState = state; state = Tokenizer.SCRIPT_DATA_LESS_THAN_SIGN; break scriptdataloop; // FALL THRU continue // stateloop; case '\u0000': emitReplacementCharacter(buf, pos); continue; case '\r': emitCarriageReturn(buf, pos); break stateloop; case '\n': silentLineFeed(); default: /* * Anything else Emit the current input * character as a character token. Stay in the * script data state. */ continue; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_LESS_THAN_SIGN: scriptdatalessthansignloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); switch (c) { case '/': /* * U+002F SOLIDUS (/) Set the temporary buffer * to the empty string. Switch to the script * data end tag open state. */ index = 0; clearStrBuf(); state = Tokenizer.NON_DATA_END_TAG_NAME; continue stateloop; case '!': tokenHandler.characters(Tokenizer.LT_GT, 0, 1); cstart = pos; state = Tokenizer.SCRIPT_DATA_ESCAPE_START; break scriptdatalessthansignloop; // FALL THRU // continue // stateloop; default: /* * Otherwise, emit a U+003C LESS-THAN SIGN * character token */ tokenHandler.characters(Tokenizer.LT_GT, 0, 1); /* * and reconsume the current input character in * the data state. */ cstart = pos; state = Tokenizer.SCRIPT_DATA; reconsume = true; continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_ESCAPE_START: scriptdataescapestartloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Emit a U+002D * HYPHEN-MINUS character token. Switch to the * script data escape start dash state. */ state = Tokenizer.SCRIPT_DATA_ESCAPE_START_DASH; break scriptdataescapestartloop; // FALL THRU // continue // stateloop; default: /* * Anything else Reconsume the current input * character in the script data state. */ state = Tokenizer.SCRIPT_DATA; reconsume = true; continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_ESCAPE_START_DASH: scriptdataescapestartdashloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Emit a U+002D * HYPHEN-MINUS character token. Switch to the * script data escaped dash dash state. */ state = Tokenizer.SCRIPT_DATA_ESCAPED_DASH_DASH; break scriptdataescapestartdashloop; // continue stateloop; default: /* * Anything else Reconsume the current input * character in the script data state. */ state = Tokenizer.SCRIPT_DATA; reconsume = true; continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_ESCAPED_DASH_DASH: scriptdataescapeddashdashloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Emit a U+002D * HYPHEN-MINUS character token. Stay in the * script data escaped dash dash state. */ continue; case '<': /* * U+003C LESS-THAN SIGN (<) Switch to the * script data escaped less-than sign state. */ flushChars(buf, pos); state = Tokenizer.SCRIPT_DATA_ESCAPED_LESS_THAN_SIGN; continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit a U+003E * GREATER-THAN SIGN character token. Switch to * the script data state. */ state = Tokenizer.SCRIPT_DATA; continue stateloop; case '\u0000': emitReplacementCharacter(buf, pos); state = Tokenizer.SCRIPT_DATA_ESCAPED; break scriptdataescapeddashdashloop; case '\r': emitCarriageReturn(buf, pos); state = Tokenizer.SCRIPT_DATA_ESCAPED; break stateloop; case '\n': silentLineFeed(); default: /* * Anything else Emit the current input * character as a character token. Switch to the * script data escaped state. */ state = Tokenizer.SCRIPT_DATA_ESCAPED; break scriptdataescapeddashdashloop; // continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_ESCAPED: scriptdataescapedloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Emit a U+002D * HYPHEN-MINUS character token. Switch to the * script data escaped dash state. */ state = Tokenizer.SCRIPT_DATA_ESCAPED_DASH; break scriptdataescapedloop; // FALL THRU // continue // stateloop; case '<': /* * U+003C LESS-THAN SIGN (<) Switch to the * script data escaped less-than sign state. */ flushChars(buf, pos); state = Tokenizer.SCRIPT_DATA_ESCAPED_LESS_THAN_SIGN; continue stateloop; case '\u0000': emitReplacementCharacter(buf, pos); continue; case '\r': emitCarriageReturn(buf, pos); break stateloop; case '\n': silentLineFeed(); default: /* * Anything else Emit the current input * character as a character token. Stay in the * script data escaped state. */ continue; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_ESCAPED_DASH: scriptdataescapeddashloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Emit a U+002D * HYPHEN-MINUS character token. Switch to the * script data escaped dash dash state. */ state = Tokenizer.SCRIPT_DATA_ESCAPED_DASH_DASH; continue stateloop; case '<': /* * U+003C LESS-THAN SIGN (<) Switch to the * script data escaped less-than sign state. */ flushChars(buf, pos); state = Tokenizer.SCRIPT_DATA_ESCAPED_LESS_THAN_SIGN; break scriptdataescapeddashloop; // continue stateloop; case '\u0000': emitReplacementCharacter(buf, pos); state = Tokenizer.SCRIPT_DATA_ESCAPED; continue stateloop; case '\r': emitCarriageReturn(buf, pos); state = Tokenizer.SCRIPT_DATA_ESCAPED; break stateloop; case '\n': silentLineFeed(); default: /* * Anything else Emit the current input * character as a character token. Switch to the * script data escaped state. */ state = Tokenizer.SCRIPT_DATA_ESCAPED; continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_ESCAPED_LESS_THAN_SIGN: scriptdataescapedlessthanloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '/': /* * U+002F SOLIDUS (/) Set the temporary buffer * to the empty string. Switch to the script * data escaped end tag open state. */ index = 0; clearStrBuf(); returnState = Tokenizer.SCRIPT_DATA_ESCAPED; state = Tokenizer.NON_DATA_END_TAG_NAME; continue stateloop; case 'S': case 's': /* * U+0041 LATIN CAPITAL LETTER A through to * U+005A LATIN CAPITAL LETTER Z Emit a U+003C * LESS-THAN SIGN character token and the * current input character as a character token. */ tokenHandler.characters(Tokenizer.LT_GT, 0, 1); cstart = pos; index = 1; /* * Set the temporary buffer to the empty string. * Append the lowercase version of the current * input character (add 0x0020 to the * character's code point) to the temporary * buffer. Switch to the script data double * escape start state. */ state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPE_START; break scriptdataescapedlessthanloop; // continue stateloop; default: /* * Anything else Emit a U+003C LESS-THAN SIGN * character token and reconsume the current * input character in the script data escaped * state. */ tokenHandler.characters(Tokenizer.LT_GT, 0, 1); cstart = pos; reconsume = true; state = Tokenizer.SCRIPT_DATA_ESCAPED; continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_DOUBLE_ESCAPE_START: scriptdatadoubleescapestartloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); assert (index > 0); if (index < 6) { // SCRIPT_ARR.length char folded = c; if (c >= 'A' && c <= 'Z') { folded += 0x20; } if (folded != Tokenizer.SCRIPT_ARR[index]) { reconsume = true; state = Tokenizer.SCRIPT_DATA_ESCAPED; continue stateloop; } index++; continue; } switch (c) { case '\r': emitCarriageReturn(buf, pos); state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; break stateloop; case '\n': silentLineFeed(); case ' ': case '\t': case '\u000C': case '/': case '>': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * U+002F SOLIDUS (/) U+003E GREATER-THAN SIGN * (>) Emit the current input character as a * character token. If the temporary buffer is * the string "script", then switch to the * script data double escaped state. */ state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; break scriptdatadoubleescapestartloop; // continue stateloop; default: /* * Anything else Reconsume the current input * character in the script data escaped state. */ reconsume = true; state = Tokenizer.SCRIPT_DATA_ESCAPED; continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_DOUBLE_ESCAPED: scriptdatadoubleescapedloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } /* * Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Emit a U+002D * HYPHEN-MINUS character token. Switch to the * script data double escaped dash state. */ state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED_DASH; break scriptdatadoubleescapedloop; // FALL THRU // continue // stateloop; case '<': /* * U+003C LESS-THAN SIGN (<) Emit a U+003C * LESS-THAN SIGN character token. Switch to the * script data double escaped less-than sign * state. */ state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED_LESS_THAN_SIGN; continue stateloop; case '\u0000': emitReplacementCharacter(buf, pos); continue; case '\r': emitCarriageReturn(buf, pos); break stateloop; case '\n': silentLineFeed(); default: /* * Anything else Emit the current input * character as a character token. Stay in the * script data double escaped state. */ continue; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_DOUBLE_ESCAPED_DASH: scriptdatadoubleescapeddashloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Emit a U+002D * HYPHEN-MINUS character token. Switch to the * script data double escaped dash dash state. */ state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED_DASH_DASH; break scriptdatadoubleescapeddashloop; // continue stateloop; case '<': /* * U+003C LESS-THAN SIGN (<) Emit a U+003C * LESS-THAN SIGN character token. Switch to the * script data double escaped less-than sign * state. */ state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED_LESS_THAN_SIGN; continue stateloop; case '\u0000': emitReplacementCharacter(buf, pos); state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; continue stateloop; case '\r': emitCarriageReturn(buf, pos); state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; break stateloop; case '\n': silentLineFeed(); default: /* * Anything else Emit the current input * character as a character token. Switch to the * script data double escaped state. */ state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_DOUBLE_ESCAPED_DASH_DASH: scriptdatadoubleescapeddashdashloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '-': /* * U+002D HYPHEN-MINUS (-) Emit a U+002D * HYPHEN-MINUS character token. Stay in the * script data double escaped dash dash state. */ continue; case '<': /* * U+003C LESS-THAN SIGN (<) Emit a U+003C * LESS-THAN SIGN character token. Switch to the * script data double escaped less-than sign * state. */ state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED_LESS_THAN_SIGN; break scriptdatadoubleescapeddashdashloop; case '>': /* * U+003E GREATER-THAN SIGN (>) Emit a U+003E * GREATER-THAN SIGN character token. Switch to * the script data state. */ state = Tokenizer.SCRIPT_DATA; continue stateloop; case '\u0000': emitReplacementCharacter(buf, pos); state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; continue stateloop; case '\r': emitCarriageReturn(buf, pos); state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; break stateloop; case '\n': silentLineFeed(); default: /* * Anything else Emit the current input * character as a character token. Switch to the * script data double escaped state. */ state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_DOUBLE_ESCAPED_LESS_THAN_SIGN: scriptdatadoubleescapedlessthanloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Consume the next input character: */ switch (c) { case '/': /* * U+002F SOLIDUS (/) Emit a U+002F SOLIDUS * character token. Set the temporary buffer to * the empty string. Switch to the script data * double escape end state. */ index = 0; state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPE_END; break scriptdatadoubleescapedlessthanloop; default: /* * Anything else Reconsume the current input * character in the script data double escaped * state. */ reconsume = true; state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; continue stateloop; } } // WARNING FALLTHRU CASE TRANSITION: DON'T REORDER case SCRIPT_DATA_DOUBLE_ESCAPE_END: scriptdatadoubleescapeendloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); if (index < 6) { // SCRIPT_ARR.length char folded = c; if (c >= 'A' && c <= 'Z') { folded += 0x20; } if (folded != Tokenizer.SCRIPT_ARR[index]) { reconsume = true; state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; continue stateloop; } index++; continue; } switch (c) { case '\r': emitCarriageReturn(buf, pos); state = Tokenizer.SCRIPT_DATA_ESCAPED; break stateloop; case '\n': silentLineFeed(); case ' ': case '\t': case '\u000C': case '/': case '>': /* * U+0009 CHARACTER TABULATION U+000A LINE FEED * (LF) U+000C FORM FEED (FF) U+0020 SPACE * U+002F SOLIDUS (/) U+003E GREATER-THAN SIGN * (>) Emit the current input character as a * character token. If the temporary buffer is * the string "script", then switch to the * script data escaped state. */ state = Tokenizer.SCRIPT_DATA_ESCAPED; continue stateloop; default: /* * Reconsume the current input character in the * script data double escaped state. */ reconsume = true; state = Tokenizer.SCRIPT_DATA_DOUBLE_ESCAPED; continue stateloop; } } // XXX reorder point case CLOSE_TAG_OPEN: if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * Otherwise, if the content model flag is set to the PCDATA * state, or if the next few characters do match that tag * name, consume the next input character: */ switch (c) { case '>': /* U+003E GREATER-THAN SIGN (>) Parse error. */ errLtSlashGt(); /* * Switch to the data state. */ cstart = pos + 1; state = Tokenizer.DATA; continue stateloop; case '\r': silentCarriageReturn(); /* Anything else Parse error. */ errGarbageAfterLtSlash(); /* * Switch to the bogus comment state. */ clearLongStrBufAndAppend('\n'); state = Tokenizer.BOGUS_COMMENT; break stateloop; case '\n': silentLineFeed(); /* Anything else Parse error. */ errGarbageAfterLtSlash(); /* * Switch to the bogus comment state. */ clearLongStrBufAndAppend('\n'); state = Tokenizer.BOGUS_COMMENT; continue stateloop; case '\u0000': c = '\uFFFD'; // fall thru default: if (c >= 'A' && c <= 'Z') { c += 0x20; } if (c >= 'a' && c <= 'z') { /* * U+0061 LATIN SMALL LETTER A through to U+007A * LATIN SMALL LETTER Z Create a new end tag * token, */ endTag = true; /* * set its tag name to the input character, */ clearStrBufAndAppend(c); /* * then switch to the tag name state. (Don't * emit the token yet; further details will be * filled in before it is emitted.) */ state = Tokenizer.TAG_NAME; continue stateloop; } else { /* Anything else Parse error. */ errGarbageAfterLtSlash(); /* * Switch to the bogus comment state. */ clearLongStrBufAndAppend(c); state = Tokenizer.BOGUS_COMMENT; continue stateloop; } } // XXX reorder point case RCDATA: rcdataloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } switch (c) { case '&': /* * U+0026 AMPERSAND (&) Switch to the character * reference in RCDATA state. */ flushChars(buf, pos); clearStrBufAndAppend(c); additional = '\u0000'; returnState = state; state = Tokenizer.CONSUME_CHARACTER_REFERENCE; continue stateloop; case '<': /* * U+003C LESS-THAN SIGN (<) Switch to the * RCDATA less-than sign state. */ flushChars(buf, pos); returnState = state; state = Tokenizer.RAWTEXT_RCDATA_LESS_THAN_SIGN; continue stateloop; case '\u0000': emitReplacementCharacter(buf, pos); continue; case '\r': emitCarriageReturn(buf, pos); break stateloop; case '\n': silentLineFeed(); default: /* * Emit the current input character as a * character token. Stay in the RCDATA state. */ continue; } } // XXX reorder point case RAWTEXT: rawtextloop: for (;;) { if (reconsume) { reconsume = false; } else { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); } switch (c) { case '<': /* * U+003C LESS-THAN SIGN (<) Switch to the * RAWTEXT less-than sign state. */ flushChars(buf, pos); returnState = state; state = Tokenizer.RAWTEXT_RCDATA_LESS_THAN_SIGN; break rawtextloop; // FALL THRU continue stateloop; case '\u0000': emitReplacementCharacter(buf, pos); continue; case '\r': emitCarriageReturn(buf, pos); break stateloop; case '\n': silentLineFeed(); default: /* * Emit the current input character as a * character token. Stay in the RAWTEXT state. */ continue; } } // XXX fallthru don't reorder case RAWTEXT_RCDATA_LESS_THAN_SIGN: rawtextrcdatalessthansignloop: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); switch (c) { case '/': /* * U+002F SOLIDUS (/) Set the temporary buffer * to the empty string. Switch to the script * data end tag open state. */ index = 0; clearStrBuf(); state = Tokenizer.NON_DATA_END_TAG_NAME; break rawtextrcdatalessthansignloop; // FALL THRU continue stateloop; default: /* * Otherwise, emit a U+003C LESS-THAN SIGN * character token */ tokenHandler.characters(Tokenizer.LT_GT, 0, 1); /* * and reconsume the current input character in * the data state. */ cstart = pos; state = returnState; reconsume = true; continue stateloop; } } // XXX fall thru. don't reorder. case NON_DATA_END_TAG_NAME: for (;;) { if (++pos == endPos) { break stateloop; } c = checkChar(buf, pos); /* * ASSERT! when entering this state, set index to 0 and * call clearStrBuf() assert (contentModelElement != * null); Let's implement the above without lookahead. * strBuf is the 'temporary buffer'. */ if (index < endTagExpectationAsArray.length) { char e = endTagExpectationAsArray[index]; char folded = c; if (c >= 'A' && c <= 'Z') { folded += 0x20; } if (folded != e) { // [NOCPP[ errHtml4LtSlashInRcdata(folded); // ]NOCPP] tokenHandler.characters(Tokenizer.LT_SOLIDUS, 0, 2); emitStrBuf(); cstart = pos; state = returnState; reconsume = true; continue stateloop; } appendStrBuf(c); index++; continue; } else { endTag = true; // XXX replace contentModelElement with different // type tagName = endTagExpectation; switch (c) { case '\r': silentCarriageReturn(); state = Tokenizer.BEFORE_ATTRIBUTE_NAME; break stateloop; case '\n': silentLineFeed(); // fall thru case ' ': case '\t': case '\u000C': /* * U+0009 CHARACTER TABULATION U+000A LINE * FEED (LF) U+000C FORM FEED (FF) U+0020 * SPACE If the current end tag token is an * appropriate end tag token, then switch to * the before attribute name state. */ state = Tokenizer.BEFORE_ATTRIBUTE_NAME; continue stateloop; case '/': /* * U+002F SOLIDUS (/) If the current end tag * token is an appropriate end tag token, * then switch to the self-closing start tag * state. */ state = Tokenizer.SELF_CLOSING_START_TAG; continue stateloop; case '>': /* * U+003E GREATER-THAN SIGN (>) If the * current end tag token is an appropriate * end tag token, then emit the current tag * token and switch to the data state. */ state = emitCurrentTagToken(false, pos); if (shouldSuspend) { break stateloop; } continue stateloop; default: /* * Emit a U+003C LESS-THAN SIGN character * token, a U+002F SOLIDUS character token, * a character token for each of the * characters in the temporary buffer (in * the order they were added to the buffer), * and reconsume the current input character * in the RAWTEXT state. */ // [NOCPP[ errWarnLtSlashInRcdata(); // ]NOCPP] tokenHandler.characters( Tokenizer.LT_SOLIDUS, 0, 2); emitStrBuf(); if (c == '\u0000') { emitReplacementCharacter(buf, pos); } else { cstart = pos; // don't drop the // character } state = returnState; continue stateloop; } } } } } flushChars(buf, pos); /* * if (prevCR && pos != endPos) { // why is this needed? pos--; col--; } */ // Save locals stateSave = state; returnStateSave = returnState; return pos; } private void initDoctypeFields() { Portability.releaseLocal(doctypeName); doctypeName = ""; if (systemIdentifier != null) { Portability.releaseString(systemIdentifier); systemIdentifier = null; } if (publicIdentifier != null) { Portability.releaseString(publicIdentifier); publicIdentifier = null; } forceQuirks = false; } @Inline private void adjustDoubleHyphenAndAppendToLongStrBufCarriageReturn() throws SAXException { silentCarriageReturn(); adjustDoubleHyphenAndAppendToLongStrBufAndErr('\n'); } @Inline private void adjustDoubleHyphenAndAppendToLongStrBufLineFeed() throws SAXException { silentLineFeed(); adjustDoubleHyphenAndAppendToLongStrBufAndErr('\n'); } @Inline private void appendLongStrBufLineFeed() { silentLineFeed(); appendLongStrBuf('\n'); } @Inline private void appendLongStrBufCarriageReturn() { silentCarriageReturn(); appendLongStrBuf('\n'); } @Inline protected void silentCarriageReturn() { ++line; lastCR = true; } @Inline protected void silentLineFeed() { ++line; } private void emitCarriageReturn(@NoLength char[] buf, int pos) throws SAXException { silentCarriageReturn(); flushChars(buf, pos); tokenHandler.characters(Tokenizer.LF, 0, 1); cstart = Integer.MAX_VALUE; } private void emitReplacementCharacter(@NoLength char[] buf, int pos) throws SAXException { silentCarriageReturn(); flushChars(buf, pos); tokenHandler.characters(Tokenizer.REPLACEMENT_CHARACTER, 0, 1); cstart = Integer.MAX_VALUE; } private void setAdditionalAndRememberAmpersandLocation(char add) { additional = add; // [NOCPP[ ampersandLocation = new LocatorImpl(this); // ]NOCPP] } private void bogusDoctype() throws SAXException { errBogusDoctype(); forceQuirks = true; } private void bogusDoctypeWithoutQuirks() throws SAXException { errBogusDoctype(); forceQuirks = false; } private void emitOrAppendStrBuf(int returnState) throws SAXException { if ((returnState & DATA_AND_RCDATA_MASK) != 0) { appendStrBufToLongStrBuf(); } else { emitStrBuf(); } } private void handleNcrValue(int returnState) throws SAXException { /* * If one or more characters match the range, then take them all and * interpret the string of characters as a number (either hexadecimal or * decimal as appropriate). */ if (value <= 0xFFFF) { if (value >= 0x80 && value <= 0x9f) { /* * If that number is one of the numbers in the first column of * the following table, then this is a parse error. */ errNcrInC1Range(); /* * Find the row with that number in the first column, and return * a character token for the Unicode character given in the * second column of that row. */ @NoLength char[] val = NamedCharacters.WINDOWS_1252[value - 0x80]; emitOrAppendOne(val, returnState); // [NOCPP[ } else if (value == 0xC && contentSpacePolicy != XmlViolationPolicy.ALLOW) { if (contentSpacePolicy == XmlViolationPolicy.ALTER_INFOSET) { emitOrAppendOne(Tokenizer.SPACE, returnState); } else if (contentSpacePolicy == XmlViolationPolicy.FATAL) { fatal("A character reference expanded to a form feed which is not legal XML 1.0 white space."); } // ]NOCPP] } else if (value == 0x0) { errNcrZero(); emitOrAppendOne(Tokenizer.REPLACEMENT_CHARACTER, returnState); } else if ((value & 0xF800) == 0xD800) { errNcrSurrogate(); emitOrAppendOne(Tokenizer.REPLACEMENT_CHARACTER, returnState); } else { /* * Otherwise, return a character token for the Unicode character * whose code point is that number. */ char ch = (char) value; // [NOCPP[ if (value == 0x0D) { errNcrCr(); } else if ((value <= 0x0008) || (value == 0x000B) || (value >= 0x000E && value <= 0x001F)) { ch = errNcrControlChar(ch); } else if (value >= 0xFDD0 && value <= 0xFDEF) { errNcrUnassigned(); } else if ((value & 0xFFFE) == 0xFFFE) { ch = errNcrNonCharacter(ch); } else if (value >= 0x007F && value <= 0x009F) { errNcrControlChar(); } else { maybeWarnPrivateUse(ch); } // ]NOCPP] bmpChar[0] = ch; emitOrAppendOne(bmpChar, returnState); } } else if (value <= 0x10FFFF) { // [NOCPP[ maybeWarnPrivateUseAstral(); if ((value & 0xFFFE) == 0xFFFE) { errAstralNonCharacter(value); } // ]NOCPP] astralChar[0] = (char) (Tokenizer.LEAD_OFFSET + (value >> 10)); astralChar[1] = (char) (0xDC00 + (value & 0x3FF)); emitOrAppendTwo(astralChar, returnState); } else { errNcrOutOfRange(); emitOrAppendOne(Tokenizer.REPLACEMENT_CHARACTER, returnState); } } public void eof() throws SAXException { int state = stateSave; int returnState = returnStateSave; eofloop: for (;;) { switch (state) { case SCRIPT_DATA_LESS_THAN_SIGN: case SCRIPT_DATA_ESCAPED_LESS_THAN_SIGN: /* * Otherwise, emit a U+003C LESS-THAN SIGN character token */ tokenHandler.characters(Tokenizer.LT_GT, 0, 1); /* * and reconsume the current input character in the data * state. */ break eofloop; case TAG_OPEN: /* * The behavior of this state depends on the content model * flag. */ /* * Anything else Parse error. */ errEofAfterLt(); /* * Emit a U+003C LESS-THAN SIGN character token */ tokenHandler.characters(Tokenizer.LT_GT, 0, 1); /* * and reconsume the current input character in the data * state. */ break eofloop; case RAWTEXT_RCDATA_LESS_THAN_SIGN: /* * Emit a U+003C LESS-THAN SIGN character token */ tokenHandler.characters(Tokenizer.LT_GT, 0, 1); /* * and reconsume the current input character in the RCDATA * state. */ break eofloop; case NON_DATA_END_TAG_NAME: /* * Emit a U+003C LESS-THAN SIGN character token, a U+002F * SOLIDUS character token, */ tokenHandler.characters(Tokenizer.LT_SOLIDUS, 0, 2); /* * a character token for each of the characters in the * temporary buffer (in the order they were added to the * buffer), */ emitStrBuf(); /* * and reconsume the current input character in the RCDATA * state. */ break eofloop; case CLOSE_TAG_OPEN: /* EOF Parse error. */ errEofAfterLt(); /* * Emit a U+003C LESS-THAN SIGN character token and a U+002F * SOLIDUS character token. */ tokenHandler.characters(Tokenizer.LT_SOLIDUS, 0, 2); /* * Reconsume the EOF character in the data state. */ break eofloop; case TAG_NAME: /* * EOF Parse error. */ errEofInTagName(); /* * Reconsume the EOF character in the data state. */ break eofloop; case BEFORE_ATTRIBUTE_NAME: case AFTER_ATTRIBUTE_VALUE_QUOTED: case SELF_CLOSING_START_TAG: /* EOF Parse error. */ errEofWithoutGt(); /* * Reconsume the EOF character in the data state. */ break eofloop; case ATTRIBUTE_NAME: /* * EOF Parse error. */ errEofInAttributeName(); /* * Reconsume the EOF character in the data state. */ break eofloop; case AFTER_ATTRIBUTE_NAME: case BEFORE_ATTRIBUTE_VALUE: /* EOF Parse error. */ errEofWithoutGt(); /* * Reconsume the EOF character in the data state. */ break eofloop; case ATTRIBUTE_VALUE_DOUBLE_QUOTED: case ATTRIBUTE_VALUE_SINGLE_QUOTED: case ATTRIBUTE_VALUE_UNQUOTED: /* EOF Parse error. */ errEofInAttributeValue(); /* * Reconsume the EOF character in the data state. */ break eofloop; case BOGUS_COMMENT: emitComment(0, 0); break eofloop; case BOGUS_COMMENT_HYPHEN: // [NOCPP[ maybeAppendSpaceToBogusComment(); // ]NOCPP] emitComment(0, 0); break eofloop; case MARKUP_DECLARATION_OPEN: errBogusComment(); clearLongStrBuf(); emitComment(0, 0); break eofloop; case MARKUP_DECLARATION_HYPHEN: errBogusComment(); emitComment(0, 0); break eofloop; case MARKUP_DECLARATION_OCTYPE: if (index < 6) { errBogusComment(); emitComment(0, 0); } else { /* EOF Parse error. */ errEofInDoctype(); /* * Create a new DOCTYPE token. Set its force-quirks flag * to on. */ Portability.releaseLocal(doctypeName); doctypeName = ""; if (systemIdentifier != null) { Portability.releaseString(systemIdentifier); systemIdentifier = null; } if (publicIdentifier != null) { Portability.releaseString(publicIdentifier); publicIdentifier = null; } forceQuirks = true; /* * Emit the token. */ emitDoctypeToken(0); /* * Reconsume the EOF character in the data state. */ break eofloop; } break eofloop; case COMMENT_START: case COMMENT: case COMMENT_END_SPACE: /* * EOF Parse error. */ errEofInComment(); /* Emit the comment token. */ emitComment(0, 0); /* * Reconsume the EOF character in the data state. */ break eofloop; case COMMENT_END: errEofInComment(); /* Emit the comment token. */ emitComment(2, 0); /* * Reconsume the EOF character in the data state. */ break eofloop; case COMMENT_END_DASH: case COMMENT_START_DASH: errEofInComment(); /* Emit the comment token. */ emitComment(1, 0); /* * Reconsume the EOF character in the data state. */ break eofloop; case COMMENT_END_BANG: errEofInComment(); /* Emit the comment token. */ emitComment(3, 0); /* * Reconsume the EOF character in the data state. */ break eofloop; case DOCTYPE: case BEFORE_DOCTYPE_NAME: errEofInDoctype(); /* * Create a new DOCTYPE token. Set its force-quirks flag to * on. */ forceQuirks = true; /* * Emit the token. */ emitDoctypeToken(0); /* * Reconsume the EOF character in the data state. */ break eofloop; case DOCTYPE_NAME: errEofInDoctype(); strBufToDoctypeName(); /* * Set the DOCTYPE token's force-quirks flag to on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ emitDoctypeToken(0); /* * Reconsume the EOF character in the data state. */ break eofloop; case DOCTYPE_UBLIC: case DOCTYPE_YSTEM: case AFTER_DOCTYPE_NAME: case AFTER_DOCTYPE_PUBLIC_KEYWORD: case AFTER_DOCTYPE_SYSTEM_KEYWORD: case BEFORE_DOCTYPE_PUBLIC_IDENTIFIER: errEofInDoctype(); /* * Set the DOCTYPE token's force-quirks flag to on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ emitDoctypeToken(0); /* * Reconsume the EOF character in the data state. */ break eofloop; case DOCTYPE_PUBLIC_IDENTIFIER_DOUBLE_QUOTED: case DOCTYPE_PUBLIC_IDENTIFIER_SINGLE_QUOTED: /* EOF Parse error. */ errEofInPublicId(); /* * Set the DOCTYPE token's force-quirks flag to on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ publicIdentifier = longStrBufToString(); emitDoctypeToken(0); /* * Reconsume the EOF character in the data state. */ break eofloop; case AFTER_DOCTYPE_PUBLIC_IDENTIFIER: case BEFORE_DOCTYPE_SYSTEM_IDENTIFIER: case BETWEEN_DOCTYPE_PUBLIC_AND_SYSTEM_IDENTIFIERS: errEofInDoctype(); /* * Set the DOCTYPE token's force-quirks flag to on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ emitDoctypeToken(0); /* * Reconsume the EOF character in the data state. */ break eofloop; case DOCTYPE_SYSTEM_IDENTIFIER_DOUBLE_QUOTED: case DOCTYPE_SYSTEM_IDENTIFIER_SINGLE_QUOTED: /* EOF Parse error. */ errEofInSystemId(); /* * Set the DOCTYPE token's force-quirks flag to on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ systemIdentifier = longStrBufToString(); emitDoctypeToken(0); /* * Reconsume the EOF character in the data state. */ break eofloop; case AFTER_DOCTYPE_SYSTEM_IDENTIFIER: errEofInDoctype(); /* * Set the DOCTYPE token's force-quirks flag to on. */ forceQuirks = true; /* * Emit that DOCTYPE token. */ emitDoctypeToken(0); /* * Reconsume the EOF character in the data state. */ break eofloop; case BOGUS_DOCTYPE: /* * Emit that DOCTYPE token. */ emitDoctypeToken(0); /* * Reconsume the EOF character in the data state. */ break eofloop; case CONSUME_CHARACTER_REFERENCE: /* * Unlike the definition is the spec, this state does not * return a value and never requires the caller to * backtrack. This state takes care of emitting characters * or appending to the current attribute value. It also * takes care of that in the case when consuming the entity * fails. */ /* * This section defines how to consume an entity. This * definition is used when parsing entities in text and in * attributes. * * The behavior depends on the identity of the next * character (the one immediately after the U+0026 AMPERSAND * character): */ emitOrAppendStrBuf(returnState); state = returnState; continue; case CHARACTER_REFERENCE_HILO_LOOKUP: errNoNamedCharacterMatch(); emitOrAppendStrBuf(returnState); state = returnState; continue; case CHARACTER_REFERENCE_TAIL: outer: for (;;) { char c = '\u0000'; entCol++; /* * Consume the maximum number of characters possible, * with the consumed characters matching one of the * identifiers in the first column of the named * character references table (in a case-sensitive * manner). */ hiloop: for (;;) { if (hi == -1) { break hiloop; } if (entCol == NamedCharacters.NAMES[hi].length) { break hiloop; } if (entCol > NamedCharacters.NAMES[hi].length) { break outer; } else if (c < NamedCharacters.NAMES[hi][entCol]) { hi--; } else { break hiloop; } } loloop: for (;;) { if (hi < lo) { break outer; } if (entCol == NamedCharacters.NAMES[lo].length) { candidate = lo; strBufMark = strBufLen; lo++; } else if (entCol > NamedCharacters.NAMES[lo].length) { break outer; } else if (c > NamedCharacters.NAMES[lo][entCol]) { lo++; } else { break loloop; } } if (hi < lo) { break outer; } continue; } // TODO warn about apos (IE) and TRADE (Opera) if (candidate == -1) { /* * If no match can be made, then this is a parse error. */ errNoNamedCharacterMatch(); emitOrAppendStrBuf(returnState); state = returnState; continue eofloop; } else { byte[] candidateArr = NamedCharacters.NAMES[candidate]; if (candidateArr.length == 0 || candidateArr[candidateArr.length - 1] != ';') { /* * If the last character matched is not a U+003B * SEMICOLON (;), there is a parse error. */ if ((returnState & DATA_AND_RCDATA_MASK) != 0) { /* * If the entity is being consumed as part of an * attribute, and the last character matched is * not a U+003B SEMICOLON (;), */ char ch; if (strBufMark == strBufLen) { ch = '\u0000'; } else { ch = strBuf[strBufMark]; } if ((ch >= '0' && ch <= '9') || (ch >= 'A' && ch <= 'Z') || (ch >= 'a' && ch <= 'z')) { /* * and the next character is in the range * U+0030 DIGIT ZERO to U+0039 DIGIT NINE, * U+0041 LATIN CAPITAL LETTER A to U+005A * LATIN CAPITAL LETTER Z, or U+0061 LATIN * SMALL LETTER A to U+007A LATIN SMALL * LETTER Z, then, for historical reasons, * all the characters that were matched * after the U+0026 AMPERSAND (&) must be * unconsumed, and nothing is returned. */ errNoNamedCharacterMatch(); appendStrBufToLongStrBuf(); state = returnState; continue eofloop; } } if ((returnState & DATA_AND_RCDATA_MASK) != 0) { errUnescapedAmpersandInterpretedAsCharacterReference(); } else { errNotSemicolonTerminated(); } } /* * Otherwise, return a character token for the character * corresponding to the entity name (as given by the * second column of the named character references * table). */ @Const @NoLength char[] val = NamedCharacters.VALUES[candidate]; // See if the first slot holds a high surrogate if ((val[0] & 0xFC00) == 0xD800) { emitOrAppendTwo(val, returnState); } else { emitOrAppendOne(val, returnState); } // this is so complicated! if (strBufMark < strBufLen) { if ((returnState & DATA_AND_RCDATA_MASK) != 0) { for (int i = strBufMark; i < strBufLen; i++) { appendLongStrBuf(strBuf[i]); } } else { tokenHandler.characters(strBuf, strBufMark, strBufLen - strBufMark); } } state = returnState; continue eofloop; /* * If the markup contains I'm ¬it; I tell you, the * entity is parsed as "not", as in, I'm ¬it; I tell * you. But if the markup was I'm ∉ I tell you, * the entity would be parsed as "notin;", resulting in * I'm ∉ I tell you. */ } case CONSUME_NCR: case DECIMAL_NRC_LOOP: case HEX_NCR_LOOP: /* * If no characters match the range, then don't consume any * characters (and unconsume the U+0023 NUMBER SIGN * character and, if appropriate, the X character). This is * a parse error; nothing is returned. * * Otherwise, if the next character is a U+003B SEMICOLON, * consume that too. If it isn't, there is a parse error. */ if (!seenDigits) { errNoDigitsInNCR(); emitOrAppendStrBuf(returnState); state = returnState; continue; } else { errCharRefLacksSemicolon(); } // WARNING previous state sets reconsume handleNcrValue(returnState); state = returnState; continue; case DATA: default: break eofloop; } } // case DATA: /* * EOF Emit an end-of-file token. */ tokenHandler.eof(); return; } private void emitDoctypeToken(int pos) throws SAXException { cstart = pos + 1; tokenHandler.doctype(doctypeName, publicIdentifier, systemIdentifier, forceQuirks); // It is OK and sufficient to release these here, since // there's no way out of the doctype states than through paths // that call this method. Portability.releaseLocal(doctypeName); doctypeName = null; Portability.releaseString(publicIdentifier); publicIdentifier = null; Portability.releaseString(systemIdentifier); systemIdentifier = null; } @Inline protected char checkChar(@NoLength char[] buf, int pos) throws SAXException { return buf[pos]; } // [NOCPP[ /** * Returns the alreadyComplainedAboutNonAscii. * * @return the alreadyComplainedAboutNonAscii */ public boolean isAlreadyComplainedAboutNonAscii() { return true; } // ]NOCPP] public void internalEncodingDeclaration(String internalCharset) throws SAXException { if (encodingDeclarationHandler != null) { encodingDeclarationHandler.internalEncodingDeclaration(internalCharset); } } /** * @param val * @throws SAXException */ private void emitOrAppendTwo(@Const @NoLength char[] val, int returnState) throws SAXException { if ((returnState & DATA_AND_RCDATA_MASK) != 0) { appendLongStrBuf(val[0]); appendLongStrBuf(val[1]); } else { tokenHandler.characters(val, 0, 2); } } private void emitOrAppendOne(@Const @NoLength char[] val, int returnState) throws SAXException { if ((returnState & DATA_AND_RCDATA_MASK) != 0) { appendLongStrBuf(val[0]); } else { tokenHandler.characters(val, 0, 1); } } public void end() throws SAXException { Portability.releaseArray(strBuf); strBuf = null; Portability.releaseArray(longStrBuf); longStrBuf = null; Portability.releaseLocal(doctypeName); doctypeName = null; if (systemIdentifier != null) { Portability.releaseString(systemIdentifier); systemIdentifier = null; } if (publicIdentifier != null) { Portability.releaseString(publicIdentifier); publicIdentifier = null; } if (tagName != null) { tagName.release(); tagName = null; } if (attributeName != null) { attributeName.release(); attributeName = null; } tokenHandler.endTokenization(); if (attributes != null) { attributes.clear(mappingLangToXmlLang); Portability.delete(attributes); attributes = null; } } public void requestSuspension() { shouldSuspend = true; } // [NOCPP[ public void becomeConfident() { confident = true; } /** * Returns the nextCharOnNewLine. * * @return the nextCharOnNewLine */ public boolean isNextCharOnNewLine() { return false; } public boolean isPrevCR() { return lastCR; } /** * Returns the line. * * @return the line */ public int getLine() { return -1; } /** * Returns the col. * * @return the col */ public int getCol() { return -1; } // ]NOCPP] public boolean isInDataState() { return (stateSave == DATA); } public void resetToDataState() { strBufLen = 0; longStrBufLen = 0; stateSave = Tokenizer.DATA; // line = 1; XXX line numbers lastCR = false; index = 0; forceQuirks = false; additional = '\u0000'; entCol = -1; firstCharKey = -1; lo = 0; hi = (NamedCharacters.NAMES.length - 1); candidate = -1; strBufMark = 0; prevValue = -1; value = 0; seenDigits = false; endTag = false; shouldSuspend = false; initDoctypeFields(); if (tagName != null) { tagName.release(); tagName = null; } if (attributeName != null) { attributeName.release(); attributeName = null; } // [NOCPP[ if (newAttributesEachTime) { // ]NOCPP] if (attributes != null) { Portability.delete(attributes); attributes = null; } // [NOCPP[ } // ]NOCPP] } public void loadState(Tokenizer other) throws SAXException { strBufLen = other.strBufLen; if (strBufLen > strBuf.length) { Portability.releaseArray(strBuf); strBuf = new char[strBufLen]; } System.arraycopy(other.strBuf, 0, strBuf, 0, strBufLen); longStrBufLen = other.longStrBufLen; if (longStrBufLen > longStrBuf.length) { Portability.releaseArray(longStrBuf); longStrBuf = new char[longStrBufLen]; } System.arraycopy(other.longStrBuf, 0, longStrBuf, 0, longStrBufLen); stateSave = other.stateSave; returnStateSave = other.returnStateSave; endTagExpectation = other.endTagExpectation; endTagExpectationAsArray = other.endTagExpectationAsArray; // line = 1; XXX line numbers lastCR = other.lastCR; index = other.index; forceQuirks = other.forceQuirks; additional = other.additional; entCol = other.entCol; firstCharKey = other.firstCharKey; lo = other.lo; hi = other.hi; candidate = other.candidate; strBufMark = other.strBufMark; prevValue = other.prevValue; value = other.value; seenDigits = other.seenDigits; endTag = other.endTag; shouldSuspend = false; Portability.releaseLocal(doctypeName); if (other.doctypeName == null) { doctypeName = null; } else { doctypeName = Portability.newLocalFromLocal(other.doctypeName, interner); } Portability.releaseString(systemIdentifier); if (other.systemIdentifier == null) { systemIdentifier = null; } else { systemIdentifier = Portability.newStringFromString(other.systemIdentifier); } Portability.releaseString(publicIdentifier); if (other.publicIdentifier == null) { publicIdentifier = null; } else { publicIdentifier = Portability.newStringFromString(other.publicIdentifier); } if (tagName != null) { tagName.release(); } if (other.tagName == null) { tagName = null; } else { tagName = other.tagName.cloneElementName(interner); } if (attributeName != null) { attributeName.release(); } if (other.attributeName == null) { attributeName = null; } else { attributeName = other.attributeName.cloneAttributeName(interner); } if (attributes != null) { Portability.delete(attributes); } if (other.attributes == null) { attributes = null; } else { attributes = other.attributes.cloneAttributes(interner); } } public void initializeWithoutStarting() throws SAXException { confident = false; strBuf = new char[64]; longStrBuf = new char[1024]; line = 1; // [NOCPP[ html4 = false; metaBoundaryPassed = false; wantsComments = tokenHandler.wantsComments(); if (!newAttributesEachTime) { attributes = new HtmlAttributes(mappingLangToXmlLang); } // ]NOCPP] resetToDataState(); } protected void errGarbageAfterLtSlash() throws SAXException { } protected void errLtSlashGt() throws SAXException { } protected void errWarnLtSlashInRcdata() throws SAXException { } protected void errHtml4LtSlashInRcdata(char folded) throws SAXException { } protected void errCharRefLacksSemicolon() throws SAXException { } protected void errNoDigitsInNCR() throws SAXException { } protected void errGtInSystemId() throws SAXException { } protected void errGtInPublicId() throws SAXException { } protected void errNamelessDoctype() throws SAXException { } protected void errConsecutiveHyphens() throws SAXException { } protected void errPrematureEndOfComment() throws SAXException { } protected void errBogusComment() throws SAXException { } protected void errUnquotedAttributeValOrNull(char c) throws SAXException { } protected void errSlashNotFollowedByGt() throws SAXException { } protected void errHtml4XmlVoidSyntax() throws SAXException { } protected void errNoSpaceBetweenAttributes() throws SAXException { } protected void errHtml4NonNameInUnquotedAttribute(char c) throws SAXException { } protected void errLtOrEqualsOrGraveInUnquotedAttributeOrNull(char c) throws SAXException { } protected void errAttributeValueMissing() throws SAXException { } protected void errBadCharBeforeAttributeNameOrNull(char c) throws SAXException { } protected void errEqualsSignBeforeAttributeName() throws SAXException { } protected void errBadCharAfterLt(char c) throws SAXException { } protected void errLtGt() throws SAXException { } protected void errProcessingInstruction() throws SAXException { } protected void errUnescapedAmpersandInterpretedAsCharacterReference() throws SAXException { } protected void errNotSemicolonTerminated() throws SAXException { } protected void errNoNamedCharacterMatch() throws SAXException { } protected void errQuoteBeforeAttributeName(char c) throws SAXException { } protected void errQuoteOrLtInAttributeNameOrNull(char c) throws SAXException { } protected void errExpectedPublicId() throws SAXException { } protected void errBogusDoctype() throws SAXException { } protected void maybeWarnPrivateUseAstral() throws SAXException { } protected void maybeWarnPrivateUse(char ch) throws SAXException { } protected void maybeErrAttributesOnEndTag(HtmlAttributes attrs) throws SAXException { } protected void maybeErrSlashInEndTag(boolean selfClosing) throws SAXException { } protected char errNcrNonCharacter(char ch) throws SAXException { return ch; } protected void errAstralNonCharacter(int ch) throws SAXException { } protected void errNcrSurrogate() throws SAXException { } protected char errNcrControlChar(char ch) throws SAXException { return ch; } protected void errNcrCr() throws SAXException { } protected void errNcrInC1Range() throws SAXException { } protected void errEofInPublicId() throws SAXException { } protected void errEofInComment() throws SAXException { } protected void errEofInDoctype() throws SAXException { } protected void errEofInAttributeValue() throws SAXException { } protected void errEofInAttributeName() throws SAXException { } protected void errEofWithoutGt() throws SAXException { } protected void errEofInTagName() throws SAXException { } protected void errEofInEndTag() throws SAXException { } protected void errEofAfterLt() throws SAXException { } protected void errNcrOutOfRange() throws SAXException { } protected void errNcrUnassigned() throws SAXException { } protected void errDuplicateAttribute() throws SAXException { } protected void errEofInSystemId() throws SAXException { } protected void errExpectedSystemId() throws SAXException { } protected void errMissingSpaceBeforeDoctypeName() throws SAXException { } protected void errHyphenHyphenBang() throws SAXException { } protected void errNcrControlChar() throws SAXException { } protected void errNcrZero() throws SAXException { } protected void errNoSpaceBetweenDoctypeSystemKeywordAndQuote() throws SAXException { } protected void errNoSpaceBetweenPublicAndSystemIds() throws SAXException { } protected void errNoSpaceBetweenDoctypePublicKeywordAndQuote() throws SAXException { } protected void noteAttributeWithoutValue() throws SAXException { } protected void noteUnquotedAttributeValue() throws SAXException { } /** * Sets the encodingDeclarationHandler. * * @param encodingDeclarationHandler * the encodingDeclarationHandler to set */ public void setEncodingDeclarationHandler( EncodingDeclarationHandler encodingDeclarationHandler) { this.encodingDeclarationHandler = encodingDeclarationHandler; } }