src.java.com.ctc.wstx.sr.BasicStreamReader Maven / Gradle / Ivy
/* Woodstox XML processor * * Copyright (c) 2004- Tatu Saloranta, [email protected] * * Licensed under the License specified in file LICENSE, included with * the source code. * You may not use this file except in compliance with the License. * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.ctc.wstx.sr; import java.io.*; import java.text.MessageFormat; import java.util.Map; import org.xml.sax.Attributes; import org.xml.sax.ContentHandler; import org.xml.sax.SAXException; import org.xml.sax.ext.LexicalHandler; import javax.xml.namespace.NamespaceContext; import javax.xml.namespace.QName; import javax.xml.stream.Location; import javax.xml.stream.XMLStreamException; import org.codehaus.stax2.AttributeInfo; import org.codehaus.stax2.DTDInfo; import org.codehaus.stax2.LocationInfo; import org.codehaus.stax2.XMLStreamLocation2; import org.codehaus.stax2.XMLStreamReader2; import org.codehaus.stax2.typed.TypedXMLStreamException; import org.codehaus.stax2.validation.*; import com.ctc.wstx.api.ReaderConfig; import com.ctc.wstx.api.WstxInputProperties; import com.ctc.wstx.cfg.ErrorConsts; import com.ctc.wstx.cfg.XmlConsts; import com.ctc.wstx.dtd.MinimalDTDReader; import com.ctc.wstx.ent.EntityDecl; import com.ctc.wstx.exc.WstxException; import com.ctc.wstx.io.*; import com.ctc.wstx.util.DefaultXmlSymbolTable; import com.ctc.wstx.util.TextBuffer; import com.ctc.wstx.util.TextBuilder; /** * Partial implementation of {@link XMLStreamReader2} consisting of * all functionality other than DTD-validation-specific parts, and * Typed Access API (Stax2 v3.0), which are implemented at * sub-classes. *
. And we have already read the DOCTYPE token. */ char c = getNextInCurrAfterWS(SUFFIX_IN_DTD); if (mCfgNsEnabled) { String str = parseLocalName(c); c = getNextChar(SUFFIX_IN_DTD); if (c == ':') { // Ok, got namespace and local name mRootPrefix = str; mRootLName = parseLocalName(getNextChar(SUFFIX_EOF_EXP_NAME)); } else if (c <= CHAR_SPACE || c == '[' || c == '>') { // ok to get white space or '[', or closing '>' --mInputPtr; // pushback mRootPrefix = null; mRootLName = str; } else { throwUnexpectedChar(c, " in DOCTYPE declaration; expected '[' or white space."); } } else { mRootLName = parseFullName(c); mRootPrefix = null; } // Ok, fine, what next? c = getNextInCurrAfterWS(SUFFIX_IN_DTD); if (c != '[' && c != '>') { String keyw = null; if (c == 'P') { keyw = checkKeyword(getNextChar(SUFFIX_IN_DTD), "UBLIC"); if (keyw != null) { keyw = "P" + keyw; } else { if (!skipWS(getNextChar(SUFFIX_IN_DTD))) { throwUnexpectedChar(c, SUFFIX_IN_DTD+"; expected a space between PUBLIC keyword and public id"); } c = getNextCharFromCurrent(SUFFIX_IN_DTD); if (c != '"' && c != '\'') { throwUnexpectedChar(c, SUFFIX_IN_DTD+"; expected a public identifier."); } mDtdPublicId = parsePublicId(c, SUFFIX_IN_DTD); if (mDtdPublicId.length() == 0) { // According to XML specs, this isn't illegal? // however, better report it as empty, not null. //mDtdPublicId = null; } if (!skipWS(getNextChar(SUFFIX_IN_DTD))) { throwUnexpectedChar(c, SUFFIX_IN_DTD+"; expected a space between public and system identifiers"); } c = getNextCharFromCurrent(SUFFIX_IN_DTD); if (c != '"' && c != '\'') { throwParseError(SUFFIX_IN_DTD+"; expected a system identifier."); } mDtdSystemId = parseSystemId(c, mNormalizeLFs, SUFFIX_IN_DTD); if (mDtdSystemId.length() == 0) { // According to XML specs, this isn't illegal? // however, better report it as empty, not null. //mDtdSystemId = null; } } } else if (c == 'S') { mDtdPublicId = null; keyw = checkKeyword(getNextChar(SUFFIX_IN_DTD), "YSTEM"); if (keyw != null) { keyw = "S" + keyw; } else { c = getNextInCurrAfterWS(SUFFIX_IN_DTD); if (c != '"' && c != '\'') { throwUnexpectedChar(c, SUFFIX_IN_DTD+"; expected a system identifier."); } mDtdSystemId = parseSystemId(c, mNormalizeLFs, SUFFIX_IN_DTD); if (mDtdSystemId.length() == 0) { // According to XML specs, this isn't illegal? mDtdSystemId = null; } } } else { if (!isNameStartChar(c)) { throwUnexpectedChar(c, SUFFIX_IN_DTD+"; expected keywords 'PUBLIC' or 'SYSTEM'."); } else { --mInputPtr; keyw = checkKeyword(c, "SYSTEM"); // keyword passed in doesn't matter } } if (keyw != null) { // error: throwParseError("Unexpected keyword '"+keyw+"'; expected 'PUBLIC' or 'SYSTEM'"); } // Ok, should be done with external DTD identifier: c = getNextInCurrAfterWS(SUFFIX_IN_DTD); } if (c == '[') { // internal subset ; } else { if (c != '>') { throwUnexpectedChar(c, SUFFIX_IN_DTD+"; expected closing '>'."); } } /* Actually, let's just push whatever char it is, back; this way * we can lazily initialize text buffer with DOCTYPE declaration * if/as necessary, even if there's no internal subset. */ --mInputPtr; // pushback mTokenState = TOKEN_STARTED; } /** * This method gets called to handle remainder of DOCTYPE declaration, * essentially the optional internal subset. This class implements the * basic "ignore it" functionality, but can optionally still store copy * of the contents to the read buffer. ** * @author Tatu Saloranta */ public abstract class BasicStreamReader extends StreamScanner implements StreamReaderImpl, DTDInfo, LocationInfo { /* //////////////////////////////////////////////////// // Constants //////////////////////////////////////////////////// */ // // // Standalone values: final static int DOC_STANDALONE_UNKNOWN = 0; final static int DOC_STANDALONE_YES = 1; final static int DOC_STANDALONE_NO = 2; // // // Main state consts: final static int STATE_PROLOG = 0; // Before root element final static int STATE_TREE = 1; // Parsing actual XML tree final static int STATE_EPILOG = 2; // After root element has been closed final static int STATE_MULTIDOC_HACK = 3; // State "between" multiple documents (in multi-doc mode) final static int STATE_CLOSED = 4; // After reader has been closed // // // Tokenization state consts: // no idea as to what comes next (unknown type): final static int TOKEN_NOT_STARTED = 0; // token type figured out, but not long enough: final static int TOKEN_STARTED = 1; /* minimum token length returnable achieved; only used for CDATA and * CHARACTERS events which allow fragments to be returned */ final static int TOKEN_PARTIAL_SINGLE = 2; /* a single physical event has been succesfully tokenized; as with * partial, only used with CDATA and CHARACTERS (meaningless for others, * which should only use TOKEN_FULL_COALESCED, TOKEN_NOT_STARTED or * TOKEN_STARTED. */ final static int TOKEN_FULL_SINGLE = 3; /* all adjacent (text) events have been tokenized and coalesced (for * CDATA and CHARACTERS), or that the full event has been parsed (for * others) */ final static int TOKEN_FULL_COALESCED = 4; // // // Bit masks used for quick type comparisons /** * This mask covers all types for which basic {@link #getText} method * can be called. */ final protected static int MASK_GET_TEXT = (1 << CHARACTERS) | (1 << CDATA) | (1 << SPACE) | (1 << COMMENT) | (1 << DTD) | (1 << ENTITY_REFERENCE); /** * This mask covers all types for which extends
getTextXxx
* methods can be called; which is less than those for which * {@link #getText} can be called. Specifically,DTD
and *ENTITY_REFERENCE
types do not support these extended */ final protected static int MASK_GET_TEXT_XXX = (1 << CHARACTERS) | (1 << CDATA) | (1 << SPACE) | (1 << COMMENT); /** * This mask is used with Stax2 getText() method (one that takes * Writer as an argument): accepts even wider range of event types. */ final protected static int MASK_GET_TEXT_WITH_WRITER = (1 << CHARACTERS) | (1 << CDATA) | (1 << SPACE) | (1 << COMMENT) | (1 << DTD) | (1 << ENTITY_REFERENCE) | (1 << PROCESSING_INSTRUCTION); final protected static int MASK_GET_ELEMENT_TEXT = (1 << CHARACTERS) | (1 << CDATA) | (1 << SPACE) | (1 << ENTITY_REFERENCE); // // // Indicator of type of text in text event (WRT white space) final static int ALL_WS_UNKNOWN = 0x0000; final static int ALL_WS_YES = 0x0001; final static int ALL_WS_NO = 0x0002; /* 2 magic constants used for enabling/disabling indentation checks: * (to minimize negative impact for both small docs, and large * docs with non-regular white space) */ private final static int INDENT_CHECK_START = 16; private final static int INDENT_CHECK_MAX = 40; // // // Shared namespace symbols final protected static String sPrefixXml = DefaultXmlSymbolTable.getXmlSymbol(); final protected static String sPrefixXmlns = DefaultXmlSymbolTable.getXmlnsSymbol(); /* //////////////////////////////////////////////////// // Configuration //////////////////////////////////////////////////// */ // note: mConfig defined in base class /** * Set of locally stored configuration flags */ protected final int mConfigFlags; // // // Various extracted settings: protected final boolean mCfgCoalesceText; protected final boolean mCfgReportTextAsChars; protected final boolean mCfgLazyParsing; /** * Minimum number of characters parser can return as partial text * segment, IF it's not required to coalesce adjacent text * segments. */ protected final int mShortestTextSegment; /* //////////////////////////////////////////////////// // Symbol handling: //////////////////////////////////////////////////// */ /** * Object to notify about shared stuff, such as symbol tables, as well * as to query for additional config settings if necessary. */ final protected ReaderCreator mOwner; /* //////////////////////////////////////////////////// // Additional XML document information, in addition // to what StreamScanner has //////////////////////////////////////////////////// */ /** * Status about "stand-aloneness" of document; set to 'yes'/'no'/'unknown' * based on whether there was xml declaration, and if so, whether * it had standalone attribute. */ protected int mDocStandalone = DOC_STANDALONE_UNKNOWN; /* //////////////////////////////////////////////////// // DOCTYPE information from document type declaration // (if any found) //////////////////////////////////////////////////// */ /** * Prefix of root element, as dictated by DOCTYPE declaration; null * if no DOCTYPE declaration, or no root prefix */ String mRootPrefix; /** * Local name of root element, as dictated by DOCTYPE declaration; null * if no DOCTYPE declaration. */ String mRootLName; /** * Public id of the DTD, if one exists and has been parsed. */ protected String mDtdPublicId; /** * System id of the DTD, if one exists and has been parsed. */ protected String mDtdSystemId; /* //////////////////////////////////////////////////// // Information about currently open subtree, content //////////////////////////////////////////////////// */ /** * TextBuffer mostly used to collect non-element textual content * (text, CDATA, comment content, pi data) */ final protected TextBuffer mTextBuffer; /** * Currently open element tree */ final protected InputElementStack mElementStack; /** * Object that stores information about currently accessible attributes. */ final protected AttributeCollector mAttrCollector; /* //////////////////////////////////////////////////// // Tokenization state //////////////////////////////////////////////////// */ /// Flag set when DOCTYPE declaration has been parsed protected boolean mStDoctypeFound = false; /** * State of the current token; one of M_ - constants from above. ** Initially set to fully tokenized, since it's the virtual * START_DOCUMENT event that we fully know by now (parsed by * bootstrapper) */ protected int mTokenState = TOKEN_FULL_COALESCED; /** * Threshold value that defines tokenization state that needs to be * achieved to "finish" current logical text segment (which * may consist of adjacent CDATA and text segments; or be a complete * physical segment; or just even a fragment of such a segment) */ protected final int mStTextThreshold; /// Flag that indicates current start element is an empty element protected boolean mStEmptyElem = false; /** * Main parsing/tokenization state (STATE_xxx) */ protected int mParseState; /** * Current state of the stream, ie token value returned by * {@link #getEventType}. Needs to be initialized to START_DOCUMENT, * since that's the state it starts in. */ protected int mCurrToken = START_DOCUMENT; /** * Additional information sometimes stored (when generating dummy * events in multi-doc mode, for example) temporarily when * {@link #mCurrToken} is already populated. */ protected int mSecondaryToken = START_DOCUMENT; /** * Status of current (text) token's "whitespaceness", that is, * whether it is or is not all white space. */ protected int mWsStatus; /** * Flag that indicates that textual content (CDATA, CHARACTERS) is to * be validated within current element's scope. Enabled if one of * validators returns {@link XMLValidator#CONTENT_ALLOW_VALIDATABLE_TEXT}, * and will prevent lazy parsing of text. */ protected boolean mValidateText = false; /** * Counter used for determining whether we are to try to heuristically * "intern" white space that seems to be used for indentation purposes */ protected int mCheckIndentation; /** * Due to the way Stax API does not allow throwing stream exceptions * from many methods for which Woodstox would need to throw one * (especially
getText
and its variations), we may need * to delay throwing an exception until {@link #next} is called next * time. If so, this variable holds the pending stream exception. */ protected XMLStreamException mPendingException = null; /* //////////////////////////////////////////////////// // DTD information (entities, content spec stub) //////////////////////////////////////////////////// */ /** * Entities parsed from internal/external DTD subsets. Although it * will remain null for this class, extended classes make use of it, * plus, to be able to share some of entity resolution code, instance * is left here even though it semantically belongs to the sub-class. */ protected Map mGeneralEntities = null; /** * Entity reference stream currently points to; only used when * in non-automatically expanding mode. */ protected EntityDecl mCurrEntity; /** * Mode information needed at this level; mostly to check what kind * of textual content (if any) is allowed in current element * context. Constants come from * {@link XMLValidator}, * (like {@link XMLValidator#CONTENT_ALLOW_VALIDATABLE_TEXT}). * Only used inside tree; ignored for prolog/epilog (which * have straight-forward static rules). */ protected int mVldContent = XMLValidator.CONTENT_ALLOW_ANY_TEXT; /* //////////////////////////////////////////////////// // Instance construction, initialization //////////////////////////////////////////////////// */ /** * @param elemStack Input element stack to use; if null, will create * instance locally. * @param forER Override indicator; if true, this stream reader will be * used by an event reader, and should modify some of the base config * settings appropriately. If false, configuration settings are to * be used as is. */ protected BasicStreamReader(InputBootstrapper bs, BranchingReaderSource input, ReaderCreator owner, ReaderConfig cfg, InputElementStack elemStack, boolean forER) throws XMLStreamException { super(input, cfg, cfg.getEntityResolver()); mOwner = owner; mTextBuffer = TextBuffer.createRecyclableBuffer(cfg); // // // First, configuration settings: mConfigFlags = cfg.getConfigFlags(); mCfgCoalesceText = (mConfigFlags & CFG_COALESCE_TEXT) != 0; mCfgReportTextAsChars = (mConfigFlags & CFG_REPORT_CDATA) == 0; mXml11 = cfg.isXml11(); // Can only use canonical white space if we are normalizing lfs mCheckIndentation = mNormalizeLFs ? 16 : 0; /* 30-Sep-2005, TSa: Let's not do lazy parsing when access is via * Event API. Reason is that there will be no performance benefit * (event objects always access full info right after traversal), * but the wrapping of stream exceptions within runtime exception * wrappers would happen, which is inconvenient (loss of stack trace, * not catching all exceptions as expected) */ mCfgLazyParsing = !forER && ((mConfigFlags & CFG_LAZY_PARSING) != 0); /* There are a few derived settings used during tokenization that * need to be initialized now... */ if (mCfgCoalesceText) { mStTextThreshold = TOKEN_FULL_COALESCED; mShortestTextSegment = Integer.MAX_VALUE; } else { mStTextThreshold = TOKEN_PARTIAL_SINGLE; if (forER) { /* 30-Sep-2005, TSa: No point in returning runt segments for * event readers (due to event object overhead, less * convenient); let's just force returning of full length * segments. */ mShortestTextSegment = Integer.MAX_VALUE; } else { mShortestTextSegment = cfg.getShortestReportedTextSegment(); } } // // // Then handling of xml declaration data: mDocXmlVersion = bs.getDeclaredVersion(); mDocInputEncoding = bs.getInputEncoding(); mDocXmlEncoding = bs.getDeclaredEncoding(); String sa = bs.getStandalone(); if (sa == null) { mDocStandalone = DOC_STANDALONE_UNKNOWN; } else { if (XmlConsts.XML_SA_YES.equals(sa)) { mDocStandalone = DOC_STANDALONE_YES; } else { mDocStandalone = DOC_STANDALONE_NO; } } /* Ok; either we got declaration or not, but in either case we can * now initialize prolog parsing settings, without having to really * parse anything more. */ /* 07-Oct-2005, TSa: Except, if we are in fragment mode, in which * case we are kind of "in tree" mode... */ mParseState = mConfig.inputParsingModeFragment() ? STATE_TREE : STATE_PROLOG; // // // And then connecting element stack and attribute collector mElementStack = elemStack; mAttrCollector = elemStack.getAttrCollector(); // And finally, location information may have offsets: input.initInputLocation(this, mCurrDepth); elemStack.connectReporter(this); } protected static InputElementStack createElementStack(ReaderConfig cfg) { if (cfg.willSupportNamespaces()) { return new NsInputElementStack(16, cfg); } return new NonNsInputElementStack(16, cfg); } /* //////////////////////////////////////////////////// // XMLStreamReader, document info //////////////////////////////////////////////////// */ /** * As per Stax (1.0) specs, needs to return whatever xml declaration * claimed encoding is, if any; or null if no xml declaration found. ** Note: method name is rather confusing (compare to {@link #getEncoding}). */ public String getCharacterEncodingScheme() { return mDocXmlEncoding; } /** * As per Stax (1.0) specs, needs to return whatever parser determined * the encoding was, if it was able to figure it out. If not (there are * cases where this can not be found; specifically when being passed a * {@link Reader}), it should return null. */ public String getEncoding() { return mDocInputEncoding; } public String getVersion() { if (mDocXmlVersion == XmlConsts.XML_V_10) { return XmlConsts.XML_V_10_STR; } if (mDocXmlVersion == XmlConsts.XML_V_11) { return XmlConsts.XML_V_11_STR; } return null; // unknown } public boolean isStandalone() { return mDocStandalone == DOC_STANDALONE_YES; } public boolean standaloneSet() { return mDocStandalone != DOC_STANDALONE_UNKNOWN; } /* //////////////////////////////////////////////////// // Public API, configuration //////////////////////////////////////////////////// */ public Object getProperty(String name) { /* 18-Nov-2008, TSa: As per [WSTX-50], should report the * actual Base URL. It can be overridden by matching * setProperty, but if not, is set to actual source * of content being parsed. */ if (WstxInputProperties.P_BASE_URL.equals(name)) { return mInput.getSource(); } /* 23-Apr-2008, TSa: Let's NOT throw IllegalArgumentException * for unknown property; JavaDocs do not suggest it needs * to be done (different from that of XMLInputFactory * and XMLStreamWriter specification) */ return mConfig.safeGetProperty(name); } /* //////////////////////////////////////////////////// // XMLStreamReader, current state //////////////////////////////////////////////////// */ // // // Attribute access: public int getAttributeCount() { if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } return mAttrCollector.getCount(); } public String getAttributeLocalName(int index) { if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } return mAttrCollector.getLocalName(index); } public QName getAttributeName(int index) { if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } return mAttrCollector.getQName(index); } public String getAttributeNamespace(int index) { if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } // Internally it's marked as null, externally need to see "" String uri = mAttrCollector.getURI(index); return (uri == null) ? XmlConsts.ATTR_NO_NS_URI : uri; } public String getAttributePrefix(int index) { if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } // Internally it's marked as null, externally need to see "" String p = mAttrCollector.getPrefix(index); return (p == null) ? XmlConsts.ATTR_NO_PREFIX : p; } public String getAttributeType(int index) { if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } // Attr. collector doesn't know it, elem stack does: return mElementStack.getAttributeType(index); } public String getAttributeValue(int index) { if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } return mAttrCollector.getValue(index); } public String getAttributeValue(String nsURI, String localName) { if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } return mAttrCollector.getValue(nsURI, localName); } /** * From StAX specs: *
* Reads the content of a text-only element, an exception is thrown if * this is not a text-only element. * Regardless of value of javax.xml.stream.isCoalescing this method always * returns coalesced content. **/ public String getElementText() throws XMLStreamException { if (mCurrToken != START_ELEMENT) { throwParseError(ErrorConsts.ERR_STATE_NOT_STELEM, null, null); } /* Ok, now: with START_ELEMENT we know that it's not partially * processed; that we are in-tree (not prolog or epilog). * The only possible complication would be: */ if (mStEmptyElem) { /* And if so, we'll then get 'virtual' close tag; things * are simple as location info was set when dealing with * empty start element; and likewise, validation (if any) * has been taken care of */ mStEmptyElem = false; mCurrToken = END_ELEMENT; return ""; } // First need to find a textual event while (true) { int type = next(); if (type == END_ELEMENT) { return ""; } if (type == COMMENT || type == PROCESSING_INSTRUCTION) { continue; } if (((1 << type) & MASK_GET_ELEMENT_TEXT) == 0) { throw _constructUnexpectedInTyped(type); } break; } if (mTokenState < TOKEN_FULL_SINGLE) { readCoalescedText(mCurrToken, false); } /* Ok: then a quick check; if it looks like we are directly * followed by the end tag, we need not construct String * quite yet. */ if ((mInputPtr + 1) < mInputEnd && mInputBuffer[mInputPtr] == '<' && mInputBuffer[mInputPtr+1] == '/') { // Note: next() has validated text, no need for more validation mInputPtr += 2; mCurrToken = END_ELEMENT; // Can by-pass next(), nextFromTree(), in this case: readEndElem(); return mTextBuffer.contentsAsString(); } // Otherwise, we'll need to do slower processing int extra = 1 + (mTextBuffer.size() >> 1); // let's add 50% space StringBuffer sb = mTextBuffer.contentsAsStringBuffer(extra); int type; while ((type = next()) != END_ELEMENT) { if (((1 << type) & MASK_GET_ELEMENT_TEXT) != 0) { if (mTokenState < mStTextThreshold) { finishToken(false); } mTextBuffer.contentsToStringBuffer(sb); continue; } if (type != COMMENT && type != PROCESSING_INSTRUCTION) { throw _constructUnexpectedInTyped(type); } } // Note: calls next() have validated text, no need for more validation return sb.toString(); } /** * Returns type of the last event returned; or START_DOCUMENT before * any events has been explicitly returned. */ public int getEventType() { /* Only complication -- multi-part coalesced text is to be reported * as CHARACTERS always, never as CDATA (StAX specs). */ if (mCurrToken == CDATA) { if (mCfgCoalesceText || mCfgReportTextAsChars) { return CHARACTERS; } } return mCurrToken; } public String getLocalName() { // Note: for this we need not (yet) finish reading element if (mCurrToken == START_ELEMENT || mCurrToken == END_ELEMENT) { return mElementStack.getLocalName(); } if (mCurrToken == ENTITY_REFERENCE) { /* 30-Sep-2005, TSa: Entity will be null in non-expanding mode * if no definition was found: */ return (mCurrEntity == null) ? mCurrName: mCurrEntity.getName(); } throw new IllegalStateException("Current state not START_ELEMENT, END_ELEMENT or ENTITY_REFERENCE"); } // // // getLocation() defined in StreamScanner public QName getName() { if (mCurrToken != START_ELEMENT && mCurrToken != END_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_ELEM); } return mElementStack.getCurrentElementName(); } // // // Namespace access public NamespaceContext getNamespaceContext() { /* Unlike other getNamespaceXxx methods, this is available * for all events. * Note that the context is "live", ie. remains active (but not * static) even through calls to next(). StAX compliant apps * should not count on this behaviour, however. */ return mElementStack; } public int getNamespaceCount() { if (mCurrToken != START_ELEMENT && mCurrToken != END_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_ELEM); } return mElementStack.getCurrentNsCount(); } public String getNamespacePrefix(int index) { if (mCurrToken != START_ELEMENT && mCurrToken != END_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_ELEM); } // Internally it's marked as null, externally need to see "" String p = mElementStack.getLocalNsPrefix(index); return (p == null) ? XmlConsts.ATTR_NO_PREFIX : p; } public String getNamespaceURI() { if (mCurrToken != START_ELEMENT && mCurrToken != END_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_ELEM); } // Internally it's marked as null, externally need to see "" String uri = mElementStack.getNsURI(); return (uri == null) ? XmlConsts.ELEM_NO_NS_URI : uri; } public String getNamespaceURI(int index) { if (mCurrToken != START_ELEMENT && mCurrToken != END_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_ELEM); } // Internally it's marked as null, externally need to see "" String uri = mElementStack.getLocalNsURI(index); return (uri == null) ? XmlConsts.ATTR_NO_NS_URI : uri; } public String getNamespaceURI(String prefix) { if (mCurrToken != START_ELEMENT && mCurrToken != END_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_ELEM); } /* Note: this will need to return null if no URI found for * the prefix, so we can't mask it. */ return mElementStack.getNamespaceURI(prefix); } public String getPIData() { if (mCurrToken != PROCESSING_INSTRUCTION) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_PI); } if (mTokenState <= TOKEN_STARTED) { safeFinishToken(); } return mTextBuffer.contentsAsString(); } public String getPITarget() { if (mCurrToken != PROCESSING_INSTRUCTION) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_PI); } // Target is always parsed automatically, not lazily... return mCurrName; } public String getPrefix() { if (mCurrToken != START_ELEMENT && mCurrToken != END_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_ELEM); } // Internally it's marked as null, externally need to see "" String p = mElementStack.getPrefix(); return (p == null) ? XmlConsts.ELEM_NO_PREFIX : p; } public String getText() { if (((1 << mCurrToken) & MASK_GET_TEXT) == 0) { throwNotTextual(mCurrToken); } if (mTokenState < mStTextThreshold) { safeFinishToken(); } if (mCurrToken == ENTITY_REFERENCE) { return (mCurrEntity == null) ? null : mCurrEntity.getReplacementText(); } if (mCurrToken == DTD) { /* 16-Aug-2004, TSa: Hmmh. Specs are bit ambiguous on whether this * should return just the internal subset, or the whole * thing... */ return getDTDInternalSubset(); } return mTextBuffer.contentsAsString(); } public char[] getTextCharacters() { if (((1 << mCurrToken) & MASK_GET_TEXT_XXX) == 0) { throwNotTextXxx(mCurrToken); } if (mTokenState < mStTextThreshold) { safeFinishToken(); } if (mCurrToken == ENTITY_REFERENCE) { return mCurrEntity.getReplacementChars(); } if (mCurrToken == DTD) { return getDTDInternalSubsetArray(); } return mTextBuffer.getTextBuffer(); } public int getTextCharacters(int sourceStart, char[] target, int targetStart, int len) { if (((1 << mCurrToken) & MASK_GET_TEXT_XXX) == 0) { throwNotTextXxx(mCurrToken); } if (mTokenState < mStTextThreshold) { safeFinishToken(); } return mTextBuffer.contentsToArray(sourceStart, target, targetStart, len); } public int getTextLength() { if (((1 << mCurrToken) & MASK_GET_TEXT_XXX) == 0) { throwNotTextXxx(mCurrToken); } if (mTokenState < mStTextThreshold) { safeFinishToken(); } return mTextBuffer.size(); } public int getTextStart() { if (((1 << mCurrToken) & MASK_GET_TEXT_XXX) == 0) { throwNotTextXxx(mCurrToken); } if (mTokenState < mStTextThreshold) { safeFinishToken(); } return mTextBuffer.getTextStart(); } public boolean hasName() { return (mCurrToken == START_ELEMENT) || (mCurrToken == END_ELEMENT); } public boolean hasNext() { /* 08-Oct-2005, TSa: In multi-doc mode, we have different * criteria... */ return (mCurrToken != END_DOCUMENT) || (mParseState == STATE_MULTIDOC_HACK); } public boolean hasText() { return (((1 << mCurrToken) & MASK_GET_TEXT) != 0); } public boolean isAttributeSpecified(int index) { /* No need to check for ATTRIBUTE since we never return that... */ if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } return mAttrCollector.isSpecified(index); } public boolean isCharacters() { /* 21-Dec-2005, TSa: Changed for 3.0 to work the same way as stax * ref impl. */ //return (mCurrToken == CHARACTERS || mCurrToken == CDATA || mCurrToken == SPACE); return (mCurrToken == CHARACTERS); } public boolean isEndElement() { return (mCurrToken == END_ELEMENT); } public boolean isStartElement() { return (mCurrToken == START_ELEMENT); } /** *
Precondition: the current event is START_ELEMENT. *
Postcondition: the current event is the corresponding END_ELEMENT. ** 05-Apr-2004, TSa: Could try to determine status when text is actually * read. That'd prevent double reads... but would it slow down that * one reading so that net effect would be negative? */ public boolean isWhiteSpace() { if (mCurrToken == CHARACTERS || mCurrToken == CDATA) { if (mTokenState < mStTextThreshold) { safeFinishToken(); } if (mWsStatus == ALL_WS_UNKNOWN) { mWsStatus = mTextBuffer.isAllWhitespace() ? ALL_WS_YES : ALL_WS_NO; } return mWsStatus == ALL_WS_YES; } return (mCurrToken == SPACE); } public void require(int type, String nsUri, String localName) throws XMLStreamException { int curr = mCurrToken; /* There are some special cases; specifically, CDATA * is sometimes reported as CHARACTERS. Let's be lenient by * allowing both 'real' and reported types, for now. */ if (curr != type) { if (curr == CDATA) { if (mCfgCoalesceText || mCfgReportTextAsChars) { curr = CHARACTERS; } } else if (curr == SPACE) { // Hmmh. Should we require it to be empty or something? //curr = CHARACTERS; // For now, let's not change the check } } if (type != curr) { throwParseError("Expected type "+tokenTypeDesc(type) +", current type " +tokenTypeDesc(curr)); } if (localName != null) { if (curr != START_ELEMENT && curr != END_ELEMENT && curr != ENTITY_REFERENCE) { throwParseError("Expected non-null local name, but current token not a START_ELEMENT, END_ELEMENT or ENTITY_REFERENCE (was "+tokenTypeDesc(mCurrToken)+")"); } String n = getLocalName(); if (n != localName && !n.equals(localName)) { throwParseError("Expected local name '"+localName+"'; current local name '"+n+"'."); } } if (nsUri != null) { if (curr != START_ELEMENT && curr != END_ELEMENT) { throwParseError("Expected non-null NS URI, but current token not a START_ELEMENT or END_ELEMENT (was "+tokenTypeDesc(curr)+")"); } String uri = mElementStack.getNsURI(); // No namespace? if (nsUri.length() == 0) { if (uri != null && uri.length() > 0) { throwParseError("Expected empty namespace, instead have '"+uri+"'."); } } else { if ((nsUri != uri) && !nsUri.equals(uri)) { throwParseError("Expected namespace '"+nsUri+"'; have '" +uri+"'."); } } } // Ok, fine, all's good } /* //////////////////////////////////////////////////// // XMLStreamReader, iterating //////////////////////////////////////////////////// */ public final int next() throws XMLStreamException { /* 24-Sep-2006, TSa: We may have deferred an exception that occurred * during parsing of the previous event. If so, now it needs to * be thrown. */ if (mPendingException != null) { XMLStreamException strEx = mPendingException; mPendingException = null; throw strEx; } /* Note: can not yet accurately record the location, since the * previous event might not yet be completely finished... */ if (mParseState == STATE_TREE) { int type = nextFromTree(); mCurrToken = type; if (mTokenState < mStTextThreshold) { // incomplete? /* Can remain incomplete if lazy parsing is enabled, * and this is not a validatable text segment; otherwise * must finish */ if (!mCfgLazyParsing || (mValidateText && (type == CHARACTERS || type == CDATA))) { finishToken(false); } } /* Special cases -- sometimes (when coalescing text, or * when specifically configured to do so), CDATA and SPACE are * to be reported as CHARACTERS, although we still will * internally keep track of the real type. */ if (type == CDATA) { if (mValidateText) { mElementStack.validateText(mTextBuffer, false); } if (mCfgCoalesceText || mCfgReportTextAsChars) { return CHARACTERS; } /* } else if (type == SPACE) { //if (mValidateText) { throw new IllegalStateException("Internal error: trying to validate SPACE event"); } */ } else if (type == CHARACTERS) { if (mValidateText) { /* We may be able to determine that there will be * no more text coming for this element: but only * seeing the end tag marker ("") is certain * (PIs and comments won't do, nor CDATA; start * element possibly... but that indicates mixed * content that's generally non-validatable) */ if ((mInputPtr+1) < mInputEnd && mInputBuffer[mInputPtr] == '<' && mInputBuffer[mInputPtr+1] == '/') { // yup, it's all there is mElementStack.validateText(mTextBuffer, true); } else { mElementStack.validateText(mTextBuffer, false); } } } return type; } if (mParseState == STATE_PROLOG) { nextFromProlog(true); } else if (mParseState == STATE_EPILOG) { if (nextFromProlog(false)) { // We'll return END_DOCUMENT, need to mark it 'as consumed' mSecondaryToken = 0; } } else if (mParseState == STATE_MULTIDOC_HACK) { mCurrToken = nextFromMultiDocState(); } else { // == STATE_CLOSED if (mSecondaryToken == END_DOCUMENT) { // marker mSecondaryToken = 0; // mark end doc as consumed return END_DOCUMENT; } throw new java.util.NoSuchElementException(); } return mCurrToken; } public int nextTag() throws XMLStreamException { while (true) { int next = next(); switch (next) { case SPACE: case COMMENT: case PROCESSING_INSTRUCTION: continue; case CDATA: case CHARACTERS: if (isWhiteSpace()) { continue; } throwParseError("Received non-all-whitespace CHARACTERS or CDATA event in nextTag()."); break; // never gets here, but jikes complains without case START_ELEMENT: case END_ELEMENT: return next; } throwParseError("Received event "+ErrorConsts.tokenTypeDesc(next) +", instead of START_ELEMENT or END_ELEMENT."); } } /** *
* Note: as per StAX 1.0 specs, this method does NOT close the underlying * input reader. That is, unless the new StAX2 property * {@link org.codehaus.stax2.XMLInputFactory2#P_AUTO_CLOSE_INPUT} is * set to true. */ public void close() throws XMLStreamException { if (mParseState != STATE_CLOSED) { mParseState = STATE_CLOSED; /* Let's see if we should notify factory that symbol table * has new entries, and may want to reuse this symbol table * instead of current root. */ if (mCurrToken != END_DOCUMENT) { mCurrToken = mSecondaryToken = END_DOCUMENT; if (mSymbols.isDirty()) { mOwner.updateSymbolTable(mSymbols); } } /* Hmmh. Actually, we need to close all the dependant input * sources, first, and then also call close() * on the root input source object; it * will only do real close if that was enabled earlier. * The root input source also prevents multiple close() calls * for the underlying source, so we need not check that here. */ closeAllInput(false); // And finally, can now recycle low-level (text) buffers mTextBuffer.recycle(true); } } /* //////////////////////////////////////////////////// // XMLStreamReader2 (StAX2) implementation //////////////////////////////////////////////////// */ // // // StAX2, per-reader configuration public Object getFeature(String name) { // No readable features defined yet... throw new IllegalArgumentException(MessageFormat.format(ErrorConsts.ERR_UNKNOWN_FEATURE, new Object[] { name })); } public void setFeature(String name, Object value) { // Base-class has no settable features at this point. throw new IllegalArgumentException(MessageFormat.format(ErrorConsts.ERR_UNKNOWN_FEATURE, new Object[] { name })); } // NOTE: getProperty() defined in Stax 1.0 interface public boolean isPropertySupported(String name) { // !!! TBI: not all these properties are really supported return mConfig.isPropertySupported(name); } /** * @param name Name of the property to set * @param value Value to set property to. * * @return True, if the specified property was succesfully * set to specified value; false if its value was not changed */ public boolean setProperty(String name, Object value) { boolean ok = mConfig.setProperty(name, value); /* To make [WSTX-50] work fully dynamically (i.e. allow * setting BASE_URL after stream reader has been constructed) * need to force */ if (ok && WstxInputProperties.P_BASE_URL.equals(name)) { // Easiest to just access from config: may come in as a String etc mInput.overrideSource(mConfig.getBaseURL()); } return ok; } // // // StAX2, additional traversal methods public void skipElement() throws XMLStreamException { if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } int nesting = 1; // need one more end elements than start elements while (true) { int type = next(); if (type == START_ELEMENT) { ++nesting; } else if (type == END_ELEMENT) { if (--nesting == 0) { break; } } } } // // // StAX2, additional attribute access public AttributeInfo getAttributeInfo() throws XMLStreamException { if (mCurrToken != START_ELEMENT) { throw new IllegalStateException(ErrorConsts.ERR_STATE_NOT_STELEM); } /* Although attribute collector knows about specific parsed * information, the element stack has DTD-derived information (if * any)... and knows how to call attribute collector when necessary. */ return mElementStack; } // // // StAX2, Additional DTD access /** * Since this class implements {@link DTDInfo}, method can just * return
this
. */ public DTDInfo getDTDInfo() throws XMLStreamException { /* Let's not allow it to be accessed during other events -- that * way callers won't count on it being available afterwards. */ if (mCurrToken != DTD) { return null; } if (mTokenState < TOKEN_FULL_SINGLE) { // need to fully read it in now finishToken(false); } return this; } // // // StAX2, Additional location information /** * Location information is always accessible, for this reader. */ public final LocationInfo getLocationInfo() { return this; } // // // StAX2, Pass-through text accessors /** * Method similar to {@link #getText()}, except * that it just uses provided Writer to write all textual content. * For further optimization, it may also be allowed to do true * pass-through, thus possibly avoiding one temporary copy of the * data. ** TODO: try to optimize to allow completely streaming pass-through: * currently will still read all data in memory buffers before * outputting * * @param w Writer to use for writing textual contents * @param preserveContents If true, reader has to preserve contents * so that further calls to
getText
will return * proper conntets. If false, reader is allowed to skip creation * of such copies: this can improve performance, but it also means * that further calls togetText
is not guaranteed to * return meaningful data. * * @return Number of characters written to the reader */ public int getText(Writer w, boolean preserveContents) throws IOException, XMLStreamException { if (((1 << mCurrToken) & MASK_GET_TEXT_WITH_WRITER) == 0) { throwNotTextual(mCurrToken); } /* May need to be able to do fully streaming... but only for * text events that have not yet been fully read; for other * types there's less benefit, and for fully read ones, we * already have everything ready. */ if (!preserveContents) { if (mCurrToken == CHARACTERS) { int count = mTextBuffer.rawContentsTo(w); /* Let's also clear whatever was collected (as allowed by * method contract) previously, to both save memory, and * to ensure caller doesn't accidentally try to access it * (and get otherwise 'random' results). */ mTextBuffer.resetWithEmpty(); if (mTokenState < TOKEN_FULL_SINGLE) { count += readAndWriteText(w); } if (mCfgCoalesceText && (mTokenState < TOKEN_FULL_COALESCED)) { if (mCfgCoalesceText) { count += readAndWriteCoalesced(w, false); } } return count; } else if (mCurrToken == CDATA) { int count = mTextBuffer.rawContentsTo(w); mTextBuffer.resetWithEmpty(); // same as with CHARACTERS if (mTokenState < TOKEN_FULL_SINGLE) { count += readAndWriteCData(w); } if (mCfgCoalesceText && (mTokenState < TOKEN_FULL_COALESCED)) { if (mCfgCoalesceText) { count += readAndWriteCoalesced(w, true); } } return count; } } if (mTokenState < mStTextThreshold) { /* Otherwise, let's just finish the token; and due to guarantee * by streaming method, let's try ensure we get it all. */ finishToken(false); // false -> shouldn't defer errors } if (mCurrToken == ENTITY_REFERENCE) { return mCurrEntity.getReplacementText(w); } if (mCurrToken == DTD) { char[] ch = getDTDInternalSubsetArray(); if (ch != null) { w.write(ch); return ch.length; } return 0; } return mTextBuffer.rawContentsTo(w); } // // // StAX 2, Other accessors /** * @return Number of open elements in the stack; 0 when parser is in * prolog/epilog, 1 inside root element and so on. */ public int getDepth() { /* Note: we can not necessarily use mCurrDepth, since it is * directly synchronized to the input (to catch unbalanced entity * expansion WRT element nesting), and not to actual token values * returned. */ return mElementStack.getDepth(); } /** * @return True, if cursor points to a start or end element that is * constructed from 'empty' element (ends with '/>'); * false otherwise. */ public boolean isEmptyElement() throws XMLStreamException { return (mCurrToken == START_ELEMENT) ? mStEmptyElem : false; } public NamespaceContext getNonTransientNamespaceContext() { // null -> no Location info, not needed with basic API return mElementStack.createNonTransientNsContext(null); } public String getPrefixedName() { switch (mCurrToken) { case START_ELEMENT: case END_ELEMENT: { String prefix = mElementStack.getPrefix(); String ln = mElementStack.getLocalName(); if (prefix == null) { return ln; } StringBuffer sb = new StringBuffer(ln.length() + 1 + prefix.length()); sb.append(prefix); sb.append(':'); sb.append(ln); return sb.toString(); } case ENTITY_REFERENCE: return getLocalName(); case PROCESSING_INSTRUCTION: return getPITarget(); case DTD: return getDTDRootName(); } throw new IllegalStateException("Current state not START_ELEMENT, END_ELEMENT, ENTITY_REFERENCE, PROCESSING_INSTRUCTION or DTD"); } public void closeCompletely() throws XMLStreamException { closeAllInput(true); } /* //////////////////////////////////////////////////// // DTDInfo implementation (StAX 2) //////////////////////////////////////////////////// */ /** ** Note: DTD-handling sub-classes need to override this method. */ public Object getProcessedDTD() { return null; } public String getDTDRootName() { if (mRootPrefix == null) { return mRootLName; } return mRootPrefix + ":" + mRootLName; } public String getDTDPublicId() { return mDtdPublicId; } public String getDTDSystemId() { return mDtdSystemId; } /** * @return Internal subset portion of the DOCTYPE declaration, if any; * empty String if none */ public String getDTDInternalSubset() { if (mCurrToken != DTD) { return null; } return mTextBuffer.contentsAsString(); } /** * Internal method used by implementation */ private char[] getDTDInternalSubsetArray() { /* Note: no checks for current state, but only because it's * an internal method and callers are known to ensure it's ok * to call this */ return mTextBuffer.contentsAsArray(); } // // StAX2, v2.0 /** * Sub-class will override this method */ public DTDValidationSchema getProcessedDTDSchema() { return null; } /* //////////////////////////////////////////////////// // LocationInfo implementation (StAX 2) //////////////////////////////////////////////////// */ // // // First, the "raw" offset accessors: public long getStartingByteOffset() { /* 15-Apr-2005, TSa: No way to reliably keep track of byte offsets, * at least for variable-length encodings... so let's just * return -1 for now */ return -1L; } public long getStartingCharOffset() { return mTokenInputTotal; } public long getEndingByteOffset() throws XMLStreamException { /* 15-Apr-2005, TSa: No way to reliably keep track of byte offsets, * at least for variable-length encodings... so let's just * return -1 for now */ return -1; } public long getEndingCharOffset() throws XMLStreamException { // Need to get to the end of the token, if not there yet if (mTokenState < mStTextThreshold) { finishToken(false); } return mCurrInputProcessed + mInputPtr; } // // // and then the object-based access methods: public final Location getLocation() { return getStartLocation(); } // public XMLStreamLocation2 getStartLocation() // from base class // public XMLStreamLocation2 getCurrentLocation() // - "" - public final XMLStreamLocation2 getEndLocation() throws XMLStreamException { // Need to get to the end of the token, if not there yet if (mTokenState < mStTextThreshold) { finishToken(false); } // And then we just need the current location! return getCurrentLocation(); } /* //////////////////////////////////////////////////// // Stax2 validation //////////////////////////////////////////////////// */ public XMLValidator validateAgainst(XMLValidationSchema schema) throws XMLStreamException { // Not implemented by the basic reader: return null; } public XMLValidator stopValidatingAgainst(XMLValidationSchema schema) throws XMLStreamException { // Not implemented by the basic reader: return null; } public XMLValidator stopValidatingAgainst(XMLValidator validator) throws XMLStreamException { // Not implemented by the basic reader: return null; } public ValidationProblemHandler setValidationProblemHandler(ValidationProblemHandler h) { // Not implemented by the basic reader: return null; } /* ////////////////////////////////////////////////////// // StreamReaderImpl implementation ////////////////////////////////////////////////////// */ public EntityDecl getCurrentEntityDecl() { return mCurrEntity; } /** * Method called by {@link com.ctc.wstx.evt.DefaultEventAllocator} * to get double-indirection necessary for constructing start element * events. * * @return Null, if stream does not point to start element; whatever * callback returns otherwise. */ public Object withStartElement(ElemCallback cb, Location loc) { if (mCurrToken != START_ELEMENT) { return null; } return cb.withStartElement(loc, getName(), mElementStack.createNonTransientNsContext(loc), mAttrCollector.buildAttrOb(), mStEmptyElem); } public boolean isNamespaceAware() { return mCfgNsEnabled; } /** * Method needed by classes (like stream writer implementations) * that want to have efficient direct access to element stack * implementation */ public InputElementStack getInputElementStack() { return mElementStack; } /** * Method needed by classes (like stream writer implementations) * that want to have efficient direct access to attribute collector * Object, for optimal attribute name and value access. */ public AttributeCollector getAttributeCollector() { return mAttrCollector; } /* ////////////////////////////////////////////////////// // Support for SAX XMLReader implementation ////////////////////////////////////////////////////// */ public void fireSaxStartElement(ContentHandler h, Attributes attrs) throws SAXException { if (h != null) { // First; any ns declarations? int nsCount = mElementStack.getCurrentNsCount(); for (int i = 0; i < nsCount; ++i) { String prefix = mElementStack.getLocalNsPrefix(i); String uri = mElementStack.getLocalNsURI(i); h.startPrefixMapping((prefix == null) ? "" : prefix, uri); } // Then start-elem event itself: String uri = mElementStack.getNsURI(); // Sax requires "" (not null) for ns uris... h.startElement((uri == null) ? "" : uri, mElementStack.getLocalName(), getPrefixedName(), attrs); } } public void fireSaxEndElement(ContentHandler h) throws SAXException { if (h != null) { /* Order of events is reversed (wrt. start-element): first * the end tag event, then unbound prefixes */ String uri = mElementStack.getNsURI(); // Sax requires "" (not null) for ns uris... h.endElement((uri == null) ? "" : uri, mElementStack.getLocalName(), getPrefixedName()); // Any expiring ns declarations? int nsCount = mElementStack.getCurrentNsCount(); for (int i = 0; i < nsCount; ++i) { String prefix = mElementStack.getLocalNsPrefix(i); //String nsUri = mElementStack.getLocalNsURI(i); h.endPrefixMapping((prefix == null) ? "" : prefix); } } } public void fireSaxCharacterEvents(ContentHandler h) throws XMLStreamException, SAXException { if (h != null) { if (mPendingException != null) { XMLStreamException sex = mPendingException; mPendingException = null; throw sex; } /* Let's not defer errors; SAXTest implies * it's expected errors are thrown right away */ if (mTokenState < mStTextThreshold) { finishToken(false); } mTextBuffer.fireSaxCharacterEvents(h); } } public void fireSaxSpaceEvents(ContentHandler h) throws XMLStreamException, SAXException { if (h != null) { if (mTokenState < mStTextThreshold) { finishToken(false); // no error deferring } mTextBuffer.fireSaxSpaceEvents(h); } } public void fireSaxCommentEvent(LexicalHandler h) throws XMLStreamException, SAXException { if (h != null) { if (mTokenState < mStTextThreshold) { finishToken(false); // no error deferring } mTextBuffer.fireSaxCommentEvent(h); } } public void fireSaxPIEvent(ContentHandler h) throws XMLStreamException, SAXException { if (h != null) { if (mTokenState < mStTextThreshold) { finishToken(false); // no error deferring } h.processingInstruction(mCurrName, mTextBuffer.contentsAsString()); } } /* //////////////////////////////////////////////////// // Internal methods, config access //////////////////////////////////////////////////// */ protected final boolean hasConfigFlags(int flags) { return (mConfigFlags & flags) == flags; } /* //////////////////////////////////////////////////// // Internal methods, parsing helper methods //////////////////////////////////////////////////// */ /** * @return Null, if keyword matches ok; String that contains erroneous * keyword if not. */ protected String checkKeyword(char c, String expected) throws XMLStreamException { int ptr = 0; int len = expected.length(); while (expected.charAt(ptr) == c && ++ptr < len) { if (mInputPtr < mInputEnd) { c = mInputBuffer[mInputPtr++]; } else { int ci = getNext(); if (ci < 0) { // EOF break; } c = (char) ci; } } if (ptr == len) { // Probable match... but let's make sure keyword is finished: int i = peekNext(); if (i < 0 || (!isNameChar((char) i) && i != ':')) { return null; } // Nope, continues, need to find the rest: } StringBuffer sb = new StringBuffer(expected.length() + 16); sb.append(expected.substring(0, ptr)); if (ptr < len) { sb.append(c); } while (true) { if (mInputPtr < mInputEnd) { c = mInputBuffer[mInputPtr++]; } else { int ci = getNext(); if (ci < 0) { // EOF break; } c = (char) ci; } if (!isNameChar(c)) { // Let's push it back then --mInputPtr; break; } sb.append(c); } return sb.toString(); } protected void checkCData() throws XMLStreamException { String wrong = checkKeyword(getNextCharFromCurrent(SUFFIX_IN_CDATA), "CDATA"); if (wrong != null) { throwParseError("Unrecognized XML directive '"+wrong+"'; expected 'CDATA'."); } // Plus, need the bracket too: char c = getNextCharFromCurrent(SUFFIX_IN_CDATA); if (c != '[') { throwUnexpectedChar(c, "excepted '[' after '= 3 && (c = resolveSimpleEntity(true)) != CHAR_NULL) { // Ok, fine, c is whatever it is ; } else { // full entity just changes buffer... c = fullyResolveEntity(false); if (c == CHAR_NULL) { // need to skip output, thusly (expanded to new input source) continue; } } } } else if (c == '<') { throwParseError("Unexpected '<' "+SUFFIX_IN_ATTR_VALUE); } // Ok, let's just add char in, whatever it was if (outPtr >= outLen) { outBuf = tb.bufferFull(1); outLen = outBuf.length; } outBuf[outPtr++] = c; } // Fine; let's tell TextBuild we're done: tb.setBufferSize(outPtr); } /* ///////////////////////////////////////////////////// // Internal methods, parsing prolog (before root) and // epilog ///////////////////////////////////////////////////// */ /** * Method called to find type of next token in prolog; either reading * just enough information to know the type (lazy parsing), or the * full contents (non-lazy) * * @return True if we hit EOI, false otherwise */ private boolean nextFromProlog(boolean isProlog) throws XMLStreamException { int i; // First, do we need to finish currently open token? if (mTokenState < mStTextThreshold) { mTokenState = TOKEN_FULL_COALESCED; i = skipToken(); // note: skipToken() updates the start location } else { // Need to update the start location... mTokenInputTotal = mCurrInputProcessed + mInputPtr; mTokenInputRow = mCurrInputRow; mTokenInputCol = mInputPtr - mCurrInputRowStart; i = getNext(); } // Any white space to parse or skip? if (i <= CHAR_SPACE && i >= 0) { // Need to return as an event? if (hasConfigFlags(CFG_REPORT_PROLOG_WS)) { mCurrToken = SPACE; if (readSpacePrimary((char) i, true)) { /* no need to worry about coalescing, since CDATA is not * allowed at this level... */ mTokenState = TOKEN_FULL_COALESCED; } else { if (mCfgLazyParsing) { /* Let's not even bother checking if it's * "long enough"; shouldn't usually matter, but few * apps care to get multiple adjacent SPACE events... */ mTokenState = TOKEN_STARTED; } else { readSpaceSecondary(true); mTokenState = TOKEN_FULL_COALESCED; } } return false; } // If not, can skip it right away --mInputPtr; // to handle linefeeds gracefully i = getNextAfterWS(); if (i >= 0) { // ... after which location has to be reset properly: /* 11-Apr-2005, TSa: But note that we need to "move back" * column and total offset values by one, to compensate * for the char that was read (row can not have changed, * since it's non-WS, and thus non-lf/cr char) */ mTokenInputTotal = mCurrInputProcessed + mInputPtr - 1; mTokenInputRow = mCurrInputRow; mTokenInputCol = mInputPtr - mCurrInputRowStart - 1; } } // Did we hit EOI? if (i < 0) { handleEOF(isProlog); mParseState = STATE_CLOSED; return true; } // Now we better have a lt... if (i != '<') { throwUnexpectedChar(i, (isProlog ? SUFFIX_IN_PROLOG : SUFFIX_IN_EPILOG) +"; expected '<'"); } // And then it should be easy to figure out type: char c = getNextChar(isProlog ? SUFFIX_IN_PROLOG : SUFFIX_IN_EPILOG); if (c == '?') { // proc. inst mCurrToken = readPIPrimary(); } else if (c == '!') { // DOCTYPE or comment (or CDATA, but not legal here) // Need to figure out bit more first... nextFromPrologBang(isProlog); } else if (c == '/') { // end tag not allowed... if (isProlog) { throwParseError("Unexpected character combination '' in prolog."); } throwParseError("Unexpected character combination '' in epilog (extra close tag?)."); } else if (c == ':' || isNameStartChar(c)) { // Root element, only allowed after prolog if (!isProlog) { /* This call will throw an exception if there's a problem; * otherwise set up everything properly */ mCurrToken = handleExtraRoot(c); // will check input parsing mode... return false; } handleRootElem(c); mCurrToken = START_ELEMENT; } else { throwUnexpectedChar(c, (isProlog ? SUFFIX_IN_PROLOG : SUFFIX_IN_EPILOG) +", after '<'."); } // Ok; final twist, maybe we do NOT want lazy parsing? if (!mCfgLazyParsing && mTokenState < mStTextThreshold) { finishToken(false); } return false; } protected void handleRootElem(char c) throws XMLStreamException { mParseState = STATE_TREE; initValidation(); handleStartElem(c); // Does name match with DOCTYPE declaration (if any)? // 20-Jan-2006, TSa: Only check this is we are (DTD) validating... if (mRootLName != null) { if (hasConfigFlags(CFG_VALIDATE_AGAINST_DTD)) { if (!mElementStack.matches(mRootPrefix, mRootLName)) { String actual = (mRootPrefix == null) ? mRootLName : (mRootPrefix + ":" + mRootLName); reportValidationProblem(ErrorConsts.ERR_VLD_WRONG_ROOT, actual, mRootLName); } } } } /** * Method called right before the document root element is handled. * The default implementation is empty; validating stream readers * should override the method and do whatever initialization is * necessary */ protected void initValidation() throws XMLStreamException { ; // nothing to do here } protected int handleEOF(boolean isProlog) throws XMLStreamException { /* 19-Aug-2006, TSa: mSecondaryToken needs to be initialized to * END_DOCUMENT so we'll know it hasn't been yet accessed. */ mCurrToken = mSecondaryToken = END_DOCUMENT; /* Although buffers have most likely already been recycled, * let's call this again just in case. At this point we can * safely discard any contents */ mTextBuffer.recycle(true); // true -> clean'n recycle // It's ok to get EOF from epilog but not from prolog if (isProlog) { throwUnexpectedEOF(SUFFIX_IN_PROLOG); } return mCurrToken; } /** * Method called if a root-level element is found after the main * root element was closed. This is legal in multi-doc parsing * mode (and in fragment mode), but not in the default single-doc * mode. * * @return Token to return */ private int handleExtraRoot(char c) throws XMLStreamException { if (!mConfig.inputParsingModeDocuments()) { /* Has to be single-doc mode, since fragment mode * should never get here (since fragment mode never has epilog * or prolog modes) */ throwParseError("Illegal to have multiple roots (start tag in epilog?)."); } // Need to push back the char, since it is the first char of elem name --mInputPtr; return handleMultiDocStart(START_ELEMENT); } /** * Method called when an event was encountered that indicates document * boundary in multi-doc mode. Needs to trigger dummy * END_DOCUMENT/START_DOCUMENT event combination, followed by the * handling of the original event. * * @return Event type to return */ protected int handleMultiDocStart(int nextEvent) { mParseState = STATE_MULTIDOC_HACK; mTokenState = TOKEN_FULL_COALESCED; // this is a virtual event after all... mSecondaryToken = nextEvent; return END_DOCUMENT; } /** * Method called to get the next event when we are "multi-doc hack" mode, * during which extra END_DOCUMENT/START_DOCUMENT events need to be * returned. */ private int nextFromMultiDocState() throws XMLStreamException { if (mCurrToken == END_DOCUMENT) { /* Ok; this is the initial step; need to advance: need to parse * xml declaration if that was the cause, otherwise just clear * up values. */ if (mSecondaryToken == START_DOCUMENT) { handleMultiDocXmlDecl(); } else { // Nah, DOCTYPE or start element... just need to clear decl info: mDocXmlEncoding = null; mDocXmlVersion = XmlConsts.XML_V_UNKNOWN; mDocStandalone = DOC_STANDALONE_UNKNOWN; } return START_DOCUMENT; } if (mCurrToken == START_DOCUMENT) { mParseState = STATE_PROLOG; // yup, we are now officially in prolog again... // Had an xml decl (ie. "real" START_DOCUMENT event) if (mSecondaryToken == START_DOCUMENT) { // was a real xml decl nextFromProlog(true); return mCurrToken; } // Nah, start elem or DOCTYPE if (mSecondaryToken == START_ELEMENT) { handleRootElem(getNextChar(SUFFIX_IN_ELEMENT)); return START_ELEMENT; } if (mSecondaryToken == DTD) { mStDoctypeFound = true; startDTD(); return DTD; } } throw new IllegalStateException("Internal error: unexpected state; current event " +tokenTypeDesc(mCurrToken)+", sec. state: "+tokenTypeDesc(mSecondaryToken)); } protected void handleMultiDocXmlDecl() throws XMLStreamException { // Let's default these first mDocStandalone = DOC_STANDALONE_UNKNOWN; mDocXmlEncoding = null; char c = getNextInCurrAfterWS(SUFFIX_IN_XML_DECL); String wrong = checkKeyword(c, XmlConsts.XML_DECL_KW_VERSION); if (wrong != null) { throwParseError(ErrorConsts.ERR_UNEXP_KEYWORD, wrong, XmlConsts.XML_DECL_KW_VERSION); } c = skipEquals(XmlConsts.XML_DECL_KW_VERSION, SUFFIX_IN_XML_DECL); TextBuffer tb = mTextBuffer; tb.resetInitialized(); parseQuoted(XmlConsts.XML_DECL_KW_VERSION, c, tb); if (tb.equalsString(XmlConsts.XML_V_10_STR)) { mDocXmlVersion = XmlConsts.XML_V_10; mXml11 = false; } else if (tb.equalsString(XmlConsts.XML_V_11_STR)) { mDocXmlVersion = XmlConsts.XML_V_11; mXml11 = true; } else { mDocXmlVersion = XmlConsts.XML_V_UNKNOWN; mXml11 = false; throwParseError("Unexpected xml version '"+tb.toString()+"'; expected '"+XmlConsts.XML_V_10_STR+"' or '"+XmlConsts.XML_V_11_STR+"'"); } c = getNextInCurrAfterWS(SUFFIX_IN_XML_DECL); if (c != '?') { // '?' signals end... if (c == 'e') { // encoding wrong = checkKeyword(c, XmlConsts.XML_DECL_KW_ENCODING); if (wrong != null) { throwParseError(ErrorConsts.ERR_UNEXP_KEYWORD, wrong, XmlConsts.XML_DECL_KW_ENCODING); } c = skipEquals(XmlConsts.XML_DECL_KW_ENCODING, SUFFIX_IN_XML_DECL); tb.resetWithEmpty(); parseQuoted(XmlConsts.XML_DECL_KW_ENCODING, c, tb); mDocXmlEncoding = tb.toString(); /* should we verify encoding at this point? let's not, for now; * since it's for information only, first declaration from * bootstrapper is used for the whole stream. */ c = getNextInCurrAfterWS(SUFFIX_IN_XML_DECL); } else if (c != 's') { throwUnexpectedChar(c, " in xml declaration; expected either 'encoding' or 'standalone' pseudo-attribute"); } // Standalone? if (c == 's') { wrong = checkKeyword(c, XmlConsts.XML_DECL_KW_STANDALONE); if (wrong != null) { throwParseError(ErrorConsts.ERR_UNEXP_KEYWORD, wrong, XmlConsts.XML_DECL_KW_STANDALONE); } c = skipEquals(XmlConsts.XML_DECL_KW_STANDALONE, SUFFIX_IN_XML_DECL); tb.resetWithEmpty(); parseQuoted(XmlConsts.XML_DECL_KW_STANDALONE, c, tb); if (tb.equalsString(XmlConsts.XML_SA_YES)) { mDocStandalone = DOC_STANDALONE_YES; } else if (tb.equalsString(XmlConsts.XML_SA_NO)) { mDocStandalone = DOC_STANDALONE_NO; } else { throwParseError("Unexpected xml '"+XmlConsts.XML_DECL_KW_STANDALONE+"' pseudo-attribute value '" +tb.toString()+"'; expected '"+XmlConsts.XML_SA_YES+"' or '"+ XmlConsts.XML_SA_NO+"'"); } c = getNextInCurrAfterWS(SUFFIX_IN_XML_DECL); } } if (c != '?') { throwUnexpectedChar(c, " in xml declaration; expected '?>' as the end marker"); } c = getNextCharFromCurrent(SUFFIX_IN_XML_DECL); if (c != '>') { throwUnexpectedChar(c, " in xml declaration; expected '>' to close the declaration"); } } /** * Method that checks that input following is of form * '[S]* '=' [S]*' (as per XML specs, production #25). * Will push back non-white space characters as necessary, in * case no equals char is encountered. */ protected final char skipEquals(String name, String eofMsg) throws XMLStreamException { char c = getNextInCurrAfterWS(eofMsg); if (c != '=') { throwUnexpectedChar(c, " in xml declaration; expected '=' to follow pseudo-attribute '"+name+"'"); } // trailing space? return getNextInCurrAfterWS(eofMsg); } /** * Method called to parse quoted xml declaration pseudo-attribute values. * Works similar to attribute value parsing, except no entities can be * included, and in general need not be as picky (since caller is to * verify contents). One exception is that we do check for linefeeds * and lt chars, since they generally would indicate problems and * are useful to catch early on (can happen if a quote is missed etc) *
* Note: since it'll be called at most 3 times per document, this method * is not optimized too much. */ protected final void parseQuoted(String name, char quoteChar, TextBuffer tbuf) throws XMLStreamException { if (quoteChar != '"' && quoteChar != '\'') { throwUnexpectedChar(quoteChar, " in xml declaration; waited ' or \" to start a value for pseudo-attribute '"+name+"'"); } char[] outBuf = tbuf.getCurrentSegment(); int outPtr = 0; while (true) { char c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextChar(SUFFIX_IN_XML_DECL); if (c == quoteChar) { break; } if (c < CHAR_SPACE || c == '<') { throwUnexpectedChar(c, SUFFIX_IN_XML_DECL); } else if (c == CHAR_NULL) { throwNullChar(); } if (outPtr >= outBuf.length) { outBuf = tbuf.finishCurrentSegment(); outPtr = 0; } outBuf[outPtr++] = c; } tbuf.setCurrentLength(outPtr); } /** * Called after character sequence '<!' has been found; expectation is * that it'll either be DOCTYPE declaration (if we are in prolog and * haven't yet seen one), or a comment. CDATA is not legal here; * it would start same way otherwise. */ private void nextFromPrologBang(boolean isProlog) throws XMLStreamException { int i = getNext(); if (i < 0) { throwUnexpectedEOF(SUFFIX_IN_PROLOG); } if (i == 'D') { // Doctype declaration? String keyw = checkKeyword('D', "DOCTYPE"); if (keyw != null) { throwParseError("Unrecognized XML directive ' * *
* NOTE: Since this default implementation will be overridden by * some sub-classes, make sure you do NOT change the method signature. * * @param copyContents If true, will copy contents of the internal * subset of DOCTYPE declaration * in the text buffer; if false, will just completely ignore the * subset (if one found). */ protected void finishDTD(boolean copyContents) throws XMLStreamException { /* We know there are no spaces, as this char was read and pushed * back earlier... */ char c = getNextChar(SUFFIX_IN_DTD); if (c == '[') { // Do we need to get contents as text too? if (copyContents) { ((BranchingReaderSource) mInput).startBranch(mTextBuffer, mInputPtr, mNormalizeLFs); } try { MinimalDTDReader.skipInternalSubset(this, mInput, mConfig); } finally { /* Let's close branching in any and every case (may allow * graceful recovery in error cases in future */ if (copyContents) { /* Need to "push back" ']' got in the succesful case * (that's -1 part below); * in error case it'll just be whatever last char was. */ ((BranchingReaderSource) mInput).endBranch(mInputPtr-1); } } // And then we need closing '>' c = getNextCharAfterWS(SUFFIX_IN_DTD_INTERNAL); } if (c != '>') { throwUnexpectedChar(c, "; expected '>' to finish DOCTYPE declaration."); } } /* //////////////////////////////////////////////////// // Internal methods, main parsing (inside root) //////////////////////////////////////////////////// */ /** * Method called to parse beginning of the next event within * document tree, and return its type. */ private final int nextFromTree() throws XMLStreamException { int i; // First, do we need to finish currently open token? if (mTokenState < mStTextThreshold) { // No need to update state... will get taken care of /* 03-Mar-2006, TSa: Let's add a sanity check here, temporarily, * to ensure we never skip any textual content when it is * to be validated */ if (mVldContent == XMLValidator.CONTENT_ALLOW_VALIDATABLE_TEXT) { if (mCurrToken == CHARACTERS || mCurrToken == CDATA) { // should never happen throwParseError("Internal error: skipping validatable text"); } } i = skipToken(); // note: skipToken() updates the start location } else { /* Start/end elements are never unfinished (ie. are always * completely read in) */ if (mCurrToken == START_ELEMENT) { // Start tag may be an empty tag: if (mStEmptyElem) { // and if so, we'll then get 'virtual' close tag: mStEmptyElem = false; // ... and location info is correct already return END_ELEMENT; } } else if (mCurrToken == END_ELEMENT) { // Close tag removes current element from stack if (!mElementStack.pop()) { // false if root closed // if so, we'll get to epilog, unless in fragment mode if (!mConfig.inputParsingModeFragment()) { return closeContentTree(); } // in fragment mode, fine, we'll just continue } } else if (mCurrToken == CDATA && mTokenState <= TOKEN_PARTIAL_SINGLE) { /* Just returned a partial CDATA... that's ok, just need to * know we won't get opening marker etc. * The tricky part here is just to ensure there's at least * one character; if not, need to just discard the empty * 'event' (note that it is possible to have an initial * empty CDATA event for truly empty CDATA block; but not * partial ones!). Let's just read it like a new * CData section first: */ // First, need to update the start location... mTokenInputTotal = mCurrInputProcessed + mInputPtr; mTokenInputRow = mCurrInputRow; mTokenInputCol = mInputPtr - mCurrInputRowStart; char c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextChar(SUFFIX_IN_CDATA); if (readCDataPrimary(c)) { // got it all! /* note: can not be in coalescing mode at this point; * as we can never have partial cdata without unfinished * token */ // ... still need to have gotten at least 1 char though: if (mTextBuffer.size() > 0) { return CDATA; } // otherwise need to continue and parse the next event } else { /* Hmmh. Have to verify we get at least one char from * CData section; if so, we are good to go for now; * if not, need to get that damn char first: */ if (mTextBuffer.size() == 0 && readCDataSecondary(mCfgLazyParsing ? 1 : mShortestTextSegment)) { // Ok, all of it read if (mTextBuffer.size() > 0) { // And had some contents mTokenState = TOKEN_FULL_SINGLE; return CDATA; } // if nothing read, we'll just fall back (see below) } else { // good enough! mTokenState = TOKEN_PARTIAL_SINGLE; return CDATA; } } /* If we get here, it was the end of the section, without * any more text inside CDATA, so let's just continue */ } // Once again, need to update the start location info: mTokenInputTotal = mCurrInputProcessed + mInputPtr; mTokenInputRow = mCurrInputRow; mTokenInputCol = mInputPtr - mCurrInputRowStart; i = getNext(); } if (i < 0) { /* 07-Oct-2005, TSa: May be ok in fragment mode (not otherwise), * but we can just check if element stack has anything, as that * handles all cases */ if (!mElementStack.isEmpty()) { throwUnexpectedEOF(); } return handleEOF(false); } /* 26-Aug-2004, TSa: We have to deal with entities, usually, if * they are the next thing; even in non-expanding mode there * are entities and then there are entities... :-) * Let's start with char entities; they can be expanded right away. */ while (i == '&') { mWsStatus = ALL_WS_UNKNOWN; /* 30-Aug-2004, TSa: In some contexts entities are not * allowed in any way, shape or form: */ if (mVldContent == XMLValidator.CONTENT_ALLOW_NONE) { /* May be char entity, general entity; whatever it is it's * invalid! */ reportInvalidContent(ENTITY_REFERENCE); } /* Need to call different methods based on whether we can do * automatic entity expansion or not: */ char c = mCfgReplaceEntities ? fullyResolveEntity(true) : resolveCharOnlyEntity(true); if (c != CHAR_NULL) { /* Char-entity... need to initialize text output buffer, then; * independent of whether it'll be needed or not. */ /* 30-Aug-2004, TSa: In some contexts only white space is * accepted... */ if (mVldContent <= XMLValidator.CONTENT_ALLOW_WS) { // As per xml specs, only straight white space is legal if (c > CHAR_SPACE) { /* 21-Sep-2008, TSa: Used to also require a call to * 'mElementStack.reallyValidating', if only ws * allowed, to cover the case where non-typing-dtd * was only used to discover SPACE type. But * now that we have CONTENT_ALLOW_WS_NONSTRICT, * shouldn't be needed. */ //if (mVldContent < XMLValidator.CONTENT_ALLOW_WS || mElementStack.reallyValidating()) { reportInvalidContent(CHARACTERS); } } TextBuffer tb = mTextBuffer; tb.resetInitialized(); tb.append(c); mTokenState = TOKEN_STARTED; return CHARACTERS; } /* Nope; was a general entity... in auto-mode, it's now been * expanded; in non-auto, need to figure out entity itself. */ if (!mCfgReplaceEntities) { EntityDecl ed = resolveNonCharEntity(); // Note: ed may still be null at this point mTokenState = TOKEN_FULL_COALESCED; mCurrEntity = ed; /* // let's not worry about non-parsed entities, since this is unexpanded mode // ... although it'd be an error either way? Should we report it? if (ed != null && !ed.isParsed()) { throwParseError("Reference to unparsed entity '"+ed.getName()+"' from content not allowed."); } */ return ENTITY_REFERENCE; } // Otherwise automatic expansion fine; just need the next char: i = getNextChar(SUFFIX_IN_DOC); } if (i == '<') { // Markup // And then it should be easy to figure out type: char c = getNextChar(SUFFIX_IN_ELEMENT); if (c == '?') { // proc. inst // 30-Aug-2004, TSa: Not legal for EMPTY elements if (mVldContent == XMLValidator.CONTENT_ALLOW_NONE) { reportInvalidContent(PROCESSING_INSTRUCTION); } return readPIPrimary(); } if (c == '!') { // CDATA or comment // Need to figure out bit more first... int type = nextFromTreeCommentOrCData(); // 30-Aug-2004, TSa: Not legal for EMPTY elements if (mVldContent == XMLValidator.CONTENT_ALLOW_NONE) { reportInvalidContent(type); } return type; } if (c == '/') { // always legal (if name matches etc) readEndElem(); return END_ELEMENT; } if (c == ':' || isNameStartChar(c)) { /* Note: checking for EMPTY content type is done by the * validator, no need to check here */ handleStartElem(c); return START_ELEMENT; } if (c == '[') { throwUnexpectedChar(c, " in content after '<' (malformed = mShortestTextSegment) { mTokenState = TOKEN_PARTIAL_SINGLE; } else { mTokenState = TOKEN_STARTED; } } return CHARACTERS; } /** * Method called when advacing stream past the end tag that closes * the root element of the open document. * Document can be either the singular one, in regular mode, or one of * possibly multiple, in multi-doc mode: this method is never called * in fragment mode. Method needs to update state properly and * parse following epilog event (if any). * * @return Event following end tag of the root elemennt, if any; * END_DOCUMENT otherwis.e */ private int closeContentTree() throws XMLStreamException { mParseState = STATE_EPILOG; // this call will update the location too... if (nextFromProlog(false)) { mSecondaryToken = 0; } /* 10-Apr-2006, TSa: Let's actually try to update * SymbolTable here (after main xml tree); caller * may not continue parsing after this. */ if (mSymbols.isDirty()) { mOwner.updateSymbolTable(mSymbols); } /* May be able to recycle, but not certain; and * definitely can not just clean contents (may * contain space(s) read) */ mTextBuffer.recycle(false); return mCurrToken; } /** * Method that takes care of parsing of start elements; including * full parsing of namespace declarations and attributes, as well as * namespace resolution. */ private final void handleStartElem(char c) throws XMLStreamException { mTokenState = TOKEN_FULL_COALESCED; boolean empty; if (mCfgNsEnabled) { String str = parseLocalName(c); c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_EOF_EXP_NAME); if (c == ':') { // Ok, got namespace and local name c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_EOF_EXP_NAME); mElementStack.push(str, parseLocalName(c)); c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_ELEMENT); } else { mElementStack.push(null, str); // c is fine as } /* Enough about element name itself; let's then parse attributes * and namespace declarations. Split into another method for clarity, * and so that maybe JIT has easier time to optimize it separately. */ /* 04-Jul-2005, TSa: But hold up: we can easily check for a fairly * common case of no attributes showing up, and us getting the * closing '>' right away. Let's do that, since it can save * a call to a rather long method. */ empty = (c == '>') ? false : handleNsAttrs(c); } else { // Namespace handling not enabled: mElementStack.push(parseFullName(c)); c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_ELEMENT); empty = (c == '>') ? false : handleNonNsAttrs(c); } if (!empty) { ++mCurrDepth; // needed to match nesting with entity expansion } mStEmptyElem = empty; /* Validation aspects differ depending on whether we have an * empty tag or not */ int vld = mElementStack.resolveAndValidateElement(); if (empty) { vld = mElementStack.validateEndElement(); } mVldContent = vld; mValidateText = (vld == XMLValidator.CONTENT_ALLOW_VALIDATABLE_TEXT); } /** * @return True if this is an empty element; false if not */ private final boolean handleNsAttrs(char c) throws XMLStreamException { AttributeCollector ac = mAttrCollector; while (true) { if (c <= CHAR_SPACE) { c = getNextInCurrAfterWS(SUFFIX_IN_ELEMENT, c); } else if (c != '/' && c != '>') { throwUnexpectedChar(c, " excepted space, or '>' or \"/>\""); } if (c == '/') { c = getNextCharFromCurrent(SUFFIX_IN_ELEMENT); if (c != '>') { throwUnexpectedChar(c, " expected '>'"); } return true; } else if (c == '>') { return false; } else if (c == '<') { throwParseError("Unexpected '<' character in element (missing closing '>'?)"); } String prefix, localName; String str = parseLocalName(c); c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_EOF_EXP_NAME); if (c == ':') { // Ok, got namespace and local name prefix = str; c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_EOF_EXP_NAME); localName = parseLocalName(c); } else { --mInputPtr; // pushback prefix = null; localName = str; } c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_ELEMENT); if (c <= CHAR_SPACE) { c = getNextInCurrAfterWS(SUFFIX_IN_ELEMENT, c); } if (c != '=') { throwUnexpectedChar(c, " expected '='"); } c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_ELEMENT); if (c <= CHAR_SPACE) { c = getNextInCurrAfterWS(SUFFIX_IN_ELEMENT, c); } // And then a quote: if (c != '"' && c != '\'') { throwUnexpectedChar(c, SUFFIX_IN_ELEMENT+" Expected a quote"); } // And then the actual value int startLen = -1; TextBuilder tb; if (prefix == sPrefixXmlns) { // non-default namespace declaration tb = ac.getNsBuilder(localName); // returns null if it's a dupe: if (null == tb) { throwParseError("Duplicate declaration for namespace prefix '"+localName+"'."); } startLen = tb.getCharSize(); } else if (localName == sPrefixXmlns && prefix == null) { tb = ac.getDefaultNsBuilder(); // returns null if default ns was already declared if (null == tb) { throwParseError("Duplicate default namespace declaration."); } } else { tb = ac.getAttrBuilder(prefix, localName); } tb.startNewEntry(); parseNormalizedAttrValue(c, tb); /* 19-Jul-2004, TSa: Need to check that non-default namespace * URI is NOT empty, as per XML namespace specs, #2, * ("...In such declarations, the namespace name may not * be empty.") */ /* (note: startLen is only set to first char position for * non-default NS declarations, see above...) */ /* 04-Feb-2005, TSa: Namespaces 1.1 does allow this, though, * so for xml 1.1 documents we need to allow it */ if (!mXml11) { if (startLen >= 0 && tb.getCharSize() == startLen) { // is empty! throwParseError(ErrorConsts.ERR_NS_EMPTY); } } // and then we need to iterate some more c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_ELEMENT); } // never gets here } /** * @return True if this is an empty element; false if not */ private final boolean handleNonNsAttrs(char c) throws XMLStreamException { AttributeCollector ac = mAttrCollector; while (true) { if (c <= CHAR_SPACE) { c = getNextInCurrAfterWS(SUFFIX_IN_ELEMENT, c); } else if (c != '/' && c != '>') { throwUnexpectedChar(c, " excepted space, or '>' or \"/>\""); } if (c == '/') { c = getNextCharFromCurrent(SUFFIX_IN_ELEMENT); if (c != '>') { throwUnexpectedChar(c, " expected '>'"); } return true; } else if (c == '>') { return false; } else if (c == '<') { throwParseError("Unexpected '<' character in element (missing closing '>'?)"); } String name = parseFullName(c); TextBuilder tb = ac.getAttrBuilder(null, name); c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_ELEMENT); if (c <= CHAR_SPACE) { c = getNextInCurrAfterWS(SUFFIX_IN_ELEMENT, c); } if (c != '=') { throwUnexpectedChar(c, " expected '='"); } c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_ELEMENT); if (c <= CHAR_SPACE) { c = getNextInCurrAfterWS(SUFFIX_IN_ELEMENT, c); } // And then a quote: if (c != '"' && c != '\'') { throwUnexpectedChar(c, SUFFIX_IN_ELEMENT+" Expected a quote"); } // And then the actual value tb.startNewEntry(); parseNormalizedAttrValue(c, tb); // and then we need to iterate some more c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_ELEMENT); } // never gets here } /** * Method called to completely read a close tag, and update element * stack appropriately (including checking that tag matches etc). */ protected final void readEndElem() throws XMLStreamException { mTokenState = TOKEN_FULL_COALESCED; // will be read completely if (mElementStack.isEmpty()) { // Let's just offline this for clarity reportExtraEndElem(); return; // never gets here } char c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_CLOSE_ELEMENT); // Quick check first; missing name? if (!isNameStartChar(c) && c != ':') { if (c <= CHAR_SPACE) { // space throwUnexpectedChar(c, "; missing element name?"); } throwUnexpectedChar(c, "; expected an element name."); } /* Ok, now; good thing is we know exactly what to compare * against... */ String expPrefix = mElementStack.getPrefix(); String expLocalName = mElementStack.getLocalName(); // Prefix to match? if (expPrefix != null && expPrefix.length() > 0) { int len = expPrefix.length(); int i = 0; while (true){ if (c != expPrefix.charAt(i)) { reportWrongEndPrefix(expPrefix, expLocalName, i); return; // never gets here } if (++i >= len) { break; } c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_CLOSE_ELEMENT); } // And then we should get a colon c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_CLOSE_ELEMENT); if (c != ':') { reportWrongEndPrefix(expPrefix, expLocalName, i); return; } c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_CLOSE_ELEMENT); } // Ok, then, does the local name match? int len = expLocalName.length(); int i = 0; while (true){ if (c != expLocalName.charAt(i)) { // Not a match... reportWrongEndElem(expPrefix, expLocalName, i); return; // never gets here } if (++i >= len) { break; } c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_CLOSE_ELEMENT); } // Let's see if end element still continues, however? c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_CLOSE_ELEMENT); if (c <= CHAR_SPACE) { c = getNextInCurrAfterWS(SUFFIX_IN_CLOSE_ELEMENT, c); } else if (c == '>') { ; } else if (c == ':' || isNameChar(c)) { reportWrongEndElem(expPrefix, expLocalName, len); } // Ok, fine, match ok; now we just need the closing gt char. if (c != '>') { throwUnexpectedChar(c, SUFFIX_IN_CLOSE_ELEMENT+" Expected '>'."); } // Finally, let's let validator detect if things are ok int vld = mElementStack.validateEndElement(); mVldContent = vld; mValidateText = (vld == XMLValidator.CONTENT_ALLOW_VALIDATABLE_TEXT); // Plus verify WFC that start and end tags came from same entity /* 13-Feb-2006, TSa: Are we about to close an element that * started within a parent element? * That's a GE/element nesting WFC violation... */ if (mCurrDepth == mInputTopDepth) { handleGreedyEntityProblem(mInput); } --mCurrDepth; } private void reportExtraEndElem() throws XMLStreamException { String name = parseFNameForError(); throwParseError("Unbalanced close tag "+name+">; no open start tag."); } private void reportWrongEndPrefix(String prefix, String localName, int done) throws XMLStreamException { --mInputPtr; // pushback String fullName = prefix + ":" + localName; String rest = parseFNameForError(); String actName = fullName.substring(0, done) + rest; throwParseError("Unexpected close tag "+actName+">; expected " +fullName+">."); } private void reportWrongEndElem(String prefix, String localName, int done) throws XMLStreamException { --mInputPtr; // pushback String fullName; if (prefix != null && prefix.length() > 0) { fullName = prefix + ":" + localName; done += 1 + prefix.length(); } else { fullName = localName; } String rest = parseFNameForError(); String actName = fullName.substring(0, done) + rest; throwParseError("Unexpected close tag "+actName+">; expected " +fullName+">."); } /** *
* Note: According to StAX 1.0, coalesced text events are always to be * returned as CHARACTERS, never as CDATA. And since at this point we * don't really know if there's anything to coalesce (but there may * be), let's convert CDATA if necessary. */ private int nextFromTreeCommentOrCData() throws XMLStreamException { char c = getNextCharFromCurrent(SUFFIX_IN_DOC); if (c == '[') { checkCData(); /* Good enough; it is a CDATA section... but let's just also * parse the easy ("free") stuff: */ c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_CDATA); readCDataPrimary(c); // sets token state appropriately... return CDATA; } if (c == '-' && getNextCharFromCurrent(SUFFIX_IN_DOC) == '-') { mTokenState = TOKEN_STARTED; return COMMENT; } throwParseError("Unrecognized XML directive; expected CDATA or comment (' * Note: this method is to accurately update the location information * to reflect where the next event will start (or, in case of EOF, where * EOF was encountered, ie. where event would start, if there was one). * * @return Next character after node has been skipped, or -1 if EOF * follows */ private int skipToken() throws XMLStreamException { int result; main_switch: switch (mCurrToken) { case CDATA: { /* 30-Aug-2004, TSa: Need to be careful here: we may * actually have finished with CDATA, but are just * coalescing... if so, need to skip first part of * skipping */ if (mTokenState <= TOKEN_PARTIAL_SINGLE) { // Skipping CDATA is easy; just need to spot closing ]]> skipCommentOrCData(SUFFIX_IN_CDATA, ']', false); } result = getNext(); // ... except if coalescing, may need to skip more: if (mCfgCoalesceText) { result = skipCoalescedText(result); } } break; case COMMENT: skipCommentOrCData(SUFFIX_IN_COMMENT, '-', true); result = 0; break; case CHARACTERS: { result = skipTokenText(getNext()); // ... except if coalescing, need to skip more: if (mCfgCoalesceText) { result = skipCoalescedText(result); } } break; case DTD: finishDTD(false); result = 0; break; case PROCESSING_INSTRUCTION: while (true) { char c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_PROC_INSTR); if (c == '?') { do { c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_PROC_INSTR); } while (c == '?'); if (c == '>') { result = 0; break main_switch; } } if (c < CHAR_SPACE) { if (c == '\n' || c == '\r') { skipCRLF(c); } else if (c != '\t') { throwInvalidSpace(c); } } } // never gets in here case SPACE: while (true) { // Fairly easy to skip through white space... while (mInputPtr < mInputEnd) { char c = mInputBuffer[mInputPtr++]; if (c > CHAR_SPACE) { // non-EOF non-WS? result = c; break main_switch; } if (c == '\n' || c == '\r') { skipCRLF(c); } else if (c != CHAR_SPACE && c != '\t') { throwInvalidSpace(c); } } if (!loadMore()) { result = -1; break main_switch; } } // never gets in here case ENTITY_REFERENCE: // these should never end up in here... case ENTITY_DECLARATION: case NOTATION_DECLARATION: case START_DOCUMENT: case END_DOCUMENT: // As are start/end document throw new IllegalStateException("skipToken() called when current token is "+tokenTypeDesc(mCurrToken)); case ATTRIBUTE: case NAMESPACE: // These two are never returned by this class case START_ELEMENT: case END_ELEMENT: /* Never called for elements tokens; start token handled * differently, end token always completely read in the first place */ default: throw new IllegalStateException("Internal error: unexpected token "+tokenTypeDesc(mCurrToken)); } /* Ok; now we have 3 possibilities; result is: * * + 0 -> could reliably read the prev event, now need the * following char/EOF * + -1 -> hit EOF; can return it * + something else -> this is the next char, return it. * * In first 2 cases, next event start offset is the current location; * in third case, it needs to be backtracked by one char */ if (result < 1) { mTokenInputRow = mCurrInputRow; mTokenInputTotal = mCurrInputProcessed + mInputPtr; mTokenInputCol = mInputPtr - mCurrInputRowStart; return (result < 0) ? result : getNext(); } // Ok, need to offset location, and return whatever we got: mTokenInputRow = mCurrInputRow; mTokenInputTotal = mCurrInputProcessed + mInputPtr - 1; mTokenInputCol = mInputPtr - mCurrInputRowStart - 1; return result; } private void skipCommentOrCData(String errorMsg, char endChar, boolean preventDoubles) throws XMLStreamException { /* Let's skip all chars except for double-ending chars in * question (hyphen for comments, right brack for cdata) */ while (true) { char c; do { c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(errorMsg); if (c < CHAR_SPACE) { if (c == '\n' || c == '\r') { skipCRLF(c); } else if (c != '\t') { throwInvalidSpace(c); } } } while (c != endChar); // Now, we may be getting end mark; first need second marker char:. c = getNextChar(errorMsg); if (c == endChar) { // Probably? // Now; we should be getting a '>', most likely. c = getNextChar(errorMsg); if (c == '>') { break; } if (preventDoubles) { // if not, it may be a problem... throwParseError("String '--' not allowed in comment (missing '>'?)"); } // Otherwise, let's loop to see if there is end while (c == endChar) { c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(errorMsg); } if (c == '>') { break; } } // No match, did we get a linefeed? if (c < CHAR_SPACE) { if (c == '\n' || c == '\r') { skipCRLF(c); } else if (c != '\t') { throwInvalidSpace(c); } } // Let's continue from beginning, then } } /** * Method called to skip past all following text and CDATA segments, * until encountering something else (including a general entity, * which may in turn expand to text). * * @return Character following all the skipped text and CDATA segments, * if any; or -1 to denote EOF */ private int skipCoalescedText(int i) throws XMLStreamException { while (true) { // Ok, plain text or markup? if (i == '<') { // markup, maybe CDATA? // Need to distinguish "= 3 && resolveSimpleEntity(true) != CHAR_NULL) { ; } else { i = fullyResolveEntity(true); /* Either way, it's just fine; we don't care about * returned single-char value. */ } } else { /* Can only skip character entities; others need to * be returned separately. */ if (resolveCharOnlyEntity(true) == CHAR_NULL) { /* Now points to the char after ampersand, and we need * to return the ampersand itself */ return i; } } } else if (i < CHAR_SPACE) { if (i == '\r' || i == '\n') { skipCRLF((char) i); } else if (i < 0) { // EOF return i; } else if (i != '\t') { throwInvalidSpace(i); } } // Hmmh... let's do quick looping here: while (mInputPtr < mInputEnd) { char c = mInputBuffer[mInputPtr++]; if (c < CHAR_FIRST_PURE_TEXT) { // need to check it i = c; continue main_loop; } } i = getNext(); } // never gets here... } /* //////////////////////////////////////////////////// // Internal methods, parsing //////////////////////////////////////////////////// */ protected void ensureFinishToken() throws XMLStreamException { if (mTokenState < mStTextThreshold) { finishToken(false); } } protected void safeEnsureFinishToken() { if (mTokenState < mStTextThreshold) { safeFinishToken(); } } protected void safeFinishToken() { try { /* 24-Sep-2006, TSa: Let's try to reduce number of unchecked * (wrapped) exceptions we throw, and defer some. For now, * this is only for CHARACTERS (since it's always legal to * split CHARACTERS segment); could be expanded in future. */ boolean deferErrors = (mCurrToken == CHARACTERS); finishToken(deferErrors); } catch (XMLStreamException strex) { throwLazyError(strex); } } /** * Method called to read in contents of the token completely, if not * yet read. Generally called when caller needs to access anything * other than basic token type (except for elements), text contents * or such. * * @param deferErrors Flag to enable storing an exception to a * variable, instead of immediately throwing it. If true, will * just store the exception; if false, will not store, just throw. */ protected void finishToken(boolean deferErrors) throws XMLStreamException { switch (mCurrToken) { case CDATA: if (mCfgCoalesceText) { readCoalescedText(mCurrToken, deferErrors); } else { if (readCDataSecondary(mShortestTextSegment)) { mTokenState = TOKEN_FULL_SINGLE; } else { mTokenState = TOKEN_PARTIAL_SINGLE; } } return; case CHARACTERS: if (mCfgCoalesceText) { /* 21-Sep-2005, TSa: It is often possible to optimize * here: if we get '<' NOT followed by '!', it can not * be CDATA, and thus we are done. */ if (mTokenState == TOKEN_FULL_SINGLE && (mInputPtr + 1) < mInputEnd && mInputBuffer[mInputPtr+1] != '!') { mTokenState = TOKEN_FULL_COALESCED; return; } readCoalescedText(mCurrToken, deferErrors); } else { if (readTextSecondary(mShortestTextSegment, deferErrors)) { mTokenState = TOKEN_FULL_SINGLE; } else { mTokenState = TOKEN_PARTIAL_SINGLE; } } return; case SPACE: { /* Only need to ensure there's no non-whitespace text * when parsing 'real' ignorable white space (in validating * mode, but that's implicit here) */ boolean prolog = (mParseState != STATE_TREE); readSpaceSecondary(prolog); mTokenState = TOKEN_FULL_COALESCED; } return; case COMMENT: readComment(); mTokenState = TOKEN_FULL_COALESCED; return; case DTD: /* 05-Jan-2006, TSa: Although we shouldn't have to use finally * here, it's probably better to do that for robustness * (specifically, in case of a parsing problem, we don't want * to remain in 'DTD partially read' case -- it's better * to get in panic mode and skip the rest) */ try { finishDTD(true); } finally { mTokenState = TOKEN_FULL_COALESCED; } return; case PROCESSING_INSTRUCTION: readPI(); mTokenState = TOKEN_FULL_COALESCED; return; case START_ELEMENT: case END_ELEMENT: // these 2 should never end up in here... case ENTITY_REFERENCE: case ENTITY_DECLARATION: case NOTATION_DECLARATION: case START_DOCUMENT: case END_DOCUMENT: throw new IllegalStateException("finishToken() called when current token is "+tokenTypeDesc(mCurrToken)); case ATTRIBUTE: case NAMESPACE: // These two are never returned by this class default: } throw new IllegalStateException("Internal error: unexpected token "+tokenTypeDesc(mCurrToken)); } private void readComment() throws XMLStreamException { char[] inputBuf = mInputBuffer; int inputLen = mInputEnd; int ptr = mInputPtr; int start = ptr; // Let's first see if we can just share input buffer: while (ptr < inputLen) { char c = inputBuf[ptr++]; if (c > '-') { continue; } if (c < CHAR_SPACE) { if (c == '\n') { markLF(ptr); } else if (c == '\r') { if (!mNormalizeLFs && ptr < inputLen) { if (inputBuf[ptr] == '\n') { ++ptr; } markLF(ptr); } else { --ptr; // pushback break; } } else if (c != '\t') { throwInvalidSpace(c); } } else if (c == '-') { // Ok; need to get '->', can not get '--' if ((ptr + 1) >= inputLen) { /* Can't check next 2, let's push '-' back, for rest of * code to take care of */ --ptr; break; } if (inputBuf[ptr] != '-') { // Can't skip, might be LF/CR continue; } // Ok; either get '>' or error: c = inputBuf[ptr+1]; if (c != '>') { throwParseError("String '--' not allowed in comment (missing '>'?)"); } mTextBuffer.resetWithShared(inputBuf, start, ptr-start-1); mInputPtr = ptr + 2; return; } } mInputPtr = ptr; mTextBuffer.resetWithCopy(inputBuf, start, ptr-start); readComment2(mTextBuffer); } private void readComment2(TextBuffer tb) throws XMLStreamException { /* Output pointers; calls will also ensure that the buffer is * not shared, AND has room for at least one more char */ char[] outBuf = mTextBuffer.getCurrentSegment(); int outPtr = mTextBuffer.getCurrentSegmentSize(); int outLen = outBuf.length; while (true) { char c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_COMMENT); if (c < CHAR_SPACE) { if (c == '\n') { markLF(); } else if (c == '\r') { if (skipCRLF(c)) { // got 2 char LF if (!mNormalizeLFs) { if (outPtr >= outLen) { // need more room? outBuf = mTextBuffer.finishCurrentSegment(); outLen = outBuf.length; outPtr = 0; } outBuf[outPtr++] = c; } // And let's let default output the 2nd char c = '\n'; } else if (mNormalizeLFs) { // just \r, but need to convert c = '\n'; // For Mac text } } else if (c != '\t') { throwInvalidSpace(c); } } else if (c == '-') { // Ok; need to get '->', can not get '--' c = getNextCharFromCurrent(SUFFIX_IN_COMMENT); if (c == '-') { // Ok, has to be end marker then: // Either get '>' or error: c = getNextCharFromCurrent(SUFFIX_IN_COMMENT); if (c != '>') { throwParseError(ErrorConsts.ERR_HYPHENS_IN_COMMENT); } break; } /* Not the end marker; let's just output the first hyphen, * push the second char back , and let main * code handle it. */ c = '-'; --mInputPtr; } // Need more room? if (outPtr >= outLen) { outBuf = mTextBuffer.finishCurrentSegment(); outLen = outBuf.length; outPtr = 0; } // Ok, let's add char to output: outBuf[outPtr++] = c; } // Ok, all done, then! mTextBuffer.setCurrentLength(outPtr); } /** * Method that reads the primary part of a PI, ie. target, and also * skips white space between target and data (if any data) * * @return Usually
PROCESSING_INSTRUCTION
; but may be * different in multi-doc mode, if we actually hit a secondary * xml declaration. */ private final int readPIPrimary() throws XMLStreamException { // Ok, first we need the name: String target = parseFullName(); mCurrName = target; if (target.length() == 0) { throwParseError(ErrorConsts.ERR_WF_PI_MISSING_TARGET); } // As per XML specs, #17, case-insensitive 'xml' is illegal: if (target.equalsIgnoreCase("xml")) { // 07-Oct-2005, TSa: Still legal in multi-doc mode... if (!mConfig.inputParsingModeDocuments()) { throwParseError(ErrorConsts.ERR_WF_PI_XML_TARGET, target, null); } // Ok, let's just verify we get space then char c = getNextCharFromCurrent(SUFFIX_IN_XML_DECL); if (!isSpaceChar(c)) { throwUnexpectedChar(c, "excepted a space in xml declaration after 'xml'"); } return handleMultiDocStart(START_DOCUMENT); } // And then either white space before data, or end marker: char c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_PROC_INSTR); if (isSpaceChar(c)) { // Ok, space to skip mTokenState = TOKEN_STARTED; // Need to skip the WS... skipWS(c); } else { // Nope; apparently finishes right away... mTokenState = TOKEN_FULL_COALESCED; mTextBuffer.resetWithEmpty(); // or does it? if (c != '?' || getNextCharFromCurrent(SUFFIX_IN_PROC_INSTR) != '>') { throwUnexpectedChar(c, ErrorConsts.ERR_WF_PI_XML_MISSING_SPACE); } } return PROCESSING_INSTRUCTION; } /** * Method that parses a processing instruction's data portion; at this * point target has been parsed. */ private void readPI() throws XMLStreamException { int ptr = mInputPtr; int start = ptr; char[] inputBuf = mInputBuffer; int inputLen = mInputEnd; outer_loop: while (ptr < inputLen) { char c = inputBuf[ptr++]; if (c < CHAR_SPACE) { if (c == '\n') { markLF(ptr); } else if (c == '\r') { if (ptr < inputLen && !mNormalizeLFs) { if (inputBuf[ptr] == '\n') { ++ptr; } markLF(ptr); } else { --ptr; // pushback break; } } else if (c != '\t') { throwInvalidSpace(c); } } else if (c == '?') { // K; now just need '>' after zero or more '?'s while (true) { if (ptr >= inputLen) { /* end of buffer; need to push back at least one of * question marks (not all, since just one is needed * to close the PI) */ --ptr; break outer_loop; } c = inputBuf[ptr++]; if (c == '>') { mInputPtr = ptr; // Need to discard trailing '?>' mTextBuffer.resetWithShared(inputBuf, start, ptr-start-2); return; } if (c != '?') { // Not end, can continue, but need to push back last char, in case it's LF/CR --ptr; break; } } } } mInputPtr = ptr; // No point in trying to share... let's just append mTextBuffer.resetWithCopy(inputBuf, start, ptr-start); readPI2(mTextBuffer); } private void readPI2(TextBuffer tb) throws XMLStreamException { char[] inputBuf = mInputBuffer; int inputLen = mInputEnd; int inputPtr = mInputPtr; /* Output pointers; calls will also ensure that the buffer is * not shared, AND has room for one more char */ char[] outBuf = tb.getCurrentSegment(); int outPtr = tb.getCurrentSegmentSize(); main_loop: while (true) { // Let's first ensure we have some data in there... if (inputPtr >= inputLen) { loadMoreFromCurrent(SUFFIX_IN_PROC_INSTR); inputBuf = mInputBuffer; inputPtr = mInputPtr; inputLen = mInputEnd; } // And then do chunks char c = inputBuf[inputPtr++]; if (c < CHAR_SPACE) { if (c == '\n') { markLF(inputPtr); } else if (c == '\r') { mInputPtr = inputPtr; if (skipCRLF(c)) { // got 2 char LF if (!mNormalizeLFs) { // Special handling, to output 2 chars at a time: if (outPtr >= outBuf.length) { // need more room? outBuf = mTextBuffer.finishCurrentSegment(); outPtr = 0; } outBuf[outPtr++] = c; } // And let's let default output the 2nd char, either way c = '\n'; } else if (mNormalizeLFs) { // just \r, but need to convert c = '\n'; // For Mac text } /* Since skipCRLF() needs to peek(), buffer may have * changed, even if there was no CR+LF. */ inputPtr = mInputPtr; inputBuf = mInputBuffer; inputLen = mInputEnd; } else if (c != '\t') { throwInvalidSpace(c); } } else if (c == '?') { // Ok, just need '>' after zero or more '?'s mInputPtr = inputPtr; // to allow us to call getNextChar qmLoop: while (true) { c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_PROC_INSTR); if (c == '>') { // got it! break main_loop; } else if (c == '?') { if (outPtr >= outBuf.length) { // need more room? outBuf = tb.finishCurrentSegment(); outPtr = 0; } outBuf[outPtr++] = c; } else { /* Hmmh. Wasn't end mark after all. Thus, need to * fall back to normal processing, with one more * question mark (first one matched that wasn't * yet output), * reset variables, and go back to main loop. */ inputPtr = --mInputPtr; // push back last char inputBuf = mInputBuffer; inputLen = mInputEnd; c = '?'; break qmLoop; } } } // if (c == '?) // Need more room? if (outPtr >= outBuf.length) { outBuf = tb.finishCurrentSegment(); outPtr = 0; } // Ok, let's add char to output: outBuf[outPtr++] = c; } // while (true) tb.setCurrentLength(outPtr); } /** * Method called to read the content of both current CDATA/CHARACTERS * events, and all following consequtive events into the text buffer. * At this point the current type is known, prefix (for CDATA) skipped, * and initial consequtive contents (if any) read in. * * @param deferErrors Flag to enable storing an exception to a * variable, instead of immediately throwing it. If true, will * just store the exception; if false, will not store, just throw. */ protected void readCoalescedText(int currType, boolean deferErrors) throws XMLStreamException { boolean wasCData; // Ok; so we may need to combine adjacent text/CDATA chunks. if (currType == CHARACTERS || currType == SPACE) { readTextSecondary(Integer.MAX_VALUE, deferErrors); wasCData = false; } else if (currType == CDATA) { /* We may have actually really finished it, but just left * the 'unfinished' flag due to need to coalesce... */ if (mTokenState <= TOKEN_PARTIAL_SINGLE) { readCDataSecondary(Integer.MAX_VALUE); } wasCData = true; } else { throw new IllegalStateException("Internal error: unexpected token "+tokenTypeDesc(mCurrToken)+"; expected CHARACTERS, CDATA or SPACE."); } // But how about additional text? while (!deferErrors || (mPendingException == null)) { if (mInputPtr >= mInputEnd) { mTextBuffer.ensureNotShared(); if (!loadMore()) { // ??? Likely an error but let's just break break; } } // Let's peek, ie. not advance it yet char c = mInputBuffer[mInputPtr]; if (c == '<') { // CDATA, maybe? // Need to distinguish ") or until * first 'hole' in text (buffer end, 2-char lf to convert, entity). ** When the method is called, it's expected that the first character * has been read as is in the current input buffer just before current * pointer * * @param c First character in the CDATA segment (possibly part of end * marker for empty segments * * @return True if the whole CDATA segment was completely read; this * happens only if lt-char is hit; false if it's possible that * it wasn't read (ie. end-of-buffer or entity encountered). */ private final boolean readCDataPrimary(char c) throws XMLStreamException { mWsStatus = (c <= CHAR_SPACE) ? ALL_WS_UNKNOWN : ALL_WS_NO; int ptr = mInputPtr; int inputLen = mInputEnd; char[] inputBuf = mInputBuffer; int start = ptr-1; while (true) { if (c < CHAR_SPACE) { if (c == '\n') { markLF(ptr); } else if (c == '\r') { if (ptr >= inputLen) { // can't peek? --ptr; break; } if (mNormalizeLFs) { // can we do in-place Mac replacement? if (inputBuf[ptr] == '\n') { // nope, 2 char lf --ptr; break; } inputBuf[ptr-1] = '\n'; // yup } else { // No LF normalization... can we just skip it? if (inputBuf[ptr] == '\n') { ++ptr; } } markLF(ptr); } else if (c != '\t') { throwInvalidSpace(c); } } else if (c == ']') { // Ok; need to get one or more ']'s, then '>' if ((ptr + 1) >= inputLen) { // not enough room? need to push it back --ptr; break; } // Needs to be followed by another ']'... if (inputBuf[ptr] == ']') { ++ptr; inner_loop: while (true) { if (ptr >= inputLen) { /* Need to push back last 2 right brackets; it may * be end marker divided by input buffer boundary */ ptr -= 2; break inner_loop; } c = inputBuf[ptr++]; if (c == '>') { // Ok, got it! mInputPtr = ptr; ptr -= (start+3); mTextBuffer.resetWithShared(inputBuf, start, ptr); mTokenState = TOKEN_FULL_SINGLE; return true; } if (c != ']') { // Need to re-check this char (may be linefeed) --ptr; break inner_loop; } // Fall through to next round } } } if (ptr >= inputLen) { // end-of-buffer? break; } c = inputBuf[ptr++]; } mInputPtr = ptr; /* If we end up here, we either ran out of input, or hit something * which would leave 'holes' in buffer... fine, let's return then; * we can still update shared buffer copy: would be too early to * make a copy since caller may not even be interested in the * stuff. */ int len = ptr - start; mTextBuffer.resetWithShared(inputBuf, start, len); if (mCfgCoalesceText || (mTextBuffer.size() < mShortestTextSegment)) { mTokenState = TOKEN_STARTED; } else { mTokenState = TOKEN_PARTIAL_SINGLE; } return false; } /** * @return True if the whole CData section was completely read (we * hit the end marker); false if a shorter segment was returned. */ protected boolean readCDataSecondary(int shortestSegment) throws XMLStreamException { // Input pointers char[] inputBuf = mInputBuffer; int inputLen = mInputEnd; int inputPtr = mInputPtr; /* Output pointers; calls will also ensure that the buffer is * not shared, AND has room for one more char */ char[] outBuf = mTextBuffer.getCurrentSegment(); int outPtr = mTextBuffer.getCurrentSegmentSize(); while (true) { if (inputPtr >= inputLen) { loadMore(SUFFIX_IN_CDATA); inputBuf = mInputBuffer; inputPtr = mInputPtr; inputLen = mInputEnd; } char c = inputBuf[inputPtr++]; if (c < CHAR_SPACE) { if (c == '\n') { markLF(inputPtr); } else if (c == '\r') { mInputPtr = inputPtr; if (skipCRLF(c)) { // got 2 char LF if (!mNormalizeLFs) { // Special handling, to output 2 chars at a time: outBuf[outPtr++] = c; if (outPtr >= outBuf.length) { // need more room? outBuf = mTextBuffer.finishCurrentSegment(); outPtr = 0; } } // And let's let default output the 2nd char, either way c = '\n'; } else if (mNormalizeLFs) { // just \r, but need to convert c = '\n'; // For Mac text } /* Since skipCRLF() needs to peek(), buffer may have * changed, even if there was no CR+LF. */ inputPtr = mInputPtr; inputBuf = mInputBuffer; inputLen = mInputEnd; } else if (c != '\t') { throwInvalidSpace(c); } } else if (c == ']') { // Ok; need to get ']>' mInputPtr = inputPtr; if (checkCDataEnd(outBuf, outPtr)) { return true; } inputPtr = mInputPtr; inputBuf = mInputBuffer; inputLen = mInputEnd; outBuf = mTextBuffer.getCurrentSegment(); outPtr = mTextBuffer.getCurrentSegmentSize(); continue; // need to re-process last (non-bracket) char } // Ok, let's add char to output: outBuf[outPtr++] = c; // Need more room? if (outPtr >= outBuf.length) { TextBuffer tb = mTextBuffer; // Perhaps we have now enough to return? if (!mCfgCoalesceText) { tb.setCurrentLength(outBuf.length); if (tb.size() >= mShortestTextSegment) { mInputPtr = inputPtr; return false; } } // If not, need more buffer space: outBuf = tb.finishCurrentSegment(); outPtr = 0; } } // never gets here } /** * Method that will check, given the starting ']', whether there is * ending ']]>' (including optional extra ']'s); if so, will updated * output buffer with extra ]s, if not, will make sure input and output * are positioned for further checking. * * @return True, if we hit the end marker; false if not. */ private boolean checkCDataEnd(char[] outBuf, int outPtr) throws XMLStreamException { int bracketCount = 0; char c; do { ++bracketCount; c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_CDATA); } while (c == ']'); boolean match = (bracketCount >= 2 && c == '>'); if (match) { bracketCount -= 2; } while (bracketCount > 0) { --bracketCount; outBuf[outPtr++] = ']'; if (outPtr >= outBuf.length) { /* Can't really easily return, even if we have enough * stuff here, since we've more than one char... */ outBuf = mTextBuffer.finishCurrentSegment(); outPtr = 0; } } mTextBuffer.setCurrentLength(outPtr); // Match? Can break, then: if (match) { return true; } // No match, need to push the last char back and admit defeat... --mInputPtr; return false; } /** * Method called to read in consequtive beginning parts of a text * segment, up to either end of the segment (lt char) or until * first 'hole' in text (buffer end, 2-char lf to convert, entity). *
* When the method is called, it's expected that the first character * has been read as is in the current input buffer just before current * pointer * * @param c First character of the text segment * * @return True if the whole text segment was completely read; this * happens only if lt-char is hit; false if it's possible that * it wasn't read (ie. end-of-buffer or entity encountered). */ private final boolean readTextPrimary(char c) throws XMLStreamException { int ptr = mInputPtr; int start = ptr-1; // First: can we heuristically canonicalize ws used for indentation? if (c <= CHAR_SPACE) { int len = mInputEnd; /* Even without indentation removal, it's good idea to * 'convert' \r or \r\n into \n (by replacing or skipping first * char): this may allow reusing the buffer. * But note that conversion MUST be enabled -- this is toggled * by code that includes internal entities, to prevent replacement * of CRs from int. general entities, as applicable. */ do { // We'll need at least one char, no matter what: if (ptr < len && mNormalizeLFs) { if (c == '\r') { c = '\n'; if (mInputBuffer[ptr] == c) { /* Ok, whatever happens, can 'skip' \r, to * point to following \n: */ ++start; // But if that's buffer end, can't skip that if (++ptr >= len) { break; } } else { mInputBuffer[start] = c; } } else if (c != '\n') { break; } markLF(ptr); if (mCheckIndentation > 0) { ptr = readIndentation(c, ptr); if (ptr < 0) { // success! return true; } } // If we got this far, we skipped a lf, need to read next char c = mInputBuffer[ptr++]; } } while (false); // can we figure out indentation? mWsStatus = ALL_WS_UNKNOWN; } else { mWsStatus = ALL_WS_NO; } char[] inputBuf = mInputBuffer; int inputLen = mInputEnd; // Let's first see if we can just share input buffer: while (true) { if (c < CHAR_FIRST_PURE_TEXT) { if (c == '<') { mInputPtr = --ptr; mTextBuffer.resetWithShared(inputBuf, start, ptr-start); return true; } if (c < CHAR_SPACE) { if (c == '\n') { markLF(ptr); } else if (c == '\r') { if (ptr >= inputLen) { // can't peek? --ptr; break; } if (mNormalizeLFs) { // can we do in-place Mac replacement? if (inputBuf[ptr] == '\n') { // nope, 2 char lf --ptr; break; } /* This would otherwise be risky (may modify value * of a shared entity value), but since DTDs are * cached/accessed based on properties including * lf-normalization there's no harm in 'fixing' it * in place. */ inputBuf[ptr-1] = '\n'; // yup } else { // No LF normalization... can we just skip it? if (inputBuf[ptr] == '\n') { ++ptr; } } markLF(ptr); } else if (c != '\t') { // Should consume invalid char, but not include in result mInputPtr = ptr; mTextBuffer.resetWithShared(inputBuf, start, ptr-start-1); /* Let's defer exception, provided we got at least * one valid character (if not, better throw * exception right away) */ boolean deferErrors = (ptr - start) > 1; mPendingException = throwInvalidSpace(c, deferErrors); return true; } } else if (c == '&') { // Let's push it back and break --ptr; break; } else if (c == '>') { // Let's see if we got ']]>'? if ((ptr - start) >= 3) { if (inputBuf[ptr-3] == ']' && inputBuf[ptr-2] == ']') { /* Let's include ']]' in there, not '>' (since that * makes it non-wellformed): but need to consume * that char nonetheless */ mInputPtr = ptr; mTextBuffer.resetWithShared(inputBuf, start, ptr-start-1); mPendingException = throwWfcException(ErrorConsts.ERR_BRACKET_IN_TEXT, true); return true; // and we are fully done } } } } // if (char in lower code range) if (ptr >= inputLen) { // end-of-buffer? break; } c = inputBuf[ptr++]; } mInputPtr = ptr; /* If we end up here, we either ran out of input, or hit something * which would leave 'holes' in buffer... fine, let's return then; * we can still update shared buffer copy: would be too early to * make a copy since caller may not even be interested in the * stuff. */ mTextBuffer.resetWithShared(inputBuf, start, ptr - start); return false; } /** * * @param deferErrors Flag to enable storing an exception to a * variable, instead of immediately throwing it. If true, will * just store the exception; if false, will not store, just throw. * * @return True if the text segment was completely read ('<' was hit, * or in non-entity-expanding mode, a non-char entity); false if * it may still continue */ protected final boolean readTextSecondary(int shortestSegment, boolean deferErrors) throws XMLStreamException { /* Output pointers; calls will also ensure that the buffer is * not shared, AND has room for at least one more char */ char[] outBuf = mTextBuffer.getCurrentSegment(); int outPtr = mTextBuffer.getCurrentSegmentSize(); int inputPtr = mInputPtr; char[] inputBuffer = mInputBuffer; int inputLen = mInputEnd; while (true) { if (inputPtr >= inputLen) { /* 07-Oct-2005, TSa: Let's not throw an exception for EOF from * here -- in fragment mode, it shouldn't be thrown, and in * other modes we might as well first return text, and only * then throw an exception: no need to do that yet. */ mInputPtr = inputPtr; if (!loadMore()) { break; } inputPtr = mInputPtr; inputBuffer = mInputBuffer; inputLen = mInputEnd; } char c = inputBuffer[inputPtr++]; // Most common case is we don't have special char, thus: if (c < CHAR_FIRST_PURE_TEXT) { if (c < CHAR_SPACE) { if (c == '\n') { markLF(inputPtr); } else if (c == '\r') { mInputPtr = inputPtr; if (skipCRLF(c)) { // got 2 char LF if (!mNormalizeLFs) { // Special handling, to output 2 chars at a time: outBuf[outPtr++] = c; if (outPtr >= outBuf.length) { // need more room? outBuf = mTextBuffer.finishCurrentSegment(); outPtr = 0; } } // And let's let default output the 2nd char c = '\n'; } else if (mNormalizeLFs) { // just \r, but need to convert c = '\n'; // For Mac text } /* note: skipCRLF() may change ptr and len, but since * it does not close input source, it won't change * actual buffer object: */ //inputBuffer = mInputBuffer; inputLen = mInputEnd; inputPtr = mInputPtr; } else if (c != '\t') { mTextBuffer.setCurrentLength(outPtr); mInputPtr = inputPtr; mPendingException = throwInvalidSpace(c, deferErrors); break; } } else if (c == '<') { // end is nigh! mInputPtr = inputPtr-1; break; } else if (c == '&') { mInputPtr = inputPtr; if (mCfgReplaceEntities) { // can we expand all entities? if ((inputLen - inputPtr) >= 3 && (c = resolveSimpleEntity(true)) != CHAR_NULL) { // Ok, it's fine, c will get output } else { c = fullyResolveEntity(true); if (c == CHAR_NULL) { // Input buffer changed, nothing to output quite yet: inputBuffer = mInputBuffer; inputLen = mInputEnd; inputPtr = mInputPtr; continue; } // otherwise char is now fine... } } else { /* Nope, can only expand char entities; others need * to be separately handled. */ c = resolveCharOnlyEntity(true); if (c == CHAR_NULL) { // some other entity... /* can't expand; underlying pointer now points to * char after ampersand, need to rewind */ --mInputPtr; break; } // .. otherwise we got char we needed } inputPtr = mInputPtr; // not quite sure why this is needed... but it is: inputLen = mInputEnd; } else if (c == '>') { // Let's see if we got ']]>'? /* 21-Apr-2005, TSa: But we can NOT check the output buffer * as it contains _expanded_ stuff... only input side. * For now, 98% accuracy has to do, as we may not be able * to access previous buffer's contents. But at least we * won't produce false positives from entity expansion */ if (inputPtr > 2) { // can we do it here? // Since mInputPtr has been advanced, -1 refers to '>' if (inputBuffer[inputPtr-3] == ']' && inputBuffer[inputPtr-2] == ']') { mInputPtr = inputPtr; /* We have already added ']]' into output buffer... * should be ok, since only with '>' does it become * non-wellformed. */ mTextBuffer.setCurrentLength(outPtr); mPendingException = throwWfcException(ErrorConsts.ERR_BRACKET_IN_TEXT, deferErrors); break; } } else { /* 21-Apr-2005, TSa: No good way to verify it, * at this point. Should come back and think of how * to properly handle this (rare) possibility. */ ; } } } // Ok, let's add char to output: outBuf[outPtr++] = c; // Need more room? if (outPtr >= outBuf.length) { TextBuffer tb = mTextBuffer; // Perhaps we have now enough to return? tb.setCurrentLength(outBuf.length); if (tb.size() >= shortestSegment) { mInputPtr = inputPtr; return false; } // If not, need more buffer space: outBuf = tb.finishCurrentSegment(); outPtr = 0; } } mTextBuffer.setCurrentLength(outPtr); return true; } /** * Method called to try to parse and canonicalize white space that * has a good chance of being white space with somewhat regular * structure; specifically, something that looks like typical * indentation. *
* Note: Caller guarantees that there will be at least 2 characters * available in the input buffer. And method has to ensure that if * it does not find a match, it will return pointer value such * that there is at least one valid character remaining. * * @return -1, if the content was determined to be canonicalizable * (indentation) white space; and thus fully parsed. Otherwise * pointer (value to set to mInputPtr) to the next character * to process (not processed by this method) */ private final int readIndentation(char c, int ptr) throws XMLStreamException { /* We need to verify that: * (a) we can read enough contiguous data to do determination * (b) sequence is a linefeed, with either zero or more following * spaces, or zero or more tabs; and followed by non-directive * tag (start/end tag) * and if so, we can use a canonical shared representation of * this even. */ final int inputLen = mInputEnd; final char[] inputBuf = mInputBuffer; int start = ptr-1; final char lf = c; // Note: caller guarantees at least one more char in the input buffer ws_loop: do { // dummy loop to allow for break (which indicates failure) c = inputBuf[ptr++]; if (c == ' ' || c == '\t') { // indentation? // Need to limit to maximum int lastIndCharPos = (c == ' ') ? TextBuffer.MAX_INDENT_SPACES : TextBuffer.MAX_INDENT_TABS; lastIndCharPos += ptr; if (lastIndCharPos > inputLen) { lastIndCharPos = inputLen; } inner_loop: while (true) { if (ptr >= lastIndCharPos) { // overflow; let's backtrack --ptr; break ws_loop; } char d = inputBuf[ptr++]; if (d != c) { if (d == '<') { // yup, got it! break inner_loop; } --ptr; // caller needs to reprocess it break ws_loop; // nope, blew it } } // This means we had success case; let's fall through } else if (c != '<') { // nope, can not be --ptr; // simpler if we just push it back; needs to be processed later on break ws_loop; } // Ok; we got '<'... just need any other char than '!'... if (ptr < inputLen && inputBuf[ptr] != '!') { // Voila! mInputPtr = --ptr; // need to push back that '<' too mTextBuffer.resetWithIndentation(ptr - start - 1, c); // One more thing: had a positive match, need to note it if (mCheckIndentation < INDENT_CHECK_MAX) { mCheckIndentation += INDENT_CHECK_START; } mWsStatus = ALL_WS_YES; return -1; } // Nope: need to push '<' back, then --ptr; } while (false); // Ok, nope... caller can/need to take care of it: /* Also, we may need to subtract indentation check count to possibly * disable this check if it doesn't seem to work. */ --mCheckIndentation; /* Also; if lf we got was \r, need to convert it now (this * method only gets called in lf converting mode) * (and yes, it is safe to modify input buffer at this point; * see calling method for details) */ if (lf == '\r') { inputBuf[start] = '\n'; } return ptr; } /** * Reading whitespace should be very similar to reading normal text; * although couple of simplifications can be made. Further, since this * method is very unlikely to be of much performance concern, some * optimizations are left out, where it simplifies code. * * @param c First white space characters; known to contain white space * at this point * @param prologWS If true, is reading white space outside XML tree, * and as such can get EOF. If false, should not get EOF, nor be * followed by any other char than < * * @return True if the whole white space segment was read; false if * something prevented that (end of buffer, replaceable 2-char lf) */ private final boolean readSpacePrimary(char c, boolean prologWS) throws XMLStreamException { int ptr = mInputPtr; char[] inputBuf = mInputBuffer; int inputLen = mInputEnd; int start = ptr-1; // Let's first see if we can just share input buffer: while (true) { /* 30-Aug-2006, TSa: Let's not check for validity errors yet, * even if we could detect problems at this point. * This because it's not always * an error (in dtd-aware, non-validating mode); but also since * that way we can first return all space we got, and only * indicate error when next token is to be accessed. */ if (c > CHAR_SPACE) { // End of whitespace mInputPtr = --ptr; mTextBuffer.resetWithShared(mInputBuffer, start, ptr-start); return true; } if (c == '\n') { markLF(ptr); } else if (c == '\r') { if (ptr >= mInputEnd) { // can't peek? --ptr; break; } if (mNormalizeLFs) { // can we do in-place Mac replacement? if (inputBuf[ptr] == '\n') { // nope, 2 char lf --ptr; break; } inputBuf[ptr-1] = '\n'; // yup } else { // No LF normalization... can we just skip it? if (inputBuf[ptr] == '\n') { ++ptr; } } markLF(ptr); } else if (c != CHAR_SPACE && c != '\t') { throwInvalidSpace(c); } if (ptr >= inputLen) { // end-of-buffer? break; } c = inputBuf[ptr++]; } mInputPtr = ptr; /* Ok, couldn't read it completely, let's just return whatever * we did get as shared data */ mTextBuffer.resetWithShared(inputBuf, start, ptr - start); return false; } /** * This is very similar to readSecondaryText(); called when we need * to read in rest of (ignorable) white space segment. * * @param prologWS True if the ignorable white space is within prolog * (or epilog); false if it's within xml tree. */ private void readSpaceSecondary(boolean prologWS) throws XMLStreamException { /* Let's not bother optimizing input. However, we can easily optimize * output, since it's easy to do, yet has more effect on performance * than localizing input variables. */ char[] outBuf = mTextBuffer.getCurrentSegment(); int outPtr = mTextBuffer.getCurrentSegmentSize(); while (true) { if (mInputPtr >= mInputEnd) { /* 07-Oct-2005, TSa: Let's not throw an exception yet -- * can return SPACE, and let exception be thrown * when trying to fetch next event. */ if (!loadMore()) { break; } } char c = mInputBuffer[mInputPtr]; if (c > CHAR_SPACE) { // end of WS? /* 30-Aug-2006, TSa: Let's not indicate an error quite yet: * it'll be reported in due time, later on, if necessary. * Here we can just return whatever we have collected * so far. */ //if (!prologWS && c != '<') { // throwNotWS(c); //} break; } ++mInputPtr; if (c == '\n') { markLF(); } else if (c == '\r') { if (skipCRLF(c)) { if (!mNormalizeLFs) { // Special handling, to output 2 chars at a time: outBuf[outPtr++] = c; if (outPtr >= outBuf.length) { // need more room? outBuf = mTextBuffer.finishCurrentSegment(); outPtr = 0; } } c = '\n'; } else if (mNormalizeLFs) { c = '\n'; // For Mac text } } else if (c != CHAR_SPACE && c != '\t') { throwInvalidSpace(c); } // Ok, let's add char to output: outBuf[outPtr++] = c; // Need more room? if (outPtr >= outBuf.length) { outBuf = mTextBuffer.finishCurrentSegment(); outPtr = 0; } } mTextBuffer.setCurrentLength(outPtr); } /** * Method called to read the contents of the current CHARACTERS * event, and write all contents using the specified Writer. * * @param w Writer to use for writing out textual content parsed * * @return Total number of characters written using the writer */ private int readAndWriteText(Writer w) throws IOException, XMLStreamException { mTokenState = TOKEN_FULL_SINGLE; // we'll read it all /* We should be able to mostly just use the input buffer at this * point; exceptions being two-char linefeeds (when converting * to single ones) and entities (which likewise can expand or * shrink), both of which require flushing and/or single byte * output. */ int start = mInputPtr; int count = 0; main_loop: while (true) { char c; // Reached the end of buffer? Need to flush, then if (mInputPtr >= mInputEnd) { int len = mInputPtr - start; if (len > 0) { w.write(mInputBuffer, start, len); count += len; } c = getNextChar(SUFFIX_IN_TEXT); start = mInputPtr-1; // needs to be prior to char we got } else { c = mInputBuffer[mInputPtr++]; } // Most common case is we don't have a special char, thus: if (c < CHAR_FIRST_PURE_TEXT) { if (c < CHAR_SPACE) { if (c == '\n') { markLF(); } else if (c == '\r') { char d; if (mInputPtr >= mInputEnd) { /* If we can't peek easily, let's flush past stuff * and load more... (have to flush, since new read * will overwrite inbut buffers) */ int len = mInputPtr - start; if (len > 0) { w.write(mInputBuffer, start, len); count += len; } d = getNextChar(SUFFIX_IN_TEXT); start = mInputPtr; // to mark 'no past content' } else { d = mInputBuffer[mInputPtr++]; } if (d == '\n') { if (mNormalizeLFs) { /* Let's flush content prior to 2-char LF, and * start the new segment on the second char... * this way, no mods are needed for the buffer, * AND it'll also work on split 2-char lf! */ int len = mInputPtr - 2 - start; if (len > 0) { w.write(mInputBuffer, start, len); count += len; } start = mInputPtr-1; // so '\n' is the first char } else { ; // otherwise it's good as is } } else { // not 2-char... need to replace? --mInputPtr; if (mNormalizeLFs) { mInputBuffer[mInputPtr-1] = '\n'; } } markLF(); } else if (c != '\t') { throwInvalidSpace(c); } } else if (c == '<') { // end is nigh! break main_loop; } else if (c == '&') { /* Have to flush all stuff, since entities pretty much * force it; input buffer won't be contiguous */ int len = mInputPtr - 1 - start; // -1 to remove ampersand if (len > 0) { w.write(mInputBuffer, start, len); count += len; } if (mCfgReplaceEntities) { // can we expand all entities? if ((mInputEnd - mInputPtr) < 3 || (c = resolveSimpleEntity(true)) == CHAR_NULL) { c = fullyResolveEntity(true); } } else { c = resolveCharOnlyEntity(true); if (c == CHAR_NULL) { // some other entity... /* can't expand, so, let's just bail out... but * let's also ensure no text is added twice, as * all prev text was just flushed, but resolve * may have moved input buffer around. */ start = mInputPtr; break main_loop; } } if (c != CHAR_NULL) { w.write(c); ++count; } start = mInputPtr; } else if (c == '>') { // did we get ']]>'? /* 21-Apr-2005, TSa: But we can NOT check the output buffer * (see comments in readTextSecondary() for details) */ if (mInputPtr >= 2) { // can we do it here? if (mInputBuffer[mInputPtr-2] == ']' && mInputBuffer[mInputPtr-1] == ']') { // Anything to flush? int len = mInputPtr - start; if (len > 0) { w.write(mInputBuffer, start, len); } throwParseError(ErrorConsts.ERR_BRACKET_IN_TEXT); } } else { ; // !!! TBI: how to check past boundary? } } else if (c == CHAR_NULL) { throwNullChar(); } } } // while (true) /* Need to push back '<' or '&', whichever caused us to * get out... */ --mInputPtr; // Anything left to flush? int len = mInputPtr - start; if (len > 0) { w.write(mInputBuffer, start, len); count += len; } return count; } /** * Method called to read the contents of the current (possibly partially * read) CDATA * event, and write all contents using the specified Writer. * * @param w Writer to use for writing out textual content parsed * * @return Total number of characters written using the writer for * the current CDATA event */ private int readAndWriteCData(Writer w) throws IOException, XMLStreamException { mTokenState = TOKEN_FULL_SINGLE; // we'll read it all /* Ok; here we can basically have 2 modes; first the big loop to * gather all data up until a ']'; and then another loop to see * if ']' is part of ']]>', and after this if no end marker found, * go back to the first part. */ char c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextChar(SUFFIX_IN_CDATA); int count = 0; main_loop: while (true) { int start = mInputPtr-1; quick_loop: while (true) { if (c > CHAR_CR_LF_OR_NULL) { if (c == ']') { break quick_loop; } } else { if (c < CHAR_SPACE) { if (c == '\n') { markLF(); } else if (c == '\r') { char d; if (mInputPtr >= mInputEnd) { /* If we can't peek easily, let's flush past stuff * and load more... (have to flush, since new read * will overwrite inbut buffers) */ int len = mInputPtr - start; if (len > 0) { w.write(mInputBuffer, start, len); count += len; } d = getNextChar(SUFFIX_IN_CDATA); start = mInputPtr; // to mark 'no past content' } else { d = mInputBuffer[mInputPtr++]; } if (d == '\n') { if (mNormalizeLFs) { /* Let's flush content prior to 2-char LF, and * start the new segment on the second char... * this way, no mods are needed for the buffer, * AND it'll also work on split 2-char lf! */ int len = mInputPtr - 2 - start; if (len > 0) { w.write(mInputBuffer, start, len); count += len; } start = mInputPtr-1; // so '\n' is the first char } else { // otherwise it's good as is } } else { // not 2-char... need to replace? --mInputPtr; if (mNormalizeLFs) { mInputBuffer[mInputPtr-1] = '\n'; } } markLF(); } else if (c != '\t') { throwInvalidSpace(c); } } } // Reached the end of buffer? Need to flush, then if (mInputPtr >= mInputEnd) { int len = mInputPtr - start; if (len > 0) { w.write(mInputBuffer, start, len); count += len; } start = 0; c = getNextChar(SUFFIX_IN_CDATA); } else { c = mInputBuffer[mInputPtr++]; } } // while (true) // Anything to flush once we hit ']'? { /* -1 since the last char in there (a '[') is NOT to be * output at this point */ int len = mInputPtr - start - 1; if (len > 0) { w.write(mInputBuffer, start, len); count += len; } } /* Ok; we only get this far when we hit a ']'. We got one, * so let's see if we can find at least one more bracket, * immediately followed by '>'... */ int bracketCount = 0; do { ++bracketCount; c = (mInputPtr < mInputEnd) ? mInputBuffer[mInputPtr++] : getNextCharFromCurrent(SUFFIX_IN_CDATA); } while (c == ']'); boolean match = (bracketCount >= 2 && c == '>'); if (match) { bracketCount -= 2; } while (bracketCount > 0) { --bracketCount; w.write(']'); ++count; } if (match) { break main_loop; } /* Otherwise we'll just loop; now c is properly set to be * the next char as well. */ } // while (true) return count; } /** * @return Number of characters written to Writer during the call */ private int readAndWriteCoalesced(Writer w, boolean wasCData) throws IOException, XMLStreamException { mTokenState = TOKEN_FULL_COALESCED; int count = 0; /* Ok, so what do we have next? CDATA, CHARACTERS, or something * else? */ main_loop: while (true) { if (mInputPtr >= mInputEnd) { if (!loadMore()) { /* Shouldn't normally happen, but let's just let * caller deal with it... */ break main_loop; } } // Let's peek, ie. not advance it yet char c = mInputBuffer[mInputPtr]; if (c == '<') { // CDATA, maybe? // Need to distinguish " CHAR_SPACE) { return false; } while (true) { // Linefeed? if (c == '\n' || c == '\r') { skipCRLF(c); } else if (c != CHAR_SPACE && c != '\t') { throwInvalidSpace(c); } if (mInputPtr >= mInputEnd) { // Let's see if current source has more if (!loadMoreFromCurrent()) { return true; } } c = mInputBuffer[mInputPtr]; if (c > CHAR_SPACE) { // not WS? Need to return return true; } ++mInputPtr; } } /* //////////////////////////////////////////////////// // Abstract method implementations //////////////////////////////////////////////////// */ // @Override protected EntityDecl findEntity(String id, Object arg) throws XMLStreamException { EntityDecl ed = (EntityDecl) mConfig.findCustomInternalEntity(id); if (ed == null && mGeneralEntities != null) { ed = (EntityDecl) mGeneralEntities.get(id); } /* 05-Mar-2006, TSa: Externally declared entities are illegal * if we were declared as "standalone='yes'"... */ if (mDocStandalone == DOC_STANDALONE_YES) { if (ed != null && ed.wasDeclaredExternally()) { throwParseError(ErrorConsts.ERR_WF_ENTITY_EXT_DECLARED, ed.getName(), null); } } return ed; } protected void handleUndeclaredEntity(String id) throws XMLStreamException { throwParseError(((mDocStandalone == DOC_STANDALONE_YES) ? ErrorConsts.ERR_WF_GE_UNDECLARED_SA : ErrorConsts.ERR_WF_GE_UNDECLARED), id, null); } protected void handleIncompleteEntityProblem(WstxInputSource closing) throws XMLStreamException { String top = mElementStack.isEmpty() ? "[ROOT]" : mElementStack.getTopElementDesc(); throwParseError("Unexpected end of entity expansion for entity &{0}; was expecting a close tag for element <{1}>", closing.getEntityId(), top); } protected char handleExpandedSurrogate(char first, char second) { /* With normal XML textual content we should be safe by just * directly modifying input buffer, essentially injecting * second character back into input buffer (which is known * to have room for at least one char at this point). */ mInputBuffer[--mInputPtr] = second; return first; } /* //////////////////////////////////////////////////// // Internal methods, validation, error handling and // reporting //////////////////////////////////////////////////// */ /** * This problem gets reported if an entity tries to expand to * a close tag matching start tag that did not came from the same * entity (but from parent). */ protected void handleGreedyEntityProblem(WstxInputSource input) throws XMLStreamException { String top = mElementStack.isEmpty() ? "[ROOT]" : mElementStack.getTopElementDesc(); throwParseError("Improper GE/element nesting: entity &" +input.getEntityId()+" contains closing tag for <"+top+">"); } private void throwNotTextual(int type) { throw new IllegalStateException("Not a textual event (" +tokenTypeDesc(mCurrToken)+")"); } private void throwNotTextXxx(int type) { throw new IllegalStateException("getTextXxx() methods can not be called on " +tokenTypeDesc(mCurrToken)); } protected void throwNotTextualOrElem(int type) { throw new IllegalStateException(MessageFormat.format(ErrorConsts.ERR_STATE_NOT_ELEM_OR_TEXT, new Object[] { tokenTypeDesc(type) })); } private void throwNotWS(char c) throws WstxException { throwUnexpectedChar(c, "; element <" +mElementStack.getTopElementDesc() +"> does not allow mixed content"); } /** * Method called when we get an EOF within content tree */ protected void throwUnexpectedEOF() throws WstxException { throwUnexpectedEOF("; was expecting a close tag for element <"+mElementStack.getTopElementDesc()+">"); } /** * Method called to report a problem with */ protected XMLStreamException _constructUnexpectedInTyped(int nextToken) { if (nextToken == START_ELEMENT) { return _constructTypeException("Element content can not contain child START_ELEMENT when using Typed Access methods", null); } return _constructTypeException("Expected a text token, got "+tokenTypeDesc(nextToken), null); } protected TypedXMLStreamException _constructTypeException(String msg, String lexicalValue) { return new TypedXMLStreamException(lexicalValue, msg, getStartLocation()); } /** * Stub method implemented by validating parsers, to report content * that's not valid for current element context. Defined at this * level since some such problems need to be caught at low-level; * however, details of error reports are not needed here. */ protected void reportInvalidContent(int evtType) throws XMLStreamException { // should never happen; sub-class has to override: throwParseError("Internal error: sub-class should override method"); } }